Disclosed example multi-rotational fixtures for radiography systems include: a plurality of fixture assemblies, each of the fixture assemblies configured to hold a plurality of objects for inspection in a radiography system; a driving rotation stage; one or more driven rotation stages coupled to the driving rotation stage, such that rotation of the driving rotation stage causes the driven rotation stages to rotate simultaneously, wherein the driving rotation stage and the one or more driven rotation stages supports and simultaneously rotates a corresponding one of the fixture assemblies; and a plurality of follower assemblies configured to support the plurality of fixture assemblies on an opposite end of the fixture assemblies from the driving rotation stage and the driven rotation stages.
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
2.
SINTERING FURNACE AND METHOD OF TREATING A PROCESSING ELEMENT IN A SINTERING FURNACE
The present disclosure discloses a sintering furnace including: a furnace chamber comprising a plurality of processing zones; a conveying device disposed within the furnace chamber and extending along a conveying direction, the conveying device configured to convey a processing element through a plurality of processing zones of the furnace chamber; and at least one temperature measurement device connected to the furnace chamber, the temperature measurement device configured to detect the temperature of the processing element in the furnace chamber and provide temperature data. The present disclosure directly detects the temperature of the photovoltaic device in the sintering furnace through a temperature measurement device, rather than detecting the temperature of the gas in the sintering furnace, for more directly controlling the amount of heat or cold absorbed by the photovoltaic device in various processing areas of the sintering furnace, thereby improving the yield of the product.
F27B 9/02 - Fours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité à trajets multiplesFours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité à plusieurs chambresCombinaisons de fours
F27B 9/12 - Fours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité avec dispositions particulières pour le préchauffage ou le refroidissement de la charge
F27B 9/40 - Aménagement des dispositifs de commande ou de surveillance
F27D 21/00 - Aménagement des dispositifs de surveillanceAménagement des dispositifs de sécurité
The disclosure relates to a weighbridge having a deck, a load cell (20) and a load transfer assembly (10). The load transfer assembly (10) is configured to transfer displacement of the deck to the load cell (20), in use, and includes a base (30) for attachment to a static substrate, wherein the base (30) has a protrusion (40) extending therefrom. The load transfer assembly (10) also includes a bracket (50) attached to the deck and configured to move with it, wherein the bracket (50) has a first part (52) for engagement with the load cell (20) and a second part (54) having an opening (56) in receipt of the protrusion (40). The opening (56) and protrusion (40) are together configured to restrict displacement of the deck relative to the base (30), in use.
G01G 21/23 - Supports ou suspensions de plates-formes de pesée
G01G 19/02 - Appareils ou méthodes de pesée adaptés à des fins particulières non prévues dans les groupes pour peser des objets à roues ou roulants, p. ex. des véhicules
4.
WELD MONITORING SYSTEMS WITH TOOL AND OPERATOR POSITION TRACKING
In some examples, weld monitoring systems may automatically identify a job, part, and/or activity in which an operator and/or tool is involved based on a tracked position and/or orientation of the operator and/or tool. The monitoring and/or recording of job, part, and/or activity information for each operator and/or tool may facilitate productivity, quality assurance, and/or maintenance analysis, as well as future planning. The automatic identification of the job, part, and/or activity in which the operator and/or tool is involved also ensures that that the weld monitoring system can still monitor effectively even if operators neglect to provide input regarding their activities.
B23K 9/095 - Surveillance ou commande automatique des paramètres de soudage
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
B23K 31/12 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs à la recherche des propriétés, p. ex. de soudabilité, des matériaux
5.
Air Bag Retainer with Assembly Prevention and Verification
A fastener assembly for coupling a first component to a second component is described. The assembly includes a fastener and a stamped-metal retainer. The fastener includes a head and a shank, while the stamped-metal retainer features a body portion and a pair of retainer legs resiliently connected to the body portion, transitioning between a first and second position. The body portion incorporates an internally threaded collar that defines a retainer opening that can receive and secure at least part of the shank. Each retainer leg includes a planar portion with a first tab and a second tab positioned on opposite sides of the planar portion. In the first position, the first tab prevents the fastener from being driven into the internally threaded collar; in the second position, it permits the fastener to be driven into the collar.
F16B 5/02 - Jonction de feuilles ou de plaques soit entre elles soit à des bandes ou barres parallèles à elles par organes de fixation utilisant un filetage
B60R 21/20 - Dispositions pour ranger les éléments gonflables non utilisés ou à l'état dégonfléAgencement ou montage des composants ou modules des coussins gonflables
An example welding-type system includes a cooler configured to recirculate coolant from a welding-type tool and comprising a cooler connection, a power supply comprising power conversion circuitry configured to convert input power to welding-type power, and a bezel comprising a power supply connector and configured to provide a coolant path between the power supply connector and the cooler connection. An example welding welding-type power supply connector includes a gas connection configured to receive shielding gas, an outlet connection configured to provide coolant to a welding-type tool, and an inlet connection configured to receive the coolant from the welding-type tool, wherein the power supply connector provides welding-type power.
Disclosed example welding-type power supplies include: power conversion circuitry configured to convert input power to welding-type output power; a user interface comprising one or more input devices; and control circuitry configured to: receive an input via the user interface, the input representing a value of a qualitative characteristic of a welding arc; based on the value of the qualitative characteristic, determine a plurality of welding parameters; display a representation of the welding arc via the user interface, the representation based on the value of the qualitative characteristic; and control the power conversion circuitry based on the plurality of welding parameters.
Disclosed example pressure sensors include: a temperature sensor; a pressure measurement assembly configured to output a pressure measurement signal; and measurement circuitry configured to: in response to a first calibration trigger, record a first pressure measured via the electrode, a first timestamp, and a first temperature measurement measured via the temperature sensor; in response to a second calibration trigger, record a second pressure measured via the electrode, a second timestamp, and a second temperature measurement via the temperature sensor; and calculate a first sensor drift rate by: determining a temperature-compensated second measured pressure by removing a first thermal shift from the second pressure; and determining the first sensor drift rate as a first curve between the first measured pressure and the temperature-compensated second measured pressure.
G01L 19/00 - Détails ou accessoires des appareils pour la mesure de la pression permanente ou quasi permanente d'un milieu fluent dans la mesure où ces détails ou accessoires ne sont pas particuliers à des types particuliers de manomètres
G01L 27/00 - Test ou étalonnage des appareils pour la mesure de la pression des fluides
9.
SYSTEMS AND METHODS FOR AN AC POWER GENERATOR DRIVEN BY A HYDRAULIC MOTOR
An example of an electrical generator system includes a hydraulic motor driven by a hydraulic power system. A generator coupled to and configured to be driven by the hydraulic motor. Power conversion circuitry is used to convert the power output from the generator to a synchronous alternating current (AC) power output.
In some examples, weld monitoring systems may use position tracking systems to track the positions, orientations, and/or movements of an (e.g., expert) operator performing a welding-type operation using a welding-type tool 106. An instruction generation process may then be used to automatically generate welding instructions based on the tracked positions, orientations, and/or movements. The welding instructions may be associated with a particular job, part, and/or welding position, and thereafter used to help guide future operators through similar welding-type operations when the future (e.g., less experienced operator) is working on a similar job/part and/or at a similar welding position.
G09B 5/02 - Matériel à but éducatif à commande électrique avec présentation visuelle du sujet à étudier, p. ex. en utilisant une bande filmée
B23K 37/00 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe
G09B 5/04 - Matériel à but éducatif à commande électrique avec présentation sonore du sujet à étudier
A combustion powered fastener driving tool including a dosing lever that reduces the likelihood of causing inconsistent amounts of fuel to be dispensed by the fuel supply assembly of the tool.
Disclosed example management systems for battery-powered welding include: communication circuitry configured to communicate with one or more welding-type power supplies located remotely from the battery-powered welding management system; and control circuitry configured to: determine, based on communications with one of the welding-type power supplies, that a charge state of at least one battery powering the one of the welding-type power supplies has reached a replacement value; determine a location of the one of the welding-type power supplies; and output an alert indicating that the at least one battery should be replaced at the determined location.
G01R 31/36 - Dispositions pour le test, la mesure ou la surveillance de l’état électrique d’accumulateurs ou de batteries, p. ex. de la capacité ou de l’état de charge
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
A warewash machine includes a chamber for receiving wares, the chamber having at least one spray zone in which a liquid is recirculatable from a tank to a spray assembly for spraying the liquid on wares. A delime system is configured for delivering a delime solution to the tank. A controller is configured for operation in at least one ware cleaning mode and at least one delime operation mode. The controller is configured such that, in the delime operation mode, the delime system is controlled to carry out a delime operation in which the controller (i) controls the delime system to deliver delime solution into the tank and (ii) carries out an acidity reduction process to reduce acidity of the delime solution.
An example welding interface device, includes: a user interface device; a processor; and a machine readable storage device comprising machine readable instructions which, when executed by the processor, cause the processor to: determine, via the user interface device, information describing physical characteristics of a workpiece for a weld to be performed; based on the physical characteristics, determining at least one of a thermal characteristic of the workpiece, an electrical characteristic of the workpiece, or a chemical characteristic of the workpiece; determine a boundary condition associated with the workpiece based on the at least one of the thermal characteristic, the electrical characteristic, or the chemical characteristic; and output a welding process based on the boundary condition.
B23K 9/095 - Surveillance ou commande automatique des paramètres de soudage
B23K 31/12 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs à la recherche des propriétés, p. ex. de soudabilité, des matériaux
17.
WELDING-TYPE POWER SUPPLIES AND SYSTEMS HAVING MULTIPLE SOURCES OF INPUT POWER
Disclosed example welding-type power supplies include: two or more power converters configured to receive at least two different sources of input power, and to convert the at least two different sources of input power to welding-type power; and control circuitry configured to: determine a type of source of each of the sources of input power; and control the two or more power converters based on the type of source.
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
H02J 3/38 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
H02M 1/10 - Dispositions comprenant des moyens de conversion, pour permettre l'alimentation à volonté d'une charge par des sources de puissance de nature différente, p. ex. à courant alternatif ou à courant continu
H02M 3/02 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif
H02M 7/02 - Transformation d'une puissance d'entrée en courant alternatif en une puissance de sortie en courant continu sans possibilité de réversibilité
H02M 7/42 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité
09 - Appareils et instruments scientifiques et électriques
Produits et services
Imaging systems for digital radiography and computed tomography inspection of objects, not for medical use, composed of a component manipulator, industrial x-ray source, and digital x-ray detector; Manipulators, namely, component manipulators for use with industrial imaging systems and CT scanners; High energy industrial CT scanners; Downloadable software for wireless remote control of and synchronization of imaging systems for digital radiography and computed tomography machines; Downloadable software for viewing digital radiography and computed tomography images; Downloadable software for imaging equipment, namely, for interpreting the results of CT scanners.
Described is a wiper blade for a windshield of a vehicle. The wiper blade having a frame structure, a squeegee, a window, and a blade-wear system. The squeegee is coupled to the frame structure and includes a wiping lip. A window is positioned in or on the frame structure. A visual indicator transitions between a first position and a second position. The visual indicator is visible through the window when in the second position. The blade-wear system can be include an advancement mechanism, a gear train, and an indication mechanism. The advancement mechanism advances the gear train a predetermined amount to allow the indication mechanism to be viewable.
G06M 1/06 - Caractéristiques d'ordre général pour entraîner l'étage du rang le plus bas produisant une révolution continue de l'étage, p. ex. avec train d'engrenage
G06M 1/22 - Caractéristiques d'ordre général pour indication visuelle du résultat du comptage, sur le mécanisme de comptage, p. ex. fenêtre avec loupe
Disclosed example welding fume collection apparatus include: a wearable article; a fume inlet attached to the wearable article; and a fume duct configured to couple the fume inlet to a suction source.
B08B 15/00 - Précautions prises pour empêcher les crasses ou les fumées de s'échapper de la zone où elles sont produitesRamassage ou enlèvement des crasses ou des fumées de cette zone
A fume extraction system is designed for metal working and other applications. The fume extraction system includes one or more motors to control fume suction airflow. One or more sensors may monitor a condition of the welding torch, such as movement, position, and/or orientation of the welding torch relative to the one or more workpieces. Control circuitry is operable to receive signals from the one or more sensors corresponding to movement, position, and/or orientation of the welding torch. The control circuitry can compare the sensor information to a list of welding torch positions corresponding to airflow conditions to determine a desired suction airflow at the one or more workpieces. In some examples, the control circuitry can control a speed of the motor and/or a position of a valve to achieve the desired suction airflow.
B08B 15/04 - Précautions prises pour empêcher les crasses ou les fumées de s'échapper de la zone où elles sont produitesRamassage ou enlèvement des crasses ou des fumées de cette zone provenant d'un espace restreint, p. ex. d'un outil
B23K 9/095 - Surveillance ou commande automatique des paramètres de soudage
Disclosed example welding power supplies comprise: power conversion circuitry configured to convert input power to welding power; an input device configured to receive a plurality of instances of an input; and control circuitry configured to: calculate a frequency of the plurality of instances of the input; and control the power conversion circuitry to output the welding power as a series of pulses having a pulse frequency determined based on the calculated frequency.
Described herein are examples of welding-type power supplies with refueling detection systems that use provide user perceptible outputs from refueling output devices proximate the fuel tank (and/or fuel tank inlet), so that the output can be perceived by the operator when refueling. The outputs may indicate how much fuel is in the fuel tank, and/or whether the fuel tank has been filled to capacity, so the operator knows when to stop refueling. The refueling detection system is additionally configured to operate even when the power supply is turned off, in case the power supply is turned off prior to refueling (as is the best practice).
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
F02B 63/04 - Adaptations des moteurs pour entraîner des pompes, des outils tenus à la main ou des génératrices électriquesCombinaisons portatives de moteurs avec des dispositifs entraînés par des moteurs pour génératrices électriques
F02D 29/00 - Commande de moteurs, cette commande étant particulière aux dispositifs entraînés, ces dispositifs étant autres que des organes ou accessoires essentiels à la marche du moteur, p. ex. commande de moteur par des signaux extérieurs
F02D 45/00 - Commande électrique non prévue dans les groupes
"Des extracteurs de fumée donnés à titre d’exemple fournissent une fumée améliorée au niveau de l’extraction de génération de fumée pour des chalumeaux soudeurs. Dans certains exemples, une connexion d’extracteur de fumée est montée sur le chalumeau soudeur (par exemple, une protection gazeuse inerte) dans lequel la connexion d’extracteur de fumée permet une extraction de fumée à un emplacement adjacent à un bec du chalumeau soudeur qui capture et dirige la fumée aux fins de collecte et de filtrage. Des connexions d’extracteur de fumée permettent à un opérateur de modifier une variété de chalumeaux afin d’ajouter facilement des capacités de capture de sources de fumée à un chalumeau soudeur normal, fournissant ainsi une efficacité d’extracteur de fumée améliorée en situant l’extracteur de fumée plus près de l’arc de soudage."
B08B 15/04 - Précautions prises pour empêcher les crasses ou les fumées de s'échapper de la zone où elles sont produitesRamassage ou enlèvement des crasses ou des fumées de cette zone provenant d'un espace restreint, p. ex. d'un outil
Described herein are examples of hand clamps having insulators that isolate the clamp’s jaws from the clamp contact assemblies, and/or any electrical current that might pass through the clamp contact assemblies. The attachment of the insulators to the clamp jaws is more secure and/or less susceptible to slippage or breakage than insulators slipped on over the clamp handles. Additionally, insulating the clamp jaws from the contact assemblies serves to insulate the entire hand clamp, rather than just the clamp handles. The insulation allows for the rest of the hand clamps to be made from conductive (e.g., metal) material that is more sturdy and/or less susceptible to breaking and/or melting in harsh, industrial, and/or high heat (e.g., welding) environments than other hand clamps made from insulating (e.g., plastic) material.
H01R 4/56 - Connexions conductrices de l'électricité entre plusieurs organes conducteurs en contact direct, c.-à-d. se touchant l'un l'autreMoyens pour réaliser ou maintenir de tels contactsConnexions conductrices de l'électricité ayant plusieurs emplacements espacés de connexion pour les conducteurs et utilisant des organes de contact pénétrant dans l'isolation un conducteur étant vissé dans un autre
H01R 13/207 - Broches, lames ou alvéoles conformés ou ayant une pièce séparée en vue de retenir ensemble les parties en fonctionnement par connexion vissée
A threaded fastener including a head, a shank connected to the head at a first end of the shank, the shank includes a first portion, a second portion, a third portion, and a tip at an end of the shank opposite the head. The fastener includes a first helical thread formation extending outwardly from the second and third portions of the shank, and a second helical thread formation extending outwardly from a section of the third portion of the shank that is adjacent to the tip. The first helical thread formation defines grooves in the section of the third portion of the shank that is adjacent to the tip.
Apparatus and methods are provided for an engine driven welding-type power system that includes an engine to drive an electric generator to provide a first power output, and a removable welder having an energy storage device to provide a second power output. The system includes a housing having a dock to store a removable welder. While stored within the dock, the energy storage device is recharged by the first power output. Once removed from the dock, the removable welder is configured to operate independently of the power system.
A fastener assembly for coupling a first component to a second component is described. The fastener assembly includes an assembly-verification plunger with a verification head and a pair of spring legs, as well as a retainer with a body portion that defines a retainer opening. The retainer has a pair of retainer legs resiliently connected to the body portion and designed to engage with the opening. Each spring leg includes a lock tab. The verification head features a fixed planar portion and at least one wing portion connected to the fixed planar portion via a hinge. An installation indicator is positioned on at least part of both the fixed planar portion and the wing portion. The retainer opening is configured to receive and secure at least part of the spring legs. Each retainer leg includes a cutout to receive the lock tab, securing the assembly-verification plunger to the retainer in a part-in-assembly (PIA) position.
A process of applying an adhesive to a substrate is provided that includes the mixing together of the components of a two-part formulation of a Part A and a Part B. The Part A and Part B each independently include a methacrylate monomer, and a conductive filler. The formulation additionally includes an impact modifier, an organometallic catalyst, powdered rheology and a thixotrope, and a peroxide catalyst present in at least one of said Part A and said Part B or added thereto as additional components. The A and B Parts are combined together to form a thermally conductive adhesive mixture. The adhesive mixture is applied to the substrate. A formulation for the Part A and B is also provided. A bonded structure is provided in which the adhesive so created is intermediate between a first substrate and a second substrate.
C09J 4/06 - Adhésifs à base de composés non macromoléculaires organiques ayant au moins une liaison non saturée carbone-carbone polymérisable en combinaison avec un composé macromoléculaire autre qu'un polymère non saturé des groupes
C08K 3/105 - Composés contenant des métaux des groupes 1 à 3 ou des groupes 11 à 13 du tableau périodique
Systems and methods for missing weld identification using machine learning techniques are described. In some examples, a part tracking system uses machine learning techniques to identify whether an operator has missed one or more welds when assembling a part. The part tracking system may additionally identify which specific welds were missed (e.g., the first weld, the third weld, the fifteenth weld, etc.). The part tracking system may be able to identify missing welds after a part has been completed, or in real-time, during assembly of the part. Identification of the particular weld(s) missed during the welding process can help an operator quickly assess and resolve any issues with the part being assembled, saving time and ensuring quality
B23K 26/03 - Observation, p. ex. surveillance de la pièce à travailler
B23K 31/12 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs à la recherche des propriétés, p. ex. de soudabilité, des matériaux
Described is a wiper blade for a windshield of a vehicle configured to apply a reparative material to a surface of the windshield. The wiper blade having a squeegee and wiping lip. The wiping lip having a coating of the uncured reparative material or receiving a coating of the uncured reparative material from a reservoir coupled to the wiping blade. The wiping blade applying the uncured reparative material to a surface of the windshield by wiping the windshield. The uncured reparative material integrating with and curing on a surface of the windshield to form a cured reparative material. The cured reparative material being configured to fill scratches in a surface of the windshield, thereby reducing glare from the windshield.
B05D 5/00 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces pour obtenir des effets, finis ou des structures de surface particuliers
B60S 1/04 - Essuie-glaces ou analogues, p. ex. grattoirs
B60S 1/32 - Essuie-glaces ou analogues, p. ex. grattoirs caractérisés par les particularités de construction des bras ou des balais d'essuie-glaces
A coupler including a first fitting for mounting to a first externally threaded reinforcing bar for use in concrete construction, the first fitting comprising a first body having a first internal thread for threadedly inserting the first externally threaded reinforcing bar into the first fitting; the first fitting having a second internal thread having a pitch finer than a pitch of the first internal thread; and a plug for threading into the second internal thread for abutting an end of said threaded reinforcing bar.
E04B 1/41 - Dispositifs d'assemblage spécialement adaptés pour être noyés dans du béton armé ou de la maçonnerie
E04B 1/58 - Assemblages pour les constructions du bâtiment en général d'éléments de construction en forme de barre
E04C 5/03 - Éléments d'armature en métal, p. ex. avec des revêtements rapportés de faible résistance à la flexion, c.-à-d. s'étendant essentiellement dans une ou deux dimensions avec échancrures, saillies, nervures ou analogues pour augmenter l'adhérence du béton
E04C 5/16 - Pièces auxiliaires pour armatures, p. ex. pièces de séparation, étriers
F16B 7/18 - Assemblages de barres ou assemblages de tubes, p. ex. de section non circulaire, y compris les assemblages élastiques utilisant des éléments filetés
F16B 31/02 - Assemblages à vis spécialement modifiés en vue de résister à une charge de tractionBoulons de rupture signalant ou limitant la charge de traction
A scale includes a weigh station for receiving items to be weighed, an operator interface configured to display information associated with scale operations, the operator interface comprising a touch-screen display, and a controller operably coupled to the operator interface to effect display of information thereon, the controller configured such that a home interface screen view is displayed on the operator interface. The home interface screen view includes one or more selectable regions that enable the operator to identify to the controller an item to be weighed. The home interface screen view includes no more than two pricing and labeling operation fields. In implementations, the controller is configured such that, upon operator identification of the item to be weighed via one of the one or more selectable regions, the controller effects display of an identified item screen interface view that includes at least five pricing and labeling operation fields.
G01G 19/414 - Appareils ou méthodes de pesée adaptés à des fins particulières non prévues dans les groupes avec dispositions pour indiquer, enregistrer ou calculer un prix ou d'autres quantités dépendant du poids utilisant des moyens de calcul électromécaniques ou électroniques utilisant uniquement des moyens de calcul électroniques
Disclosed example high-frequency transformers include: a primary winding; a first secondary winding comprising a first planar conductor and a molded insulator, the first secondary winding being stacked in contact with the primary winding; and a magnetic core that is magnetically coupled to the primary winding and the first secondary winding.
Disclosed example hybrid welding-type systems include: a welding-type power supply configured to convert input power to welding-type power, the welding-type power supply comprising an input connector configured to receive the input power; and a hybrid charger configured to connect to the input connector of the welding-type power supply to supply the input power to the welding-type power supply using at least one of AC input power to the hybrid charger or DC input power from an energy storage device connected to the hybrid charger, wherein the energy storage device and the hybrid charger are each connectable to the same input connector.
A container carrier for unitizing a plurality of containers includes a plurality of outer bands and inner bands forming an array of container receiving apertures arranged in two or more transverse pairs. Each outer band of the plurality of outer bands forms a convex container engaging portion of each container receiving aperture. Each inner band of the plurality of inner bands forms a concave container engaging portion of each container receiving aperture. A central grasping aperture is positioned between each transverse pair of container receiving apertures and includes opposite radiused ends and a pair of radiused finger holds extending along each side. An oblong stress relief cutout is positioned along each inner band between each container receiving aperture and each central grasping aperture. The resulting geometry enables a rim applied carrier that is resistant to failure due to large temperature swings from ambient.
B65D 71/50 - Paquets d'objets maintenus ensemble par des éléments d'emballage pour la commodité du stockage ou du transport, p. ex. paquets compartimentés pour le transport à la main de plusieurs réceptacles tels que des boîtes de bière ou des bouteilles de boissons gazeusesBalles de matériaux comprenant plusieurs objets maintenus ensemble uniquement de façon partielle par des éléments d'emballage formés autrement que par liage d'un flan
A high purity control valve for use in high conductance, proportional control applications includes a moveable control plate having a flow-through passage to enhance fluid sweep of the internal valve volume. Nested orifice ridges are used to achieve high conductance with small actuator movement. Enhanced leak tightness can be provided by incorporating into the control plate materials softer than the material comprising the orifice ridge. The control plate comprises a control plate body having a counterbore in fluid communication with a conduit, radial fluid flow paths and axial fluid flow paths. A flat side of the control plate includes a continuous uninterrupted flat portion to shut-off fluid flow in the valve. The radial fluid flow paths provide fluid communication from the counterbore to a circumferential perimeter of the control plate and the axial fluid flow paths provide fluid communication with the fluid conduit through an intermediate valve chamber portion.
Described is a testing system for performing specimen testing, such as residual seal force (RSF) testing and/or compression friction (CF) measurement testing. The testing system comprising a column supported by a base structure, a load cell supported by said column, a specimen plate configured to receive a plurality of specimens, a motor, and controller. The load cell is configured to move along the column toward and away from the base structure via a crosshead coupled to an actuator. The plurality of specimens comprising a first specimen and a second specimen. The controller is configured to control the motor to adjust a position of said specimen plate.
G01N 35/00 - Analyse automatique non limitée à des procédés ou à des matériaux spécifiés dans un seul des groupes Manipulation de matériaux à cet effet
A container carrier (10) for unitizing a plurality of containers (50) includes a plurality of outer bands (35) and inner bands (40) forming an array of container receiving apertures (25) arranged in two or more transverse pairs. Each outer band of the plurality of outer bands forms a convex container engaging portion (30) of each container receiving aperture. Each inner band of the plurality of inner bands forms a concave container engaging portion (32) of each container receiving aperture. A central grasping aperture (60) is positioned between each transverse pair of container receiving apertures and includes opposite radiused ends and a pair of radiused finger holds extending along each side. An oblong stress relief cutout (70) is positioned along each inner band between each container receiving aperture and each central grasping aperture. The resulting geometry enables a rim applied carrier that is resistant to failure due to large temperature swings from ambient.
B65D 71/50 - Paquets d'objets maintenus ensemble par des éléments d'emballage pour la commodité du stockage ou du transport, p. ex. paquets compartimentés pour le transport à la main de plusieurs réceptacles tels que des boîtes de bière ou des bouteilles de boissons gazeusesBalles de matériaux comprenant plusieurs objets maintenus ensemble uniquement de façon partielle par des éléments d'emballage formés autrement que par liage d'un flan
40.
WIRE BRAKE FOR WELDING CABLE AND WELDING TORCH SYSTEMS
An example wire brake assembly for a welding torch is provided. An example wire brake assembly for a welding torch includes a housing configured to connect a welding cable to a rotating power connector for a welding torch or a welding torch neck, and a piston assembly arranged within the housing to apply a force to a welding wire. An example piston assembly includes a first end and an air inlet at a second end, a piston, a bore configured to receive the piston, at least one biasing device for biasing the piston, and an actuator arranged at the second end of the piston assembly, wherein the actuator applies a force to the welding wire in order to maintain the welding wire in a predetermined position.
B23K 9/12 - Alimentation automatique en électrodes ou en pièces ou déplacement automatique des électrodes ou des pièces pour le soudage ou le découpage à l'arc en lignes continues ou par points
B23K 9/133 - Moyens pour l'alimentation en électrodes, p. ex. tambours, rouleaux, moteurs
B23K 9/26 - Accessoires pour électrodes, p. ex. embouts rapportés pour démarrer l'opération
A fume extraction system is designed for metal working and other applications. The fume extraction system includes one or more motors and/or adjustment devices to control fume suction airflow. One or more sensors may monitor a condition of the welding torch to determine a level of porosity of a weld. Control circuitry is operable to receive signals from the one or more sensors and/or power supply in order to determine the level of porosity. The control circuitry can compare information in the signals to a list of values associated with weld porosity to determine whether the level of porosity is within a desired range. In some examples, the control circuitry can control the fume extraction system to adjust suction airflow based on the determined level of porosity.
B08B 15/04 - Précautions prises pour empêcher les crasses ou les fumées de s'échapper de la zone où elles sont produitesRamassage ou enlèvement des crasses ou des fumées de cette zone provenant d'un espace restreint, p. ex. d'un outil
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
B23K 37/00 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe
Disclosed handheld welding devices include: an energy storage device; power conversion circuitry configured to convert input power from the energy storage device to output welding power; a wire feeder configured to deliver welding wire and/or a gas valve configured to control flow of gas from a gas source; a front assembly configured to conduct the welding power to a welding electrode, wherein the front assembly is swappable between two or more of a wire-fed welding process, a stick welding process, or a tungsten electrode welding process; control circuitry configured to control the power conversion circuitry and the at least one of the wire feeder or the gas valve based on the configured one of the two or more welding processes, to selectively provide the welding power and at least one of the welding wire or the gas to the front assembly in response to an input device; and a housing.
SYSTEMS AND METHODS FOR UTILIZING DISCRETE INPUT CONTROLS FOR PUSH-PULL GUNS/TORCHES, SPOOL GUNS/TORCHES, MIG (GMAW) TORCHES, AND/OR TIG (GTAW) TORCHES
Systems and methods are provided for utilizing discrete input controls for push-pull guns/torches, spool guns/torches, MIG (GMAW) torches, and/or TIG (GTAW) torches. A welding-type torch configured for applying welds may include an input component configured for setting a welding-type parameter associated with a welding-type device that is used in conjunction with the welding-type torch during welding-type operations, with the input component configured to cause adjusting the welding-type parameter by a preset discrete value in response to each individual action on the input component by a user of the welding-type torch.
Disclosed example methods to generate a robotic welding program involve: generating a robotic welding program to weld a part using a collaborative robot welding system by manually manipulating the collaborative robot welding system to generate commands and robotic positioning information; automatically converting, using a processor, a first plurality of instructions of the robotic welding program for execution on the collaborative robot welding system to a second plurality of instructions to execute the robotic welding program on a noncollaborative type of robotic welding system; and performing the robotic welding program using the non-collaborative type of robotic welding system to weld the part using the second plurality of instructions.
B23K 31/00 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux
Systems and methods are provided for utilizing wire feeders with adjustable mechanical advantage. An example wire feeder, for use in welding-type systems, may include one or more wire feeding components configured to feed electrode wire to a welding-type torch, and one or more wire tensioning control components, with each of the one or more wire tensioning control components configured to enable adjusting a tensioning force applied to the electrode wire, and with at least one tensioning control component being configured such that a fulcrum distance to an associated fulcrum point is adjustable, with the electrode wire passing the fulcrum point during feeding of the electrode wire. At least one portion of the at least one tensioning control component may be movable relative to the fulcrum point, such as in one or more of a plurality of directions relative to the fulcrum point.
B23K 9/12 - Alimentation automatique en électrodes ou en pièces ou déplacement automatique des électrodes ou des pièces pour le soudage ou le découpage à l'arc en lignes continues ou par points
B23K 9/133 - Moyens pour l'alimentation en électrodes, p. ex. tambours, rouleaux, moteurs
B23K 9/28 - Dispositifs pour supporter les électrodes
A power and signal distribution hub for providing power and operating signals to a plurality of channels of a testing system for operating one or more hydraulic actuators to apply loads to a test article is provided. The power and signal distribution hub includes a first power supply and a second power supply, connected to load share power to the testing system, the first power supply and the second power supply configured to distribute electrical power to the plurality of channels of the testing system. A monitoring circuit for each power supply configured to monitor operation of its respective power supply, and to provide a signal indicative of operation of its power supply outside of normal operation parameters of the power supply.
A method for unloading a load on a test article in a testing system includes determining a load differential in at least one of a calculated load at a valve for an actuator of the testing system and a calculated load on a load cell coupled to the actuator. A controlled unload of the load on the test article is initiated via a system controller when the determined load differential a reaches a first level. An interlock unload of the load on the test article is performed via the valve when the determined load differential reaches a second level higher than the first level.
The invention relates to an extension pole (1, 101) for a driving tool (2, 102), the extension pole (1, 101) comprising a housing (3, 103) for mounting the driving tool (2, 102) to the extension pole (1, 101), the housing (3, 103) comprising a handle seat (31, 131) for receiving a handle (20, 120) of the driving tool (2, 102), a magazine holder seat (32, 132) for receiving a magazine holder (21, 121) of the driving tool (2, 102) and securing means (4, 104) for securing one or each of the handle (20, 120) and magazine holder (21, 121) in its respective seat (31, 32, 131, 132).
The present application provides a support rod for a cleaning paper roll of a printer, and a printer using the support rod, the support rod comprising: a first connecting part, a second connecting part and a main body part, the first connecting part being connected to a device; the second connecting part being connected to the device; the main body part being located between the first connecting part and the second connecting part in an axial direction of the support rod, and removably connected to the first connecting part and the second connecting part, so that the main body part can be connected to or separated from the device, wherein the support rod can be driven to rotate. The support rod in the present application can be conveniently removed without any need to move other components of the printer, thus facilitating replacement of the cleaning paper roll.
The present disclosure provides a container and a cap assembly. The container includes a component having an opening, and the cap assembly. The cap assembly includes a cap and an elastic arm. The elastic arm is disposed on the cap and extends obliquely with respect to a radial direction of the cap. At least a portion of the elastic arm is capable of being received in a recess and abuts against a second protrusion to prevent the cap assembly from rotating in a first direction relative to the component having the opening, such that the cap assembly is locked with the component having the opening; and the at least a portion of the elastic arm is capable of being released from the recess to unlock the component having the opening. The cap assembly of the present disclosure is capable of engaging with the component having the opening, such that the cap assembly cannot be unlocked without a specific tool (e.g., an operating tool).
B65D 51/26 - Fermetures non prévues ailleurs combinées avec dispositifs auxiliaires pour des buts autres que la fermeture avec des moyens pour maintenir en place le contenu, p. ex. avec des moyens élastiques
The present disclosure relates to a device for generating signals. The device includes: a signal module with a housing (112) with a switch region (121); at least one switch (120) that is connected to the switch region of the housing; a sealing element (132) to protect the housing from environmental influences. The switch (120) includes an actuator device (122). At least a portion of the actuator device (122) extends through the sealing element (132).
E05B 83/34 - Serrures pour boîtes à gants, pour consoles de rangement, pour bouchons de réservoir à essence ou similaire pour trappes à carburant affleurant sensiblement à la surface de la carrosserie du véhicule
Disclosed is a luggage ring assembly, suitable for attachment to a vehicle chassis. The luggage ring assembly includes a luggage ring, and an engagement member connected to the luggage ring. The engagement member includes a nose suitable for insertion through, but not rotation within, a non-circular aperture and a waist suitable for rotation within the non-circular aperture. In use, once the nose passes through a non-circular aperture, rotation of the luggage ring assembly about the waist within the non-circular aperture arranges the nose in an orientation that prevents return of the nose through the non-circular aperture.
Disclosed is a bag hook that is suitable for third-party fixing-free attachment to a plate structure. The bag hook includes a hook member and a boss connected to the hook member. The boss comprises at least one locating lip and at least one resilient tongue.
An example welding includes a torch head and a handle including a first coolant line configured to conduct coolant to the torch head, a second coolant line configured to conduct the coolant away from the torch head, a first welding power conductor within the first coolant line, and a second welding power conductor within the second coolant line, the first and second welding power conductors configured to carry electric current to the torch head.
Described herein are examples of differential pressure sensors designed to work with dynamic, high pressure, hydraulic systems. The sensors have a one-piece sensor housing that is durable enough to withstand intense fluid pressures and associated stresses. Additionally, the sensors use foil (rather than, for example, piezoelectric) strain gauges to enable pressure measurement even under the unique stresses imposed by dynamic, high pressure, hydraulic systems. Furthermore, the sensor tubes of the sensor help to isolate the strain gauges from some of the bowing/bending stresses that the main body of the sensor may experience due to the intense fluid pressures.
57.
WELD RECORDING SYSTEMS INCLUDING CAMERA FOCUS INDICATORS AND FOCAL POINT ADJUSTMENT
Disclosed example weld monitoring systems include: a camera having a field of view and configured to capture images of the field of view of the camera; a light source coupled to the camera and configured to project a visible indicator onto an object that is within the field of view of the camera, such that the visible indicator at least partially overlaps the field of view of the camera; and communication circuitry configured to transmit data representative of the images.
58.
FASTENER HOLE PROTRUSIONS FOR CREATING ELECTRICAL CONTINUITY IN WELDING-TYPE DEVICE HOUSINGS
Some examples of the present disclosure relate to the use of protrusions to create electrical continuity between surfaces of a welding-type device housing. In some examples, protrusions may be positioned proximate fastener holes of a housing surface, thereby allowing for a clamp force applied to fasteners extending through the fastener holes to be transferred to the protrusions. The clamp force combined with a sharpness of the protrusions may allow the protrusions to abrasively move and/or remove an electrically insulating powder coating finish from both the protrusions themselves and/or an adjoining housing surface, thereby exposing an underlying electrically conductive material. The exposed electrically conductive material of the protrusion of one housing surface and the exposed electrically conductive material of the adjoining housing surface may be put in contact with one another to create electrical continuity between the housing surfaces.
Disclosed example planar transformers include: a magnetic core; a first primary winding board secured to the magnetic core; a first secondary winding board secured to the magnetic core, wherein each of the first primary winding board and the first secondary winding board comprise: a first printed winding on a first layer of a circuit board; first and second mounting tabs on the first layer of the circuit board or a third layer of the circuit board, and coupled to the first printed winding; a second printed winding on a second layer of the circuit board; and third and fourth mounting tabs on the second layer of the circuit board or a fourth layer of the circuit board, and coupled to the second printed winding; and a first spacer to position the first primary winding board a predetermined distance from the first secondary winding board.
61.
MODULAR DELIVERY SYSTEM AND METHOD FOR AN ADHESIVE OR THERMOPLASTIC MATERIAL
A modular system for delivering a fluid material is provided that may include a supply assembly for supplying a fluid material, a rate controlling assembly, and a pressure controlling assembly. The rate controlling assembly may be in fluid communication with the supply assembly and may vary a rate of a first portion of the fluid material supplied to a first applicator. The pressure controlling assembly may be in fluid communication with the supply assembly and may vary a pressure of a second portion of the fluid material supplied to a second applicator.
The present application provides a solder paste dispensing feedback system (10) for a circuit board printer. The system (10) comprises a solder paste container (101), a solder paste extruding device, a first sensor, a second sensor and a control device. The solder paste container (101) is used to contain solder paste and has an outlet. The solder paste extruding device is used to extrude the solder paste from the outlet of the solder paste container (101). The first sensor is used to detect solder paste in the solder paste container (101), and generate a first signal to indicate whether the solder paste container (101) still contains solder paste. The second sensor is used to detect an operating state of the solder paste container (101), and generate a second signal to indicate whether solder paste is extruded from the outlet of the solder paste container (101). The control device is used to receive the first signal and the second signal, and control the operation of the circuit board printer according to the indications of the first signal and the second signal.
The present disclosure relates to a charging, fueling, or service flap (100). The charging, fueling, or service flap (100) is reversibly movable, and in particular pivotable, by way of an actuator between a closed position and an open position relative to the charging, fueling, or service compartment. The charging, fueling, or service flap (100) includes a carrier (102) that can be pivotally attached to a charging, fueling, or service compartment; and an actuating apparatus (104) having an actuator (108), which covers the carrier (102) at least partially, in particular over its full surface, wherein the actuator (108) can be moved relative to the carrier (102) between a resting position and an actuation position to generate an actuation signal for opening or closing the charging, fueling, or service flap (100) when the actuator (108) is moved into the actuation position.
The present disclosure provides a fastening clip assembly comprising a clip and an insert. The clip includes a pair of side walls and a head provided at first ends of the pair of side walls. The clip further includes an internal cavity between the pair of side walls, and the head is provided with an opening in communication with the internal cavity. The insert includes a pair of legs and a pair of latching arms respectively provided on outer sides of the pair of legs. The pair of legs are connected together at their proximal ends and form free ends at their distal ends. The pair of latching arms each is positioned between the respective proximal end and the respective distal end and extends toward the proximal end. The pair of legs are inserted at least partially into the internal cavity of the clip through the opening. The pair of latching arms are configured to, when the clip is in a use state, cooperate with the head of the clip to limit the withdrawal of the insert from the clip.
A method of operating a testing machine includes obtaining first sensor outputs from a first load cell indicative of forces on sensors of the first load cell at a first end of a test specimen. The method further includes obtaining second sensor outputs from a second load cell indicative of forces on sensors of the second load cell at a second opposite end of the test specimen mounted in a second grip. Forces at the sensors of the first load cell and sensors of the second load cell are determined from the first sensor outputs and the second sensor outputs. The test specimen is coaxially aligned with the first and second grips along an axis by adjusting at least one of an alignment device of the testing machine or at least one of a position of the test specimen in the first or second grip.
An extension pole for a driving tool, the extension pole including a mounting mechanism for mounting the driving tool to the extension pole and an actuating mechanism configured such that a release force applied towards the driving tool mounted to the extension pole causes a trigger of the driving tool to move in an opposite direction to actuate the trigger.
An example welding type system includes: a welding power circuit having a control input and a welding type power output; and a controller connected to the feedback circuit, wherein the controller comprises: a tuning module configured to, at least at a start of a weld, command a plurality of output parameters that are selected to determine what process is appropriate for the weld; a feedback module configured to monitor feedback while the tuning module is commanding the plurality of output parameters; and a process selection module configured to automatically select a welding process from a plurality of welding processes based on the feedback from the feedback module.
B23K 9/095 - Surveillance ou commande automatique des paramètres de soudage
B23K 9/09 - Agencements ou circuits pour le soudage à l'arc à courant ou tension pulsés
B23K 9/10 - Autres circuits électriques pour le soudage ou le découpage à l'arcCircuits de protectionCommande à distance
B23K 9/12 - Alimentation automatique en électrodes ou en pièces ou déplacement automatique des électrodes ou des pièces pour le soudage ou le découpage à l'arc en lignes continues ou par points
B23K 9/16 - Soudage ou découpage à l'arc utilisant des gaz de protection
B23K 9/23 - Soudage ou découpage à l'arc tenant compte des propriétés des matériaux à souder
68.
Overload Clutch for an Actuating Mechanism for Actuating a Loading, Tank or Service Flap and Actuating Mechanism with such an Overload Clutch and Actuating Mechanism Having such an Overload Coupling
The disclosure relates to an overload coupling (1) which has a coupling element (2) on the input side and an output-side coupling element (3) and is designed to transfer a torque from the coupling element (2) on the input side coupling element (2) to transmit a torque to the output-side coupling element (3), and to break the form-fit and/or force-fit connection between the input-side coupling element (2) and the output-side coupling element (3) in the event of an overload. The overload coupling (1) is designed as a slip coupling, in which the coupling element (2) on the drive side and the output-side coupling element (3) together form the coupling halves of a gear coupling. According to the disclosure, it is in particular envisaged that the drive-side coupling element (2) is provided with a first front toothing (5.1) on a side facing the output-side coupling element (3), and the output-side coupling element (3) is provided with a second front toothing (5.2) on a side facing the drive-side coupling element (2), the first front toothing (5.1) is designed to be complementary to the second front toothing (5.2) in such a way that the two front toothings (5.1, 5.2) can engage in one another only when the drive-side coupling element (2) has a unique and predetermined rotational position with respect to the output-side coupling element (3).
F16D 7/04 - Accouplements à glissement, p. ex. glissant en cas de surcharge, pour absorber les chocs du type à rochet
E05B 83/34 - Serrures pour boîtes à gants, pour consoles de rangement, pour bouchons de réservoir à essence ou similaire pour trappes à carburant affleurant sensiblement à la surface de la carrosserie du véhicule
E05F 15/63 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants pivotants manœuvrés par bras pivotants
Aspects of the disclosure relate to a portable connector testing device and a potable connector testing system. The portable connector testing device comprises: a connector testing module comprising at least two test connectors, wherein at least one test connector of the at least two test connectors is configured to receive a connector to be tested, the connector being electrically connected between the at least two test connectors; a measurement module for testing an electrical property of the received connector; a power module for outputting an electrical power to the connector testing module and the measurement module; and an outer casing comprising an inner cavity for accommodating the power module, connector testing module, and measurement module, at respective positions within the inner cavity with said connector testing module accessible through an opening of the outer casing.
04 - Huiles et graisses industrielles; lubrifiants; combustibles
06 - Métaux communs et minerais; objets en métal
07 - Machines et machines-outils
Produits et services
(1) Hydrocarbon fuels; gaseous fuels; butane gas cartridges sold filled; fuel; fuel gas
(2) Nails of metal; metal fastening nails; metal threaded fasteners; metal connectors for decking and decking joists; structural joint connectors of metal
(3) Pneumatic nail guns; electric nailing guns; nailing machines; nailing guns
71.
FOOD PRODUCT SLICER AND ASSOCIATED GAUGE PLATE CONTROL KNOB
A food product slicer includes a base, a knife mounted for rotation relative to the base, a carriage assembly mounted to the base for reciprocal movement back and forth past a cutting edge of the knife, a gauge plate mounted for movement between a closed position that prevents slicing and multiple open positions that permit slicing at respective thicknesses and a gauge plate control knob including a grip part and a cam part with a cam slot, wherein the grip part and the cam part are molded together as a monolithic unit.
72.
FOOD PRODUCT SLICER AND ASSOCIATED GAUGE PLATE SLIDE ASSEMBLY
A food product slicer includes a base, a knife mounted for rotation relative to the base, a carriage assembly mounted to the base for reciprocal movement back and forth past a cutting edge of the knife, and a gauge plate mounted for movement between a closed position that prevents slicing and multiple open positions that permit slicing at respective thicknesses. A gauge plate adjustment system includes a knob with an associated cam, a follower that is engaged with the cam and moved by rotation of the knob and cam, wherein the follower linked for moving the gauge plate, wherein the follower rides on a slide rail, wherein the slide rail comprises a plate member.
B26D 1/14 - Coupe d'une pièce caractérisée par la nature ou par le mouvement de l'élément coupantAppareils ou machines à cet effetÉléments coupants à cet effet comportant un élément qui ne suit pas le mouvement de la pièce ayant un élément coupant se déplaçant autour d'un axe avec un élément circulaire, p. ex. un disque
B26D 7/01 - Moyens pour maintenir ou mettre en position la pièce
B26D 7/22 - Dispositifs de sécurité spécialement adaptés aux machines-outils
An example welding torch includes a torch head, a torch handle including conductive tubing electrically and mechanically connected to the torch head at a first end of the conductive tubing, one or more welding power conductors, a gas conductor, and one or more coolant lines directly connected to a second end of the conductive tubing, and a casing configured to cover the one or more welding power conductors. An example welding torch includes a torch head configured to conduct welding-type power, a torch handle including conductive tubing coupled to the torch head, and a torch cable integrally coupled to the torch handle at a first end of the torch cable, the torch cable and the torch handle including an electrical path from a power supply connector to the torch head and a coolant path to cool the torch head.
A system, method and apparatus for adjusting lanes in a conveyor system including a conveyor having opposing outer side walls and a plurality of uprights along the side walls and two or more lane dividers positioned between the side walls. One or more rails are positioned between opposite uprights and a scissor mechanism is positioned along the rails and connected with respect to the lane dividers, the scissor mechanism configured to independently adjust lane width and offset.
B65B 35/44 - Disposition et alimentation des objets en groupes par courroies ou chaînes sans fin
B65B 43/52 - Alimentation ou positionnement des sacs, boîtes ou cartons en position dilatée, ouverte ou deboutAlimentation des réceptacles préformés rigides, p. ex. boîtes en fer-blanc, capsules, tubes en verre, flacons, vers la position d'empaquetageMise en place des réceptacles ou récipients au poste de remplissageMaintien des réceptacles ou récipients pendant le remplissage en se servant de voies de roulement ou de transporteurs sans fin
B65B 59/00 - Dispositions pour permettre aux machines de manipuler des objets de différentes dimensions, d’obtenir des paquets de différentes dimensions, de varier le contenu des paquets ou de donner accès pour le nettoyage ou l'entretien
B65B 59/02 - Dispositions pour permettre de faire des réglages pendant le fonctionnement de la machine
B65G 47/00 - Dispositifs de manutention d'objets ou de matériaux associés aux transporteursProcédés d'emploi de ces dispositifs
75.
WELDING POWER SUPPLIES, WIRE FEEDERS, AND SYSTEMS TO COMPENSATE A WELD VOLTAGE VIA COMMUNICATIONS OVER A WELD CIRCUIT
Disclosed example welding-type power supplies include: a power converter; a receiver circuit configured to receive weld voltage feedback information measured at a device remote from the power supply while current is flowing through a weld circuit; and a controller configured to: for an initial weld performed with a weld circuit element: determine an estimated weld circuit resistance value based on a characteristic of the weld circuit element; and control the power converter according to a voltage feedback loop based on the estimated weld circuit resistance value; and for a subsequent weld performed with the weld circuit element: determine a measured weld circuit resistance value based on the weld voltage feedback information; and control the power converter according to a voltage feedback loop based on the measured weld circuit resistance value to regulate a weld voltage at the remote device to the weld voltage setpoint.
76.
SYSTEMS AND METHODS FOR UTILIZING WIRE FEEDERS WITH AUTOMATIC TENSIONING MECHANISM
Systems and methods are provided for utilizing wire feeders with automatic tensioning mechanism. An example wire feeder, for use in welding-type systems, may include one or more wire feeding components configured to feed an electrode wire; and a wire tensioning mechanism configured to apply a tensioning force to the electrode wire during feeding of the electrode wire via the wire feeder. The wire tensioning mechanism may include at least one tensioning control component for enabling setting or adjusting the tensioning force, and may be configured to, after the tensioning force reaches a pre-set value, limit the setting or adjusting the tensioning force via the at least one tensioning control component to the pre-set value.
04 - Huiles et graisses industrielles; lubrifiants; combustibles
06 - Métaux communs et minerais; objets en métal
07 - Machines et machines-outils
Produits et services
hydrocarbon fuels; gaseous fuels; butane gas cartridges sold filled; fuel; fuel gas nails of metal; metal fastening nails; metal threaded fasteners; metal connectors for decking and decking joists; structural joint connectors of metal pneumatic nail guns; electric nailing guns; nailing machines; nailing guns
A refrigerated cooler includes a housing including a lower portion and an upper portion, at least the lower portion of the housing defining a compartment, the compartment having an access opening facing upwardly. A cooling system is provided for cooling the compartment. A lid member is pivotable between a closed position covering the access opening and an open position that uncovers the access opening. A latching assembly includes a first latching part on the lid member and a second latching part on the upper portion of the housing, wherein the second latching part engages with the first latching part to retain the lid member in the open position. At least a latching segment of the second latching part is movable upward, when contacted by the first latching part as the lid member moves toward the open position, so as to automatically shift the latching segment upward.
Disclosed is a valve core for adjusting fluid flow in a multi-port valve assembly having a valve body defining a valve seat. The valve core includes a valve plug, and a valve stem. The valve plug defines two or more flow channels to facilitate fluid flow between two or more channel ports. The valve plug is configured to rotate within the valve seat about an axis of rotation between a first position and a second position. The valve stem extends outwardly from the valve plug.
F16K 11/087 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix sphérique
The present disclosure relates to an apparatus for introducing force into a test vehicle, wherein the apparatus comprises: a wheel adapter element, which is configured so as to be connected to a test vehicle; first to third loading assemblies for moving the wheel adapter element in three translational degrees of freedom; and a fourth loading assembly for rotating the wheel adapter element about a wheel axis (A), wherein the first, second, and third loading assembly are connected to the wheel adapter element via a common three-joint node.
A test system and method for testing a coupled hybrid dynamic system in simulated motion along a path includes a physical test rig configured to test a physical component. A processor is configured with at least one virtual model portion and a physical component comprising the coupled hybrid dynamic system. The processor is configured to control the test rig such that the component under test and the at least one virtual model portion travel along a path. A method is provided for generating an initial input to begin with in an iterative process to obtain a suitable input for the at least one virtual portion.
Example radiography image stabilizers include: an attachment bracket configured to be coupled to a center section of a radiographic imaging device and to extend from the center section of the imaging device in a first direction different than a direction in which the imaging device is configured to direct radiation; two or more legs attached to the attachment bracket and configured to extend from the bracket at least partially in the directions in which the center section of the imaging device extends from an attachment point with the bracket; and three or more low-friction contact surfaces collectively coupled to the two or more legs, such that at least one contact surface is disposed on each side of the center section, wherein the legs include pivot points and leg sections to selectively adjust a height of the bracket with respect to the contact surfaces and a width between the contact surfaces.
A61B 6/00 - Appareils ou dispositifs pour le diagnostic par radiationsAppareils ou dispositifs pour le diagnostic par radiations combinés avec un équipement de thérapie par radiations
84.
CUTTING APPARATUS COMPRISING A DOOR GAS CLEANING DEVICE
The present application discloses a cutting apparatus, including: a housing; a door; and a gas cleaning device configured to receive a cleaning gas through the gas inlet and blow the cleaning gas out of the at least one primary gas outlet towards the door to clean the door. The present application uses a gas cleaning device to clean the door, and a gas curtain formed by cleaning gas causes a cutting coolant, chips and sand particles, etc. attached to the cutting door to drip down to a baffle and then return to an operating cavity. Moreover, by controlling the blow-out angle and pressure of the cleaning gas, the cutting coolant, chips and sand particles, etc. can be retained within the range of the operating cavity without dripping onto the outside of the cutting apparatus. Furthermore, as the door is opened, the door moves relatively with the gas cleaning device such that the process of the gas cleaning device cleaning the door is substantially synchronized with the process of opening the door, and no further liquid drips onto the workbench or the ground from the portion of the door passing the gas cleaning device.
B23Q 11/00 - Accessoires montés sur les machines-outils pour maintenir les outils ou les organes de la machine dans de bonnes conditions de travail ou pour refroidir les pièces travailléesDispositifs de sécurité spécialement combinés aux machines-outils, disposés dans ces machines ou spécialement conçus pour être utilisés en relation avec ces machines
B23Q 11/08 - Protecteurs pour des parties des machines-outilsCapots antiprojections
The disclosure relates to an actuating device (1) for actuating at least one operable functional component of a vehicle door. The actuating device (1) has a pivot lever (3) which is pivotably mounted about an axis of rotation (2) and which, starting from an initial position, can be transferred as required into a first actuating position pivoted about the axis of rotation (2) in a first direction of rotation or into a second actuating position pivoted about the axis of rotation (2) in a second direction of rotation opposite to the first direction of rotation, in particular manually. The actuating device (1) further comprises a first force transmission mechanism (4) for transmitting at least a portion of a force generated when the pivot lever (3) is moved from the initial position to the first actuating position to the at least one operable functional component of the vehicle door and a second force transmission mechanism (5) for transmitting at least a portion of a force generated when the pivot lever (3) is moved from the initial position to the second actuating position to the at least one operable functional component of the vehicle door. According to the disclosure, a coupling mechanism is provided in particular, which is designed to selectively introduce at least part of the force generated when the pivot lever (3) is moved from the initial position into the first actuation position or into the second actuation position exclusively into the first force transmission mechanism (4) or into the second force transmission mechanism (5).
The present disclosure relates to an apparatus for introducing force into a test vehicle, wherein the apparatus comprises the following: a wheel adapter element, which is configured so as to be connected to a test vehicle; at least one first loading assembly for moving the wheel adapter element in a first, in particular translational, direction; a retaining apparatus, which is connected to the first loading assembly and configured so as to fix the first loading assembly in any position, in particular a working position, wherein the retaining apparatus is controllable independently of the first loading assembly.
A method of depositing material on an electronic substrate with a dispensing system includes acquiring an image of a first feature of a first component and an adjacent second feature of a second component, performing a measure command to measure an actual distance of a gap between the first feature of the first component and the second feature of the second component, dividing the length of the gap into segments to determine a gap width for each segment, based on the gap width, determining a number of dots to be dispensed by the dispensing unit for each segment, and performing the dispense operation for each segment.
A food product slicer includes a base, a knife mounted for rotation relative to the base, the knife having a cutting edge, a carriage mounted to the base for reciprocal movement back and forth past the cutting edge of the knife and a drive assembly for moving the carriage. The drive assembly includes a movable belt and a component fixed to the belt for movement therewith, wherein the component is linked to the carriage such that movement of the component with the belt causes movement of the carriage. The component is configured to operate as a belt tensioner that includes a non-linear path through which a portion of the belt passes to tension the belt.
90.
SYSTEM AND METHOD FOR MEASURING STATIC VOLUME IN A MATERIAL CONTAINER
A system to detect static volume in the material cartridge includes a mass flow meter to measure a volume of air delivered to the material cartridge. A controller is configured to determine a volume of assembly material in the material cartridge upon determining the volume of air in the material cartridge. A method to detect static volume in the material cartridge includes measuring a volume of air delivered to a material cartridge.
G01F 22/00 - Procédés ou appareils pour la mesure du volume des fluides ou des matériaux solides fluents, non prévus ailleurs
G01F 3/00 - Mesure du débit volumétrique des fluides ou d'un matériau solide fluent dans laquelle le fluide passe à travers le compteur par quantités successives et plus ou moins séparées, le compteur étant entraîné par l'écoulement
91.
PRESSURE TRANSDUCERS HAVING IMPROVED RESISTANCE TO TEMPERATURE ERROR
Disclosed example pressure transducers include: a housing; a fluid inlet configured to provide a fluid to a first cavity within the housing; a pressure measurement assembly comprising a microelectromechanical pressure sensor configured to output a signal representative of the pressure in the first cavity; and a heater configured to heat the pressure measurement assembly based on a target temperature.
G01L 19/04 - Moyens pour compenser les effets des variations de température
B81B 7/02 - Systèmes à microstructure comportant des dispositifs électriques ou optiques distincts dont la fonction a une importance particulière, p. ex. systèmes micro-électromécaniques [SMEM, MEMS]
G01D 21/02 - Mesure de plusieurs variables par des moyens non couverts par une seule autre sous-classe
G01L 19/00 - Détails ou accessoires des appareils pour la mesure de la pression permanente ou quasi permanente d'un milieu fluent dans la mesure où ces détails ou accessoires ne sont pas particuliers à des types particuliers de manomètres
92.
VARIABLE PITCH STARWHEEL FOR CONTAINER CARRIER APPLICATING MACHINE
An applicating machine for applying a flexible carrier to a plurality of containers provided from an infeed includes an orienter for placing containers into a correct rotational position and a transfer device for transferring the oriented containers in a fixed rotational position to a jaw drum for applying a flexible carrier to a plurality of containers provided.
B65B 35/36 - Disposition et alimentation des objets en groupes par griffes
B65B 17/02 - Assemblage d'objets, p. ex. de bidons, directement les uns aux autres pour en faciliter le stockage, le transport ou la manutention
B65B 35/58 - Retournage des objets par des moyens d'action positive, p. ex. pour présenter les parties étiquetées vers le haut
B65G 47/26 - Dispositifs pour influencer la position relative ou l'orientation des objets pendant le transport par transporteurs arrangeant les objets, p. ex. faisant varier l'espace entre chaque objet
B65G 47/84 - Roues en forme d'étoiles ou dispositifs à courroies ou chaînes sans fin, les roues ou dispositifs étant dotés d'éléments venant en prise avec les objets
93.
PHOTOCONDUCTIVE THIN FILMS WITH PBSE NANOSTRUCTURES
Methods and systems are provided for a homogenous, single crystal, electrically conductive, and narrow bandgap PbSe nanostructure is synthesized using a chemical bath deposition on, for example, quartz substrates, and includes a tunable iodine doping process to select the size and/or shape of the nanostructures. The single crystalline PbSe nanostructure can be exposed following an isolation process (e.g., etching process), and the concentration and/or distribution of iodine across multiple PbSe nanostructures (e.g., on a quartz substrate) can be adjusted during post processing steps, including heat treatments.
B82Y 15/00 - Nanotechnologie pour l’interaction, la détection ou l'actionnement, p. ex. points quantiques comme marqueurs en dosages protéiques ou moteurs moléculaires
B82Y 30/00 - Nanotechnologie pour matériaux ou science des surfaces, p. ex. nanocomposites
C30B 29/46 - Composés contenant du soufre, du sélénium ou du tellure
C30B 31/06 - Procédés de diffusion ou de dopage des monocristaux ou des matériaux polycristallins homogènes de structure déterminéeAppareillages à cet effet par contact avec la substance de diffusion à l'état gazeux
An airport ground power unit for supplying electric current to a parked aircraft and a related system and method. The ground power unit includes a first electric battery, an inverter for transforming an output current of the battery to an alternating output current to be supplied to the aircraft, and one or more first electronic switches for connecting and disconnecting the first battery to and from the inverter. The first switches are connected in serial to the first battery, and together connected to the inverter. A first controller unit controls at least one of the one or more first switches. The ground power unit further includes a second electric battery and second electronic switches for connecting and disconnecting the second battery. At least one of the second switches is controlled by the first or a second digital controller unit.
A nozzle arrangement for applying fluids to a substrate has a main body which is able to be connected to a mounting region of a distributor and which has an end-side side surface. At least one first outlet nozzle for the fluid to be applied to the substrate is provided in or on the end-side side surface of the main body. A first fluid channel system is formed in the main body, via which the at least one first outlet nozzle is connected in terms of flow to a first fluid connector, which is provided in the main body of the nozzle arrangement. The nozzle arrangement is a monolithic component produced by an additive production method.
B05B 7/08 - Pistolets pulvérisateursAppareillages pour l'évacuation avec des orifices de sortie séparés, p. ex. pour former des jets parallèles, pour former des jets croisés
B22F 10/28 - Fusion sur lit de poudre, p. ex. fusion sélective par laser [FSL] ou fusion par faisceau d’électrons [EBM]
B22F 10/80 - Acquisition ou traitement des données
B22F 12/55 - Moyens multiples d’alimentation en matériau
B29C 64/153 - Procédés de fabrication additive n’utilisant que des matériaux solides utilisant des couches de poudre avec jonction sélective, p. ex. par frittage ou fusion laser sélectif
A food product slicer includes a base, a knife mounted for rotation relative to the base, the knife having a cutting edge, a carriage mounted to the base for reciprocal movement back and forth past the cutting edge of the knife and a drive assembly for moving the carriage. The drive assembly includes a movable belt and a component fixed to the belt for movement therewith, wherein the component is linked to the carriage such that movement of the component with the belt causes movement of the carriage. The component is configured to operate as a belt tensioner that includes a non-linear path through which a portion of the belt passes to tension the belt.
B26D 5/22 - Dispositions pour manœuvrer et commander les machines ou les dispositifs de coupe, découpage, poinçonnage, perforation ou séparation autrement que par coupe l'organe de coupe et d'avance de la pièce ayant une action conjuguée l'organe de coupe et l'avance de la pièce étant liés mécaniquement
B26D 7/06 - Dispositions pour faire avancer ou évacuer les pièces autres que les feuilles, les bandes ou les filaments
97.
Actuator for Refueling or Charging Port Cover and System Comprising Actuator
Described is an actuator for a refueling or charging port cover. The actuator includes a housing, a lifting shaft, a guiding protrusion, and a limiting protrusion. The lifting shaft is at least partially arranged in the cavity of the housing and can ascend and descend relative to the housing. The lifting shaft includes a guiding section, on which a guiding groove and a limiting groove are provided. The guiding groove has a distal portion corresponding to the end of the ascending stroke of the lifting shaft. The guiding protrusion is provided on the housing and cooperates with the guiding groove. The limiting protrusion is provided on the housing. When the guiding protrusion moves to the distal portion in the guiding groove, the limiting protrusion at least partially enters the limiting groove. The guiding groove is provided with a limiting surface for first rotation direction at the distal portion, and the limiting groove includes an additional limiting surface for first rotation direction and a limiting surface for second rotation direction. When the guiding protrusion moves to the distal portion, at least one of the limiting surface for first rotation direction and the additional limiting surface for first rotation direction, together with the limiting surface for second rotation direction, limits the rotation of the lifting shaft relative to the housing.
E05F 15/622 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants pivotants manœuvrés par mécanismes "pousser-tirer" utilisant des mécanismes à écrou et vis
98.
PRESSURE TRANSDUCERS HAVING IMPROVED OPERATING PRESSURE RANGES
Disclosed example pressure transducers include: a pressure housing comprising a first cavity; a fluid input line configured to provide a fluid to the first cavity; a first pressure measurement assembly having a first type and configured to output a first measurement signal based on a pressure of the fluid in the first cavity; a second pressure measurement assembly having a second type and configured to output a second measurement signal based on the pressure of the fluid in the first cavity; and a controller configured to determine the pressure of the fluid in the first cavity based on the first measurement signal when the pressure is within a first range and determine the pressure of the fluid in the first cavity based on the second measurement signal when the pressure is within a second range.
G01L 9/00 - Mesure de la pression permanente, ou quasi permanente d’un fluide ou d’un matériau solide fluent par des éléments électriques ou magnétiques sensibles à la pressionTransmission ou indication par des moyens électriques ou magnétiques du déplacement des éléments mécaniques sensibles à la pression, utilisés pour mesurer la pression permanente ou quasi permanente d’un fluide ou d’un matériau solide fluent
G01L 19/00 - Détails ou accessoires des appareils pour la mesure de la pression permanente ou quasi permanente d'un milieu fluent dans la mesure où ces détails ou accessoires ne sont pas particuliers à des types particuliers de manomètres
99.
WELD TRAINING SIMULATIONS USING MOBILE DEVICES, MODULAR WORKPIECES, AND SIMULATED WELDING EQUIPMENT
Systems for simulating joining operations, such as welding, are disclosed. In some examples, a system may use a mobile device for conducting welding simulations, such as for purposes of training. In some examples, the system may additionally, or alternatively, use modular workpieces. In some examples, the system may additionally, or alternatively, conduct the welding simulation based on one or more selected pieces of welding equipment.
A fastener driving apparatus including an air compressor configured to generate pressurized air at a first pressure level, a drop down air regulator configured to reduce the pressurized air from being at the first pressure level to being at a reduced second pressure level, and a pneumatically powered fastener driving tool configured to receive the pressurized air at the desired reduced pressure level to enable the pneumatically powered fastener driving tool to drive one or more fasteners (such as one or more nails) into an object and a substrate at the desired positions in that object and substrate.
