CN109823076B - Low-noise high-stability plate washer - Google Patents

Abstract

The invention discloses a low-noise high-stability plate washer, which comprises a frame, a plate washer and a plate washer platform, wherein the plate washer is arranged on the frame, and the plate washer platform is arranged in the plate washer; further comprises: a plurality of medicine water tanks, a plurality of cylindrical brushes, a cylindrical brush rolling mechanism, a medicine water tank swinging mechanism and a cylindrical brush swinging mechanism; the medicine water tank is positioned above the plate washing platform; the two sides of the liquid medicine box are fixedly connected with telescopic shafts, the two ends of each telescopic shaft are connected to the two side walls of the plate washing box through shaft sleeves, and the telescopic shafts can move left and right in the shaft sleeves; the bottom of the liquid medicine tank is connected with a brush; the plurality of cylindrical brushes are in transmission connection through a cylindrical brush rolling mechanism by adopting a first speed reducer; a plurality of liquid medicines are in transmission connection through a liquid medicine tank swinging mechanism by adopting a second speed reducer; the plurality of cylindrical brushes are in transmission connection through a cylindrical brush swinging mechanism by adopting a third speed reducer; the invention realizes the small load, low noise, stable and safe work of the actuating mechanism of the cylinder brush and the liquid medicine box through the ingenious connection of the speed reducer and the plurality of brushing pieces.

Description

Low-noise high-stability plate washer

Technical Field

The invention relates to cleaning equipment, in particular to a low-noise high-stability plate washer.

Background

The plate making is to make a film from a digital pattern generated by a computer or directly print the pattern on a plate material through a printer, then expose and solidify the pattern by an exposure machine, and then clean the pattern in a plate washing box in a plate washing machine; and then a series of procedures such as drying, removing adhesion and the like are carried out to finish the pre-printing work. In the prior plate washer, the power transmission mode of the medicine water tank group or the cylindrical brush group adopts two adjacent medicine water tanks or two cylindrical brushes to directly pass through gear transmission, and each group of medicine water tanks or the cylindrical brush group is provided with a motor as a total output unit, so that the driving mode has the advantages of large load, large noise, large gear abrasion, easy unstable work phenomenon, and potential safety hazard of rolling in clothes of people during the gear transmission.

Disclosure of Invention

The invention aims to solve the technical problems that in the traditional plate washer, the power transmission mode of a medicine water tank group or a cylinder brush group is large in load, large in noise and large in gear abrasion, and unstable in work is easy to cause, and provides a low-noise high-stability plate washer:

the low-noise high-stability plate washer comprises a frame, a plate washing box and a plate washing platform, wherein the plate washing box is arranged on the frame, and the plate washing platform is arranged in the plate washing box; further comprises: a plurality of medicine water tanks, a plurality of cylindrical brushes, a cylindrical brush rolling mechanism, a medicine water tank swinging mechanism and a cylindrical brush swinging mechanism; the medicine water tank is positioned above the plate washing platform; the two sides of the liquid medicine box are fixedly connected with telescopic shafts, the two ends of each telescopic shaft are connected to the two side walls of the plate washing box through shaft sleeves, and the telescopic shafts can move left and right in the shaft sleeves; the bottom of the liquid medicine tank is connected with a brush; a water outlet leading to the hairbrush is formed in the inner bottom of the liquid medicine tank; the cylindrical brushes are arranged among the liquid medicine boxes in a staggered manner; a central shaft is arranged in the cylindrical brush, and two ends of the central shaft are connected with two side walls of the plate washing box through shaft sleeves; the cylindrical brush can move left and right in the shaft sleeve; the cylindrical brush rolling mechanism comprises a first motor and a plurality of first speed reducers, wherein key slot holes are formed in the output end of each first speed reducer, the first motor is arranged on the right side of the frame, the plurality of first speed reducers are all arranged on the right outer side wall of the plate washing box, the plurality of key slot holes are all connected with the right end part of a corresponding central shaft through keys, the right end part of the central shaft is in clearance fit with the key slot holes, and the right end part of the central shaft can do telescopic motion relative to the key slot holes; the first motor is connected with the input ends of a plurality of first speed reducers through a first transmission assembly; the liquid medicine box swinging mechanism comprises a second motor, a plurality of second speed reducers and a second eccentric transmission assembly, wherein the second motor is fixedly connected to the left side of the frame, and the second speed reducers are all arranged on the left outer side wall of the plate washing box; the output end of the second motor is connected with the input ends of a plurality of second speed reducers through a second transmission assembly; the output end of each second speed reducer is connected with the left ends of two telescopic shafts on one medicine water tank through a second eccentric transmission assembly; the cylindrical brush swinging mechanism comprises a plurality of third speed reducers and a third eccentric transmission assembly, and the third speed reducers are all arranged on the left outer side wall of the plate washing box; the input end of the third speed reducer is connected with the output end of the second motor through a third transmission assembly; and the output end of each third speed reducer is connected with the left end part of a central shaft through a third eccentric transmission assembly.

Preferably, the second eccentric transmission assembly comprises a second transmission shaft, a second eccentric block, a second bearing and a second transmission block; one end of the second transmission shaft is vertically connected to the output end of the second speed reducer, the other end of the second transmission shaft is connected to one end of the second eccentric block, and the second bearing is connected to the top of the other end of the second eccentric block through a connecting piece; the second transmission block is connected with the left ends of two telescopic shafts on one medicine water tank through a connecting piece; the bottom of the second transmission block is provided with a second long hole matched with the second bearing, and the second bearing is positioned in the second long hole and can move in the second long hole.

Preferably, the third eccentric transmission assembly comprises a third transmission shaft, a third eccentric block, a third bearing, a third transmission block and a guide post, one end of the third transmission shaft is vertically connected with the output end of the third speed reducer, the other end of the third transmission shaft is connected with one end of the third eccentric block, and the third bearing is connected with the top of the other end of the third eccentric block through a connecting piece; the third transmission block is connected with the left end of the central shaft through a connecting piece; a third long hole matched with the third bearing is formed in the bottom of the third transmission block, and the third bearing is positioned in the third long hole and can move in the third long hole; and the third transmission block is perpendicular to the left side wall of the medicine water tank and is provided with a guide hole, and the guide column is fixedly connected to the left side wall of the medicine water tank and is correspondingly matched with the guide hole.

Preferably, the first transmission assembly comprises a plurality of first couplings, a synchronizing wheel A, a synchronizing wheel B and a synchronizing belt A; the first speed reducers comprise front and rear first input shafts, a plurality of first speed reducers are arranged side by side, and two adjacent first input shafts between two adjacent first speed reducers are connected through the first shaft coupling; the synchronous wheel A is connected to the output end of the first motor, the synchronous wheel B is connected to one of the first input shafts, and the synchronous wheel A and the synchronous wheel B are in transmission connection through the synchronous belt A.

Preferably, the second transmission assembly comprises a plurality of second couplings, a synchronizing wheel C, a synchronizing wheel D and a synchronizing belt B; the second speed reducers comprise front and rear second input shafts, a plurality of second speed reducers are arranged side by side, and two adjacent second input shafts between two adjacent second speed reducers are connected through the second coupling; the synchronous wheel C is connected to the output end of the second motor, the synchronous wheel D is connected to one of the second input shafts, and the synchronous wheel C and the synchronous wheel D are in transmission connection through the synchronous belt B.

Preferably, the third transmission assembly comprises a plurality of third couplings, and a synchronizing wheel E, a synchronizing wheel F and a synchronizing belt C; the third speed reducers comprise front and rear third input shafts, a plurality of third speed reducers are arranged side by side, and two adjacent third input shafts between two adjacent third speed reducers are connected through a third coupling; the synchronous wheel E is connected to one of the second input shafts, the synchronous wheel F is connected to one of the third input shafts, and the synchronous wheel E and the synchronous wheel F are in transmission connection through the synchronous belt C.

Preferably, the second and third transmission blocks are made of fluoroplastic or POM material.

Compared with the prior art, the invention has the advantages that:

1. the cylinder brush and the liquid medicine tank are driven by the speed reducer, and two adjacent input shafts in each group of speed reducers in the cylinder brush rolling mechanism, the liquid medicine tank swinging mechanism and the cylinder brush swinging mechanism are connected through the transmission of the coupler.

2. The rolling mechanism of the cylindrical brush realizes the rotation of the cylindrical brush, thereby realizing the rolling, brushing and platemaking of the surface of the cylindrical brush.

3. The right end part of the central shaft is in clearance fit with the key slot hole, and the central shaft is driven to move left and right rapidly relative to the plate washing platform by being driven by the second eccentric transmission assembly in cooperation with the second speed reducer, so that the cylindrical brush can perform quick left and right washing actions on the plate.

4. The third eccentric transmission assembly is matched with the driving of the third speed reducer so as to drive the telescopic shafts fixedly connected with the two sides of the liquid medicine box to rapidly move left and right relative to the plate washing platform, and therefore the brush can rapidly perform left and right washing on the plate.

Drawings

FIG. 1-schematic left side view of a low noise high stability plate washer

FIG. 2-schematic right side view of low noise high stability plate washer

FIG. 3-Low noise high stability plate washer top view

FIG. 4-schematic diagram of a second eccentric drive assembly

In the figure. 1-frame, 2-plate washing box, 3-medicine water tank, 4-cylinder brush, 5-first motor, 6-first speed reducer, 7-second motor, 8-second speed reducer, 9-third speed reducer, 10-second transmission shaft, 11-second eccentric block, 12-second bearing, 13-second transmission block, 14-third transmission block, 15-plane shaking and brushing mechanism, 16-second medicine water tank, 17-shaking plate, 18-swinging long hole, 19-fourth motor and 20-fourth speed reducer

Detailed Description

The present invention will be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments are shown, for the purpose of illustrating the invention, but the scope of the invention is not limited to the specific embodiments shown.

It will be understood that when an element is referred to as being "fixed, affixed, connected, or in communication with" another element, it can be directly fixed, affixed, connected, or in communication with the other element or intervening elements may be present.

Unless defined otherwise, all technical and scientific terms used hereinafter have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the scope of the present invention.

Examples

The invention is further illustrated by the following examples in conjunction with the accompanying drawings 1-4 of the specification:

embodiment one:

the low-noise high-stability plate washer comprises a frame 1, a plate washing box 2 and a plate washing platform, wherein the plate washing box 2 is arranged on the frame 1, and the plate washing platform is arranged in the plate washing box 2; further comprises: six liquid medicine tanks 3, four cylindrical brushes 4, a cylindrical brush rolling mechanism, a liquid medicine tank swinging mechanism and a cylindrical brush swinging mechanism; six liquid medicine tanks 3 are arranged above the plate washing platform in parallel; two sides of each medicine water tank 3 are fixedly connected with a telescopic shaft, two ends of the telescopic shaft are connected to two side walls of the plate washing tank 2 through shaft sleeves, and the telescopic shafts can move left and right in the shaft sleeves; the bottom of the medicine water tank 3 is connected with a brush; tens of water outlets leading to the hairbrushes are formed in the inner bottom of each liquid medicine tank 3, so that after the cleaning liquid medicine is poured into the liquid medicine tanks 3, the liquid medicine can fall onto a plate making on a plate washing platform through the water outlets and is used for dissolving redundant parts on the plate making; the four cylinder brushes 4 are arranged in four gaps in the six medicine water tanks 3 in a staggered manner; a central shaft is arranged in the cylindrical brush 4, and two ends of the central shaft are connected with two side walls of the plate washing box 2 through shaft sleeves; the cylindrical brush 4 can move left and right in the shaft sleeve; the cylindrical brush rolling mechanism comprises a first motor 5 and four first speed reducers 6, wherein the output end of each first speed reducer 6 is an output shaft with key slot holes formed in the inner part, and specifically, each key slot hole is a hole with key slots formed in the inner hole wall horizontally; the first motor 5 is arranged on the right side of the frame 1, the four first speed reducers 6 are all arranged on the right outer side wall of the plate washing box 2, the four key slots are all connected with the right end part of a corresponding central shaft through keys, the right end part of the central shaft is in clearance fit with the key slot holes, the two are relatively static due to the clearance fit and the simultaneous rotation of the output end of the first speed reducer 6 and the central shaft, and the central shaft and the output end of the first speed reducer 6 can do telescopic motion relative to the key slots while rotating together; the first motor 5 is connected with the input ends of four first speed reducers 6 through a first transmission assembly; specifically, the first transmission assembly comprises two first couplers, a first connecting shaft, a synchronizing wheel A, a synchronizing wheel B and a synchronizing belt A; the first speed reducers 6 in the embodiment are right-angle gear speed reducers with a first input shaft arranged in front and back, and four first speed reducers 6 are arranged side by side, preferably, the first speed reducer 6 and the second first speed reducer 6 are connected with two adjacent first input shafts through a first coupling; the second first speed reducer 6 and the third first speed reducer 6 are connected with two adjacent first input shafts through a first connecting shaft; the third first speed reducer 6 and the fourth first speed reducer 6 are connected with two adjacent first input shafts through a first coupling; the synchronizing wheel A is connected to the output end of the first motor 5, the synchronizing wheel B is connected to the first connecting shaft, and the synchronizing wheel A and the synchronizing wheel B are in transmission connection through the synchronizing belt A. The output end of the first motor 5 can drive the first connecting shaft to rotate, so that the first input shafts of the four first speed reducers 6 are driven to rotate, and all the output ends of the four first speed reducers are rotatable.

In the embodiment, the liquid medicine box swinging mechanism comprises a second motor 7, six second speed reducers 8 and six groups of second eccentric transmission assemblies, wherein the second motor 7 is fixedly connected to the left side of the frame 1, and the six second speed reducers 8 are arranged on the left outer side wall of the plate washing box 2 in a linear manner; the output end of the second motor 7 is connected with the input ends of six second speed reducers 8 through a second transmission assembly; the output end of each second speed reducer 8 is connected with the left ends of two telescopic shafts on one liquid medicine tank 3 through a second eccentric transmission assembly; specifically, the second transmission assembly comprises four second couplings, a second connecting shaft, a synchronizing wheel C, a synchronizing wheel D and a synchronizing belt B; the second speed reducers 8 in the embodiment are right-angle gear speed reducers with a second input shaft arranged at the front and the rear, and the six second speed reducers 8 are arranged side by side, preferably, two adjacent second input shafts among the first, second and third second speed reducers 8 are respectively connected through a second coupling; the third second speed reducer 8 and the fourth second speed reducer 8 are connected with two adjacent second input shafts through a second connecting shaft; two adjacent second input shafts among the fourth, fifth and sixth second speed reducers 8 are respectively connected through a second coupling; the synchronizing wheel C is connected to the output end of the second motor 7, the synchronizing wheel D is connected to the second connecting shaft, and the synchronizing wheel C and the synchronizing wheel D are in transmission connection through the synchronizing belt B. And the output end of the second motor 7 can drive the second connecting shaft to rotate, so that the second input shafts of the six second speed reducers 8 are driven to rotate, and all the output ends of the six second speed reducers are driven to rotate. Specifically, the second eccentric transmission assembly comprises a second transmission shaft 10, a second eccentric block 11, a second bearing 12 and a second transmission block 13; one end of the second transmission shaft 10 is vertically connected to the output end of the second speed reducer 8, the other end of the second transmission shaft is connected to one end of the second eccentric block 11, and the second bearing 12 is connected to the top of the other end of the second eccentric block 11 through a connecting piece; the second transmission block 13 is connected with the left ends of two telescopic shafts on one liquid medicine tank 3 through a connecting piece; the bottom of the second transmission block 13 is provided with a second long hole matched with the second bearing 12, and the second bearing 12 is positioned in the second long hole and can move in the second long hole. Therefore, when the output end of the second motor 7 rotates, the second bearing 12 can be driven to do circular motion by taking the second transmission shaft 10 as the axis, when the second bearing 12 rotates to the rightmost side, the liquid medicine tank 3 moves to the rightmost side, and when the second bearing 12 rotates to the leftmost side, the liquid medicine tank 3 moves to the leftmost side, so that the liquid medicine tank 3 and a brush at the bottom of the liquid medicine tank move left and right on the plate washing platform.

In the embodiment, the cylindrical brush swinging mechanism comprises four third speed reducers 9 and four groups of third eccentric transmission assemblies, and the four third speed reducers 9 are all arranged on the left outer side wall of the plate washing box 2 in a straight line manner; the input end of the third speed reducer 9 is connected with a transmission piece at the output end of the second motor 7 through a third transmission assembly; and the output end of each third speed reducer 9 is connected with the left end part of a central shaft through a third eccentric transmission assembly. The third transmission assembly comprises two third couplings, a third connecting shaft A, a third connecting shaft B, a third bearing seat, a synchronizing wheel E, a synchronizing wheel F and a synchronizing belt C; the third speed reducer 9 in this embodiment is a right-angle gear speed reducer with a third input shaft arranged in front and back, and four third speed reducers 9 are arranged side by side, preferably, the first third speed reducer 9 and the second third speed reducer 9 are connected with two adjacent third input shafts through a third coupling; the second third speed reducer 9 and the third speed reducer 9 are connected with two adjacent third input shafts through a third connecting shaft A; the third speed reducer 9 and the fourth third speed reducer 9 are connected with two adjacent third input shafts through a third coupling; one end of the third connecting shaft B is connected with a third input shaft at the front end of the first third speed reducer 9, and the other end of the third connecting shaft B is connected to the left outer side wall of the plate washing box 2 through a third bearing seat; the synchronizing wheel E is connected to the second input shaft at the front end of the first and second speed reducers 8 at the forefront end, the synchronizing wheel F is connected to the third connecting shaft B, and the synchronizing wheel E and the synchronizing wheel F are in transmission connection through the synchronizing belt C. The output ends of the second motor 7 can drive the input shafts of all the second speed reducers 8 to rotate, and can drive the third connecting shaft B to rotate, and thus drive the third input shafts of the four third speed reducers 9 to rotate, and thus drive all the output ends of the four third speed reducers and can rotate.

The third eccentric transmission assembly comprises a third transmission shaft, a third eccentric block, a third bearing, a third transmission block 14 and a guide post, one end of the third transmission shaft is vertically connected with the output end of the third speed reducer 9, the other end of the third transmission shaft is connected with one end of the third eccentric block, and the third bearing is connected with the top of the other end of the third eccentric block through a connecting piece; the third transmission block 14 is connected with the left end of a central shaft through a connecting piece; a third long hole matched with a third bearing is formed in the bottom of the third transmission block 14, and the third bearing is positioned in the third long hole and can move in the third long hole; the third transmission block 14 is provided with a guide hole perpendicular to the left side wall of the liquid medicine tank 3, and the guide post is fixedly connected to the left side wall of the liquid medicine tank 3 and correspondingly matched with the guide hole.

In this embodiment, the second transmission block 13 and the third transmission block 14 are preferably made of fluoroplastic or POM material, which is a highly wear-resistant material, so as to ensure the service lives of the second transmission block 13 and the third transmission block 14.

Embodiment two:

1-4, on the basis of the embodiment 1, a plane shaking and brushing mechanism 15 is further included, the plane shaking and brushing mechanism 15 is arranged on the plate washing tank 2 and is positioned at the rear part of the liquid medicine tank swinging mechanism, and comprises four second liquid medicine tanks 16, wherein the second liquid medicine tanks 16 are positioned above the plate washing platform; two sides of the second medicine water tank 16 are fixedly connected with shaking plates 17, four groups of swinging long holes 18 are symmetrically formed in the middle of two side walls of the plate washing tank 2, and the length of each swinging long hole 18 is longer than that of each shaking plate 17; the four second medicine water tanks 16 are respectively hung in each group of swing long holes 18 through the swing plates 17 at the two sides of the second medicine water tanks; the bottom of the medicine water tank 3 is connected with a brush; a water outlet leading to the hairbrush is arranged at the inner bottom of the medicine water tank 3; the liquid medicine box swinging mechanism is also provided with two fourth motors 19, eight fourth speed reducers 20 and eight groups of fourth eccentric transmission components, specifically, a fourth motor 19, four fourth speed reducers 20 and four groups of fourth eccentric transmission components are arranged on the left side wall and the right side wall of the plate washing box 2 in the same transmission connection mode, and the transmission connection mode on the left side wall and the outer side wall is taken as an example; a fourth motor 19 is fixedly connected to the left side of the frame 1, and a wire fourth speed reducer 20 is arranged on the left outer side wall of the plate washing box 2 in a linear manner; the output end of the fourth motor 19 is connected with the input ends of four fourth speed reducers 20 through a fourth transmission assembly; the output end of each fourth speed reducer 20 is connected with a rocking plate 17 at the left end on one second medicine water tank 16 through a fourth eccentric transmission component; specifically, the fourth transmission assembly comprises two fourth couplings, a fourth connecting shaft, a synchronizing wheel G, a synchronizing wheel H and a synchronous belt D; the fourth speed reducer 20 in this embodiment is a right-angle gear speed reducer with a fourth input shaft arranged in front and back, and four fourth speed reducers 20 are arranged side by side, preferably, two fourth input shafts adjacent to each other between the first and second fourth speed reducers 20 are connected through a fourth coupling; the second fourth speed reducer 20 and the third fourth speed reducer 20 are connected with two adjacent fourth input shafts through fourth connecting shafts; two adjacent fourth input shafts between the third and fourth speed reducers 20 are connected through a fourth coupling; the synchronizing wheel G is connected to the output end of the fourth motor 19, the synchronizing wheel H is connected to the fourth connecting shaft, and the synchronizing wheel G and the synchronizing wheel H are in transmission connection through the synchronous belt D. The output end of the fourth motor 19 can drive the fourth connecting shaft to rotate, so that the fourth input shaft of the fourth speed reducer 20 is driven to rotate, and all the output ends of the fourth speed reducers are driven to rotate. Specifically, the fourth eccentric transmission assembly comprises a fourth transmission shaft, a fourth eccentric block and a fourth transmission block; one end of the fourth transmission shaft is vertically connected to the output end of the fourth speed reducer 20, the other end of the fourth transmission shaft is connected to one end of the fourth eccentric block, and the top of the other end of the fourth eccentric block is hinged to the end of the shaking plate 17. Therefore, when the output end of the fourth motor 19 rotates, the hinge part of the fourth eccentric block and the rocking plate 17 can be driven to do circular motion by taking the fourth transmission shaft as the axis, so that when the whole group of plane rocking and washing mechanisms 15 work simultaneously, the four second medicine water tanks 16 execute rocking plane washing on the plate washing platform, and parts such as small word ditches which are not washed by the front plate washing unit are washed again.

In this embodiment, referring to fig. 4, a schematic diagram of a second eccentric transmission assembly is shown, where the third eccentric transmission assembly and the fourth eccentric transmission assembly in this embodiment have the same transmission principle as the second eccentric transmission assembly.

Compared with the prior art, the invention has the advantages that:

1. the cylinder brush and the liquid medicine tank are driven by the speed reducer, and two adjacent input shafts in each group of speed reducers in the cylinder brush rolling mechanism, the liquid medicine tank swinging mechanism and the cylinder brush swinging mechanism are connected through the transmission of the coupler.

2. The rolling mechanism of the cylindrical brush realizes the rotation of the cylindrical brush, thereby realizing the rolling, brushing and platemaking of the surface of the cylindrical brush.

3. The right end part of the central shaft is in clearance fit with the key slot hole, and the central shaft is driven to move left and right rapidly relative to the plate washing platform by being driven by the second eccentric transmission assembly in cooperation with the second speed reducer, so that the cylindrical brush can perform quick left and right washing actions on the plate.

4. The third eccentric transmission assembly is matched with the driving of the third speed reducer so as to drive the telescopic shafts fixedly connected with the two sides of the liquid medicine box to rapidly move left and right relative to the plate washing platform, and therefore the brush can rapidly perform left and right washing on the plate.

5. The rocking type plane washing mechanism is used for executing rocking type plane washing on the plate washing platform, and the rocking type plane washing can clean parts such as tiny word grooves on the plate washing.

Claims (2)

1. The low-noise high-stability plate washer comprises a frame, a plate washing box and a plate washing platform, wherein the plate washing box is arranged on the frame, and the plate washing platform is arranged in the plate washing box; characterized by further comprising:

a plurality of medicine water tanks; the medicine water tank is positioned above the plate washing platform; the two sides of the liquid medicine box are fixedly connected with telescopic shafts, the two ends of each telescopic shaft are connected to the two side walls of the plate washing box through shaft sleeves, and the telescopic shafts can move left and right in the shaft sleeves; the bottom of the liquid medicine tank is connected with a brush; a water outlet leading to the hairbrush is formed in the inner bottom of the liquid medicine tank;

the plurality of cylinder brushes are arranged among the plurality of liquid medicine tanks in a staggered manner; a central shaft is arranged in the cylindrical brush, and two ends of the central shaft are connected with two side walls of the plate washing box through shaft sleeves; the cylindrical brush can move left and right in the shaft sleeve;

the cylindrical brush rolling mechanism comprises a first motor and a plurality of first speed reducers, wherein key slot holes are formed in the output end of each first speed reducer, the first motor is arranged on the right side of the frame, the plurality of first speed reducers are all arranged on the right outer side wall of the plate washing box, the plurality of key slot holes are all connected with the right end part of a corresponding central shaft through keys, the right end part of the central shaft is in clearance fit with the key slot holes, and the right end part of the central shaft can do telescopic motion relative to the key slot holes; the first motor is connected with the input ends of a plurality of first speed reducers through a first transmission assembly; the first transmission assembly comprises a plurality of first couplings, a synchronizing wheel A, a synchronizing wheel B and a synchronizing belt A; the first speed reducers comprise front and rear first input shafts, a plurality of first speed reducers are arranged side by side, and two adjacent first input shafts between two adjacent first speed reducers are connected through the first shaft coupling; the synchronous wheel A is connected to the output end of the first motor, the synchronous wheel B is connected to one of the first input shafts, and the synchronous wheel A and the synchronous wheel B are in transmission connection through the synchronous belt A;

the medicine water tank swinging mechanism comprises a second motor, a plurality of second speed reducers and a second eccentric transmission assembly, wherein the second motor is fixedly connected to the left side of the frame, and the plurality of second speed reducers are all arranged on the left outer side wall of the plate washing box; the output end of the second motor is connected with the input ends of a plurality of second speed reducers through a second transmission assembly; the second transmission assembly comprises a plurality of second couplings, a synchronizing wheel C, a synchronizing wheel D and a synchronizing belt B; the second speed reducers comprise front and rear second input shafts, a plurality of second speed reducers are arranged side by side, and two adjacent second input shafts between two adjacent second speed reducers are connected through the second coupling; the synchronous wheel C is connected to the output end of the second motor, the synchronous wheel D is connected to one of the second input shafts, and the synchronous wheel C and the synchronous wheel D are in transmission connection through the synchronous belt B;

the output end of each second speed reducer is connected with the left ends of two telescopic shafts on one medicine water tank through a second eccentric transmission assembly; the second eccentric transmission assembly comprises a second transmission shaft, a second eccentric block, a second bearing and a second transmission block; one end of the second transmission shaft is vertically connected to the output end of the second speed reducer, the other end of the second transmission shaft is connected to one end of the second eccentric block, and the second bearing is connected to the top of the other end of the second eccentric block through a connecting piece; the second transmission block is connected with the left ends of two telescopic shafts on one medicine water tank through a connecting piece; a second long hole matched with the second bearing is formed in the bottom of the second transmission block, and the second bearing is positioned in the second long hole and can move in the second long hole;

the cylindrical brush swinging mechanism comprises a plurality of third speed reducers and a third eccentric transmission assembly, and the third speed reducers are all arranged on the left outer side wall of the plate washing box; the input end of the third speed reducer is connected with the output end of the second motor through a third transmission assembly, and the third transmission assembly comprises a plurality of third couplers, a synchronizing wheel E, a synchronizing wheel F and a synchronizing belt C; the third speed reducers comprise front and rear third input shafts, a plurality of third speed reducers are arranged side by side, and two adjacent third input shafts between two adjacent third speed reducers are connected through a third coupling; the synchronous wheel E is connected to one of the second input shafts, the synchronous wheel F is connected to one of the third input shafts, and the synchronous wheel E and the synchronous wheel F are in transmission connection through the synchronous belt C;

the output end of each third speed reducer is connected with the left end part of a central shaft through a third eccentric transmission assembly; the third eccentric transmission assembly comprises a third transmission shaft, a third eccentric block, a third bearing, a third transmission block and a guide post, one end of the third transmission shaft is vertically connected to the output end of the third speed reducer, the other end of the third transmission shaft is connected with one end of the third eccentric block, and the third bearing is connected to the top of the other end of the third eccentric block through a connecting piece; the third transmission block is connected with the left end of the central shaft through a connecting piece; a third long hole matched with the third bearing is formed in the bottom of the third transmission block, and the third bearing is positioned in the third long hole and can move in the third long hole; and the third transmission block is perpendicular to the left side wall of the medicine water tank and is provided with a guide hole, and the guide column is fixedly connected to the left side wall of the medicine water tank and is correspondingly matched with the guide hole.

2. The low noise high stability plate washer of claim 1, wherein the second and third drive blocks are made of fluoroplastic or POM material.