CN210973025U - Stacking device for offline stacking production line - Google Patents
Stacking device for offline stacking production line Download PDFInfo
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- CN210973025U CN210973025U CN201921649976.6U CN201921649976U CN210973025U CN 210973025 U CN210973025 U CN 210973025U CN 201921649976 U CN201921649976 U CN 201921649976U CN 210973025 U CN210973025 U CN 210973025U
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- transverse moving
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- stacker
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Abstract
The utility model relates to a bunching device that off-line pile up neatly production line was used, including base, stacker, lifting device and slidable mounting's hoisting frame subassembly on the stacker, the stacker erects a side portion top at the base, another lateral part top of base is provided with the support frame, be provided with the layer board on the support frame, lifting device installs and is used for going up and down the hoisting frame subassembly on the stacker, install a plurality of gyro wheels that rise and fall on the hoisting frame subassembly, install on the stacker and rise and fall gyro wheel complex lifting guide rail. The stacking device for the offline stacking production line can automatically perform offline stacking and can avoid the falling of building blocks caused by the instability of suspended walking.
Description
Technical Field
The utility model particularly relates to a bunching device that off-line pile up neatly production line was used.
Background
The brick machine is pressed out of bricks and then is generally output on a wooden plate frame together with a supporting plate, and then bricks and supporting plates are separated manually and stacked respectively, manual stacking is carried out, the carrying capacity is small, the speed is low, the labor intensity is high, and the efficiency is low.
SUMMERY OF THE UTILITY MODEL
In view of the not enough of prior art, the utility model aims to solve the technical problem that an automatic off-line pile up neatly, can avoid the bunching device that off-line pile up neatly production line that the building block dropped was used is provided.
In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a bunching device that off-line pile up neatly production line was used, includes base, stack, lifting device and slidable mounting's hoisting frame subassembly on the stack, the stack erects in a side portion top of base, another lateral part top of base is provided with the support frame, be provided with the layer board on the support frame, lifting device installs and is used for the lift hoisting frame subassembly on the stack, install a plurality of gyro wheels that rise and fall on the hoisting frame subassembly, install on the stack with the gyro wheel complex guide rail that rises and falls.
Further, the lifting device includes the motor and the pivot of rising and falling, the motor of rising and falling is installed on the base that is located the stacker bottom, the both ends of the pivot of rising and falling are rotated and are installed on the base that is located the stacker bottom, the motor of rising and falling rotates through the pivot of second drive chain drive rising and falling, the both ends of the pivot of rising and falling are fixed with the action wheel of rising and falling, the top of stacker is installed and is risen and fallen from the driving wheel, it is equipped with the chain of rising and falling to rise to overlap between action wheel of rising and falling and the driven wheel.
Further, the hoisting frame assembly comprises a hoisting frame, a transverse moving motor, a transverse moving roller, a movable plate and a stacking cylinder, wherein the transverse moving motor is fixedly installed on the hoisting frame, two ends of the transverse moving roller are rotatably installed on two sides of the hoisting frame, the transverse moving motor drives the transverse moving roller to rotate through a third transmission chain, two ends of the transverse moving roller are respectively fixed with a transverse moving driving wheel, two ends of the hoisting frame are respectively provided with a transverse moving driven wheel, a transverse moving chain is sleeved between the transverse moving driving wheel and the transverse moving driven wheel, two sides of the movable plate are respectively provided with a transverse moving block, the transverse moving blocks are fixed on the transverse moving chain, the stacking cylinder is installed on the hoisting frame above the supporting plate, and a stacking plate is installed at the end of.
Furthermore, a second guide sleeve is arranged on the lifting frame, a second guide rod penetrates through the second guide sleeve, and one end of the second guide rod is fixed on the stacking plate.
Compared with the prior art, the utility model discloses following beneficial effect has: this bunching device that off-line pile up neatly production line was used removes and gets the adobe through hoisting frame subassembly, then carries out height control to the hoisting frame subassembly by landing gear, can steadily neatly place the adobe on the layer board, effectively avoids the condition that the adobe dropped when unsettled walking, and the full automatization carries out the pile up neatly to the adobe, and production efficiency is high.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
The labels in the figure are: 401. a base; 402. a stacking rack; 403. a lifting motor; 404. a lifting rotating shaft; 405. a poppet assembly; 406. a support frame; 407. a lifting driving wheel; 408. a lifting driven wheel; 409. a lifting chain; 410. lifting rollers; 411. a lifting guide rail; 412. a hoisting frame; 413. a traversing motor; 414. traversing the roller; 415. a movable plate; 416. a stacking cylinder; 417. a driving wheel is transversely moved; 418. transversely moving the driven wheel; 419. transversely moving the chain; 420. stacking plates; 421. a second guide sleeve; 422. a second guide bar.
Detailed Description
In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.
As shown in fig. 1, a stacker for an off-line palletizing production line includes a base 401, a stacker frame 402, a lifting device and a lifting frame assembly 405 slidably mounted on the stacker frame 402, the stacker frame 402 is erected above one side portion of the base 401, a support frame 406 is arranged above the other side portion of the base 401, a support plate is arranged on the support frame 406, the lifting device is mounted on the stacker frame 402 and used for lifting the lifting frame assembly 405, a plurality of lifting rollers 410 are mounted on the lifting frame assembly 405, and a lifting guide rail 411 matched with the lifting rollers 410 is mounted on the stacker frame 402.
The lifting device comprises a lifting motor 403 and a lifting rotating shaft 404, the lifting motor 403 is installed on a base 401 positioned at the bottom of the stacker 402, two ends of the lifting rotating shaft 404 are installed on the base 401 positioned at the bottom of the stacker 402 in a rotating manner, the lifting motor 403 drives the lifting rotating shaft 404 to rotate through a second transmission chain (not shown in the figure), a shaft sleeve for fixing the lifting rotating shaft 404 is arranged on the base 401, a lifting driving wheel 407 is fixed at two ends of the lifting rotating shaft 404, a lifting driven wheel 408 is installed at the top of the stacker 402, a lifting chain 409 is sleeved between the lifting driving wheel 407 and the lifting driven wheel 408, and two ends of the lifting chain 409 are fixed on a lifting frame assembly 405.
In this embodiment, the lifting frame assembly 405 includes a lifting frame 412, a traverse motor 413, a traverse roller 414, a movable plate 415, and a palletizing cylinder 416, the traverse motor 413 is fixedly installed on the lifting frame 412, two ends of the traverse roller 414 are rotatably installed on two sides of the lifting frame 412, the traverse motor 413 drives the traverse roller 414 to rotate through a third transmission chain (not shown), the lifting frame 412 is provided with a bushing for fixing the traverse roller 414, two ends of the traverse roller 414 are respectively fixed with a traverse driving wheel 417, two ends of the lifting frame 412 are respectively installed with a traverse driven wheel 418, a chain traverse 419 is sleeved between the traverse driving wheel 417 and the traverse driven wheel 418, the lifting frame 412 is provided with a plurality of tensioning wheels for tensioning chain traverse, two sides of the movable plate 415 are respectively provided with traverse blocks, the traverse blocks are fixed on the traverse chain 419, the stacking cylinder 416 is mounted on a lifting frame 412 above the supporting plate, and a stacking plate 420 is mounted at the piston rod end of the stacking cylinder 416.
In this embodiment, the lifting frame 412 is provided with a second guide sleeve 421, a second guide rod 422 penetrates through the second guide sleeve 421, and one end of the second guide rod 422 is fixed on the stacking plate 420.
The utility model discloses a theory of operation is: when the green bricks arrive at the movable plate 415 of the stacking device, the lifting motor 403 drives the lifting rotating shaft 404 to rotate, the lifting frame 412 is moved to lift along with the rotation of the lifting chain 409, the height of the lifting frame 412 is adjusted, then the traversing motor 413 drives the traversing roller 414 to rotate, the movable plate 415 is moved to traverse along with the rotation of the traversing chain 419, the movable plate 415 is moved to a stacking station of the stacking device 4 in a traversing mode, then the stacking cylinder 416 drives the stacking plate 420 to clamp the green bricks, then the traversing motor 413 rotates reversely to reset the movable plate 415, then the lifting frame 412 descends to place the green bricks on a prepared supporting plate, finally the stacking cylinder 416 resets, and the stacking device 4 starts to stack the next layer of green bricks.
This bunching device that off-line pile up neatly production line was used removes and gets the adobe through hoisting frame subassembly 405, then carries out height control to hoisting frame subassembly 405 by landing gear, can steadily neatly place the adobe on the layer board, effectively avoids the condition that the adobe dropped when unsettled walking, and the full automatization carries out the pile up neatly to the adobe, and production efficiency is high.
The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any person skilled in the art should not depart from the technical scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the scope of the present invention.
Claims (4)
1. The utility model provides a bunching device that off-line pile up neatly production line was used which characterized in that: including base, stacker, lifting device and slidable mounting's hoisting frame subassembly on the stacker, the stacker erects in a side portion top of base, another lateral part top of base is provided with the support frame, be provided with the layer board on the support frame, lifting device installs and is used for the lifting hoisting frame subassembly on the stacker, install a plurality of gyro wheels that rise and fall on the hoisting frame subassembly, install on the stacker and rise gyro wheel complex guide rail that rises and falls.
2. A stacking device for an off-line palletization line as in claim 1, wherein: the lifting device comprises a lifting motor and a lifting rotating shaft, the lifting motor is installed on a base located at the bottom of the stacking rack, two ends of the lifting rotating shaft are rotated and installed on the base located at the bottom of the stacking rack, the lifting motor drives the lifting rotating shaft to rotate through a second transmission chain, two ends of the lifting rotating shaft are fixed with a lifting driving wheel, the top of the stacking rack is provided with a lifting driven wheel, a lifting chain is sleeved between the lifting driving wheel and the lifting driven wheel, and two ends of the lifting chain are fixed on the lifting frame component.
3. A stacking device for an off-line palletization line as in claim 1, wherein: the lifting frame assembly comprises a lifting frame, a transverse moving motor, a transverse moving roller, a movable plate and a stacking cylinder, wherein the transverse moving motor is fixedly mounted on the lifting frame, two ends of the transverse moving roller are rotated and mounted on two sides of the lifting frame, the transverse moving motor drives the transverse moving roller to rotate through a third transmission chain, two ends of the transverse moving roller are respectively fixed with a transverse moving driving wheel, two ends of the lifting frame are respectively provided with a transverse moving driven wheel, a transverse moving chain is sleeved between the transverse moving driving wheel and the transverse moving driven wheel, two sides of the movable plate are respectively provided with a transverse moving block, the transverse moving blocks are fixed on the transverse moving chain, the stacking cylinder is mounted on the lifting frame above the supporting plate, and a stacking plate is mounted at.
4. A stacking device for an off-line palletization line as in claim 3, wherein: the lifting frame is provided with a second guide sleeve, a second guide rod penetrates through the second guide sleeve, and one end of the second guide rod is fixed on the stacking plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921649976.6U CN210973025U (en) | 2019-09-30 | 2019-09-30 | Stacking device for offline stacking production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921649976.6U CN210973025U (en) | 2019-09-30 | 2019-09-30 | Stacking device for offline stacking production line |
Publications (1)
Publication Number | Publication Date |
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CN210973025U true CN210973025U (en) | 2020-07-10 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201921649976.6U Active CN210973025U (en) | 2019-09-30 | 2019-09-30 | Stacking device for offline stacking production line |
Country Status (1)
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CN (1) | CN210973025U (en) |
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2019
- 2019-09-30 CN CN201921649976.6U patent/CN210973025U/en active Active
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