(1) Electric welding machines for welding plastics; machines for welding plastics; welding installations, namely, electric welding machines; welding machines; machines for processing and welding plastics; lubricating apparatuses, namely, lubricating pumps, motorised sprayers for applying lubricant oils, adjustable nozzles for lubricant pumps, lubricant lances specifically adapted for lubricating pumps; lubricating devices, namely, lubricating pumps, motorised sprayers for applying lubricant oils, adjustable nozzles for lubricant pumps, lubricant lances specifically adapted for lubricating pumps; central lubricating installations, namely, motorised sprayers for applying lubricant oils, adjustable nozzles for lubricant pumps, lubricant lances specifically adapted for lubricating pumps all for machines; minimum quantity lubricating systems comprised of lubricating pumps, motorised sprayers for applying lubricant oils, adjustable nozzles for lubricant pumps, lubricant lances specifically adapted for lubricating pumps, and pump control valves for delivering the precise amount of grease or oil required; stationary and mobile lubricating systems, namely, minimum quantity lubricating systems comprised of lubricating pumps, motorised sprayers for applying lubricant oils, adjustable nozzles for lubricant pumps, lubricant lances specifically adapted for lubricating pumps, and pump control valves for delivering the precise amount of grease or oil required; dosing technology, namely dosing pumps and valves being parts of machines; automatic dosing machines, namely dosing pumps and valves being parts of machines; dosing valves being parts of machines; dosing pumps being parts of machines; digital electrohydraulic dosing valves being parts of machines; 3D printers; packing machines; electrical welding machines for welding plastic packaging; electric welding machines; scutching machines for the textile industry; digital printing machines for textile industry; napping machines for the textile industry; engraving machines for the textile industry; machines for processing plastics; riveting machines; riveting machines [electric tools]; power-operated riveting machines; sewing machines; sewing machine installations, namely, sewing machinery and sewing machine parts; electrical sewing machines; servomotors for sewing machines; robot-controlled sewing machines for industrial purposes; robots, namely, industrial robots for sewing, industrial robots for welding, industrial robots for working plastic material; industrial robots for being machine tools for the textile industry; robot-controlled welding machines; industrial robots for processing semi-finished plastic products; packaging machines; robot-controlled packaging machines; robotic arms for loading, packaging, palletizing, and assembling for industrial purposes
2.
TRANSFER ELEMENT, TOOL HOLDER AND METHOD FOR SUPPLYING COOLANT TO A TOOL
To develop existing lubrication systems/cooling systems also for the use of tools having small diameters, a transfer element which can be arranged and/or formed in a tool holder comprises the following: a coolant delivery means for delivering coolant to the transfer element; a tubular element, which has an output end for outputting the coolant to the tool, the output end opening into an output region, and the tubular element fluidically connecting the coolant delivery means to the output region; a separating region for separating cooling liquid out of an aerosol being used as a coolant.
B05B 1/26 - Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means with means for mechanically breaking-up or deflecting the jet after discharge, e.g. with fixed deflectorsBreaking-up the discharged liquid or other fluent material by impinging jets
In order to provide an aerosol device (100) which allows the provision of an aerosol with an optimized composition, in particular an optimized droplet size distribution, it is proposed that the aerosol device (100) comprise the following: an aerosol housing (102); one or more aerosol nozzles (104) for creating an aerosol stream from a transport gas and a liquid, wherein the one or more aerosol nozzles (104) are directed into an interior (106) of the aerosol housing (102) and/or are arranged in the aerosol housing (102); one or more transport duct ports (156) for attaching one or more transport ducts (158), by means of which the aerosol is dischargeable from the interior (106) of the aerosol housing (102).
The aim of the invention is to provide a method for heating an object (102), which method can be carried out in a simple way and allows an efficient and reliable heating of an object (102). This aim is achieved, according to the invention, in that the method comprises the following steps: providing an object (102) to be heated; applying at least one energy beam (108, 109) onto the object (102) to be heated, wherein at least one energy beam (108) is guided several times over the object to be heated (102) along a predetermined target heating path (114), as a result of which the object is heated along the target heating path (114); detecting a temperature distribution on the target heating path (114) for determining one or more deviation points (120), in which an actual local temperature deviates from an expected and/or calculated temperature; changing and/or supplementing the application of at least one energy beam (108, 109) to compensate for the temperature deviation at one or more deviations points (120).
A method for producing a portable data carrier by means of a continuous production method, in particular a roll-to-roll method, includes the step of processing at least one foil in the form of roll goods. The unrolled foil is coated with an adhesive at least partially on at least one side. Subsequently, the foil is scored along at least one fold edge on at least one side of the foil. The foil is then folded along the scored fold edge in exact register and bonded. For this purpose the foil is folded in the direction of the side that is coated with adhesive, wherein the side coated with adhesive is arranged on the opposite side of the foil which has at least one scored fold edge, along which the folding is effected. Finally, data carriers are punched out in exact register from the at least one folded and bonded foil.
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
7.
NOZZLE UNIT, MOBILE LUBRICATING DEVICE, AND METHOD FOR LUBRICATING AN OBJECT
The aim of the invention is to provide a nozzle unit for a lubricating device for lubricating an object, said nozzle unit being simply constructed and enabling efficient lubrication. This aim is achieved, according to the invention, in that the nozzle unit comprises the following: a supply line section, by means of which a lubricant, a carrier gas, and/or an additive gas can be supplied to the nozzle unit; an output section, by means of which the lubricant, the carrier gas, and/or the additive gas can be output onto an object to which the lubricant, the carrier gas, and/or the additive gas should be applied; a mixing device, by means of which the lubricant and the carrier gas can be mixed with each other, wherein the mixing device leads into the output section; a bypass channel, by means of which additive gas can bypass the mixing device and can be fed to the output section.
A method for producing a portable data carrier by means of a continuous production method, in particular a roll-to-roll method, includes the step of processing at least one foil in the form of roll goods. The unrolled foil is coated with an adhesive at least partially on at least one side. Subsequently, the foil is scored along at least one fold edge on at least one side of the foil. The foil is then folded along the scored fold edge in exact register and bonded. For this purpose the foil is folded in the direction of the side that is coated with adhesive, wherein the side coated with adhesive is arranged on the opposite side of the foil which has at least one scored fold edge, along which the folding is effected. Finally, data carriers are punched out in exact register from the at least one folded and bonded foil.
G06K 19/00 - Record carriers for use with machines and with at least a part designed to carry digital markings
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
9.
LUBRICATING DEVICE AND METHOD FOR LUBRICATING MACHINE PARTS
The aim of the invention is to provide a lubricating device for lubricating machine parts, which has a simple construction and allows efficient lubrication of machine parts. To this end, the lubricating device comprises the following: an aerosol generator for providing an aerosol, comprising a carrier gas and a lubricant; a supply device for supplying the aerosol to a machine interior containing machine parts to be lubricated; a withdrawal device for withdrawing the aerosol from the machine interior; and a control device for controlling the aerosol generator and/or the supply device and/or the withdrawal device so as to be able to modify a pressure in the machine interior.
F16N 29/02 - Special means in lubricating arrangements or systems providing for the indication or detection of undesired conditionsUse of devices responsive to conditions in lubricating arrangements or systems for influencing the supply of lubricant
The invention relates to a microlubrication system (10) for a machining unit with a rotating spindle (18), said system comprising a rotary feedthrough (32) via which compressed air and lubricant can be fed to the rotating spindle (18) to combine them in a mixing chamber (58) close to a tool (24), and a metering valve (46) by means of which the amount of the fed lubricant can be dosed. In order to improve the monitoring and the control of the system, the rotary feedthrough (32) and/or the metering valve (46) are designed as smart components.
In order to create a heating device (108), for example for heating thermoplastic materials, which has a simple design and allows for optimized heat output, the heating device comprises the following: a burner unit (112) that includes a combustion chamber (138) inside which hot waste gas can be made available by chemically reacting fuel and oxidizer; and a flow unit (114) which allows the waste gas to be fed to an object area that is to be heated.
The invention relates to a method for producing a continuous web of corrugated cardboard, individual cardboard sheets (1, 2) being provided and being permanently joined at their abutting edges (3, 4) in a joining region (5).
B31F 1/28 - Making webs in which the channel of each corrugation is transverse to the web feed by interengaging toothed cylinders combined with uniting the corrugated webs to flat webs
13.
FLEXIBLE FORMAT ADJUSTMENT DURING DIGITAL PRINTING
The invention relates to a device (1) for producing printed matter, said device having an unwind unit (2) for providing paper to be printed. According to the invention, a print unit is arranged downstream of the unwind unit (2), said print unit printing the paper, a cross cutter (4) is arranged downstream of the print unit, said cross cutter cutting the printed paper that is continuously fed to said cross cutter, the cutting being transverse to the feed direction such that individual printed sheets are provided, a collection unit (5) to collect the sheets fed to the collection unit is arranged downstream of the cross cutter (4), a feed unit (6) can be located downstream of the collection unit (5), at least one additional unit to finish the printed matter to be produced is arranged downstream of the feed unit (6). When viewed in the feed direction, upstream and/or downstream of the cross cutter (4), the actuators are associated with the units located upstream and/or downstream, said actuators enabling the treatment of the paper fed into said unit to be adjusted from one format into another format.
The invention relates to a device (1) for producing printed matter, said device having an unwind unit (2) for providing paper to be printed. According to the invention, a print unit is arranged downstream of the unwind unit (2), said print unit printing the paper, a cross cutter (4) is arranged downstream of the print unit, said cross cutter cutting the printed paper that is continuously fed to said cross cutter, the cutting being transverse to the feed direction, such that individual printed sheets are provided, a collection unit (5) to collect the sheets fed to the collection unit is arranged downstream of the cross cutter (4), a feed unit (6) is located downstream of the collection unit (5), at least one additional unit to finish the printed matter to be produced is arranged downstream of the feed unit (6). When viewed in the feed direction, at least one switch (7) is located behind the cross cutter (4), said switch enabling at least individually printed sheets to be discharged during the production process.
The invention relates to a method for operating a device (1) for producing printed matter, said device having an unwind unit (2) to provide paper to be printed, wherein: a print unit is arranged downstream of the unwind unit (2), which print unit prints the paper; a cross cutter (4) is arranged downstream of the print unit, which cross cutter cuts the printed paper that is continuously fed to said cross cutter, the cutting being transverse to the feed direction, such that individual printed sheets are provided; a collection unit (5) to collect the sheets fed to the collection unit is arranged downstream of the cross cutter (4); a feed unit (6) is arranged downstream of the collection unit (5); at least one additional unit to finish the printed matter to be produced is arranged downstream of the feed unit (6); and wherein the units upstream of the cross cutter (4) and/or the cross cutter (4) are operated in accordance with the processing speed of at least one of the units located downstream of the cross cutter (4).
The invention relates to a method for operating a device (1) for producing printed matter, comprising a rolling unit (2) for providing paper to be printed, wherein a printing unit is arranged downstream of the rolling unit (2), which prints the paper, wherein a transverse cutter (4) is arranged downstream of the printing unit, which cuts the endlessly fed printed paper transversely to the feed direction, so that individual printed sheets are provided. According to the invention, a collection unit (5) for collecting the fed sheets is arranged downstream of, in particular, the transverse cutter (4), wherein a feeder unit (6) is arranged downstream of, in particular, the collection unit (5), which aligns the collected sheets, wherein at least one further unit for finishing the printed matter to be produced is arranged downstream of the feeder unit (6), wherein a digital printing unit (3) is used as printing unit, which, per sheet, prints a printing mark on the paper, or wherein a printing mark is present, wherein a reading device detects the information contained in the printing mark. The invention is characterized in that the transverse cutter (4) and the at least one further unit are operated depending on the detected information.
B26D 5/00 - Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
B26D 5/32 - Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed having the cutting member controlled by scanning a record carrier with the record carrier formed by the work itself
B41J 11/70 - Applications of cutting devices cutting perpendicular to the direction of paper feed
The invention relates to a method for operating a device (1) for producing printed matter, comprising a rolling unit (2) for providing paper to be printed, wherein a printing unit is arranged downstream of the rolling unit (2), which prints the paper, wherein a transverse cutter (4) is arranged downstream of the printing unit, which cuts the endlessly fed printed paper transversely to the feed direction, so that individual printed sheets are provided. According to the invention, a collection unit (5) for collecting the fed sheets is arranged downstream of the transverse cutter (4), wherein a feeder unit (6) can be arranged downstream of the collection unit (5), wherein at least one further unit for finishing the printed matter to be produced is arranged downstream of the feeder unit (6), and wherein the units which are arranged upstream and/or downstream of the transverse cutter (4) and/or the transverse cutter (4) are flexibly operated depending on the processing speed of at least one of the units mounted upstream of the transverse cutter (4).
B26D 5/00 - Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
B26D 5/30 - Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed having the cutting member controlled by scanning a record carrier
B26D 5/32 - Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed having the cutting member controlled by scanning a record carrier with the record carrier formed by the work itself
B41F 13/54 - Auxiliary folding, cutting, collecting or depositing of sheets or webs
The invention relates to a method and a device for separating sheets (3) from a stack (4) and supplying said sheets to a subsequent sheet-processing machine, in which the lateral edge of the uppermost sheet to be separated from the stack is lifted at least in the region of the front edge such that, in this region, an intermediate space between the sheet to be separated and the sheet lying below is produced into which a clamping element is inserted which grips the sheet on its lateral edge, preferably on the front section of its lateral edge, conveys it to the subsequent machine and lays it down here.
A method, in particular a monitoring method, for joining two components made of plastics in a joining region by means of a joining process, characterized in that the joining region is exposed to an electric field and forms a dielectric, the electric field being measured and the measured value being a measure for the progress of the joining process and/or the quality of the joining region.
The invention relates to a method for operating a punching/transferring device (1), in particular for producing RFID antennas. The punching/transfer device (1) has a punching tool (2) with a vacuum connection (3), said vacuum connection (3) interacting with a porous elastomer (9) such that by means of the punching tool (2), a desired contour can be punched out of a multilayer composite, held, and then dispensed by modifying the shape of the porous elastomer (9) and/or by modifying the vacuum.
The invention relates to a method for producing large stacks of large-format sheets. In order to bridge a vertical distance between a feeding level of the sheets and a floor level, a stacking platform is designed as a stack-accommodating table (2) that can be moved vertically up and down. A pallet (10) is placed on the stack-accommodating table (2), on which pallet the sheets are stacked to formed stacks. The accommodating table is moved into an upper end position by means of a lifting device, and the sheets are continuously fed to the pallet. The stack-accommodating table is continuously lowered together with the pallet during the continuous feeding in order to ensure uniform stack formation. When the desired stack height is reached, the stack-changing device (11) moves between two sheets and completely separates said two sheets from each other. The subsequent stack is formed on the top side of the insertion bottom. The insertion bottom is continuously lowered, while the accommodating table moves into a lower end position of the accommodating table at the height of the floor region and the pallet is transported away together with the formed stack. Then the stack-accommodating table is moved to the height of the stack-changing device together with a new, empty pallet and the stack-changing device moves back into the initial position thereof horizontally and thus unloads the stack being formed onto the empty pallet. Thereafter the pallet, or rather the stack-accommodating table, is continuously lowered again until the desired stack height is reached and the stack-changing device moves between two sheets again in order to separate the stacks. The method is characterized in that an adapter pallet (1) is used once at the start of the continuous stack formation.
B65H 31/32 - Auxiliary devices for receiving articles during removal of a completed pile
B65H 31/10 - Pile receivers with movable end support arranged to recede as pile accumulates the articles being piled one above another and applied at the top of the pile
Printing machines; Accessories, Apparatus and devices for printing technology, namely printing rollers, Stamping presses, Etching apparatus, casting apparatus and Apparatus for drying; Machines for paper processing, namely cutters (machines), die-cutting machines, die-stamping machines, collating machines, packaging machines and binding machines, in particular gluing, spine lining and stitching machines; Plastics welding machines, Heat sealing machines; Machines for processing film material, including paper, cardboard and plastic film; Machines for unrolling, cutting, stacking and packaging of paper sheets, cardboard sheets and film sheets.
The present invention discloses a method for producing a portable data carrier using a continuous production method, in particular a roll-to-roll process. At least one foil to be processed is provided as rolled material. The unwound foil is at least partially coated with an adhesive on at least one side. The foil is subsequently scored along at least one folding edge on at least one side of the foil. The foil is then folded and agglutinated along the scored folding edge in a custom-fit manner. The foil is folded towards the side, which is coated with adhesive, wherein the side coated with adhesive is arranged on the opposite-lying side of the foil, which has at least one scored folding edge along which folding occurs. Finally, data carriers are punched out in a custom-fit matter from the at least one folded and agglutinated foil.
The invention relates to a stacker wheel for depositing sheets (4), which are individually conveyed one after the other by a feed conveyor, on a stack, - comprising a rotational axis (6) that is perpendicular to the conveyor device, and - a plurality of curved blades (1) between which compartments (2) for the sheets (4) are delimited in which - the sheets (4) are conveyed that are being fed substantially vertically downwards from above, and also comprising a stationary remover device (11) for removing the sheets (4) from the compartments (2) as the stacker wheel rotates, said sheets (4) being deposited in a stack, each compartment (2) comprising at least one clamping lever (3) which decelerates and clamps the sheets (4) in order for them to be conveyed in the stacker wheel and which closes once the sheet being fed in has entered the compartment (2), the sheet (4) being clamped between the blade (1) and the clamping lever (3) so that the front edge of the sheet (4) cannot strike against the compartment base, and the clamping lever (3) being moved back into the starting position when in front of the remover device (11) so that the sheet (4) can be removed and deposited.
The invention relates to a device for linear transport of flat objects, having at least one carrier (2) for the objects fastened to a circumferential, driven chain (1), wherein the chain (1): is a link chain made of a series of links (4) connected via joints (3), is guided in a straight line in the region of the transport section (11) and then deflected and guided back, is driven in the region of the linear guide (6) thereof, and is guided on a frame-fixed chain guide track (6, 7), which has the shape of a curve in each of the regions between a linear guide (6) and the apex (15) of the deflection (7), the curvature radius of r = ∞ of which continually reduces in the linear region up to the apex (15) of the deflection (7).
B65H 5/08 - Feeding articles separated from pilesFeeding articles to machines by grippers, e.g. suction grippers
B65H 29/04 - Delivering or advancing articles from machinesAdvancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands
B65G 23/06 - Drums, rollers, or wheels with projections engaging abutments on belts or chains, e.g. sprocket wheels
26.
FLOW CONTROL VALVE ADJUSTABLE ACCORDING TO VISCOSITY
Flow control valve (1) having a control piston (2) that has a throttle point (4) for said control piston (2) and an adjusting pin (5), characterized in that a portion of the control piston (2) has grooves (6), wherein a groove bushing (9) and inserts (8) in said grooves (6) are arranged such that they are axially displaceable in this portion.
F16K 17/06 - Safety valvesEqualising valves opening on surplus pressure on one sideSafety valvesEqualising valves closing on insufficient pressure on one side spring-loaded with special arrangements for adjusting the opening pressure
27.
DEVICE FOR STREAM-FEEDING AND PLACING SHEETS ONTO A STACK
The invention relates to a device for stream-feeding and placing sheets onto a stack (23) having • - an overlapping device disposed upstream of the stacking area (41) for producing an overlapping stream, which overlapping device includes a braking device, and • - stacking elements disposed in the stacking area (41), wherein the stacking elements disposed in the stacking area (41) above the supply conveyor plane or extending to above the supply conveyor plane are attached in a separate frame (42) which is mounted in the machine frame (40) of the device so as to be movable horizontally.
B65H 31/10 - Pile receivers with movable end support arranged to recede as pile accumulates the articles being piled one above another and applied at the top of the pile
B65H 29/24 - Delivering or advancing articles from machinesAdvancing articles to or into piles by air-blast or suction apparatus
B65H 29/66 - Advancing in streams of overlapping articles
28.
METHOD AND DEVICE FOR PRODUCING BOOKS WITH WIRE OR SPIRAL BINDINGS OR OTHER COMPARABLE BINDINGS
The invention relates to the production of books with wire or spiral bindings or other comparable bindings, wherein sub-layers (2) made of punched sheets are collected one over the other in a successive manner into a book (5) at a collecting station (3), and the book is subsequently bound. According to the invention, a sub-layer (2) is held in a clamped manner by at least one lateral clamping device (12) which moves together with the sub-layer while the sub-layer is transported into the collecting position, while the sub-layers (10) already collected at the collecting station (3) are held in a fixed manner by means of at least one needle (13) which is moved upwards through the punched holes (4) from below. The clamping of the pliers is released only when the needles (13) are also located in the punched holes (4) of the newly conveyed sub-layers (2) as a result of the needles being moved upwards.
B42B 5/08 - Permanently attaching together sheets, quires, or signatures otherwise than by stitching by finger, claw, or ring-like elements passing through the sheets, quires, or signatures
B42C 19/08 - Conveying between operating stations in machines
B42C 1/10 - Machines for both collating or gathering and interposing inserts
B65H 35/00 - Delivering articles from cutting or line-perforating machinesArticle or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers
The invention relates to a device for machining leaf- or sheet-shaped goods, comprising a machine frame in which punching and/or cutting tools (4) are mounted, said tools carrying out a vertical stroke for cutting purposes. The machine frame consists of two parts, a lower stationary frame (1) and a cassette-type housing (2) which is movably mounted on the frame (1) in a horizontally transverse manner. The tool receiving portions (3) are mounted in the cassette-type housing in a vertically movable manner.
The invention relates to an apparatus for imbricating sheets and depositing them on a stack (23), having a braking device, which is arranged upstream of the stacking region and acts in each case on the trailing edge of a supplied sheet (5) and having at least one transporting-air bar (19), which extends into the stacking region above the supply plane and has nozzles which expel compressed air.
The invention relates to a method for determining whether two plastics components (1, 2) to be welded to each other in a joint plane are welded to each other after a welding process has been carried out, characterized in that the position of a reference plane is determined from a reference point before the welding process is carried out, then the welding process is carried out, and the position of the joint plane or the thickness of the components (1, 2) welded to each other is determined from the reference point during or after the welding process.
The invention relates to a vibration welding machine (1), comprising an upper tool (2) and a lower tool (3), wherein the two tools (2, 3) each accommodate a respective welding part (4, 5), which welding parts are intended to be joined by means of vibration, and means for producing vibrations are provided, which cause at least the upper tool (2) to vibrate, wherein the means for producing vibration are designed as a stationary part, in particular an upper carrier (9), and a part arranged thereon in such a way that said part can oscillate, in particular an oscillator (11), which accommodates the upper tool (2), wherein furthermore means are provided that remove the air located in an air gap (15) formed between the stationary part, in particular the upper carrier (9), and the part that can oscillate, in particular the oscillator (11). DRAWING: FIG. 1:
For continuous welding of plastic components (1, 2) of a product along a join region extending over the circumference, the plastic components (1, 2) to be welded are first positioned in the join position thereof and fixed therein. Then, for the welding process, the product is transported past a fixed heat source (5) and is subjected to its own rotary movement in the region of the fixed heat source (5), in addition to the transport movement, in order to insert the welding energy into the join region.
B29C 65/14 - Joining of preformed partsApparatus therefor by heating, with or without pressure using wave energy or particle radiation
B29C 65/02 - Joining of preformed partsApparatus therefor by heating, with or without pressure
B29C 65/78 - Means for handling the parts to be joined, e.g. for making containers or hollow articles
B29C 65/00 - Joining of preformed partsApparatus therefor
B65B 7/28 - Closing semi-rigid or rigid containers or receptacles not deformed by, or not taking-up shape of, contents, e.g. boxes or cartons by applying separate preformed closures, e.g. lids, covers
The invention relates to a heating device (1) comprising a carrier layer (2) and a heating layer (3), characterised in that the thin heating layer (3) sits upon the shaping, dimensionally-stable carrier layer (2), said carrier layer (2) being designed to be thermally-insulating and thermally-stable for the operating temperatures of the application.
H05B 3/10 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor
H05B 3/26 - Heating elements having extended surface area substantially in a two-dimensional plane, e.g. plate-heater non-flexible heating conductor mounted on insulating base
H05B 3/16 - Heating elements characterised by the composition or nature of the materials or by the arrangement of the conductor the conductor being mounted on an insulating base
35.
CLAMPING DEVICE AND METHOD FOR LASER BEAM WELDING WITH A CONNECTING ELEMENT MOVABLE ALONG WITH THE LASER BEAM
This application relates to a method for operating a clamping device and to a clamping device, designed for joining two components by means of a beam-type energy input in a joining area, wherein a first and a second clamping element (6) are provided for fixing the two components under a pre-tension during the energy input, and the second clamping element (6) is formed from an inner holder (7) and an outer holder (8), wherein the inner holder (7) and the outer holder (8) are separated from one another by a circumferential passage gap (9) and are held in position relative to one another by at least one connecting element (10), wherein the at least one connecting element (10) is movably mounted, and a drive unit is provided for moving the at least one connecting element (10) on the basis of the movement of the energy beam.
B23K 37/04 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass for holding or positioning work
B23K 26/32 - Bonding taking account of the properties of the material involved
Device and method for minimum quantity lubrication in the machining of workpieces by means of a tool, wherein a lubricant and/or coolant is fed specifically to the machining point between the tool and the workpiece, lubricating and/or cooling the machining point, and wherein the lubricant and/or coolant is then conducted away, characterized in that the lubricant and/or coolant is conducted away specifically after it has lubricated or cooled the machining point.
B23Q 11/00 - Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling workSafety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
B23Q 11/10 - Arrangements for cooling or lubricating tools or work
The invention relates to a device (1) for the thermal impulse welding of two plastic components (2) to be joined, a carrier (20) being provided, on which the components (2) lie, and furthermore at least one heating element associated with the joining region of the components (2) being provided, which heating element applies heat to the joining region in order to join the components (2), characterized in that a flexible pressure element which can be internally pressurized is associated with the carrier (20) at least in the joining region of the components (2).
The invention relates to a spindle head (1) for machine tools, comprising a spindle housing (2) of a working spindle (4), which is rotatably supported about a spindle axis relative to the spindle housing (2) by means of at least one bearing (5) and which has a spindle (3), wherein the spindle housing (2), the spindle (3), and the working spindle (4) have supply devices (Z) for a cooling medium for a tool arranged on a tool side (W) of the spindle (3), characterized in that two bushings (6, 7) that form a gap seal in the region of the supply device (Z) are provided, wherein the one bushing (6) is arranged in the working spindle (4) and the other bushing (7) is arranged in the spindle housing (2) and at least one of the two bushings (6, 7) has at least one recess (8) in the running surface of the bushing facing the other bushing (6, 7).
The invention relates to a joining device (10, 20) and to a method for operating a joining device (10, 20), wherein a component (12, 22) comprising at least two parts is processed by means of an energy beam in such a way that the at least two parts are joined in a joining region by means of the energy beam, several components (12, 22) being fed and processed in succession by means of a conveying device (11, 21), characterized in that the energy beam by means of which the particular component (12, 22) is processed is moved along the joining region in dependence on the motion of the component (12, 22).
The invention relates to a method for determining whether two plastics components (1, 2) to be welded to each other in a joint plane are welded to each other after a welding process has been carried out, characterized in that the position of a reference plane is determined from a reference point before the welding process is carried out, then the welding process is carried out, and the position of the joint plane or the thickness of the components (1, 2) welded to each other is determined from the reference point during or after the welding process.
The invention relates to a method for aligning a sheet in front of a sheet processing machine, comprising the following steps: a) a sheet (1) arriving in a conveying plane is moved with the front edge thereof against a stop (3) and slowed down to a standstill, b) then the front region of the sheet (1) is clamped on each longitudinal side by a respective clamping device (4, 5), wherein each of the two clamping devices (4, 5) can be moved independently of the other in and transversely to the transport direction, in each case by means of at least one drive, preferably by means of two drives, c) thereafter, using a camera, which is part of a camera system, an image is recorded in each case of the right and left front regions of the sheet (1) for determining the actual position, d) the image information of the camera system is then compared to the stored target values and the necessary corrective movement for achieving the target position of the sheet (1) is calculated, e) thereafter the stop (3) at the sheet front edge is moved out of the transport plane and the calculated corrective movement is carried out, wherein the two clamping devices (4, 5) are moved independently of each other in and transversely to the transport direction.
For continuous welding of plastic components (1, 2) of a product along a join region extending over the circumference, the plastic components (1, 2) to be welded are first positioned in the join position thereof and fixed therein. Then, for the welding process, the product is transported past a fixed heat source (5) and is subjected to its own rotary movement in the region of the fixed heat source (5), in addition to the transport movement, in order to insert the welding energy into the join region.
It is known to have apparatuses for slowing down sheets in a sheet-producing or -processing machine, in particular a cross-cutting machine for webs of paper or cardboard, which have a suction chamber (5), which is connected to a negative-pressure source and over the suction surface of which is moved at least one perforated slowing-down belt (1) which is driven in circulation. According to the invention, the negative-pressure source is a tubular vacuum ejector (7), which operates in accordance with the Venturi effect and of which the compressed-air-supply line can be switched on and off by means of a quick-acting valve (8).
The invention relates to an apparatus for processing web-shaped or sheet-shaped material with a processing cylinder which can be driven in rotation, wherein the processing cylinder is configured as a sleeve (3) and is fitted in a rotatable fashion onto a fixed axis (2) which has a means of supplying compressed air into the interior via an axial journal (2.1, 2.2), which supply means is connected to outlet openings in the casing surface, and wherein there is rotational drive (4) to which the sleeve (3) can be coupled.
F16C 13/00 - Rolls, drums, discs, or the likeBearings or mountings therefor
F16C 32/06 - Bearings not otherwise provided for with moving member supported by a fluid cushion formed, at least to a large extent, otherwise than by movement of the shaft, e.g. hydrostatic air-cushion bearings
45.
METHOD AND DEVICE FOR MELTING A THERMOPLASTIC BY SUPPLYING AN EXHAUST GAS, IN PARTICULAR FOR WELDING PLASTIC PARTS
The invention relates to the melting of a thermoplastic, in particular for welding plastic parts (1). The plastic is heated by supplying an exhaust gas. According to the invention, a further gas is mixed with the exhaust gas prior to the supplying process.
The invention relates to a system for producing and processing stacks of sheets (8) by means of a stack-producing machine (1, 10), which has the following characteristics: at least one unrolling device (2) for unrolling rolls made of web-shaped material, in particular made of paper, a longitudinal cutter (4) for cutting the webs (3) into longitudinal strips (5), - a transverse cutter (6) for dividing the longitudinal strips (5) into sheets (7), a device for forming stacks (8) from the sheets (7), and a discharge conveying device (9, 19) for conveying the formed stacks (8) to a subsequent processing machine (21, 22), wherein two substantially identically constructed stack-producing machines (1, 10) are arranged next to each other in parallel, and each of the discharge conveying devices (9, 19) for the stacks of the two machines (1, 10) is designed such that it can be connected to the discharge conveying device (19, 9) of the other machine (10, 1) or to a common discharge conveyor (20) for both machines (1, 10).
B65H 31/30 - Arrangements for removing completed piles
B65H 35/02 - Delivering articles from cutting or line-perforating machinesArticle or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with longitudinal slitters or perforators
B65H 35/04 - Delivering articles from cutting or line-perforating machinesArticle or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with transverse cutters or perforators
A spindle (12) is provided, which can be used by using the two-channel minimal quantity lubrication. The feeding of the lubricating oil is done by way of a central oil tube (50) which is rotationally fixedly joined to a fixed base piece (60) and which is radially supported on the revolving spindle (12) in the radial direction by way of at least one pivot bearing (52).
The invention relates to a chip module for an RFID system comprising a web-type or sheet-type support material (4) on the upper face of which a coupling antenna (2) and an RFID chip (3), which is electrically, especially galvanically, connected to the coupling antenna (2), are arranged and the lower face of which is provided with an adhesive layer (9). The coupling antenna (2) consists of an aluminum layer (7) having a thickness of 1 μm-20 μm, especially of 3 μm-12 μm.
G06K 19/02 - Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the selection of materials, e.g. to avoid wear during transport through the machine
An RFID antenna assembly is made by first adhering a continuous aluminum foil between 1 μm and 20 μm thick by an adhesive film to a front face of a mounting layer, then providing on a back face of the mounting layer a film of contact adhesive, and then releasably securing to the mounting-layer back face a backing strip. The foil and the mounting layer but not the backing strip are then punched through so as to punch out antennas from the foil and identical pieces from the mounting layer. Finally the foil and mounting layer are stripped from around the punched-out antennas on the backing strip to leave on the backing strip a row only of the punched-out antennas and the respective pieces of the mounting layer.
The invention relates to method for producing an RFID label. According to said method, a coupling antenna (2) arranged on a web-shaped support material (1) comprising an RFID chip (4) arranged thereon is glued onto a secondary antenna (10). The aim of the invention is to provide an RFID label that can be produced from few recyclable materials with little complication and in an environmentally friendly manner. The invention is characterized in that first the coupling antenna (2) comprising the chip (4) is glued onto a self-adhesive secondary antenna (10) in one step, the secondary antenna having a backing adhesive layer (12).
The invention relates to a collecting and conveying device for stacks of sheet layers, comprising a feed conveyor (1) for the sheet layers, a collecting station (3) in which stacks (4) are formed by the layers of sheets, a removal conveyor (7) for removing the completed stacks (4), and a transfer unit for moving the stacks (4) from the collecting station to the removal conveyor (7), wherein the collecting station comprises a series of support elements (6) and a series of delimiting and shaking elements (8), wherein the transfer unit comprises a series of sliding elements (10), wherein in each case a sliding element (10) together with a support element (6) and a delimiting and shaking element (8) can be adjusted transversely.
A tool holder having the following characteristics: - in the chuck (7) a central transfer pipe (8) is disposed, the outlet end of which dispenses the medium to the tool (2) - on the inlet side a pipe nozzle (10) adjoins the transfer pipe (8) and forms a chamber into which on the inlet side a coupling sleeve (11) leads, which can be connected coaxially to a hollow-cylindrical passage (5) in the working spindle (4), – on the inlet side, the pipe nozzle (10) is surrounded at least over a part of the axial length thereof by a takeover pipe (12) – on the inlet side, the pipe nozzle (10) has a smaller outside diameter than the inside diameter of the takeover pipe (12), and – the inside diameter and the outside diameter of the coupling sleeve (11) at the outlet ends thereof are configured such that the end of the coupling sleeve (11) can be moved in an axial direction in the annular gap-shaped intermediate space (14) between the takeover pipe (12) and the pipe nozzle (10).
B23B 31/26 - Chucks characterised by features relating primarily to remote control of the gripping means using mechanical transmission through the working-spindle
The invention relates to method for producing an RFID label. According to said method, a coupling antenna (2) arranged on a web-shaped support material (1) comprising an RFID chip (4) arranged thereon is glued onto a secondary antenna (10). The aim of the invention is to provide an RFID label that can be produced from few recyclable materials with little complication and in an environmentally friendly manner. The invention is characterized in that first the coupling antenna (2) comprising the chip (4) is glued onto a self-adhesive secondary antenna (10) in one step, the secondary antenna having a backing adhesive layer (12).
The invention relates to a chip module for an RFID system comprising a web-type or sheet-type support material (4) on the upper face of which a coupling antenna (2) and an RFID chip (3), which is electrically, especially galvanically, connected to the coupling antenna (2), are arranged and the lower face of which is provided with an adhesive layer (9). The coupling antenna (2) consists of an aluminum layer (7) having a thickness of 1 &mgr;m - 20 &mgr;m, especially of 3 &mgr;m - 12 &mgr;m.
The invention relates to a method for melting a thermoplastic plastic material, particularly for welding plastic parts, wherein the plastic is heated by means of heat radiation via a radiation body (4) and simultaneously by the application of a hot gas, wherein the invention provides for the radiation body (4) to be heated on the interior thereof by burning a combustion gas, and for the exhaust resulting from the burning to be applied to the plastic material.
The invention relates to a self-adhesive antenna for an RFID system, in particular an RFID label, wherein, according to the invention, the antenna (1), from a sheet of aluminum (7) of a gauge of 1 &mgr;m - 20 &mgr;m, in particular approximately 10 &mgr;m, is glued to the front of an adhesive material (3) and punched out, wherein an adhesive layer (4) is provided on the back side of the adhesive material (3).
The invention relates to a self-adhesive RFID-label provided with a printable strip-shaped or sheet-shaped cover material (1), the rear side of which is provided with an adhesive layer (2), and a backing material (3) which covers the adhesive layer (2) of the cover material (1) and can be removed, as well as an RFID inlay (4) that is made of a sheet-shaped or strip-shaped inlay material (5), the rear side of which is provided with an adhesive layer (6), an RFID chip (8) and an RFID antenna (7) being arranged on the rear side of said RFID inlay. Said RFID inlay (4) is arranged between the cover material (1) and the backing material (3), and the upper side of the RFID inlay is firmly glued to the adhesive layer (2) of the cover material (1). According to the invention, the same material is used for the inlay-material (5) of the RFID-inlay (4), including the adhesive layer, and for the cover material (1) of the label, including the adhesive layer (2).
The invention relates to a chip module for an RFID system, in particular for an RFID-label, a coupling label for use in an RFID-label, an RFID-Inlay for an RFID-label, and an RFID label produced using an RFID inlay on a strip-shaped backing material (5, 8), in particular a backing film; an RFID chip (3) and a coupling antenna (4) that is electrically, in particular galvanically, connected to the RFID-chip (3), are arranged on the strip-shaped backing material.
09 - Scientific and electric apparatus and instruments
16 - Paper, cardboard and goods made from these materials
Goods & Services
Machines for manufacturing labels, RFID labels, smart cards
or electronic security tags for goods; machines for
manufacturing transponders; machines for manufacturing
packaging. RFID labels; transponder tags; electronic security tags for
goods; transponders; identifying means for goods and
packaging, included in this class. Labels (not of textiles); tickets; packaging made of paper
or plastic; identifying means for goods and packaging,
included in this class.
60.
COLLECTING AND CONVEYING DEVICE FOR A STACK OF SHEETS
The invention relates to collecting and conveying devices for stacks of sheets (3), comprising a collecting station (1) in which a corresponding number of sheet stacks (3) are formed simultaneously from several imbricated flows (2) of sheets which are guided adjacent to each other, a transversal transporter (4) which is arranged at a distance behind the collecting station (1) for transporting the finished stack of sheets (3) in a manner transversal to the direction of transport of the sheets in the collecting station (1) and a transfer device (5) which is used to transport the stack of sheets (3) from the collecting station (1) to the transversal transporter (4). According to the invention, a carriage (9) that can be displaced over a given path in a manner that is synchronous with the transversal support (4) is arranged adjacent thereto. Also, a row of holding down clamps (10) is secured to said carriage and the holding down clamps can be lowered on the stack of sheets (3) located on the transversal transporter (4).
B65G 21/20 - Means incorporated in, or attached to, framework or housings for guiding load-carriers, traction elements or loads supported on moving surfaces
B65G 47/08 - Devices for feeding articles or materials to conveyors for feeding articles from a single group of articles arranged in orderly pattern, e.g. workpieces in magazines spacing or grouping the articles during feeding
09 - Scientific and electric apparatus and instruments
16 - Paper, cardboard and goods made from these materials
Goods & Services
(1) Machines for manufacturing labels, RFID labels, smart cards or electronic security tags for goods; machines for manufacturing transponders; machines for manufacturing packaging; RFID labels; transponder tags; electronic security tags for goods; transponders; transponders for identifying goods and packaging; labels (not of textiles); tickets namely, airline, lottery, parking to be used with automated meters, price, sporting events; packaging made of paper or plastic.
09 - Scientific and electric apparatus and instruments
Goods & Services
Printing machines; accessories and devices for printing technology, printing rollers, embossing presses, corrosion apparatus, pouring apparatus; drying apparatus being paper processing machines; paper processing machines, cutting machines, punching machines, embossing machines, assembly machines, form collating machines, packaging and binding machines, sticking, folding and stapling machines, wire stitch, staple and spiral binding machines, plastic welding machines, heat sealing machines; lubricating apparatus and equipment, including automatic central lubrication installations for machines, lubrication machines and lubrication guns, valve accessories; parts of the aforementioned machines. Mechanical, hydraulic, pneumatic, optical, electrical and electronic switching, regulating and surveillance devices, signalling devices, magnetic thickness testers, electrical and mechanical precision indicators, surface testing and detector devices, watermark detectors.
09 - Scientific and electric apparatus and instruments
Goods & Services
Printing machines; accessories, machines and devices for the printing industry, printing rollers, embossing presses, corrosion, pouring and drying apparatus used in paper processing machines; paper processing machines, cutting machines, punching machines, embossing machines, assembly machines, form collating machines, packaging and binding machines, sticking, folding and stapling machines, wire stitch, staple and spiral binding machines, plastic welding machines, heat sealing machines; lubricating apparatus and equipment, including automatic central lubrication installations for machines, lubrication machines and lubrication guns, valve accessories; parts of the aforementioned machines. Mechanical, hydraulic, pneumatic, optical, electrical and electronic switching, regulating and surveillance devices, signalling devices, magnetic thickness testers, electrical and mechanical precision indicators, surface testing and detector devices, watermark detectors.
09 - Scientific and electric apparatus and instruments
Goods & Services
Assemblies consisting of integrated circuits, logic elements
for monitoring electronic controls; light beam switches,
these switches also fitted with incandescent lamps or
gallium arsenide diodes, light switches for light curtains,
these switches also fitted with incandescent lamps or
gallium arsenide diodes, light emitters and receivers for
the installation of light barriers, light emitters fitted
with incandescent lamps or gallium arsenide diodes,
electro-mechanical transmitters, termination switches,
position indicators, non-contact electronic transmitters,
inductive and capacitative press-type switches,
temperature-operated switches, threshold value transmitters,
switches for continuous tracing component assemblies,
capacitative or inductive receivers for double sheet
monitoring, controllers for electric drives, speed
controllers, voltage and current stabilizers, controllers
for non-electrical drives (turbine controllers), electrical
controllers and regulation systems consisting of these
controllers using plug-in cards, printed circuit boards for
assembly purposes in magazines, in stages or in assembly
supports; electrical recorders, adapters and transformers as
well as apparatus and equipment consisting thereof for
measuring optical and acoustic measurable quantities
(measuring apparatus for light intensity and light density,
acoustic pressure and phonometers), apparatus and equipment
consisting thereof for measuring mechanical and geometrical
measurable quantities using photo-electric measuring
methods, coding inserts, coding inserts fitted with
reflectors; special housings or housings made of light
metal, synthetic materials or sheetmetal for photo-electric
apparatus, support plates for photo-electronic apparatus and
equipment consisting thereof.
09 - Scientific and electric apparatus and instruments
23 - Yarns and threads for textile use
24 - Textiles and textile goods
25 - Clothing; footwear; headgear
27 - Floor and wall coverings
Goods & Services
Supports de machines et parties pour machines textiles,
machines pour la fabrication de fils de chenille. Releveurs des valeurs de mesure électriques, optiques,
optiques-électroniques, capicitifs, sensibles à la chaleur
et à la pression pour contrôler le cours de fibres et des
fils et pour constater les fils coupés aux machines textiles
ainsi que les appareils de commutation, réglage, contrôle et
compteurs y appartenant. Fils et fils retors. Tissus, tissus d'ameublement, linge de lit et de table,
serviettes de bain, tissus pour buts techniques, tissus pour
rideaux, taies, tissus de décoration. Chemises pour hommes, sous-vêtements pour hommes et femmes,
vêtements pour dames, collants, bas, chaussettes, costumes
pour hommes, costumes de bain cache-nez, chaussons. Tapis de sol et de mur (y compris moquettes), nattes.
