阅读说明：本技术 预防污渍的纺织品烧毛整理传布机构以及烧毛机 (Textile singeing, finishing and cloth conveying mechanism for preventing stains and singeing machine ) 是由 潘文华 温子强 杨振雄 陈劲俊 于 2019-11-22 设计创作，主要内容包括：本发明公开了一种预防污渍的纺织品烧毛整理传布机构及烧毛机。预防污渍的纺织品烧毛整理传布机构包括第一导布辊、第二导布辊、第一喷火组件以及第二喷火组件,所述第一导布辊与所述第二导布辊相对设置,所述第一导布辊具有用于填充第一冷却水的第一冷却腔,所述第二导布辊具有用于填充第二冷却水的第二冷却腔,所述第二冷却水的温度为30℃-60℃,所述第一喷火组件靠近所述第一导布辊设置且所述第一喷火组件的喷火口朝向所述第一导布辊,所述第二喷火组件靠近所述第二导布辊设置且所述第二喷火组件的喷火口朝向所述第二导布辊。预防污渍的纺织品烧毛整理传布机构能够有效减少导辊表面粘附灰烬以减少布面污垢且成本低。(The invention discloses a stain-preventing textile singeing finishing cloth conveying mechanism and a singeing machine. Textile singeing arrangement cloth conveying mechanism for preventing stains comprises a first cloth guide roller, a second cloth guide roller, a first flame-out assembly and a second flame-out assembly, wherein the first cloth guide roller is arranged opposite to the second cloth guide roller, the first cloth guide roller is provided with a first cooling cavity used for filling first cooling water, the second cloth guide roller is provided with a second cooling cavity used for filling second cooling water, the temperature of the second cooling water is 30-60 ℃, the first flame-out assembly is close to the first cloth guide roller, the flame-out opening of the first flame-out assembly faces towards the first cloth guide roller, and the second flame-out assembly is close to the second cloth guide roller and the flame-out opening of the second flame-out assembly faces towards the second cloth guide roller. The textile singeing, finishing and cloth conveying mechanism for preventing stains can effectively reduce ash adhered to the surface of the guide roller so as to reduce cloth surface dirt and is low in cost.)

1. The utility model provides a fabrics singeing arrangement biography cloth mechanism of prevention spot, its characterized in that includes first fabric guide roll, second fabric guide roll, first flame projecting subassembly and second flame projecting subassembly, first fabric guide roll with the second fabric guide roll sets up relatively, first fabric guide roll has the first cooling chamber that is used for filling first cooling water, the second fabric guide roll has the second cooling chamber that is used for filling the second cooling water, the temperature of second cooling water is 30 ℃ -60 ℃, first flame projecting subassembly is close to first fabric guide roll sets up just the flame projecting mouth orientation of first flame projecting subassembly first fabric guide roll, the second flame projecting subassembly is close to the setting of second fabric guide roll just the flame projecting mouth orientation of second flame projecting subassembly the second fabric guide roll.

2. The stain preventing textile singeing finishing cloth conveying mechanism according to claim 1, further comprising a first cooling assembly in communication with said first cloth guide roller for circulating a first cooling water into said first cooling chamber.

3. A stain preventing textile singeing finishing cloth transfer mechanism according to claim 1 or 2 wherein said first cooling water temperature is not higher than 25 ℃.

4. The stain-preventing textile singeing finishing cloth conveying mechanism according to claim 1 or 2, wherein said textile singeing finishing cloth conveying mechanism further comprises a second cooling assembly, said second cooling assembly is communicated with said second cloth guide roller, said second cooling assembly is used for circulating second cooling water into said second cooling cavity.

5. The stain preventing textile singeing, finishing and cloth conveying mechanism according to claim 4, wherein said second cooling assembly is further communicated with said first flame projecting assembly and said second flame projecting assembly, said second cooling assembly being adapted to circulate second cooling water into said second cooling chamber.

6. A textile singeing finishing cloth transfer mechanism according to claim 5, wherein a second cooling water is obtained from heat exchange water of said first flaming module and heat exchange water of said second flaming module, said second cooling module is used for circulating heat exchange water from said first flaming module and heat exchange water of said second flaming module into a second cooling cavity.

7. The stain preventing textile singeing finishing cloth conveying mechanism according to claim 1 or 2, wherein the temperature of the second cooling water is 50-60 ℃.

8. The stain-preventing textile singeing finishing cloth conveying mechanism according to claim 1 or 2, wherein the first flame projecting assembly comprises a first flame projecting nozzle and a first cooling assembly, the first flame projecting nozzle is arranged close to the first cloth guide roller, a flame projecting port of the flame projecting nozzle faces the first cloth guide roller, and the first cooling assembly partially wraps the first flame projecting nozzle.

9. The stain preventing textile singeing finishing cloth conveying mechanism according to claim 8 wherein said first cooling assembly is a helical first cooling tube.

10. The stain resistant textile singeing finishing cloth conveying mechanism according to claim 1 or 2, wherein the second flame projecting assembly comprises a second flame projecting nozzle and a second cooling assembly, the second flame projecting nozzle is arranged close to the second cloth guide roller, a flame projecting port of the flame projecting nozzle faces the second cloth guide roller, and the second cooling assembly partially wraps the second flame projecting nozzle.

11. The stain resistant textile singeing finishing cloth transfer mechanism according to claim 10 wherein said second cooling assembly is a helical second cooling tube.

12. The stain-preventing textile singeing finishing cloth conveying mechanism according to claim 1 or 2, further comprising a first cloth pressing roller, a second cloth pressing roller and a third cloth pressing roller, wherein the first cloth pressing roller is arranged above the first cloth guiding roller, and the second cloth pressing roller and the third cloth pressing roller are arranged below the first cloth guiding roller and the second cloth guiding roller.

13. A singeing machine, characterized in that, comprises a textile singeing finishing cloth transfer mechanism according to any one of claims 1-12 for preventing stains.

Technical Field

The invention relates to the field of textiles, in particular to a textile singeing, finishing and cloth conveying mechanism for preventing stains and a singeing machine.

Background

In the existing textile variety finishing process, a singeing machine is generally used in the singeing process, the singeing machine adopts a method that room-temperature cold water is directly filled into a cloth guide roller to cool a guide roller in a box body, particularly a support guide roller corresponding to a singeing fire hole, and the support guide roller needs to be cooled just against singeing flame to prevent the guide roller from being deformed due to temperature rise or prevent textile strength from being reduced.

Disclosure of Invention

Therefore, the textile singeing, finishing and cloth conveying mechanism and the singeing machine which can effectively reduce ash adhered to the surface of the guide roller so as to reduce cloth surface dirt and prevent stains with low cost are needed to be provided.

The utility model provides a fabrics singeing arrangement biography cloth mechanism of prevention spot, includes first fabric guide roll, second fabric guide roll, first flame projecting subassembly and second flame projecting subassembly, first fabric guide roll with the second fabric guide roll sets up relatively, first fabric guide roll has the first cooling chamber that is used for filling first cooling water, the second fabric guide roll has the second cooling chamber that is used for filling the second cooling water, the temperature of second cooling water is 30 ℃ -60 ℃, first flame projecting subassembly is close to first fabric guide roll sets up just the flame projecting mouth orientation of first flame projecting subassembly first fabric guide roll, the second flame projecting subassembly is close to the second fabric guide roll sets up just the flame projecting mouth orientation of second flame projecting subassembly the second fabric guide roll.

In one embodiment, the fabric singeing, finishing and cloth conveying mechanism further comprises a first cooling assembly, wherein the first cooling assembly is communicated with the first cloth guide roller, and is used for circulating first cooling water into the first cooling cavity.

In one embodiment, the temperature of the first cooling water is not higher than 25 ℃.

In one embodiment, the fabric singeing, finishing and cloth conveying mechanism further comprises a second cooling assembly, the second cooling assembly is communicated with the second cloth guide roller, and the second cooling assembly is used for circulating second cooling water into the second cooling cavity.

In one embodiment, the second cooling assembly is further communicated with the first flame spraying assembly and the second flame spraying assembly, and the second cooling assembly is used for circulating second cooling water into the second cooling cavity.

In one embodiment, the second cooling water is from the heat exchange water of the first flaming component and the heat exchange water of the second flaming component, and the second cooling component is used for circulating the heat exchange water from the first flaming component and the heat exchange water of the second flaming component into the second cooling cavity.

In one embodiment, the temperature of the second cooling water is 50 ℃ to 60 ℃.

In one embodiment, the first flame spray assembly comprises a first flame spray nozzle and a first cooling assembly, the first flame spray nozzle is arranged close to the first cloth guide roller, a flame spray opening of the flame spray nozzle faces the first cloth guide roller, and the first cooling assembly partially wraps the first flame spray nozzle.

In one embodiment, the first cooling assembly is a helical first cooling tube.

In one embodiment, the second flame spray assembly comprises a second flame spray nozzle and a second cooling assembly, the second flame spray nozzle is arranged close to the second cloth guide roller, a flame spray opening of the flame spray nozzle faces the second cloth guide roller, and the second cooling assembly partially wraps the second flame spray nozzle.

In one embodiment, the second cooling assembly is a helical second cooling tube.

In one embodiment, the fabric singeing, finishing and cloth conveying mechanism for preventing stains further comprises a first cloth pressing roller, a second cloth pressing roller and a third cloth pressing roller, wherein the first cloth pressing roller is arranged above the first cloth guide roller, and the second cloth pressing roller and the third cloth pressing roller are arranged below the first cloth guide roller and the second cloth guide roller.

A singeing machine comprises a textile singeing finishing cloth conveying mechanism for preventing stains.

The textile singeing, finishing and cloth conveying mechanism for preventing stains can effectively reduce ash adhered to the surface of the guide roller so as to reduce cloth surface dirt and is low in cost. Specifically, the temperature of the second cooling water in the second cloth guide roller is set to be 30-60 ℃ by the singeing and finishing cloth conveying mechanism for the textile for preventing stains, so that the temperature difference between the textile passing through the second cloth guide roller and the roller surface is reduced, the roller surface can be prevented from generating condensed water, and the problem that dust on the cloth surface of the textile after singeing defiles and wets the surface of the guide roller and the cloth surface of the textile is solved. The temperature of the second cooling water in the second cloth guide roller is set to be 30-60 ℃, the temperature is not too high or too low, and if the temperature is too low, condensed water is easy to generate on the surface of the second cloth guide roller, so that the phenomenon of dust fouling of the cloth surface of the singed textile is caused. This temperature is too high, which on the one hand wastes energy and on the other hand tends to cause a reduction in the properties of the textile, such as strength.

According to the textile singeing, finishing and cloth conveying mechanism for preventing stains, disclosed by the invention, the heat exchange water of the first flame spraying assembly and the second flame spraying assembly is circulated into the second cooling cavity, so that the heat circulation is realized, and the resources are saved.

According to the textile singeing, finishing and cloth conveying mechanism for preventing stains, disclosed by the invention, the first cloth pressing roller, the second cloth pressing roller and the third cloth pressing roller are arranged for winding the textile, so that a roundabout advancing path of the textile is realized, and the pressing state of the textile, the first cloth guide roller and the second cloth guide roller is realized.

In conclusion, the cooling mode of the singeing machine can be changed on the basis of not changing the whole structure of the singeing machine, so that the problem of fouling of the fabric surface of the textile caused by cooling can be avoided.

Drawings

Fig. 1 is a schematic view of a singeing, finishing and cloth-conveying mechanism for a stain-preventing textile according to an embodiment of the present invention.

Description of the reference numerals

10: a fabric conveying mechanism for singeing and finishing textiles for preventing stains; 100: a first cloth guide roller; 200: a second cloth guide roller; 300: a first flame spray assembly; 400: a second flame spray assembly; 500: a first cloth pressing roller; 600: a second cloth pressing roller; 700: a third cloth pressing roller; 20: a textile product.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

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. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

One embodiment of the present invention provides a singeing machine comprising a textile singeing finishing cloth transfer mechanism 10 for preventing stains.

Referring to fig. 1, the above-mentioned textile singeing, finishing and fabric-transferring mechanism 10 for preventing stains includes a first fabric guide roller 100, a second fabric guide roller 200, a first flame-spraying assembly 300 and a second flame-spraying assembly 400.

First cloth guide roller 100 is disposed opposite to second cloth guide roller 200. As shown in fig. 1. When installed, first cloth guide roller 100 is at the same level as second cloth guide roller 200. It will be appreciated that in other embodiments, the heights of first and second cloth guide rolls 100 and 200 may be adjusted as desired.

The first cloth guide roller 100 has a first cooling chamber for filling with first cooling water. The second cloth guide roller 200 has a second cooling chamber for filling with second cooling water having a temperature of 30 ℃ to 60 ℃, for example, the first cooling water has a temperature of 30 ℃, 40 ℃, 45 ℃, 55 ℃, 60 ℃ or other non-integer value. The temperature of the second cooling water in the second cloth guide roller 200 is set to be 30-60 ℃, the temperature is not too high or too low, and if the temperature is too low, condensed water is easily generated on the surface of the second cloth guide roller 200, so that the cloth surface of the singed textile 20 is polluted by dust. This temperature is too high, which on the one hand wastes energy and on the other hand tends to cause a decrease in the properties of textile 20, such as strength.

The first flaming assembly 300 is disposed adjacent to the first cloth guide roll 100 and the flaming ports of the first flaming assembly 300 face the first cloth guide roll 100. Specifically, first sparkplug assembly 300 is horizontally disposed.

The second flaming assembly 400 is disposed adjacent to the second cloth guide roll 200 and the flaming ports of the second flaming assembly 400 face the second cloth guide roll 200. Specifically, the second pyrotechnic assembly 400 is horizontally disposed.

When installed, as shown in fig. 1. The first and second flaming components 300 and 400 are at the same level, and the first and second flaming components 300 and 400 are at the same level as the first and second cloth guide rolls 100 and 200. As shown in fig. 1. The first and second flaming assemblies 300 and 400 are located outside the first and second cloth guide rolls 100 and 200, respectively.

Further, the fabric singeing, finishing and conveying mechanism for the textiles further comprises a first cooling assembly. The first cooling assembly is communicated with the first cloth guide roller 100, and the first cooling assembly is used for circulating first cooling water into the first cooling cavity.

Further, the temperature of the first cooling water is not higher than 25 ℃. For example, the temperature of the first cooling water may be 25 ℃, 20 ℃, 15 ℃ or other temperatures.

Further, the fabric singeing, finishing and conveying mechanism for the textiles further comprises a second cooling assembly. And the second cooling assembly is communicated with the second cloth guide roller 200 and is used for circulating second cooling water into the second cooling cavity.

Further, the second cooling assembly is also communicated with the first flame projecting assembly 300 and the second flame projecting assembly 400, and the second cooling assembly is used for circulating second cooling water into the second cooling cavity.

Further, the second cooling water is heat exchange water from the first and second flame projecting assemblies 300 and 400. The second cooling module is used for circulating the heat exchange water from the first flaming module 300 and the heat exchange water from the second flaming module 400 into the second cooling cavity. The textile singeing, finishing and cloth conveying mechanism 10 for preventing stains circulates the heat exchange water of the first flame spraying component 300 and the second flame spraying component 400 into the second cooling cavity, so that the heat circulation is realized, and the resources are saved.

Preferably, the temperature of the second cooling water is 50 ℃ to 60 ℃. The heat exchange water of the first spouting member 300 and the heat exchange water of the second spouting member 400 are at a temperature of 50 to 60 c, and the second cloth guide roll 200 can be cooled by the heat exchange water. For example, the temperature of the second cooling water is 50 ℃, 51 ℃, 55 ℃, 57 ℃, 60 ℃ or other non-integral values.

Further, the first flame spray assembly 300 includes a first flame spray nozzle and a first cooling assembly. The first flame nozzle is close to first fabric guide roll 100 and sets up and the flame outlet of flame nozzle is towards first fabric guide roll 100, and first cooling module part parcel first flame nozzle. The first flame projecting nozzle is horizontally arranged and the flame projecting direction of the flame projecting nozzle of the first flame projecting nozzle is horizontal.

Preferably, the first cooling assembly is a helical first cooling tube. It will be appreciated that in other embodiments, the first cooling assembly may also be of other configurations and shapes, for example, clad.

Further, the second torch assembly 400 includes a second torch tip and a second cooling assembly. The second flame projecting nozzle is close to the setting of second fabric guide roll 200 and the flame projecting nozzle of flame projecting nozzle is towards second fabric guide roll 200, and second cooling module part parcel second flame projecting nozzle. The second flame projecting nozzle is horizontally arranged and the flame projecting direction of the flame projecting nozzle of the second flame projecting nozzle is horizontal.

Preferably, the second cooling assembly is a helical second cooling tube. It will be appreciated that in other embodiments, the second cooling assembly may also be of other configurations and shapes, for example, clad.

As shown in fig. 1, the stain-preventing textile singeing finishing cloth-conveying mechanism 10 further comprises a first cloth-pressing roller 500, a second cloth-pressing roller 600 and a third cloth-pressing roller 700. The first cloth pressing roller 500 is arranged above the first cloth guide roller 100, and the second cloth pressing roller 600 and the third cloth pressing roller 700 are arranged below the first cloth guide roller 100 and the second cloth guide roller 200. The first cloth pressing roller 500, the second cloth pressing roller 600 and the third cloth pressing roller 700 are used for winding the textile 20, so as to realize a circuitous advancing path of the textile 20 and realize a pressing state of the textile 20 with the first cloth guide roller 100 and the second cloth guide roller 200.

The textile singeing, finishing and cloth conveying mechanism 10 for preventing stains can effectively reduce ash adhered to the surface of a guide roller so as to reduce cloth surface dirt and is low in cost. Specifically, the temperature of the second cooling water in the second cloth guide roller 200 is set to be 30-60 ℃ by the textile singeing finishing cloth conveying mechanism 10 for preventing stains, so that the temperature difference between the textile 20 passing through the second cloth guide roller 200 and the roller surface is reduced, the roller surface can be prevented from generating condensed water, and the problem that dust on the cloth surface of the textile 20 after singeing pollutes the wetted guide roller surface and the cloth surface of the textile is solved. The temperature of the second cooling water in the second cloth guide roller 200 is set to be 30-60 ℃, the temperature is not too high or too low, and if the temperature is too low, condensed water is easily generated on the surface of the second cloth guide roller 200, so that the cloth surface of the singed textile 20 is polluted by dust. This temperature is too high, which on the one hand wastes energy and on the other hand tends to cause a decrease in the properties of textile 20, such as strength.

The fabric singeing and finishing cloth conveying mechanism of the textile is simple to mount, is simple and convenient to mount on the basis of a singeing machine, and has high adaptability.

In conclusion, the cooling mode of the singeing machine can be changed on the basis of not changing the whole structure of the singeing machine, and the problem of fouling of the cloth surface of the textile 20 caused by cooling can be avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.