CN205418918U - Proof warp plays flatting mill - Google Patents

Abstract

The utility model discloses a proof warp plays flatting mill, wherein, include: a conveying mechanism, the 2nd conveying mechanism, the 2nd conveying mechanism sets up a conveying mechanism 's below, the 3rd conveying mechanism, the 3rd conveying mechanism side is the triangle -shaped structure, and sets up a conveying mechanism 's below, the 3rd conveying mechanism on one side with the 2nd conveying mechanism is close to a conveying mechanism one end is hugged closely, fourth conveying mechanism, fourth conveying mechanism sets up the 2nd conveying mechanism below, and with one side of the 2nd conveying mechanism is parallel and hug closely, simultaneously with the 3rd conveying mechanism one end counterbalance is leaned on, positioning mechanism, positioning mechanism sets up the 2nd conveying mechanism top. The utility model has the advantages of simple structure, the 2nd conveying mechanism with it is right that the 3rd conveying mechanism matches the paper overturns, and prevent paper opens the perk.

Description

A kind of anti-tilting press

Technical field

This utility model relates to the technical field of sheet processing, particularly relates to a kind of anti-tilting press.

Background technology

After paper gluing is rolled well, reversely send into press conveyer belt and carry out pressing process.But in prior art, paper easily tilts during press paper sheet delivery, cause the paper after finally flattening that the situation tilted occurs, produce and flatten defect.

Utility model content

In view of this, the one anti-tilting press that the utility model proposes, easily tilt solving in prior art paper during press paper sheet delivery, cause the paper after finally flattening that the situation tilted occurs, produce the problem flattening defect.

For reaching above-mentioned purpose, the technical solution of the utility model is achieved in that

A kind of anti-tilting press, wherein, including:

First conveyer；

Second conveyer, described second conveyer is arranged on the lower section of described first conveyer, and the described second conveyer direction of motion is contrary with the described first conveyer direction of motion；

3rd conveyer, described 3rd conveyer side is triangular structure, and it is arranged on the lower section of described first conveyer, described 3rd conveyer is while being close near described first conveyer one end with described second conveyer, and the described 3rd conveyer direction of motion is identical with the described first conveyer direction of motion；

4th conveyer, described 4th conveyer is arranged on below described second conveyer, and it is parallel with the side of described second conveyer and be close to, leaning with described 3rd conveyer one end, the described 4th conveyer direction of motion is identical with the described first conveyer direction of motion simultaneously；

Detent mechanism, described detent mechanism is arranged on above described second conveyer, positions the paper being transported to described second conveyer.

Above-mentioned anti-tilting press, wherein, described first conveyer includes:

First rotary shaft group, described first rotary shaft group includes that the first rotary shaft of two rotating in same directions, described first rotary shaft be arranged in parallel；

First conveyer belt, described first conveyer belt is arranged on the outside of described first rotary shaft group, and described first rotary shaft drives described first conveyer belt to run.

Above-mentioned anti-tilting press, wherein, described second conveyer includes:

Second rotary shaft group, described second rotary shaft group includes the second rotary shaft of two rotating in same directions, and described second rotary shaft be arranged in parallel with described first rotary shaft；

Second conveyer belt, described second conveyer belt is arranged on the outside of described second rotary shaft group, and described second rotary shaft group drives described second conveyer belt, and described second conveyer belt includes the first side and the second side；

Second pressure axis group, described second pressure axis group includes that multiple second pressure axis, each described second pressure axis are distributed in the inner side of described second side of described second conveyer belt.

Above-mentioned anti-tilting press, wherein, described 3rd conveyer includes:

3rd rotary shaft group, described 3rd rotary shaft group includes 3 the 3rd rotary shafts, and described 3rd rotary shaft the most on the same line, makes described 3rd conveyer side form triangular structure, and each 3rd rotary shaft is the summit of described triangular structure；

3rd conveyer belt, described 3rd conveyer belt is arranged on outside described 3rd rotary shaft group, and described 3rd conveyer belt is the limit of described triangular structure, described triangular structure be wherein connected with described second conveyer belt one end against.

Above-mentioned anti-tilting press, wherein, described 4th conveyer includes:

4th rotary shaft group, described 4th rotary shaft group includes that two the 4th rotary shafts, each 4th rotary shaft are set in parallel in the lower section of described second rotary shaft of correspondence respectively and are close to described second rotary shaft；

4th conveyer belt, described 4th conveyer belt is arranged on outside described 4th rotary shaft group, and the side of described 4th conveyer belt and the second side of described second conveyer belt are close to；

4th pressure axis group, described 4th pressure axis group includes that multiple 4th pressure axis, each described 4th pressure axis are arranged at the inner side of the side that described 4th conveyer belt is close to described second conveyer belt, matches with described second pressure axis.

Above-mentioned anti-tilting press, wherein, described detent mechanism includes: cylinder front and back, and described cylinder front and back is arranged on the top of described second conveyer；

Left and right cylinder, described left and right cylinder is arranged on above described second conveyer, positions the position being perpendicular to described second conveyer belt direction of the described paper on the second conveyer belt；

Locating support, one end of described locating support and described cylinders front and back, described paper is positioned by the other end.

Above-mentioned anti-tilting press, wherein, described second conveyer also includes:

Tensioning shaft, described tensioning shaft is arranged on the inner side of the first side of described second conveyer belt and by described first side jack-up；

Locating shaft, described locating shaft is located at the outside of described first side, will press under the first side of described second conveyer belt.

Above-mentioned anti-tilting press, wherein, described second rotary shaft, the rotation direction of described second pressure axis and described tensioning shaft is contrary with described first rotary shaft rotation direction.

Above-mentioned anti-tilting press, wherein, described locating shaft, described 3rd rotary shaft, described 4th rotary shaft and described 4th pressure axis rotation direction identical with described first rotary shaft rotation direction.

This utility model is owing to have employed above-mentioned technology, and the good effect of generation is:

(1) this utility model simple in construction, described second conveyer matches with described 3rd conveyer and overturns described paper, prevents paper from tilting, and the most described second conveyer matches with described 4th conveyer, flattens the scraps of paper.

Accompanying drawing explanation

The accompanying drawing constituting a part of the present utility model is further appreciated by of the present utility model for providing, and schematic description and description of the present utility model is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the schematic diagram of this utility model anti-tilting press.

Detailed description of the invention

The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings, but not as restriction of the present utility model.

Fig. 1 is the schematic diagram of this utility model anti-tilting press, shown in Figure 1.A kind of anti-tilting press, including the first conveyer, the second conveyer, the 3rd conveyer, the 4th conveyer and detent mechanism.Described second conveyer is arranged on the lower section of described first conveyer, and the described second conveyer direction of motion is contrary with the described first conveyer direction of motion, and paper is transported by the first conveyer, and is transported to described second conveyer under gravity.The side of described 3rd conveyer is triangular structure, and it is arranged on the lower section of described first conveyer, described 3rd conveyer is while being close near described first conveyer one end with described second conveyer, and the described 3rd conveyer direction of motion is identical with the described first conveyer direction of motion；Described 4th conveyer is arranged on below described second conveyer, and it is parallel with the side of described second conveyer and be close to, leaning with described 3rd conveyer one end, the described 4th conveyer direction of motion is identical with the described first conveyer direction of motion simultaneously.Described detent mechanism is arranged on above described second conveyer, positions the paper being transported to described second conveyer.

This utility model specific works process: described paper is transported by the first conveyer, and under gravity, it is transported to described second conveyer, described paper is positioned by described detent mechanism, described paper behind location is reversely transported by the most described second conveyer, and match with described 3rd conveyer, make described paper turning, described paper is made to enter between described 4th conveyer and described 3rd conveyer, while described paper is compressed, described paper is transported by the carriage direction identical with described first conveyer.

This utility model the most also has a following embodiment:

Described first conveyer includes the first rotary shaft group and the first conveyer belt 12, described first rotary shaft group includes the first rotary shaft 11 of two rotating in same directions, described first rotary shaft 11 be arranged in parallel, described first conveyer belt 12 is arranged on the outside of described first rotary shaft group, described first rotary shaft group rotarily drives described first conveyer belt 12 and moves, and described first rotary shaft 11 drives described first conveyer belt 12 to run.

Described second conveyer includes the second rotary shaft group, the second conveyer belt 22, locating shaft 24, tensioning shaft 23 and the second pressure axis group.

Described second rotary shaft group includes the second rotary shaft 21 of two rotating in same directions, and described second rotary shaft 21 be arranged in parallel with described first rotary shaft 11, and described second rotary shaft 21 rotation direction is contrary with described first rotary shaft 11 rotation direction.Described second conveyer belt 22 is arranged on the outside of described second rotary shaft group, and described second rotary shaft group drives described second conveyer belt 22 to move to the direction in contrast to described first conveyer belt 12, and described second conveyer belt 22 includes the first side 221 and the second side 222.Described tensioning shaft 23 is arranged on the inner side of the first side 221 of described second conveyer belt 22 by described first side 221 jack-up, makes described second conveyer belt 22 tensioning, and the rotation direction of described tensioning shaft 23 is identical with described second rotary shaft 21 rotation direction.Described locating shaft 24 is located at the outside of described first side 221, is pressed for 221 times the first side of described second conveyer belt 22, facilitates the location of described paper, and described locating shaft 24 rotation direction is identical with described first rotary shaft 11 rotation direction.Described second pressure axis group includes multiple second pressure axis 25, each described second pressure axis 25 is distributed in the inner side of described second side 222 of described second conveyer belt 22, and each described second pressure axis 25 rotation direction is contrary with described first rotary shaft 11 rotation direction.

Described 3rd conveyer includes the 3rd rotary shaft group and the 3rd conveyer belt 32, described 3rd rotary shaft group includes 3 the 3rd rotary shafts 31, described 3rd rotary shaft 31 is the most on the same line, described 3rd conveyer belt 32 is arranged on the outside of described 3rd rotary shaft group, described 3rd conveyer side is made to form triangular structure, each 3rd rotary shaft 31 is the summit of described triangular structure, described 3rd conveyer belt 32 is the limit of described triangular structure, described triangular structure wherein one end with described second conveyer belt 22 be connected against.Described 3rd rotary shaft 31 rotation direction is identical with the first rotary shaft 11 rotation direction.

Described 4th conveyer includes the 4th rotary shaft group, 4th conveyer belt 42 and the 4th pressure axis group, described 4th rotary shaft group includes two the 4th rotary shafts 41, each 4th rotary shaft 41 is set in parallel in the lower section of described second rotary shaft 21 of correspondence respectively and is close to described second rotary shaft 21, described 4th conveyer belt 42 is arranged on the outside of described 4th rotary shaft group, and the side of described 4th conveyer belt 42 and the second side 222 of described second conveyer belt 22 are close to.Described 4th pressure axis group includes that multiple 4th pressure axis 43, each described 4th pressure axis 43 are arranged at the inner side of the side that described 4th conveyer belt 42 is close to described second conveyer belt 22, matches with described second pressure axis 25.Described 4th rotary shaft 41 is identical with the rotation direction of described first rotary shaft 11 with the rotation direction of described 4th pressure axis 43.

Described detent mechanism includes before and after's cylinder 52, left and right cylinder 53 and locating support 51, before and after described, cylinder 52 is arranged on the top of described second conveyer, and it is fixed on one end of described locating support 51, described locating support 51 other end is driven to do the motion being parallel to described second conveyer belt 22 direction of motion, described paper is positioned, described left and right cylinder 53 is arranged on above described second conveyer, positions the position being perpendicular to described second conveyer belt 22 direction of motion of the described paper on the second conveyer belt 22.

In further embodiment of the present utility model, the quantity of described second pressure axis 25 is identical with the quantity of described 4th pressure axis 43.

This utility model simple in construction, described second conveyer matches with described 3rd conveyer and overturns described paper, prevents paper from tilting, and the most described second conveyer matches with described 4th conveyer, flattens the scraps of paper.

In sum; the foregoing is only this utility model preferred embodiment; not thereby embodiment of the present utility model and protection domain are limited; to those skilled in the art; the equivalent done by all utilization this utility model description and diagramatic content and the scheme obtained by obvious change should be can appreciate that, all should be included in protection domain of the present utility model.

Claims (9)

1. an anti-tilting press, it is characterised in that including:

First conveyer；

Second conveyer, described second conveyer is arranged on the lower section of described first conveyer, and the described second conveyer direction of motion is contrary with the described first conveyer direction of motion；

3rd conveyer, described 3rd conveyer side is triangular structure, and it is arranged on the lower section of described first conveyer, described 3rd conveyer is while being close near described first conveyer one end with described second conveyer, and the described 3rd conveyer direction of motion is identical with the described first conveyer direction of motion；

4th conveyer, described 4th conveyer is arranged on below described second conveyer, and it is parallel with the side of described second conveyer and be close to, leaning with described 3rd conveyer one end, the described 4th conveyer direction of motion is identical with the described first conveyer direction of motion simultaneously；

Detent mechanism, described detent mechanism is arranged on above described second conveyer, positions the paper being transported to described second conveyer.

Anti-tilting press the most according to claim 1, it is characterised in that described first conveyer includes:

First rotary shaft group, described first rotary shaft group includes that the first rotary shaft of two rotating in same directions, described first rotary shaft be arranged in parallel；

First conveyer belt, described first conveyer belt is arranged on the outside of described first rotary shaft group, and described first rotary shaft drives described first conveyer belt to run.

Anti-tilting press the most according to claim 2, it is characterised in that described second conveyer includes:

Second rotary shaft group, described second rotary shaft group includes the second rotary shaft of two rotating in same directions, and described second rotary shaft be arranged in parallel with described first rotary shaft；

Second conveyer belt, described second conveyer belt is arranged on the outside of described second rotary shaft group, and described second rotary shaft group drives described second conveyer belt, and described second conveyer belt includes the first side and the second side；

Second pressure axis group, described second pressure axis group includes that multiple second pressure axis, each described second pressure axis are distributed in the inner side of described second side of described second conveyer belt.

Anti-tilting press the most according to claim 3, it is characterised in that described 3rd conveyer includes:

3rd rotary shaft group, described 3rd rotary shaft group includes 3 the 3rd rotary shafts, and described 3rd rotary shaft the most on the same line, makes described 3rd conveyer side form triangular structure, and each 3rd rotary shaft is the summit of described triangular structure；

3rd conveyer belt, described 3rd conveyer belt is arranged on outside described 3rd rotary shaft group, and described 3rd conveyer belt is the limit of described triangular structure, described triangular structure be wherein connected with described second conveyer belt one end against.

Anti-tilting press the most according to claim 4, it is characterised in that described 4th conveyer includes:

4th rotary shaft group, described 4th rotary shaft group includes that two the 4th rotary shafts, each 4th rotary shaft are set in parallel in the lower section of described second rotary shaft of correspondence respectively and are close to described second rotary shaft；

4th conveyer belt, described 4th conveyer belt is arranged on outside described 4th rotary shaft group, and the side of described 4th conveyer belt and the second side of described second conveyer belt are close to；

4th pressure axis group, described 4th pressure axis group includes that multiple 4th pressure axis, each described 4th pressure axis are arranged at the inner side of the side that described 4th conveyer belt is close to described second conveyer belt, matches with described second pressure axis.

Anti-tilting press the most according to claim 5, it is characterised in that described detent mechanism includes:

Cylinder front and back, described cylinder front and back is arranged on the top of described second conveyer；

Left and right cylinder, described left and right cylinder is arranged on above described second conveyer, positions the position being perpendicular to described second conveyer belt direction of the described paper on the second conveyer belt；

Locating support, one end of described locating support and described cylinders front and back, described paper is positioned by the other end.

Anti-tilting press the most according to claim 5, it is characterised in that described second conveyer also includes:

Tensioning shaft, described tensioning shaft is arranged on the inner side of the first side of described second conveyer belt and by described first side jack-up；

Locating shaft, described locating shaft is located at the outside of described first side, will press under the first side of described second conveyer belt.

Anti-tilting press the most according to claim 7, it is characterised in that described second rotary shaft, the rotation direction of described second pressure axis and described tensioning shaft is contrary with described first rotary shaft rotation direction.

Anti-tilting press the most according to claim 7, it is characterised in that described locating shaft, described 3rd rotary shaft, described 4th rotary shaft is identical with described first rotary shaft rotation direction with the rotation direction of described 4th pressure axis.