A floating beared coned of tablet or power docking station. The cone includes a base and a cap. The cone further includes locks for locking a cone valve of a container and silicone member and is horizontally beared via at least one bearing and a carrier elements of the at least one bearing which is fixed to a cylinder of the cone and placed between and upper carrier plate and a lower carrier plate. The cone is centered via at least one spring pin and eccentrically locked via at least one eccentricity lock and enables eccentrical adaptation and adjustment in all horizontal direction up to 12 mm and opening and closing of the cone valve of the container eliminates hygienical rubber over the entire surface of the cone.
The subject of the invention is the floating beared cone of tablet or powder docking station. The cone according to the invention consists of base (1) and cap (2), locks (11) for locking cone valve of the container and silicone membrane (4) and is horizontally beared via bearings (5) and carrier element (6) of the bearings (5) which is fixed to cylinder (3) of the cone and placed between upper carrier plate (7) and lower carrier plate (8). The cone according to the invention is centered via spring pins (9) and eccentrically locked via the eccentricity locks (10) and enables eccentrical adaptation and adjustment in all horizontal directions up to 12 mm and opening and closing of the cone valve of the container and eliminates hygienical rubber over the entire surface of the cone.
The object of the invention is a device and method for automated tightness testing and inertisation of containers or similar receptacles having a cover and/or valve, which allows for an automated tightness testing of containers or other similar receptacles having a cover and/or valve (hereinafter receptacles) to underpressure or overpressure, and inertisation of same, wherein the object of tightness testing is the cover and/or valve arranged on the receptacle. For the purpose of performing an automated tightness test and inertisation of containers or similar receptacles having a cover and/or valves, the device of the invention is provided with a bottom cap (2) equipped with a seal (13) arranged between the bottom cap (2) and the receptacle (0), and an upper cap (5) is equipped with a seal (21) arranged between the upper cap (5) and the receptacle (0), wherein the tightness of the valve (11) is provided for by a seal (12) and the tightness of the cover (18) of the receptacle (0) is provided by a seal (20).
G01M 3/22 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite en utilisant des révélateurs particuliers, p. ex. teinture, produits fluorescents, produits radioactifs pour tuyaux, câbles ou tubesExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite en utilisant des révélateurs particuliers, p. ex. teinture, produits fluorescents, produits radioactifs pour raccords ou étanchéité de tuyauxExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite en utilisant des révélateurs particuliers, p. ex. teinture, produits fluorescents, produits radioactifs pour soupapes
G01M 3/28 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour tuyaux, câbles ou tubesExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour raccords ou joints d'étanchéité de tuyauxExamen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour soupapes
G01M 3/32 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par mesure du taux de perte ou de gain d'un fluide, p. ex. avec des dispositifs réagissant à la pression, avec des indicateurs de débit pour récipients, p. ex. radiateurs
4.
ASSEMBLY OF TELESCOPIC TUBES CONFIGURED TO MOVE A WASHING/DRYING NOZZLE IN CONTAINER WASHING MACHINES
The object of the invention is an assembly of telescopic tubes configured to move a washing/drying nozzle in container washing machines. The assembly configured to move a washing/drying nozzle (5) in container washing machines of the invention is represented by two telescopic tubes (1, 2) and a shifting mechanism (3), wherein, while in use, the internal parts (1c, 2c) of the telescopic tubes (1, 2) are pushed by means of the movable part of the shifting mechanism (3) and the vertical side guides (4) into a closed chamber in the interior of a washing machine, while the connecting parts (1a, 2a) of the telescopic tubes (1, 2) remain firmly fastened on the immovable part of the shifting mechanism (3).
B05B 15/656 - Aménagements de montage pour la liaison fluide de l’appareil de pulvérisation ou de ses sorties aux conduits d’écoulement la longueur du conduit d’écoulement pouvant être modifiée
B05B 13/06 - Machines ou installations pour appliquer des liquides ou d'autres matériaux fluides sur des surfaces d'objets ou de matériaux par pulvérisation, non couverts par les groupes conçus spécialement pour traiter l'intérieur de corps creux
The present invention relates to a sealing system with an O-ring arranged in a compressed-air pressurized groove that provides for explosion proof sealing in explosion proof devices or devices resistant to explosion related pressure surges. In the sealing system in the explosion proof devices of the invention, an O-ring (3) is arranged in a rectangular groove of a top flange (1 ) and abuts upon a bottom flange (2), wherein the pressure of the O-ring (3) against the bottom flange (2) is provided for by a supply of compressed air pressure through a connection (4), when the pressure in a container abruptly increases, the pressure presses the O-ring (3) towards the external edge of the groove and penetrates past the internal edge above the O-ring (3), thus yet additionally pressing the O- ring (3) against the external edge and additionally sealing the joint.
B01J 3/03 - Récipients sous pression, ou récipients sous vide, comportant des organes de fermeture ou des joints d'étanchéité spécialement adaptés à cet effet
F16J 15/16 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre
The rotor of the invention has two legs (2, 3) fastened to a rotary base (1), wherein the legs (2, 3) are provided with asymmetrically arranged boreholes (4) facing upwards and boreholes (5) facing downwards, wherein the boreholes (4) facing upwards have the shape of an ellipse, while the boreholes (5) facing downwards have a circular shape. The boreholes (4) facing upwards and the boreholes (5) facing downwards are formed, such that the jets from the boreholes (4) facing upwards act vertically upwards and the jects from the boreholes (5) facing downwards act vertically downwards, i. e. in a direction 90° with respect to the axis of the legs (2, 3).
The object of the invention is a coupling for a sealing attachment of a medium connector in dishwashers and similar machines with an appropriate insert. The coupling consists of a flange (1) and a coupling element (2), into which a displaceable insert - a sealing element (3) provided with two gaskets (4, 5) - is inserted.
F16L 17/035 - Raccords avec garnitures adaptées à une étanchéité par pression de fluide avec segments d'étanchéité disposés entre la surface extérieure du tuyau et la surface intérieure d'un manchon ou d'une douille à lèvres annulaires axiales les segments d'étanchéité ayant deux lèvres parallèles
A47L 15/42 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table Parties constitutives
F16L 17/073 - Segments d'étanchéité en matière plastique les segments d'étanchéité ayant deux lèvres parallèles l'une à l'autre
The object of the invention is a driving mechanism for moving a sliding door, in particular a heavy glass door for industrial rinsing machines. The driving mechanism for moving a sliding door of the invention consists of a grip, a driven cogwheel (6) fastened to a shaft of a motor (12), and a toothed belt (10) fastened to the upper surface of a mounted C-profile (2) of a holder of the sliding door (1).
E05F 15/635 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement horizontal manœuvrés par des mécanismes "pousser-tirer", p. ex. par des dispositifs à crémaillère souples ou rigides
The object of the invention is a floating split butterfly valve that allows connection of two processing devices or containers in a way that one of the devices (e. g. a transport device or a container) is closed by one half of the valve (passive part) while the other device (e. g. a stable device or a container) is closed by another half of the valve (active part), wherein the material (powder and/or liquid substance) transferred from one device/container into another device/container cannot get trapped in dead corners of the valve and does not get accumulated in the equipment. The construction of the floating split butterfly valve of the invention provides for the fact that due to the arrangement of shafts (5, 5a) of split flaps (2, 2a) in a housing of an active and a passive part of the valve via displaceable (floating) hinges (3, 3a), seals (1, 1a) of the active and passive parts of the valve are flush with the level of the split flaps (2, 2a) on the active and passive parts, when the valve is in a closed position, while the seals (1, 1a), while in an opened position, are arranged by a distance X higher than valve housings (4, 4a) and the flaps (2, 2a) and the seals (1, 1a) remain on the same level due to clearance S1=X.
B65G 69/18 - Prévention de l'échappement de la poussière
F16K 1/22 - Soupapes ou clapets, c.-à-d. dispositifs obturateurs dont l'élément de fermeture possède au moins une composante du mouvement d'ouverture ou de fermeture perpendiculaire à la surface d'obturation à éléments de fermeture articulés à pivot comportant disque ou volet pivotant dont l'axe de rotation traverse le corps de soupape, p. ex. régulateurs à papillon
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
c) of the internal wall (1), such that a slightly concave part is created in the interior of the drum (2) in the wall (1), in which concave part retractable washing heads (3) are arranged that do not hinder functioning of the rotor (4) with paddles (5) either during drying or during washing.
F26B 11/16 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets dans des tambours ou autres récipients quasi fermés, fixes, avec dispositifs agitateurs mobiles le dispositif agitateur se déplaçant dans un plan vertical ou fortement incliné
F26B 25/00 - Parties constitutives d'application générale non couvertes par un des groupes ou
B08B 9/08 - Nettoyage de récipients, p. ex. de réservoirs
B05B 15/68 - Aménagements de réglage en position des têtes de pulvérisation
B08B 3/02 - Nettoyage par la force de jets ou de pulvérisations
F26B 25/04 - Dispositifs d'agitation, de brassage ou de raclage
F26B 25/16 - Chambres, récipients ou réceptacles de structure simple quasi fermés, p. ex. tambours
A61J 3/02 - Dispositifs ou procédés spécialement conçus pour donner à des produits pharmaceutiques une forme physique déterminée ou une forme propre à leur administration la forme de poudres
The object of the invention is a horizontal paddle dryer that is used for normal or vacuum drying of soaked substances that are in the form of dry powder mixtures or granulates in a manufacturing process and are soaked and mixed (normally with solvents) due to technological needs. Once drying is completed, the interior of the dryer needs to be washed due to various types of substances that differ from each other in content and properties. The construction of the horizontal paddle dryer of the invention allows simple and effective washing of the horizontal paddle dryer without an additional removal of washing heads during the washing of the dryer. The horizontal paddle dryer of the invention has a specially shaped interior wall (1) of the drum (2) that passes on the upper part through two surfaces (1a, 1b) that extend tangentially to the interior wall (1) into a horizontal final surface (1c) of the internal wall (1), such that a slightly concave part is created in the interior of the drum (2) in the wall (1), in which concave part retractable washing heads (3) are arranged that do not hinder functioning of the rotor (4) with paddles (5) either during drying or during washing.
F26B 11/16 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets dans des tambours ou autres récipients quasi fermés, fixes, avec dispositifs agitateurs mobiles le dispositif agitateur se déplaçant dans un plan vertical ou fortement incliné
A61J 3/02 - Dispositifs ou procédés spécialement conçus pour donner à des produits pharmaceutiques une forme physique déterminée ou une forme propre à leur administration la forme de poudres
B08B 9/08 - Nettoyage de récipients, p. ex. de réservoirs
F26B 25/00 - Parties constitutives d'application générale non couvertes par un des groupes ou
12.
SELF-CLEANING RETRACTABLE WASHING HEAD WITH PNEUMATIC DRIVE
A self-cleaning retract washing head with a pneumatic drive designed for efficient washing of vessels or containers and intermediate components for the preparation of solutions in pharmaceutical and food industry, said solutions being at an overpressure of up to 6 bar, wherein the constructional solution to the washing head of the invention provides for a simple and efficient self-cleaning of the washing head. The self-cleaning retract washing head (1) with the pneumatic drive is provided with a movable bar (2) with a washing ring (5), wherein at the end of the bar (2) on the washing ring (5) an annular element (3) with grooves (3') is pivotably arranged, which grooves cause rotation of the annular element (3).
B05B 3/04 - Appareillages de pulvérisation ou d'arrosage avec des éléments de sortie mobiles ou des éléments déflecteurs mobiles avec des éléments rotatifs entraînés par le liquide ou autre matériau fluide refoulé, p. ex. le liquide actionnant un moteur avant de parvenir à l'orifice de sortie
B08B 9/093 - Nettoyage de récipients, p. ex. de réservoirs par la force de jets ou de pulvérisations
The subject of the invention is a constructional solution to a sealing flap of a flap valve that provides perfect tightness of vessels or containers intended for storing capsules under inerting overpressure of about 50 mbar. A sealing flap (2) of a flap valve that provides perfect tightness of vessels or containers is provided with a rubber profile (5) on a fitting (4), said profile changing into a conical shape towards the edge of the sealing flap (2).
The subject of the invention is a processing device for granulating and coating of solid particles. The present invention refers to a technical field of particle coating, especially to a field of devices for spraying a coating liquid or suspension into a fluidised layer of particles. A processing device for granulating and coating of solid particles, where the device (1) has a processing medium distribution panel (4) arranged inside a wall (2), through which distribution panel (4) at least one nozzle (15) for atomising the liquid for coating or granulating is arranged, wherein under said distribution panel (4) there is a housing (3), which serves to supply a processing medium (5) through the distribution panel (4) into the area above the distribution panel (4), wherein the nozzle (15) for atomisation of the solution is designed in a way that part of the processing medium (5) is taken from the area below the distribution panel (4) and conducted to the area above the distribution panel (4) through a channel (12) that embraces the nozzle (15) concentrically and in the same flow direction with respect to a sprayed solution (7).
B01J 2/00 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes
B01J 2/16 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par suspension de la substance en poudre dans un gaz, p. ex. sous forme de "lits fluidisés" ou de rideau
B05B 7/06 - Pistolets pulvérisateursAppareillages pour l'évacuation avec un orifice de sortie en entourant un autre situé approximativement dans le même plan
15.
GAS DISTRIBUTION PLATE INTENDED FOR USE IN DEVICES FOR TREATING SOLID PARTICLES
The subject of the invention is a new construction of a processing chamber with a gas distribution panel intended for use in improved processing devices for the treatment of solid particles in a fluidised layer and refers to a construction solution to the essential element of the device for drying, granulation and coating, i. e. a processing chamber with a gas distribution panel, which improves the quality of these processes. The invention describes a construction of a processing chamber with a distribution panel (4), a constituent part of which is connected with a lifting mechanism. This mechanism allows lifting of the upper assembly (7) in relation to the bottom assembly (11) of the distribution panel (4) and thus increases the vertical distance between the upper assembly (7) and the bottom assembly (11) of the distribution panel (4). This contributes to easier washing of the chamber and also gravitation linked emptying of the product from the chamber through the distribution panel is rendered possible.
B01J 2/16 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par suspension de la substance en poudre dans un gaz, p. ex. sous forme de "lits fluidisés" ou de rideau
16.
GAS DISTRIBUTION PLATE INTENDED FOR USE IN DEVICES FOR TREATING SOLID PARTICLES
The subject of the invention is a gas distribution plate, intended for use in an improved process device for treating solid particles in a fluidised bed, which falls within the field of chemical and pharmaceutical technology. It represents an improvement on the process equipment for treating solid particles by spraying from above, below or from the side and works on the principle of technology with a controlled circular movement of material in the processing chamber. The distribution plate (3) is composed of several upper plates (7) and lower plates (6) whose floor plan surfaces are ring shaped, for which each upper plate (7) concentrically overlaps part of one or two lower plates (6). Between the upper plates (7) and lower plates (6), barriers (13a, 13b) are placed for directing the flow of the media 9, in such a way, that theses barriers (13a, 13b) together with the plates (6) and plates (7) create numerous openings (16) intended for the passage of the media (9).
B01J 2/16 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par suspension de la substance en poudre dans un gaz, p. ex. sous forme de "lits fluidisés" ou de rideau
The subject of invention is an enhanced processing apparatus for particle coating using a new airflow vortex generator (4), which enables achieving flow characteristics of the gas vortex flow within the areas inside the separation cylinder (5) and between the separation cylinder (5) and the perforated flow distribution plate (3), leading to an improved uniformity and quality of the coating application, with a higher material and thermal efficiency during the coating process, where the particles move upward in a circular path in the spraying and drying area inside a vertical pipe of the separation cylinder (5), positioned above the gas distribution plate (3), and downward in the second drying and particle retention area outside the separation cylinder (5).˙
B01J 2/00 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes
B01J 2/16 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par suspension de la substance en poudre dans un gaz, p. ex. sous forme de "lits fluidisés" ou de rideau
The subject of the invention is a process device for coating particles that falls within the field of chemical and pharmaceutical technology. It represents an improvement on the process equipment for coating particles by spraying from the bottom and works on the principle of fluidization technology. The process device for coating particles, according to the invention which has within the wall (1), one or more units placed, for which each unit consists of a swirl flow generator (4) with a perforated plate (3) and a draft tube (5) where centrally through the swirl flow generator (4) a single or multi-phase spraying nozzle (6) with a coating dispersion inflow (7) and inflow (8) of compressed air is installed, in which the swirl flow generator (4) has outward open and at an angle with regard to the vertical installed grooves (18). The process device for coating particles in the second implementation case, has within the wall (1), one or more units placed, for which each unit consists of a draft tube (5) and a single or multi-phase spraying nozzle (6), which is mounted centrally with regard to the draft tube (5) and penetrates the perforated plate (3a). The perforated plate (3a), which is in the outer area, between the wall of the draft tube (5), and the wall (1) of the device, in cross-section straight or curved and has a characteristic distribution of the size of round orifices with the largest cross sections in the area of the ground floor projection of the draft tube (5) and smaller orifices in the remaining part of the plate. The device for coating shall have along the periphery of the wall (1) and at the perforated plate (3a) the ring (21 ) with installed inflow slots (27) that are pressure powered from a common hollow ring (20) with a connector (22) for compressed air. The device for coating shall have along the periphery of the wall (1) above the perforated plate (3a) a radially installed circumferential inflow slot (24) and otherwise inclined to the horizontal plane, the slot (24) is pressure powered through the hollow ring (23) with a pressure connection (25).
B01J 2/00 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes
B01J 2/16 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par suspension de la substance en poudre dans un gaz, p. ex. sous forme de "lits fluidisés" ou de rideau