CN212712007U - Non-stop stacking and collecting device - Google Patents

Abstract

The utility model discloses a stack material collecting device does not shut down locates between the finished product conveyer belt and the stack conveyer belt of guillootine for carry the continuous stack of finished product paper on the finished product conveyer belt to one process down through the stack conveyer belt, wherein, receiving agencies is used for receiving the material stack, and nipper constructs and is used for pressing the paper operation in receiving agencies's top, avoids the paper to waft and rolls etc. and connect the material in the temporary transfer of material transfer mechanism after the stack is accomplished, thereby realizes not receiving the material by the stack of shut down.

Description

Non-stop stacking and collecting device

Technical Field

The utility model relates to a cut mechanical technical field, especially relate to a not shut down stack material collecting device.

Background

The automatic splitting machine is used for cutting apart and cutting of printing industry reel material printing finished product, and the during operation as long as set up corresponding parameter on operation platform, the computer transmits corresponding instruction and gives the splitting machine, and the splitting machine just cuts according to the parameter of accepting fast, and the automation program is high, easy operation.

What present cutting machine cut after accomplishing is a finished product paper of a sheet, for the convenience of later stage arrangement transportation, need carry out the stack processing to finished product paper on receiving the material platform, generally, finished product paper is carried continuously to the finished product conveyer belt, often need shut down the cutting machine after a stack on receiving the material platform is accomplished, then shift finished product paper stack, make the material platform can continue to carry out next stack again, and thus, because the clearance that the stack was collected at every turn all need shut down the operation, its production efficiency is lower.

Disclosure of Invention

The utility model aims at providing a stack material collecting device does not shut down to solve the material receiving platform of current guillootine and need shut down its lower problem of production efficiency when shifting the stack.

In order to solve the problems, the utility model provides a non-stop stacking and collecting device, which is arranged between a finished product conveyer belt and a stacking conveyer belt of a cutting machine and comprises a frame, wherein a collecting mechanism, a paper pressing mechanism and a material receiving transfer mechanism are arranged on the frame, the paper pressing mechanism is arranged above the collecting mechanism, the collecting mechanism comprises a collecting platform and a lifting mechanism for driving the collecting platform to lift, a plurality of collecting conveyer belts which are arranged at intervals are arranged on the collecting platform, a supporting plate is arranged at the bottom of each collecting conveyer belt, slots are arranged on the supporting plate, and the slots are arranged between the two collecting conveyer belts;

connect material transfer mechanism to include the support body, locate connect material fork board and sharp actuating mechanism on the support body, connect the front end of material fork board to be equipped with a plurality of and each gear shaping that the slot matches, sharp actuating mechanism is used for the drive connect the material fork board to stretch out or retract.

Further, the depth of the slot is not less than the thickness of the gear shaping.

Further, the frame includes the bottom plate, be equipped with vertical arrangement's line rail between bottom plate and the nipper, the lateral part of receiving the material platform passes through the slide and slides and locate in the line rail, elevating system with receive the material platform and be connected and be used for the drive receive the material platform and follow the line rail oscilaltion.

Further, elevating system includes that first driving motor, ball screw, guide rail and slip are located slip table in the guide rail, ball screw with first driving motor connects, the slip table with ball screw connects, receive the bottom of material platform be equipped with the connecting plate that the slip table is connected, the guide rail is vertical to be located on the slip table board.

Furthermore, the bottom plate is provided with a mounting seat, and the guide rail is arranged on the mounting seat through the sliding table plate.

Furthermore, the material receiving platform is provided with a side plate, and a material receiving motor used for driving the material receiving conveying belt to move is arranged on the side plate.

Further, be equipped with the fixing base on the support body, the bottom both sides of fixing base are equipped with the fork board guide rail, connect the both sides of material fork board to slide and locate in the fork board guide rail, linear drive mechanism connect in connect the material fork board and be used for the drive connect the material fork board to follow the fork board guide rail slides.

Further, linear driving mechanism includes second driving motor, slider and lead screw guide assembly, lead screw guide assembly connect in second driving motor, the slider with the lead screw cooperation transmission of lead screw guide assembly, the slider is located connect on the material fork board.

Further, the linear driving mechanism further comprises a fixing plate, the fixing plate is connected with the fixing seat, and the second driving motor and the lead screw guide rod assembly are arranged on the fixing plate.

The utility model provides a non-stop stacking and collecting device, which is arranged between a finished product conveyer belt and a stacking conveyer belt of a cutting machine and is used for continuously stacking finished product paper on the finished product conveyer belt to a next process through the stacking conveyer belt, wherein, a collecting mechanism is used for collecting and stacking the paper, a paper pressing mechanism is used for pressing paper above the collecting mechanism to avoid the paper from flying, falling, curling and the like, a material receiving and transferring mechanism is used for temporarily transferring and receiving the material after the stacking is completed, thereby realizing the stacking and collecting without stopping, concretely, in an initial state, a lifting mechanism drives a material receiving platform to ascend to an outlet close to the finished product conveyer belt, the finished product paper on the finished product conveyer belt is sequentially conveyed to the material collecting conveyer belt for stacking, along with the increase of the height of the stacking, the lifting mechanism synchronously drives the material receiving platform to descend to ensure that enough space, when the number of the paper on the receiving conveyor belt meets the stacking requirement or when the receiving conveyor belt is level with the stacking conveyor belt, the stacking on the receiving conveyor belt is transferred to the stacking conveyor belt for conveying, while the stacking on the receiving conveyor belt is completed, the linear driving mechanism drives the receiving fork plate to extend to the outlet of the finished product conveyor belt, the finished product paper is temporarily collected on the gear shaping of the receiving fork plate for transfer stacking, after the stacking on the receiving conveyor belt is transferred, the lifting mechanism drives the receiving platform to rise to the position below the receiving fork plate and ensures that the gear shaping is correspondingly matched into the slot, then the linear driving mechanism drives the receiving fork plate to retract, so that the stacking on the receiving fork plate can be transferred to the receiving platform, the driving mechanism continues to drive the receiving platform to descend for receiving, the operation is repeated, and thus the temporary receiving transfer can be performed by the receiving transfer mechanism when the stacking on the receiving, thereby avoiding the need of shutdown operation, ensuring the production speed and improving the production efficiency.

Drawings

Fig. 1 is a schematic structural view of a non-stop stacking and material receiving device in an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the material receiving transfer mechanism in the embodiment of the present invention.

Fig. 3 is a schematic view of a part of the structure of a non-stop stacking and collecting device in an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a paper pressing mechanism in an embodiment of the present invention.

Fig. 5 is a partial enlarged view of the receiving mechanism in the embodiment of the present invention.

In the figure, 1, a finished product conveyer belt; 2. stacking the conveyer belt; 3. a frame; 4. a material receiving mechanism; 5. a paper pressing mechanism; 6. a material receiving transfer mechanism; 31. a base plate; 32. a mounting seat; 33. a wire track; 41. a material receiving platform; 42. a lifting mechanism; 43. a material receiving conveyer belt; 44. a support plate; 45. a slot; 46. a slide base; 421. a first drive motor; 422. a ball screw; 423. a guide rail; 424. a sliding table; 425. a connecting plate; 426. a side plate; 427. a material receiving motor; 428. a platen; 61. a frame body; 62. a receiving fork plate; 63. a linear drive mechanism; 64. gear shaping; 65. a fixed seat; 66. a fork plate guide rail; 631. a second drive motor; 632. a slider; 633. a screw guide rod assembly; 634. and (7) fixing the plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-5, a non-stop stacking and collecting device according to an embodiment of the present invention is schematically shown, which is disposed between a finished product conveyer belt 1 and a stacking conveyer belt 2 of a cutting machine, and is used for continuously stacking finished product paper on the finished product conveyer belt 1 to a next process via the stacking conveyer belt 2, and comprises a frame 3, wherein the frame 3 is provided with a material receiving mechanism 4, a paper pressing mechanism 5 and a material receiving transfer mechanism 6, the paper pressing mechanism 5 is disposed above the material receiving mechanism 4, wherein the material receiving mechanism 4 is used for receiving material stacking, the paper pressing mechanism 5 is used for pressing paper above the material receiving mechanism 4 to prevent paper from falling and curling, and the like, wherein the paper pressing mechanism 5 adopts a paper pressing conveyer belt, the material receiving transfer mechanism 6 is used for temporarily receiving material after the stacking is completed, thereby realizing non-stop stacking, the material receiving mechanism 4 comprises a material receiving platform 41 and a lifting mechanism 42 for driving the, the receiving platform 41 is provided with a plurality of receiving conveyer belts 43 arranged at intervals, the bottoms of the receiving conveyer belts 43 are provided with supporting plates 44, the supporting plates 44 are provided with slots 45, the slots 45 are arranged between the two receiving conveyer belts 43, generally, in order to ensure that the receiving conveyer belts 43 can bear the weight of stacked paper, the bottoms of the receiving conveyer belts 43 are provided with the supporting plates 44, wherein the slots 45 are formed by enclosing partition plates arranged on the supporting plates 44, preferably, the depth of the slots 45 is not less than the thickness of the gear teeth, so that the gear teeth are ensured not to interfere with the paper on the receiving conveyer belts 43; the material receiving transfer mechanism 6 comprises a frame body 61, a material receiving fork plate 62 arranged on the frame body 61 and a linear driving mechanism 63, wherein a plurality of gear pins 64 matched with the slots 45 are arranged at the front end of the material receiving fork plate 62, and the linear driving mechanism 63 is used for driving the material receiving fork plate 62 to extend or retract.

Specifically, in the initial state, the lifting mechanism 42 drives the material receiving platform to rise to the position close to the outlet of the finished product conveying belt 1, the finished product paper on the finished product conveying belt 1 is sequentially conveyed to the material receiving conveying belt 43 for stacking, along with the increase of the stacking height, the lifting mechanism 42 synchronously drives the material receiving platform 41 to descend to ensure that enough space is provided on the material receiving conveying belt 43 for stacking new finished product paper, when the number of paper on the material receiving conveying belt 43 meets the stacking requirement or when the material receiving conveying belt 43 is level with the stacking conveying belt 2, the stack on the material receiving conveying belt 43 is transferred onto the stacking conveying belt 2 for conveying, and when the stacking of the material receiving conveying belt is completed for transferring, the linear driving mechanism 63 drives the material receiving fork plate 62 to extend to the outlet of the finished product conveying belt 1, the finished product paper is temporarily collected on the insert teeth 64 of, after the stacks on the material receiving conveying belt are transferred, the lifting mechanism 42 drives the material receiving platform to ascend to the position below the material receiving fork plate 62, and the gear shaping 64 is enabled to be correspondingly matched into the slot 45, then the linear driving mechanism 63 drives the material receiving fork plate 62 to retract, so that the stacks on the material receiving fork plate 62 can be transferred to the material receiving platform, the driving mechanism continues to drive the material receiving platform to descend to receive the materials, the operation is circulated, so that the stacks on the material receiving platform can be temporarily received and transferred through the material receiving transfer mechanism 6, the shutdown operation is avoided, the production speed is guaranteed, and the production efficiency is improved.

Further, the frame 3 includes a bottom plate 31, a vertically arranged linear rail 33 is provided between the bottom plate 31 and the paper pressing mechanism 5, the side portion of the material receiving platform 41 is slidably provided in the linear rail 33 through a sliding seat 46, and an elevating mechanism 42 is connected with the material receiving platform 41 for driving the material receiving platform 41 to ascend and descend along the linear rail 33, so that the material receiving conveyer 43 on the material receiving platform 41 can descend adaptively along with the increase of the thickness of the finished product paper stack to ensure the smooth proceeding of the stack.

In this embodiment, elevating system 42 includes first driving motor 421, ball screw 422, guide rail 423 and the slip table 424 that slides and locate in guide rail 423, ball screw 422 is connected with first driving motor 421, slip table 424 is connected with ball screw 422, receive the bottom of material platform 41 and be equipped with the connecting plate 425 of being connected with slip table 424, guide rail 423 is vertical to be located on slip table board 428, it is fixed to be connected between slip table board 428 and the bottom plate 31, first driving motor 421 drives ball screw 422 rotates and drives slip table 424 and slide along guide rail 423, and then drive the receipts material platform 41 oscilaltion of being connected with slip table 424. Generally, a mounting seat 32 is provided on the bottom plate 31, and a guide rail 423 is provided on the mounting seat 32 through a sliding plate 428 to realize the connection and fixation between the guide rail 423 and the bottom plate 31 of the frame 3.

It should be noted that, in this embodiment, when the receipts material conveyer belt 43 of receiving the material platform 41 when the stack, receive the material conveyer belt 43 and be motionless, it is firm to guarantee to receive the stack on the material conveyer belt 43, after the stack is accomplished, the accessible is manual to be shifted or automatic transport shifts the stack to stack conveyer belt 2 on, concretely, receive the material platform 41 and be equipped with sideboard 426, be equipped with on the sideboard 426 and be used for driving the receipts material motor 427 that receives the material conveyer belt 43 motion, can realize carrying the stack on receiving the material conveyer belt 43 to shift to stack conveyer belt 2 through receiving the motion of material motor 427 drive receipts material conveyer belt 43, automatic transport shifts and further improves production efficiency.

In this embodiment, be equipped with fixing base 65 on the support body 61, the bottom both sides of fixing base 65 are equipped with fork board guide rail 66, connect the slip of both sides of material fork board 62 to locate in fork board guide rail 66, and linear drive mechanism 63 connects in material fork board 62 and is used for the drive to connect material fork board 62 to slide along fork board guide rail 66 to realize connecing stretching out or the withdrawal of material fork board 62, and then realize connecing the transfer of material fork board 62 and connect the material effect.

Specifically, the linear driving mechanism 63 includes a second driving motor 631, a slider 632, and a screw rod guide assembly 633, the screw rod guide assembly 633 is connected to the second driving motor 631, the slider 632 is in transmission with the screw rod of the screw rod guide assembly 633 in a matching manner, the slider 632 is disposed on the material receiving fork plate 62, the second driving motor 631 drives the screw rod of the screw rod guide assembly 633 to rotate and further drives the slider 632 in a matching manner to move, so that the material receiving fork plate 62 connected to the slider 632 moves along the fork plate guide rail 66 to realize extension or retraction of the material receiving fork plate 62.

Preferably, the linear driving mechanism 63 further includes a fixing plate 634, the fixing plate 634 is connected to the fixing base 65, the second driving motor 631 and the screw guide rod 633 are disposed on the fixing plate 634, and the fixing plate 634 fixes the second driving motor 631 and the screw guide rod 633.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (9)

1. A non-stop stacking and receiving device is arranged between a finished product conveying belt and a stacking conveying belt of a cutting machine and is characterized by comprising a rack, wherein a receiving mechanism, a paper pressing mechanism and a receiving transfer mechanism are arranged on the rack;

connect material transfer mechanism to include the support body, locate connect material fork board and sharp actuating mechanism on the support body, connect the front end of material fork board to be equipped with a plurality of and each gear shaping that the slot matches, sharp actuating mechanism is used for the drive connect the material fork board to stretch out or retract.

2. The non-stop stacking and receiving apparatus of claim 1, wherein the depth of said slot is not less than the thickness of said gear tooth.

3. The non-stop stacking and collecting device of claim 2, wherein said frame includes a bottom plate, a vertically arranged line rail is provided between said bottom plate and said platen, a side portion of said collecting platform is slidably disposed in said line rail by a slide, and said elevating mechanism is connected to said collecting platform for driving said collecting platform to ascend and descend along said line rail.

4. The non-stop stacking and collecting device of claim 3, wherein the lifting mechanism comprises a first driving motor, a ball screw, a guide rail and a sliding table slidably disposed in the guide rail, the ball screw is connected with the first driving motor, the sliding table is connected with the ball screw, a connecting plate connected with the sliding table is disposed at the bottom of the collecting platform, and the guide rail is vertically disposed on the sliding table plate.

5. The non-stop stacking and receiving apparatus of claim 4 wherein said base plate has a mounting seat thereon and said rail is mounted to said mounting seat by a slide plate.

6. The non-stop stacking and reclaiming device of claim 5 wherein the reclaiming platform has an edge plate with a reclaiming motor for driving the reclaiming conveyor.

7. The non-stop stacking and receiving device of claim 6, wherein said frame body is provided with a fixed seat, said fixed seat is provided with fork guide rails on both sides of the bottom, said receiving fork is slidably disposed in said fork guide rails on both sides, and said linear driving mechanism is connected to said receiving fork and adapted to drive said receiving fork to slide along said fork guide rails.

8. The non-stop stacking and receiving device of claim 7, wherein said linear drive mechanism comprises a second drive motor, a slide block and a screw rod guide assembly, said screw rod guide assembly is connected to said second drive motor, said slide block is in transmission fit with a screw rod of said screw rod guide assembly, and said slide block is disposed on said receiving fork plate.

9. The non-stop stacking and receiving device of claim 8, wherein said linear drive mechanism further comprises a fixed plate, said fixed plate being connected to said fixed base, said second drive motor and said lead screw guide assembly being disposed on said fixed plate.

Images