CN211947558U - Double-deck cooling trough of padder - Google Patents

Abstract

The utility model relates to a double-deck cooling trough of padder belongs to dyeing and finishing equipment technical field. The cooling device comprises a trough inner wall and a trough outer wall, wherein the trough inner wall and the trough outer wall form an interlayer trough, a guide plate unit is arranged in an inner cavity of the interlayer trough, a cooling liquid inlet and a cooling liquid outlet are formed in the interlayer trough, and the cooling liquid enters the interlayer trough inner cavity through the cooling liquid inlet and then flows out through the guide plate unit after being guided by the guide plate unit. The guide plate unit comprises a plurality of C-shaped guide plates, the C-shaped guide plates are uniformly arranged in the inner cavity of the interlayer trough at intervals, a notch is reserved between each C-shaped guide plate and the inner cavity of the interlayer trough, and the cooling liquid is in a labyrinth shape. This application is in getting into the intermediate layer silo with the coolant liquid through the coolant liquid import and be labyrinth type flow by C type guide plate and flow backward by the coolant liquid export outflow. The interlayer trough is cooled by the cooling liquid, so that the waterproof auxiliary agent in the interlayer trough can be cooled, and the stability of the waterproof effect of the cloth is ensured.

Description

Double-deck cooling trough of padder

Technical Field

The utility model relates to a double-deck cooling trough of padder belongs to dyeing and finishing equipment technical field.

Background

The waterproof finishing is an important process of textile fabric after-finishing, the textile fabric is subjected to waterproof treatment by using a padder, a waterproof auxiliary agent is added into a material groove of the padder, and after the textile fabric is subjected to waterproof treatment by the material groove of the padder, the finished textile fabric has good waterproof performance. However, in summer, the working temperature of the padder is too high, the waterproof auxiliary agent in the trough is in a high-temperature state, and the waterproof auxiliary agent is easy to lose effectiveness. At present, the method for cooling the waterproof auxiliary agent is that workers add ice blocks into a material groove, but the working space of a padder is small, the workers add ice blocks into the material groove inconveniently, and the concentration of the waterproof auxiliary agent cannot be guaranteed, so that the waterproof performance of textiles is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a padder double-deck cooling silo is provided to above-mentioned prior art, in narrow and small space, is convenient for cool off the silo for waterproof auxiliary agent in the silo can cool off, guarantees cloth water-proof effects's stability.

The utility model provides a technical scheme that above-mentioned problem adopted does: the utility model provides a double-deck cooling silo of padder, includes silo inner wall and silo outer wall, silo inner wall and silo outer wall constitute the intermediate layer silo, intermediate layer silo inner chamber sets up the guide plate unit, set up coolant liquid import and coolant liquid export on the intermediate layer silo, the coolant liquid is imported after letting in intermediate layer silo inner chamber through the coolant liquid and is flowed by the coolant liquid export behind the guide plate unit water conservancy diversion.

The guide plate unit comprises a plurality of C-shaped guide plates, the C-shaped guide plates are uniformly arranged in the inner cavity of the interlayer trough at intervals, a notch is reserved between each C-shaped guide plate and the inner cavity of the interlayer trough, and the cooling liquid is in a labyrinth shape.

The outer wall of the material groove is coated with a layer of heat insulation layer.

And a temperature sensor is arranged in the interlayer trough, an angle seat valve is arranged at the cooling liquid inlet, and the angle seat valve is in signal connection with the temperature sensor.

Compared with the prior art, the utility model has the advantages of: a rolling mill double-layer cooling trough is characterized in that cooling liquid enters an interlayer trough through a cooling liquid inlet and flows backwards in a labyrinth shape through a C-shaped guide plate and flows out of a cooling liquid outlet. The interlayer trough is cooled by the cooling liquid, so that the waterproof auxiliary agent in the interlayer trough can be cooled, and the stability of the waterproof effect of the cloth is ensured.

Drawings

Fig. 1 is a schematic view of a padder double-layer cooling trough according to an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is an installation schematic diagram of a padder double-layer cooling trough according to an embodiment of the present invention;

in the figure, the outer wall of a trough 1, the inner wall of a trough 2, a 3C-type guide plate, a cooling liquid outlet 4, a cooling liquid inlet 5, a heat-insulating layer 6 and a 7-angle seat valve are arranged.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 and 2, the double-layer cooling trough for padders in the embodiment includes a trough inner wall 2 and a trough outer wall 1, wherein the trough inner wall 2 and the trough outer wall 1 form an interlayer trough, and a plurality of C-shaped guide plates 3 are arranged in an inner cavity of the interlayer trough at uniform intervals to reinforce the inner cavity of the interlayer trough. A gap is reserved between each C-shaped guide plate 3 and the inner cavity of the interlayer trough, and the C-shaped guide plates 3 enable the inner cavity of the interlayer trough to have a maze-shaped trend. And a temperature sensor is arranged in the interlayer trough and used for detecting the temperature of the waterproof auxiliary agent in the interlayer trough. A cooling liquid inlet 5 is formed in one side of the interlayer trough, an angle seat valve 7 is arranged on the cooling liquid inlet 5, the angle seat valve 7 is in signal connection with a temperature sensor, and the temperature sensor controls the angle seat valve 7 to be opened or closed, so that the cooling liquid inlet 5 is opened or closed; coolant outlet 4 is seted up to intermediate layer silo opposite side, and when the temperature of the waterproof auxiliary agent in the intermediate layer silo exceeded the settlement temperature, temperature sensor control angle seat valve 7 opened for coolant liquid is gone into the intermediate layer silo inner chamber through coolant liquid import 5 and is carried out labyrinth type water conservancy diversion by coolant liquid outlet 4 after 3 by C type guide plates and flows, has increased the cooling area of intermediate layer silo. When the temperature of the waterproof auxiliary agent in the interlayer trough does not exceed the set temperature, the waterproof auxiliary agent does not need to be cooled, and the angle seat valve 7 is in a closed state, so that the energy consumption is saved. The outer wall 1 of the material groove is coated with a heat-insulating layer which plays a heat-insulating role for the material groove of the interlayer.

As shown in figure 3, the waterproof auxiliary agent is arranged on a padder, the waterproof auxiliary agent is added into an interlayer trough, and the cloth is guided into the interlayer trough through a cloth guide roller to carry out waterproof treatment on the cloth. When the temperature sensor detects that the temperature of the waterproof auxiliary agent is overheated, the temperature sensor controls the angle seat valve 7 to be opened, the cooling liquid in the circulating box enters the inner cavity of the interlayer trough through the cooling liquid inlet 5, and the cooling liquid flows backwards in a labyrinth shape through the C-shaped guide plate 3 and then flows to the circulating box through the cooling liquid outlet 4, so that the cooling liquid is recycled. The coolant liquid cools off the interlayer trough, so that the waterproof auxiliary agent in the interlayer trough can be cooled, and the stability of the waterproof performance of the cloth is ensured.

In addition to the above embodiments, the present invention also includes other embodiments, and all technical solutions formed by equivalent transformation or equivalent replacement should fall within the protection scope of the claims of the present invention.

Claims (4)

1. The utility model provides a padder double-deck cooling trough which characterized in that: including silo inner wall (2) and silo outer wall (1), silo inner wall (2) and silo outer wall (1) constitute the intermediate layer silo, intermediate layer silo inner chamber sets up the guide plate unit, set up coolant liquid inlet (5) and coolant liquid outlet (4) on the intermediate layer silo, the coolant liquid is imported (5) and is let in behind the intermediate layer silo inner chamber through the guide plate unit water conservancy diversion by coolant liquid outlet (4) outflow through coolant liquid.

2. The padder double-layer cooling trough according to claim 1, characterized in that: the guide plate unit comprises a plurality of C-shaped guide plates (3) and is multiple, the C-shaped guide plates (3) are uniformly arranged in the inner cavity of the interlayer trough at intervals, a gap is reserved between each C-shaped guide plate (3) and the inner cavity of the interlayer trough, and the cooling liquid is distributed in a labyrinth shape.

3. The padder double-layer cooling trough according to claim 1, characterized in that: the outer wall (1) of the material groove is coated with a heat-insulating layer.

4. The padder double-layer cooling trough according to claim 1, characterized in that: the interlayer trough is internally provided with a temperature sensor, the cooling liquid inlet (5) is provided with an angle seat valve (7), and the angle seat valve (7) is in signal connection with the temperature sensor.

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