CN115398055B

CN115398055B - Heat-resistant flame-retardant fabric dipping processing mechanism

Info

Publication number: CN115398055B
Application number: CN202180021358.0A
Authority: CN
Inventors: 张燕文
Original assignee: Wujiang Tutaike Textiles & Finishing Co ltd
Current assignee: Wujiang Tutaike Textiles & Finishing Co ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2023-11-28
Anticipated expiration: 2041-07-15
Also published as: WO2023283851A1; CN115398055A; DE212021000114U1

Abstract

A heat-resistant flame-retardant fabric dipping processing mechanism comprises a dipping tank and a supporting plate arranged at the bottom of the tank; the feeding end and the discharging end of the dipping tank are respectively provided with a mounting seat, and the mounting seats are provided with rotatable first guide rollers; the bottom of the dipping tank is arranged in an inclined way; the supporting plate comprises a base plate and a movable plate; the base plate is provided with a positioning groove which is matched with the bottom of the pool; the movable plate is arranged in the mounting groove, and clamping plates are arranged on two sides of the movable plate; the middle part of the dipping tank is provided with squeeze rollers which are arranged in pairs, and the outside of the dipping tank is provided with a driving motor for driving the squeeze rollers to rotate; the roll surfaces of the squeeze rolls are contacted; two groups of mounting tables are arranged on the dipping tank and are respectively arranged on the left side and the right side of the squeeze roller, and the bottoms of the mounting tables are respectively provided with a rotatable second guide roller; according to the application, through twice impregnation, the fabric is ensured to be impregnated qualified, and meanwhile, the movable plate is driven to move by utilizing waves in the processing pond, so that the dye is quickly dissolved, and the working efficiency is improved.

Description

Heat-resistant flame-retardant fabric dipping processing mechanism

Technical Field

The application relates to the technical field of fabric processing, in particular to a heat-resistant flame-retardant fabric dipping processing mechanism.

Background

The heat-resistant flame-retardant fabric needs to be subjected to dipping treatment in the production and processing process; in the prior art, continuous agitation of the dipping tank is required to prevent dye adhesion at the bottom of the dipping tank. And if the concentration of the dye is insufficient, the heat-resistant flame-retardant fabric needs to be subjected to secondary impregnation, which is time-consuming and labor-consuming.

In order to solve the problems, the application provides a heat-resistant flame-retardant fabric dipping processing mechanism.

Disclosure of Invention

Object of the application

In order to solve the problem in the prior art existing in the background technology, the dipping tank needs to be continuously stirred in order to prevent the dye at the bottom of the dipping tank from adhering. The application provides a heat-resistant flame-retardant fabric impregnating processing mechanism, which is used for guaranteeing qualified fabric impregnation through twice impregnation, and simultaneously driving a movable plate to move by utilizing waves in a processing pond, so that the dyes are quickly dissolved, and the working efficiency is improved.

(II) technical scheme

In order to solve the problems, the application provides a heat-resistant flame-retardant fabric impregnating processing mechanism which comprises an impregnating tank and a supporting plate arranged at the bottom of the impregnating tank;

the feeding end and the discharging end of the dipping tank are respectively provided with a mounting seat, and the mounting seats are provided with rotatable first guide rollers; the bottom of the dipping tank is inclined, and the height of the bottom of the dipping tank is gradually increased from the feeding end to the discharging end; the supporting plate is arranged at the inclined bottom of the pool;

the supporting plate comprises a base plate and a movable plate; the base plate is provided with a positioning groove which is matched with the bottom of the tank, and the bottom of the tank is provided with a convex positioning block; the upper surface of the base plate is inwards recessed to form a mounting groove; the movable plate is arranged in the mounting groove, clamping plates are arranged on two sides of the movable plate, groove bodies matched with the clamping plates are arranged on two sides of the base plate, and the clamping plates are clamped in the groove bodies and shake back and forth in the groove bodies; the clamping plate is provided with a rotating shaft which is rotationally connected with the groove body;

the middle part of the dipping tank is provided with squeeze rollers which are arranged in pairs, and the outside of the dipping tank is provided with a driving motor for driving the squeeze rollers to rotate; the roll surfaces of the squeeze rolls are contacted; two groups of installation tables are arranged on the dipping tank, the installation tables are respectively arranged on the left side and the right side of the squeeze roller, and the bottoms of the installation tables are respectively provided with a rotatable second guide roller.

Preferably, the surface of the movable plate is provided with grooves in a rectangular array.

Preferably, the mounting table is configured in a "T" shape.

Preferably, the level of the liquid in the impregnation tank is higher than the second guide roll and lower than the squeeze roll.

Preferably, one side of the dipping tank facing the discharging end is provided with an inclined guide plate, and the guide plate guides the flow towards the dipping tank.

Preferably, the deflector is located below the first guide roller at the discharge end.

Preferably, the dipping tank is provided with a water inlet pipe and a water outlet pipe, and the dipping tank is provided with a temperature sensor for detecting temperature.

The technical scheme of the application has the following beneficial technical effects:

1. the bottom of the dipping tank is obliquely arranged; a large amount of dye is ensured to be positioned at the front end, so that the effect of one-time dipping is improved; the secondary soaking is used as compensation to ensure qualification.

2. The mounting table is arranged to be T-shaped. The installation area of the T-shaped installation table and the tank wall of the dipping tank is larger, and the installation position is firmer; meanwhile, the width of the top of the mounting table is wider, so that external equipment and monitoring equipment can be conveniently mounted.

3. Dye which is not completely melted during processing falls into the groove under the action of gravity, and moves in the dipping tank along with cloth to drive dye liquor in the tank to act so as to generate waves, and the movable plate is a buoyancy plate and can shake under the action of the waves, so that the dye is favorably dissolved in the dye liquor. According to the application, through twice impregnation, the fabric is ensured to be impregnated qualified, and meanwhile, the movable plate is driven to move by utilizing waves in the processing pond, so that the dye is quickly dissolved, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an overall heat-resistant flame-retardant fabric impregnation processing mechanism provided by the application.

Fig. 2 is a schematic diagram of the internal structure of an impregnation tank in the heat-resistant flame-retardant fabric impregnation processing mechanism.

Fig. 3 is a schematic diagram of an installation structure of a supporting plate in the heat-resistant flame-retardant fabric impregnation processing mechanism.

Reference numerals: 1. an impregnation tank; 2. a driving motor; 3. a first guide roller; 4. a mounting base; 5. a mounting table; 6. a squeeze roll; 7. a support plate; 71. a substrate; 711. a positioning groove; 712. a mounting groove; 72. a movable plate; 721. a groove; 722. a rotating shaft; 723. a clamping plate; 8. a deflector; 9. and a second guide roller.

Detailed Description

The objects, technical solutions and advantages of the present application will become more apparent by the following detailed description of the present application with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the application. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present application.

As shown in fig. 1-3, the application provides a heat-resistant flame-retardant fabric impregnating processing mechanism, which comprises an impregnating tank 1 and a supporting plate 7 arranged at the bottom of the tank;

the feeding end and the discharging end of the dipping tank 1 are respectively provided with a mounting seat 4, and the mounting seats 4 are provided with rotatable first guide rollers 3; the bottom of the dipping tank 1 is inclined, and the height of the bottom of the dipping tank 1 gradually increases from the feeding end to the discharging end; the supporting plate 7 is arranged at the inclined bottom of the pool;

the support plate 7 includes a base plate 71 and a movable plate 72; the base plate 71 is provided with a positioning groove 711 which is matched with the bottom of the tank, and the bottom of the tank is provided with a convex positioning block; the upper surface of the base plate 71 is recessed inward to form a mounting groove 712; the movable plate 72 is arranged in the mounting groove 712, clamping plates 723 are arranged on two sides of the movable plate 72, a groove body which is matched with the clamping plates 723 is arranged on two sides of the base plate 71, and the clamping plates 723 are clamped into the groove body and shake back and forth in the groove body; a rotating shaft 722 is arranged on the clamping plate 723, and the rotating shaft 722 is rotationally connected with the groove body;

the middle part of the dipping tank 1 is provided with squeeze rollers 6 which are arranged in pairs, and the outside of the dipping tank 1 is provided with a driving motor 2 which drives the squeeze rollers 6 to rotate; the roller surfaces of the squeeze rollers 6 are contacted; two groups of mounting tables 5 are arranged on the dipping tank 1, the mounting tables 5 are respectively arranged on the left side and the right side of the squeeze roller 6, and rotatable second guide rollers 9 are arranged at the bottoms of the mounting tables 5.

In an alternative embodiment, the surface of the movable plate 72 is provided with grooves 721 in a rectangular array.

It should be noted that, the dye that is not completely melted falls into the groove 721 under the action of gravity, and along with the movement of the cloth in the dipping tank 1, the dye solution in the tank is driven to move to generate waves, and the movable plate 72 is a buoyancy plate and can shake under the action of the waves, so that the dye is dissolved in the dye solution.

In an alternative embodiment, the mounting table 5 is provided in a "T" shape.

The installation area of the installation platform 5 which is arranged in a T shape and the tank wall of the dipping tank 1 is larger, and the installation position is firmer; meanwhile, the top of the mounting table 5 is wider, so that external equipment and monitoring equipment can be conveniently mounted.

In an alternative embodiment, the level of the liquid in the impregnation tank 1 is higher than the second guiding roll 9 and lower than the squeeze roll 6.

The liquid level in the dipping tank 1 is higher than that of the second guide roller 9, so that the fabric is fully contacted with the dye liquor under the action of the second guide roller 9, and the dipping effect is improved. The liquid level in the dipping tank 1 is lower than the squeeze roller 6, so that the extruded dye liquor can fall back into the dipping tank 1 after the fabric subjected to primary dipping is squeezed by the squeeze roller 6, and the rotating speed of the squeeze roller 6 is adjusted according to the primary dipping effect, so that the production efficiency is adaptively adjusted.

In an alternative embodiment, the side of the impregnation tank 1 facing the discharge end is provided with an inclined deflector 8, the deflector 8 being directed in the direction of the impregnation tank 1. The deflector 8 is positioned below the first guide roller 3 at the discharge end.

It should be noted that, the surface fabric after twice soaking is carried to subsequent processing equipment through the first guide roll 3 of discharge end, and partial dye liquor can drop downwards when surface fabric and first guide roll 3 contact, under the effect of guide plate 8, can retrieve the dye liquor, reduces the consumption of dyestuff.

In an alternative embodiment, the dipping tank 1 is provided with a water inlet pipe and a water outlet pipe, and the dipping tank 1 is provided with a temperature sensor for detecting temperature.

In the application, the fabric enters the dipping tank 1 through the first guide roller 3 at the feeding end, and is immersed into the dye liquor under the action of the second guide roller 9 for one-time dipping; feeding the fabric after one-time impregnation into a squeeze roller 6; after the fabric subjected to primary impregnation is subjected to the extrusion action of the extrusion roller 6, the extruded dye liquor can fall back into the impregnation tank 1, the rotating speed of the extrusion roller 6 is adjusted according to the primary impregnation effect, and if the impregnation effect is good, the impregnation speed is increased; if the dipping effect is not good, the dipping speed is slowed down; after the fabric is subjected to secondary impregnation, the fabric is conveyed to subsequent processing equipment through a first guide roller 3 at a discharge end, part of dye liquor can drop downwards when the fabric is contacted with the first guide roller 3, and the dye liquor can be recovered under the action of a guide plate 8, so that the consumption of dye is reduced; in the application, the bottom of the dipping tank 1 is arranged obliquely; a large amount of dye is ensured to be positioned at the front end, so that the effect of one-time dipping is improved; the secondary soaking is used as compensation to ensure qualification; a supporting plate 7 is arranged at the bottom of the dipping tank 1; the supporting plate 7 comprises a base plate 71 and a movable plate 72, wherein groove bodies which are matched with the clamping plates 723 are arranged on two sides of the base plate 71, and the clamping plates 723 are clamped into the groove bodies and shake back and forth in the groove bodies; a rotating shaft 722 is arranged on the clamping plate 723, and the rotating shaft 722 is rotationally connected with the groove body; the dye which is not completely melted during processing falls into the groove 721 under the action of gravity, waves are generated along with the movement of the cloth in the dipping tank 1 and the action of dye liquor in the tank, and the movable plate 72 is a buoyancy plate and can shake under the action of the waves, so that the dye is favorably dissolved in the dye liquor. The application ensures that the fabric is impregnated qualified through twice impregnation, and simultaneously drives the movable plate 72 to move by utilizing waves in the processing pool, thereby quickly dissolving dye and improving the working efficiency.

It is to be understood that the above-described embodiments of the present application are merely illustrative of or explanation of the principles of the present application and are in no way limiting of the application. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present application should be included in the scope of the present application. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims

1. The heat-resistant flame-retardant fabric impregnating and processing mechanism is characterized by comprising an impregnating tank (1) and a supporting plate (7) arranged at the bottom of the tank;

the feeding end and the discharging end of the dipping tank (1) are provided with mounting seats (4), and the mounting seats (4) are provided with rotatable first guide rollers (3); the bottom of the dipping tank (1) is inclined, and the height of the bottom of the dipping tank (1) is gradually increased from the feeding end to the discharging end; the supporting plate (7) is arranged at the inclined bottom of the pool;

the support plate (7) comprises a base plate (71) and a movable plate (72); a positioning groove (711) which is matched with the bottom of the tank is arranged on the base plate (71), and a convex positioning block is arranged at the bottom of the tank; the upper surface of the base plate (71) is recessed inwards to form a mounting groove (712); the movable plate (72) is arranged in the mounting groove (712), clamping plates (723) are arranged on two sides of the movable plate (72), groove bodies which are matched with the clamping plates (723) are arranged on two sides of the base plate (71), and the clamping plates (723) are clamped into the groove bodies and shake back and forth in the groove bodies; a rotating shaft (722) is arranged on the clamping plate (723), and the rotating shaft (722) is rotationally connected with the groove body;

the surface of the movable plate (72) is provided with grooves (721) in a rectangular array, dye which is not completely melted during processing can fall into the grooves (721) under the action of gravity, waves can be generated along with the movement of cloth in the dipping tank (1) to drive dye liquor in the tank to act, the movable plate (72) is a buoyancy plate, and the dye can be rocked under the action of the waves to be dissolved in the dye liquor;

the middle part of the dipping tank (1) is provided with squeeze rollers (6) which are arranged in pairs, and a driving motor (2) for driving the squeeze rollers (6) to rotate is arranged outside the dipping tank (1); the roller surfaces of the squeeze rollers (6) are contacted; two groups of mounting tables (5) are arranged on the dipping tank (1), the mounting tables (5) are respectively arranged on the left side and the right side of the squeeze roller (6), and rotatable second guide rollers (9) are arranged at the bottoms of the mounting tables (5).

2. The heat-resistant and flame-retardant fabric impregnation processing mechanism according to claim 1, wherein the mounting table (5) is provided in a T shape.

3. The heat-resistant and flame-retardant fabric impregnation processing mechanism according to claim 1, wherein the liquid level in the impregnation tank (1) is higher than the second guide roller (9) and lower than the squeeze roller (6).

4. The heat-resistant flame-retardant fabric impregnation processing mechanism according to claim 1, wherein an inclined guide plate (8) is arranged on one side of the impregnation tank (1) facing the discharge end, and the guide plate (8) guides flow towards the impregnation tank (1).

5. The heat-resistant and flame-retardant fabric impregnation processing mechanism according to claim 4, wherein the guide plate (8) is positioned below the first guide roller (3) at the discharge end.

6. The heat-resistant flame-retardant fabric impregnation processing mechanism according to claim 1, wherein the impregnation tank (1) is provided with a water inlet pipe and a water outlet pipe, and the impregnation tank (1) is provided with a temperature sensor for detecting temperature.