CN214496751U - Overflow dyeing machine - Google Patents

Abstract

The utility model relates to an overflow dyeing machine, including overflow dyeing machine main part, be provided with the opening that is used for into cloth or goes out cloth in the overflow dyeing machine main part, be provided with the support on the opening, be provided with two bracing pieces on the support symmetrically, be provided with crowded water subassembly between two bracing pieces, still be provided with the water receiving tank on the bracing piece, the water receiving tank is located crowded water subassembly under, is provided with the lock water roller on the edge of water receiving tank length direction. The application has the following effects: according to the dye liquor squeezing device, the water receiving groove is formed in the support and is located right below the water squeezing assembly, dye liquor is squeezed out after cloth passes through the water squeezing assembly, and a part of dye liquor is received by the water receiving groove; a part of dye liquor flows along the cloth, a water locking roller is arranged on the edge of the water receiving tank in the length direction, the cloth is abutted to the water locking roller when being output, the dye liquor flowing along the cloth is blocked by the water locking roller, the collection amount of the dye liquor by the water receiving tank is increased, the collected dye liquor is dyed again and utilized, and the using amount of water in the cloth dyeing process is reduced.

Description

Overflow dyeing machine

Technical Field

The application relates to the field of cloth production technology, in particular to an overflow dyeing machine.

Background

The overflow dyeing machine is mainly used for the fore-and-aft treatment and dyeing of various knitted grey fabrics such as pure cotton, pure polyester, polyester cotton, spandex and the like, and can also be used for the processing of main refining, bleaching, preshrinking and the like of fabrics.

In the related art, in order to facilitate the cloth to be taken out from the inside of the dyeing agent, the overflow dyeing machine is generally provided with a pulley or a roller at an outlet, and the cloth is outwardly output through the pulley.

In view of the above-mentioned related technologies, the inventor believes that, in the dyeing process, the cloth absorbs more dye liquor, and in the process of outputting the dye liquor outwards, the dye liquor is extruded out due to the extrusion with the pulley or the roller and directly sprinkles on the ground, so that the bottom surface of a production workshop is polluted, and the dye liquor is wasted.

SUMMERY OF THE UTILITY MODEL

In order to reduce overflow dyeing machine dye liquor waste, the application provides an overflow dyeing machine.

The application provides an overflow dyeing machine adopts following technical scheme:

the utility model provides an overflow dyeing machine, includes overflow dyeing machine main part, be provided with the opening that is used for into cloth or go out cloth in the overflow dyeing machine main part, be provided with the support on the opening, be provided with two bracing pieces on the support symmetrically, two be provided with crowded water subassembly between the bracing piece, still be provided with the water receiving tank on the bracing piece, the water receiving tank is located under the crowded water subassembly, be provided with the lock water roller on the edge of water receiving tank length direction.

By adopting the technical scheme, the water receiving tank is arranged on the support and is positioned right below the water squeezing assembly, the dye liquor is squeezed and flows out after the cloth passes through the water squeezing assembly, and a part of the dye liquor is received by the water receiving tank; a part of dye liquor flows along the cloth, and the water locking roller is arranged on the edge of the length direction of the water receiving tank, so that the cloth is abutted to the water locking roller when being output, the dye liquor flowing along the cloth is blocked by the water locking roller, the collection amount of the water receiving tank to the dye liquor is increased, the collected dye liquor is dyed again and utilized, and the using amount of water in the cloth dyeing process is reduced.

Through adopting above-mentioned technical scheme, crowded water subassembly is including setting up in two first crowded water roller and second crowded water roller between the bracing piece, first crowded water roller with form crowded water space between the second crowded water roller.

By adopting the technical scheme, the cloth passes through the wringing space between the first wringing roller and the second wringing roller, so that the dye liquor content in the cloth is reduced, on one hand, the wringing process is completed in the cloth output process, and the cloth production efficiency is improved;

on the other hand, the dye liquor is extruded, the whole weight of the cloth is reduced, and the labor is saved in the subsequent cloth processing and transporting process.

Optionally, the first wringing roller and the second wringing roller are provided with motors in the axial direction.

Through adopting above-mentioned technical scheme, under the drive of motor, first wringing roller improves the ponding efficiency to the cloth with second wringing roller, improves cloth production overall efficiency.

Optionally, the water locking roller is arranged on the edge, close to the opening, of the water receiving groove in the length direction, and the water locking roller is used for abutting against the cloth input into the water squeezing assembly.

Through adopting above-mentioned technical scheme, at cloth output in-process, the cloth is after crowded water of crowded water subassembly, and the dye liquor trickles downwards along the cloth, and the water absorption performance of cloth is certain, under the condition that more dye liquor flows downwards along the cloth, can cause the cloth to be not enough to absorb the dye liquor and drip subaerial, because the lock water roller is inconsistent with the cloth, the dye liquor of the downflow on the lock water roller is with the cloth keeps apart to collect in the water receiving tank.

Optionally, the water receiving tank is close to be provided with two otic placodes on the open-ended edge both ends, two be provided with between the otic placode the water locking roller, the water receiving tank is close to be provided with the elasticity scraper blade on the open-ended edge, the elasticity scraper blade with the water locking roller is inconsistent.

Through adopting above-mentioned technical scheme, the lock water roller still is used for reducing the friction between cloth and the water receiving tank edge, improves the protection effect to the cloth, simultaneously, is provided with the elastic scraper blade inconsistent with the lock water roller on the water receiving tank for dye liquor on the separation lock water roller is rotated by the lock water roller and is thrown away, improves the collection rate to the dye liquor, has reduced the quantity at cloth dyeing in-process normal water.

Optionally, a water outlet is formed in one end of the bottom of the water receiving tank, a return pipe is arranged on the water outlet and connected to the inside of the overflow dyeing machine main body.

By adopting the technical scheme, the collected dye liquor flows back to the inside of the main body of the overflow dyeing machine through the return pipe, so that the possibility of water evaporation caused by the fact that the dye liquor is retained in the receiving groove is reduced.

Optionally, a guide surface is provided on the bottom surface of the water receiving tank, and the height of the guide surface gradually decreases from the end far away from the water outlet to the end close to the water outlet.

By adopting the technical scheme, the guide surface is used for guiding the collected dye liquor to enter the water outlet, and the recovery of the dye liquor is improved.

Optionally, a filter assembly is disposed on the water outlet.

Through adopting above-mentioned technical scheme, filtering component is arranged in the impurity of filtering in the dye liquor that the filtering was collected, improves the purity in the backward flow dye liquor to improve the dyeing effect of cloth.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the dye liquor squeezing device, the water receiving groove is formed in the support and is located right below the water squeezing assembly, dye liquor is squeezed to flow out after cloth passes through the water squeezing assembly, and a part of dye liquor is received by the water receiving groove; a part of dye liquor flows along the cloth, and the water locking roller is arranged on the edge of the length direction of the water receiving tank, so that the cloth is abutted to the water locking roller when being output, the dye liquor flowing along the cloth is blocked by the water locking roller, the collection amount of the water receiving tank to the dye liquor is increased, the collected dye liquor is dyed again and utilized, and the using amount of water in the cloth dyeing process is reduced.

2. The cloth passes through a wringing space between the first wringing roller and the second wringing roller, so that the dye liquor content in the cloth is reduced, on one hand, the wringing process is completed in the cloth output process, and the cloth production efficiency is improved;

on the other hand, the dye liquor is extruded, the whole weight of the cloth is reduced, and the labor is saved in the subsequent cloth processing and transporting process.

3. In the cloth output process, the cloth is after crowded water of crowded water subassembly, and the dye liquor trickles downwards along the cloth, and the water absorption performance of cloth is certain, and under the condition that more dye liquor flows downwards along the cloth, can cause the cloth to be not enough to absorb the dye liquor and drip subaerial, because the lock water roller is inconsistent with the cloth, the dye liquor of the underflow on the lock water roller with the cloth keeps apart to collect in the water receiving tank.

Drawings

Fig. 1 is a schematic view of an overflow dyeing machine as described herein.

Fig. 2 is a schematic view of a wringing assembly of an overflow dyeing machine as described herein.

Fig. 3 is a schematic view of a water lock roller of the overflow dyeing machine described herein.

Fig. 4 is a cross-sectional view of a water receiving tank of the overflow dyeing machine described herein.

Fig. 5 is a schematic diagram of the overflow dyeing machine of the present application.

Description of reference numerals: 100. a main body of an overflow dyeing machine; 101. an opening; 102. a support; 103. a support bar; 200. a wringing component; 201. a first wringing roller; 202. a second wringing roller; 203. a water squeezing space; 204. a motor; 300. a water receiving tank; 301. an ear plate; 302. a water locking roller; 303. an elastic scraper; 304. a guide surface; 305. a water outlet; 306. a filter screen; 307. a return pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses overflow dyeing machine.

As shown in fig. 1, an overflow dyeing machine includes an overflow dyeing machine main body 100, an opening 101 on the overflow dyeing machine main body 100, a cloth entering into the overflow dyeing machine through the opening 101 for dyeing, and then being output through the opening 101 after dyeing, a support 102 disposed above the opening 101, two support rods 103 disposed on the support 102 in parallel, a wringing assembly 200 disposed between the support rods 103, a water receiving tank 300 disposed under the wringing assembly 200, and the water receiving tank 300 also disposed between the two support rods 103.

As shown in fig. 2, the wringing component 200 includes a first wringing roller 201 and a second wringing roller 202 which are arranged between the two support rods 103, the first wringing roller 201 and the second wringing roller 202 are parallel to each other, a wringing space 203 for squeezing cloth is formed between the first wringing roller 201 and the second wringing roller 202, motors 204 are arranged on the first wringing roller 201 and the second wringing roller 202 in the axial direction, and the rotation directions of the two motors 204 are opposite to each other, so that the cloth is driven to pass through the wringing space 203, and meanwhile, the wringing and conveying efficiency can be improved by matching with manual pulling of the cloth.

As shown in fig. 3, the water receiving tank 300 is disposed between the two support rods 103, and two end surfaces of the water receiving tank 300 are fixed to the two support rods 103 by screws, respectively. Two ends of the edge of the water receiving tank 300 close to the opening 101 are respectively provided with an ear plate 301, a water locking roller 302 is erected between the ear plates 301, and the rotating shafts of the water locking roller 302 are respectively connected between the two ear plates 301 in a rotating manner, so that the water locking roller 302 can rotate around the shaft between the two ear plates 301. The position of the water locking roller 302 is higher than a straight line formed by the opening 101 to the wringing space 203, so that when the cloth is output from the opening 101 and enters the wringing space 203, the cloth is abutted against the water locking roller 302.

The elastic scraping plates 303 which are rectangular are arranged at the edges of the water receiving tank 300 and the water locking roller 302, the length of each elastic scraping plate 303 is the same as that of the water locking roller 302, one long edge of each elastic scraping plate 303 is fixed on the edge, close to the opening 101, of the water receiving tank 300, the other long edge of each elastic scraping plate 303 is abutted to the water locking roller 302, so that when the water locking roller 302 rotates, dye liquor on the water locking roller 302 is scraped by the elastic scraping plates 303 and flows into the water receiving tank 300 along the elastic scraping plates 303.

As shown in fig. 1 and 4, a drain port 305 is provided at the bottom of the water receiving tank 300, a filter element, which is a filter screen 306 provided at the drain port 305, is provided at the drain port 305, the drain port 305 is provided at one end of the bottom of the water receiving tank 300, a return pipe 307 is provided at the drain port 305, and the return pipe 307 is connected to the inside of the overflow dyeing machine main body 100.

A guide surface 304 is provided on the bottom of the water receiving tank 300, the guide surface 304 guides the dye solution into the drain port 305, the guide surface 304 is disposed to be inclined, and the height of the guide surface 304 gradually decreases from the end away from the drain port 305 to the end close to the drain port 305, so that the dye solution squeezed out by the squeezing unit 200 flows back into the drain port 305 through the guide surface 304.

The implementation principle of the overflow dyeing machine in the embodiment of the application is as follows:

as shown in fig. 5, the direction of the solid arrow is the cloth conveying direction, and the direction of the hollow arrow is the dye liquor flowing direction; after the cloth is dyed by the overflow dyeing machine main body 100, the cloth is output from the opening 101, the cloth reaches the wringing component 200, the cloth is squeezed by the first wringing roller 201 and the second wringing roller 202, the dye liquor in the cloth is squeezed out, a part of the dye liquor directly reaches the water receiving tank 300 right below the wringing component 200 due to the action of gravity, a part of the dye liquor flows downwards along the input cloth, the input cloth is abutted against the water locking roller 302, the dye liquor flowing downwards along the cloth is blocked by the water locking roller 302 and rotates along with the water locking roller 302, then the dye liquor is scraped by the elastic scraper blade 303, and the dye liquor flows into the water receiving tank 300 along the scraper blade.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An overflow dyeing machine characterized in that: including overflow dyeing machine main part (100), be provided with opening (101) that are used for advancing cloth or go out cloth on overflow dyeing machine main part (100), be provided with support (102) on opening (101), be provided with two bracing pieces (103) on support (102) symmetrically, two be provided with crowded water subassembly (200) between bracing piece (103), still be provided with water receiving tank (300) on bracing piece (103), water receiving tank (300) are located under crowded water subassembly (200), be provided with on the edge of water receiving tank (300) length direction and lock water roller (302).

2. An overflow dyeing machine, according to claim 1, characterized in that: the wringing component (200) comprises a first wringing roller (201) and a second wringing roller (202) which are arranged between the two supporting rods (103), and a wringing space (203) is formed between the first wringing roller (201) and the second wringing roller (202).

3. An overflow dyeing machine, according to claim 2, characterized in that: and motors (204) are arranged on the first wringing roller (201) and the second wringing roller (202) in the axial direction.

4. An overflow dyeing machine, according to claim 1, characterized in that: the edge, close to the opening (101), of the water receiving groove (300) in the length direction is provided with the water locking roller (302), and the water locking roller (302) is used for abutting against cloth input into the water squeezing assembly (200).

5. An overflow dyeing machine, according to claim 4, characterized in that: the water receiving tank (300) is close to be provided with two otic placodes (301) on the edge both ends of opening (101), two be provided with between otic placode (301) lock water roller (302), water receiving tank (300) is close to be provided with elasticity scraper blade (303) on the edge of opening (101), elasticity scraper blade (303) with lock water roller (302) are inconsistent.

6. An overflow dyeing machine, according to claim 1, characterized in that: a water outlet (305) is formed in one end of the bottom of the water receiving tank (300), a return pipe (307) is arranged on the water outlet (305), and the return pipe (307) is connected into the overflow dyeing machine main body (100).

7. An overflow dyeing machine, according to claim 6, characterized in that: a guide surface (304) is arranged on the bottom surface of the water receiving tank (300), and the height of the guide surface (304) gradually decreases from one end far away from the water discharge opening (305) to one end close to the water discharge opening (305).

8. An overflow dyeing machine, according to claim 6, characterized in that: a filter component is arranged on the water outlet (305).

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