CN219670835U - Air oxidation device for improving color fastness of high-wear-resistance camouflage fabric - Google Patents

Abstract

The utility model discloses an air oxidation device for improving color fastness of high-wear-resistance camouflage cloth, which comprises a cloth body, wherein the cloth body passes through the air oxidation device, the air oxidation device comprises a lower frame body, an upper frame body is arranged on the upper side of the lower frame body, a plurality of guide rollers are arranged on one sides, close to each other, of the upper frame body and the lower frame body, and the cloth body sequentially staggers and bypasses the guide rollers on two sides, so that the cloth body forms a reciprocating and folded S-shaped structure. The surface area of the cloth body contacted with the air is large, and the cloth sequentially passes through the S-shaped reciprocating foldback shape formed by the guide rollers, so that the space occupation is saved, and the cloth is spread as much as possible, so that the contact surface of the cloth and the air is enlarged, and the cloth is uniformly oxidized in the air. The cloth winding device is convenient to arrange the cloth during equipment driving, and the upper guide roller is controlled by the lifting mechanism to fall below the lower guide roller simultaneously, so that the cloth can be conveniently and transversely passed through a plurality of guide rollers at one time, and the complicated cloth winding step is simplified.

Description

Air oxidation device for improving color fastness of high-wear-resistance camouflage fabric

Technical Field

The utility model relates to the field of camouflage cloth production, in particular to an air oxidation device for improving color fastness of high-wear-resistance camouflage cloth.

Background

Camouflage is a camouflage effect of clothing. The camouflage cloth is often printed and dyed on the cloth to be processed into the camouflage cloth for use, but when the camouflage cloth is processed, the printed and dyed cloth has large printing area and complex color, so that the color fastness of the printed and dyed cloth is not high, and the phenomenon of fading easily occurs. When the camouflage cloth is dyed, the dyed cloth needs to be oxidized, so that the dye is changed into the original insoluble dye and is firmly attached to the cloth fiber, thereby improving the color fastness of the camouflage cloth. The cloth has the advantages of bright color, good color fastness, sunlight resistance, water resistance and the like.

In the prior art, the oxidation process summarized in the dyeing process of the cloth is generally carried out by immersing the cloth in the printing dye liquor, and although the cloth is piled into the printing dye liquor to be immersed for the purpose of experimental oxidation, the cloth is piled into the liquor to be immersed, so that the outer cloth is easy to be immersed in the oxidation liquor, and the inner cloth is difficult to be stained with the oxidation liquor, thus the oxidation-reduction speed is unbalanced, and the product quality is reduced.

In view of the foregoing, there is a need for an air oxidation device that improves color fastness of highly abrasion resistant camouflage cloths to address the above issues.

Disclosure of Invention

The utility model aims to solve the technical problems, and provides an air oxidation device for improving the color fastness of high-wear-resistance camouflage cloth, so that the dyed cloth can be opened in the air, and the natural oxidation process in the air is facilitated.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an air oxidation device that high abrasion camouflage cloth improves colour fastness, includes the cloth body, and the cloth body passes by air oxidation device in, air oxidation device includes down the support body, lower support body upside is equipped with the support body, and the support body all is equipped with a plurality of deflector rolls with lower support body each other near one side down, the cloth body is crisscross to walk around both sides deflector rolls in proper order, makes the cloth body form the S-shaped structure of reciprocating turn back.

Further, a plurality of upper guide rollers are uniformly arranged at intervals on the lower side of the upper frame body, a plurality of lower guide rollers are uniformly arranged at intervals on the upper side of the lower frame body, and the upper guide rollers and the lower guide rollers are arranged in a staggered mode.

Further, the upper frame body can be controlled by the lifting mechanism to lift and move relative to the lower frame body, and the upper guide roller can be inserted into the interval space of the lower guide roller.

Further, when the upper frame body descends to the end of the stroke, a gap for the cloth body to pass through is formed between the upper edge of the upper guide roller and the lower edge of the lower guide roller.

Further, the lifting mechanism comprises a support, the support is vertically and fixedly arranged at four corners of the lower frame body, sliding blocks which are in sliding connection with the support are arranged at the four corners of the upper frame body, and cross beams are arranged at the tops of the supports at two sides.

Further, elevating system still is used for driving the high control mechanism that the support body removed including setting up in the support both sides, high control mechanism includes sprocket, lower sprocket, chain, upward sprocket rotates to connect to set up in the crossbeam downside, and lower sprocket rotates to connect to set up on lower support body, upward sprocket, lower sprocket are gone up the cover and are equipped with the chain, the slider side is connected with the chain.

Further, the worm wheel is coaxially and fixedly arranged on the side face of the lower chain wheel, the speed reducing motor is arranged on the lower frame body, the output end of the speed reducing motor is connected with a worm, and the worm is meshed with the worm wheel.

Furthermore, the output end of the gear motor is in driving connection with a synchronizing shaft, two ends of the synchronizing shaft are respectively provided with a worm, and the two worms at the two ends respectively drive the corresponding two lower chain wheels to rotate.

Further, an upper fan is arranged on the upper frame body, a lower fan is arranged on the lower frame body, the upper fan is arranged between two adjacent upper guide rollers, and the lower fan is arranged between two adjacent lower guide rollers.

Compared with the prior art, the utility model has the following beneficial effects:

1. the surface area of the cloth body contacted with the air is large, and the cloth sequentially passes through the S-shaped reciprocating foldback shape formed by a plurality of guide rollers, so that the space occupation is saved, and the cloth is spread as much as possible, so that the contact surface of the cloth and the air is enlarged, the cloth is uniformly oxidized in the air, and the color fastness of the camouflage cloth is improved.

2. The cloth winding device is convenient to arrange cloth during driving of the device, and the upper guide roller is controlled by the lifting mechanism to fall below the lower guide roller simultaneously, so that the cloth can be conveniently and transversely passed through a plurality of guide rollers at one time during driving, and the complicated cloth winding step is simplified.

3. Strengthen the circulation of air, the oxidation reduction speed of cloth in the air of being convenient for, through last fan, the lower fan of setting, make it correspond the curved inboard of the U-shaped that the cloth body formed respectively to can be with fresh air convenient send into between the cloth.

Drawings

FIG. 1 is a schematic diagram of a device for increasing the oxidation of cloth in air in the dyeing process of the cloth according to the utility model;

FIG. 2 is a schematic view of the structure of the upper frame falling to the end of the travel in the present utility model;

FIG. 3 is a schematic view of the elevating mechanism of the present utility model;

FIG. 4 is a schematic view of the lower sprocket, worm wheel and worm screw of the present utility model;

in the figure: 1. a cloth body; 2. a lower frame body; 3. an upper frame body; 4. an upper guide roller; 5. a lower guide roller; 6. a bracket; 7. a slide block; 8. a cross beam; 9. an upper sprocket; 10. a lower sprocket; 11. a chain; 12. a worm wheel; 13. a speed reducing motor; 14. a worm; 15. a synchronizing shaft; 16. a top fan; 17. and a lower fan.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model.

Example 1

The utility model provides an air oxidation device that high abrasion camouflage cloth improves colour fastness, is shown in fig. 1, includes cloth body 1, and cloth body 1 passes by air oxidation device in, air oxidation device includes lower support body 2, lower support body 2 upside is equipped with support body 3, and upper support body 3 all is equipped with a plurality of deflector rolls with lower support body 2 one side that is close to each other, cloth body 1 is the staggered in proper order and is walked around both sides deflector rolls, makes cloth body 1 form the S-shaped structure of reciprocating turn back, and during actual production, cloth body 1 gets into by one end of air oxidation device, and the entering back cloth is the staggered in proper order passes each deflector roll from top to bottom, forms the structure of turning back to with the expansion as far as possible of cloth, makes the time that the cloth stays in air oxidation device increase, makes the time that the cloth exposes in the air long to increase the air oxidation effect to the cloth.

Specifically, the downside of going up support body 3 evenly spaced is equipped with a plurality of deflector rolls 4, the even spacing of lower support body 2 upside is equipped with a plurality of deflector rolls 5 down to each goes up deflector roll 4, deflector roll 5 down and all rotates through articulated seat and go up support body 3, lower support body 2 and go up dislocation set between deflector roll 4 and the deflector roll 5 down, dislocation set goes up deflector roll 4 and deflector roll 5 down and can make the cloth body 1 that the string was walked around form the side structure of U-shaped, thereby make the cloth body 1 of both sides can not adhesion each other, paste and lean on.

Embodiment two:

because the cloth is naturally oxidized in the air, the air between the cloth is accelerated to flow, so that fresh air is continuously supplemented, the air oxidation effect is better, an upper fan 16 is arranged on the upper frame body 3, and meanwhile, a lower fan 17 is arranged on the lower frame body 2, so that the upper fan 16 is arranged between two adjacent upper guide rollers 4, and the lower fan 17 is arranged between two adjacent lower guide rollers 5; in this way, the upper fan 16 blows fresh air downward so that air can be blown into the opening of the U-shaped side formed by the cloth bodies 1 with the openings facing upward, and the lower fan 17 blows air upward between the cloth bodies 1 with the openings facing downward, so that the cloth passing through the air oxidation device is constantly in contact with fresh air during the rearward movement.

Embodiment III:

because a plurality of guide rollers are arranged in the air oxidation device, one end of cloth needs to be sequentially wound around the guide rollers in the equipment driving process, the operation is operated in the air oxidation device, the space is narrow, the efficiency of stringing around the cloth is lower, in order to simplify the operation and improve the production efficiency, the upper frame body 3 is arranged to be capable of lifting and moving, the upper frame body 3 can be lifted and moved relative to the lower frame body 2 and controlled by a lifting mechanism, the upper guide roller 4 can be finally inserted into the interval space of the lower guide roller 5, and when the upper frame body 3 descends to the stroke end, a gap for the cloth body 1 to pass through is formed between the upper edge of the upper guide roller 4 and the lower edge of the lower guide roller 5 as shown in fig. 2; therefore, when the machine is started in actual production, the operation of orderly winding a plurality of guide rollers can be completed only by transversely passing the end part of the forward moving cloth through the gap between the upper guide roller 4 and the lower guide roller 5, the machine is convenient and efficient, after the cloth passes through, the upper frame body 3 is lifted by the lifting mechanism, so that the plurality of upper guide rollers 4 are lifted at the same time, and then the S-shaped structure of the cloth which is folded back can be pulled Cheng Wangfu along with the unreeling operation of the cloth.

Specifically, as shown in fig. 3, the lifting mechanism includes a support 6, the support 6 is vertically and fixedly disposed at four corners of the lower frame 2, the support 6 is used as a lifting guide rail of the upper frame 3, and meanwhile, a lifting mechanism is disposed on a side surface of the support 6, sliding blocks 7 slidably connected with the support 6 are disposed at four corners of the upper frame 3, cross beams 8 are disposed at tops of the supports 6 at two sides, and height control mechanisms for driving the upper frame 3 to move are disposed below the cross beams 8 at two sides.

The height control mechanism comprises an upper chain wheel 9, a lower chain wheel 10 and a chain 11, wherein the upper chain wheel is rotationally connected with the lower side of the cross beam 8, the lower chain wheel 10 is rotationally connected with the lower frame body 2, the upper chain wheel 9 and the lower chain wheel 10 are sleeved with the chain 11, the side face of the sliding block 7 is connected with the chain 11, the two sides of the upper frame body 3 are simultaneously provided with the height control mechanism, the height control mechanism can be simultaneously lifted or fallen from the two sides of the upper frame body 3, and the two ends of each side are respectively controlled by a group of chain 11 chain wheels, so that the balance lifting can be realized.

As shown in fig. 4, for synchronously driving the chain wheel of the chain 11 and achieving the effect of self-locking, a worm wheel 12 is coaxially and fixedly arranged on the side surface of the lower chain wheel 10, a gear motor 13 is arranged on the lower frame body 2, the output end of the gear motor 13 is connected with a worm 14, the worm 14 is meshed with the worm wheel 12, and when the device is used, the worm 14 is driven to rotate by the gear motor 13, the worm 14 is meshed with the worm wheel 12 to realize the driving and the rotation of the self-locking control lower chain wheel 10, and then the chain 11 is used for driving the lifting movement of the upper frame body 3, the output end of the gear motor 13 is connected with a synchronizing shaft 15 in a driving way, the two ends of the synchronizing shaft 15 are respectively provided with the worm 14, and the two worm 14 at the two ends respectively drive the corresponding lower chain wheels 10 to rotate.

The above description is only of the preferred embodiments of the utility model, but the scope of the utility model is not limited thereto, and any person skilled in the art who is skilled in the art to which the utility model pertains should make equivalent substitutions or modifications according to the technical scheme of the utility model and the inventive concept thereof within the scope of the utility model.

Claims (8)

1. The air oxidation device for improving the color fastness of the high-wear-resistance camouflage cloth comprises a cloth body (1), and is characterized in that the cloth body (1) passes through the air oxidation device, the air oxidation device comprises a lower frame body (2), an upper frame body (3) is arranged on the upper side of the lower frame body (2), a plurality of guide rollers are arranged on one side, close to each other, of the upper frame body (3) and the lower frame body (2), and the cloth body (1) sequentially staggers and bypasses the guide rollers on two sides, so that the cloth body (1) forms a reciprocating and turning-back S-shaped structure;

an upper fan (16) is arranged on the upper frame body (3), a lower fan (17) is arranged on the lower frame body (2), the upper fan (16) is arranged between two adjacent upper guide rollers (4), and the lower fan (17) is arranged between two adjacent lower guide rollers (5).

2. The air oxidation device for improving color fastness of high wear-resistant camouflage cloth according to claim 1, wherein a plurality of upper guide rollers (4) are uniformly arranged at intervals on the lower side of the upper frame body (3), a plurality of lower guide rollers (5) are uniformly arranged at intervals on the upper side of the lower frame body (2), and the upper guide rollers (4) and the lower guide rollers (5) are arranged in a staggered mode.

3. The air oxidation device for improving color fastness of high wear-resistant camouflage cloth according to claim 2, wherein the upper frame body (3) can be controlled by a lifting mechanism to lift and move relative to the lower frame body (2), and the upper guide roller (4) can be inserted into a spacing space of the lower guide roller (5).

4. An air oxidation device for improving color fastness of highly abrasion-resistant camouflage cloth according to claim 3, wherein when the upper frame body (3) descends to the end of stroke, a gap for the cloth body (1) to pass through is formed between the upper edge of the upper guide roller (4) and the lower edge of the lower guide roller (5).

5. The air oxidation device for improving color fastness of high wear-resistant camouflage cloth according to claim 3 or 4, wherein the lifting mechanism comprises a bracket (6), the bracket (6) is vertically and fixedly arranged at four corners of the lower frame body (2), sliding blocks (7) which are in sliding connection with the bracket (6) are arranged at the four corners of the upper frame body (3), and cross beams (8) are arranged at the tops of the brackets (6) at two sides.

6. The air oxidation device for improving color fastness of high-wear-resistant camouflage cloth according to claim 5, wherein the lifting mechanism further comprises a height control mechanism which is arranged on two sides of the support (6) and used for driving the upper frame body (3) to move, the height control mechanism comprises an upper chain wheel (9), a lower chain wheel (10) and a chain (11), the upper chain wheel is rotatably connected to the lower side of the cross beam (8), the lower chain wheel (10) is rotatably connected to the lower frame body (2), the upper chain wheel (9) and the lower chain wheel (10) are sleeved with the chain (11), and the side face of the sliding block (7) is connected with the chain (11).

7. The air oxidation device for improving color fastness of high wear-resistant camouflage cloth according to claim 6, wherein a worm wheel (12) is coaxially and fixedly arranged on the side surface of the lower chain wheel (10), a speed reduction motor (13) is arranged on the lower frame body (2), the output end of the speed reduction motor (13) is connected with a worm (14), and the worm (14) is meshed with the worm wheel (12).

8. The air oxidation device for improving the color fastness of the highly wear-resistant camouflage fabric according to claim 7, wherein the output end of the gear motor (13) is in driving connection with a synchronous shaft (15), two ends of the synchronous shaft (15) are respectively provided with a worm (14), and the two worms (14) at the two ends respectively drive the corresponding two lower chain wheels (10) to rotate.