CN116103864A

CN116103864A - Medicine tank cooling constant temperature equipment of waterproof surface fabric processing

Info

Publication number: CN116103864A
Application number: CN202310151875.0A
Authority: CN
Inventors: 赵光员; 周国庆
Original assignee: Formosa Taffeta Zhongshan Co ltd
Current assignee: Formosa Taffeta Zhongshan Co ltd
Priority date: 2023-02-22
Filing date: 2023-02-22
Publication date: 2023-05-12
Anticipated expiration: 2043-02-22
Also published as: CN116103864B

Abstract

A medicine tank cooling constant temperature equipment of waterproof surface fabric processing, it includes: a bottom plate; the box body is positioned on the bottom plate and is fixedly connected with the bottom plate; the temperature adjusting module is positioned in the box body and comprises: a plurality of temperature adjusting pipelines which are communicated with each other and comprise temperature adjusting liquid; a heat conducting layer covering the temperature adjusting pipeline; a soaking plate positioned on one side of the heat conducting layer; the heat conduction modules are positioned among the temperature adjustment pipeline, the heat conduction layer and the heat conduction plate, and heat generated on the temperature adjustment pipeline is transferred through the heat conduction modules; the heat conduction coefficient of the heat conduction module is more than 3 times of that of the heat conduction layer material. The invention can effectively solve the problems that the constant temperature effect in the traditional medicine tank is poor, and the temperature of the medicine liquid in the medicine tank is difficult to realize rapid adjustment.

Description

Medicine tank cooling constant temperature equipment of waterproof surface fabric processing

Technical Field

The invention relates to the technical field of waterproof fabric production, in particular to a medicine tank cooling constant temperature device for waterproof fabric processing.

Background

In the production process of waterproof fabric, the fabric blank generally comprises the process steps of desizing and refining, dyeing, washing, waterproof treatment and the like. In the process of washing, the dyed fabric embryo is generally placed in a medicine tank for cooling and cleaning so as to remove redundant pigment in the fabric embryo cloth.

At present, the liquid medicine used in the washing process of the fabric embryo cloth made of different materials is the same, but the corresponding cooling temperatures are different. Meanwhile, the constant temperature effect of the liquid medicine in the medicine tank for washing is poor, so that the temperatures of different positions in the liquid medicine are different, and the temperature of the liquid medicine in the medicine tank for washing is difficult to realize rapid and effective adjustment.

Disclosure of Invention

In view of the above drawbacks of the prior art, the present invention aims to provide a drug tank cooling thermostat device for processing waterproof fabrics, so as to solve the problems that the existing drug tank has poor thermostat effect and the temperature of the liquid medicine in the drug tank for washing is difficult to realize rapid and effective adjustment.

To achieve the above and other related objects, the present invention provides a medicine tank cooling thermostat device for processing waterproof fabrics, comprising:

a bottom plate;

the box body is positioned on the bottom plate and is fixedly connected with the bottom plate;

the temperature adjusting module is positioned in the box body and comprises:

a plurality of temperature adjusting pipelines which are communicated with each other and comprise temperature adjusting liquid;

a heat conducting layer covering the temperature adjusting pipeline;

a soaking plate positioned on one side of the heat conducting layer; and

the heat conducting modules are positioned among the temperature adjusting pipeline, the heat conducting layer and the heat conducting plate, and heat generated on the temperature adjusting pipeline is transferred through the heat conducting modules;

wherein the thermal conductivity of the thermal conduction module is more than 3 times of the thermal conductivity of the thermal conduction layer.

In one scheme of the invention, the novel box comprises two groups of guide wheels, wherein the guide wheels are respectively and rotatably connected to the box body, and the two groups of guide wheels are symmetrically arranged on the box body.

In one scheme of the invention, the lifting device further comprises a top plate, wherein the top plate is connected with the bottom plate through a lifting cylinder, two groups of connecting frames are connected to the top plate, and a driving module is rotationally connected between the two groups of connecting frames.

In one aspect of the invention, the invention further comprises a supporting wheel rotatably connected to the end of the connecting frame; the distance between the axes of the supporting wheels on the two groups of connecting frames and the soaking plates is the same.

In an aspect of the present invention, the driving module includes:

the rotating shaft is positioned between the two connecting frames and is in rotary connection with the connecting frames;

the fan blades are positioned on the rotating shaft, are of hollow structures, and are provided with a plurality of air holes on the surfaces; the air holes are communicated with the hollow structures of the fan blades, and the hollow structures of the fan blades are also connected with an air supply assembly.

In one aspect of the present invention, the fan blade is a spiral fan blade.

In one scheme of the invention, the motor is fixedly connected to the top plate, and the motor is connected with the rotating shaft through a belt.

In an aspect of the present invention, the heat conduction module includes:

the heat conducting block is fixedly connected with the temperature regulating pipeline;

the heat conducting plate is inlaid in the soaking plate; and

the connecting rod is positioned between the heat conducting plate and the heat conducting block, one end of the connecting rod is fixedly connected with the heat conducting plate, and the other end of the connecting rod is fixedly connected with the heat conducting block.

In one aspect of the present invention, the heat conducting block, the heat conducting plate and the connecting rod are made of the same material.

In summary, the invention discloses a medicine tank cooling thermostat for processing waterproof fabrics, wherein a plurality of temperature adjusting pipelines are arranged in parallel, so that the uniformity of temperature distribution of the temperature adjusting pipelines in heat exchange in a box body is ensured. The heat conducting layer is arranged between the soaking plate and the temperature adjusting pipeline, so that heat on the heat conducting pipe can be uniformly exchanged to the soaking plate, and the liquid on the soaking plate is ensured to be in a stable environment. Meanwhile, the heat conduction performance of the material of the heat conduction module is better than that of the material of the heat conduction layer, and the heat exchange efficiency between the vapor chamber and the temperature regulating pipeline can be effectively improved. And the driving device can be used for driving the liquid in the box body to rotate so as to accelerate the flow between the liquid in the box body. Meanwhile, the air holes on the fan blades increase the contact area between the gas and the liquid and accelerate the heat exchange effect. Therefore, the problems that the constant temperature effect in the traditional medicine tank is poor, and the temperature of the medicine liquid in the medicine tank is difficult to realize rapid adjustment can be effectively solved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a cooling and constant temperature device for a medicine tank for processing waterproof fabrics in an embodiment of the invention;

FIG. 2 is an enlarged schematic view of the view A in FIG. 1;

FIG. 3 is a schematic side view of a cooling thermostat device for a drug tank for processing waterproof fabrics according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure of the present invention;

FIG. 5 is a schematic structural diagram of a heat conduction module of a drug tank cooling thermostat device for waterproof fabric processing according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a driving module of a drug tank cooling thermostat device for processing waterproof fabrics according to an embodiment of the invention.

Description of element reference numerals

100. A bottom plate;

200. a case; 210. a temperature regulating pipeline; 220. a heat conduction module; 221. a heat conductive plate; 222. a connecting rod; 223. a heat conduction block; 230. a heat conducting layer; 240. a soaking plate; 250. a guide wheel;

300. a piece of embryo cloth;

400. a top plate; 410. a motor; 420. a driving module; 421. a fan blade; 422. air holes; 423. a rotating shaft; 430. a connecting frame; 431. a cavity; 440. a support wheel; 450. lifting cylinder.

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention.

Please refer to fig. 1 to 6. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the invention to the extent that it can be practiced, since modifications, changes in the proportions, or adjustments of the sizes, which are otherwise, used in the practice of the invention, are included in the spirit and scope of the invention which is otherwise, without departing from the spirit or scope thereof.

Referring to fig. 1-6, the invention provides a medicine tank cooling constant temperature device for processing waterproof fabrics, which can be used for solving the problems that the constant temperature effect in the traditional medicine tank is poor, and the temperature of medicine liquid in the medicine tank is difficult to realize rapid adjustment. The medicine tank cooling thermostat for waterproof fabric processing may include a bottom plate 100, a box 200, a temperature adjusting module and a driving module 420. Specifically, the case 200 is located on the base plate 100, and the case 200 is fixedly connected to the base plate 100. The temperature adjustment module and the driving module 420 are located in the tank 200, and the temperature adjustment module can be used to improve the temperature of the liquid in the tank 200, and the driving module 420 can be used to improve the temperature uniformity at different positions in the tank 200.

In one embodiment, the temperature adjustment module is located in the tank 200, and the temperature of the liquid in the tank 200 is improved by the temperature adjustment module. The temperature adjusting module includes a plurality of temperature adjusting pipes 210, a heat conducting layer 230, a soaking plate 240 and a plurality of heat conducting modules 220, wherein the heat conducting modules 220 are connected among the temperature adjusting pipes 210, the heat conducting layer 230 and the soaking plate 240. Specifically, the plurality of temperature adjusting pipes 210 are communicated with each other, and a temperature adjusting liquid is included in the temperature adjusting pipes 210. Wherein the temperature of the tempering line 210 may be allowed to be changed by changing the tempering liquid temperature. Thus, it is possible to allow a liquid supply device to be connected to the temperature adjustment pipe 210, by which the temperature adjustment liquid located in the temperature adjustment pipe 210 is caused to flow. The specific structure and model of the liquid supply equipment can be determined according to actual requirements. It should be noted that, it is also connected with heating element and condensation subassembly on the liquid supply equipment, heating element is used for heating the tempering liquid, and condensation subassembly is used for cooling the tempering liquid. Thus, the temperature adjustment of the tempering line 210 is achieved by the liquid supply device. Wherein, the plurality of temperature adjusting pipes 210 are arranged in parallel to ensure the uniformity of the temperature distribution of the temperature adjusting pipes 210 in the heat exchange in the box 200.

It should be noted that the heat conducting layer 230 is located between the temperature adjusting pipe 210 and the soaking plate 240, and the heat conducting layer 230 may be used to exchange heat between the temperature adjusting pipe 210 and the soaking plate 240. By providing the heat conductive layer 230 between the soaking plate 240 and the temperature adjusting pipe 210, the heat on the heat conductive pipe can be uniformly exchanged to the soaking plate 240, so as to ensure that the liquid on the soaking plate 240 is in a stable environment. The heat conductive layer 230 is made of graphite. And aluminum is used for the soaking plate 240. It should be noted that the thermal conductivity of the graphite material was 247W/mK and that of the aluminum material was 168W/mK. Therefore, stable heat exchange can be performed between the soaking plate 240 made of aluminum and the conductive and stable layer made of graphite.

In one embodiment, the plurality of heat conducting modules 220 are located between the temperature adjusting pipe 210, the heat conducting layer 230 and the heat conducting plate 221, and the heat generated on the temperature adjusting pipe 210 is transferred through the heat conducting modules 220. Specifically, the heat conduction module 220 may include a heat conduction block 223, a heat conduction plate 221, and a connection rod 222, and the connection rod 222 is located between the heat conduction block 223 and the heat conduction rod. The heat conducting block 223, the heat conducting plate 221 and the connecting rod 222 are made of the same material, and are made of diamond, and the heat conductivity coefficient of the diamond is between 2000 and 2200W/m.k, so that heat transfer can be effectively realized. Specifically, one end of the connecting rod 222 is fixedly connected to the heat conducting plate 221, and the other end is fixedly connected to the heat conducting block 223. The heat conducting block 223 is fixedly connected with the temperature adjusting pipe 210, and the heat conducting plate 221 is embedded in the soaking plate 240. Wherein, the heat conduction performance of the diamond material is better than that of the graphite material and the aluminum material, so that the heat exchange effect between the soaking plate 240 and the temperature adjusting pipeline 210 can be effectively improved.

In an embodiment, a top plate 400 is further disposed above the case 200, and a lifting cylinder 450 is further connected between the top plate 400 and the bottom plate 100, and the lifting cylinder 450 can be used to drive the top plate 400 to perform height adjustment with respect to the case 200. The top plate 400 is further provided with a connecting frame 430, and two groups are connected. Specifically, the connection frame 430 is fixedly connected to the top plate 400, and the connection frame 430 is located at one side of the interior of the case 200. The driving module 420 is located on the connecting frame 430, and the driving device can be used for driving the liquid in the box 200 to rotate so as to accelerate the flow between the liquid in the box 200, and further ensure the uniformity of the temperature of the liquid at different positions in the box 200.

In an embodiment, the driving device may include a rotating shaft 423 and a plurality of fan blades 421, where the fan blades 421 are located on the rotating shaft 423. The fan blade 421 has a hollow structure, and a plurality of air holes 422 are formed on the surface of the fan blade 421. The air holes 422 are communicated with the hollow structure, so that when the air is introduced into the hollow structure, the air can be discharged through the air holes 422. Specifically, the shaft 423 may be allowed to be a hollow tube structure, and the hollow tube structure within the shaft 423 communicates with the hollow structure of the fan blade 421. In an embodiment, a cavity 431 may be allowed to be disposed on the connecting frame 430 at one side, and an air supply component is connected to the cavity 431, and the air supply component may be used to supply the air to the cavity 431. The cavity 431 is connected to the hollow tube structure of the rotating shaft 423, so that the air can be discharged through the air hole 422 on the fan blade 421 after passing through the rotating shaft 423 and the fan blade 421 once.

It should be noted that the top plate 400 is also allowed to be connected with a motor 410, and the motor 410 and the rotating shaft 423 are rotated by a belt. Therefore, the air can be exhausted from the air holes 422 on the fan 421 during the rotation of the rotating shaft 423 and the fan 421. It should be noted that when the high temperature gas is introduced into the air hole 422, the air hole may be used to heat the liquid in the tank 200. When the air hole 422 is filled with low-temperature air, the air hole can be used for cooling the liquid in the box body 200. Meanwhile, the fan blade 421 can drive the liquid in the tank 200 to flow during the rotation process, so that the liquid in the tank 200 is in a stable temperature range. Meanwhile, the air holes 422 on the fan blades 421 can be used for increasing the contact area between the air and the liquid, so as to improve the heat exchange effect on the liquid in the actual use process.

Wherein, the fan blade 421 can allow the use of a spiral fan blade to improve the fluidity of the water flow in the tank 200. However, the shape of the blade 421 may be determined according to practical requirements, for example, the blade 421 may be configured in a plate type structure.

In one embodiment, the box 200 is further connected with a guiding wheel 250, and the guiding wheels 250 are provided with two groups. Wherein, the two sets of guide wheels 250 are located at two sides of the case 200, and the guide wheels 250 are rotatably connected with the case 200. Specifically, the blank 300 is wound around the guide wheel 250, so that the direction of the blank 300 is adjusted by the guide wheel 250. The connection frame 430 is further connected with a supporting wheel 440, so that the blank 300 is wound on the supporting wheel 440 after passing through the guiding wheel 250. The support wheel 440 allows the cloth 300 to be in tension in the case 200 to enhance the cleaning effect of the cloth 300.

In summary, in the medicine tank cooling thermostat device for processing waterproof fabrics according to the present invention, the plurality of temperature adjusting pipes 210 are arranged in parallel to ensure the uniformity of the temperature distribution of the temperature adjusting pipes 210 in the heat exchange process in the box 200. A heat conducting layer 230 is disposed between the soaking plate 240 and the temperature adjusting pipe 210, so that heat on the heat conducting pipe can be uniformly exchanged to the soaking plate 240, so as to ensure that the liquid on the soaking plate 240 is in a stable environment. Meanwhile, the heat conducting performance of the material of the heat conducting module 220 is better than that of the material of the heat conducting layer 230, so that the heat exchange efficiency between the vapor chamber 240 and the temperature adjusting pipeline 210 can be effectively improved. And the driving means may allow for driving the rotation of the liquid in the tank 200 to accelerate the flow between the liquids in the tank 200. Meanwhile, the air holes 422 on the fan blades 421 increase the contact area between the gas and the liquid, and accelerate the heat exchange effect. Therefore, the problems that the constant temperature effect in the traditional medicine tank is poor, and the temperature of the medicine liquid in the medicine tank is difficult to realize rapid adjustment can be effectively solved.

Therefore, the invention effectively overcomes some practical problems in the prior art, thereby having high utilization value and use significance.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Also, when numerical ranges are given in the examples, it is to be understood that unless otherwise indicated herein, both ends of each numerical range and any number between the two ends are optional. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs and to which this invention belongs, and any method, apparatus, or material of the prior art similar or equivalent to the methods, apparatus, or materials described in the examples of this invention may be used to practice the invention.

Claims

1. The utility model provides a medicine groove cooling constant temperature equipment of waterproof surface fabric processing which characterized in that includes:

a bottom plate (100);

the box body (200) is positioned on the bottom plate (100), and the box body (200) is fixedly connected with the bottom plate (100);

a temperature regulation module, located in the box (200), comprising:

a plurality of temperature adjusting pipes (210) which are communicated with each other, wherein the temperature adjusting pipes (210) comprise temperature adjusting liquid;

a heat conducting layer (230) covering the temperature regulating pipe (210);

a soaking plate (240) located at one side of the heat conductive layer (230); and

a plurality of heat conducting modules (220) located between the temperature adjusting pipeline (210), the heat conducting layer (230) and the heat conducting plate (221), and the heat generated on the temperature adjusting pipeline (210) is transferred through the heat conducting modules (220);

wherein the thermal conductivity of the thermal conduction module (220) is 3 times or more the thermal conductivity of the thermal conduction layer (230).

2. The medicine tank cooling thermostat device for processing waterproof fabrics according to claim 1, further comprising two groups of guide wheels (250), wherein the guide wheels (250) are respectively connected to the box body (200) in a rotating manner, and the two groups of guide wheels (250) are symmetrically arranged on the box body (200).

3. The medicine tank cooling thermostat device for waterproof fabric processing according to claim 1, further comprising a top plate (400), wherein the top plate (400) is connected with the bottom plate (100) through a lifting cylinder (450), two groups of connecting frames (430) are connected to the top plate (400), and a driving module (420) is rotatably connected between the two groups of connecting frames (430).

4. A tank cooling thermostat device for waterproof fabric processing according to claim 3, characterized by further comprising a supporting wheel (440) rotatably connected to the end of the connecting frame (430);

wherein the distance between the axes of the supporting wheels (440) on the two groups of connecting frames (430) and the soaking plates (240) is the same.

5. A tank cooling thermostat for waterproof fabric processing according to claim 3, wherein the driving module (420) comprises:

the rotating shaft (423) is positioned between the two connecting frames (430), and the rotating shaft (423) is in rotary connection with the connecting frames (430);

the fan blades (421) are positioned on the rotating shaft (423), the fan blades (421) are of hollow structures, and a plurality of air holes (422) are formed in the surfaces of the fan blades (421); wherein, the air hole (422) is communicated with the hollow structure of the fan blade (421), and the hollow structure of the fan blade (421) is also connected with an air supply component.

6. The device for cooling and thermostating a medicine tank for processing waterproof fabrics according to claim 5, wherein said fan blade (421) is a spiral fan blade (421).

7. The drug tank cooling thermostat device for waterproof fabric processing according to claim 6, further comprising a motor (410) fixedly connected to the top plate (400), wherein the motor (410) is connected to the rotating shaft (423) through a belt.

8. The medication tank cooling thermostat device for waterproof fabric processing according to claim 1, wherein the heat conduction module (220) comprises:

the heat conducting block (223) is fixedly connected with the temperature regulating pipeline (210);

a heat-conducting plate (221) embedded in the vapor chamber (240); and

the connecting rod (222) is positioned between the heat conducting plate (221) and the heat conducting block (223), one end of the connecting rod (222) is fixedly connected with the heat conducting plate (221), and the other end of the connecting rod is fixedly connected with the heat conducting block (223).

9. The medicine tank cooling thermostat device for processing waterproof fabrics according to claim 1, wherein the heat conducting blocks (223), the heat conducting plates (221) and the connecting rods (222) are made of the same material.