CN113263012A

CN113263012A - Water-saving electrode foil production flushing mechanism

Info

Publication number: CN113263012A
Application number: CN202110589676.9A
Authority: CN
Inventors: 薛海燕; 陈建军
Original assignee: Jiangsu Rongsheng Electronic Co ltd; NANTONG JIANGHAI CAPACITOR CO Ltd
Current assignee: Jiangsu Rongsheng Electronic Co ltd; NANTONG JIANGHAI CAPACITOR CO Ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2021-08-17
Anticipated expiration: 2041-05-28
Also published as: CN113263012B

Abstract

The invention relates to the technical field of electrode foil flushing, in particular to a water-saving electrode foil production flushing mechanism, which comprises a main mechanism, a cleaning mechanism, a filtering mechanism, a winding mechanism and an auxiliary mechanism, wherein the two flushing mechanisms are oppositely arranged on the main mechanism; the main body mechanism is provided with two groups of flushing mechanisms, two electrode foils are inserted into the main body mechanism after production is finished, the two electrode foils are flushed through the two flushing mechanisms, sundries are directly flushed away when the vertically placed electrode foils are flushed through the flushing mechanisms and cannot be accumulated on the electrode foils, the electrode foils are protected, and the electrode foils are prevented from being deformed due to collision with the sundries during conveying; the cleaning mechanism is powered on after the electrode foil is cleaned by the cleaning mechanism, so that the cleaned electrode foil is dehumidified by the cleaning mechanism, and subsequent winding is facilitated.

Description

Water-saving electrode foil production flushing mechanism

Technical Field

The invention relates to the technical field of electrode foil flushing, in particular to a water-saving electrode foil production flushing mechanism.

Background

The electrode foil comprises a corrosion foil and a formed foil, is a key basic material for producing the aluminum electrolytic capacitor, is used for bearing electric charge, and accounts for 30% -70% of the production cost of the aluminum electrolytic capacitor together with electrolyte, and the electrode foil can be washed by a washing mechanism during production.

However, in a conventional electrode foil production washing mechanism, an electrode foil is horizontally placed, the electrode foil is conveyed by a servo motor, the electrode foil is washed by water during conveying, sundries easily fall off and are accumulated on the lowest electrode foil horizontally placed during washing, on one hand, the sundries are not convenient to clean, on the other hand, garbage accumulated on a guide roller collides with the electrode foil, the electrode foil is deformed, water drops are left on the washed electrode foil, the water drops do not clean the electrode foil, and the subsequent winding is influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a water-saving electrode foil production flushing mechanism.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a water-saving electrode foil production washes mechanism, includes that main part mechanism is last to install two relatively and washes the mechanism, install clearance mechanism on the main part mechanism, install filtering mechanism on the main part mechanism, install roll-up mechanism on the main part mechanism, be equipped with complementary unit on the main part mechanism.

Specifically, the main body mechanism comprises a box body, two supports are relatively fixed on the box body, two feed inlets are oppositely formed in the box body, and a discharge outlet opposite to the two feed inlets is formed in the box body.

Specifically, two the height of feed inlet equals with the discharge gate, just install four groups guide post that are located feed inlet and discharge gate department respectively on the box.

The washing mechanism comprises side plates, two side plates are oppositely fixed on the box body, a water tank and two water inlet pipes are fixedly arranged on the side plates respectively, two water tank are communicated with the water tank, two connecting boxes are communicated with the water tank, two booster pumps are installed on the connecting boxes, two water leakage plates are communicated with the connecting boxes and located on the connecting boxes, the two water leakage plates on the connecting boxes are of inverted 'eight' -shaped structures and are two groups, the water leakage plates correspond to the two feed inlets, two circulating water pipes are communicated between the water tank and the box body, and two water pumps are installed in the box body and are respectively connected with the two water pumps.

Specifically, clearance mechanism includes the bottom plate, be fixed with the bottom plate on the box, install servo motor on the bottom plate, servo motor is last to be connected with the screw rod, the screw rod runs through the inside of box, threaded connection has the fixing base on the screw rod, the welding has the connecting plate on the fixing base, four mounting panels of fixedly connected with on the connecting plate are located two with one side the brush is installed to the opposite face of mounting panel, two relatively distance between the brush equals distance between two wherein guide posts, be fixed with two limiting plates on the connecting plate.

Specifically, filtering mechanism includes the installing port, install the inside filter screen that is located the installing port on the box, sliding connection has two cross-sections to be down "worker" font structure on the box, be located the push pedal of installing port department, two the centre gripping has first spring, two between push pedal and the box rotate in the push pedal and be connected with the roller, sliding connection between limiting plate and the filter screen.

Specifically, fixedly connected with handle on the filter screen, the maximum thickness of filter screen is less than the height of installing port.

Specifically, the roll-up mechanism includes the motor, install two motors on the box, two be connected with the motor shaft on the motor, two sliding connection has the spacing dish of rectangle structure on the motor shaft, two the centre gripping has the second spring between spacing dish and the motor shaft, two the welding has the spliced pole of polygonous structure on the spacing dish, two the welding has the clamp plate, two on the spliced pole the block is connected with the foundation column, two on the spliced pole the welding has a roll-up section of thick bamboo on the foundation column, be fixed with two open-faced roof on the box, rotate between roll-up section of thick bamboo and the roof and be connected, just two the roll-up section of thick bamboo corresponds with two discharge gates.

Specifically, complementary unit includes the spout, is close to two spouts have been seted up to the box of motor shaft upper level, sliding connection has two sliders that are located spout department on the box, two the opposite face of slider is fixed with the stay cord, install two fixed pulleys that are located spout department on the box, the stay cord is contradicted with the fixed pulley, two third spring, two are held to the clamp between slider and the box sliding connection has the splint that the cross-section is "L" shape structure on the slider, two form the double-layered groove between splint and the slider, two fourth spring is held to the clamp between splint and the slider, the one end of stay cord is connected with the pull ring.

Specifically, the two clamping plates are provided with protrusions, and the two sliding blocks are provided with grooves corresponding to the protrusions.

The invention has the beneficial effects that:

(1) according to the water-saving electrode foil production flushing mechanism, two groups of flushing mechanisms are mounted on a main body mechanism, two electrode foils are inserted into the main body mechanism after production is finished, the two electrode foils are flushed through the two flushing mechanisms, impurities in the vertically placed electrode foils are directly flushed away when the electrode foils are flushed through the flushing mechanisms and cannot be accumulated on the electrode foils, the electrode foils are protected, and the electrode foils are prevented from being deformed due to collision with the impurities during conveying; namely: after the inside of box was installed to the electrode foil, with the inlet tube switch-on water source at water tank top, rivers reach the inside of two water tanks, further put through external power supply with the booster pump, and then realized that two sets of water leakage boards spray water to the both sides of two electrode foils, and then realized washing two electrode foils, after the water that will wash electrode foils was filtered to the filtering mechanism that is located the box inside, the water pump is with water through the inside that the circulating water pipe carried the water tank once more, the recycling of water has been realized, the water economy resource.

(2) According to the water-saving electrode foil production flushing mechanism, the filtering mechanism is mounted on the main body mechanism, water is divided to the main body mechanism to be filtered after the electrode foil is flushed, and the water is recycled to the flushing mechanism for recycling after being filtered, so that water resources are saved; namely: water after washing the electrode foil drops on the inside filter screen of box, the debris of aquatic are filtered by the filter screen, water after the filtration can be circulated once more and use, the water conservation source, and when debris on the clearance filter screen, can press the filter screen to the direction of push pedal, the first spring shrink has been realized, and the orientation that deviates from the box stimulates the filter screen and has realized the dismantlement to the filter screen, and the roller on push pedal surface does benefit to the dismouting of filter screen, press the push pedal earlier in the filter screen of installation, insert the filter screen the inside of installing port can, can stimulate the handle when dismantling the filter screen, do benefit to the operation.

(3) According to the water-saving electrode foil production flushing mechanism, after the electrode foil is flushed by the flushing mechanism, the cleaning mechanism is connected with a power supply, so that the electrode foil which is flushed by the cleaning mechanism is dehumidified, and the subsequent winding is facilitated; namely: guarantee that electrode foil contradicts with the brush in installation electrode foil, it is further, when the board that leaks washes electrode foil, switch-on servo motor's power, and then realized the screw rod clockwise, anticlockwise rotation, it just is spacing to slide between limiting plate and the filter mechanism of rain connecting plate bottom, connecting plate is at the inside reciprocating motion of box when having realized the clockwise anticlockwise rotation of screw rod so, and simultaneously, the brush that has realized the mounting panel side cleans two electrode foils, so realized cleaning the water droplet on the electrode foil that the steel washed, do benefit to the rolling.

(4) According to the water-saving electrode foil production flushing mechanism, the two winding mechanisms are mounted on the main body mechanism to realize winding of the electrode foil after dehumidification, the auxiliary mechanism is mounted on the main body mechanism, and a binding belt can be laid on the main body mechanism through the auxiliary mechanism, so that the wound electrode foil is bound; namely: before the electrode foil is washed, the end parts of the electrode foil are fixed on the two winding drums, the pressing plate is pressed, the connecting column is retracted into the motor shaft, the top ends of the two winding drums are further embedded into the hole in the top plate, the connecting column is reset by the second spring by further loosening the pressing plate, the connecting column is buckled with the winding drums, after the motor is connected with an external power supply, the motor shaft drives the connecting column to drive the winding drums to rotate, and the electrode foil cleaned by washing is wound; when the electrode foil on the roll-up drum reaches certain quantity, the direction pulling pull ring that deviates from the third spring, realized that the stay cord rolls on the fixed pulley, it is further, realized that the slider removes thereupon, when can lifting up the splint on the slider, realize forming the double-layered groove between slider and the splint, it is further, place the inside in double-layered groove with the one end of ribbon, loosen splint, the fourth spring resets, realized the fixed to the ribbon, and protruding cooperation recess is improved the fixed effect to the ribbon. Loosening the pull ring realizes that the third spring resets, and the slider resets, and then has realized that the ribbon can wrap up the winding drum, ties up through the ribbon of laying after cutting off electrode foil so easy operation.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of the overall structure of a preferred embodiment of a water-saving electrode foil production flushing mechanism according to the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is a schematic view of the connection structure of the tank and the flushing mechanism shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion B shown in FIG. 3;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 4;

FIG. 6 is a schematic view of the connection structure of the main body mechanism, the cleaning mechanism and the flushing mechanism shown in FIG. 1;

fig. 7 is an enlarged view of the structure of the portion D shown in fig. 6.

In the figure: 1. a main body mechanism, 11, a box body, 12, a bracket, 13, a feeding port, 14, a discharging port, 15, a guide column, 2, a cleaning mechanism, 21, a bottom plate, 22, a servo motor, 23, a screw rod, 24, a connecting plate, 25, a fixing seat, 26, a mounting plate, 27, a brush, 28, a limiting plate, 3, a flushing mechanism, 31, a circulating water pipe, 32, a side plate, 33, a water tank, 34, a water inlet pipe, 35, a connecting box, 36, a booster pump, 37, a water leakage plate, 38, a water pump, 4, a filtering mechanism, 41, a mounting port, 42, a filter screen, 43, a handle, 44, a push plate, 45, a roller column, 46, a first spring, 5, a winding mechanism, 51, a roller winding mechanism, 52, a top plate, 53, a bottom column, 54, a connecting column, 55, a pressing plate, 56, a motor shaft, 57, a motor, 58, a second spring, 59, a limiting plate, 6, an auxiliary mechanism, 61, a pull rope, 62 and a pull ring, 63. the sliding groove 64, the fixed pulley 65, the third spring 66, the sliding block 67, the clamping plate 68, the fourth spring 69, the clamping groove 69a, the protrusion 69b and the groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-7, the water-saving electrode foil production flushing mechanism provided by the invention comprises a main mechanism 1, two flushing mechanisms 3 are oppositely mounted on the main mechanism 1, a cleaning mechanism 2 is mounted on the main mechanism 1, a filtering mechanism 4 is mounted on the main mechanism 1, a winding mechanism 5 is mounted on the main mechanism 1, and an auxiliary mechanism 6 is arranged on the main mechanism 1.

Specifically, the main body mechanism 1 comprises a box body 11, two brackets 12 are relatively fixed on the box body 11, the box body 11 is provided with two feed inlets 13, the box body 11 is provided with a discharge outlet 14 opposite to the two feed inlets 13, the two feed inlets 13 and the discharge outlet 14 have the same height, and four groups of guide posts 15 respectively positioned at the feed inlet 13 and the discharge outlet 14 are arranged on the box body 11, after the production of the counter electrode foils, the two electrode foils are longitudinally placed, the two electrode foils are inserted into the two feed ports 13 on the box body 11 and are further taken out from the two discharge ports 14 on the box body 11, the electrode foil is fixed on the two furling mechanisms 5 to be furled, and the electrode foil is in rolling connection with the four groups of guide posts 15 when moving, so that the electrode foil is conveyed more smoothly.

Specifically, the flushing mechanism 3 comprises side plates 32, two side plates 32 are relatively fixed on the box body 11, water tanks 33 are respectively fixed on the two side plates 32, two water tanks 33 are communicated with water inlet pipes 34, two water tanks 33 are communicated with connecting boxes 35, two pressurizing pumps 36 are installed on the two connecting boxes 35, two water leakage plates 37 are relatively communicated on the two connecting boxes 35, the two water leakage plates 37 on the connecting boxes 35 are in an inverted-V-shaped structure, the two water leakage plates 37 are arranged corresponding to the two feed inlets 13, circulating water pipes 31 are communicated between the two water tanks 33 and the box body 11, two water pumps 38 are installed in the box body 11, the two circulating water pipes 31 are respectively connected with the two water pumps 38, and after electrode foils are installed in the box body 11, the water inlet pipes 34 at the top of the water tanks 33 are communicated with a water source, rivers are to the inside of two water tanks 33, and further put through external power supply with booster pump 36, and then have realized that two sets of water leakage boards 37 are to the both sides water spray of two electrode foils, and then have realized washing two electrode foils, when being located inside box 11 the water that filtering mechanism 4 will wash electrode foils filters the back, water pump 38 passes through water once more circulating pipe 31 carries water tank 33's inside has realized the recycling of water, the water economy resource.

Specifically, clearance mechanism 2 includes bottom plate 21, be fixed with bottom plate 21 on the box 11, install servo motor 22 on the bottom plate 21, be connected with screw rod 23 on the servo motor 22, screw rod 23 runs through the inside of box 11, threaded connection has fixing base 25 on the screw rod 23, the welding has connecting plate 24 on the fixing base 25, four mounting panel 26 of fixedly connected with on connecting plate 24 are located two with one side brush 27, two relatively are installed to mounting panel 26's opposite face distance between brush 27 equals distance between two wherein guide posts 15, be fixed with two limiting plates 28 on connecting plate 24, guarantee the electrode foil when installing the electrode foil with brush 27 contradicts, and is further, work as when water leakage plate 37 washes the electrode foil, switch-on servo motor 22's power, and then realized that screw rod 23 is clockwise, Anticlockwise rotation, rain the limiting plate 28 of connecting plate 24 bottom with slide between the filter mechanism 4 and by spacing, realized then when screw 23 clockwise anticlockwise rotation the connecting plate 24 is in the inside reciprocating motion of box 11, simultaneously, realized the mounting panel 26 side brush 27 cleans two electrode foils, has realized cleaning the water droplet on the electrode foil that the steel was washed so, does benefit to the rolling.

Specifically, filtering mechanism 4 includes installing port 41, install the filter screen 42 that is located installing port 41 inside on the box 11, sliding connection has two cross-sections to be down "worker" font structure on the box 11, be located the push pedal 44 of installing port 41 department, two centre gripping has first spring 46 between push pedal 44 and the box 11, two rotating connection has roller 45 on the push pedal 44, sliding connection between limiting plate 28 and the filter screen 42, fixedly connected with handle 43 on the filter screen 42, the maximum thickness of filter screen 42 is less than the height of installing port 41, and the water after washing the electrode foil drops on the inside filter screen 42 of box 11, the debris of aquatic is by the filter screen 42 filters, and the water after the filtration can be recycled again, practices thrift the water source, and when clearing up debris on the filter screen 42, can to the filter screen 41 is pressed to the direction of push pedal 44, realized first spring 46 contracts, and deviates from the direction pulling of box 11 the filter screen 42 has realized right filter screen 42's dismantlement, just push pedal 44 on the surface roller 45 does benefit to filter screen 42's dismouting, the installation filter screen 42 will earlier in the time push pedal 44 presses, will filter screen 42 inserts installing port 41's inside can, dismantle can stimulate in the time of filter screen 42 handle 43 does benefit to the operation.

Specifically, the winding mechanism 5 includes a motor 57, two motors 57 are installed on the box 11, two motors 57 are connected to the two motors 57, two limit discs 59 of a rectangular structure are slidably connected to the two motor shafts 56, a second spring 58 is clamped between the two limit discs 59 and the motor shafts 56, connecting posts 54 of a polygonal structure are welded to the two limit discs 59, pressing plates 55 are welded to the two connecting posts 54, bottom posts 53 are connected to the two connecting posts 54 in a clamping manner, winding cylinders 51 are welded to the two bottom posts 53, top plates 52 with two surface openings are fixed to the box 11, the winding cylinders 51 are rotatably connected to the top plates 52, the two winding cylinders 51 correspond to the two discharge ports 14, the end portions of the electrode foil are fixed to the two winding cylinders 51 before the electrode foil is washed, and the pressing plates 55 are pressed, the connecting column 54 is contracted into the motor shaft 56, the top ends of the two winding drums 51 are further embedded into the holes in the top plate 52, the connecting column 54 is reset by the second spring 58 after the pressing plate 55 is further loosened, the connecting column 54 is buckled with the winding drums 51, and after the motor 57 is connected with an external power supply, the motor shaft 56 drives the connecting column 54 to drive the winding drums 51 to rotate, so that the washed and cleaned electrode foil is wound.

Specifically, the auxiliary mechanism 6 includes a sliding groove 63, two sliding grooves 63 are horizontally formed in a box 11 close to the motor shaft 56, two sliding blocks 66 located at the sliding grooves 63 are connected to the box 11 in a sliding manner, a pulling rope 61 is fixed to opposite surfaces of the two sliding blocks 66, two fixed pulleys 64 located at the sliding grooves 63 are installed on the box 11, the pulling rope 61 is abutted to the fixed pulleys 64, a third spring 65 is clamped between the two sliding blocks 66 and the box 11, two clamping plates 67 with an L-shaped cross section are connected to the two sliding blocks 66 in a sliding manner, a clamping groove 69 is formed between the two clamping plates 67 and the sliding blocks 66, a fourth spring 68 is clamped between the two clamping plates 67 and the sliding blocks 66, one end of the pulling rope 61 is connected to a pulling ring 62, two protrusions 69a are formed on the two clamping plates 67, two grooves 69b corresponding to the protrusions 69a are formed on the two sliding blocks 66, when the electrode foil on the winding drum 51 reaches a certain amount, the pull ring 62 is pulled in a direction away from the third spring 65, the pull rope 61 rolls on the fixed pulley 64, further, the sliding block 66 moves along with the electrode foil, when the clamping plate 67 on the sliding block 66 can be lifted, the clamping groove 69 is formed between the sliding block 66 and the clamping plate 67, further, one end of the ribbon is placed inside the clamping groove 69, the clamping plate 67 is loosened, the fourth spring 68 is reset, the ribbon is fixed, and the fixing effect of the ribbon is improved by the protrusion 69a matching with the groove 69 b. Loosening the pull ring 62 realizes the resetting of the third spring 65 and the resetting of the sliding block 66, so that the winding drum 51 can be wrapped by the binding belt, the electrode foil can be bundled by the laid binding belt after being cut off, and the operation is simple.

When the electrode foil winding machine is used, firstly, after electrode foils are produced, the two electrode foils are longitudinally placed, the two electrode foils are inserted into the two feed inlets 13 on the box body 11 and are further taken out from the two discharge outlets 14 on the box body 11, the electrode foils are fixed on the two winding mechanisms 5 to be wound, and the electrode foils are in rolling connection with the four groups of guide posts 15 when moving, so that the electrode foils are more smoothly conveyed; after the electrode foils are arranged inside the box body 11, a water inlet pipe 34 at the top of the water tank 33 is connected with a water source, water flows into the two water tanks 33, a booster pump 36 is further connected with an external power supply, and then the two groups of water leakage plates 37 spray water to the two sides of the two electrode foils, so that the two electrode foils are washed, when the filtering mechanism 4 positioned inside the box body 11 filters the water which is washed by the electrode foils, the water pump 38 conveys the water into the water tanks 33 through the circulating water pipe 31 again, the water recycling is realized, and the water resource is saved; then, the electrode foil is ensured to be abutted against the brush 27 when the electrode foil is installed, further, when the water leakage plate 37 washes the electrode foil, the power supply of the servo motor 22 is switched on, so that the clockwise and anticlockwise rotation of the screw 23 is realized, the sliding and limiting between the limiting plate 28 at the bottom of the rain connecting plate 24 and the filtering mechanism 4 is realized, the connecting plate 24 reciprocates in the box body 11 when the screw 23 rotates clockwise and anticlockwise, meanwhile, the brush 27 on the side surface of the installation plate 26 cleans the two electrode foils, and then the cleaning of water drops on the electrode foil washed by steel is realized, and the rolling is facilitated; the water after washing the electrode foil falls onto the filter screen 42 in the box body 11, impurities in the water are filtered by the filter screen 42, the filtered water can be recycled, water sources are saved, the filter screen 41 can be pressed towards the push plate 44 when the impurities on the filter screen 42 are cleaned, the first spring 46 is contracted, the filter screen 42 is pulled in a direction away from the box body 11, the filter screen 42 is detached, the roller columns 45 on the surface of the push plate 44 facilitate the detachment and the installation of the filter screen 42, the push plate 44 is pressed firstly when the filter screen 42 is installed, the filter screen 42 is inserted into the installation opening 41, the handle 43 can be pulled when the filter screen 42 is detached, and the operation is facilitated; finally, before the electrode foil is washed, the end parts of the electrode foil are fixed on the two winding drums 51, the pressing plate 55 is pressed, the connecting column 54 is contracted into the motor shaft 56, the top ends of the two winding drums 51 are further embedded into the hole in the top plate 52, the connecting column 54 is reset by the second spring 58 by further loosening the pressing plate 55, the connecting column 54 is buckled with the winding drums 51, the motor 57 is connected with an external power supply, the motor shaft 56 drives the connecting column 54 to drive the winding drums 51 to rotate, and the electrode foil cleaned by washing is wound; when the electrode foil on the winding drum 51 reaches a certain amount, pull ring 62 is pulled in the direction away from the third spring 65, the pull rope 61 is enabled to roll on the fixed pulley 64, further, the slider 66 is enabled to move along with the pull rope, when the clamping plate 67 on the slider 66 can be lifted, the clamping groove 69 is formed between the slider 66 and the clamping plate 67, further, one end of the ribbon is placed in the clamping groove 69, the clamping plate 67 is loosened, the fourth spring 68 is reset, the ribbon is fixed, and the fixing effect of the ribbon is improved by the protrusion 69a matching with the groove 69 b. The third spring 65 is reset by loosening the pull ring 62, the sliding block 66 is reset, and the winding drum 51 can be wrapped by the binding belt, so that the electrode foil can be bundled by the laid binding belt after being cut off, and the operation is simple.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a water-saving electrode foil production washes mechanism, its characterized in that, includes main body mechanism (1), it washes mechanism (3) to install two on main body mechanism (1) relatively, install clearance mechanism (2) on main body mechanism (1), install filtering mechanism (4) on main body mechanism (1), install roll-up mechanism (5) on main body mechanism (1), be equipped with complementary unit (6) on main body mechanism (1).

2. A water-saving electrode foil production flushing mechanism as claimed in claim 1, wherein: the main body mechanism (1) comprises a box body (11), two supports (12) are relatively fixed on the box body (11), two feed inlets (13) are oppositely formed in the box body (11), and a discharge outlet (14) opposite to the two feed inlets (13) is formed in the box body (11).

3. A water-saving electrode foil production flushing mechanism as claimed in claim 2, wherein: two the height of feed inlet (13) equals with discharge gate (14), just install four groups guide post (15) that are located feed inlet (13) and discharge gate (14) respectively on box (11).

4. A water-saving electrode foil production flushing mechanism as claimed in claim 2, wherein: the flushing mechanism (3) comprises side plates (32), two side plates (32) are relatively fixed on the box body (11), water tanks (33) are respectively fixed on the two side plates (32), two water tanks (33) are communicated with water inlet pipes (34), two water tanks (33) are communicated with connecting boxes (35), two booster pumps (36) are installed on the connecting boxes (35), two water leakage plates (37) are relatively communicated on the connecting boxes (35), the two water leakage plates (37) positioned on the connecting boxes (35) are of an inverted-V-shaped structure, two groups of water leakage plates (37) are arranged corresponding to the two feed inlets (13), a circulating water pipe (31) is communicated between the two water tanks (33) and the box body (11), two water pumps (38) are installed in the box body (11), and the two circulating water pipes (31) are respectively connected with the two water pumps (38).

5. A water-saving electrode foil production flushing mechanism as claimed in claim 3, wherein: clearance mechanism (2) are including bottom plate (21), be fixed with bottom plate (21) on box (11), install servo motor (22) on bottom plate (21), be connected with screw rod (23) on servo motor (22), screw rod (23) run through the inside of box (11), threaded connection has fixing base (25) on screw rod (23), the welding has connecting plate (24) on fixing base (25), four mounting panel (26) of fixedly connected with are gone up in connecting plate (24), lie in two with one side brush (27), relative two brush (27) are installed to the opposite face of mounting panel (26) distance between brush (27) equals distance between wherein two guide posts (15), be fixed with two limiting plates (28) on connecting plate (24).

6. A water-saving electrode foil production flushing mechanism as claimed in claim 5, wherein: filtering mechanism (4) are including installing port (41), install on box (11) and be located installing port (41) inside filter screen (42), sliding connection has two cross-sections to be down "worker" font structure, is located push pedal (44) of installing port (41) department, two on box (11) the centre gripping has first spring (46), two between push pedal (44) and box (11) rotating connection has roller (45) on push pedal (44), sliding connection between limiting plate (28) and filter screen (42).

7. A water-saving electrode foil production flushing mechanism as claimed in claim 6, wherein: the handle (43) is fixedly connected to the filter screen (42), and the maximum thickness of the filter screen (42) is smaller than the height of the mounting opening (41).

8. A water-saving electrode foil production flushing mechanism as claimed in claim 2, wherein: the winding mechanism (5) comprises motors (57), two motors (57) are installed on the box body (11), motor shafts (56) are connected onto the two motors (57), limiting discs (59) of rectangular structures are connected onto the motor shafts (56) in a sliding mode, second springs (58) are clamped between the limiting discs (59) and the servo motor shafts (56), connecting columns (54) of polygonal structures are welded onto the limiting discs (59), pressing plates (55) are welded onto the connecting columns (54), bottom columns (53) are connected onto the connecting columns (54) in a clamping mode, winding drums (51) are welded onto the bottom columns (53), the box body (11) is fixedly provided with two top plates (52) with openings on the surfaces, the winding drums (51) are rotatably connected with the top plates (52), and the two winding drums (51) correspond to the two discharge holes (14).

9. A water-saving electrode foil production flushing mechanism as claimed in claim 8, wherein: the auxiliary mechanism (6) comprises a sliding groove (63), two sliding grooves (63) are horizontally formed in a box body (11) close to the motor shaft (56), two sliding blocks (66) located at the sliding grooves (63) are connected to the box body (11) in a sliding mode, a pull rope (61) is fixed to the opposite face of each sliding block (66), two fixed pulleys (64) located at the sliding grooves (63) are installed on the box body (11), the pull rope (61) is abutted to the fixed pulleys (64), a third spring (65) is clamped between each sliding block (66) and the box body (11), two clamping plates (67) with L-shaped cross sections are connected to the sliding blocks (66) in a sliding mode, a clamping groove (69) is formed between each clamping plate (67) and each sliding block (66), and a fourth spring (68) is clamped between each clamping plate (67) and each sliding block (66), one end of the pull rope (61) is connected with a pull ring (62).

10. A water-saving electrode foil production flushing mechanism as claimed in claim 9, wherein: the two clamping plates (67) are provided with protrusions (69 a), and the two sliding blocks (66) are provided with grooves (69 b) corresponding to the protrusions (69 a).