CN210002076U - cloth dyeing machine with double independent cloth lifting wheels, nozzle seat and cloth storage tank - Google Patents

Abstract

double-independent cloth lifting wheel of a bucket body, a nozzle seat and a cloth storage groove, belongs to the technical field of fabric heat treatment devices, and comprises the bucket body, cloth guide pipes, cloth lifting wheels, the nozzle seat and the cloth storage grooves, wherein at least 2 cloth storage grooves are arranged in the bucket body, adjacent cloth storage grooves are separated by a middle partition plate, the number of the cloth guide pipes is the same as that of the cloth storage grooves, the cloth guide pipes are arranged at the front end of the bucket body and communicated with the corresponding cloth storage grooves, the other ends of the cloth guide pipes are arranged at the rear end of the bucket body and communicated with the corresponding cloth storage grooves, the cloth lifting wheels are arranged at the front end of the bucket body, the nozzle seat is arranged on the cloth guide pipes and positioned below the cloth lifting wheels, and a cloth storage plate is arranged in the bucket body.

Description

cloth dyeing machine with double independent cloth lifting wheels, nozzle seat and cloth storage tank

Technical Field

The utility model belongs to the technical field of fabric heat treatment device, concretely relates to is ladle body two stand alone types carry cloth wheel, nozzle holder, store up the cloth dyeing machine in cloth groove.

Background

The existing cloth dyeing machine is a single-barrel single-cloth pipe, the interior of the cloth dyeing machine is of a landslide type cloth storage groove structure, the occupied area required by a double-barrel machine type of the structure is large, a large amount of water is also required in the operation process, the bath ratio is relatively large, and when a large number of pieces of cloth are stacked and moved in the structure, the force of extruding the cloth to the bottommost part in the single cloth storage groove is large, the operation of the piece of cloth is influenced, and wrinkles are generated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and shortcomings mentioned above, and provides a cloth dyeing machine with a double-independent cloth lifting wheel, a nozzle seat and a cloth storage groove.

The utility model discloses realize the technical scheme that its purpose adopted as follows.

A cloth dyeing machine with a double-independent cloth lifting wheel, a nozzle seat and cloth storage grooves on a barrel body comprises the barrel body, cloth guide pipes, cloth lifting wheels, a nozzle seat and the cloth storage grooves, wherein at least 2 cloth storage grooves are formed in the barrel body, adjacent cloth storage grooves are separated by a middle partition plate, the number of the cloth guide pipes is the same as that of the cloth storage grooves, the end of each cloth guide pipe is installed at the front end of the barrel body and communicated with the corresponding cloth storage groove, the end of each cloth guide pipe is installed at the rear end of the barrel body and communicated with the corresponding cloth storage groove, the cloth lifting wheels are installed at the front end of the barrel body, the nozzle seat is installed on each cloth guide pipe and located below the cloth lifting wheels, a cloth storage plate is arranged in the barrel body and arranged at the bottom of the inner wall of the barrel body, the cloth storage plate is provided with meshes, the cloth storage grooves are defined by the cloth storage plates, the middle partition plates and the inner wall of the barrel body, and the cloth storage grooves and the cloth guide.

2 cloth storage grooves are formed; the number of the cloth guide pipes is 2; the cloth guide pipe on the left side is communicated with the cloth storage groove on the left side; the cloth guide pipe on the right side is communicated with the cloth storage groove on the right side.

The bottom of the middle partition board is fixedly arranged in the middle of the cloth storage board; the top of the middle partition plate is fixedly arranged at the bottom of the spray pipe; the top of the spray pipe is fixedly arranged at the bottom of the upper partition plate, and the spray pipes are distributed along the axial direction of the barrel body; the top of the upper partition plate is fixedly arranged at the top of the inner wall of the barrel body.

Two rows of sprinkling holes which are respectively arranged at the left and the right of the upper middle partition plate are arranged at the upper part of the sprinkling pipe; the spray pipe is a round pipe without a welding seam in the axial direction.

the dyeing machine comprises a dye liquor inlet, a dye liquor outlet, a medium inlet, a medium outlet and a steam outlet, wherein the dye liquor inlet, the medium outlet and the steam outlet are located on the side of the heat exchanger, the dye liquor outlet and the medium inlet are located on the other side of the heat exchanger, the steam outlet is arranged on the top of the heat exchanger, the fifth connecting pipe end is connected to the bottom of the barrel body, the other end is connected to the dye liquor inlet, the fifth connecting pipe is provided with a main pump, the third connecting pipe end is connected to the dye liquor outlet, the other 6 end is connected to the nozzle seat at the inlet of the cloth guide pipe, the third connecting pipe is provided with a third control valve, the fourth connecting pipe end is connected to a three-way valve, the other end is connected to the fifth connecting pipe, the three-way valve pipe is connected to the medium inlet, the third connecting pipe 364 end is connected to the nozzle seat at the inlet of the cloth guide pipe, the third connecting pipe is provided with a third control valve, the seventh connecting pipe is provided with a third control valve, the third connecting pipe is provided with a third control valve, the fifth connecting pipe is provided with the medium valve, the third connecting pipe 366325 end is provided with a third control valve, the connecting pipe is provided with the fifth connecting pipe, the third control valve, the seventh connecting pipe is provided with the fifth connecting pipe.

The tail end of the fourth connecting pipe is inserted into the fifth connecting pipe and extends along the flowing direction of dye liquor in the fifth connecting pipe, th holes are formed in the tail end of the fourth connecting pipe positioned in the fifth connecting pipe at intervals, a sleeve is sleeved outside the tail end of the fourth connecting pipe in the fifth connecting pipe, the left end of the sleeve is connected with the fourth connecting pipe, an opening is formed in the right end of the sleeve, and second holes are formed in the sleeve at intervals.

The aperture of the second hole is larger than that of the th hole.

The device designs cloth storage spaces of the original single barrel body into a space consisting of two groove-shaped cloth storage tanks, and the single cloth guide pipe also comprises two independent cloth guide pipes, so that the original double-barrel body type can be changed into a single-barrel body double-cloth pipe, the cloth storage space and the cloth containing quantity in the single barrel body are greatly improved while the occupied space is saved, and the cloth is distributed in the two independent cloth storage spaces, so that the squeezing pressure degree of the cloth in the movement of the single cloth storage tank is dispersed, the cloth is prevented from being excessively squeezed to generate large-area wrinkles, and the cloth dyeing quality is greatly improved while the lower bath ratio is achieved.

Drawings

FIG. 1 is a schematic view of the structure of the apparatus;

FIG. 2 is a cross-sectional view taken along the plane A-A in FIG. 1 (the arrows indicate the direction of water flow for cleaning);

FIG. 3 is a schematic view of the internal structure of the barrel of the device;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

FIG. 5 is a top view of the present device;

FIG. 6 is a top view of a conventional apparatus;

in the figure, a barrel body 1, a cloth guide pipe 2, a heat exchanger 3, a dye liquor inlet 3a, a dye liquor outlet 3b, a medium inlet 3c, a medium outlet 3d, a steam outlet 3e, a main pump 4, a th connecting pipe 5, a th control valve 5a, a second connecting pipe 6, a second control valve 6a, a third connecting pipe 7, a third control valve 7a, a fourth connecting pipe 8, a three-way valve 8a, a th hole 8b, a sleeve 8c, a second hole 8d, a fifth connecting pipe 9, a sixth connecting pipe 10, a sixth control valve 10a, a seventh connecting pipe 11, a seventh control valve 11a, a cloth lifting wheel 12, a nozzle seat 13, a cloth storage tank 14, a middle partition plate 15, a cloth storage plate 16, an upper partition plate 17, a spraying pipe 18 and a sprinkling hole 19.

Detailed Description

The present invention will be described in further detail in with reference to the accompanying drawings.

As shown in figures 1 and 2, the cloth dyeing machine with double independent cloth lifting wheels, nozzle holders and cloth storage grooves comprises a bucket body 1, cloth guide pipes 2, cloth lifting wheels 12, nozzle holders 13 and cloth storage grooves 14, wherein at least 2 cloth storage grooves 14 are arranged inside the bucket body 1, adjacent cloth storage grooves 14 are separated by middle partition plates 15, the number of the cloth guide pipes 2 is the same as that of the cloth storage grooves 14, the ends of the cloth guide pipes 2 are arranged at the front end of the bucket body 1 and communicated with the corresponding cloth storage grooves 14, the ends of the cloth guide pipes 2 are arranged at the rear end of the bucket body 1 and communicated with the corresponding cloth storage grooves 14, the cloth lifting wheels 12 are arranged at the front end of the bucket body 1, and the nozzle holders 13 are arranged on the cloth guide pipes 2 and are located below the cloth lifting wheels 12.

Preferably, 2 cloth storage grooves 14 are provided, 2 cloth guide pipes 2 are provided, the left cloth guide pipe 2 is communicated with the left cloth storage groove 14, the right cloth guide pipe 2 is communicated with the right cloth storage groove 14, at the moment, the cloth lifting wheel 12, the nozzle seat 13 and the cloth storage groove 14 on the same side are sleeve barrel internal operation devices, the technical scheme is that barrel bodies are correspondingly provided with 2 sleeve barrel internal operation devices, and the two sets of operation devices are mutually independent.

As shown in figure 1, the cloth dyeing machine is a down-going cloth dyeing machine, cloth enters a cloth guide pipe 2 from a cloth lifting wheel 12 at the head of a barrel body 1, reaches the tail of the barrel body 1 under the action of a nozzle seat 13, enters a cloth storage groove 14 of the barrel body 1 for dyeing, and then enters the cloth guide pipe 2 from the head of the barrel body 1, so that dyeing cycles are completed.

The device designs cloth storage spaces of the original single barrel body into a space consisting of two groove-shaped cloth storage tanks, and the single cloth guide pipe also comprises two independent cloth guide pipes, so that the original double-barrel body type can be changed into a single-barrel body double-cloth pipe, the cloth storage space and the cloth containing quantity in the single barrel body are greatly improved while the occupied space is saved, and the cloth is distributed in the two independent cloth storage spaces, so that the squeezing pressure degree of the cloth in the movement of the single cloth storage tank is dispersed, the cloth is prevented from being excessively squeezed to generate large-area wrinkles, and the cloth dyeing quality is greatly improved while the lower bath ratio is achieved.

As shown in fig. 2 and 3, the cloth storage plate 16, the middle partition plate 15 and the inner wall of the barrel 1 enclose a cloth storage groove 14. The cloth storage tank 14 and the cloth guide tube 2 form a cloth circulation path.

, arranging a cloth storage plate 16 in the barrel body 1, wherein the cloth storage plate 16 is erected at the bottom of the inner wall of the barrel body 1, preferably, the cloth storage plate 16 is provided with meshes for leaking dye liquor, and two sides of the cloth storage plate 16 are inclined upwards to guide cloth.

The bottom of the middle partition plate 15 is fixedly arranged in the middle of the cloth storage plate 16, step is carried out, the top of the middle partition plate 15 is fixedly arranged at the bottom of the spray pipe 18, the top of the spray pipe 18 is fixedly arranged at the bottom of the upper partition plate 17, the spray pipe 18 is arranged along the axial direction of the barrel body 1, and the top of the upper partition plate 17 is fixedly arranged at the top of the inner wall of the barrel body 1.

Two rows of water spraying holes 19 which are respectively arranged at the left and the right of the upper middle clapboard 15 are arranged at the upper part of the spraying pipe 18. When the water flows into the shower pipe 18, the water flows are sprayed obliquely upward from the spray holes 19. When contacting the inner wall of the barrel body 1, the water flows down along the inner wall, and the function of cleaning the inner wall is achieved.

The structure divides the barrel body 1 into two independent cloth dyeing spaces by using the middle partition plate 15 at the upper part and the lower part of the spray pipe 18, and avoids the phenomenon that when dye liquor in dyeing channels flees into another dyeing channels, the cloth is brought into the dyeing channels together, and the phenomenon of cylinder fleeing occurs.

The spray pipe 18 is a round pipe without a welding seam in the axial direction, the problem of the welding seam possibly existing in a welding plate is solved by the aid of the sealing performance of the round pipe, and the risk of cracking of the welding seam when water pressure is too high is prevented.

If the spray pipe is formed by the welding plates, the spray pipe has high-pressure water flow, the service time is long, and the welding plates are easy to crack at welding seams.

This structure, simultaneously, this structure adopts the structure of shower 18 and last baffle 17 for the installation of part is also very convenient, goes up baffle 17, shower 18, median septum 15 and does not require completely between two parties, can have definite error, goes up baffle 17 or median septum 15 promptly and can have definite inclination, is convenient for at the above-mentioned part of ladle body 1 inside weld.

This device adopts totally enclosed median septum structure, and is isolated into two independent dye passages with the ladle body completely, solves original median septum structure and has the problem of space above the shower, avoids scurrying the production of jar phenomenon.

As shown in fig. 1, the apparatus further includes a heat exchanger 3, a main pump 4, a -th connection pipe 5, a second connection pipe 6, a third connection pipe 7, a fourth connection pipe 8, a fifth connection pipe 9, a sixth connection pipe 10, and a seventh connection pipe 11.

The cloth guide pipe 2 is positioned below the barrel body 1, the end of the cloth guide pipe is connected with the head part of the barrel body 1, and the end of the cloth guide pipe is connected with the tail part of the barrel body 1.

The heat exchanger 3 comprises a dye liquor inlet 3a, a dye liquor outlet 3b, a medium inlet 3c, a medium outlet 3d and a steam outlet 3e, wherein the dye liquor inlet 3a, the medium outlet 3d and the steam outlet 3e are positioned on the side of the heat exchanger 3, and the dye liquor outlet 3b and the medium inlet 3c are positioned on the other side of the heat exchanger 3.

The medium is steam or cooling water, the flow directions of the medium and the dye liquor in the heat exchanger 3 are opposite, preferably, the heat exchanger 3 is a shell-and-tube heat exchanger, the end of a pipeline in the heat exchanger is connected with a dye liquor inlet 3a, the end of a pipeline in the heat exchanger is connected with a dye liquor outlet 3b, and a medium inlet 3c and a medium outlet 3d are communicated with a cavity between the pipeline in the heat exchanger 3 and the shell.

The fifth connecting pipe 9 is connected to the bottom of the tub 1, the other is connected to the dye liquor inlet 3a, the fifth connecting pipe 9 is provided with the main pump 4, the third connecting pipe 7 is connected to the dye liquor outlet 3b, the other is connected to the nozzle holder 13 at the inlet of the cloth guide pipe 2, the third connecting pipe 7 is provided with the third control valve 7a, the fourth connecting pipe 8 is connected to the three-way valve 8a, the other is connected to the fifth connecting pipe 9, the three-way valve 8a is connected to the medium inlet 3c through a pipeline, the connecting pipe 5 is connected to the three-way valve 8a, the connecting pipe 5 is provided with the control valve 5a, the second connecting pipe 6 is connected to the three-way valve 8a, the second connecting pipe 6 is provided with the second control valve 6a, the sixth connecting pipe 10 is connected to the medium outlet 3d, the sixth connecting pipe 10 is provided with the sixth control valve 10a, the seventh connecting pipe 11 is connected to the medium outlet 3d, and the seventh connecting pipe 11.

connection pipe 5 is used to lead in steam, 6 is used to lead in cooling water, 7 is used to lead in dye liquor from the heat exchanger 3 to the cloth guide pipe 2, 8 is used to lead in steam or cooling water to the fifth connection pipe 9, 9 is used to lead in dye liquor from the barrel body 1 to the heat exchanger 3, 10 is used to lead out condensed water from the heat exchanger 3, and 11 is used to lead out cooling water from the heat exchanger 3.

Preferably, the three-way valve 8a is a three-way cylinder ball valve; the seventh control valve 11a is a trap.

Preferably, the end of the fourth connecting pipe 8 is inserted into the fifth connecting pipe 9 and extends along the flow direction of the dye liquor in the fifth connecting pipe 9, th holes 8b are formed at the end of the fourth connecting pipe 8 positioned inside the fifth connecting pipe 9 at intervals, a sleeve 8c is sleeved outside the end of the fourth connecting pipe 8 positioned inside the fifth connecting pipe 9, the end of the sleeve 8c is connected with the fourth connecting pipe 8, an opening is formed at the other end , the sleeve 8c is provided with second holes 8d which are formed at intervals, preferably, the diameter of the second hole 8d is larger than that of the th hole 8b, and the th hole 8b and the second hole 8d are arranged so that steam or cooling water is in contact with the dye liquor in sections, and the steam or the cooling water is prevented from directly and rapidly contacting the dye liquor.

And the direct heating mode is that the control valve 5a is opened, the three-way valve 8a is communicated with the connecting pipe 5 and the fifth connecting pipe 9, steam enters the fifth connecting pipe 9 through the connecting pipe 5 and the fourth connecting pipe 8 to directly heat the dye liquor.

When the characteristics and the structure of the dye used in dyeing are not easy to be damaged by high-temperature steam, the dye liquor can be heated to about 95 ℃ by using the direct heating mode of the device.

The indirect heating mode is that the -th control valve 5a is opened, the three-way valve 8a is communicated with the -th connecting pipe 5 and the medium input port 3c, heat exchange is carried out on steam and the dye liquor in the heat exchanger 3, so that the dye liquor is heated indirectly, and the generated condensed water is discharged outside through the drain valve 11a of the seventh connecting pipe 11.

When the temperature of the dye liquor is raised to above 95 ℃, an indirect heating mode can be adopted.

An indirect cooling mode: the second control valve 6a is opened, the three-way valve 8a communicates the second connection pipe 6 with the medium input port 3c, and the cooling water enters the heat exchanger 3 through the second connection pipe 6. The heat exchanger 3 carries out heat exchange on the dye liquor and cooling water, thereby cooling the dye liquor. The generated high-temperature cooling water is rapidly discharged through the sixth control valve 10 a.

A direct cooling mode: the second control valve 6a is opened and the three-way valve 8a communicates the second connection pipe 6 and the fifth connection pipe 9. The cooling water enters the fifth connecting pipe 9 through the second connecting pipe 6 to cool the dyeing liquid.

When the dye is sensitive to temperature, or the characteristics and the structure of the dye are easily damaged by high-temperature steam, an indirect heating mode is used during heating, and an indirect cooling mode is used for cooling during cooling. When the temperature is reduced to 95 ℃, a direct cooling mode can be started according to the characteristics of the cloth so as to reduce the recovery amount of hot water and reduce the energy consumption.

The utility model discloses an another variant schemes are, medium input port 3c is connected to fourth connecting pipe 8 end, and body 1 bottom is connected to end in addition, inside steam or cooling water directly entered into body 1 through fourth connecting pipe 8, directly heaied up or directly the processing of cooling to the dye liquor.

This device has realized directly and indirectly heating and cooling to the dye liquor and has handled through setting up fourth connecting pipe 8. When the temperature is increased, when the temperature is lower than 95 ℃, a direct temperature increasing mode can be started according to the characteristics of the cloth, so that the heating time is reduced, and the production efficiency is improved; when the temperature is higher than 95 ℃, an indirect heating mode is adopted. When the temperature is reduced to 95 ℃, a direct cooling mode can be started according to the characteristics of the cloth so as to reduce the recovery amount of hot water and reduce the energy consumption.

Because this device has adopted 2 sets of interior running gear of bucket, consequently, third connecting pipe 7 can set 2 sets into, and its terminal is connected different fabric guide 2 respectively.

The present invention has been described in terms of embodiments, and a number of variations and improvements can be made without departing from the present principles. It should be noted that all the technical solutions obtained by means of equivalent substitution or equivalent transformation fall within the protection scope of the present invention.

Claims (7)

1. The cloth dyeing machine is characterized by comprising a barrel body (1), cloth guide pipes (2), cloth guide wheels (12), a nozzle seat (13) and cloth storage grooves (14), wherein at least 2 cloth storage grooves (14) are formed in the barrel body (1), adjacent cloth storage grooves (14) are separated by a middle partition plate (15), the number of the cloth guide pipes (2) is the same as that of the cloth storage grooves (14), the end of each cloth guide pipe (2) is installed at the front end of the barrel body (1) and communicated with the corresponding cloth storage groove (14), the end of each cloth guide pipe is installed at the rear end of the barrel body (1) and communicated with the corresponding cloth storage groove (14), the cloth guide wheels (12) are installed at the front end of the barrel body (1), the nozzle seat (13) is installed on the cloth guide pipes (2) and located below the cloth guide wheels (12), the cloth storage plates (16) are arranged in the barrel body (1), the cloth storage plates (16) and the cloth storage grooves (14) are arranged at the bottoms of a cloth storage groove circulation path (16) and the cloth storage grooves (14).
2. 2. cloth dyeing machine with bucket body, double independent cloth lifting wheel, nozzle holder and cloth storage tank as claimed in claim 1, characterized in that there are 2 cloth storage tanks (14), there are 2 cloth guide tubes (2), the left cloth guide tube (2) is connected to the left cloth storage tank (14), the right cloth guide tube (2) is connected to the right cloth storage tank (14).
3. 3. The cloth dyeing machine of bucket body double-independent cloth lifting wheel, nozzle holder and cloth storage tank as claimed in claim 2, wherein the bottom of the middle partition plate (15) is fixedly mounted in the middle of the cloth storage plate (16), the top of the middle partition plate (15) is fixedly mounted at the bottom of the spray pipe (18), the top of the spray pipe (18) is fixedly mounted at the bottom of the upper partition plate (17), the spray pipe (18) is arranged along the axial direction of the bucket body (1), and the top of the upper partition plate (17) is fixedly mounted at the top of the inner wall of the bucket body (1).
4. 4. The cloth dyeing machine of bucket body two stand alone type cloth lifting wheel, nozzle carrier, storage tank of claim 3, characterized in that, the shower (18) upper portion is offered two rows and is located the sprinkling hole (19) about the upper median septum (15) separately, the shower (18) is the round tube of the axial weldless.
5. 5. A dyeing machine with double independent cloth lifting wheels, nozzle holders and cloth storage tanks according to claim 1 or 3, characterized by further comprising a heat exchanger (3), a main pump (4), a fifth connecting pipe (5), a second connecting pipe (6), a third connecting pipe (7), a fourth connecting pipe (8), a fifth connecting pipe (9), a sixth connecting pipe (10) and a seventh connecting pipe (11), wherein the heat exchanger (3) comprises a dye liquor inlet (3 a), a dye liquor outlet (3 b), a medium inlet (3 c), a medium outlet (3 d) and a steam outlet (3 e), the dye liquor inlet (3 a), the medium outlet (3 d) and the steam outlet (3 e) are positioned on the side of the heat exchanger (3), the dye liquor outlet (3 b) and the medium inlet (3 c) are positioned on the 1 side of the heat exchanger (3), the connecting pipe outlet (3 e) is positioned on the top of the heat exchanger (3), the fifth connecting pipe (9) is connected with the 8292 end of the barrel body (1), the medium inlet (3 b) and the medium outlet (3 c) is positioned on the side of the fifth connecting pipe (3 a), the fifth connecting pipe (3 a) is connected with a connecting pipe (24), the fifth connecting pipe (11) is connected with the medium inlet (3 a) of the fifth connecting pipe (13) and the fifth connecting pipe (3 a) of the fifth connecting pipe (35) and the fifth connecting pipe (3 a) is connected with the control valve (35), the fifth connecting pipe (11), the fifth connecting pipe (3 a) and the fifth connecting pipe (3 a) is connected with the control valve (35) of the control valve (3 a) of the fifth connecting pipe (3 a) and the fifth control valve (3 a) of the fifth valve (3 a) and the fifth control valve (3 a) is connected with the fifth control valve (35).
6. 6. The cloth dyeing machine with double independent cloth lifting wheels, nozzle holders and cloth storage tanks of the bucket body as claimed in claim 5, wherein the end of the fourth connecting pipe (8) is inserted into the fifth connecting pipe (9) and extends along the flow direction of the dye liquor in the fifth connecting pipe (9), holes (8 b) are formed at the end of the fourth connecting pipe (8) inside the fifth connecting pipe (9) at intervals, a sleeve pipe (8 c) is sleeved outside the end of the fourth connecting pipe (8) inside the fifth connecting pipe (9), the left end of the sleeve pipe (8 c) is connected with the fourth connecting pipe (8), the right end of the sleeve pipe (8 c) is provided with an opening, and the sleeve pipe (8 c) is provided with second holes (8 d) at intervals.
7. 7. cloth dyeing machine of bucket body double independent cloth lifting wheel, nozzle holder, cloth storage tank, in claim 6, characterized by that, the aperture of the second hole (8 d) is bigger than the aperture of the th hole (8 b).

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