A wool fabric nano processing device
By using guide rollers and intermediate support rollers to tension and stretch the fabric, the problem of insufficient force on the fabric in the impregnation equipment is solved, and effective impregnation and effective liquid expulsion are achieved, thus improving the impregnation effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHAOXING JINDESHENG GARMENT CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-07
AI Technical Summary
In existing wool fabric impregnation equipment, the fabric is not subjected to sufficient force in the box, which makes it difficult for the yarn to penetrate and affects the impregnation effect.
The fabric is tensioned by guide rollers and intermediate support rollers, and stretched by guide rollers and intermediate support rollers to deform the fabric, thereby improving its permeability. Excess liquid is squeezed out by squeeze rollers.
It achieves effective impregnation inside the fabric and effective squeezing out of the liquid, ensuring the impregnation effect.
Smart Images

Figure CN224468072U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of textile processing technology, and more specifically to a nano-processing device for wool fabrics. Background Technology
[0002] Existing wool fabrics require waterproofing, therefore, they need to be treated.
[0003] Existing methods include treating wool fabrics with a nano-waterproof coating, where a finishing agent is penetrated into the fibers through a padding process to form a hydrophobic layer. This technology effectively prevents water and oil stains from penetrating while maintaining the original color and texture of the fabric.
[0004] In existing impregnation equipment, a guide roller is installed inside the chamber to transport the fabric into the liquid along the guide roller. It has no other function, which results in low stress in the chamber and makes it difficult to produce stretching or other changes. This makes it difficult for the inside of the yarn to be impregnated, affecting the impregnation effect. Utility Model Content
[0005] The purpose of this invention is to overcome the shortcomings of the prior art and provide a nano-treatment device for wool fabrics. During the impregnation process, the device can tension the wool fabric through guide adjustment rollers and intermediate support rollers, thereby stretching the yarn and making it easy to deform and penetrate the interior, thus ensuring the impregnation effect. At the same time, the squeeze rollers can squeeze out the liquid on the output fabric to a certain extent.
[0006] The solution of this utility model to the aforementioned technical problem is:
[0007] A nano-processing device for wool fabrics includes a main housing, wherein fabric guide rollers are provided at the front and upper rear of the main housing.
[0008] A middle support roller is installed at the lower part of the middle section of the main housing. The left and right ends of the middle support roller are movably connected to the inner side walls of the left and right side plates of the main housing through bearings.
[0009] The same horizontal plate is fixed to the middle of the top surface of the left and right side plates of the main box. Lifting mechanisms are installed on the left and right sides of the horizontal plate. Two vertical screws at the lifting mechanism extend downwards from the bottom surface of the horizontal plate. The bottom ends of the two vertical screws on the same side are fixed to the top surface of the same lifting plate. A vertical fixing plate is fixed to the bottom surface of the lifting plate. The two ends of two guide adjustment rollers arranged in front and behind are movably connected to the vertical fixing plates on the left and right sides through bearings. The two guide adjustment rollers are located in front of and behind the middle support roller.
[0010] Two inner support plates are fixed on the top inner walls of the left and right side plates at the rear of the main housing. An upper fixing plate is fixed on the top surface of the four inner support plates. A pressing roller lifting mechanism is installed on the top surface of the upper fixing plate. The bottom of the two vertical adjusting screws of the pressing roller lifting mechanism extends out of the bottom surface of the upper fixing plate and is fixed on the top surface of the same rear lifting plate. Side support plates are fixed on the bottom surfaces of the left and right sides of the rear lifting plate. The two ends of the pressing roller are movably connected to the two side support plates through bearings. A pressing support roller is movably connected to the upper inner wall of the rear wall of the main housing through a hinge shaft. The pressing roller and the pressing support roller correspond to each other.
[0011] The outstanding effect of this utility model is:
[0012] It can tension wool fabrics during impregnation by using guide rollers and intermediate support rollers, thereby stretching the yarns, making them easier to deform and allowing for easy internal penetration, ensuring the impregnation effect. At the same time, its squeeze rollers can squeeze out some of the liquid from the output fabric. Attached Figure Description
[0013] Figure 1 This is a partial structural schematic diagram of the present invention;
[0014] Figure 2 yes Figure 1 A magnified view of a portion of the image;
[0015] Figure 3 This is a partial top view of the present invention. Detailed Implementation
[0016] For example, see below. Figures 1 to 3 As shown, a wool fabric nano-processing device includes a main box 10. The upper outer walls of the front and rear side plates of the main box 10 are fixed with end transverse plates 16. Bearing seats 17 are fixed at both ends of the top surface of the end transverse plates 16. The two ends of the fabric guide roller 11 are fixed on the inner rings of the bearings of the corresponding two bearing seats 17.
[0017] A middle support roller 12 is installed at the lower part of the middle of the main housing 10. The left and right ends of the middle support roller 12 are movably connected to the inner side walls of the left and right side plates of the main housing 10 through bearings.
[0018] The same horizontal plate 13 is fixed to the middle of the top surface of the left and right side plates of the main box 10. Lifting mechanisms 20 are installed on the left and right sides of the horizontal plate 13. Two vertical screws 21 at the lifting mechanism 20 extend downward from the bottom surface of the horizontal plate 13. The bottom ends of the two vertical screws 21 on the same side are fixed to the top surface of the same lifting plate 22. A vertical fixing plate 23 is fixed to the bottom surface of the lifting plate 22. The two ends of two guide adjustment rollers 24 arranged in front and behind are movably connected to the vertical fixing plates 23 on the left and right sides through bearings. The two guide adjustment rollers 24 are located at the front and rear of the middle support roller 12.
[0019] Furthermore, the lifting mechanism 20 includes a dual-shaft motor 240 fixed in the middle of the top surface of the left or right side of the transverse plate 13. Worm gear screw jacks 25 are fixed on the top surface of the transverse plate 13 at both the front and rear of the dual-shaft motor 240. The input shaft of the worm gear screw jack 25 is connected to the output shaft of the front or rear of the dual-shaft motor 240 through a coupling. The bottom of the vertical screw 21 of the worm gear screw jack 25 extends out of the bottom surface of the through hole formed on the transverse plate 13.
[0020] Furthermore, two inner support plates 14 are fixed on the top inner walls of the left and right side plates at the rear of the main housing 10. An upper fixing plate 15 is fixed on the top surface of the four inner support plates 14. A pressing roller lifting mechanism 30 is installed on the top surface of the upper fixing plate 15. The bottom of the two vertical adjusting screws 31 of the pressing roller lifting mechanism 30 extends out of the bottom surface of the upper fixing plate 15 and is fixed on the top surface of the same rear lifting plate 32. Side support plates are fixed on the bottom surfaces of the left and right sides of the rear lifting plate 32. The two ends of the pressing roller 33 are movably connected to the two side support plates through bearings. A pressing support roller 34 is movably connected to the upper inner wall of the rear wall of the main housing 10 through a hinge shaft. The pressing roller 33 corresponds to the pressing support roller 34.
[0021] The extrusion roller lifting mechanism 30 includes two first worm gear screw jacks 35, which are fixed to the left and right sides of the top surface of the upper fixed plate 15. The bottom of the vertical adjusting screws 31 of the two first worm gear screw jacks 35 extends out of the bottom of the corresponding through holes of the upper fixed plate 15. Guide blocks 321 are fixed on the front and rear side walls of the left and right sides of the rear lifting plate 32. Vertical guide strips 141 are fixed on the opposite walls of the two corresponding inner support plates 14. The vertical guide strips 141 are inserted into the vertical guide grooves formed on the side walls of the corresponding guide blocks 321.
[0022] One end of each of the two input shafts of the two first worm gear screw jacks 35 is connected to both ends of the middle transverse transmission rod 1 via a coupling. Another end of the input shaft of the first worm gear screw jack 35 is fixed with a rotating handwheel. Another end of the input shaft of the other first worm gear screw jack 35 is connected to the output shaft of the servo motor 36 via a coupling. The servo motor 36 is fixed on the top surface of the upper fixing plate 15.
[0023] Furthermore, a drain pipe 18 is connected to the lower part of the rear side panel of the main housing 10, and a plug 19 is screwed to the outer end of the drain pipe 18.
[0024] The transverse plate 13 has an observation groove 131 formed in the middle.
[0025] In this embodiment, both the first worm gear screw jack 35 and the worm gear screw jack 25 are existing commercially available products that can be purchased directly, and will not be described in detail here.
[0026] In this embodiment, it is installed between the fabric conveying equipment and the receiving equipment. It guides the fabric from the front fabric guide roller 11 into the main box 10 for soaking and tensioning. The fabric is then stretched and deformed by the guidance and compression of the two guide adjusting rollers 24 and the intermediate support roller 12, which makes it easier for the internal threads of the fabric to be immersed in the finishing agent solution poured into the main box 10 (the finishing agent solution for the nano waterproof coating is existing technology, such as XSY-C603 three-proof finishing agent, which will not be described in detail here). Then, it is conveyed backward, and the excess liquid is squeezed back into the liquid in the main box 10 by the compression of the compression roller 33 and the compression support roller 34. Finally, it is output along the rear fabric guide roller 11.
[0027] In this embodiment, two dual-output shaft motors 240 operate synchronously (they are dual-output shaft servo motors to ensure synchronous operation), which causes the two guide adjustment rollers 24 to be raised or lowered synchronously, changing the tension of the fabric with respect to the intermediate support roller 12.
[0028] The servo motor 36 can be used to change the height of the extrusion roller 33, so that it can cooperate with the extrusion support roller 34 to squeeze out excess liquid from the fabric, which is very convenient.
[0029] The dual-axis motor 240 and the servo motor 36 are both electrically connected to the control host via electrical connection lines, and their operation is controlled by the control host.
[0030] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A nano-processing device for wool fabrics, comprising a main housing (10), characterized in that: Fabric guide rollers (11) are provided at the front and upper rear of the main box (10). A middle support roller (12) is installed at the lower part of the middle part of the main box (10). The left and right ends of the middle support roller (12) are movably connected to the inner side walls of the left and right side plates of the main box (10) through bearings. The top surface of the left and right side plates of the main box (10) is fixed with the same horizontal plate (13). Lifting mechanisms (20) are installed on the left and right sides of the horizontal plate (13). Two vertical screws (21) at the lifting mechanism (20) extend downwards from the bottom surface of the horizontal plate (13). The bottom ends of the two vertical screws (21) on the same side are fixed on the top surface of the same lifting plate (22). A vertical fixing plate (23) is fixed on the bottom surface of the lifting plate (22). The two ends of the two guide adjustment rollers (24) arranged in front and behind are movably connected to the vertical fixing plates (23) on the left and right sides through bearings. The two guide adjustment rollers (24) are located at the front and rear of the middle support roller (12). Two inner support plates (14) are fixed on the top inner walls of the left and right side plates at the rear of the main box (10). The upper fixing plate (15) is fixed on the top surface of the four inner support plates (14). A squeezing roller lifting mechanism (30) is installed on the top surface of the upper fixing plate (15). The bottom of the two vertical adjusting screws (31) of the squeezing roller lifting mechanism (30) extends out of the bottom surface of the upper fixing plate (15) and is fixed on the top surface of the same rear lifting plate (32). Side support plates are fixed on the bottom surfaces of the left and right sides of the rear lifting plate (32). The two ends of the squeezing roller (33) are movably connected to the two side support plates through bearings. A squeezing support roller (34) is movably connected to the upper inner wall of the rear wall of the main box (10) through a hinge shaft. The squeezing roller (33) corresponds to the squeezing support roller (34).
2. The nano-treatment device for wool fabrics according to claim 1, characterized in that: The upper outer walls of the front and rear side panels of the main box (10) are fixed with end transverse plates (16), and bearing seats (17) are fixed at both ends of the top surface of the end transverse plates (16). The two ends of the fabric guide roller (11) are fixed on the inner rings of the bearings of the corresponding two bearing seats (17).
3. The nano-treatment device for wool fabrics according to claim 1, characterized in that: The lower part of the rear panel of the main box (10) is connected to a drain pipe (18), and a plug (19) is screwed to the outer end of the drain pipe (18).
4. The nano-treatment device for wool fabrics according to claim 1, characterized in that: The lifting mechanism (20) includes a dual-output shaft motor (240) fixed in the middle of the top surface of the left or right side of the horizontal plate (13). Worm gear screw jacks (25) are fixed on the top surface of the horizontal plate (13) at the front and rear of the dual-output shaft motor (240). The input shaft of the worm gear screw jack (25) is connected to the output shaft of the front or rear of the dual-output shaft motor (240) through a coupling. The bottom of the vertical screw (21) of the worm gear screw jack (25) extends out of the bottom surface of the through hole formed on the horizontal plate (13).
5. The wool fabric nano-treatment device according to claim 1, characterized in that: The transverse plate (13) has an observation groove (131) formed in the middle.
6. The nano-treatment device for wool fabrics according to claim 1, characterized in that: The extrusion roller lifting mechanism (30) includes two first worm gear screw jacks (35), which are fixed on the left and right sides of the top surface of the upper fixed plate (15). The bottom of the vertical adjusting screw (31) of the two first worm gear screw jacks (35) extends out of the bottom of the corresponding through hole of the upper fixed plate (15). Guide blocks (321) are fixed on the front and rear side walls of the left and right sides of the rear lifting plate (32). Vertical guide strips (141) are fixed on the opposite walls of the two corresponding inner support plates (14). The vertical guide strips (141) are inserted into the vertical guide grooves formed on the side walls of the corresponding guide blocks (321).
7. The wool fabric nano-treatment device according to claim 6, characterized in that: One end of each of the two input shafts of the two first worm gear screw jacks (35) is connected to both ends of the middle transverse transmission rod (1) via a coupling. Another end of the input shaft of the first worm gear screw jack (35) is fixed with a rotating handwheel. Another end of the input shaft of the other first worm gear screw jack (35) is connected to the output shaft of the servo motor (36) via a coupling. The servo motor (36) is fixed on the top surface of the upper fixing plate (15).