Device for transporting substantially limp moldings

专利摘要:
Apparatus for transporting endless dough bands or substantially limp moldings, in particular cookie dough form bodies and the like, comprising: a machine frame (1), a closed, circulating conveyor belt (2), a deflection roller (3) which supports the conveyor belt (2) Deflection on the inside (4) touched and the deflection axis (5) is rotatably mounted laterally on the machine frame (1), a drive roller (6) which the conveyor belt (2) for driving on the inside (4) touches and the drive shaft (8 ) rotatably mounted laterally on the machine frame (1) and driven by a drive (9), wherein the drive roller (6) via a pivoting device (10) to the machine frame (1) is connected.
公开号:AT514353A1
申请号:T414/2013
申请日:2013-05-17
公开日:2014-12-15
发明作者:Johannes Haas；Josef Haas；Christoph Jiraschek；Stefan Jiraschek
申请人:Haas Food Equipment Gmbh；
IPC主号:

专利说明:

I • · · β · ο · Ο 0 β ο · · β 00 00000 0 • 0 0 0 · ·
51788 / GP / GA • 0 00 0 0 · 0 1
Device for transporting substantially limp moldings
The invention relates to a device for transporting substantially limp moldings or endless dough bands, in particular cookie dough shaped body and the like, comprising a machine frame, a closed circulating conveyor belt, a deflection roller which contacts the conveyor belt for deflection on the inside and the deflection axis laterally Machine frame is rotatably mounted, a drive roller which contacts the conveyor belt to drive on the inside and whose drive shaft is rotatably mounted laterally on the machine frame and driven by a drive.
Devices for transporting dough bands, for example for feeding to a cookie cutter or cookie cutter, have been known for a long time.
In these conventional devices, an endless conveyor belt is guided around a plurality of deflection rollers and driven by at least one drive roller. Optionally, the conveyor belt is sharply deflected over a transfer edge of a transfer knife to allow the transfer to another module of a production line for baked products. 2/33 1 • · 1 • ································································································································································································· ·· · 2
51788 / GP / GA
In particular, in the industrial production of food products and bakery products consistent quality, hygiene and interruption-free operation of the machines are of great importance. To ensure high quality and hygiene, the conveyor must be removed at regular intervals and replaced if necessary. For this purpose, in the prior art devices, the machine must be stopped. Subsequently, the bearing blocks of the bearings of the individual rollers or rollers are opened on the machine frame. Only then can the rollers be removed, with the rotary bearings remaining on the shaft journal. In conventional devices, moreover, the drive and possibly the transmission of the drive must be removed because on the other hand, the conveyor belt can not be removed from the device.
This is a time consuming process during which the entire production line must be stopped.
The object of the invention is to provide a device for transporting substantially rigid moldings, which allows a rapid, uncomplicated and clean removal or changeability of the conveyor belt.
The object according to the invention is achieved, in particular, by connecting the drive roller to the machine frame via a pivoting device.
Furthermore, it is advantageous for the invention if all other components of the device are removable, which are located inside the conveyor belt. Examples of such components are pulleys, transfer body and / or table sheets.
Further advantageous features of the invention are that the pivoting device comprises a releasable bearing device for the first bearing of the drive shaft and a pivotable pivot bearing for the second bearing of the drive shaft in the machine frame, so that a pivoting of the drive shaft and the drive roller relative to the machine frame is made possible that the pivot bearing comprises a pivot bearing block, in which a radial bearing for the storage of the 3/33 • ♦ ·············································· 9 9 9 9 999 9 9 9 9 9 9 9 9 9 9 9 9 9 9 99 99 9 9999 · · · 9
3 51788 / GP / GA
Drive shaft is provided, that the pivot bearing is connected via a pivot axis with the machine frame, so that the pivot bearing block and the drive shaft mounted therein are pivotable, that the direction of the pivot axis deviates from the direction of the axis of rotation of the drive shaft and in particular runs substantially normal to the axis of rotation of the drive shaft, in that the drive comprises an output shaft, which is rotationally connected to the drive shaft, that the drive comprises a housing which is substantially rigidly connected to the pivot bearing block and / or that the bearing points of the deflection roller are each designed as releasable bearing devices.
Furthermore, it can be provided that the detachable bearing device of the deflection roller comprises a deflection roller bearing block and a locking element, wherein the deflection roller bearing block has a substantially extending in the radial direction opening for insertion and removal of the deflection axis or the drive shaft, which is closed by the locking element that the width the opening of the Umlenkrollenlagerbocks is greater than the diameter of the mounted deflection axis, that the locking element is movable via an actuating element, wherein the actuating element is designed in particular as a tool-operated actuator, as a lever, as a bolt or as a slide that a tension roller is provided for Voltage of the conveyor belt is pressed to the outside of the conveyor belt and / or that a transfer blade is provided which has a transfer edge around which the conveyor belt is deflected.
Preferably, it may also be provided that the transfer blade is connected via a transfer knife pivot axis pivotally connected to the machine frame, that the transfer blade is laterally connected to the machine frame, wherein the connection is made detachable, so that the transfer knife is removable, that all pulleys and the transfer knife and optionally table plates are removably connected to the machine frame and that the drive roller is pivotally connected to the machine frame, so that the endless, closed conveyor belt without disassembly of the drive is changeable, that the releasable storage device of the drive roller comprises a recess in the side plate of the machine frame over a radially extending opening is opened outwards, 4/33 • · · · ······························································································ ··· · · · ·
4 51788 / GP / GA that the locking element of the drive roller is rotatably arranged such that a width of the locking element is smaller than the width of the opening and that a further width of the locking element is wider than the opening but smaller than the recess, so that the locking element in the Receptacle positionable and can be locked by turning and / or that the drive roller, mounted in the radial bearing drive shaft, the pivot bearing block and the drive, including housing are arranged on the pivot axis pivotally relative to the machine frame. The different widths are preferably measured in the radial direction of the drive roller or the axis of rotation of the actuating element.
To remove the conveyor belt, basically all arranged within the conveyor belt elements must be designed so that they are either removable or at least pivotable, so that the conveyor belt can be removed laterally.
In one of the present embodiments of the invention, the deflection rollers are made removable. For this purpose, quick releases are provided by which the rollers can be unlocked. The optionally arranged transfer knife is also made removable.
The drive, which is preferably directly connected to the drive shaft of the drive roller, can not be unlocked via quick fasteners due to the increased weight and the connection to the machine frame. For this reason, the drive roller according to the invention is pivotally connected via a pivoting device to the machine frame. In particular, this pivoting is carried out such that that side of the drive roller, which is not connected to the drive, can be pivoted, so that its free end projects laterally into a free area of the machine frame. Thereby, the conveyor belt can be pulled laterally over the pivoted end of the drive roller and be removed by the free area of the machine frame from the device. 5/33
51788 / GP / GA
The said quick fasteners are designed as detachable storage devices. The detachable storage devices of the deflection rollers are preferably designed as bearing blocks, each having an opening which is closable via a locking element. The openings are designed such that the axes can be removed in a substantially radial direction from the bearing block. For example, this is made possible by a radially extending groove. The locking element is designed such that the opening can be closed, so that the roller or its axis is fixed in its stored position. To remove the deflecting rollers, the locking elements of the releasable bearing devices are released and the rollers are removed substantially in the radial direction.
Also, the transfer knife can be removed in a preferred manner. For this purpose, it has an axis of rotation about which the transfer blade can be pivoted. The axis of rotation is substantially normal to the transport direction of the conveyor belt or parallel to the axes of rotation of the rollers. In operating position, the transfer knife is held by the belt tension in a first position. In this position, the transfer knife can also be connected via connecting elements, such as thumbscrews, rigidly connected to the machine frame. To remove the transfer knife, the transfer knife can be folded up. By this flap on the one hand the conveyor belt is relieved and on the other hand, the removal of the transfer knife is facilitated. In particular, the storage of the transfer knife can be solved laterally on the machine frame. As a result, the transfer blade can be pulled out of the fastening points and removed from the device.
Preferably, table plates are provided to support the conveyor belt. These tabletops are laterally connected to the machine frame and follow essentially the course of the conveyor belt. The tabletops are connected via simple, preferably releasable connection means with the machine frame. This allows a quick removal of the table plates. 6/33 • «··· Μ ······························ · · · · ♦ · ·· f ···· · · «·
6 51788 / GP / GA
Now, if the pulleys, the table plates and the transfer knife removed, so only the drive roller is provided inside the conveyor belt. In order to remove the conveyor belt, now the drive roller is pivoted. For this purpose, the detachable storage device is solved on one side. On the other side of the drive shaft, the pivoting device according to the invention is provided. By loosening the bearing device, the drive roller can be pivoted. This pivoting movement is made possible by the pivoting device. When pivoting the drive roller on the one hand, the drive roller itself, but also the drive and the seated between the drive and drive components are also swung. For this purpose, the pivoting device comprises a pivot bearing block, which is arranged pivotably relative to the machine frame about a pivot axis. The drive or the housing of the drive are rigidly connected to this pivot bearing block.
As a result, the drive is pivoted in pivoting the drive shaft or the drive roller. A separation of the drive shaft and the drive to remove the conveyor belt is not necessary.
The releasable bearing device of the drive roller also includes a locking element. By this locking element, the connection between the drive roller and machine frame is released and the shaft can be pivoted. In particular, the drive roller is designed to be pivotable so that it faces with its free end in a direction in which it is freely accessible. As a result, the conveyor belt can be pulled over the freely projecting end of the drive shaft.
The releasable bearing device of the drive shaft is further designed such that the radial bearings are pivoted with the bearing device. They do not have to be removed or opened. This has the great advantage that soiling such as abrasion or lubricant of the radial bearings can not escape. The same applies to the drive side of the drive shaft. There, the drive remains in a fixed relationship with the shaft. It is also not necessary to open bearing blocks in the conventional sense.
The snap fasteners for the deflection rollers and in particular the bearing points are preferably designed such that no contamination by oil or abrasion •·······································································································································
7 51788 / GP / GA can happen. According to one embodiment, the deflection roller is designed as a cylindrical body from which protrudes an axle journal, which is rotatably mounted in the roller relative to the cylindrical roller. For this purpose, for example, a ball bearing can be pressed or provided in the deflection roller. Inside this ball bearing then the axle journal is stored. Preferably, the journal is cylindrical and protrudes into the quick release according to the invention. Optionally, the roller is tubular and has a cavity in its interior. The journals cantilevered on both sides can be connected to each other by a rigid axle or be designed as an axis. This rigid axis extends from the left-side storage to the right-side storage. The roller is rotatably mounted on both sides via radial bearings. Preferably, the axis comprising the two journal and the guide roller, which is in particular tubular, the same axis of rotation.
If necessary, the stub axles can also be polygonal. The polygonal axle journals can be held or mounted in complementary, polygonal recesses on the machine frame.
To improve clarity, it is defined that a device is designated as a bearing block, which is designed to hold bearings, in particular rotation bearings. In this case, the bearing block must not be designed in the conventional sense as a two-part, separable arrangement, but may for example be designed as a sleeve, ring, openable ring or other body, which is suitable, the bearings or the bearing for supporting a shaft or a Enable axle.
The device according to the invention is suitable and / or adapted to be used "in-line" in an industrial production plant for food products.
In a further consequence, the invention will be further described with reference to the figures.
Fig. 1 shows a schematic side view of a device according to the invention, wherein parts of the machine frame are hidden. 8/33 ························································································································································································· »···········································
8 51788 / GP / GA
Fig. 2 shows a view of the device according to the invention, wherein the conveyor belt is hidden.
Fig. 3 shows a sectional view which substantially corresponds to the device of Fig. 2 - wherein the drive roller is pivoted.
Fig. 4 shows a detailed view of the bearing device of the drive roller.
Fig. 5 shows the same view as Fig. 4, but with pivoted drive roller.
Fig. 6 shows a detailed view of the pivot bearing 13 of the device.
Fig. 7 shows the same view as Fig. 6, but in a pivoted position.
8 shows a sectional view and in particular a detail of a sectional representation of the pivoting device.
Fig. 9 shows a bearing device of a deflection roller in the open state.
Fig. 10 shows the same arrangement as Fig. 9, but in the closed state.
Fig. 11 shows an oblique view of a detail of the device, wherein the transfer blade is in the operating position.
Fig. 12 shows the same view as Fig. 11, but with folded transfer knife.
Fig. 1 shows a side view of a device according to the invention with a machine frame 1, for example, comprises two rigidly interconnected side plates, which are interconnected via cross members. Further, when the device is self-standing, several feet are provided for support against the ground. The device according to the invention is preferably provided "in-line" in a production line for the industrial production of baked products. Optionally, the machine frame is thus connected to other components, such as a Ausstechvorrichtung, a Auswalzvorrichtung, an oven or similar components.
In the present embodiment, two conveyor belts 2 are provided. The conveyor belts 2 are each guided by one or more deflection rollers 3 and in each case by at least one drive roller 6. Furthermore, the band is preferably guided around a tension roller 27 and around a transfer blade 29. The deflection rollers and the drive rollers preferably contact the conveyor belt 2 on its inner side 4. The tension roller 27 contacts the conveyor belt in the present embodiment on the outer side 28 thereof. Via the drive roller 6, the drive roller 6 becomes engaged · · · · · «·" · "" · "" "• · · · · · · · · · · 9 * 99 * * * # * 0 09 90 9 9009 990 9
51788 / GP / GA Λ 9 revolving conveyor belt 2 driven. In this case, the upper region of the conveyor belt in the illustration follows the transport direction 33. On this side, the shaped bodies to be processed and conveyed can be moved along the conveying direction 33.
To drive the drive rollers 6, a drive 9 is provided in each case. This is preferably designed as a rotary drive, which is coupled to the drive shaft 8 of the drive roller 6. In the embodiment of Fig. 1, two conveyor belts 2 are lined up. However, it also corresponds to the inventive idea that only a single conveyor belt or even several conveyor belts are provided.
The transfer blade 29 has a sharp transfer edge 30 about which the conveyor belt is deflected. Furthermore, the transfer knife 29 preferably comprises a transfer knife pivot axis 31, via which the transfer knife is pivotable. Also, the transfer blade 29 touches the conveyor belt 2 on the inside 4.
Furthermore, table plates 37 are provided in the course of the conveyor belt. These tabletops are connected, for example, on both sides projecting bolts with the machine frame 1. Preferably, the table plates are connected to the machine frame with simple, prior art means. These means are designed such that a removal, preferably a tool-free removal, the table plates from the machine frame 1 is made possible. The tabletops preferably follow substantially the transport direction 33. They serve mainly to support the conveyor belt 2 for transporting the dough bands or the substantially limp molded body.
Fig. 2 shows a view of a device according to the invention, wherein the conveyor belt 2 is hidden. The image plane essentially corresponds to a normal plane of the vector of the transport direction 33 shown in FIG. 1. Several rollers and the transfer blade 29 are provided on the machine frame 1. The deflection rollers 3 and the drive roller 6 are mounted laterally on the machine frame 1. The drive roller 6 is connected via a first bearing device 11 to the first 10/33 ". · · · · · · · # ···· · (* * * · t · '· «··« 9 * ··
51788 / GP / GA 10
Storage location 12 stored. According to the invention, this bearing device 11 is designed as a detachable bearing device. On the other side of the drive roller 6, the pivoting device 10 is provided. On the pivoting device 10, on the one hand the drive 9 is fixed. On the other hand, in the pivoting device 10, the drive roller 6 and the drive shaft 8 is mounted.
In operating position, the axes of rotation of the individual rollers are substantially horizontal. The machine frame 1 comprises two side plates 32, in which the bearing points are provided for the storage of the rollers. In the illustrated position of FIG. 2, all rollers and the transport belt 2, not shown, are thus covered laterally by the side plates 32.
Fig. 3 shows a device which substantially corresponds to the device of Fig. 2. However, the representation of FIG. 3 is a sectional view, wherein the sectional plane substantially follows the central or rotational axis of the drive roller 6. Furthermore, the drive roller 6 is shown in a pivoted position. In this case, analogous to FIG. 2, the conveyor belt 2 is hidden. Again, the device comprises a machine frame 1, on which the deflection rollers 3 are mounted on both sides.
The drive roller 6 is connected on one side to the drive 9 or the drive shaft 8. The drive shaft 8 is guided by the pivoting device 10 and stored there at a second bearing point 14. The first bearing 12, which lies on the other side of the drive roller 6, is located in the region of the detachable bearing device 11. In the illustration of FIG. 3, the bearing device 11 is released such that the drive roller 6 can be removed from the side plate 32. In the bearing device 11, a radial bearing 16 is provided which is adapted to the radial bearing of the drive roller 6. Also in the pivot bearing 13, a radial bearing 16 is provided, which is arranged in a pivot bearing block 15. The drive 9 or its housing 20 is connected to the pivot bearing block 15. When pivoting the drive roller 6 thus the pivot bearing block, the associated drive 9, the radial bearing 16 provided therein and the drive shaft 8 are pivoted. 11/33 • · · ··· ········ ························· ·
11 51788 / GP / GA
4 shows a view of the bearing device 11 of the drive roller 6. As in the preceding figures, the machine frame 1 comprises at least one, preferably two side plates 32. In the machine frame 1, the deflection rollers 3 and the drive roller 6 are mounted and connected to the machine frame. The view shows the first bearing 12, which is designed as a detachable bearing device 11. For this purpose, the machine frame has a substantially circular recess 34, in which the locking element 24 is arranged and, if necessary, can be locked or unlocked. The recess 34 has an approximately radially extending opening 22. The opening 22 has a smaller size than the largest diameter of the recess 34. The locking element 24 is rotatably arranged. It is further configured such that a width of the locking element is smaller than the width of the opening 22. A further width of the locking element 24 is wider than the opening 22, but smaller than the recess 34. Thus, the locking element in the recess 34 is positioned and locked by twisting. By rotating the locking element into a position in which the narrow width can be passed through the opening 22, the drive roller 6 can be pivoted. In the illustration, the bearing device 11 is locked. Furthermore, the locking device on an actuating element, such as a handle shown, on. In addition, the locking element can be blocked. This is done in the present embodiment via the blocking device 35. This is connected to the machine frame 1 and has an extension over which a rotation of the locking element 24 can be prevented.
Fig. 5 shows a similar device as Fig. 4, but with a pivoted drive roller 6. Again, a recess 34 is provided in the machine frame 1 and in a side plate 32, which is opened by an opening 22 radially outward. The bearing device 11 has a locking element 24, which can be passed through the opening 22 in one position, but is locked in a further position. For this purpose, as already mentioned, a passage through the opening 22 is made possible by rotation of the locking element 24. In the illustration of Fig. 5, the locking element is turned back to the normal position in which the insertion is prevented in the designated bearing point. To the drive pulley 6 in FIG. 12-33, ···· φ · φ φ · φ φ ··· φ φ φ φ φ φ φ φ φ φ · φ φ φ ··· φ φ φ φ φ · φ ··· «9 · · · · φ ·« «« ··· Φ φ φ φ Φ Φ Φ ·
12 51788 / GP / GA
To bring operating position, the locking element 24 would have to be rotated by 90 °, the entire arrangement to be passed or pivoted through the opening 22 and subsequently the locking element 24 is rotated back by 90 ° to effect a locking. The locking element, the radial bearing and the associated bearing block remain connected during pivoting with the drive roller and are swiveled. About the blocking device 35, an automatic rotation of the locking element 24 can be prevented.
In Fig. 4 and 5, an actuating element 26 is provided for rotation and actuation of the bearing device 11 in each case. This is, as mentioned above, designed as a bow-shaped handle. As a result, no tool is required for disassembly or pivoting of the drive roller 6 in an advantageous manner.
6 shows a detailed detail of an oblique view for a detailed description of the pivot bearing 13. The drive roller 6 is mounted on the second bearing point 14 in the machine frame 1. For this purpose, a radial bearing 16 is provided, which is arranged in particular in a pivot bearing block 15. The pivot bearing block 15 is connected via a pivot axis 17 to the machine frame 1. When pivoting the drive roller 6 thus the pivot bearing block 15 is pivoted with the radial bearing 16 disposed therein relative to the machine frame 1 and in particular rotated about the pivot axis 17. Further, a drive 9 is provided, which is adapted to drive the drive roller 6 rotationally. For this purpose, the drive 9 has a housing 20. The drive is connected to the pivot bearing block 15. When pivoting the drive roller 6 thus the drive 9 and the housing 20 of the drive 9 are also pivoted. This has the advantage that the drive for removing the conveyor belt does not have to be separated from the drive roller.
Fig. 7 shows the arrangement of Fig. 6, but with a pivoted drive roller 6. The drive roller 6, the mounted in the radial bearing 16 drive shaft 8, the pivot bearing block 15 and the drive 9 together with the housing 20 are pivoted about the pivot axis 17. Again, there is a substantially fixed interconnection between the 13/33 • · · · · · · · · 13
51788 / GP / GA components. Only the rotation of the drive roller 6 relative to the machine frame 1 and the pivoting about the pivot axis 17 are possible. The rotation of the drive shaft 8 and the moving parts of the drive 9 are not blocked.
Fig. 8 shows a sectional view of the detail of Fig. 6, wherein the drive roller 6 is in a normal operating position. The drive roller 6 or its axis of rotation 18 runs, for example, substantially horizontally.
The drive 9 drives the drive shaft 8 rotationally. This runs coaxially with the drive roller 6. Optionally, the drive shaft 8 is a part of the drive roller 6. The drive shaft 8 and the drive roller 6 are mounted on a radial bearing 16 relative to the machine frame 1. The radial bearing 16 is held in particular in the pivot bearing block 15. The pivot bearing block 15 is pivotable relative to the machine frame 1 via a pivot axis 17. Analogous to the description of the preceding figures, the pivotability of the drive roller 6 is thereby made possible.
Fig. 9 shows an oblique view of a detail of a guide roller 3. This is mounted laterally in the machine frame 1 and in particular on a side plate 32. For this purpose, a releasable bearing device 11 is provided at the bearing point 21. This comprises a deflection roller bearing block 23 and a locking element 24. On the locking element 24, an actuating element 26 is preferably provided. The deflection roller bearing block 23 comprises an opening 22. Through this, the deflection axis 5 of the deflection roller 3 can be removed from the deflection roller bearing block 23. For locking and fixing the deflection roller 3, the deflection roller bearing block 23 can be closed via the locking element 24. When the locking element is closed, it is possible to rotate the deflection roller 3 about its central longitudinal axis. However, removal of the roll is prevented. When the locking element 24 is open, removal of the deflection roller 3 is made possible. Fig. 9 shows the opened position of the pulley bearing block 23. 14/33 • · • · · · · · · · · · · · · · · · · · · · · · · · · ··· ······································
14 51788 / GP / GA
Fig. 10 shows the same arrangement, but in this illustration the deflection roller bearing block 23 is locked by the locking element 24. Thus, the deflection roller 3 or its axis is rotatably mounted and fixed relative to the machine frame 1.
Fig. 11 shows a further view of the device according to the invention. The conveyor belt is hidden in this view to describe the operation of the transfer knife 29 can. This is connected to the machine frame 1. In Fig. 11, the transfer blade is shown in the operating position. The upper surface essentially follows the transport direction of the conveyor belt. About connecting elements 36, which are designed for example as a thumbscrew, the transfer blade 29 is fixed in one position. The transfer blade 29 has a transfer edge 30. About this transfer edge 30, the conveyor belt 2 is optionally sharply deflected to allow a transfer of substantially limp moldings. When dissolved connecting elements 36, the transfer blade 29 is pivotable about a transfer knife pivot axis 31.
Fig. 12 shows the transfer blade 29 in an upright position. In this case, the transfer blade 29 is rotated relative to the position of FIG. 11 by about 90 ° about the transfer knife pivot axis 31. The connecting elements 36 are thereby released, so that no fixation is given on the machine frame 1. By this configuration, the conveyor belt 2, which is not shown in this illustration, relaxed.
A removal of the transfer knife 29 is possible. Optionally, further connecting elements 36 for fixing the transfer blade 29 on the machine frame 1 are present, which must be solved in order to remove the transfer blade 29 can. 15/33 • ··· »I 15
51788 / GP / GA
1. Machine frame 2. Conveyor belt 3. Deflection pulley 4. Inner side of the conveyor belt 5. Deflection axle 6. Drive roller 7. - 8. Drive shaft 9. Drive 10. Swivel device 11. Bearing device 12. First bearing point (drive shaft) 13. Swivel bearing 14. Second bearing point (Swivel bearing) 15. Swivel bearing block 16. Radial bearing 17. Swivel axis 18. Rotary shaft 19. Output shaft 20. Housing 21. Bearing guide roller 22. Opening 23. Guide roller bearing block 24. Locking element 25. Width 26. Actuator 27. Tension pulley 28. Outside of the conveyor belt 29. Transfer knife 30. Transfer edge 31. Transfer knife pivot axis 32. Side plate 33. Transport direction 34. Recess 35. Blocking device 36. Connecting element 37. Table plates 16/33

权利要求:
Claims (17)
[1]
1. A device for transporting endless dough bands or substantially limp moldings, in particular cookie dough form bodies and the like, comprising: a machine frame (1), a closed, circulating conveyor belt (2); Deflection pulley (3), which the conveyor belt (2) for deflection on the inside (4) touches and the deflection axis (5) is rotatably mounted laterally on the machine frame (1), - a drive roller (6), which the conveyor belt (2) for Drive on the inside (4) touched and the drive shaft (8) rotatably mounted laterally on the machine frame (1) and driven by a drive (9), characterized in that the drive roller (6) via a pivoting device (10) with the machine frame (1) is connected.
[2]
2. Apparatus according to claim 1, characterized in that the pivoting device (10) - a detachable bearing device (11) for the first bearing point (12) of the drive shaft (8) and - a pivotable pivot bearing (13) for the second bearing point (14) the drive shaft (8) in the machine frame (1), - so that a pivoting of the drive shaft (8) and the drive roller (6) relative to the machine frame (1) is made possible. 51788 / GP / GA. •.......
[3]
3. Device according to one of claims 1 or 2, characterized in that the pivot bearing (13) comprises a pivot bearing block (15) in which a radial bearing (16) for supporting the drive shaft (8) is provided, and in that the pivot bearing (13 ) is connected via a pivot axis (17) with the machine frame (1), so that the pivot bearing block (15) and the drive shaft (8) mounted therein are pivotable.
[4]
4. Apparatus according to claim 3, characterized in that the direction of the pivot axis (17) from the direction of the axis of rotation (18) of the drive shaft (8) deviates and in particular substantially normal to the axis of rotation (18) of the drive shaft (8).
[5]
5. Device according to one of claims 1 to 4, characterized in that the drive (9) comprises an output shaft (19) which is rotatably connected to the drive shaft (8) and that the drive (9) comprises a housing (20), which is substantially rigidly connected to the pivot bearing block (15).
[6]
6. Device according to one of claims 1 to 5, characterized in that the bearing points (21) of the deflection roller (3) are each designed as releasable bearing devices (11).
[7]
7. Device according to one of claims 1 to 6, characterized in that the detachable bearing device (11) of the deflection roller (3) comprises a Umlenkrollenlagerbock (23) and a locking element (24), wherein the Umlenkrollenlagerbock (23) has a substantially radial Direction extending opening (22) for insertion and removal of the deflection axis (5), which is closed by the locking element (24).
[8]
8. Apparatus according to claim 7, characterized in that the width (25) of the opening (22) of the Umlenkrollenlagerbocks (23) is greater than the diameter of the mounted deflection axis (5). 18/33 ··························································································· ··· ··· ···· ··· · 18 51788 / GP / GA
[9]
9. Device according to one of claims 1 to 8, characterized in that the locking element (24) via an actuating element (26) is movable, wherein the actuating element (26) designed in particular as a tool-operated actuator, as a lever, as a bolt or as a slide is.
[10]
10. Device according to one of claims 1 to 9, characterized in that a tensioning roller (27) is provided which is pressed to the tension of the conveyor belt (2) on the outer side (28) of the conveyor belt (2).
[11]
11. Device according to one of claims 1 to 10, characterized in that a transfer blade (29) is provided, which has a transfer edge (30) about which the conveyor belt (2) is deflected.
[12]
12. The apparatus according to claim 11, characterized in that the transfer blade (29) via a transfer knife pivot axis (31) is pivotally connected to the machine frame (1).
[13]
13. Device according to one of claims 11 or 12, characterized in that the transfer blade (29) is laterally connected to the machine frame (1), wherein the connection is made detachable, so that the transfer knife is removable.
[14]
14. Device according to one of claims 11 to 13, characterized in that all pulleys and the transfer blade (29) and optionally table plates (37) are removably connected to the machine frame (1) and that the drive roller (6) pivotally connected to the machine frame (1 ) is connected, so that the endless, closed conveyor belt without disassembly of the drive is interchangeable. 19/33 19

51788 / GP / GA
[15]
15. Device according to one of the preceding claims, characterized in that the detachable bearing device (11) of the drive roller (6) has a recess (34) in the side plate (32) of the machine frame (1), which via a radially extending opening (22 ) is opened to the outside, that the locking element (24) of the drive roller (6) is rotatably arranged, that a width of the locking element (24) is smaller than the width of the opening (22) and that a wider width of the locking element (24) wider However, as the opening (22) is smaller than the recess (34), so that the locking element (24) in the recess (34) can be positioned and locked by turning.
[16]
16. Device according to one of the preceding claims, characterized in that the drive roller (6) whose in the radial bearing (16) mounted drive shaft (8), the pivot bearing block (15) and the drive (9) together with housing (20) over the Pivot axis (17) are pivotally mounted relative to the machine frame.

Vienna, am
[17]
1 7 «May 2013 20/33

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同族专利:

---

公开号 | 公开日

---

JP2016518848A|2016-06-30|

---

CN105208868B|2019-12-31|

---

PH12015502583A1|2016-02-29|

---

US20160107839A1|2016-04-21|

---

EP2996478B1|2018-04-11|

---

US9694982B2|2017-07-04|

---

AR096228A1|2015-12-16|

---

BR112015027692A2|2017-07-25|

---

AT514353B1|2016-03-15|

---

WO2014184335A1|2014-11-20|

---

TR201809650T4|2018-07-23|

---

CN105208868A|2015-12-30|

---

EP2996478A1|2016-03-23|

---

KR20160009047A|2016-01-25|

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法律状态:
2022-01-15| MM01| Lapse because of not paying annual fees|Effective date: 20210517 |

优先权:

---

申请号 | 申请日 | 专利标题

---

ATA414/2013A|AT514353B1|2013-05-17|2013-05-17|Device for transporting substantially limp moldings|ATA414/2013A| AT514353B1|2013-05-17|2013-05-17|Device for transporting substantially limp moldings|

---

ARP140101873A| AR096228A1|2013-05-17|2014-05-08|DEVICE FOR THE TRANSPORTATION OF ESSENTIALLY FLEXIBLE MOLDED BODIES|

---

US14/891,692| US9694982B2|2013-05-17|2014-05-16|Apparatus for transporting substantially non-rigid shaped bodies|

---

KR1020157035392A| KR20160009047A|2013-05-17|2014-05-16|Device for transporting essentially non-rigid moulded bodies|

---

BR112015027692A| BR112015027692A2|2013-05-17|2014-05-16|device for conveying non-rigid molded bodies|

---

TR2018/09650T| TR201809650T4|2013-05-17|2014-05-16|Device for transporting moldings that are basically flexible.|

---

EP14724458.6A| EP2996478B1|2013-05-17|2014-05-16|Device for transporting essentially non-rigid moulded bodies|

---

JP2016513378A| JP2016518848A|2013-05-17|2014-05-16|Device for transporting basically flexible molds|

---

CN201480028206.3A| CN105208868B|2013-05-17|2014-05-16|Device for transporting substantially non-rigid shaped bodies|

---

PCT/EP2014/060054| WO2014184335A1|2013-05-17|2014-05-16|Device for transporting essentially non-rigid moulded bodies|

---

PH12015502583A| PH12015502583A1|2013-05-17|2015-11-13|Device for transporting essentially non-rigid moulded bodies|