CN213707271U - Transfer system is used in corrugated container board production - Google Patents

Abstract

The utility model belongs to the technical field of the technique of corrugated paper production facility and specifically relates to a transport system is used in corrugated container board production is related to, and it includes the support body, still includes the transport mechanism of setting on the support body with liftable and can slide the stop gear who sets up on the support body, the last space that stacks that supplies the material to stack that has of transport mechanism, the material is towards stop gear's direction feeding and stack on stacking the space, stop gear is used for the adjustment to stack the size in space. This application has the effect that can realize that a set of transporting system can the multiple not corrugated container board of equidimension.

Description

Transfer system is used in corrugated container board production

Technical Field

The application relates to the technical field of corrugated paper production equipment, in particular to a transfer system for corrugated board production.

Background

The corrugated paper board is a multi-layer adhesive body, at least consists of a wave-shaped core paper interlayer and a layer of paper board, has high mechanical strength and can resist collision and falling in the process of carrying.

In the production and processing process of the corrugated board, the corrugated board is required to be pressed, glued, dried, cooled and shaped, cut, indented and transversely cut into a standard corrugated board, and finally, a qualified finished product of the corrugated board is produced through the processes of conveying, stacking and the like, and the corrugated board is required to be transferred between two adjacent steps between the completion of each step and the next step.

At present, in order to save space, a plurality of production workshops generally adopt the mode that the multilayer stacks to carry out arranging in the workshop, transport corrugated container board between different levels when needs, in order to save the labour, adopt the rotating turret to transport corrugated container board among the correlation technique. However, corrugated boards with different sizes are involved in the actual production process of corrugated paper, and corrugated paper with different specifications needs to be matched with transfer racks with corresponding specifications for transferring the corrugated paper.

SUMMERY OF THE UTILITY MODEL

In order to realize that a set of transfer system can adapt the corrugated container board of multiple not equidimension, this application provides a transfer system for corrugated container board production.

The application provides a pair of transfer system is used in corrugated container board production adopts following technical scheme:

the utility model provides a corrugated container board production is with transportation system, includes the support body, still includes the transport mechanism of setting on the support body with liftable and can slide the stop gear who sets up on the support body, the last space that stacks that supplies the material to stack that has of transport mechanism, the material is towards stop gear's direction feeding and stack on stacking the space, stop gear is used for the adjustment to stack the size in space.

Through adopting above-mentioned technical scheme, before the material feeding, earlier adjust stop gear's position, with the size in adjustment stack space, when the material feeding when stacking the space, because the material is towards stop gear's direction feeding, utilize material motion's inertia, make the material can contradict with stop gear, and let the material can stack on stacking the space, along with the lift of forwarding mechanism, can realize transporting the material in different level workshops, therefore, the application provides a transport system for corrugated container board production, can carry out the transportation between the different level workshops to the corrugated container board of multiple equidimension not.

Preferably, the transfer mechanism includes that the setting can slide the elevating drive subassembly and the control assembly of control elevating drive subassembly intermittent type formula drive that the transport platform, the drive transport platform go up and down on the support body, stack the space and be located the transport platform.

Through adopting above-mentioned technical scheme, the material that comes in is placed on the transfer platform, when the material on the transfer platform piles up certain thickness, control assembly control lift drive assembly drive transfer platform descends after a section distance, control assembly control lift drive assembly stop drive, and then the transfer platform is fixed in the specific position, above-mentioned action of continuous repetition, go up and down with the intermittent type formula that realizes the transfer platform, it is increasingly thick along with the material piles up, slewing mechanism intermittent type formula descends, thereby can stack the material that comes in on the space of stacking steadily better.

Preferably, the transfer mechanism further comprises a guide assembly for providing a guide function for the lifting of the transfer platform.

Through adopting above-mentioned technical scheme, when the elevating movement of transfer platform, utilize the direction subassembly can provide the guide effect to the motion of transfer platform to make the transfer platform can go up and down more steadily, be difficult for appearing the condition that the transfer platform overturned.

Preferably, the direction subassembly includes the vertical guide arm that sets up on the support body, the side shaping of transfer platform has the guide hole that supplies the guide arm to run through, the guide arm is located through the guide hole cover to the transfer platform.

Through adopting above-mentioned technical scheme, when the transfer station carries out the oscilaltion, the transfer station can be along the length direction motion of guide bar to make the difficult phenomenon of empting that takes place of transfer station.

Preferably, a material transferring component for transferring materials is arranged on the transfer platform.

Through adopting above-mentioned technical scheme, utilize the material to shift the subassembly and shift away the material on will transporting the platform to the realization is transported the material in succession, makes the transfer system more intelligent.

Preferably, stop gear is close to or keeps away from the spacing drive assembly that stacks the space and remove including the locating part that can slide the setting on the support body and drive locating part, the locating part is located the transfer station top and is located the border department that stacks the space, and when the material feeding to stacking the space, the material is inconsistent with the locating part near one side that stacks the space.

Through adopting above-mentioned technical scheme, under spacing drive assembly's drive, can remove the position of locating part to the size in space is stacked in the adjustment.

Preferably, a buffer pad is arranged on one surface of the limiting part close to the stacking space.

Through adopting above-mentioned technical scheme, when the material is close to the one side conflict that stacks the space with the locating part under inertia, the blotter can play the effect of protection to the material, is difficult for producing the damage to the material edge.

Preferably, spacing drive assembly includes transmission lead screw, transmission screw and drive transmission lead screw pivoted screw drive spare, transmission screw and locating part fixed connection, the transmission lead screw supports and sets up on the support body, the length direction of transmission lead screw is the same with material feeding direction, the output of screw drive spare and the end connection of lead screw.

Through adopting above-mentioned technical scheme, under the drive of lead screw driving piece, the transmission lead screw rotates, and the transmission screw moves on the transmission lead screw along the length direction of transmission lead screw to drive the locating part and remove.

In summary, the present application includes at least one of the following beneficial technical effects:

the position of the limiting piece is adjusted in advance to adjust the size of the stacking space before materials are fed, so that corrugated boards of different sizes can be transferred among different levels of workshops;

after the material is transferred to the target height by the transfer platform, the material can be transferred out of the transfer platform, so that the continuous transfer of the subsequent material is realized;

set up the blotter on the locating part, can play the effect of protection and buffering in the twinkling of an eye that material and locating part are inconsistent.

Drawings

Fig. 1 is a schematic structural diagram of a transfer system for corrugated board production according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of another view of a transfer system for corrugated board production according to an embodiment of the present application.

Description of reference numerals: 1. a frame body; 4. a stacking space; 31. a limiting member; 32. a limiting driving component; 311. a hanger; 312. a hanger plate; 5. a motor; 6. coiling; 7. a cushion pad; 321. a transmission screw rod; 322. a transmission screw; 323. a screw driving member; 8. a slider; 9. a chute; 10. a feed drum; 11. a feed floor; 12. a feed gap; 21. a transfer table; 22. a lift drive assembly; 23. a guide bar; 13. the material transfer assembly.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses transfer system is used in corrugated container board production. Referring to fig. 1, the transfer system for corrugated board production includes a frame body 1, a transfer mechanism capable of intermittently lifting and lowering and disposed on the frame body 1, and a limiting mechanism capable of sliding and disposed on the frame body 1. Transport mechanism is used for realizing transporting the material between the different level workshops, has the space 4 that stacks on transport mechanism, and the material that gets into transport mechanism stacks on stacking space 4, and stop gear is used for adjusting the size that stacks space 4 so that transport mechanism can transport the material of equidimension not. The material gets into towards stop gear's direction and stacks space 4, and under the inertial action, the material is contradicted with stop gear to make the material neatly pile up on stacking space 4.

Before the material is conveyed to the transfer mechanism, the size of the stacking space 4 is adjusted by the limiting mechanism, so that the stacking space 4 can be adapted to the size of the material, and the material entering the stacking space 4 can be stacked regularly. Specifically, the limiting mechanism comprises a limiting part 31 and a limiting driving component 32 which are slidably arranged on the frame body 1, and the limiting driving component 32 is used for driving the limiting part 31 to move close to or away from the stacking space 4, so that the size of the stacking space 4 can be adjusted through the limiting part 31. In the present embodiment, the stopper 31 is located above the transfer table 21 and at the boundary of the stacking space 4. The limiting part 31 is the support body 1, the limiting part 31 includes the gallows 311 and the hanger plate 312 that can go up and down relative to the gallows 311, the gallows 311 top is provided with motor 5, one side fixedly connected with winding belt 6 that hanger plate 312 is close to gallows 311, winding belt 6 is the belt that has been reeled on a reel, the tip and hanger plate 312 of belt are fixed, the output of motor 5 and the coaxial fixed setting of winding belt 6, when motor 5 drive winding belt 6 rolling, hanger plate 312 toward the direction motion that is close to gallows 311, when motor 5 drive winding belt 6 unreels, hanger plate 312 toward the direction motion of keeping away from hanger 311, thereby the height of adjustable hanger plate 312, in order to adapt to the height that stacks of material. In addition, in order to achieve smooth lifting of the hanger plate 312, the motor 5 and the tape 6 are provided in two and respectively disposed at both sides of the hanger 311. When the material is fed into the stacking space 4, the material is against one surface of the limiting member 31 close to the stacking space 4 under the inertia effect. In order to protect and cushion the material, a cushion pad 7 is provided on the side of the limiting member 31 adjacent to the stacking space 4.

The limiting driving assembly 32 comprises a transmission screw rod 321, a transmission screw nut 322 and a screw rod driving member 323 for driving the transmission screw rod 321 to rotate, the transmission screw nut 322 is fixedly connected with the limiting member 31, the transmission screw rod 321 is rotatably supported on the frame body 1, and the length direction of the transmission screw rod 321 is the same as the material feeding direction. The screw rod driving piece 323 is a motor, and the output end of the screw rod driving piece 323 is connected with the end part of the screw rod. When the screw driving member 323 is started, the driving screw 321 is driven to rotate, and the driving screw 322 is driven to move on the driving screw 321, so that the limiting member 31 moves along with the driving screw 322. It should be noted that the limiting driving assembly 32 is not limited to the above structure, and other technical means capable of moving the limiting member 31 along the material feeding direction may be adopted. In addition, the limiting driving assembly 32 is only disposed on one side of the limiting member 31, that is, only one side of the limiting member 31 is connected to the driving screw 322, in order to keep the balance of the limiting member 31, the other side of the limiting member 31 is disposed with a sliding block 8, a sliding slot 9 for the sliding block 8 to slide is disposed at a corresponding position of the frame body 1, and a length direction of the sliding slot 9 is the same as a length direction of the driving screw 321, so that when the driving screw 322 moves on the driving screw 321 and drives the limiting member 31 to move, the sliding block 8 can also move along the sliding slot 9 synchronously.

In order to realize that the materials can enter the stacking space 4 one by one in sequence to keep the materials stacked orderly, the frame body 1 is provided with the feeding roller 10 and the feeding base plate 11, the feeding roller 10 and the feeding base plate 11 are both arranged on the feeding roller 10 and the feeding base plate 11 in parallel at intervals to form a feeding gap 12 for the single material to pass through, so that each material can enter the stacking space 4 through the feeding gap 12 in sequence.

Since the material is thicker and thicker as it is stacked, the material cannot be fed further when the thickness increases to a point where the highest end surface of the material is higher than the feeding gap 12. Therefore, the transfer platform 21 needs to be correspondingly lowered to enable the materials to be fed continuously, however, if the transfer platform 21 is lowered to the lowest position at one time, a large height difference exists between the surface of the transfer platform 21 and the feeding gap 12, the materials fall onto the transfer platform 21 from the feeding gap 12 under the action of gravity, and the materials cannot be stacked well and can also be broken. Therefore, the transfer mechanism comprises a transfer table 21, a lifting driving assembly 22, a control assembly and a guide assembly, wherein the transfer table 21, the lifting driving assembly 22, the control assembly and the guide assembly are slidably arranged on the frame body 1, the lifting driving assembly 22 is used for driving the transfer table 21 to lift, the control assembly is used for controlling the lifting driving assembly 22 to intermittently drive, and the guide assembly is used for providing a guide effect on the movement of the transfer table 21, so that the incoming materials can be stably stacked on the stacking space 4. Wherein, in this embodiment, the lifting drive assembly 22 adopts the electric hoist in the related art, and the electric hoist is fixedly mounted on the frame body 1, and the hanging piece of the electric hoist is connected with the transfer platform 21 to realize the lifting of the transfer platform 21. The control assembly adopts a PLC system in the related art. The guide assembly includes vertical setting guide arm 23 on support body 1, and guide arm 23's both ends all are connected with support body 1, and the side shaping of transfer station 21 has the guide hole that supplies guide arm 23 to run through to on guide arm 23 was located through the guide hole cover to transfer station 21, when transfer station 21 carried out the oscilaltion, transfer station 21 can move along guide arm 23's length direction.

After the transfer table 21 descends to the final position, the material needs to be transferred to discharge the material, the transfer system for corrugated board production is more intelligent, and the material transfer assembly 13 is arranged on the transfer table 21 and used for transferring the material. In this embodiment, the material transferring assembly 13 may adopt a conveyor belt, a guide rail, etc. in the related art as long as the effect of conveying the material can be achieved. The specific structure can be as follows: the material transfer assembly 13 comprises a belt, a driving shaft, a driven shaft and a driving motor, the driving shaft and the driven shaft are rotatably supported on the transfer table 21, the belt is coated on the driving shaft and the driven shaft, and the output end of the driving motor is coaxially and fixedly arranged with the driving shaft. The driving motor drives the driving shaft to rotate, drives the transmission part to transmit, further drives the driven shaft to rotate, realizes continuous transmission of the belt, and moves the materials out of the transfer table 21.

The implementation principle of a transfer system for corrugated board production in the embodiment of the application is as follows: before the feeding, carry out position control to locating part 31 in advance, with the size of adjustment stack space 4 adaptation in material, after the size of adjustment stack space 4, the material enters into through feeding clearance 12 and stacks in space 4, along with the stack thickness of material is bigger and bigger, control assembly control lift drive assembly 22 drive transfer platform 21 descends a section distance, with the position department that keeps the highest terminal surface of material to be close to a little below feeding clearance 12, after transfer platform 21 reached the target position, material transfer assembly 13 shifts the material conveying out of transfer platform 21 on the transfer platform 21, accomplish the transportation to the material.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a transfer system is used in corrugated container board production, includes support body (1), its characterized in that: still include the transport mechanism of setting on support body (1) and the stop gear of setting on support body (1) that can slide with liftable, transport mechanism is last to have the space (4) that stacks that supplies the material to stack, and the material is towards stop gear's direction feeding and stack on space (4) stacks, stop gear is used for the adjustment to stack the size of space (4).

2. A transfer system for corrugated cardboard production according to claim 1 wherein: transport mechanism is including the lifting drive subassembly (22) and the control lifting drive subassembly (22) intermittent type formula driven of the transport platform (21), the lift of drive transport platform (21) that can slide the setting on support body (1), stack space (4) and be located transport platform (21).

3. A transfer system for corrugated cardboard production according to claim 2 wherein: the transfer mechanism further comprises a guide assembly for providing a guide function for the lifting of the transfer table (21).

4. A transfer system for corrugated cardboard production according to claim 3 wherein: the direction subassembly includes guide arm (23) of vertical setting on support body (1), the side shaping of transfer platform (21) has the guide hole that supplies guide arm (23) to run through, guide arm (23) are located through the guide pot to transfer platform (21).

5. A transfer system for corrugated board production according to any one of claims 2 to 4, wherein: the material transferring assembly (13) for transferring materials is arranged on the transfer platform (21).

6. A transfer system for corrugated cardboard production according to claim 1 wherein: stop gear is close to or keeps away from spacing drive assembly (32) that space (4) removed that stacks including locating part (31) and drive locating part (31) that can slide and set up on support body (1), locating part (31) are located transfer table (21) top and are located the border department that stacks space (4), and when the material feeding to stacking space (4) when, the material is inconsistent with one side that locating part (31) are close to and stack space (4).

7. A transfer system for corrugated board production according to claim 6, wherein: and a buffer pad (7) is arranged on one surface of the limiting piece (31) close to the stacking space (4).

8. A transfer system for corrugated board production according to claim 6 or 7, wherein: spacing drive assembly (32) are including transmission lead screw (321), transmission screw (322) and drive transmission lead screw (321) pivoted screw drive spare (323), transmission screw (322) and locating part (31) fixed connection, transmission lead screw (321) support and set up on support body (1), the length direction and the material direction of feed of transmission lead screw (321) are the same, the output of screw drive spare (323) and the end connection of lead screw.

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