CN210884565U - Sheet material stacking device - Google Patents

Abstract

The utility model discloses a slice material piles up device, pile up the device including piling up the baffle, pile up vertical relative setting between the baffle and separate out and pile up the groove, it still includes the pinch roller subassembly to pile up the device, the pinch roller subassembly is located and piles up the inslot and be used for pushing down slice material towards piling up the groove. The utility model discloses piling up the inslot and having set up the pinch roller subassembly for towards piling up the groove and pushing down the slice material, the sola slice material transmits to piling up the groove when, and the pinch roller subassembly has blockked the slice material and has upwards floated, makes the slice material stable, controlled, falls into rapidly and piles up in piling up the inslot, has guaranteed to pile up in order.

Description

Sheet material stacking device

Technical Field

The utility model relates to a production technical field of slice materials such as plane printed matter, wrapping bag, paper, concretely relates to slice material piles up device.

Background

After sheet materials such as plane presswork, packaging bags, paper and the like are produced, the subsequent processes such as stacking, finishing, packaging, bundling and the like are required, the production process is ended, and the product can be delivered from a factory at any time.

If adopt automatic, mechanized pile up the arrangement and pack and tie up slice material, involve the piling up arrangement of slice material, can set up the baffle that piles up of left and right sides usually and separate out and pile up the groove and be used for piling up slice material spacing.

However, since the single sheet-like materials are thin, soft and light, the single sheet-like materials tend to float upward when being transported from the upstream transport mechanism to the stacking chute, which results in a longer time for falling into the stacking chute and affects the stacking of the subsequently transported sheet-like materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sheet material piles up device can prevent that the sola sheet material from transmitting to upwards showy when piling up the groove, makes the sheet material stable, controlled, falls into rapidly and piles up in piling up the inslot, guarantees to pile up in order.

In order to realize the above purpose, the utility model discloses a technical scheme:

the utility model discloses a slice material piles up device, pile up the device including piling up the baffle, pile up vertical relative setting between the baffle and separate out and pile up the groove, it still includes the pinch roller subassembly to pile up the device, the pinch roller subassembly is located and piles up the inslot and be used for pushing down slice material towards piling up the groove.

As a preferred technical scheme, the pinch roller assembly is installed on the stacking baffle.

As a preferable technical scheme, the stacking baffle plates on two sides of the stacking groove are provided with press wheel assemblies.

As a preferred technical solution, the stacking device further includes a conveying mechanism, the stacking baffles are vertically arranged oppositely and parallel to the conveying direction of the conveying mechanism, the stacking baffles are located in front of the conveying mechanism and extend downwards to separate a stacking groove, and the pinch roller assembly extends from the stacking groove to the conveying mechanism.

As a preferable technical scheme, the stacking device further comprises a shunt baffle vertically arranged above the transmission mechanism and parallel to the transmission direction of the transmission mechanism, a shunt transmission channel is relatively arranged and separated between the shunt baffles, and the pinch roller assembly extends into the shunt transmission channel on the transmission mechanism from the stacking groove.

As the preferred technical scheme, the shunt baffles correspond to the stacking baffles one by one and are integrally communicated into a whole block of baffles, and the pinch roller assembly is installed on the whole block of baffles.

As a preferable technical scheme, the whole baffles on two sides of the stacking groove are provided with press wheel assemblies.

As the preferred technical scheme, the pinch roller assembly comprises a pinch roller, the pinch roller is a cylindrical pinch roller, and the axial direction of the pinch roller is perpendicular to the stacked baffle plates.

As preferred technical scheme, the pinch roller subassembly includes pinch roller and pinch roller belt, the pinch roller is walked around to the pinch roller belt, the pinch roller belt is on a parallel with and piles up the baffle.

As a preferred technical scheme, the pinch roller is a cylindrical pinch roller, and the axial direction of the pinch roller is perpendicular to the stacked baffles.

Preferably, the stacking baffles are movable in a direction perpendicular to the stacking baffles.

Preferably, the stacking apparatus further comprises a baffle mounting beam spanning all of the stacking baffles, and the stacking baffles are axially movably mounted on the baffle mounting beam along the baffle mounting beam.

The utility model has the advantages that:

the utility model discloses piling up the inslot and having set up the pinch roller subassembly for towards piling up the groove and pushing down the slice material, the sola slice material transmits to piling up the groove when, and the pinch roller subassembly has blockked the slice material and has upwards floated, makes the slice material stable, controlled, falls into rapidly and piles up in piling up the inslot, has guaranteed to pile up in order.

Additionally, the utility model discloses can with the pinch roller unit mount on piling up the baffle, pinch roller unit can follow-up adjustment when the baffle position is piled up in the adjustment, consequently, need not to adjust pinch roller unit's position, labour saving and time saving when switching the big or small specification of slice material.

Drawings

Fig. 1 is a schematic structural view (perspective view) of a sheet material stacking apparatus of embodiment 1;

fig. 2 is a schematic structural view (a perspective view from another angle) of the sheet material stacking apparatus according to embodiment 1;

fig. 3 is a schematic view of the mounting structure of the pinch roller assembly in embodiment 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further explained with reference to the accompanying drawings.

The slice material can be the slice material of various forms such as plane printed matter, wrapping bag, paper, right the utility model discloses it is all suitable for.

The place ahead is the downstream direction that transport mechanism carried the slice material to advance, and the rear is the upstream direction that transport mechanism carried the slice material to advance.

Example 1

As shown in fig. 1 to 3, the shunt transmission device of embodiment 1 includes stacking baffles 1, stacking grooves are vertically and oppositely arranged between the stacking baffles 1, and the stacking device further includes a pinch roller assembly 2, where the pinch roller assembly 2 is located in the stacking grooves and used for pressing down the sheet materials toward the stacking grooves. When the single sheet material is transmitted to the stacking groove, the pressing wheel assembly 2 prevents the sheet material from floating upwards, so that the sheet material is stable, controlled and rapidly falls into the stacking groove to be stacked, and the ordered stacking is ensured.

As a preferable scheme, the stacking device further comprises a conveying mechanism 3 and shunt baffles 4, the stacking baffles 1 are vertically arranged oppositely and parallel to the conveying direction of the conveying mechanism 3, the stacking baffles 1 are positioned in front of the conveying mechanism 3 and extend downwards to separate a stacking groove, the shunt baffles 4 are vertically arranged above the conveying mechanism 3 and parallel to the conveying direction of the conveying mechanism 3, shunt conveying channels are oppositely arranged between the shunt baffles 4, and the shunt baffles 4 and the stacking baffles 1 are in one-to-one correspondence and integrally communicated into a whole baffle.

Based on the close connection relationship between the conveying mechanism and the stacking groove, the pinch roller assembly 2 can extend into the shunt conveying channel on the conveying mechanism 3 from the stacking groove, so that the effect of the pinch roller assembly 2 on a single sheet material can be extended to the stacking from the conveying, the pinch roller assembly 2 also plays a role in auxiliary conveying, and the effect of the pinch roller assembly 2 on orderly stacking is further improved.

The stacking baffle 1 can move along the direction perpendicular to the stacking baffle 1, and when the size specification of the sheet materials is switched, the stacking baffle 1 is moved so as to adjust the width of the stacking groove. Of course, when the shunt baffles 4 correspond to the stacked baffles 1 one-to-one and are integrally communicated as a whole, the moving of the stacked baffles 1 and the moving of the shunt baffles 4 are performed in synchronization.

As one of the ways of moving the stacked baffles 1, the stacking apparatus further comprises a baffle mounting beam 5 spanning all the stacked baffles 1, and the stacked baffles 1 are movably mounted on the baffle mounting beam 5 in the axial direction of the baffle mounting beam 5. The movement of the stacked baffles 1 on the baffle mounting beams 5 may be adjusted manually or automatically.

In this embodiment, install pinch roller assembly 2 on piling up baffle 1, pinch roller assembly 2 can the follow-up adjustment when baffle 1 position is piled up in the adjustment, consequently, need not to adjust pinch roller assembly 2's position, labour saving and time saving when switching the big or small specification of slice material. The pressing wheel assemblies 2 are mounted on the stacking baffle plates 1 on the two sides of the stacking groove, so that the pressing wheel assemblies 2 can cover the two ends of the flaky materials all the time, and the flaky materials are uniformly and stably acted. Of course, the puck assembly 2 that extends into the shunt transport channels is a shunt baffle portion that is mounted to a one-piece baffle.

As one of the structural forms of the pinch roller assembly 2, in this embodiment, the pinch roller assembly 2 includes a pinch roller 6 and a pinch roller belt 7, the pinch roller belt 7 is wound around the pinch roller 6, and the pinch roller belt 7 is parallel to the stacked baffles 1. The pinch roller belt 7 is parallel to the stacked baffle 1, that is, the extending direction of the pinch roller belt 7 is basically parallel to the plate surface of the stacked baffle 1, and the pinch roller belt 7 can be horizontally arranged and can also be inclined downwards.

As one of the structural forms of the pressing wheel 6, in this embodiment, the pressing wheel 6 is a cylindrical pressing wheel, and the axial direction of the pressing wheel 6 is perpendicular to the stacked baffles 1. The cylindrical pinch roller increases the coverage of the pinch roller to the stacking groove.

Example 2

Embodiment 2 differs from embodiment 1 in the structural form of the puck assembly: in embodiment 2, the pinch roller assembly includes the pinch roller, the pinch roller is cylindrical pinch roller, the axial of pinch roller is perpendicular to piles up the baffle.

Pinch roller subassembly is the pinch roller that does not include the belt in this embodiment, the pinch roller can set up a plurality of to can follow and pile up on the inslot extends to transmission device, make the pinch roller block that the slice material upwards floats, fall into rapidly and pile up in piling up the inslot and pile up, can reach equally the utility model discloses a purpose.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (12)

1. A sheet material stacking apparatus, the stacking apparatus comprising stacking baffles, the stacking grooves being separated by vertical relative arrangements between the stacking baffles, characterized in that: the stacking device further comprises a pressing wheel assembly, and the pressing wheel assembly is located in the stacking groove and used for pressing the sheet materials downwards towards the stacking groove.

2. The sheet material stacking apparatus of claim 1, wherein: the pinch roller assembly is installed on the stacking baffle.

3. The sheet material stacking apparatus of claim 2, wherein: and the stacking baffle plates on two sides of the stacking groove are provided with pressing wheel assemblies.

4. The sheet material stacking apparatus of claim 1, wherein: the stacking device further comprises a conveying mechanism, the stacking baffles are vertically and oppositely arranged and are parallel to the conveying direction of the conveying mechanism, the stacking baffles are located in front of the conveying mechanism and extend downwards to separate a stacking groove, and the pressing wheel assembly extends to the conveying mechanism from the stacking groove.

5. The sheet material stacking apparatus of claim 4, wherein: the stacking device further comprises a shunt baffle which is vertically arranged above the transmission mechanism and parallel to the transmission direction of the transmission mechanism, a shunt transmission channel is oppositely arranged between the shunt baffles and separated, and the pinch roller assembly extends into the shunt transmission channel on the transmission mechanism from the stacking groove.

6. The sheet material stacking apparatus of claim 5, wherein: the shunt baffle and the stacking baffle are in one-to-one correspondence and are integrally communicated to form a whole block of baffle, and the pinch roller assembly is installed on the whole block of baffle.

7. The sheet material stacking apparatus of claim 6, wherein: and the whole baffle plates on two sides of the stacking groove are provided with pressure wheel assemblies.

8. The sheet material stacking apparatus according to any one of claims 1 to 7, wherein: the pinch roller subassembly includes the pinch roller, the pinch roller is cylindrical pinch roller, the axial perpendicular to of pinch roller piles up the baffle.

9. The sheet material stacking apparatus according to any one of claims 1 to 7, wherein: the pinch roller subassembly includes pinch roller and pinch roller belt, the pinch roller is walked around to the pinch roller belt, the pinch roller belt is on a parallel with and piles up the baffle.

10. The sheet material stacking apparatus of claim 9, wherein: the pinch roller is cylindrical pinch roller, the axial perpendicular to of pinch roller piles up the baffle.

11. The sheet material stacking apparatus according to any one of claims 1 to 7, wherein: the stacking baffles are movable in a direction perpendicular to the stacking baffles.

12. The sheet material stacking apparatus of claim 11, wherein: the stacking apparatus also includes a baffle mounting beam spanning all of the stacked baffles, the stacked baffles being axially movably mounted on the baffle mounting beam along the baffle mounting beam.

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