CN112981824A - Printing and dyeing device and printing and dyeing process for tencel fabric - Google Patents

Abstract

The application relates to a printing and dyeing device and a printing and dyeing process for tencel cloth, and relates to the technical field of cloth printing and dyeing. The printing and dyeing machine comprises a cleaning pool and a printing and dyeing pool, wherein a water return pipe is communicated with the side wall of the cleaning pool, a water return pump is arranged at the joint of the water return pipe and the cleaning pool, a filtering component is arranged in the cleaning pool, the water inlet end of the water return pump extends to the inside of the cleaning pool and is connected with the filtering component, and one end, far away from the cleaning pool, of the water return pipe is communicated with the printing and dyeing pool. During the use, filtering component filters the water that return water pump intake end held, and through return water pump with its water inlet end department filtered the water that finishes in pumping to printing and dyeing pond, can realize the clear water supply in the printing and dyeing pond, only need to supply the water supply that the clear water can realize wasing pond and printing and dyeing pond to the washing pond afterwards, need not all carry out the clear water to wasing pond and printing and dyeing pond and supply with, consequently practiced thrift the use of water resource.

Description

Printing and dyeing device and printing and dyeing process for tencel fabric

Technical Field

The application relates to the field of printing and dyeing of tencel fabrics, in particular to a printing and dyeing device and a printing and dyeing process of tencel fabrics.

Background

The printing and dyeing device for tencel cloth is a special device for printing and dyeing tencel cloth.

In the prior chinese patent publication No. CN108560173A, a printing and dyeing process is disclosed, which comprises a singeing machine, a cloth cleaning device and a dyeing tank, wherein when in use, the grey cloth is singed, then put into the cleaning device for cleaning, and then drained and then put into the dyeing tank for printing and dyeing. And in the printing and dyeing process, the waste water in the dye vat needs to be discharged, and clear water is injected to realize the replacement of the dye liquor in the dye vat.

The related art described above has the following drawbacks: the water in the cleaning equipment needs to be replaced after being used for a long time, and if the water is directly discharged to a sewer pipeline, the waste of water resources is easily caused, so the water is to be improved.

Content of application

In order to solve the problem that water resources are easily wasted when water in cleaning equipment is directly discharged into a sewer pipeline in the replacement process in the related art, the application provides a printing and dyeing device and a printing and dyeing process for tencel cloth.

In a first aspect, the printing and dyeing device for tencel fabric provided by the application adopts the following technical scheme:

the printing and dyeing device for the tencel fabric comprises a cleaning pool and a printing and dyeing pool, wherein a water return pipe is communicated with the side wall of the cleaning pool, a water return pump is arranged at the joint of the water return pipe and the cleaning pool, a filtering component is arranged inside the cleaning pool, the water inlet end of the water return pump extends to the inside of the cleaning pool and is connected with the filtering component, and one end, far away from the cleaning pool, of the water return pipe is communicated with the printing and dyeing pool.

Through adopting above-mentioned technical scheme, during the use, filter assembly filters the water that return water pump intake end, and through return water pump with its water inlet end department filtered the water that finishes in pumping to printing and dyeing pond, can realize the clear water supply in the printing and dyeing pond, only need to supply the water supply that the clear water can realize wasing pond and printing and dyeing pond to wasing the pond after that, need not all carry out the clear water to wasing pond and printing and dyeing pond and supply with, consequently practiced thrift the use of water resource.

Optionally, the side wall of the printing and dyeing pond is communicated with a drain pipe, and heat exchange blocks are arranged in the middle of the drain pipe and the middle of the water return pipe. A backwater heat exchange hole and a drainage heat exchange hole are formed in the water pipe in a penetrating manner, the middle part of the backwater pipe is communicated with the backwater heat exchange hole, and the middle part of the drainage pipe is communicated with the drainage heat exchange hole.

Through adopting above-mentioned technical scheme, supply water, the in-process of drainage, the water temperature in the return pipe is lower, flow to return water heat transfer hole, the water temperature in the drainage pipe is higher, flow to drainage heat transfer hole, this in-process, the water in the return pipe carries out the heat exchange in the heat transfer piece with the water in the drainage pipe, thereby realize the intensification to the water in the return pipe, so that it heaies up, make its temperature be close to the required temperature in the printing and dyeing pond, and can realize the cooling to the water in the drainage pipe, can not scald the pipeline or cause the pipeline to be overheated to warp when making its temperature discharge in the sewer pipe.

Optionally, the inner side wall of the backwater heat exchange hole extends outwards to form a plurality of backwater extension grooves, the inner side wall of the drainage heat exchange hole extends outwards to form a plurality of drainage extension grooves, and the backwater extension grooves and the drainage extension grooves are arranged in a staggered manner.

Through adopting above-mentioned technical scheme, usable return water extending groove and drainage extending groove promote heat transfer area to promote the heat transfer effect.

Optionally, the inside wall of the backwater extending groove extends outwards to form a plurality of backwater extending grooves, the inside wall of the drainage extending groove extends outwards to form a plurality of drainage extending grooves, and the backwater extending grooves and the drainage extending grooves are arranged in a staggered mode.

Through adopting above-mentioned technical scheme, usable return water expands groove and drainage and expands the groove and further promote heat transfer area to further promote the heat transfer effect.

Optionally, the heat exchange block is located at the end opening of the backwater heat exchange hole and the end opening of the drainage heat exchange hole and is fixedly provided with an installation pipe, the end of the backwater pipe and the end of the drainage pipe close to the installation pipe are provided with installation sections, the installation sections are sleeved on the outer side of the installation pipe, and a fastening assembly for limiting the installation sections to slip off the installation pipe is arranged between the installation sections and the installation pipe.

Through adopting above-mentioned technical scheme, during the installation, establish the installation section cover to the installation outside of tubes to realize the locking of installation section and installation pipe through fastening components, can realize the installation, convenient operation and stable in structure.

Optionally, fastening components includes anticreep piece and anticreep ring, anticreep piece fixed connection is at the installation section inside wall, the installation pipe lateral wall is provided with the anticreep hole, anticreep piece adaptation is inserted and is established to the anticreep downthehole, the anticreep ring cover is established in the installation section outside and is located the one end at anticreep piece place.

Through adopting above-mentioned technical scheme, earlier utilize the elastic deformation cover of installation section to establish to the installation outside of tubes to make the anticreep piece insert and establish to the anticreep downthehole, slide the anticreep ring to the one end at anticreep piece place afterwards, the anticreep ring is stereoplasm annular structure, thereby can avoid the installation section installation to finish the back take place deformation, can realize the installation of installation section and installation pipe.

Optionally, the mounting section is sleeved with a lantern ring and is rotatably connected with the mounting section, and a traction rope is connected between the lantern ring and the anti-falling ring.

By adopting the technical scheme, the anti-slip ring is not easy to lose on the premise that the anti-slip ring is rotatable.

Optionally, the filtering component comprises a filtering net box and a filtering sponge, the filtering net box is connected with the inner side wall of the cleaning pool, the filtering sponge is located inside the filtering net box, the side wall of the filtering sponge is provided with a yielding hole, and the water inlet end of the backwater water pump is inserted into the yielding hole in an adaptive manner.

Through adopting above-mentioned technical scheme, can realize return water pump and intake and hold and filtering component's being connected, and stable in structure, the cost is lower.

Optionally, the top of the filter screen box is open and is detachably connected with a cover plate.

Through adopting above-mentioned technical scheme, be convenient for carry out the dismouting to the apron to realize filtering sponge's dismouting.

In a second aspect, the application provides a printing and dyeing process of a printing and dyeing device based on tencel fabric, which adopts the following technical scheme:

a printing and dyeing process of a printing and dyeing device based on tencel cloth is characterized by comprising the following steps:

s1, filtering the water in the cleaning tank through a filtering component;

s2, pumping the water body filtered in the step S1 to the inside of a printing and dyeing pool through a backwater water pump;

and S3, replenishing clear water into the cleaning pool.

Through adopting above-mentioned technical scheme, only need inject into the clear water and can realize wasing the water changing of pond and printing and dyeing pond to wasing the pond, practiced thrift the use of water resource.

In summary, the present application includes at least one of the following benefits:

1. wash pond lateral wall intercommunication and be provided with the wet return, the wet return is provided with the return water pump with the junction of wasing the pond, washs the inside filter assembly that is provided with in pond, and the end of intaking of return water pump extends to wash the pond inside and link to each other with filter assembly, and the wet return is kept away from the one end of wasing the pond and is linked together with the printing and dyeing pond. During the use, filtering component filters the water that return water pump intake end held, and through return water pump with its water inlet end department filtered the water that finishes in pumping to printing and dyeing pond, can realize the clear water supply in the printing and dyeing pond, only need to supply the water supply that the clear water can realize wasing pond and printing and dyeing pond to the washing pond afterwards, need not all carry out the clear water to wasing pond and printing and dyeing pond and supply with, consequently practiced thrift the use of water resource.

2. The printing and dyeing pond lateral wall intercommunication is provided with the drain pipe, and drain pipe middle part and wet return middle part are provided with heat transfer piece, heat transfer piece. A backwater heat exchange hole and a drainage heat exchange hole are arranged in a penetrating way, the middle part of the backwater pipe is communicated with the backwater heat exchange hole, and the middle part of the drainage pipe is communicated with the drainage heat exchange hole. Water supply, the in-process of drainage, the water temperature in the return pipe is lower, flow to return water heat transfer hole, the water temperature in the drain pipe is higher, flow to drainage heat transfer hole, this in-process, the water in the return pipe carries out the heat exchange in the heat transfer piece with the water in the drain pipe, thereby realize the intensification to the water in the return pipe, so that it heaies up, make its temperature be close to the required temperature in the printing and dyeing pond, and can realize the cooling to the water in the drain pipe, can not scald the pipeline or cause the pipeline to be overheated to warp when making its temperature discharge in the sewer pipe.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic structural diagram for showing the connection relationship between the heat exchange block and the mounting section in the embodiment of the present application;

FIG. 3 is a schematic structural diagram for showing a connection relationship between a backwater heat exchange hole and a drainage heat exchange hole in the embodiment of the present application;

FIG. 4 is a schematic structural diagram for showing a connection relationship between a backwater extension tank and a drainage extension tank in the embodiment of the present application;

FIG. 5 is a schematic structural diagram for showing a connection relationship between an installation section and an installation pipe in an embodiment of the present application;

fig. 6 is a schematic structural diagram for showing a connection relationship between the return water pump and the filter assembly in the embodiment of the present application.

In the figure: 1. a cleaning tank; 11. a water return pipe; 110. a backwater heat exchange hole; 12. a backwater water pump; 13. a backwater extension tank; 14. a backwater expanding tank; 2. printing and dyeing a pond; 21. a drain pipe; 210. a water drainage heat exchange hole; 22. a drainage water pump; 23. a drainage extension tank; 24. a drainage expansion tank; 3. a heat exchange block; 31. an installation section; 32. installing a pipe; 4. a fastening assembly; 41. an anti-drop block; 410. anti-drop holes; 42. the anti-drop ring; 43. a collar; 44. a hauling rope; 5. a filter assembly; 51. a filter net cage; 52. filtering the sponge; 520. a hole of abdication; 53. and (7) a cover plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses printing and dyeing device of tencel cloth. Referring to fig. 1, the printing and dyeing device for tencel fabric comprises a cleaning tank 1 and a printing and dyeing tank 2, wherein the cleaning tank 1 and the printing and dyeing tank 2 are hollow and are open at the tops. Wash the lateral wall in pond 1 and be fixed with wet return 11 through the flange, wet return 11's one end with wash 1 inside being linked together in pond, wet return 11 keeps away from the one end of wasing pond 1 and passes through flange fixed connection with 2 lateral walls in dyeing and printing pond. The joint of the return pipe 11 and the cleaning pool 1 is also fixed with a return water pump 12 through bolts, and the cleaning pool 1, the return pipe 11, the return water pump 12 and the printing and dyeing pool 2 are communicated. The side wall of the printing and dyeing pool 2 is also fixed with a drain pipe 21 through a flange, the joint of the drain pipe 21 and the printing and dyeing pool 2 is also fixed with a drain water pump 22 through bolts, and the drain pipe 21, the drain water pump 22 and the printing and dyeing pool 2 are communicated. The middle parts of the water return pipe 11 and the water discharge pipe 21 are provided with the heat exchange block 3, the temperature of the dye liquor used in the printing and dyeing process is higher, and the heat exchange block 3 can exchange heat between the water discharge pipe 21 with higher temperature and the water return pipe 11 with lower temperature.

Referring to fig. 2 and 3, the heat exchange block 3 is provided with a plurality of water return heat exchange holes 110 and a plurality of water drainage heat exchange holes 210 in a penetrating manner, the plurality of water return heat exchange holes 110 and the plurality of water drainage heat exchange holes 210 are arranged in a staggered manner, and a plurality of installation sections 31 are arranged at one ends of the water return pipes 11 and the water drainage pipes 21 close to the heat exchange block 3 in a communicating manner. The water return pipe 11 is respectively communicated with the corresponding water return heat exchange holes 110 through the installation sections 31 connected with the water return pipe, and the water discharge pipe 21 is respectively communicated with the corresponding water discharge heat exchange holes 210 through the installation sections 31 connected with the water return pipe.

Referring to fig. 4, the inner side wall of the backwater heat exchanging hole 110 extends outwards to form a plurality of backwater extension grooves 13, and the inner side wall of the backwater extension groove 13 extends outwards to form a plurality of backwater expansion grooves 14. The inner side walls of the drainage heat exchange holes 210 extend outwards to form a plurality of drainage extension grooves 23, and the inner side walls of the drainage extension grooves 23 extend outwards to form a plurality of drainage expansion grooves 24. The backwater extension grooves 13 and the drainage extension grooves 23 are arranged in a staggered mode to increase the heat exchange area, and therefore the heat exchange effect is improved. The backwater expanding grooves 14 and the drainage expanding grooves 24 are arranged in a staggered mode to further increase the heat exchange area, and therefore the heat exchange effect is further improved.

Referring to fig. 5, the heat exchange block 3 is integrally formed with mounting pipes 32 at the end openings of the water return heat exchange hole 110 and the water drainage heat exchange hole 210, and the mounting sections 31 are sleeved on the outer sides of the corresponding mounting pipes 32. A fastening assembly 4 is connected between the mounting section 31 and the mounting tube 32 for limiting the mounting section 31 from sliding off the mounting tube 32 by itself.

Referring to fig. 5, fastening component 4 includes anticreep piece 41 and anticreep ring 42, and anticreep piece 41 is located installing section 31 inside wall and with installing section 31 inner wall integrated into one piece, and anticreep hole 410 has been seted up to the installation pipe 32 lateral wall, and anticreep piece 41 adaptation is inserted and is established to anticreep downthehole 410. The anti-slip ring 42 is threaded on the outer side of the mounting section 31, and the anti-slip ring 42 is located at one end where the anti-slip block 41 is located. The outside of installation section 31 still overlaps and is equipped with the lantern ring 43, and lantern ring 43 rotates with installation section 31 to be connected, still has haulage rope 44 through adhesive fixation between lantern ring 43 and the anticreep ring 42 to satisfy anticreep ring 42 rotatable avoid anticreep ring 42 to lose simultaneously.

Referring to fig. 6, the filtering assembly 5 includes a filtering net cage 51 and a filtering sponge 52, the side wall of the filtering net cage 51 is welded and fixed with the inner side of the cleaning pool 1, the filtering sponge 52 is located inside the filtering net cage 51, and the top opening of the filtering net cage 51 is detachably connected with a cover plate 53 through bolts, so as to replace the filtering sponge 52. One end of the filtering sponge 52 close to the backwater water pump 12 is provided with a yielding hole 520, and the water inlet end of the backwater water pump 12 penetrates through the side wall of the cleaning pool 1 and is inserted into the yielding hole 520 in an adaptive manner, so that the water body sucked into the backwater water pump 12 can be filtered.

The implementation principle of the printing and dyeing device for tencel fabric in the embodiment of the application is as follows: during the use, filter sponge 52 and intake the water of end to return water pump 12 and filter, through return water pump 12 with its water inlet department filtered the water pump that finishes deliver to printing and dyeing pond 2 in, through the waste water discharge of drainage water pump 22 in with printing and dyeing pond 2, can realize the clear water replenishment in the printing and dyeing pond 2, only need afterwards to realize the water supply of wasing pond 1 and printing and dyeing pond 2 to replenishing the clear water in wasing pond 1, need not all to carry out the clear water supply to wasing pond 1 and printing and dyeing pond 2, consequently, the use of water resource has been practiced thrift.

In addition, in the water supply and drainage process, the temperature of the water in the water return pipe 11 is low, the water flows to the water return heat exchange hole 110, the water return extension tank 13 and the water return expansion tank 14, the temperature of the water in the water discharge pipe 21 is high, and the water flows to the water discharge heat exchange hole 210, the water discharge extension tank 23 and the water discharge expansion tank 24.

The embodiment of the application also discloses a printing and dyeing process of the printing and dyeing device based on the tencel fabric. A printing and dyeing process of a printing and dyeing device based on tencel cloth comprises the following steps:

s1, filtering the water in the cleaning pool 1 through the filtering component 5;

s2, pumping the water body filtered in the step S1 into the printing and dyeing pond 2 through a backwater water pump 12;

s3, supplementing clear water into the cleaning pool 1.

The implementation principle of the printing and dyeing process of the printing and dyeing device based on the tencel fabric in the embodiment of the application is as follows: only the cleaning tank 1 needs to be filled with clean water, so that water exchange of the cleaning tank 1 and the printing and dyeing tank 2 can be realized, and the use of water resources is saved.

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 (10)

1. The utility model provides a printing and dyeing device of tencel cloth, is including wasing pond (1) and printing and dyeing pond (2), its characterized in that: wash pond (1) lateral wall intercommunication and be provided with wet return (11), wet return (11) are provided with return water pump (12) with the junction of wasing pond (1), wash pond (1) inside and be provided with filtering component (5), the end of intaking of return water pump (12) extends to wash pond (1) inside and links to each other with filtering component (5), wet return (11) are kept away from the one end of wasing pond (1) and are linked together with printing and dyeing pond (2).

2. The tencel fabric printing apparatus according to claim 1, wherein: the printing and dyeing tank is characterized in that a drain pipe (21) is communicated with the side wall of the printing and dyeing tank (2), heat exchange blocks (3) are arranged in the middle of the drain pipe (21) and the middle of the water return pipe (11), a water return heat exchange hole (110) and a water drainage heat exchange hole (210) are formed in the heat exchange blocks (3) in a penetrating mode, the middle of the water return pipe (11) is communicated with the water return heat exchange hole (110), and the middle of the drain pipe (21) is communicated with the water drainage heat exchange hole (210).

3. The tencel fabric printing apparatus according to claim 2, wherein: the inside wall of the backwater heat exchange hole (110) extends outwards to form a plurality of backwater extension grooves (13), the inside wall of the drainage heat exchange hole (210) extends outwards to form a plurality of drainage extension grooves (23), and the backwater extension grooves (13) and the drainage extension grooves (23) are arranged in a staggered mode.

4. The tencel fabric printing apparatus according to claim 3, wherein: the backwater extension tank (13) inside wall extends outward and is provided with a plurality of backwater expansion tanks (14), the drainage extension tank (23) inside wall extends outward and is provided with a plurality of drainage expansion tanks (24), and the backwater expansion tanks (14) and the drainage expansion tanks (24) are arranged in a staggered mode.

5. The tencel fabric printing apparatus according to claim 2, wherein: the heat exchange block (3) is located the tip opening part of return water heat transfer hole (110) and drainage heat transfer hole (210) and all fixedly is provided with installation pipe (32), return water pipe (11) and drain pipe (21) are close to the one end of installation pipe (32) and all are provided with installation section (31), installation section (31) cover is established in the installation pipe (32) outside, be provided with between installation section (31) and installation pipe (32) and be used for restricting fastening components (4) of installation section (31) slippage installation pipe (32).

6. The tencel fabric printing apparatus according to claim 5, wherein: fastening components (4) include anticreep piece (41) and anticreep ring (42), anticreep piece (41) fixed connection is in installation section (31) inside wall, installation pipe (32) lateral wall is provided with anticreep hole (410), anticreep piece (41) adaptation is inserted and is established to anticreep hole (410) in, anticreep ring (42) cover is established in the one end in installation section (31) outside and be located anticreep piece (41) place.

7. The tencel fabric printing apparatus according to claim 6, wherein: the outer side of the mounting section (31) is sleeved and rotatably connected with a lantern ring (43), and a traction rope (44) is connected between the lantern ring (43) and the anti-falling ring (42).

8. The tencel fabric printing apparatus according to claim 1, wherein: the filter assembly (5) comprises a filter net box (51) and a filter sponge (52), the filter net box (51) is connected with the inner side wall of the cleaning pool (1), the filter sponge (52) is located inside the filter net box (51), the side wall of the filter sponge (52) is provided with a yielding hole (520), and the water inlet end of the return water pump (12) is inserted into the yielding hole (520).

9. The tencel fabric printing apparatus according to claim 8, wherein: the top of the filtering net box (51) is open and is detachably connected with a cover plate (53).

10. A printing process of a printing apparatus based on the tencel cloth according to any one of claims 1 to 9, comprising the steps of:

s1, filtering the water body in the cleaning pool (1) through the filtering component (5);

s2, pumping the water body filtered in the step S1 into the printing and dyeing tank (2) through a backwater water pump (12);

s3, supplementing clear water into the cleaning pool (1).

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