WO2009124517A1

WO2009124517A1 - Apparatus and method for introducing a tongue into a groove

Info

Publication number: WO2009124517A1
Application number: PCT/DE2009/000079
Authority: WO
Inventors: Ferdinand WÄCHTER
Original assignee: Wächter Packautomatik GmbH & Co. KG
Priority date: 2008-04-10
Filing date: 2009-01-23
Publication date: 2009-10-15
Also published as: EP2276614B1; EP2276614A1; DE102008018410B3

Abstract

The invention relates to an apparatus for introducing a tongue into a groove of a flat body, wherein, in a mounted position, the tongue is mounted at least partially in the groove which is arranged on an edge side of the flat body, having a transport device for transporting a plurality of flat bodies, which are arranged at a spacing from one another, along a transport direction, having a transfer device (7) comprising an insertion element for inserting the tongues into the respective grooves of the flat bodies, wherein a magazine (5) for the stacked provision of the tongues is positioned in front of the transfer device (7), wherein a feed device (6) is arranged between the transfer device (7) and the magazine (5), which feed device (6) transports a number of tongues (1) along a feed direction (7) which extends transversely with respect to the transport direction from the magazine (5) to the transfer device (7), and wherein the feed device has a feed conveyor (14) with an integrated spacer element for the spaced apart transport of the tongues (1).

Description

Device and method for introducing a spring into a groove

The invention relates to a device for introducing a spring into a groove of a flat body, wherein the spring is mounted in an assembly position at least partially in the arranged on an edge side of the flat body groove, with a transport device for transporting a plurality of spaced-apart flat bodies along a transport direction, with a transfer device containing an insertion element for introducing the springs into the respective grooves of the flat body, wherein the transfer device is preceded by a magazine for stacked provision of the springs.

Furthermore, the invention relates to a method for introducing a spring into a groove of a flat body, wherein springs stacked in a magazine are fed sequentially to the conveyed in a transport direction on a transport path flat bodies.

From DE 10 2004 015 604 B4 a device for introducing a spring into a groove of a flat body is known, which is integrated in a system for milling the groove of the flat body. The flat bodies are ner conveyed transport device in a predetermined transport device, wherein in a milling the flat body provided with grooves and the springs are introduced into the grooves in a downstream further station. For this purpose, the transport device has carriers which have insertion elements (pins) projecting transversely to the transport direction and which engage in the groove of a rail of a magazine arranged laterally next to the transport path in the region of a transfer device. The pin dips into the groove of the rail and thereby takes the spring, wherein the spring is gradually removed by the bevelled formation of a bottom of the groove of the rail from the groove of the rail and pressed continuously into the groove of the flat body or inserted. Characterized in that the insertion element is fixedly connected to the carrier leading the flat body, the spring can be used in synchronism with the movement of the flat body in the groove thereof. A disadvantage of the known device that measures must be taken so that the insertion does not affect the milling process of the flat body.

The object of the present invention is to develop a device and a method for introducing a spring into a groove of a flat body in such a way that, at a high throughput, a synchronous insertion of springs in flat bodies transported continuously along a transport path is ensured.

To achieve this object, the device according to the invention in connection with the preamble of the patent Claim 1, characterized in that between the transfer device and the magazine, a feeding device is arranged, which transports a number of springs along a transversely extending to the transport direction feeding direction of the magazine to the transfer device, and that the feed means a feed conveyor with an integrated spacer for spaced transport having the springs.

The particular advantage of the invention is that at a relatively high transport speed of flat bodies a safe insertion of springs in grooves of the flat body is achieved. The basic idea of the invention is to provide a spatially defined transfer device and a feed device between a transport path along which the flat bodies are transported and a magazine accommodating the springs. The feeder serves to sequentially feed a plurality of springs along a feed path which is perpendicular to the transport path. The transfer device is used exclusively for transferring the springs in the region of the transport path, wherein the springs are preferably used perpendicular to the extension of the flat body grooves. The device according to the invention thus has a modular design which allows a variable use of the corresponding modules, in particular a retrofitting of existing conveying devices is made possible. A modification of the transport device is essentially not required. The modules (feeder, transfer direction) are spatially separated from each other and have a defined function.

According to a development of the invention, the feed device as a spacer a worm shaft (screw), the screw axis extends in the feed direction of the springs or perpendicular to the transport direction of the transported flat body. Advantageously, tooth gaps of adjacent teeth can be used to guide the springs, wherein the springs are conveyed continuously and at a defined distance from one another in the feed direction. The worm shaft according to the invention thus has a dual function. On the one hand, the worm shaft serves as a conveyor for transporting the springs in the feed direction to the transport path. On the other hand, the worm shaft serves as a spacer and / or receptacle for the springs, which are conveyed at a predetermined distance from each other in a feed plane to the transport path.

According to a development of the invention, the transfer device has a cutting tool so that the groups of springs, which are firmly connected to one another via connecting webs, can be separated before being transferred to the transport path. Preferably, the cutting tool is designed as a synchronous with the conveyed by means of the worm shaft springs punch that shears the connection points of the springs. Advantageously, the punching of the springs during transport in the feed direction, so that no delay of the delivery processes must occur. According to a development of the invention, the transfer device has a sliding element, which is rotatably mounted about a perpendicular to the transport direction and the feed direction arranged pivot axis and / or linearly displaceable such that the sequentially brought-up springs are used perpendicular to Nuterstreckung the flat body in the respective grooves. Advantageously, thereby a safe and fast insertion of the springs can be achieved in the respective grooves of the flat body.

To achieve the object of the inventive method in conjunction with the preamble of claim 7, characterized in that the springs are grouped spent by the magazine in a Zuführförderbahn in which they are fed sequentially perpendicular to the transport path of the same that the springs in the feed track singles be such that the springs are conveyed in the feed path at a distance from each other so that the springs are used in synchronism with the movement of the flat body along the transport path in the grooves of the flat body.

The particular advantage of the method according to the invention is that simplified feeding of a plurality of springs to a flat body conveyed along a transport path is made possible. According to the invention, groups of springs are moved out of a magazine into a feed conveying plane, in which the springs are conveyed at a defined distance from one another and at the same time are singulated, so that a synchronous insertion of the same can be achieved in the grooves of the flat body. Here, the springs are moved continuously along a feed path, wherein the singulation and insertion of the springs takes place during the continuous conveying movement of the springs.

According to a development of the invention, the transfer of the springs from the magazine to a conveying screw shaft of the feed means by means of a feed slide, which is arranged in the direction of the feed path back and forth. By means of corresponding guide means, the groups of springs can be successively fed to the worm shaft, by means of which the springs are fed to the transfer device at a constant conveying speed and at a constant distance from one another. The feed speed of the feed dog is adapted to the speed of the screw shaft, so that a continuous loading of the worm shaft with grouped springs is made possible.

According to a development of the invention, the springs are separated by punching during the conveyance movement effected by means of the worm shaft, so that the springs can be fed to the transfer device without delay.

Further advantages of the invention will become apparent from the further subclaims. An embodiment of the invention will be explained in more detail with reference to the drawings.

Show it:

Figure 1 is a plan view of an inventive device and

Figure 2 is a schematic vertical section through an axis of rotation of a worm shaft of the device.

A device for introducing springs 1 into a groove 2 of flat bodies 3 consists essentially of a transport device 4 for transporting the flat bodies 3, a magazine 5 arranged remotely from the transport device 4, in which the springs 1 are arranged stacked in groups, from a feed device 6 for feeding the springs 1 from the magazine 5 to the transport device 4 and a transfer device 7 for transferring the supplied springs 1 to the flat body. 3

The flat body 3 are preferably formed as boards or panels, the grooves 2 have on a narrow side (edge side) for receiving a corresponding spring 1. When inserted spring 1 in the groove 2 of the panel 3, the panel is connected to another panel or lockable (click panel). The panels 3 are usually made of a wood material. The springs 1 are made as strips of a plastic material. The springs 1 are present in groups, wherein a predetermined number of springs 1 are surrounded by a holding frame 8. The springs 1 are connected on the front side of the same projecting connecting webs 9 with the holding frame 8. Thus, for example, five to fifteen at a distance from each other in a plane arranged springs 1 can be arranged by means of the holding frame 8 in a defined position to each other. The magazine 5 is designed to the dimension of the holding frame 8, so that the magazine can be equipped with a plurality of layers or stacks of grouped springs 1 in the vertical direction one above the other.

The magazine 5 is arranged substantially in the vertical direction above a to a flat, preferably horizontal feed path 10 of the feeder 6. In the vertical direction below the magazine 5, the feed device 6 on a receiving rail (recording), not shown, which is arranged substantially in the plane lying by the feed path 10 feed level. The receiving rail is associated with a pusher 12 which is mounted reciprocally movable in the feed plane. Once a layer of springs 1 - for example, releasing locking means of the magazine 5 by taking advantage of the weight of the springs 1 - reaches the receiving rail, the pusher 12 takes with its front edge 13 a rear side of the rear in a feed Z group of springs 1 and pushes the corresponding groups of springs 1 in the feed direction Z forward until the groups of springs 1 by and by a mounted in the feed direction Z screw shaft 14 (screw) of the supply guiding device 6 are detected. The worm shaft 14 has a screw axis 15 which runs perpendicular to a transport direction T, along which the flat bodies 3 are transported by means of an endless belt 16. The worm shaft 14 is driven by means of an electric motor, not shown, corresponding to a predetermined rotational speed. The actuating speed of the feed slider 12 is adapted to the rotational speed of the worm shaft 14, so that the springs 1 rest on the worm shaft 14 in such a way that the springs 1 arranged one behind the other in the feed direction Z engage in tooth spaces 17 of the worm shaft 14. The worm shaft 14 has helically arranged teeth 18, between which the tooth gaps 17 extend and which have such a pitch or such a distance A, that the springs 1 with play inserted in the tooth gaps 17 and substantially perpendicular to the screw axis 15 out are. The teeth 18 of the worm shaft 14 are arranged oriented such that by rotation of the worm shaft 14, the springs 1 are fed sequentially in the feed direction Z of the transfer device 7. The worm shaft 14 also serves as a spacer, since the springs 1 each in the tooth spaces 17 of the worm shaft 14 - and in a constant distance from each other - are stored.

In the area of the worm shaft 14, a cutting tool 19 is arranged, by means of which the grouped arranged springs 1 are separated. The cutting tool 19 is preferably designed as a punch, which in vertika- ler direction above the worm shaft 14 can be arranged or fed into this position. Preferably, the punch 19 is moved in the feed direction Z in synchronism with the movement of the springs 1, so that during the promotion of the springs 1, a shearing of the same can be done by the holding frame 8. For this purpose, the front-side connecting webs 9 of the springs 1 are separated. Since the distance between the opposing frame parts 20 of the holding frame 8 to each other is greater than the diameter of the worm shaft 14, the separated frame parts 20 can then fall down without hindering the subsequent transfer process.

For transferring the sequentially to a predetermined by the endless belt 6 transport path 21 of the transport device 4, the transfer device 7 on an insertion element 22, which is arranged laterally to the row of springs 1 in the vicinity of the transport path 21. The insertion element 22 is finger-shaped and can be moved from the side into the feed path 10 by a combined linear and rotary movement, for example by a ball guide, whereby by exerting an insertion force in the feed direction Z, the insertion element 22 abuts against a feed direction Z rear longitudinal edge 23 of the foremost spring 1 is the same inserted into the groove 2 of the flat body 3. The rotational speed of the worm shaft 14 is matched to the transport speed of the transport device 4, so that one after the other in the feed direction Z foremost springs 1 in synchronism with the movement of the flat body 3 and preferably perpendicular to the Erstre- Ckung the groove 2 of the flat body 3 are inserted into the same.

The worm shaft 14 serves as a feed conveyor which supplies the springs 1 at a defined distance from each other to the transfer device 3. The springs 1 are guided guided substantially perpendicular to the feed direction Z in the tooth gaps 17. Preferably, guide means 24 (guide elements 24) are arranged above the feed plane, so that a guided further movement of the springs 1 in the tooth gaps 17 can also be maintained during or after the punching operation.

The receiving rail 11, the screw axis 15 and the cutting tool 19 and the insertion element 12 are mounted on a separate or common frame 11. The frame can be connected to the flat body 3 transporting transport module (transport device 4), for example, as a separate module so that a front edge 25 of the feeder 6 is in the vicinity of the edge plane in which the provided with the grooves 2 edge sides of the flat body 3 moves become.

The method for introducing the springs 1 is as follows. The magazine 5 is equipped with layers of a number of grooves 2, which are fixedly connected to each other via a holding frame 8. Here, the layers of grooves 2 are stacked in the magazine 5 in the vertical direction. Tactically the lowest layers of grooves 2 by unlocking a locking element in vertical Direction stored in the feed plane on a feed path 10, from which, for example, a respective position of springs 1 by means of the feed dog 12 is moved in the feed direction Z until a front part of the group of springs 1 is in engagement with the worm shaft 14. By rotational movement of the worm shaft 14, the still firmly interconnected groups to each other springs 1 are further transported in the feeding direction Z until a shearing of the springs 1 of frame members 20 of the holding frame 8 by means of a cutting tool 19. The cutting of the frame parts 20 thus effected takes place during the movement of the springs 1, wherein the springs 1 are respectively mounted in tooth spaces 17 of the worm shaft 14. The springs 1 are transported by means of the worm shaft 14 to the transfer device 7. For the transfer of the springs 1, the same are detected by the insertion element 22 of the transfer device 7 and inserted in the feed direction Z or perpendicular to the transport direction T into the groove 2 of the flat body 3 passing in the immediate vicinity of the end 25 of the feed path 10.

Claims

Claims:

1. A device for introducing a spring into a groove of a flat body, wherein the spring is mounted in an assembly position at least partially in the arranged on an edge side of the flat body groove, with a transport device for transporting a plurality of spaced-apart flat bodies along a transport direction , with a transfer device comprising an insertion element for inserting the springs into the respective grooves of the flat bodies, wherein the transfer device is preceded by a magazine for the stacked provision of the springs, characterized in that between the transfer device (7) and the magazine (5) a feed device ( 6) is arranged, which transports a number of springs (1) along a transversely to the transport direction (T) extending feed direction (Z) from the magazine (5) to the transfer device (7), and that the feed device (6) is a feed conveyor ( 14) with an integrated distance dhalter for spaced transport of the springs (1).

2. Apparatus according to claim 1, characterized in that the feed conveyor (14) is designed as a worm shaft, the worm axis (15) perpendicular to the transport direction (T) of the flat body (3).

3. Device according to claim 1 or 2, characterized in that the worm shaft (14) helically wound teeth (18), wherein adjacent teeth (18) have an axial distance (A) to each other and wherein in one of the adjacent teeth (18 ) arranged tooth spaces (17) each have a spring (1) is positioned, and that the rotational speed of the screw shaft (14) is adapted to the transport speed of the transport device (4).

4. Device according to one of claims 1 to 3, characterized in that in the feed direction (Z) behind the transfer device (7) a cutting tool (19) is arranged, which via the connecting webs (9) to a group firmly interconnected springs (1 ) isolated.

5. Device according to one of claims 1 to 4, characterized in that a plurality of groups of springs (1) are mounted stacked in the magazine (5), wherein the group of springs (1) each by a position of a number of about Connecting webs (9) interconnected springs (1) is formed.

6. Device according to one of claims 1 to 5, characterized in that at least one insertion element (22) is rotatably mounted about a perpendicular to the transport direction (T) and the feed direction (Z) arranged pivot axis and / or linearly displaceable such that the spring (1) perpendicular to the groove (2) of the in the region of one end of the feeder (6) arranged flat body (3) is used.

7. A method for introducing a spring into a groove of a flat body, wherein springs stacked in a magazine are fed sequentially to the conveyed in a transport direction on a transport path flat bodies, characterized

- that the springs (1) grouped by the magazine (5) are brought into a feed conveyor (10) in which they are fed sequentially perpendicular to the transport path (21) thereof,

- that the springs (1) are separated in the feed track (10),

- That the springs (1) in the feed track (10) in such a distance (A) are conveyed to each other, that the springs (1) in synchronism with the movement of the flat body (3) along the transport path (21) into the grooves (2 ) of the flat body (3) are used.

8. The method according to claim 7, characterized in that the groups of springs (1) successively from the magazine (5) of a receiving rail (11) of the feeder (6) are handed over, that they then by means of a pusher (10) in the feed direction ( Z) are moved until at least a front part of the group of springs (1) in tooth spaces (17) of a worm shaft (14) of the feed device (6) engage, wherein the feed speed of the feed dog (12) on a Feeding speed of the worm shaft (14) is tuned, and that the worm shaft (14) is rotated at a predetermined on the transport speed-matched feed speed.

9. The method according to claim 7 or 8, characterized in that the groups of springs (1) guided along the feed path (Z) are transported.

10. The method according to any one of claims 7 to 9, characterized in that on the screw shaft (14) in groups positioned springs (1) during the conveying movement in the feed direction (Z) are separated by punching.