CN210916643U - Reverse flow control system of washing machine - Google Patents

Abstract

The utility model relates to a rinsing machine flow reversal control system, including the washing unit, be provided with a plurality of washing chambeies in the washing unit, one side in washing chamber is provided with water inlet and overflow mouth, and the overflow mouth of a plurality of washing chambers of arranging along the direction of advancing increases one by one, and the overflow mouth in the washing chamber of foremost side is high the highest promptly, and the overflow mouth in the washing chamber of last side highly minimum, is connected with the overflow pipe between the overflow mouth in preceding washing chamber and the water inlet in the washing chamber of next. The utility model relates to a rinsing machine flow reversal control system has water economy resource, reduces waste water discharge, reduction in production cost's advantage.

Description

Reverse flow control system of washing machine

Technical Field

The utility model relates to a rinsing machine flow reversal control system belongs to printing and dyeing equipment technical field.

Background

The rope-shaped washing machine is called rope washing machine for short, and is usually used for washing dyed fabrics to wash away residual floating color slurry on the surfaces of the fabrics and further fix the color of the fabrics. Traditional rope form rinsing machine is because structural design is unreasonable, need supply water alone to every washing chamber, need wash many times at the washing in-process and trade water many times, leads to the water consumption big, waste resources seriously, manufacturing cost height.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a rinsing machine backflow control system of water economy resource, reduction waste water discharge, reduction in production cost is provided to above-mentioned prior art.

The utility model provides a technical scheme that above-mentioned problem adopted does: the utility model provides a rinsing machine flow reversal control system, includes the washing unit of a plurality of series connections, be provided with a plurality of washing chambeies in the washing unit, one side in every washing chamber all is provided with water inlet and overflow mouth, and the overflow mouth in a plurality of washing chambers highly increases along advancing cloth direction gradually, and the overflow mouth in the washing chamber of foremost side is highly highest promptly, and the overflow mouth in the washing chamber of rearmost side highly is minimum, is connected through the overflow pipe between the overflow mouth in preceding washing chamber and the water inlet in the washing chamber of back.

Preferably, a main pipe is arranged below the plurality of overflow pipes, and the main pipe is respectively connected with the plurality of overflow pipes through a plurality of branch pipes.

Preferably, the overflow pipe and the branch pipe are respectively provided with a first valve and a second valve.

Preferably, each water washing cavity is provided with a liquid level meter.

Preferably, a water delivery main pipe is arranged on one side of the lower box body and is respectively connected with the plurality of water washing cavities in the lower box body through a plurality of water delivery pipes.

Preferably, the overflow port of the last side washing cavity of the previous washing unit is connected with the water inlet of the foremost side washing cavity of the next washing unit through an overflow pipe.

Preferably, a water replenishing pipe is connected with a water inlet of the foremost side water washing cavity of the foremost side water washing unit.

Preferably, an overflow port of the last side washing cavity of the last side washing unit is connected with a water outlet pipe.

Compared with the prior art, the utility model has the advantages of:

the utility model relates to a washing machine flow reversal control system, all be provided with water inlet and overflow mouth (highest liquid position point) on every washing chamber, the overflow mouth height of a plurality of washing chambers of arranging along the direction of feed increases one by one, the overflow mouth of the preceding washing chamber all external one set of overflow pipe insert the water inlet of the next washing chamber, make a plurality of washing chambers can flow backwards step by step, guarantee that the water resource can obtain effective cyclic utilization, the drawback that traditional manifold cleaning needs many times to discharge has been avoided, can reach the purpose of saving resources, also can reduce manufacturing cost, improve economic benefits; in addition, a main pipe is connected between each set of overflow pipelines, and according to actual requirements, through valve control, cross-level backflow can be achieved, and cost performance is improved.

Drawings

Fig. 1 is a schematic structural view of the continuous rope-shaped jet washing machine of the present invention.

Fig. 2 is a schematic structural view of the water washing unit in fig. 1.

Fig. 3 is a side view of fig. 2.

FIG. 4 is a schematic diagram of the positions and connection relationships of overflow ports of a plurality of water washing chambers.

Fig. 5 is a partial side view of fig. 4.

Fig. 6 is a top view of fig. 2.

Fig. 7 is a schematic view of the laying tube of fig. 6, viewed at a transverse angle.

Fig. 8 is a schematic view of the routing tube of fig. 6, viewed at a vertical angle.

Fig. 9 is a schematic structural view of a cloth lifting mechanism in the first embodiment.

Fig. 10 is a schematic structural view of the cloth lifting wheel assembly in fig. 9.

Fig. 11 is a side view of fig. 10.

Fig. 12 is a schematic structural view of a cloth lifting mechanism in the second embodiment.

Fig. 13 is a side view of fig. 12.

Wherein:

water washing unit 1

An upper box body 201, a lower box body 202, a clapboard 202.1, a water washing cavity 202.2, a bottom plate 202.3, a top plate 202.4, a drain pipe 202.5, a water delivery pipe 202.6, a first vertical section 202.7 of the lower box body, a second vertical section 202.8 of the lower box body and an arc section 202.9 of the lower box body

The cloth running pipe 3, a first vertical section 301, a first arc-shaped section 302, a first transverse section 303, an oblique section 304, a second transverse section 305, a second arc-shaped section 306 and a second vertical section 307

Cloth lifting mechanism 4

In fig. 9-11: cloth lifting wheel assembly 401A, transmission shaft 401.1A, cloth lifting wheel 401.2A, disc 401.2.1A, crosspiece 401.2.2A, driving motor 401.3A, press roll assembly 402A, air cylinder 402.1A, air cylinder seat 402.2A, rotating shaft 402.3A, rotating arm 402.4A and cloth pressing roll 402.5A

In fig. 12-13: cloth lifting wheel assembly 401B, transmission shaft 401.1B, cloth lifting wheel 401.2B, disc 401.2.1B, crosspiece 401.2.2B, rubber strip 401.2.3B and driving motor 401.3B

Feed inlet 5

Discharge port 6

Cloth dropping roller 7

Roll stack 8

Support 901, filter equipment 902, filter equipment box 902.1, filter equipment inlet pipe 902.2, drain valve 902.3, filter plugboard 902.4, water pump 903, water intaking pipe 903.1

Connecting pipe 10

Circulation pipe 11

A water inlet 121, an overflow port 122, an overflow pipe 123, a branch pipe 124, a main pipe 125.

Detailed Description

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

Referring to fig. 1-13, the utility model relates to a continuous rope-shaped jet washing machine, including a plurality of washing units 1 connected in series, washing unit 1 includes upper box 201 and lower box 202, lower box 202 sets up to the ascending U-shaped structure of opening, be provided with the polylith baffle 202.1 of erectting along advancing cloth direction interval in lower box 202, polylith baffle 202.1 separates lower box 202 into a plurality of washing chambeies 202.2, links through walking the cloth pipe 3 between two adjacent washing chambeies 202.2, be provided with a cloth lifting mechanism 4 along advancing cloth direction in upper box 201, every washing chamber 202.2 top all corresponds to be provided with a cloth lifting mechanism 4;

the lower box body 202 comprises a first lower box body vertical section 202.7 and a second lower box body vertical section 202.8 which are arranged left and right, a lower box body arc-shaped section 202.9 is connected between the first lower box body vertical section 202.7 and the second lower box body vertical section 202.8, the lower box body arc-shaped section 202.9 comprises a bottom plate 202.3 and a top plate 202.4, and an arc-shaped rinsing bath is formed between the bottom plate 202.3 and the top plate 202.4;

the upper box body 201 is arranged at the top of the second vertical section 202.8 of the lower box body;

the rear side of the upper box body 201 is provided with a feeding hole 5, the front side of the upper box body 201 is provided with a discharging hole 6, a roller set 8 and a doffing roller 7 are arranged in the discharging hole 6, and a middle cloth guide roller is arranged between the roller set 8 and the doffing roller 7.

A support 901 is arranged on one side of the lower box body 202, a plurality of filtering devices 902 are sequentially arranged on the support 901 along the cloth feeding direction, the filtering devices 902 are respectively in one-to-one correspondence with the washing cavities 202.2, a drain pipe 202.5 is arranged at the bottom of each washing cavity 202.2, the filtering devices 902 are connected with the drain pipes 202.5 corresponding to the washing cavities 202.2 through connecting pipes 10, a water pump 903 is correspondingly arranged on one side of each filtering device 902, the water pump 903 is connected with the filtering devices 902 through a water taking pipe 903.1, and the water pump 903 is connected with a cloth feeding pipe 3 above the corresponding washing cavity 202.2 through a circulating pipe 11;

the filtering device 902 comprises a filtering device box 902.1, a filtering plugboard 902.3 is arranged in the filtering device box 902.1, a filtering device water inlet is arranged at the bottom of the filtering device box 902.1, a filtering device water outlet is arranged on the side wall of the filtering device box 902.1, and the filtering device water inlet is connected with a drain pipe 202.5 through a connecting pipe 10;

a filter device water inlet pipe 902.2 is arranged downwards at the water inlet of the filter device, and the filter device water inlet pipe 902.2 is communicated with one end of the connecting pipe 10;

the bottom end of the water inlet pipe 902.2 of the filtering device is provided with a drain valve 902.3;

a water inlet of the water pump 903 is formed in one side of the water pump 903, a water outlet of the water pump 903 is formed in the other side of the water pump 903, a water taking pipe 903.1 is arranged at the water inlet of the water pump, the water taking end of the water taking pipe 903.1 penetrates through the water outlet of the filtering device and extends into the filtering device box body 902.1 and is bent downwards to the lower portion of the filtering device box body 902.1, and the water outlet of the water pump is connected with the cloth inlet of the corresponding cloth feeding pipe 3 through a circulating pipe 11;

the filter insert plate 902.4 is arranged obliquely;

two filter insert plates 902.4 are provided.

A water inlet 121 and an overflow port 122 are arranged on one side of the water washing cavities 202.2, the overflow port 122 is positioned above the water inlet 121, the heights of the overflow ports 122 of the water washing cavities 202.2 are sequentially increased along the cloth feeding direction, namely the height of the overflow port 122 of the water washing cavity 202.2 on the foremost side is the highest, the height of the overflow port 122 of the water washing cavity 202.2 on the rearmost side is the lowest, and an overflow pipe 123 is connected between the overflow port 122 of the previous water washing cavity 202.2 and the water inlet 121 of the next water washing cavity 202.2;

a header pipe 125 is disposed below the plurality of overflow pipes 123, and the header pipe 125 is connected to the plurality of overflow pipes 123 through a plurality of branch pipes 124;

the overflow pipe 123 and the branch pipe 124 are respectively provided with a first valve and a second valve;

the height difference of the overflow ports 122 of every two adjacent water washing cavities is set to be 10-50 mm.

The other side of the washing cavity 202.2 is provided with a water conveying pipe 202.6, the water conveying pipe 202.6 is provided with a third valve, and a water conveying main pipe is connected among the water conveying pipes 202.6.

The cloth moving pipe 3 comprises a first vertical section 301, a first arc-shaped section 302 with an upward concave surface, a first transverse section 303, an oblique section 304, a second transverse section 305, a second arc-shaped section 306 with a downward concave surface and a second vertical section 307 which are sequentially connected, the first transverse section 303, the oblique section 304 and the second transverse section 305 are positioned in the same horizontal plane, the first vertical section 301 and the first arc-shaped section 302 are positioned above the first transverse section 303, the oblique section 304 and the second transverse section 305, the second vertical section 307 and the second arc-shaped section 306 are positioned below the first transverse section 303, the oblique section 304 and the second transverse section 305, the cloth moving pipe 3 is in an S-shaped structure in the longitudinal direction and in a Z-shaped structure in the transverse direction, the first arc-shaped section 302 and the first vertical section 301 extend into the water washing cavity 202.2 and extend upwards into the upper box body, the second arc-shaped section 306 and the second vertical section 307 extend into the adjacent water washing cavity 202.2 and extend downwards, and the top end of the cloth moving pipe 3 of the first vertical section is a cloth moving end of the cloth moving pipe 201, the bottom end of the second vertical section 307 is a cloth outlet end of the cloth feeding pipe 3, and the nozzle is positioned above the cloth inlet end of the cloth feeding pipe 3;

the cloth feeding end of the cloth feeding pipe 3 is positioned below the cloth lifting mechanism 4 corresponding to the water washing cavity 202.2;

the cloth moving pipe 3 can convey and transition the fabric which finishes the running route in the next washing cavity 202.2 into the previous washing cavity 202.2 to continuously run, the running route of the fabric in the cloth moving pipe 3 is changed twice, the running speed is reduced at the S-shaped bend, the water flow speed exceeds the running speed of the fabric twice, and the water flow passes through the fabric to clean impurities carried on the surface and the internal structure of the fabric.

The cloth lifting mechanism 4 in this embodiment is provided with two structural forms:

example one

The cloth lifting mechanism 4 comprises a compression roller assembly 402A and a cloth lifting wheel assembly 401A which are arranged up and down, the cloth lifting wheel assembly 401A comprises a transmission shaft 401.1A, the transmission shaft 401.1A is arranged between the left box wall and the right box wall of the upper box body 201, one end of the transmission shaft 401.1A is provided with a driving motor 401.3A, the middle of the transmission shaft 401.1A is provided with a cloth lifting wheel 401.2A, the cloth lifting wheel 401.2A comprises a left disc 401.2.1A and a right disc 401.2.1A which are arranged on the transmission shaft 401.1A in a penetrating mode, a plurality of cross bars 401.2.2A are arranged between the left disc 401.2.1A and the right disc 401.2.1A, a plurality of cross bars 401.2.2A are located on the same circumference, a plurality of cross bars 401.2.2A are arranged at intervals, and a gap exists;

the press roll assembly 402A comprises a cylinder seat 402.2A, an air cylinder 402.1A is hinged on the cylinder seat 402.2A, the air cylinder 402.1A is installed on the upper box body 201 through the cylinder seat 402.2A, a rotating shaft 402.3A is arranged below the air cylinder 402.1A, a left rotating arm 402.4A and a right rotating arm 402.4A are arranged on the rotating shaft 402.3A, a cloth pressing roller 402.5A is arranged between the left rotating arm 402.4A and the right rotating arm 402.4A, the cloth pressing roller 402.5A is arranged in parallel with a cloth lifting wheel 401.2A, and the lower end of the air cylinder 402.1A is connected with the middle part of the rotating arm 402.4A;

the cloth lifting wheel 401.2A is made of stainless steel;

the cloth pressing roller 402.5A is made of rubber.

The fabric wraps the outer ring of the cloth lifting wheel, the driving motor drives the cloth lifting wheel to rotate, the cloth lifting wheel drives the fabric to move through friction, the control cylinder stretches out to drive the cloth pressing roller to move downwards, pressure is generated between the control cylinder and the cloth lifting wheel, the friction between the fabric and the cloth lifting wheel is increased, and accordingly squeezing and traction force increasing are achieved.

Example two

The cloth lifting mechanism 4 comprises a cloth lifting wheel assembly 401B, the cloth lifting wheel assembly 401B comprises a transmission shaft 401.1B, the transmission shaft 401.1B is arranged between the left and right box walls of the upper box body 201, one end of the transmission shaft 401.1B is provided with a driving motor 401.3B, the middle of the transmission shaft 401.1B is provided with a cloth lifting wheel 401.2B, the cloth lifting wheel 401.2B comprises a left disc 401.2.1B and a right disc 401.2.1B which are arranged on the transmission shaft 401.1B in a penetrating mode, a plurality of crosspieces 401.2.2B are arranged between the left disc 401.2.1B and the right disc 401.2.1B at intervals, the crosspieces 401.2.2B are located on the same circumference, and a rubber strip 401.2.3B protruding outwards is embedded between every two adjacent crosspieces 401.2.2B;

the disk 401.2.1B and the crosspiece 401.2.2B are made of stainless steel.

Because the surface of carrying the cloth wheel evenly inlays and is equipped with a plurality of bellied rubber strips, when the fabric package in the surface of carrying the cloth wheel, drive the fabric motion through the frictional force between rubber strip and the fabric, in addition, because the surface of rubber strip is higher than the surface of carrying the cloth wheel, carry the cloth wheel and can realize squeezing the water to the fabric rotating the in-process, traditional compression roller formula structure has been replaced, greatly reduced manufacturing cost, and the rubber strip has acid and alkali-resistance, high temperature resistant, resistance to compression non-deformable's advantage, the life of carrying the cloth wheel has been prolonged.

The working principle is as follows:

the water washing unit in this embodiment takes four water washing cavities as an example:

the multiple washing cavities arranged along the cloth feeding direction are sequentially a first washing cavity, a second washing cavity, a third washing cavity and a fourth washing cavity, wherein the height of an overflow port of the fourth washing cavity is the highest, the height of an overflow port of the first washing cavity is the lowest, an overflow pipe between the overflow port of the fourth washing cavity and a header pipe is a first overflow pipe, an overflow pipe between the overflow port of the third washing cavity and the header pipe is a second overflow pipe, an overflow pipe between the overflow port of the second washing cavity and the header pipe is a third overflow pipe, a branch pipe between the first overflow pipe and a water inlet of the third washing cavity is a first branch pipe, a branch pipe between the second overflow pipe and a water inlet of the second washing cavity is a second branch pipe, and a branch pipe between the third overflow pipe and a water inlet of the first washing cavity is a third branch pipe;

the cloth lifting mechanisms arranged along the cloth feeding direction are sequentially an excessive cloth lifting mechanism, a first cloth lifting mechanism, a second cloth lifting mechanism, a third cloth lifting mechanism and a fourth cloth lifting mechanism, wherein the first cloth lifting mechanism, the second cloth lifting mechanism, the third cloth lifting mechanism and the fourth cloth lifting mechanism are respectively and correspondingly arranged above the first washing cavity, the second washing cavity, the third washing cavity and the fourth washing cavity;

the plurality of cloth passing pipes arranged along the cloth feeding direction are sequentially a first cloth passing pipe, a second cloth passing pipe, a third cloth passing pipe and a fourth cloth passing pipe, wherein the first cloth passing pipe is arranged between the transition cloth lifting mechanism and the first washing cavity, the second cloth passing pipe is arranged between the first washing cavity and the second washing cavity, the third cloth passing pipe is arranged between the second washing cavity and the third washing cavity, and the fourth cloth passing pipe is arranged between the third washing cavity and the fourth washing cavity;

after washing water is simultaneously conveyed into a plurality of washing cavities to a certain set water level through a water conveying main pipe, the fabric enters a washing unit through a feed port, sequentially passes through an excessive fabric lifting mechanism, a first fabric running pipe, a first washing cavity, a first fabric lifting mechanism, a second fabric running pipe, a second washing cavity, a second fabric lifting mechanism, a third fabric running pipe, a third washing cavity, a third fabric lifting mechanism, a fourth fabric running pipe, a fourth washing cavity and a fourth fabric lifting mechanism, and finally enters the next washing unit through a discharge port;

during the advancing process of the fabric, the washing water in the washing cavity is filtered by the filtering device and then is introduced into a nozzle at the cloth inlet end of the cloth conveying pipe through a water pump, the water flow sprayed by the nozzle drives the fabric, and when the fabric runs into the washing cavity from the cloth outlet end of the cloth conveying pipe, the fabric naturally and smoothly slides downwards along the radian of the wall of the washing cavity under the dual actions of water flow and gravity to be immersed into the working solution and is fully immersed in the arc-shaped washing tank, and the fabric moves forwards under the action of the water flow and the traction force of the cloth lifting mechanism and smoothly advances along a set operation route;

in the process of cleaning the fabric, the water in the first washing cavity is washed for the first time, the pollution degree is highest and needs to be directly discharged, the water in the second washing cavity is washed for the second time, the pollution degree is slightly lower than that of the first washing cavity, and by analogy, the water in the fourth washing cavity is cleanest, the water is supplemented into the fourth washing cavity through the water supplementing pipe (the first valve is closed, the second valve is opened), because the heights of the overflow ports of the fourth washing cavity, the third washing cavity, the second washing cavity and the first washing cavity are reduced one by one, when the washing water level in the fourth washing cavity reaches the overflow port position (the highest liquid level point), the washing water can flow back into the third washing cavity through the first overflow pipe and the first branch pipe, when the washing water level in the third washing cavity reaches the overflow port position, the washing water can flow back into the second washing cavity through the second overflow pipe and the second branch pipe, and when the washing water level in the second washing cavity reaches the overflow port position, the water flows back to the first water washing cavity through the third overflow pipe and the third branch pipe;

when a plurality of washing units are connected in series, the water inlet of the fourth washing cavity in the washing unit at the foremost side is externally connected with a water replenishing pipe along the cloth feeding direction, the overflow port of the first washing cavity in the washing unit at the rearmost side is externally connected with a water outlet pipe, the overflow port of the first washing cavity in the previous washing unit is connected with the water inlet of the fourth washing cavity in the next washing unit through an overflow pipe, and used washing water in the first washing cavity in the washing unit at the rearmost side is directly discharged through the water outlet pipe. Therefore, water resources can be effectively recycled, the defect that multiple times of emission is needed in the traditional multiple cleaning process is overcome, the purpose of saving resources can be achieved, the production cost can be reduced, and the economic benefit is improved.

According to the actual demand, can also realize the refluence of bypassing one's shoulders. If the agent is added into the washing water in the third washing cavity, the third washing cavity needs to be avoided when the washing water flows backwards, a first valve on a first overflow pipe between the fourth washing cavity and the third washing cavity can be opened, a second valve on a first branch pipe communicated with the first overflow pipe is closed, a first valve on a second overflow pipe between the third washing cavity and the second washing cavity is opened, the washing water in the fourth washing cavity can flow backwards to the second washing cavity directly through the first overflow pipe, a header pipe, a lower section of the second overflow pipe and the second branch pipe, and therefore cross-level backflow is achieved, and cost performance is improved.

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 (7)

1. The utility model provides a rinsing machine flow reversal control system, includes a plurality of washing unit (1) of establishing ties, be provided with a plurality of washing chambeies (202.2), its characterized in that in washing unit (1): one side of every washing chamber (202.2) all is provided with water inlet (121) and overflow mouth (122), overflow mouth (122) of a plurality of washing chambers (202.2) highly increase along advancing cloth direction, the height of overflow mouth (122) of washing chamber (202.2) of foremost side is the highest promptly, the height of overflow mouth (122) of washing chamber (202.2) of rearmost side is the lowest, be connected through overflow pipe (123) between overflow mouth (122) of preceding washing chamber (202.2) and the water inlet (121) of the washing chamber (202.2) of back.

2. The backflow control system of the washing machine as claimed in claim 1, wherein: a main pipe (125) is arranged below the overflow pipes (123), and the main pipe (125) is respectively connected with the overflow pipes (123) through a plurality of branch pipes (124).

3. The backflow control system of the washing machine as claimed in claim 2, wherein: the overflow pipe (123) and the branch pipe (124) are respectively provided with a first valve and a second valve.

4. The backflow control system of the washing machine as claimed in claim 1, wherein: a liquid level meter is arranged in each water washing cavity (202.2).

5. The backflow control system of the washing machine as claimed in claim 1, wherein: an overflow port (122) of the last side washing cavity (202.2) of the previous washing unit (1) is connected with a water inlet (121) of the foremost side washing cavity (202.2) of the next washing unit (1) through an overflow pipe (123).

6. The backflow control system of the washing machine as claimed in claim 1, wherein: a water supplementing pipe is connected with a water inlet (121) of the foremost side washing cavity (202.2) of the foremost side washing unit (1).

7. The backflow control system of the washing machine as claimed in claim 1, wherein: an overflow port (122) of a last side washing cavity (202.2) of the last side washing unit (1) is connected with a water outlet pipe.

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