CN205382318U - Hydroextractor water saving system - Google Patents

Abstract

The utility model discloses a hydroextractor water saving system, including hydroextractor, the catch basin that is used for subsiding impurity, filter equipment, circulating water pump and the dyeing machine that connects gradually, the catch basin is equipped with water inlet and delivery port, the hydroextractor through first pipeline with the water inlet is connected, the delivery port pass through the second pipeline with the dyeing machine is connected, filter equipment locates the catch basin with between the dyeing machine, circulating water pump locates on the second pipeline. The utility model discloses environmental pollution has been avoided on the one hand to the waste water that can make full use of be produced by the hydroextractor, and on the other hand has practiced thrift the water resource, has reached the beneficial effect of environmental protection and energy saving.

Description

A kind of dewaterer water-saving system

Technical field

This utility model relates to the technical field of weaving, particularly relates to a kind of dewaterer water-saving system.

Background technology

Dyeing, is course of processing fibrous material being caught color.Namely occur physically or chemically to be combined with fiber by dyestuff, or chemically on fiber, generate pigment and make whole textile become colored objects.The kind of dyeing installation is a lot: 1, according to machine operation character, can be divided into batch dying machine and continuous dyeing machine；2, according to colouring method, impregnating mangle, dye jigger, padding mangle etc. can be divided into；3, by pollutant state, stock dyeing machine, yarn dyeing machine, fabric dyeing machine can be divided into.Reasonable selection dyeing machinery equipment is to improving product quality, reduce production cost, improving production efficiency important role.

After cloth has been dyeed by staining machine, dewaterer carry out dehydration, produce substantial amounts of waste water, at present, the process to waste water, it is common that directly discharge, not only environment is caused pollution, wastes again the water resource of recoverable simultaneously.

In view of this, the present inventor studies and devises a kind of dewaterer water-saving system, and this case thus produces.

Utility model content

The purpose of this utility model is in that to provide a kind of dewaterer water-saving system, by wastewater recycling system, to solve the technical problem that prior art dewaterer waste water can not re-use.

To achieve these goals, the technical scheme in the invention for solving the technical problem is:

A kind of dewaterer water-saving system, including the dewaterer being sequentially connected with, for settling the collecting-tank of impurity, defecator, water circulating pump and dyeing machine, described collecting-tank is provided with water inlet and outlet, described dewaterer is connected with described water inlet by the first pipeline, described outlet is connected with described dyeing machine by second pipe, described defecator is located between described collecting-tank and described dyeing machine, and described water circulating pump is located on described second pipe.

As the optimal way of embodiment, described defecator includes mesh screen layer and active carbon layer, and described in two, mesh screen layer is respectively arranged on the both sides of active carbon layer.

As the optimal way of embodiment, described collecting-tank also includes surge chamber and sewage draining exit, and described surge chamber is located at described water inlet, and described sewage draining exit is located at the bottom of described collecting-tank.

As the optimal way of embodiment, described collecting-tank also includes scraper plate, and the bottom of described collecting-tank is located at by described scraper plate.

As the optimal way of embodiment, also including controller, described controller electrically connects with described scraper plate and described water circulating pump respectively.

Owing to this utility model a kind of dewaterer water-saving system have employed above-mentioned technical scheme, including the dewaterer being sequentially connected with, for settling the collecting-tank of impurity, defecator, water circulating pump and dyeing machine, described collecting-tank is provided with water inlet and outlet, described dewaterer is connected with described water inlet by the first pipeline, described outlet is connected with described dyeing machine by second pipe, described defecator is located between described collecting-tank and described dyeing machine, and described water circulating pump is located on described second pipe；Make this utility model can make full use of the waste water produced by dewaterer, avoid environmental pollution on the one hand, saved water resource on the other hand, reached the beneficial effect of environmental protection and energy saving.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

As shown in Figure 1, this utility model discloses a kind of dewaterer water-saving system, including the dewaterer 1 being sequentially connected with, for settling the collecting-tank 2 of impurity, defecator 3, water circulating pump 4 and dyeing machine 5, described collecting-tank 2 is provided with water inlet 21 and outlet 22, described dewaterer 1 is connected with described water inlet 21 by the first pipeline, described outlet 22 is connected with described dyeing machine 5 by second pipe, described defecator 3 is located between described collecting-tank 2 and described dyeing machine 5, and described water circulating pump 4 is located on described second pipe.

As the optimal way of embodiment, described defecator 3 includes mesh screen layer 31 and active carbon layer 32, and described in two, mesh screen layer 31 is respectively arranged on the both sides of active carbon layer 32.

As the optimal way of embodiment, described collecting-tank 2 also includes surge chamber 23 and sewage draining exit 24, and described surge chamber 21 is located at described water inlet, and described sewage draining exit sets 22 in the bottom of described collecting-tank.Described surge chamber includes riser and transverse slat, and riser is located at collecting-tank top, and transverse slat is located at collecting-tank sidewall, forms cushion space, it is possible to effectively buffer cycles pipe flow water out, it is prevented that the heavy mud in bottom has been rushed.Regularly open sewage draining exit so that heavy mud to be purged.

As the optimal way of embodiment, described collecting-tank also includes scraper plate, and the bottom of described collecting-tank is located at by described scraper plate.Scraper plate, for the mud at the bottom of wiper pond, can be started by motor.

As the optimal way of embodiment, also including controller, described controller electrically connects with described scraper plate and described water circulating pump respectively.Adopt controller, it is possible to be effectively improved the transfer ability of collecting-tank.

When using technical solutions of the utility model, the waste water that dewaterer is discharged, by pipe-line system, after collecting-tank carries out dyestuff sedimentation, after filtering further then through defecator, is again delivered to staining machine further by water circulating pump.This utility model had both effectively protected environment, had saved again resource, and applicable textile enterprise promotes the use of.

The above, be only this utility model preferred embodiment, therefore can not limit the scope that this utility model is implemented according to this, and the equivalence namely made according to this utility model the scope of the claims and description changes and modifies, and all should still belong in the scope that this utility model is contained.

Claims (5)

1. a dewaterer water-saving system, it is characterized in that: the dewaterer that includes being sequentially connected with, for settling the collecting-tank of impurity, defecator, water circulating pump and dyeing machine, described collecting-tank is provided with water inlet and outlet, described dewaterer is connected with described water inlet by the first pipeline, described outlet is connected with described dyeing machine by second pipe, described defecator is located between described collecting-tank and described dyeing machine, and described water circulating pump is located on described second pipe.

2. a kind of dewaterer water-saving system as claimed in claim 1, it is characterised in that: described defecator includes mesh screen layer and active carbon layer, and described in two, mesh screen layer is respectively arranged on the both sides of active carbon layer.

3. a kind of dewaterer water-saving system as claimed in claim 1, it is characterised in that: described collecting-tank also includes surge chamber and sewage draining exit, and described surge chamber is located at described water inlet, and described sewage draining exit is located at the bottom of described collecting-tank.

4. a kind of dewaterer water-saving system as claimed in claim 1, it is characterised in that: described collecting-tank also includes scraper plate, and the bottom of described collecting-tank is located at by described scraper plate.

5. a kind of dewaterer water-saving system as claimed in claim 4, it is characterised in that: also including controller, described controller electrically connects with described scraper plate and described water circulating pump respectively.