CN205874726U - Fabric dewatering device - Google Patents

Abstract

The utility model relates to a fabric dewatering device. This fabric dewatering device includes casing, dehydration mechanism, dehydration volume metering mechanism, actuating mechanism and control mechanism. Wherein, dehydration mechanism includes dewatering barrel and basin, and the bottom of basin is equipped with first drain pipe, the dehydration volume metering mechanism install the first drain pipe of inclusive AND is linked together on the first drain pipe, the actuating mechanism drive dewatering barrel rotate, control mechanism is located the casing for control dehydration volume dehydration volume that metering mechanism monitored and control actuating mechanism's operation. When using this fabric dewatering device control tissue belt liquid rate, working as the dehydration volume and reaching the estimated value, the motor stops the operation, and the accurate of liquid rate of taking of fabric is controlled in the time of can realizing dewatering, improves the qualification rate of once taking the liquid rate. Simultaneously, use this plant dewatering device, the operation is convenient, save time, and the save material cost improves the quality of fabric.

Description

Fabric dehydration device

Technical field

This utility model relates to field of textiles, particularly to a kind of fabric dehydration device.

Background technology

At field of textiles, need to expect to fabric leaching, soak and reach the liquid carrying rate of requirement, to meet the need of subsequent handling Want.

Traditionally, for realizing the liquid carrying rate required, as follows to the processing procedure of fabric:

(1) weight of dry fabric is weighed；

(2) leaching material solution used is prepared；Fabric is immersed this solution, is thoroughly impregnated with；

(3) take out the fabric being impregnated with, put into dewaterer, estimate dewatering time by rule of thumb, manually stop dehydration；

(4) take out the fabric after dehydration, weigh, calculate liquid carrying rate；

Liquid carrying rate=(weight-dry weight after dehydration)/dry weight

(5) if liquid carrying rate reaches requirement, carry out subsequent processing, otherwise need again be impregnated with or be reentered into dewaterer Dehydration.

During in strict accordance with this standardized operation, find that first-time qualification rate is only 20% to 30%, even have fabric to need to repeat Carry out more than four times just reaching to control requirement.It addition, fabric is through the process of dehydration repeatedly, not only waste the substantial amounts of time And chemical raw material, and the flatness and outward appearance to fabric causes negative impact.

Utility model content

Based on this, it is necessary to provide a kind of fabric dehydration device that can effectively control fabric liquid carrying rate.

A kind of fabric dehydration device, including housing, dewatering device, dehydrating amount metrological service, drive mechanism and controlling organization；

Described dewatering device is positioned at described housing, including dehydration barrel, tank and first row water pipe；

Described dehydration barrel is positioned at the inside of described tank；

Described tank is fixing with described housing to be connected, and the bottom of described tank is provided with osculum and through hole；

Described first row water pipe connects by described osculum and described tank are fixing；

Described dehydrating amount metrological service and described first row cross current or be arranged on described first row water pipe with In monitoring dehydrating amount；

Described drive mechanism is fixedly mounted in described housing, and through described through hole be connected with described dehydration barrel for Described dehydration barrel is driven to rotate；

Described controlling organization is positioned on described housing for controlling the operating of described drive mechanism and monitoring described dehydration The dehydrating amount that gauge measuring mechanism is monitored.

Wherein in an embodiment, described dehydration metrological service includes liquid storing barrel and hydrostatic gauge；

Described liquid storing barrel and described first row cross current；It is interior for monitoring that described hydrostatic gauge is arranged on described liquid storing barrel Dehydrating amount；Described liquid storing barrel is provided with second row water pipe；Described second row water pipe is provided with valve；

Described controlling organization is by monitoring described hydrostatic gauge and described valve for monitoring dehydrating amount.

Wherein in an embodiment, described first row water pipe is connected with the bottom of described liquid storing barrel sidewall.

Wherein in an embodiment, described dehydration metrological service is effusion meter；

Described effusion meter is arranged on described first row water pipe；

Described controlling organization is by monitoring described effusion meter for monitoring dehydrating amount.

Wherein in an embodiment, described drive mechanism includes driving motor and drive shaft；

Described driving motor is fixedly mounted on the bottom in described housing；

One end of described drive shaft is connected with described driving electric machine rotation；Described drive shaft seals mutually with described through hole Abut, and make the other end of described drive shaft be rotationally connected with described dehydration barrel through described through hole.

Wherein in an embodiment, the rotating speed that dehydration barrel described in described driving driven by motor rotates is 200 to 1000r/ min。

Wherein in an embodiment, the top of described housing is located at by described controlling organization.

Wherein in an embodiment, described controlling organization includes the first control system and the second control system；

Described first control system is for controlling the operating of described drive mechanism；

Described second control system is connected with described first control system and is dehydrated metrological service's prison for monitoring is described The dehydrating amount surveyed.

Fabric described in the utility model dehydration device, be provided with in housing dewatering device, dehydrating amount metrological service and Drive mechanism is also provided with controlling organization on housing.Wherein, drive mechanism is for driving dehydration barrel in described dewatering device Operating and then drive moist fabric dehydration；Dehydrating amount metrological service is for monitoring the dehydrating amount of moist fabric；Controlling organization monitors The dehydrating amount that dehydrating amount metrological service is monitored and the operating of control drive mechanism.Dehydrating amount and budget when controlling organization monitoring Dehydrating amount identical time, controlling organization controls drive mechanism and shuts down and realize the accurate control of moist fabric liquid carrying rate, improves The qualification rate of liquid carrying rate.Meanwhile, fabric described in the utility model dehydration device can substantially be saved the process time, saves Material cost, improves the quality of fabric.This fabric dehydration device is safe and convenient to use, can use in common lab, it is possible to Come into operation in production.

Can there be various ways in dehydrating amount metrological service, as being the effusion meter being directly installed on first row water pipe； Liquid storing barrel and hydrostatic gauge can also be included, all can indirectly realize the monitoring of the dehydrating amount to moist fabric.Further, first The port of export of drain pipe is connected with the sidewall bottom of liquid storing barrel, it is ensured that the relatively minor swing of liquid level in liquid storing barrel, increases liquid The accuracy of pressure measurement amount.

Further, the rotating speed driving driven by motor dehydration barrel to rotate is less, can be precisely controlled dehydrating amount further, and Reduce error.

Further, controlling organization is arranged on the top of housing, and is divided into the first control system and the second control system, Convenient to operate, improve the suitability of device, and save resource.

Accompanying drawing explanation

Fig. 1 is the fabric dehydration device schematic diagram of an embodiment；

Fig. 2 is to use the fabric dehydration device dehydration schematic diagram to controlling fabric liquid carrying rate in Fig. 1.

Detailed description of the invention

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is more fully retouched State.Accompanying drawing gives preferred embodiment of the present utility model.But, this utility model can come real in many different forms Existing, however it is not limited to embodiment described herein.On the contrary, providing the purpose of these embodiments is to make public affairs of the present utility model The understanding opening content is more thorough comprehensively.

It should be noted that when element is referred to as " being fixed on " another element, and it can be directly on another element Or element placed in the middle can also be there is.When an element is considered as " connection " another element, and it can be to be directly connected to To another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein and scientific terminology are led with belonging to technology of the present utility model The implication that the technical staff in territory is generally understood that is identical.At term used in the description of the present utility model it is simply herein The purpose of specific embodiment is described, it is not intended that in limiting this utility model.Term as used herein " and/or " include Arbitrary and all of combination of one or more relevant Listed Items.

Incorporated by reference to Fig. 1, the fabric dehydration device 10 of an embodiment, including housing 100, dewatering device 200, dehydrating amount metering Mechanism 300, drive mechanism 400 and controlling organization 500.

Dewatering device 200 is positioned at housing 100, including dehydration barrel 210, tank 220 and first row water pipe 230.

Dehydration barrel 210 is positioned at the inside of tank 220, and for placing the fabric etc. soaked.

Tank 220 is fixing with housing 110 to be connected.The bottom of tank 220 is provided with osculum (not indicating in figure) and through hole (figure In do not indicate).

First row water pipe 230 connects by osculum is fixing with tank 220.

Dehydrating amount metrological service 300 connects or is arranged on first row water pipe 230 on first row water pipe 230.

In the present embodiment, dehydrating amount metrological service 300 includes liquid storing barrel 310 and hydrostatic gauge 320.

Liquid storing barrel 310 connects with first row water pipe 230.Liquid storing barrel 310 is provided with second row water pipe 330.Second row water pipe 330 It is provided with valve 331.

It is interior for monitoring dehydrating amount that hydrostatic gauge 320 is arranged on liquid storing barrel 310.Controlling organization 500 monitors hydrostatic gauge 320 He The dehydrating amount that valve 331 is monitored for monitoring dehydrating amount metrological service.

In the present embodiment, first row water pipe 230 is connected with the bottom of liquid storing barrel 310 sidewall, is used for ensureing liquid storing barrel The relatively minor swing of liquid level in 310, increases the accuracy that hydrostatic gauge 320 is measured.Owing to the pressure of liquid is relevant with height, work as liquid storage After the size of bucket and the density of liquid determine, the quality of liquid can be obtained by conversions such as height, liquid storing barrel floor spaces.

In other embodiments, dehydrating amount metrological service 300 can also be other form, as can be to be directly installed on Effusion meter on one drain pipe 230, or be arranged on the electronic scale etc. bottom liquid storing barrel 310, if can be used in directly or Connect monitoring dehydrating amount.

Drive mechanism 400 is fixedly mounted in housing 100, and is connected through through hole (not indicating in figure) with dehydration barrel 210 Rotate for driving dehydration barrel 210.Drive mechanism 400 includes driving motor 410 and drive shaft 420.

Motor 410 is driven to be fixedly mounted on the bottom in housing 100.

One end of drive shaft 420 is rotationally connected with driving motor 410.Drive shaft 420 seals against mutually with through hole, and The other end making drive shaft 420 through through hole is rotationally connected with dehydration barrel 210.Dehydration barrel he 210 rotation so that drive leaching Wet fabric is dehydrated.

Preferably, the rotating speed driving motor 410 to drive dehydration barrel 210 to rotate is 200 to 1000r/min.Use less Rotating speed, can be precisely controlled dehydrating amount further.It is of course also possible to be adjusted according to actual needs.

Controlling organization 500 is positioned on housing 100 for operating and the monitoring dehydrating amount dosing machine controlling drive mechanism 400 The dehydrating amount that structure 300 is monitored.

Controlling organization 500 includes the first control system 510 and the second control system 520.

First control system 510 is for controlling the operating of drive mechanism 300.

Second control system 520 be connected with the first control system 510 for monitoring dehydration metrological service 300 monitored Dehydrating amount.

In the present embodiment, the top of housing 100 is located at by controlling organization 500, facilitates manual operation, belongs to preferred technology Scheme.In other embodiments, controlling organization 500 can also drive as long as control can be reached on other position of housing 100 Motivation structure 400 operates and monitors dehydrating amount.It is appreciated that and controlling organization 500 is divided into the first control system 510 and second Control system 520, it is convenient to facilitate.In other embodiments, it is also possible to for other form, if not being divided into two systems etc..

It is as follows that the fabric dehydration device 10 using this utility model to relate to is controlled process to fabric liquid carrying rate:

(1) weight weighing dry fabric is designated as W₀；After fully being soaked by fabric, put into weighing container, weigh fabric Weight in wet base is designated as W₁；Liquid carrying rate needed for fabric is designated as Y；

(2) moist fabric in described weighing container and liquid are transferred completely in described dehydration barrel 210；

(3) open controlling organization 500, open drive mechanism 400 and make described dehydration barrel 210 operate the fabric soaked is entered Row dehydration；

During until the dehydrating amount W of the dehydrating amount of described controlling organization 500 monitoring and budget matches, described drive mechanism 400 shut down；

Wherein, dehydrating amount W is W=W₁-(1+Y)×W₀；

(4) fabric meeting liquid carrying rate requirement is taken out.

The fabric dehydration device 10 that this utility model relates to, when dehydrating amount and the dehydration of budget of controlling organization 500 monitoring When measuring identical, controlling organization 500 controls the accurate control that drive mechanism 400 shuts down and then realizes moist fabric liquid carrying rate, Improve the one-pass qualification rate of moist fabric liquid carrying rate.Meanwhile, fabric described in the utility model dehydration device can be bright Aobvious saving processes the time, saves material cost, improves the quality of fabric.This fabric dehydration device is safe and convenient to use, can be general Logical laboratory uses, it is possible to come into operation on producing.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, not to above-mentioned reality The all possible combination of each technical characteristic executed in example is all described, but, as long as the combination of these technical characteristics is not deposited In contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, But therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that, for the common skill of this area For art personnel, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into Protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (8)

1. fabric dehydration device, it is characterised in that include housing, dewatering device, dehydrating amount metrological service, drive mechanism and Controlling organization；

Described dewatering device is positioned at described housing, including dehydration barrel, tank and first row water pipe；

Described dehydration barrel is positioned at the inside of described tank；

Described tank is fixing with described housing to be connected, and the bottom of described tank is provided with osculum and through hole；

Described first row water pipe connects by described osculum and described tank are fixing；

Described dehydrating amount metrological service and described first row cross current or be arranged on described first row water pipe for prison Survey dehydrating amount；

Described drive mechanism is fixedly mounted in described housing, and is connected for driving through described through hole with described dehydration barrel Described dehydration barrel rotates；

Described controlling organization is positioned on described housing for controlling the operating of described drive mechanism and monitoring described dehydration gauge The dehydrating amount that measuring mechanism is monitored.

2. fabric dehydration device as claimed in claim 1, it is characterised in that described dehydration metrological service includes liquid storing barrel and liquid Pressure meter；

Described liquid storing barrel and described first row cross current；Described hydrostatic gauge is dehydrated for monitoring in being arranged on described liquid storing barrel Amount；Described liquid storing barrel is provided with second row water pipe；Described second row water pipe is provided with valve；

Described controlling organization is by monitoring described hydrostatic gauge and described valve for monitoring dehydrating amount.

3. fabric dehydration device as claimed in claim 2, it is characterised in that described first row water pipe and described liquid storing barrel sidewall Bottom be connected.

4. fabric dehydration device as claimed in claim 1, it is characterised in that described dehydration metrological service is effusion meter；

Described effusion meter is arranged on described first row water pipe；

Described controlling organization is by monitoring described effusion meter for monitoring dehydrating amount.

5. fabric dehydration device as claimed in claim 1, it is characterised in that described drive mechanism includes driving motor and transmission Rotating shaft；

Described driving motor is fixedly mounted on the bottom in described housing；

One end of described drive shaft is connected with described driving electric machine rotation；Described drive shaft and described through hole seal mutually to Connect, and make the other end of described drive shaft be rotationally connected with described dehydration barrel through described through hole.

6. fabric dehydration device as claimed in claim 5, it is characterised in that dehydration barrel described in described driving driven by motor rotates Rotating speed be 200 to 1000r/min.

7. fabric dehydration device as claimed in claim 1, it is characterised in that the upper of described housing be located at by described controlling organization Portion.

8. fabric dehydration device as claimed in claim 1, it is characterised in that described controlling organization include the first control system and Second control system；

Described first control system is for controlling the operating of described drive mechanism；

Described second control system is connected with described first control system and is dehydrated what metrological service monitored for monitoring is described Dehydrating amount.