CN211437369U - Cleaning device for electrolyte barrel - Google Patents

Abstract

The utility model provides an electrolyte barrel belt cleaning device, including washing cabin, bucket displacement device, bucket rotary device, bucket belt cleaning device and water collection tank, the right-hand member level of pay-off frame just extends to the washing under-deck, the water collection tank is located and is washd the under-deck, with the bilge fixed connection in washing cabin, the water collection tank is the upper end open-ended annular tank body, bucket belt cleaning device includes cleaning head installation disc, bucket interior belt cleaning device and the outer belt cleaning device of bucket. The utility model discloses can replace the manual cleaning electrolyte barrel, realize the self-cleaning of electrolyte barrel inside and outside wall, wash thoroughly, clean, do not have and remain, not to artificial injury, the cleaning efficiency is high, easy operation.

Description

Cleaning device for electrolyte barrel

Technical Field

The utility model relates to a clean field of electrolyte barrel, concretely relates to electrolyte barrel belt cleaning device.

Background

The aluminum electrolytic capacitor is an indispensable element for the terminals of various electronic products, and plays an important role in the application of industry, power supply and the like. In recent years, with the rapid development of small-size and high-stability performance technologies in new technical fields such as high-voltage frequency converters, electric vehicles, wind power generation and new energy of photovoltaic power generation, manufacturers have made demands for high-voltage resistance, large ripple current resistance and ultra-long service life of capacitors. The working electrolyte of the capacitor is called the 'blood' of the capacitor, and not only serves as the actual cathode of the capacitor, but also has the functions of repairing the anode foil oxide film and carrying conductive ions. Therefore, the quality of the working electrolyte plays a crucial role in the performance of the aluminum electrolytic capacitor. And the demand for electrolyte tanks for packaging the electrolyte also increases. The electrolyte barrel is a recyclable packaging article, the requirement of electrolyte on the quality of the electrolyte barrel is extremely high, and the impurity requirement is in parts per million (namely ppm level), so that the electrolyte barrel must be cleaned in order to achieve the purpose of recycling the electrolyte barrel and ensuring the quality of the electrolyte, so that the impurity content in the barrel is reduced, and the influence of the residual electrolyte in the barrel in the previous batch on the quality of the electrolyte in the next batch is prevented.

Need all wash the inner wall and the outer wall of electrolyte bucket when wasing the electrolyte bucket, and the washing requirement of inside and outside wall is different, and the usual washing mode among the prior art is washing the inner wall earlier: a worker firstly opens a cover on a barrel opening of the electrolyte barrel, then injects cleaning water into the electrolyte barrel, brushes the inner wall of the electrolyte barrel by using the long handle, and then pours the water in the electrolyte barrel, so that the interior of the electrolyte barrel can be cleaned after repeated times. After the inner wall of the electrolyte barrel is cleaned, the outer wall is cleaned by adopting an organic solvent, and the volatilization of the organic solvent has certain harm to the body of a worker. In addition, when the electrolytic solution barrel is cleaned manually, the inner wall and the outer wall can only be cleaned separately, and batch cleaning cannot be performed.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an electrolyte barrel belt cleaning device, automatic wash bucket improves the wash bucket efficiency, and the inside and outside cleanness of bucket is thorough, does not make the injury to the people.

In order to solve the technical problem, an embodiment of the utility model provides an electrolyte barrel cleaning device, which comprises a cleaning cabin, a barrel displacement device, a barrel rotation device, a barrel cleaning device and a water collection tank, wherein the water collection tank is arranged in the cleaning cabin and is fixedly connected with the cabin bottom of the cleaning cabin, and the water collection tank is an annular tank body with an upper end opened;

the barrel rotating device comprises a supporting rotating disk, a supporting rotating motor and a barrel clamping structure, the supporting rotating disk is arranged in the cleaning cabin, the outer diameter of the supporting rotating disk is between the inner ring diameter and the outer ring diameter of the water collecting tank, the supporting rotating motor is positioned on the inner side of the inner ring of the water collecting tank and fixedly connected with the cabin bottom, and a motor shaft of the supporting rotating motor extends upwards and then is connected below the supporting rotating disk; the electrolytic solution barrel comprises a barrel clamping structure and a plurality of electrolytic solution barrels, wherein the barrel clamping structure comprises a clamping motor and a clamping block, the clamping motor is fixedly arranged on a supporting rotating disk through a sealing box, a motor shaft of the clamping motor points to the circle center of the supporting rotating disk and is fixedly connected with the clamping block, and the electrolytic solution barrels are fixed above the supporting rotating disk through two symmetrically arranged barrel clamping structures;

the barrel displacement device comprises a sliding rail arranged at the rear side of the water collecting tank, a displacement motor, a displacement trolley and a barrel overturning structure, wherein a displacement rack is arranged on the upper side of the sliding rail, a displacement gear meshed with the displacement rack is arranged below the displacement trolley, the displacement motor is fixedly arranged on the displacement trolley, and a motor shaft of the displacement motor is connected with a rotating shaft of the displacement gear through a coupler; the barrel overturning structure comprises a vertical rail, an overturning motor, an overturning gear transmission mechanism and a clamping jaw structure, the lower end of the vertical rail is connected with the displacement trolley in a reciprocating sliding mode, the overturning motor is fixedly arranged on the vertical rail, the overturning gear transmission mechanism comprises an overturning driving gear and an overturning driven gear which are meshed with each other, the axis directions of the overturning driving gear and the overturning driven gear are the front-back direction, the overturning driving gear is fixedly connected with a motor shaft of the overturning motor, and the clamping jaw structure and the overturning driven gear are coaxially arranged on an overturning driven gear shaft;

the barrel cleaning device comprises a cleaning head mounting disc, an inner barrel cleaning device and an outer barrel cleaning device, the cleaning head mounting disc is rotatably connected below the cabin top of the cleaning cabin, the inner barrel cleaning device comprises an inner barrel cleaning head and an inner barrel cleaning water pipe, the inner barrel cleaning head is connected below the cleaning head mounting disc through a telescopic inner cleaning support rod, and the inner barrel cleaning water pipe is hung on the inner cleaning support rod;

the outer washing device of the barrel comprises an outer washing brush head, an outer washing water pipe and an outer washing solvent pipe, wherein the outer washing brush head of the barrel is connected below the washing head installation disc through the telescopic outer washing support rod, and the outer washing water pipe and the outer washing solvent pipe are hung on the outer washing support rod.

The washing machine comprises a barrel, an inner washing support rod, an inner washing connecting rod, an inner washing line hole, an inner washing angle adjusting winding motor, an inner washing line hole, an inner washing connecting rod and the other end of the inner washing line are arranged in the barrel, the inner washing connecting rod is hinged to the inner washing support rod, the inner washing line hole is formed in the inner washing support rod, the inner washing angle adjusting winding motor is arranged on the side of the inner washing support rod, the inner washing line passing through the inner washing line hole is connected between a motor shaft of the inner washing angle adjusting winding motor and the inner washing connecting rod, one end of.

The washing machine comprises a barrel, an outer washing support rod, an outer washing connecting rod, an outer washing line hole, an outer washing angle adjusting winding motor, an outer washing line penetrating through the outer washing line hole, an outer washing connecting rod and an outer washing support rod, wherein the outer washing connecting rod is connected between the barrel outer washing head and the outer washing support rod, the outer washing line hole is formed in the outer washing support rod, the outer washing angle adjusting winding motor is arranged on the side of the outer washing support rod, an outer washing line penetrating through the outer washing line hole is connected between a motor shaft of the outer washing angle adjusting winding motor and the outer washing connecting rod, one end of the outer washing line is fixedly connected with the outer washing connecting rod.

The cleaning device comprises a cleaning cabin, a supporting rotary disc, a feeding device, a cleaning device and a cleaning device, wherein the feeding device is arranged on the front side of the cleaning device, the right end of a feeding rack of the feeding device is horizontal and extends into the cleaning cabin, and the upper end surface of the supporting rotary disc is not higher than the upper surface of the rear end of the feeding rack.

The clamping pliers structure comprises a left clamping pliers and a right clamping pliers, the left clamping pliers and the right clamping pliers are hinged through a short shaft, the pliers ends of the left clamping pliers and the right clamping pliers are arc-shaped pliers openings, the arc-shaped pliers openings of the left clamping pliers and the right clamping pliers form a circular clamping hole, one of the left clamping pliers and the right clamping pliers is fixedly connected with the short shaft, and a third hydraulic telescopic rod is connected between the inner side of the tail of the other pliers and an overturning driven gear shaft.

The rear end of the turnover driven gear shaft is supported and positioned on the vertical rail through a bearing, and the front end of the turnover driven gear shaft is fixedly connected with the short shaft.

Furthermore, two ends of the third hydraulic telescopic rod are respectively and rotatably connected with the overturning driven gear shaft and the pincer tail.

The working method of the utility model comprises the following steps:

(1-1) washing in a barrel:

(1-1-1) driving the displacement trolley to move leftwards to the rear side of the right end of the feeding rack by the displacement motor;

(1-1-2) moving the vertical rail forwards along the displacement trolley to a position where the clamping pliers structure extends to an electrolyte barrel sent by the feeding device, and tightly clamping the electrolyte barrel;

(1-1-3) driving the displacement trolley to move rightwards to the rear side of the supporting rotating disc by the displacement motor, placing the electrolyte barrel on the supporting rotating disc, loosening the clamping clamp structure, and clamping the electrolyte barrel by using the barrel clamping structure;

(1-1-4) moving the vertical rail backwards along the displacement trolley and keeping away from the supporting rotating disc;

(1-1-5) rotating a cleaning head mounting disc, rotating an in-barrel cleaning device to the upper part of an electrolyte barrel, and then pushing a cleaning head in the barrel to be in contact with the inner wall surface of the electrolyte barrel by using an inner washing support rod;

(1-1-6) starting a supporting rotary motor, and driving an electrolyte barrel to rotate through a supporting rotary disk to complete 360-degree cleaning at the same height in the barrel;

(1-1-7) the inner washing brush supporting rod stretches to enable the washing brush head in the barrel to move up and down, the step (2-6) is combined to complete the whole surface washing in the barrel, and the washing water pipe in the barrel is used for spraying water during the washing to complete the washing in the barrel;

(1-2) a step of washing outside the barrel:

(1-2-1) moving the vertical rail forwards along the displacement trolley to a clamping pliers structure to tightly clamp the electrolyte barrel after the washing in the barrel is finished;

(1-2-2) loosening the barrel clamping structure, starting the turnover motor, slowly turning over the electrolyte barrel through the barrel turnover structure, and slowly reserving the washing water remained in the electrolyte barrel in the barrel washing process to the water collection tank along the edge of the supporting rotary disc;

(1-2-3) after the electrolyte barrel is turned over, clamping the electrolyte barrel by using a barrel clamping structure;

(1-2-4) loosening the clamping clamp structure, and moving the vertical rail backwards along the displacement trolley to be far away from the supporting rotating disc;

(1-2-5) rotating a cleaning head mounting disc, rotating an external barrel cleaning device to the upper part of an electrolyte barrel, and pushing an external barrel cleaning brush head to be in contact with the outer wall surface of the electrolyte barrel by using an external cleaning support rod;

(1-2-6) starting a supporting rotary motor, and driving the electrolyte barrel to rotate through a supporting rotary disk to complete 360-degree cleaning at the same height outside the barrel;

(1-2-7) the supporting rod of the external washing brush stretches to enable the external washing brush head to move up and down, the step (2-2-6) is combined to complete the whole external surface washing of the barrel, and the external washing solvent pipe is used for spraying organic solvent and the external washing water pipe is used for spraying water during washing to complete external washing of the barrel.

In the step (1-1-5) and the step (1-1-7), the internal washing angle adjusting winding motor is started, the internal washing angle adjusting winding motor rotates forwards and backwards to wind and loosen the internal washing stay wire, and the angle of the internal washing head in the barrel is adjusted through the internal washing connecting rod, so that the inner wall surface of the electrolyte barrel of the internal washing head in the barrel is tightly attached.

In the step (1-2-5) and the step (1-2-7), the external washing angle adjusting winding motor is started, the external washing angle adjusting winding motor rotates forwards and backwards to wind and loosen the external washing stay wire, and the angle of the external washing brush head of the barrel is adjusted through the external washing connecting rod, so that the inner wall surface of the electrolyte barrel of the external washing brush head is tightly attached. The utility model discloses an above-mentioned technical scheme's beneficial effect as follows:

the utility model discloses can replace the manual cleaning electrolyte barrel, realize the self-cleaning of electrolyte barrel inside and outside wall, wash thoroughly, clean, do not have and remain, not to artificial injury, the cleaning efficiency is high, easy operation.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged view of a cross-sectional view taken at the water collection tank in the first embodiment;

FIG. 3 is an enlarged view of a top view of the lower part of the cleaning head mounting disk in the cleaning chamber according to the first embodiment;

FIG. 4 is a front view of a barrel displacement device according to an embodiment

FIG. 5 is a top view of a barrel displacement apparatus according to an embodiment;

FIG. 6 is a front view at A of FIG. 4;

FIG. 7 is a front view of a tub cleaning apparatus according to an embodiment;

FIG. 8 is an enlarged view of the inner tub washing apparatus according to the second embodiment of the present invention;

fig. 9 is an enlarged view of the structure of the third middle-barrel washing device of the embodiment of the present invention.

Description of reference numerals:

20. cleaning the cabin; 21. a barrel displacement device; 211. a slide rail; 212. a displacement motor; 213. a displacement trolley; 214. a barrel overturning structure; 2141. erecting a rail; 2142. turning over a motor; 2143. a turnover gear transmission mechanism; 2144. a clamp structure; 21441. a left holding clamp; 21442. a right holding clamp; 21443. a minor axis; 2145. turning over the driven gear shaft; 2146. a third hydraulic telescopic rod; 215. a displacement rack; 216. a displacement gear; 22. a tub rotating device; 221. supporting the rotating disc; 222. supporting a rotating electrical machine; 223. a barrel clamping structure; 2231. a clamping motor; 2232. a clamping block; 23. a tub cleaning device; 231. the cleaning head is provided with a disc; 232. an in-tub washing device; 2321. a brush head in the barrel; 2322. a water washing pipe in the barrel; 2323. an inner washing brush support rod; 2324. an inner washing brush connecting rod; 2325. an internal washing angle adjusting winding motor; 2326. internally brushing the stay wire; 233. a tub outside washing device; 2331. a brush head outside the barrel; 2332. a washing pipe outside the barrel; 2333. a solvent washing pipe outside the barrel; 2334. the outer washing brush supporting rod; 2335. an external washing brush connecting rod; 2336. an external washing angle adjusting winding motor; 2337. externally washing and brushing the pull wire; 234. a disc rotating motor; 24. a water collection tank; 5. and an electrolyte barrel.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the electrolyte barrel cleaning device includes a cleaning cabin 20, a barrel displacement device 21, a barrel rotation device 22, a barrel cleaning device 23, and a water collection tank 24, wherein the right end of the feeding frame 11 is horizontal and extends into the cleaning cabin 20, the water collection tank 24 is arranged in the cleaning cabin 20 and is fixedly connected with the bottom of the cleaning cabin 20, and the water collection tank 24 is an annular tank body with an open upper end.

As shown in fig. 2 and 3, the tub rotating device 22 includes a supporting rotating disk 221, a supporting rotating motor 222, and a tub clamping structure 223, the supporting rotating disk 221 is disposed in the cleaning compartment 20, an upper end surface of the supporting rotating disk 221 is flush with an upper surface of a rear end of the feeder frame 11, an outer diameter of the supporting rotating disk 221 is between an inner diameter and an outer diameter of the water collecting tank 24, the supporting rotating motor 222 is located inside the inner ring of the water collecting tank 24 and is fixedly connected to the bottom of the compartment, and a motor shaft of the supporting rotating motor 222 extends upward and is connected below the supporting rotating disk 221.

The barrel clamping structure 223 comprises a clamping motor 2231 and clamping blocks 2232, the clamping motor 2231 is fixedly arranged on the supporting rotating disk 221 through a seal box (preventing cleaning water from entering the clamping motor during cleaning), a motor shaft of the clamping motor 2231 points to the circle center of the supporting rotating disk 221 and is fixedly connected with the clamping blocks 2232, so that the clamping blocks 2232 slides along the radial direction of the supporting rotating disk 221, the clamping blocks 2232 are arc-shaped blocks, and the electrolyte barrel 5 is fixed above the supporting rotating disk 221 through two sets of barrel clamping structures 223 which are symmetrically arranged.

As shown in fig. 4 and 5, the tub displacement device 21 includes a slide rail 211 disposed at the rear side of the water collecting tub 24, a displacement motor 212, a displacement carriage 213, and a tub turning structure 214, wherein a displacement rack 215 is disposed at the upper side of the slide rail 211, a displacement gear 216 engaged with the displacement rack 215 is disposed below the displacement carriage 213, the displacement motor 212 is fixedly disposed on the displacement carriage 213, and a motor shaft of the displacement motor 213 is connected to a rotation shaft of the displacement gear 216 through a coupling.

The barrel overturning structure 214 comprises a vertical rail 2141, an overturning motor 2142, an overturning gear transmission mechanism 2143 and a clamping pincer structure 2144, and the lower end of the vertical rail 2141 is connected with the displacement trolley 213 in a reciprocating sliding manner. 2141 the vertical rail is connected with the displacement trolley 213 in a sliding way through a sliding connection structure. Preferably, the sliding connection structure includes a sliding groove disposed at the upper end of the displacement trolley 213, a sliding rail disposed at the lower end of the vertical rail 2141, and a driving motor connected to the rear side of the vertical rail 2141.

The overturning motor 2142 is fixedly arranged on the vertical rail 2141, the overturning gear transmission mechanism 2143 comprises an overturning driving gear and an overturning driven gear which are meshed with each other, the axis directions of the overturning driving gear and the overturning driven gear are forward and backward, the overturning driving gear is fixedly connected with a motor shaft of the overturning motor 2142, and the clamping pliers structure 2144 and the overturning driven gear are coaxial on an overturning driven gear shaft 2145.

As shown in fig. 6, the gripping tongs structure 2144 includes a left gripping tongs 21441 and a right gripping tongs 21442, the left gripping tongs 21441 and the right gripping tongs 21442 are hinged through a short shaft 21443, the tongs ends of the left gripping tongs 21441 and the right gripping tongs 21442 are arc-shaped tongs, the arc-shaped tongs of the left gripping tongs 21441 and the right gripping tongs 21442 form a circular gripping hole, one of the left gripping tongs 21441 and the right gripping tongs 21442 is fixedly connected to the short shaft 21443, and a third hydraulic telescopic rod 2146 is connected between the inner side of the other tongs tail and the reverse driven gear shaft 2145. The rear end of the turnover driven gear shaft 2145 is supported and positioned on the vertical rail 2141 through a bearing, and the front end of the turnover driven gear shaft 2145 is fixedly connected with the short shaft 21443.

Preferably, two ends of the third hydraulic telescopic rod 2146 are respectively connected with the overturning driven gear shaft 2145 and the tong tail in a rotating manner. Such as: the clamp tail is connected with a connecting lug extending downwards, the connecting lug is located on the side of the overturning driven gear shaft 2145, and two ends of the third hydraulic telescopic rod 2146 are respectively connected with the overturning driven gear shaft 2145 and the connecting lug in a rotating mode.

As shown in fig. 7, the tub cleaning device 23 includes a cleaning head mounting disc 231, an in-tub cleaning device 232 and an out-tub cleaning device 233, the cleaning head mounting disc 231 is rotatably connected to the lower portion of the ceiling of the cleaning cabin 20 through a disc rotating motor 234, the in-tub cleaning device 232 includes an in-tub cleaning head 2321 and an in-tub cleaning pipe 2322, the in-tub cleaning head 2321 is connected to the lower portion of the cleaning head mounting disc 231 through a telescopic inner cleaning support bar 2323, the inner cleaning support bar 2323 is a first hydraulic telescopic rod, and the in-tub cleaning pipe 2322 is hung on the inner cleaning support bar 2323.

The tub outside washing device 233 includes a tub outside washing brush 2331, a tub outside washing water pipe 2332, and a tub outside washing solvent pipe 2333, the tub outside washing brush 2331 is connected to the lower side of the washing head installation disc 231 through a telescopic outside washing support rod 2334, the outside washing support rod 2334 is a second hydraulic telescopic rod, and the tub outside washing water pipe 2332 and the tub outside washing solvent pipe 2333 are hung on the outside washing support rod 2334.

Example 2

As shown in fig. 8, in the structure of the first embodiment, an inner washing connecting rod 2324 is connected between a barrel inner washing head 2321 and an inner washing supporting rod 2323, the inner washing connecting rod 2324 is hinged to the inner washing supporting rod 2323, an inner washing wire hole is formed in the inner washing supporting rod 2323, an inner washing angle adjusting winding motor 2325 is arranged on the side of the inner washing supporting rod 2323, an inner washing pull wire 2326 penetrating through the inner washing wire hole is connected between a motor shaft of the inner washing angle adjusting winding motor 2325 and the inner washing connecting rod 2324, one end of the inner washing pull wire 2326 is fixedly connected to the inner washing connecting rod 2324, and the other end is wound on the motor shaft of the inner washing angle adjusting winding motor 2325.

Example 3

As shown in fig. 9, the structure of this embodiment is based on the structure of the first embodiment, an outer washing connecting rod 2335 is connected between an outer washing head 2331 of the tub and an outer washing supporting rod 2334, the outer washing connecting rod 2335 is hinged to the outer washing supporting rod 2334, an outer washing line hole is formed on the outer washing supporting rod 2334, an outer washing angle adjusting winding motor 2336 is arranged on the side of the outer washing supporting rod 2334, an outer washing pull line 2337 passing through the outer washing line hole is connected between a motor shaft of the outer washing angle adjusting winding motor 2336 and the outer washing connecting rod 2335, one end of the outer washing pull line 2337 is fixedly connected to the outer washing connecting rod 2335, and the other end is wound on the motor shaft of the outer washing angle adjusting winding motor 2336.

The utility model discloses in can set up one set of control system, for example a computer, will the utility model discloses an each motor passes through the signal line with the computer and is connected, writes control program in the computer to the operation duration, positive reversal and the functioning speed of controlling each motor, the operation that utilizes computer control motor is conventional technique, not the utility model discloses a design point need not be repeated in this patent document.

The working method of the utility model comprises the following steps:

(1-1) washing in a barrel:

(1-1-1) driving the displacement trolley to move leftwards to the rear side of the right end of the feeding rack by the displacement motor;

(1-1-2) moving the vertical rail forwards along the displacement trolley to a position where the clamping pliers structure extends to an electrolyte barrel sent by the feeding device, and tightly clamping the electrolyte barrel;

(1-1-3) driving the displacement trolley to move rightwards to the rear side of the supporting rotating disc by the displacement motor, placing the electrolyte barrel on the supporting rotating disc, loosening the clamping clamp structure, and clamping the electrolyte barrel by using the barrel clamping structure;

(1-1-4) moving the vertical rail backwards along the displacement trolley and keeping away from the supporting rotating disc;

(1-1-5) rotating a cleaning head mounting disc, rotating an in-barrel cleaning device to the upper part of an electrolyte barrel, and then pushing a cleaning head in the barrel to be in contact with the inner wall surface of the electrolyte barrel by using an inner washing support rod;

(1-1-6) starting a supporting rotary motor, and driving an electrolyte barrel to rotate through a supporting rotary disk to complete 360-degree cleaning at the same height in the barrel;

(1-1-7) the inner washing brush supporting rod stretches to enable the washing brush head in the barrel to move up and down, the step (2-6) is combined to complete the whole surface washing in the barrel, and the washing water pipe in the barrel is used for spraying water during the washing to complete the washing in the barrel;

in the step (1-1-5) and the step (1-1-7), the internal washing angle adjusting winding motor is started, the internal washing angle adjusting winding motor rotates forwards and backwards to wind and loosen the internal washing stay wire, and the angle of the internal washing head in the barrel is adjusted through the internal washing connecting rod, so that the inner wall surface of the electrolyte barrel of the internal washing head in the barrel is tightly attached;

(1-2) a step of washing outside the barrel:

(1-2-1) moving the vertical rail forwards along the displacement trolley to a clamping pliers structure to tightly clamp the electrolyte barrel after the washing in the barrel is finished;

(1-2-2) loosening the barrel clamping structure, starting the turnover motor, slowly turning over the electrolyte barrel through the barrel turnover structure, and slowly reserving the washing water remained in the electrolyte barrel in the barrel washing process to the water collection tank along the edge of the supporting rotary disc;

(1-2-3) after the electrolyte barrel is turned over, clamping the electrolyte barrel by using a barrel clamping structure;

(1-2-4) loosening the clamping clamp structure, and moving the vertical rail backwards along the displacement trolley to be far away from the supporting rotating disc;

(1-2-5) rotating a cleaning head mounting disc, rotating an external barrel cleaning device to the upper part of an electrolyte barrel, and pushing an external barrel cleaning brush head to be in contact with the outer wall surface of the electrolyte barrel by using an external cleaning support rod;

(1-2-6) starting a supporting rotary motor, and driving the electrolyte barrel to rotate through a supporting rotary disk to complete 360-degree cleaning at the same height outside the barrel;

(1-2-7) the supporting rod of the external washing brush stretches to enable the external washing brush head to move up and down, the step (2-2-6) is combined to complete the whole external surface washing of the barrel, and the external washing solvent pipe is used for spraying organic solvent and the external washing water pipe is used for spraying water during washing to complete external washing of the barrel.

In the step (1-2-5) and the step (1-2-7), the external washing angle adjusting winding motor is started, the external washing angle adjusting winding motor rotates forwards and backwards to wind and loosen the external washing stay wire, and the angle of the external washing brush head of the barrel is adjusted through the external washing connecting rod, so that the inner wall surface of the electrolyte barrel of the external washing brush head is tightly attached.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The electrolyte barrel cleaning device is characterized by comprising a cleaning cabin, a barrel displacement device, a barrel rotating device, a barrel cleaning device and a water collecting tank, wherein the water collecting tank is arranged in the cleaning cabin and fixedly connected with the cabin bottom of the cleaning cabin, and the water collecting tank is an annular tank body with an opening at the upper end;

the barrel rotating device comprises a supporting rotating disk, a supporting rotating motor and a barrel clamping structure, the supporting rotating disk is arranged in the cleaning cabin, the outer diameter of the supporting rotating disk is between the inner ring diameter and the outer ring diameter of the water collecting tank, the supporting rotating motor is positioned on the inner side of the inner ring of the water collecting tank and fixedly connected with the cabin bottom, and a motor shaft of the supporting rotating motor extends upwards and then is connected below the supporting rotating disk; the electrolytic solution barrel comprises a barrel clamping structure and a plurality of electrolytic solution barrels, wherein the barrel clamping structure comprises a clamping motor and a clamping block, the clamping motor is fixedly arranged on a supporting rotating disk through a sealing box, a motor shaft of the clamping motor points to the circle center of the supporting rotating disk and is fixedly connected with the clamping block, and the electrolytic solution barrels are fixed above the supporting rotating disk through two symmetrically arranged barrel clamping structures;

the barrel displacement device comprises a sliding rail arranged at the rear side of the water collecting tank, a displacement motor, a displacement trolley and a barrel overturning structure, wherein a displacement rack is arranged on the upper side of the sliding rail, a displacement gear meshed with the displacement rack is arranged below the displacement trolley, the displacement motor is fixedly arranged on the displacement trolley, and a motor shaft of the displacement motor is connected with a rotating shaft of the displacement gear through a coupler; the barrel overturning structure comprises a vertical rail, an overturning motor, an overturning gear transmission mechanism and a clamping jaw structure, the lower end of the vertical rail is connected with the displacement trolley in a reciprocating sliding mode, the overturning motor is fixedly arranged on the vertical rail, the overturning gear transmission mechanism comprises an overturning driving gear and an overturning driven gear which are meshed with each other, the axis directions of the overturning driving gear and the overturning driven gear are the front-back direction, the overturning driving gear is fixedly connected with a motor shaft of the overturning motor, and the clamping jaw structure and the overturning driven gear are coaxially arranged on an overturning driven gear shaft;

the barrel cleaning device comprises a cleaning head mounting disc, an inner barrel cleaning device and an outer barrel cleaning device, the cleaning head mounting disc is rotatably connected below the cabin top of the cleaning cabin, the inner barrel cleaning device comprises an inner barrel cleaning head and an inner barrel cleaning water pipe, the inner barrel cleaning head is connected below the cleaning head mounting disc through a telescopic inner cleaning support rod, and the inner barrel cleaning water pipe is hung on the inner cleaning support rod;

the outer washing device of the barrel comprises an outer washing brush head, an outer washing water pipe and an outer washing solvent pipe, wherein the outer washing brush head of the barrel is connected below the washing head installation disc through the telescopic outer washing support rod, and the outer washing water pipe and the outer washing solvent pipe are hung on the outer washing support rod.

2. The electrolyte barrel cleaning device according to claim 1, wherein an inner washing connecting rod is connected between the barrel inner washing head and the inner washing supporting rod, the inner washing connecting rod is hinged to the inner washing supporting rod, an inner washing line hole is formed in the inner washing supporting rod, an inner washing angle adjusting winding motor is arranged on the side of the inner washing supporting rod, an inner washing pull line penetrating through the inner washing line hole is connected between a motor shaft of the inner washing angle adjusting winding motor and the inner washing connecting rod, one end of the inner washing pull line is fixedly connected with the inner washing connecting rod, and the other end of the inner washing pull line is wound on the motor shaft of the inner washing angle adjusting winding motor.

3. The electrolytic solution barrel cleaning device according to claim 1, wherein an outer washing connecting rod is connected between the barrel outer washing head and an outer washing supporting rod, the outer washing connecting rod is hinged to the outer washing supporting rod, an outer washing line hole is formed in the outer washing supporting rod, an outer washing angle adjusting winding motor is arranged on the side of the outer washing supporting rod, an outer washing pull line penetrating through the outer washing line hole is connected between a motor shaft of the outer washing angle adjusting winding motor and the outer washing connecting rod, one end of the outer washing pull line is fixedly connected with the outer washing connecting rod, and the other end of the outer washing pull line is wound on a motor shaft of the outer washing angle adjusting winding motor.

4. The electrolyte barrel cleaning device as claimed in claim 1, wherein the front side of the cleaning device is provided with a feeding device, the right end of the feeding frame of the feeding device is horizontal and extends into the cleaning chamber, and the upper end surface of the supporting rotating disc is not higher than the upper surface of the rear end of the feeding frame.

5. The electrolyte barrel cleaning device as claimed in claim 1, wherein the structure of the clamping pincers comprises a left clamping pincers and a right clamping pincers, the left clamping pincers and the right clamping pincers are hinged through a short shaft, the pincers ends of the left clamping pincers and the right clamping pincers are arc-shaped pincers openings, the arc-shaped pincers openings of the left clamping pincers and the right clamping pincers form a circular clamping hole, one of the left clamping pincers and the right clamping pincers is fixedly connected with the short shaft, and a third hydraulic telescopic rod is connected between the inner side of the tail of the other one of the left clamping pincers and the right clamping pincers and the overturning driven gear shaft.

6. The electrolyte tank cleaning device as claimed in claim 5, wherein the rear end of the turnover driven gear shaft is supported and positioned on the vertical rail through a bearing, and the front end of the turnover driven gear shaft is fixedly connected with the short shaft.

7. The electrolyte tank cleaning device as claimed in claim 5, wherein both ends of the third hydraulic telescopic rod are respectively connected with the turnover driven gear shaft and the tong tail in a rotating manner.

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