CN109457425B - High-efficiency water washing tank - Google Patents

Abstract

The invention relates to a high-efficiency water washing tank which comprises a tank body, wherein a plurality of baffle plates are vertically arranged in the tank body in sequence, the heights of the baffle plates are gradually decreased along the water flow direction, the downstream end of the tank body is provided with overflow holes, the lower edge of each overflow hole is lower than the upper edge of the baffle plate with the lowest height, the upstream end of the tank body is provided with a liquid inlet device, the upstream side of each baffle plate is correspondingly provided with a baffle plate, the upper end of each baffle plate is higher than the corresponding baffle plate, a flow channel is formed between the baffle plate and the baffle plate, the lower end of each baffle plate is provided with a flow guide notch communicated with the flow channel, the bottom of each water washing tank is rotationally connected with a lower yarn guide roller, a pair of water washing tank rollers for squeezing yarns are arranged above the tank body at the liquid inlet end. The guide plate is arranged on the upstream side of the partition plate, so that the cleaning liquid newly flowing into the water washing tank can effectively dilute the original cleaning liquid in the water washing tank, and the utilization rate of the cleaning liquid is maximized.

Description

High-efficiency water washing tank

Technical field:

The invention belongs to the technical field of washing of textile machinery, and particularly relates to a high-efficiency washing box for yarns or fabrics.

The background technology is as follows:

The jean yarn and the fabric can enter the next procedure after being subjected to pretreatment or dyeing, the jean yarn and the fabric are cleaned, the cleaning is usually carried out by adopting a washing tank, the traditional cleaning part is formed by one or a plurality of independent washing tanks which are sequentially arranged, the inner cavity of each washing tank is not separated and is full of cleaning liquid, a plurality of yarn guide rollers which are arranged in an upper layer and a lower layer are arranged below the liquid level of the cleaning liquid, the yarn and the fabric enter the washing tank, the upper layer yarn guide roller and the lower layer yarn guide roller sequentially penetrate through the upper layer yarn guide roller and the lower layer yarn guide roller to be washed, and finally the cleaning is finished after the yarn and the fabric are pressed to be dry by a pair of cleaning padders, and then the yarn and the fabric enter the next washing tank or the next procedure. Because the water tank has large volume, each water tank is squeezed only once, and the pollution and impurity concentration of the cleaning liquid are consistent in one water tank, the cleaning liquid and the impurities in the yarn have no continuous and step-type efficient replacement effect when the water tank runs, so that the traditional water tank can cause serious water resource waste and has poor water washing effect.

The invention comprises the following steps:

The technical problems to be solved by the invention are as follows: the efficient washing box of the pulp dyeing machine can save water resources and greatly improve the washing effect.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a high-efficient washing case of pulp and dye machine, includes the case body, and the one end of case body is the feed liquor end, and the other end is the flowing back end, and the case body is internal to be provided with a plurality of baffles from the feed liquor end to flowing back end vertically in proper order, and the height of each baffle is from the feed liquor end to flowing back end progressively, and a plurality of baffles separate into a plurality of independent washing tanks of arranging in proper order with case body inner space, the communicating overflow port of washing tank with this end tip is seted up to the case body top that is located the flowing back end, and the lower edge of overflow port is less than the upper edge of the baffle of high minimum, the feed liquor end of case body is provided with a feed liquor device, and the washing liquid is poured into to the washing tank of feed liquor end tip to the flowing back end from the feed liquor end, and after filling each washing tank in proper order through water conservancy diversion wave formula, the outside the case body is discharged from the overflow port. Each baffle is provided with a baffle respectively corresponding to the upstream side of water flow, the upper end of the baffle is higher than the corresponding baffle, a directional flow channel is formed between the baffle and the baffle, the lower end of the baffle is provided with a flow guide notch communicated with the flow channel, cleaning liquid at the bottom of each washing tank overflows to the washing tank at the downstream side of the flow channel from the upper end of the baffle at one side of the flow channel through the flow guide notch and the flow channel, the bottom of each washing tank is rotationally connected with a lower yarn guide roller, a rotatable upper yarn guide roller is arranged above each baffle, and a pair of washing tank rollers for squeezing yarns are arranged above a tank body at the liquid inlet end.

As a preferable scheme, each upper yarn guide roller is correspondingly provided with a squeeze roller, the squeeze rollers are arranged right above the yarn guide rollers or on the downstream side of the partial water flow, the squeeze rollers are abutted against the upper yarn guide rollers, so that moisture and impurities in yarns which pass through the upper yarn guide rollers can be squeezed out, and the replacement effect of the impurities is improved.

As a preferable scheme, the upper end of any guide plate is also connected with a liquid baffle plate for shielding the upper opening of the flow passage, and the liquid baffle plate is inclined downwards along the water flow direction to guide the cleaning liquid dropped on the upper yarn guide roller into the washing tank at the downstream of the flow passage.

As a preferable scheme, the lower end of the guide plate is separated from the bottom surface of the box body to form a guide notch.

As a preferable scheme, the liquid inlet device is a spray pipe, a plurality of spray holes are formed in the spray pipe along the length direction, and the spray pipe is arranged on one side of the downstream of the water flow on the joint surface of the pair of water washing box rollers.

As a preferable scheme, the upper part of one end of the tank body, which is positioned at the liquid inlet end, is provided with a liquid receiving part which extends outwards, the liquid receiving part is positioned right below a pair of washing tank rollers and is used for receiving washing liquid which drips on the washing tank rollers, the bottom surface of the liquid receiving part is inclined to a washing tank positioned at the liquid inlet end, and the washing liquid received by the liquid receiving part flows into the washing tank positioned at the liquid inlet end along the bottom surface of the liquid receiving part.

As a preferable scheme, the bottom of the tank body is provided with drain valves which are in one-to-one correspondence with the water washing tanks, and each drain valve is communicated with a drain outlet at the bottom of the corresponding water washing tank through a pipeline. The number of the actually used washing tanks can be arbitrarily adjusted according to the production process requirement and through the selection of the blow-down valve.

As a preferable scheme, the drain outlet is arranged at the bottom of each washing tank of the tank body, and is communicated to the drain main pipe through the drain valve 17 corresponding to each washing tank, so that accumulated liquid in the tank can be drained during shutdown cleaning.

As a preferable scheme, the overflow hole is arranged on the side wall of the washing tank at the liquid discharge end part of the tank body, a guide plate opposite to the overflow hole is arranged in the washing tank at the liquid discharge end part, the height of the guide plate is not lower than that of the baffle plate with the lowest height, and the lower end of the guide plate is separated from the bottom surface of the tank body to form a guide notch.

As a preferable mode, a heating pipe for heating the cleaning liquid is provided at the bottom of each of the washing tanks, and a thermocouple for detecting the temperature of the cleaning liquid is provided at the upper part of each of the washing tanks.

The beneficial effects of the invention are as follows: through setting up a plurality of independent washing tanks that arrange in proper order in same box body and setting up the baffle height between each washing tank and progressively decrease in proper order from the feed liquor end to the flowing back end, and yarn then gets into each washing tank in proper order in the direction of water flow and wash, like this, the impurity concentration in each washing tank on the contrary rivers reduces gradually, the washing liquid that impurity concentration is lower in the washing tank upstream of rivers flows into in the washing tank downstream, reduce the washing liquid impurity concentration in the washing tank downstream, make impurity concentration in each washing tank remain in a predetermined range throughout, carry out effectual washing to the yarn, finally, the washing liquid that is located flowing back end tip washing tank is outside the box body through the overflow aperture, after carrying out cyclic filtration treatment or directly can continue to supply the washing tank to use, improve washing liquid utilization ratio, reduce manufacturing cost, water economy resource, sewage discharge is little also directly reduced the pollution to the environment and the cost for sewage treatment.

According to the invention, the guide plate is arranged on the upstream side of the partition plate, so that the cleaning liquid at the bottom of the washing tank overflows into the downstream washing tank through the flow channel, thereby avoiding the clean cleaning liquid from continuously overflowing downstream along the top layer of the cleaning liquid in each washing tank, ensuring that the cleaning liquid overflowed upstream effectively dilutes the cleaning liquid in the downstream washing tank, and ensuring the washing effect. The structure does not need energy cost, and has simple structure and obvious effect.

According to the invention, each upper yarn guide roller is further provided with the extrusion roller, the extrusion roller is utilized to extrude the yarns wound on the upper yarn guide rollers, so that the cleaning liquid and impurities in the yarns are extruded, the cleaning liquid and impurities are prevented from entering the water washing tank at the upstream of the water flow, and the cleaning liquid in the upstream water washing tank is polluted, so that the cleaning effect of the upstream water washing tank on the yarns is further improved. The washing effect of the washing tank is greatly improved through repeated extrusion and soaking of the extrusion roller.

According to the yarn washing device, the liquid baffle plate which covers the flow channel is arranged at the upper end of the guide plate, and can guide the washing liquid which is dripped on the upper yarn guide roller into the washing tank at the downstream of the flow channel, so that the washing liquid and impurities are prevented from entering the washing tank at the upstream of the water flow, the washing liquid in the washing tank at the upstream of the water flow is polluted, and the washing effect of the washing tank at the upstream of the water flow on yarns is further improved.

According to the invention, the lower end of the guide plate is further separated from the bottom surface of the box body to form the guide notch, so that cleaning liquid at the bottom of each washing tank can flow into the flow channel from the guide notch and finally overflows into the washing tank at the downstream of water flow from the upper end of the partition plate, and the dead angle of the water flow is reduced.

The invention further takes the spray pipe as a liquid inlet device, is arranged on one side of the combining surface of the pair of water washing box rollers, which is deviated to the downstream side of the water flow, sprays the yarn which is about to enter the combining surface of the water washing box rollers, washes away impurities and cleaning liquid on the yarn, reduces the impurity content in the squeezed yarn, and improves the yarn cleaning effect.

The invention further provides a liquid receiving part at the liquid inlet end of the box body, which is used for receiving the cleaning liquid dripped from the roller of the water washing box, avoiding the cleaning liquid dripping to the ground to pollute the working environment, and saving water resources.

According to the invention, the drain valves which are in one-to-one correspondence with the water washing tanks are further arranged at the bottom of the tank body, and the cleaning liquid in the water washing tanks is emptied through the drain valves, so that the cleaning liquid is conveniently emptied and the tank body is conveniently cleaned.

The invention further arranges the overflow hole at the bottom of the washing tank, connects the liquid discharge valve on the overflow hole, and can effectively discharge the washing liquid with highest impurity concentration at the bottom of the washing tank at the end part of the liquid discharge end by adjusting the flow of the liquid discharge valve and controlling the liquid discharge speed to be consistent with the liquid inlet speed of the liquid inlet device.

The invention also guides the overflow of the cleaning liquid in the liquid discharge end part washing tank by arranging a guide plate opposite to the overflow hole in the liquid discharge end part washing tank, so that the cleaning liquid with the highest impurity concentration at the bottom in the liquid discharge end part washing tank flows out from the overflow hole along the flow channel.

The invention further provides a heating pipe for heating the cleaning liquid at the bottom of each water washing tank, and a thermocouple for detecting the temperature of the cleaning liquid is arranged at the upper part of each water washing tank. Thereby realizing the temperature control of the cleaning liquid.

Description of the drawings:

The invention is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic structural view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

fig. 3 is a schematic structural view of a second embodiment of the present invention.

Fig. 1 to 3 show: 1. the box body, 101, the feed liquor end, 102, the flowing back end, 2, the baffle, 3, the washing tank, 4, the overflow aperture, 5, the feed liquor device, 6, the guide plate, 7, the runner, 8, the water conservancy diversion notch, 9, the lower godet, 10, go up the godet, 11, yarn, 12, washing box roll, 13, keep off the liquid board, 14, the portion of bending, 15, squeeze roll, 16, liquid portion that connects, 17, flowing back valve, 18, pipeline, 19, heating pipe, 20, thermocouple.

The specific embodiment is as follows:

Specific embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The high-efficiency washing tank as shown in fig. 1 and 2 comprises a tank body 1, one end of the tank body 1 is a liquid inlet end 101, the other end is a liquid outlet end 102, a plurality of partition boards 2 are vertically arranged in the tank body 1 in sequence from the liquid inlet end 101 to the liquid outlet end 102, three partition boards 2 are selected as examples in the embodiment, the height of each partition board 2 is gradually decreased from the liquid inlet end 101 to the liquid outlet end 102, the three partition boards 2 divide the internal space of the tank body 1 into four independent washing tanks 3 which are sequentially arranged, the tank body 1 positioned at the liquid outlet end 102 is provided with overflow holes 4 communicated with the washing tanks 3 at the end part, the lower edge of each overflow hole 4 is lower than the upper edge of the partition board 2 with the lowest height, the liquid inlet end 101 of the tank body 1 is provided with a liquid inlet device 5, the liquid inlet device 5 injects washing liquid into the washing tank 3 at the end part of the liquid inlet end 101, after each washing tank 3 is filled in sequence from the liquid inlet end 101 to the liquid outlet end 102, the washing liquid is discharged out of the tank body 1 from the overflow holes 4, each baffle plate 2 is correspondingly provided with a baffle plate 6 on the upstream side of water flow, the upper end of each baffle plate 6 is higher than the corresponding baffle plate 2, a flow channel 7 is formed between each baffle plate 6 and each baffle plate 2, the lower end of each baffle plate 6 is provided with a flow guide notch 8 communicated with the corresponding flow channel 7, the washing liquid positioned at the bottom in each washing tank 3 overflows from the upper end of each baffle plate 2 on one side of the corresponding flow channel 7 to the washing tank 3 on the downstream side of the corresponding flow channel 7 through the corresponding flow guide notch 8 and the corresponding flow channel 7, the bottom of each washing tank 3 is rotationally connected with a lower yarn guide roller 9, a rotatable upper yarn guide roller 10 is arranged above each baffle plate 2, and a pair of washing tanks 12 for squeezing yarns 11 are arranged above the tank body 1 positioned at the liquid inlet end 101.

In this embodiment, each upper yarn guiding roller 10 is correspondingly provided with a squeeze roller 15, the squeeze rollers 15 are disposed right above the yarn guiding rollers 10 or at the downstream side of the partial water flow, and the squeeze rollers 15 are abutted against the upper yarn guiding rollers 10, so that moisture and impurities in the yarns 11 wound around the upper yarn guiding rollers 10 can be squeezed out.

In this embodiment, the upper end of any one of the guide plates 6 is further connected with a liquid blocking plate 13 for blocking the upper opening of the flow channel 7, and the liquid blocking plate 13 is inclined downward along the water flow direction to guide the cleaning liquid dropped on the upper yarn guiding roller 10 into the water washing tank 3 downstream of the flow channel 7. The cross section of the liquid baffle 13 is in a reverse semicircular shape, and the center of the upper yarn guide roller 10 corresponding to the partition plate 2 below the liquid baffle 13 is deviated to the downstream side of the water flow at the highest point of the liquid baffle 13.

As shown in fig. 1, the lower end of the deflector 6 is separated from the bottom surface of the tank body 1 to form a deflector notch 8, the lower end of the deflector 6 is bent towards the side of the flow channel 7 to form a bending part 14, the bending part 14 enables the deflector notch 8 to be in a horn shape, and the bending part can guide cleaning liquid at the bottom of the water washing tank to enter the flow channel 7 and simultaneously can back flow downwards to form a barrier for the cleaning liquid in the flow channel 7.

The liquid inlet device 5 in this embodiment is a shower pipe provided at the junction surface of the pair of box rolls 12 to the downstream side of the water flow. The spray pipes are uniformly provided with a plurality of spray holes which are arranged along the length direction of the spray pipes, and the yarns 11 wound on the roll 12 of the washing box are sprayed and washed.

As shown in fig. 1, the tank body 1 is provided with a liquid receiving portion 16 extending outwards at an upper portion of one end of the liquid inlet end 101, the liquid receiving portion 16 is located under a pair of water-washing tank rollers 12 and is used for receiving the washing liquid dropped on the water-washing tank rollers 12, the bottom of the liquid receiving portion 16 is inclined towards the water washing tank 3 located at the end of the liquid inlet end 101, and the washing liquid received by the liquid receiving portion 16 flows into the water washing tank 3 located at the end of the liquid inlet end 101 along the bottom of the liquid receiving portion 16.

As shown in fig. 1, the bottom of the tank body 1 is provided with drain valves 17 corresponding to the respective washing tanks 3 one by one, and each drain valve 17 communicates with the bottom of the corresponding washing tank 3 through a pipe 18.

As shown in fig. 1, a heating pipe 19 for heating the cleaning liquid is arranged at the bottom of each water washing tank 3, the heating pipe 19 is electrically connected with a temperature controller and controlled by the temperature controller, a thermocouple 20 for detecting the temperature of the cleaning liquid is arranged at the upper part of each water washing tank 3, and the thermocouple 20 is electrically connected with the temperature controller and feeds back the actual temperature of the cleaning liquid to the temperature controller. When the device is used, the temperature control instrument is set with a required temperature according to the temperature requirement of the water washing process, and the temperature control instrument controls the heating pipe to heat the cleaning liquid to a set temperature according to the actual temperature fed back by the thermocouple.

In this embodiment, the overflow hole 4 is disposed on the sidewall of the end portion of the drain end 102 of the tank body 1 and the sidewall of the rinse tank 3 at the end portion of the drain end 102 is provided with a baffle 6 opposite to the overflow hole 4, a flow channel 7 is formed between the baffle 6 and the sidewall of the overflow hole 4, the height of the baffle 6 is not lower than the height of the lowest partition plate 2, and the lower end of the baffle 6 is separated from the bottom surface of the tank body 1 to form a flow guiding notch 8.

The working process of the invention is as follows: as shown in fig. 1 and 2, firstly, yarn to be cleaned is introduced into a right end portion washing tank 3 from above the right end portion (i.e., a liquid discharge end 102) of a tank body 1, the yarn is wound around a lower yarn guide roller 9 in the right end washing tank 3 of the tank body 1, then wound up around an upper yarn guide roller 10 at the rightmost end, and then reversed down into a second washing tank 3 at the right end of the tank body, and so forth, after passing through each washing tank 3 one by one, the yarn is pulled between a pair of washing tank rollers 12, then cleaning liquid is injected into the washing tank 3 at the end portion of the liquid inlet end 101 through a shower pipe (i.e., a liquid inlet device 5 in fig. 1), when the yarn is washed, the cleaning liquid level in the washing tank 3 at the end portion of the liquid inlet end 101 is higher than a baffle 2 constituting the washing tank 3, and overflows into the washing tank 3 at the downstream side, and so forth, and finally, the yarn is pulled down into the washing tank 3 by one by a shower head, the yarn is sprayed onto the washing tank roller 12 wound up on the water tank roller, and then the cleaning liquid is gradually pushed into the water tank 3 at the water inlet plate 16 along the water inlet portion of the water inlet plate 3 at the bottom of the water inlet plate 3, and the water inlet plate 16 of the water inlet plate 3 is gradually moved up along the water inlet plate 3, and the water inlet plate 16 is gradually along the water inlet plate 3 at the water inlet plate 1, and the water inlet plate 1 is gradually down along the water inlet plate 16 at the water inlet plate 3, the cleaning solution at the upper end of the flow channel 7 overflows into the second water washing tank 3 at the left side of the tank body 1 beyond the first partition plate 2 at the left side of the tank body 1, so that the cleaning solution in the second water washing tank 3 at the left side of the tank body 1 is diluted, and the flow modes of the cleaning solution in the other water washing tanks 3 except the water washing tank 3 at the rightmost side of the tank body 1 are similar to those of the cleaning solution in the water washing tank 3 at the leftmost side of the tank body 1, which is not described in detail herein.

The flow of the cleaning liquid in one of the water tanks 3 (the water tank 3 on the right in fig. 1) located at the most downstream of the water flow is the same as the flow of the cleaning liquid in each of the other water tanks 3, except that the cleaning liquid in the other water tanks 3 overflows into the downstream water tank 3, and the cleaning liquid in the water tank 3 at the most downstream is directly discharged out of the tank body 1.

Since the guide plate 6 is arranged on the upstream side of each partition plate 2, the cleaning liquid newly entering each washing tank 3 can be effectively diluted by the cleaning liquid in the washing tank 3, so that the impurity concentration of the cleaning liquid in each washing tank 3 is always kept within a certain range, and the cleaning effect of each washing tank 3 on yarns is ensured.

When the impurity concentration of the cleaning liquid in each water washing tank is found to be close to the upper limit, the impurity concentration of the cleaning liquid in each water washing tank 3 can be quickly reduced by increasing the spraying amount of the spraying head.

Example 2

The specific structure of the efficient washing tank of the pulp dyeing machine shown in fig. 3 is substantially the same as that of the embodiment 1, except that the overflow hole 4 in the embodiment is provided at the bottom of the washing tank 3 at the end of the liquid discharge end 102 of the tank body 1, and the liquid discharge valve 17 corresponding to the washing tank 3 is connected to the overflow hole 4.

Because the overflow hole 4 is arranged at the bottom of the water washing tank 3 at the end part of the liquid discharging end 102 of the tank body 1, the cleaning liquid with highest impurity concentration at the bottom of the water washing tank 3 at the end part of the liquid discharging end 102 of the tank body 1 can be directly discharged through the liquid discharging valve 17, and the baffle 6 is not required to be arranged in the water washing tank 3 at the end part of the liquid discharging end 102 of the tank body 1, so that the structure is simpler, the control of the liquid discharging speed of the overflow hole 4 can be realized by selecting the liquid discharging valve 17 with adjustable flow, and the flow of the liquid discharging valve 17 is equal to the flow of the liquid inlet device 5 by adjusting the flow of the liquid discharging valve 17.

The above embodiments are merely illustrative of the principles and effects of the present invention, and some of the applied embodiments, and are not intended to limit the invention; it should be noted that modifications and improvements can be made by those skilled in the art without departing from the inventive concept, and these are all within the scope of the present invention.

Claims (9)

1. The utility model provides a high-efficient washing case, including case body (1), a serial communication port, the one end of case body (1) is feed liquor end (101), the other end is flowing back end (102), vertically set up a plurality of baffles (2) in proper order from feed liquor end (101) to flowing back end (102) in case body (1), the height of each baffle (2) is from feed liquor end (101) to flowing back end (102) progressively decrease in proper order, a plurality of baffles (2) separate into a plurality of independent washing groove (3) of arranging in proper order with case body (1) inner space, set up on case body (1) that is located flowing back end (102) with the communicating overflow hole (4) of washing groove (3) of flowing back end (102) tip, the lower edge of overflow hole (4) is less than the upper edge of highly minimum baffle (2) of flowing back end (102), the washing liquid end (101) of each baffle (1) are provided with one feed liquor device (5) in proper order, the washing liquid is poured into washing groove (3) of flowing back end (101) from feed liquor end (101), the washing liquid is flowed back end (6) to each corresponding to the upper baffle (6) of flowing back end (2) of flowing back end (1) in proper order, the overflow hole (4), a flow channel (7) is formed between a flow guide plate (6) and a partition plate (2), a flow guide notch (8) communicated with the flow channel (7) is formed at the lower end of the flow guide plate (6), cleaning liquid at the bottom in each water washing groove (3) overflows from the upper end of the partition plate (2) at one side of the flow channel (7) to the water washing groove (3) at the downstream side of the flow channel (7) through the flow guide notch (8) and the flow channel (7) in an upward flowing mode, a lower yarn guide roller (9) is rotationally connected to the bottom of each water washing groove (3), a rotatable upper yarn guide roller (10) is arranged above each partition plate (2), a pair of water washing box rollers (12) used for squeezing yarns (11) are arranged above a box body (1) at a liquid inlet end (101), the lower end of the flow guide plate (6) is bent towards the side of the flow channel (7) to form a bending portion (14), and the lower end of the flow guide plate (6) is separated from the bottom surface of the box body (1) to form the flow guide notch (8).

2. The efficient washing tank according to claim 1, wherein each upper yarn guiding roller (10) is correspondingly provided with a squeeze roller (15), the squeeze rollers (15) are arranged right above the yarn guiding rollers (10) or on the downstream side of the bias water flow, the squeeze rollers (15) are abutted against the upper yarn guiding rollers (10), and moisture and impurities in yarns (11) wound around the upper yarn guiding rollers (10) are squeezed out.

3. The efficient washing tank according to claim 2, wherein the upper end of any one of the guide plates (6) is further connected with a liquid baffle plate (13) for shielding the upper opening of the flow passage (7), and the liquid baffle plate (13) is inclined downwards along the water flow direction to guide the washing liquid dropped on the upper yarn guide roller (10) into the washing tank (3) at the downstream of the flow passage (7).

4. The efficient washing tank as claimed in claim 1, wherein the liquid inlet device (5) is a shower pipe, a plurality of shower holes are formed in the shower pipe along the length direction, and the shower pipe is arranged at one side of the junction surface of the pair of washing tank rollers (12) which is deviated to the downstream side of the water flow.

5. The efficient washing tank according to claim 1, wherein a liquid receiving portion (16) extending outwards is arranged at an upper portion of one end of the tank body (1) located at the liquid inlet end (101), the liquid receiving portion (16) is located right below the pair of washing tank rollers (12) and is used for receiving washing liquid dropped on the washing tank rollers (12), a bottom surface of the liquid receiving portion (16) is inclined towards the washing tank (3) located at the end of the liquid inlet end (101), and the washing liquid received by the liquid receiving portion (16) flows into the washing tank (3) located at the end of the liquid inlet end (101) along the bottom surface of the liquid receiving portion (16).

6. The efficient washing tank according to claim 1, wherein the bottom of the tank body (1) is provided with drain valves (17) corresponding to the washing tanks (3) one by one, and each drain valve (17) is communicated with the bottom of the corresponding washing tank (3) through a pipeline (18).

7. The efficient washing tank as claimed in claim 6, wherein the overflow hole (4) is provided at the bottom of the washing tank (3) at the end of the liquid discharge end (102) of the tank body (1), and the liquid discharge valve (17) corresponding to the washing tank (3) is connected to the overflow hole (4).

8. The efficient washing tank according to claim 1, wherein the overflow hole (4) is formed in the side wall of the washing tank (3) at the end part of the liquid discharge end (102) of the tank body (1), a guide plate (6) opposite to the overflow hole (4) is arranged in the washing tank (3) at the end part of the liquid discharge end (102), the height of the guide plate (6) is not lower than the height of the partition plate (2) with the lowest height, and the lower end of the guide plate (6) is separated from the bottom surface of the tank body (1) to form a guide notch (8).

9. The efficient washing tank according to claim 1, wherein a heating pipe (19) for heating the cleaning liquid is arranged at the bottom of each washing tank (3), a thermocouple (20) for detecting the temperature of the cleaning liquid is arranged at the upper part of each washing tank (3), a required temperature is arranged on a temperature control instrument according to the temperature requirement of the washing process, and the temperature controller controls the heating pipe to heat the cleaning liquid to a set temperature according to the actual temperature fed back by the thermocouple.