CN204297760U - Silk blank feed correction mechanism - Google Patents

Abstract

The utility model relates to a kind of silk blank feed correction mechanism.Easily to slide etc. when it solving the conveying of existing silk problem.Comprise support body, first running roller, second running roller and gap, first running roller center is equipped with the first rotating shaft, sliding tray is respectively equipped with at support body two ends, slide in sliding tray and be provided with sliding shoe, sliding shoe is provided with the first through hole, and be provided with clutch shaft bearing between the first rotating shaft and the first through hole, controller perturbation structure is provided with between sliding tray and sliding shoe, second running roller is connected with driver train, first running roller circumference outer race is provided with the first silica gel body, first silica gel body is circumferentially with some first projections, second running roller circumference outer race is provided with the second silica gel body, second silica gel body is provided with some the second projections shifted to install one by one with the first projection.Advantage is: structure is simple, stablizes, and course of conveying is steady, not easily occurs skidding and Caton phenomenon, not easily produces silk blank and damage in course of conveying.

Description

Silk blank feed correction mechanism

Technical field

The utility model belongs to silk fabrics technical field of processing equipment, especially relates to a kind of silk blank feed correction mechanism.

Background technology

Silk is a kind of textiles, is made into silk or syntheticfibres, regenerated fiber, long filament; By the general name of silk or the pure fabric knitted or be interwoven of rayon.Common silk blank location mode has multiple, and such as, stored collapsed, winding are deposited, and such as depositing at winding is to be wound on by silk blank in a rotating shaft by artificial or mechanical system thus to realize winding process.But in actual mechanical process, due to silk fabrics surface comparatively cunning make silk fabrics easily occur skidding in course of conveying, the phenomenon of Ka Dun and skew, this just reels to silk fabrics and deposits and bring inconvenience.

In order to solve prior art Problems existing, people have carried out long-term exploration, propose multi-form solution.Such as, Chinese patent literature discloses a kind of silk cold rolling and piling method [application number: 200610053726.7], silk cold rolling and piling method, the method comprises successively: dye liquor prepares, dye liquor is carried, pads dye liquor, banked up, and next step finishing process.Described silk fabric needs through refining before entering mangle equipment; Described dye solution adopts reactive dye and soft water; Described liquid additive comprises penetrant, cosolvent, accelerant, alkaline agent, and all the other are soft water.Described silk fabric is all-silk goods, and silk or thin,tough silk and cotton, fiber crops, people's silk, a kind of blended union fabric in people cotton.

Such scheme to some extent solves prior art Problems existing, but the program still also exists: complex structure, and skidding easily appears in course of conveying, the problem of poor stability.

Summary of the invention

The purpose of this utility model is for the problems referred to above, provides a kind of simple and reasonable, the silk blank feed correction mechanism that course of conveying not easily skids.

For achieving the above object, the utility model have employed following technical proposal: this silk blank feed correction mechanism, comprise support body, described support body is provided with the first running roller arranged in parallel up and down and the second running roller, the gap passed through for silk blank is formed between the first described running roller and the second running roller, it is characterized in that, the first described running roller center is equipped with and extends to outside the first running roller two ends and the first rotating shaft be fixedly linked with the first running roller, mutually corresponding setting and the sliding tray vertically arranged is respectively equipped with at support body two ends, slide in described sliding tray and be provided with sliding shoe, sliding shoe is provided with the first through hole passed for the first rotating shaft, and be provided with clutch shaft bearing between the first described rotating shaft and the first through hole, the controller perturbation structure that can control sliding shoe and keep to the second running roller direction movement tendency is provided with between described sliding tray and sliding shoe, the second described running roller is connected with the driver train that the second running roller circumference can be driven to rotate, the first described running roller circumference outer race is provided with the first silica gel body, the first described silica gel body is circumferentially with some first projections, the second described running roller circumference outer race is provided with the second silica gel body, the second described silica gel body is provided with some the second projections shifted to install one by one with the first projection.By controller perturbation structure make the first running roller to the second running roller move make gap reduce make to be clamped all the time in silk blank course of conveying, not easily there is skidding, and can prevent from causing damage to silk blank in course of conveying due to the first silica gel sheath and the second silica gel sheath.

In above-mentioned silk blank feed correction mechanism, described controller perturbation structure comprises the spring be arranged between sliding tray and sliding shoe, and described spring one end is connected with sliding tray end, and the other end is fixedly installed on sliding shoe end.

In above-mentioned silk blank feed correction mechanism, described driver train comprises and is arranged in the second running roller center and the second rotating shaft be fixedly linked with the second running roller, the second described rotating shaft two ends extend to outside the second running roller two ends respectively, the second described running roller is arranged on support body by mounting structure, and the second described rotating shaft is connected with the output shaft of drive motor by driving band.

In above-mentioned silk blank feed correction mechanism, described mounting structure comprises the second through hole that mutual correspondence is arranged on support body two ends, and the second described rotating shaft is through in the second through hole, and is provided with the second bearing between the second described through hole and the second rotating shaft.

In above-mentioned silk blank feed correction mechanism, the first described projection and the second projection are all in segment shape, and the first described projection is uniformly distributed setting respectively with the second projection.This structure is not easily left a trace on silk blank.

In above-mentioned silk blank feed correction mechanism, the first described rotating shaft and the second rotating shaft arranged in parallel.

Compared with prior art, the advantage of this silk blank feed correction mechanism is: structure is simple, stablizes, and course of conveying is steady, not easily occurs skidding and Caton phenomenon, not easily produces silk blank and damage in course of conveying.

Accompanying drawing explanation

The structural representation that Fig. 1 provides for the utility model;

The local structure schematic diagram at another visual angle that Fig. 2 provides for the utility model.

In figure, support body 1, sliding tray 11, sliding shoe 12, first through hole 121, clutch shaft bearing 122, spring 13, first running roller 2, first rotating shaft 21, second running roller 3, gap 4, driver train 5, second rotating shaft 51, driving band 52, drive motor 53, second through hole 54, second bearing 55, first silica gel body 6, first projection 61, second silica gel body 7, second projection 71.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail.

As shown in Figure 1-2, this silk blank feed correction mechanism, comprise support body 1, support body 1 is provided with the first running roller 2 and the second running roller 3 arranged in parallel up and down, the gap 4 passed through for silk blank is formed between first running roller 2 and the second running roller 3, first running roller 2 center is equipped with and extends to outside the first running roller 2 two ends and the first rotating shaft 21 be fixedly linked with the first running roller 2, mutually corresponding setting and the sliding tray 11 vertically arranged is respectively equipped with at support body 1 two ends, slide in sliding tray 11 and be provided with sliding shoe 12, sliding shoe 12 is provided with the first through hole 121 passed for the first rotating shaft 21, and be provided with clutch shaft bearing 122 between the first rotating shaft 21 and the first through hole 121, the controller perturbation structure that can control sliding shoe 12 and keep to the second running roller 3 direction movement tendency is provided with between sliding tray 11 and sliding shoe 12, second running roller 3 is connected with the driver train 5 that the second running roller 3 circumference can be driven to rotate, the circumferential outer race of first running roller 2 is provided with the first silica gel body 6, first silica gel body 6 is circumferentially with some first projections 61, the circumferential outer race of second running roller 3 is provided with the second silica gel body 7, second silica gel body 7 is provided with some the second projections 71 shifted to install one by one with the first projection 61, by controller perturbation structure make the first running roller 2 to the second running roller 3 move make gap 4 reduce make to be clamped all the time in silk blank course of conveying, not easily there is skidding, and can prevent from causing damage to silk blank in course of conveying due to the first silica gel sheath 61 and the second silica gel sheath 71.

Controller perturbation structure in the present embodiment comprises the spring 13 be arranged between sliding tray 11 and sliding shoe 12, and spring 13 one end is connected with sliding tray 11 end, and the other end is fixedly installed on sliding shoe 12 end.Further, here driver train 5 comprises and is arranged in the second running roller 3 center and the second rotating shaft 51 be fixedly linked with the second running roller 3, first rotating shaft 21 and the second rotating shaft 51 arranged in parallel, second rotating shaft 51 two ends extend to outside the second running roller 3 two ends respectively, second running roller 3 is arranged on support body 1 by mounting structure, and the second rotating shaft 51 is connected with the output shaft of drive motor 53 by driving band 52.

Further, mounting structure here comprises the second through hole 54, second rotating shaft 51 that mutual correspondence is arranged on support body 1 two ends and is through in the second through hole 54, and is provided with the second bearing 55 between the second through hole 54 and the second rotating shaft 51.In addition, the here first protruding 61 and second projection 71 is all in segment shape, and the first protruding 61 and second projection 71 is uniformly distributed setting respectively, so not easily leaves a trace on silk blank.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Although more employ the terms such as support body 1, sliding tray 11, sliding shoe 12, first through hole 121, clutch shaft bearing 122, spring 13, first running roller 2, first rotating shaft 21, second running roller 3, gap 4, driver train 5, second rotating shaft 51, driving band 52, drive motor 53, second through hole 54, second bearing 55, first silica gel body 6, first projection 61, second silica gel body 7, second projection 71 herein, do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

Claims (6)

1. a silk blank feed correction mechanism, comprise support body (1), described support body (1) is provided with the first running roller (2) arranged in parallel up and down and the second running roller (3), the gap (4) passed through for silk blank is formed between described the first running roller (2) and the second running roller (3), it is characterized in that, described the first running roller (2) center is equipped with and extends to outside the first running roller (2) two ends and the first rotating shaft (21) be fixedly linked with the first running roller (2), mutually corresponding setting and the sliding tray (11) vertically arranged is respectively equipped with at support body (1) two ends, slide in described sliding tray (11) and be provided with sliding shoe (12), sliding shoe (12) is provided with the first through hole (121) passed for the first rotating shaft (21), and be provided with clutch shaft bearing (122) between described the first rotating shaft (21) and the first through hole (121), the controller perturbation structure that can control sliding shoe (12) and keep to the second running roller (3) direction movement tendency is provided with between described sliding tray (11) and sliding shoe (12), described the second running roller (3) is connected with the driver train (5) that the second running roller (3) circumference can be driven to rotate, described the first running roller (2) circumferential outer race is provided with the first silica gel body (6), the first described silica gel body (6) is circumferentially with some first projections (61), described the second running roller (3) circumferential outer race is provided with the second silica gel body (7), the second described silica gel body (7) is provided with some the second projections (71) shifted to install one by one with the first projection (61).

2. silk blank feed correction mechanism according to claim 1, it is characterized in that, described controller perturbation structure comprises the spring (13) be arranged between sliding tray (11) and sliding shoe (12), described spring (13) one end is connected with sliding tray (11) end, and the other end is fixedly installed on sliding shoe (12) end.

3. silk blank feed correction mechanism according to claim 1 and 2, it is characterized in that, described driver train (5) comprises and is arranged in the second running roller (3) center and the second rotating shaft (51) be fixedly linked with the second running roller (3), described the second rotating shaft (51) two ends extend to outside the second running roller (3) two ends respectively, described the second running roller (3) is arranged on support body (1) by mounting structure, and described the second rotating shaft (51) is connected by the output shaft of driving band (52) with drive motor (53).

4. silk blank feed correction mechanism according to claim 3, it is characterized in that, described mounting structure comprises the second through hole (54) that mutual correspondence is arranged on support body (1) two ends, described the second rotating shaft (51) is through in the second through hole (54), and is provided with the second bearing (55) between described the second through hole (54) and the second rotating shaft (51).

5. silk blank feed correction mechanism according to claim 1, it is characterized in that, described the first projection (61) and the second projection (71) are all in segment shape, and described the first projection (61) and the second projection (71) are uniformly distributed setting respectively.

6. silk blank feed correction mechanism according to claim 3, is characterized in that, described the first rotating shaft (21) is arranged in parallel with the second rotating shaft (51).