CN213415748U - Passive mesh belt driving winding and unwinding device - Google Patents

Abstract

The utility model discloses a unwinding device is received in driven mesh belt drive, which comprises a frame, the guipure transfer roller, first guipure deflector roll, the guipure, the tensioning cylinder, guipure deviation correcting device, receive and release winding up roller and material, the guipure transfer roller, first guipure deflector roll, the tensioning cylinder, guipure deviation correcting device and receive and release winding up roller and all install in the frame, the tensioning deflector roll is connected to the output of tensioning cylinder, the guipure transfer is through the guipure transfer roller, the tensioning deflector roll, guipure deviation correcting device, first guipure deflector roll and receive and release winding up roller, the material is passed through first guipure deflector roll and is rolled up in receiving and releasing winding up roller, the material laminating is located the guipure upper. The utility model discloses well guipure transmission unreels as receiving and can realize that the material is under the great condition of friction surface area, realizes receiving of material and unreels, receives and unreels that the in-process guipure is difficult and the material adhesion, guarantees that the material is received and is unreeled the in-process and not have tension, material and guipure relative static motion, so do not produce any destruction to the material.

Description

Passive mesh belt driving winding and unwinding device

Technical Field

The utility model belongs to the technical field of the material is received and is unreeled and specifically relates to a passive form guipure drive receive and releases coiling mechanism is related to.

Background

The tension of materials such as non-woven fabrics, fiber web is not like cloth and sheet, and its structure is loose, so can appear fibre fracture, tensile, the problem of scattering in the processing procedure, and current material is received and is unreeled and directly makes the material carry out the conventional tension rolling of drawing that directly receives and unreel through a plurality of deflector rolls, can cause the damage to the material, awaits the improvement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a passive form guipure drive winding and unwinding devices, mainly to the material loose, tension-free through the unable material that realizes of conventional tension rolling, solution material fracture that can be fine, tensile, the scheduling problem that scatters can apply to materials such as non-woven fabrics, fibre web.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a unwinding device is received in passive form guipure drive, includes frame, guipure transfer roller, first guipure deflector roll, guipure, tensioning cylinder, guipure deviation correcting device, receive and release winding up roller and material, guipure transfer roller, first guipure deflector roll, tensioning cylinder, guipure deviation correcting device and receive and release winding up roller all install in the frame, tensioning deflector roll is connected to the output of tensioning cylinder, the guipure transfer is through guipure transfer roller, tensioning deflector roll, guipure deviation correcting device, first guipure deflector roll and receive and release winding up roller, the material is conveyed through first guipure deflector roll and is rolled up in receiving and releasing winding up roller, and the material laminating is located the guipure upper surface.

The material between the first mesh belt guide roller and the winding and unwinding roller is attached to the upper surface of the mesh belt.

And a second mesh belt guide roller and a third mesh belt guide roller which are arranged on the frame are respectively arranged around the tensioning guide roller, and the mesh belt transmission passes through the second mesh belt guide roller and the third mesh belt guide roller.

And the mesh belts among the second mesh belt guide roller, the tensioning guide roller and the third mesh belt guide roller form a V-shaped included angle.

And the second mesh belt guide roller and the third mesh belt guide roller are vertically opposite to each other.

And a fourth mesh belt guide roller installed on the frame is arranged at the rear of the mesh belt deviation rectifying device, and the mesh belt is conveyed to pass through the fourth mesh belt guide roller.

The third mesh belt guide roller and the fourth mesh belt guide roller are horizontally opposite to each other.

The rear of fourth guipure deflector roll is equipped with the fifth guipure deflector roll of installing in the frame, fifth guipure deflector roll is located the place ahead of first guipure deflector roll.

The utility model has the advantages that: the mesh belt transmission can realize the winding and unwinding of materials under the condition of large friction surface area as winding and unwinding, the mesh belt is not easy to adhere to the materials in the winding and unwinding process, tension is avoided in the material winding and unwinding process, and the materials and the mesh belt move in a relative static mode, so that any damage to the materials is avoided.

Drawings

FIG. 1 is a schematic structural view of the utility model at the initial stage of material rolling;

fig. 2 is the structure diagram of the utility model at the end of material rolling.

In the figure: the device comprises a frame 1, a mesh belt conveying roller 2, a first mesh belt guide roller 21, a second mesh belt guide roller 22, a third mesh belt guide roller 23, a fourth mesh belt guide roller 24, a fifth mesh belt guide roller 25, a mesh belt 3, a tensioning cylinder 4, a tensioning guide roller 41, a mesh belt deviation rectifying device 5, a winding and unwinding roller 6 and a material 7.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1 and 2, a passive mesh belt driving winding and unwinding device comprises a frame 1, a mesh belt conveying roller 2, a first mesh belt guide roller 21, a mesh belt 3, a tensioning cylinder 4, a mesh belt deviation correcting device 5, a winding and unwinding roller 6 and a material 7, wherein the mesh belt conveying roller 2, the first mesh belt guide roller 21, the tensioning cylinder 4, the mesh belt deviation correcting device 5 and the winding and unwinding roller 6 are all installed on the frame 1, the tensioning guide roller 41 is connected with the output end of the tensioning cylinder 4, and the mesh belt 3 is conveyed through the mesh belt conveying roller 2, the tensioning guide roller 41, the mesh belt deviation correcting device 5, the first mesh belt guide roller 21 and the winding and unwinding roller 6.

The utility model provides a description about fore-and-aft direction indicates that guipure transfer roller 2, tensioning deflector roll 41, guipure deviation correcting device 5, fourth guipure deflector roll 24, fifth guipure deflector roll 25, first guipure deflector roll 21, receive and release the roller 6 and obey from the past backward to arrange the distribution.

The material 7 is transmitted through a first mesh belt guide roller 21 and is rolled on the winding and unwinding roller 6, and the material 7 is attached to the upper surface of the mesh belt 3. The utility model discloses well material 7 only through first guipure deflector roll 21 with receive and unreel roller 6, receive and unreel roller 6 and can realize unreeling the function equally, be material 7 during the rolling from first guipure deflector roll 21 to receiving and unreeling roller 6, be material 7 when unreeling from receiving and unreeling roller 6 to first guipure deflector roll 21.

As shown in fig. 1, when the winding and unwinding roller 6 is wound initially, the amount of the peripheral material 7 is small, the tensioning cylinder 4 retracts, the tensioning guide roller 41 is located at the left side, when the amount of the peripheral material 7 of the winding and unwinding roller 6 is increased, the total length of the mesh belt 3 is unchanged, the tensioning cylinder 4 gradually extends out, and the tensioning guide roller 41 is slowly driven to the right to tension the mesh belt 3.

The material 7 between the first mesh belt guide roller 21 and the winding and unwinding roller 6 is attached to the upper surface of the mesh belt 3.

The utility model discloses having researched and developed through porous guipure 3 as the driven new technology of contact, 3 transmissions of guipure unreel can realize under the great condition of friction area that material 7 is realized in the receipts as receiving and unreeling, receive and unreel that in-process guipure 3 is difficult and the adhesion of material 7, guarantee that material 7 receives and unreels the in-process and do not have tension, material 7 and 3 relative stationary motion of guipure, so do not produce any destruction to material 7.

And a second mesh belt guide roller 22 and a third mesh belt guide roller 23 which are arranged on the frame 1 are respectively arranged around the tensioning guide roller 41, and the mesh belt 3 is transmitted through the second mesh belt guide roller 22 and the third mesh belt guide roller 23. And the mesh belt 3 among the second mesh belt guide roller 22, the tensioning guide roller 41 and the third mesh belt guide roller 23 forms a V-shaped included angle. The second mesh belt guide roller 22 and the third mesh belt guide roller 23 are vertically opposite to each other. This design makes the tensioning of the tensioning guide roller 41 more reliable and stable.

The rear of guipure deviation correcting device 5 is equipped with the fourth guipure deflector roll 24 of installing in frame 1, guipure 3 conveys through fourth guipure deflector roll 24.

The third mesh belt guide roller 23 and the fourth mesh belt guide roller 24 are horizontally opposite left and right.

The rear of fourth guipure deflector roll 24 is equipped with the fifth guipure deflector roll 25 of installing in frame 1, fifth guipure deflector roll 25 is located the place ahead of first guipure deflector roll 21.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides a passive form guipure drive receive and releases wind device, includes frame (1), guipure transfer roller (2), first guipure deflector roll (21), guipure (3), tensioning cylinder (4), guipure deviation correcting device (5), receipts unwinding roller (6) and material (7), its characterized in that: guipure transfer roller (2), first guipure deflector roll (21), tensioning cylinder (4), guipure deviation correcting device (5) and receipts roll roller (6) all install in frame (1), tensioning deflector roll (41) are connected to the output of tensioning cylinder (4), guipure (3) conveying is through guipure transfer roller (2), tensioning deflector roll (41), guipure deviation correcting device (5), first guipure deflector roll (21) and receipts roll roller (6), material (7) conveying is through first guipure deflector roll (21) and is rolled up in receiving roll roller (6), and material (7) laminating is located guipure (3) upper surface.

2. The passive belt-driven take-up and pay-off device of claim 1, wherein: the material (7) between the first mesh belt guide roller (21) and the winding and unwinding roller (6) is attached to the upper surface of the mesh belt (3).

3. The passive belt-driven take-up and pay-off device of claim 1, wherein: be equipped with around tensioning deflector roll (41) respectively and install second guipure deflector roll (22) and third guipure deflector roll (23) in frame (1), guipure (3) transmission is through second guipure deflector roll (22) and third guipure deflector roll (23).

4. A passive belt-driven take-up and pay-off device as defined in claim 3, wherein: and the mesh belt (3) among the second mesh belt guide roller (22), the tensioning guide roller (41) and the third mesh belt guide roller (23) forms a V-shaped included angle.

5. A passive belt-driven take-up and pay-off device as defined in claim 3, wherein: the second mesh belt guide roller (22) and the third mesh belt guide roller (23) are vertically opposite to each other.

6. A passive belt-driven take-up and pay-off device as defined in claim 3, wherein: the rear of guipure deviation correcting device (5) is equipped with fourth guipure deflector roll (24) of installing in frame (1), guipure (3) transmission is through fourth guipure deflector roll (24).

7. The passive belt-driven take-up and pay-off device of claim 6, wherein: the third mesh belt guide roller (23) and the fourth mesh belt guide roller (24) are horizontally opposite from left to right.

8. The passive belt-driven take-up and pay-off device of claim 6, wherein: the rear of fourth guipure deflector roll (24) is equipped with fifth guipure deflector roll (25) of installing in frame (1), fifth guipure deflector roll (25) are located the place ahead of first guipure deflector roll (21).

Images