CN114959839B - Coating device for middle and low voltage cabinet accessories - Google Patents

Abstract

The invention discloses a coating device for accessories of a medium and low voltage cabinet, which comprises an electrophoresis tank component of accessories of the medium and low voltage cabinet, wherein an electrophoresis stroke rack component of accessories of the medium and low voltage cabinet is arranged at the top of the electrophoresis tank component of the accessories of the medium and low voltage cabinet in a walking manner, and a electrophoresis rotating table component and a tank liquid follow-up stirring component of accessories of the medium and low voltage cabinet are sleeved on the electrophoresis stroke rack component of the accessories of the medium and low voltage cabinet.

Description

Coating device for middle and low voltage cabinet accessories

Technical Field

The invention belongs to the technical field of electrophoretic plating, and particularly relates to a coating device for middle and low voltage cabinet accessories.

Background

The electrophoretic plating is a process of making a layer of metal film adhere to the surface of a metal or other material product by using electrolysis, thereby playing a role in preventing metal oxidation (such as corrosion), improving wear resistance, conductivity, light reflection, corrosion resistance (such as copper sulfate and the like), enhancing beauty and the like.

The prior art has the following problems: in the actual production of the electrophoresis, a small pinpoint pit or a small pinhole is generated on an electrophoretic coating layer of a medium-low-voltage cabinet accessory, and in the actual production, it is found that the main reason for the generation is that during the electrophoresis in an electrophoresis tank, tank liquid stirring is insufficient, because the volume of the electrophoresis tank is large, during the actual electrophoresis production of the medium-low-voltage cabinet accessory, the medium-low-voltage cabinet accessory is mostly conveyed from one end of the electrophoresis tank to the other end, in order to ensure the stirring property of the surrounding tank liquid during the electrophoresis of the medium-low-voltage cabinet accessory, it is necessary to ensure that a uniform and stable stirring environment is formed around the medium-low-voltage cabinet accessory along with the conveying process of the medium-low-voltage cabinet accessory from one end to the other end, namely, the stirring formed around the medium-low-voltage cabinet accessory is enhanced, so that a pinhole is not easily generated during the drying of a coating film during the electrophoresis of the medium-low-voltage cabinet accessory is ensured, but the existing device is mostly lack of such a function, so that the electrophoresis rate is high during the actual electrophoresis production, and therefore, a coating device for the medium-low-voltage cabinet accessory is urgently needed to solve the problem.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a coating device for accessories of a medium-low voltage cabinet, which has the characteristic of being difficult to generate coating pinholes.

In order to achieve the purpose, the invention provides the following technical scheme: a coating device for middle and low voltage cabinet accessories comprises a middle and low voltage cabinet accessory electrophoresis tank assembly, wherein a middle and low voltage cabinet accessory electrophoresis stroke frame assembly is arranged at the top of the middle and low voltage cabinet accessory electrophoresis tank assembly in a walking mode, a middle and low voltage cabinet accessory electrophoresis rotating table assembly and a tank liquid follow-up stirring assembly are sleeved on the middle and low voltage cabinet accessory electrophoresis stroke frame assembly, the tank liquid follow-up stirring assembly is located below the middle and low voltage cabinet accessory electrophoresis rotating table assembly, an electrophoresis suspension structure with a hole accessory of a middle and low voltage cabinet is formed between the bottoms of the middle and low voltage cabinet accessory electrophoresis rotating table assembly, and the tank liquid follow-up stirring assembly forms a follow-up stirring structure with a middle and low voltage cabinet accessory in the middle and low voltage cabinet accessory electrophoresis tank assembly;

the electrophoresis tank component comprises a middle-low voltage cabinet accessory electrophoresis tank, wherein stroke side racks are arranged at the tops of two sides of the middle-low voltage cabinet accessory electrophoresis tank, wavy guide rail chutes are formed in the stroke side racks, inclined guide rail chutes and static guide rail chutes are arranged at two ends of the wavy guide rail chutes in a consecutive manner, an end part rack rod is fixedly arranged at one end of the middle-low voltage cabinet accessory electrophoresis tank, a supporting top frame is arranged at the top of the end part rack rod, driving motors are fixedly arranged at two ends of the supporting top frame, cam disks are arranged on output shafts of the driving motors, and telescopic scissor arms are arranged between the two cam disks through shaft pins in a rotating manner;

the electrophoresis stroke frame component comprises an electrophoresis stroke top frame, wherein the top and the bottom of the electrophoresis stroke top frame are respectively provided with a top end table and a main slide rail shaft frame rod, the bottom of the main slide rail shaft frame rod is fixedly provided with a shaft frame rod chassis, a guide rail vertical sliding groove, a first spiral sliding groove and a second spiral sliding groove are arranged on the main slide rail shaft frame rod, two sides of the electrophoresis stroke top frame are respectively and fixedly provided with an end frame supporting arm, two ends of the electrophoresis stroke top frame and the bottom of the end frame supporting arm are respectively provided with an I-shaped wheel, the bottom of the end frame supporting arm is provided with a conical arc plate, a supporting arm vertical sliding groove is formed in the end frame supporting arm, and a shaft frame rod pushing spring is sleeved at the bottom of the main slide rail shaft frame rod.

Preferably, the electrophoresis rotating table assembly of the middle-low voltage cabinet accessory comprises an electrophoresis rotating table, two walking arm slide bars are rotatably arranged on the outer side of the electrophoresis rotating table through matching of a T-shaped chute and a T-shaped slide block, two sides of the bottom of the electrophoresis rotating table are fixedly provided with support side arm frames, a first square arm rod is slidably arranged on each support side arm frame in a penetrating manner, two ends of the first square arm rod are respectively and fixedly provided with an arm rod arm frame and a first fixed end table, a first pushing spring is sleeved on each first square arm rod, a universal ball wheel is arranged on each first fixed end table, the bottom of each arm rod arm frame is slidably arranged in a penetrating manner with a second square arm rod, two ends of each second square arm rod are respectively and fixedly provided with a second fixed end table and a third fixed end table, a second pushing spring and a third pushing spring are sleeved on each second square arm rod, a middle-low voltage cabinet accessory with a hole is fixedly arranged on each third fixed end table, and a first convex slide column is arranged on the inner wall of a central chute of the electrophoresis rotating table;

the tank liquid follow-up stirring assembly comprises a tank liquid follow-up stirring table, wherein U-shaped supporting side arm plates are symmetrically and fixedly arranged on two sides of the tank liquid follow-up stirring table, a second convex sliding column is arranged on the inner wall of a central sliding groove of the tank liquid follow-up stirring table, a stirring motor is fixedly arranged at the end part of each U-shaped supporting side arm plate, a stirring shaft rod is arranged on a power output shaft of the stirring motor, and a stirring support rod is arranged on the stirring shaft rod.

Preferably, the electrophoresis rotating table slides up and down on the main slide rail shaft frame rod, the electrophoresis rotating table rotates on the main slide rail shaft frame rod, the first convex sliding column is inserted into a communicating sliding groove formed by the guide rail vertical sliding groove and the first spiral sliding groove, and the far end of the telescopic scissor arm is connected with the top end table at the top of the electrophoresis stroke frame assembly of the middle-low voltage cabinet accessory through a shaft pin.

Preferably, the tank liquid follow-up stirring platform slides up and down on the main slide rail shaft bracket rod, the tank liquid follow-up stirring platform rotates on the main slide rail shaft bracket rod, the second convex sliding column is inserted into a sliding groove of the second spiral sliding groove, and two ends of the shaft bracket rod pushing spring respectively abut against the shaft bracket rod bottom disc and the tank liquid follow-up stirring platform bottom.

Preferably, the drum-shaped wheels on two sides of the top end table run and roll on the two guide rail moving bosses on the top of the two stroke side rail tables, and the drum-shaped wheels on the bottom of the end rack supporting arm run and roll on the two guide rail moving bosses on the bottom of the two stroke side rail tables.

Preferably, the walking arm slide bar rotates around the electrophoresis rotating table through the cooperation of the T-shaped slide block and the T-shaped sliding groove, the walking arm slide bar penetrates through the end part rack supporting arm through the supporting arm vertical sliding groove, and the far end arm body of the walking arm slide bar is inserted into the wave-shaped guide rail sliding groove on the stroke side rail table.

Preferably, the wave-shaped guide rail sliding groove and the inclined guide rail sliding grooves and the standing guide rail sliding grooves at the two ends form a guide rail sliding groove structure which is communicated with each other.

Preferably, two ends of the first pushing spring respectively abut against the supporting side arm frame and the first fixed end platform, the arm lever arm frame naturally faces outwards through pushing of the first pushing spring, two ends of the second pushing spring respectively abut against the third fixed end platform and the arm lever arm frame, two ends of the third pushing spring respectively abut against the second fixed end platform and the arm lever arm frame, and the suspension arm of the low-medium-voltage cabinet with the hole accessory forms a buffer structure which can move back and forth relative to the arm lever arm frame.

Preferably, a butt-joint suspension arm structure is formed between two suspension arms with accessories of the middle and low-pressure machine cabinet on the two third fixed end tables, and the accessories of the middle and low-pressure machine cabinet with holes are suspended on the two suspension arms with accessories of the middle and low-pressure machine cabinet with holes.

Preferably, the tapered arc plate is a tapered structure with a small upper part and a large lower part, and the universal ball wheel on the first fixed end table is abutted against the inner wall of the tapered arc plate and rolls on the inner wall of the tapered arc plate.

Compared with the prior art, the invention has the beneficial effects that:

1. when the electrophoresis coating is coated, processed and used, the top of the electrophoresis tank component of the low and medium-voltage cabinet accessory is provided with the electrophoresis stroke rack component of the low and medium-voltage cabinet accessory in a walking way, the low and medium-voltage cabinet accessory is suspended at the bottom of the electrophoresis rotating table component of the low and medium-voltage cabinet accessory on the electrophoresis stroke rack component of the low and medium-voltage cabinet accessory, the cam discs are driven to rotate by the two driving motors at the moment, the extension and the retraction of the telescopic scissor arms are realized through the extension and the retraction of the telescopic scissor arms, the reciprocating walking of the electrophoresis stroke rack component of the low and medium-voltage cabinet accessory at the top of the electrophoresis tank component of the low and medium-voltage cabinet accessory is realized through the extension and the retraction of the telescopic scissor arms, the electrophoresis conveying of the low and medium-voltage cabinet accessory from one end to the other end in the electrophoresis tank component of the low and medium-voltage cabinet accessory is realized at the moment, during actual use, the walking arm slide bar rotates around the electrophoresis rotating table through the cooperation of the T-shaped slide block and the T-shaped slide groove, the walking arm slide bar penetrates through the end part rack supporting arm through the supporting arm vertical slide groove, the far end arm body of the walking arm slide bar is inserted into the wave-shaped guide rail slide groove on the stroke side rail table, the wave-shaped guide rail slide groove and the inclined guide rail slide grooves at the two ends and the standing guide rail slide groove form a coherent and communicated guide rail slide groove structure, through the cooperation of the walking arm slide bar and the coherent guide rail slide groove structure, when middle and low voltage cabinet accessories are subjected to electrophoresis, blanking at one end of the electrophoresis tank accessories of the middle and low voltage cabinet and lifting from the other end are realized, and the blanking and the material taking of the middle and low voltage cabinet accessories during actual use are facilitated.

2. Through the pushing of the first pushing spring, the boom arm support naturally outwards supports the side boom arm support, when the middle and low-voltage cabinet accessory electrophoresis rotating table assembly moves up and down from the middle and low-voltage cabinet accessory electrophoresis stroke frame assembly, the universal ball wheel on the first fixed end table abuts against the inner wall of the conical arc plate and rolls on the inner wall of the conical arc plate, as the conical arc plate is of a conical structure with a small upper part and a large lower part, a butt-joint suspension arm structure is formed between two suspension arms of the middle and low-voltage cabinet accessory on the two third fixed end tables, the middle and low-voltage cabinet accessory orifice accessories are suspended on the two suspension arms of the middle and low-voltage cabinet accessory orifice accessories, through the mode, the suspension of the middle and low-voltage cabinet accessories in electrophoresis is facilitated, meanwhile, through the matching of the second pushing spring and the third pushing spring, the suspension arms of the middle and low-voltage cabinet accessory orifice accessories form a front and back buffer structure relative to the boom arm support, and the low-voltage cabinet accessory electrophoresis rotating table assembly reciprocates up and down on the middle and low-voltage cabinet accessory electrophoresis stroke frame assembly, the middle and the two suspension arms of the middle and low-voltage cabinet accessory orifice accessories can be guaranteed to always abut against each other, and the cabinet can be prevented from falling down when the cabinet accessory is suspended in suspension.

3. When the walking arm slide bar slides on the guide rail in the wave-shaped guide rail chute, and the middle and low-voltage cabinet accessory electrophoresis rotating table assembly reciprocates to move up and down on the middle and low-voltage cabinet accessory electrophoresis stroke frame assembly, the first convex slide column is inserted into a communication chute formed by the guide rail vertical chute and the first spiral slide groove, the middle and low-voltage cabinet accessory electrophoresis rotating table assembly can form a rotating structure outside the middle and low-voltage cabinet accessory electrophoresis stroke frame assembly, and the middle and low-voltage cabinet accessory suspended at the bottom of the middle and low-voltage cabinet accessory electrophoresis rotating table assembly can form a rotating electrophoresis coating structure in the middle and low-voltage cabinet accessory electrophoresis groove assembly, so that electrophoresis liquid in the middle and low-voltage cabinet accessory electrophoresis groove assembly is in a stirring state.

4. When the electrophoresis rotating platform assembly of the middle and low-voltage cabinet accessory forms frequent up-and-down reciprocating and rotating structures at the bottom of the electrophoresis stroke frame assembly of the middle and low-voltage cabinet accessory, the bottom of the electrophoresis rotating platform assembly of the middle and low-voltage cabinet accessory can be abutted against the top of the tank liquid follow-up stirring assembly, at the moment, the second convex sliding column is inserted into the sliding groove of the second spiral sliding groove, two ends of the shaft frame rod pushing spring respectively abut against the bottom disc of the shaft frame rod and the bottom of the tank liquid follow-up stirring platform, at the moment, the tank liquid follow-up stirring platform slides up and down on the main sliding rail shaft frame rod, and the tank liquid follow-up stirring platform rotates on the main sliding rail shaft frame rod.

5. According to the invention, through the cooperation of the middle-low voltage cabinet accessory electrophoresis tank assembly, the middle-low voltage cabinet accessory electrophoresis stroke frame assembly, the middle-low voltage cabinet accessory electrophoresis rotating table assembly and the bath liquid follow-up stirring assembly, the butt joint suspension of the middle-low voltage cabinet accessory at the bottom of the middle-low voltage cabinet accessory electrophoresis rotating table assembly is realized, the self-rotation stirring of the middle-low voltage cabinet accessory in electrophoresis liquid and the peripheral electrophoresis liquid stirring of the bath liquid follow-up stirring assembly centering on the middle-low voltage cabinet accessory are realized, and meanwhile, the linear push type automatic blanking and automatic feeding of the middle-low voltage cabinet accessory in the middle-low voltage cabinet accessory electrophoresis tank assembly are realized.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a perspective view of a low voltage cabinet accessory electrophoresis tank assembly of the present invention;

FIG. 4 is a perspective view of the low-voltage cabinet accessory electrophoresis stroke rack assembly, the medium-low voltage cabinet accessory electrophoresis turntable assembly and the bath liquid follow-up stirring assembly of the present invention;

FIG. 5 is an exploded view of the low-pressure cabinet accessory electrophoresis stroke rack assembly, the medium-low pressure cabinet accessory electrophoresis turntable assembly, and the bath follow-up agitation assembly of the present invention;

FIG. 6 is a perspective view of the electrophoresis carriage assembly of the low-voltage cabinet accessory of the present invention;

FIG. 7 is a perspective view of the low voltage cabinet accessory electrophoresis turntable assembly of the present invention;

FIG. 8 is an exploded view of the low-pressure cabinet accessory electrophoresis turret assembly of the present invention;

FIG. 9 is a perspective view of the bath solution follower agitation assembly of the present invention;

FIG. 10 is a perspective view of another perspective of the bath solution follower agitation assembly of the present invention;

in the figure: 100. a middle and low voltage cabinet accessory electrophoresis tank assembly; 101. a middle and low voltage cabinet accessory electrophoresis tank; 102. a travel side rail table; 103. a wave-shaped guide rail chute; 104. an inclined guide rail chute; 105. standing the guide rail chute; 106. a guide rail moving boss; 107. an end portion frame bar; 108. supporting the top frame; 109. a drive motor; 110. a cam plate; 111. a telescopic scissor arm; 200. an electrophoresis stroke frame assembly of a middle and low voltage cabinet accessory; 201. a top end station; 202. electrophoresis stroke top frame; 203. a forming wheel; 204. a main rail axle frame rod; 205. a guide rail vertical chute; 206. a support arm vertical chute; 207. an end frame support arm; 208. a first spiral chute; 209. a second spiral chute; 210. a tapered arc plate; 211. a shaft bracket chassis; 212. the shaft bracket rod pushes the spring; 300. an electrophoresis rotating table component of a middle and low voltage cabinet accessory; 301. an electrophoresis rotating table; 302. a T-shaped chute; 303. a traveling arm slide bar; 304. a T-shaped slider; 305. supporting the side arm frame; 306. a first urging spring; 307. a first fixed end station; 308. a universal ball wheel; 309. a first square arm; 310. an arm lever arm support; 311. a second pushing spring; 312. a second square arm; 313. a third pushing spring; 314. a second fixed end station; 315. a third fixed end station; 316. the suspension arm of the middle-low voltage cabinet with the accessory is provided with a hole; 317. a first male traveler; 400. a tank liquid follow-up stirring component; 401. a tank liquor follow-up stirring table; 402. a U-shaped support side arm plate; 403. a stirring motor; 404. a stirring shaft lever; 405. stirring the supporting rod; 406. a second male sliding column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides the following technical solutions: a coating device for middle and low voltage cabinet accessories comprises a middle and low voltage cabinet accessory electrophoresis tank assembly 100, wherein the top of the middle and low voltage cabinet accessory electrophoresis tank assembly 100 is provided with a middle and low voltage cabinet accessory electrophoresis stroke frame assembly 200 in a walking mode, the middle and low voltage cabinet accessory electrophoresis stroke frame assembly 200 is sleeved with a middle and low voltage cabinet accessory electrophoresis rotating table assembly 300 and a tank liquid follow-up stirring assembly 400, the tank liquid follow-up stirring assembly 400 is located below the middle and low voltage cabinet accessory electrophoresis rotating table assembly 300, an electrophoresis suspension structure with hole accessories of a middle and low voltage cabinet is formed between the bottoms of the middle and low voltage cabinet accessory electrophoresis rotating table assemblies 300, and the tank liquid follow-up stirring assembly 400 forms a follow-up stirring structure for the middle and low voltage cabinet accessories in the middle and low voltage cabinet accessory electrophoresis tank assembly 100;

the middle and low voltage cabinet accessory electrophoresis tank assembly 100 comprises a middle and low voltage cabinet accessory electrophoresis tank 101, wherein stroke side rail platforms 102 are arranged on the tops of two sides of the middle and low voltage cabinet accessory electrophoresis tank 101, wave-shaped guide rail sliding chutes 103 are formed in the stroke side rail platforms 102, inclined guide rail sliding chutes 104 and standing guide rail sliding chutes 105 are respectively and continuously arranged at two ends of the wave-shaped guide rail sliding chutes 103, an end part frame rod 107 is fixedly arranged at one end of the middle and low voltage cabinet accessory electrophoresis tank 101, a supporting top frame 108 is arranged on the top of the end part frame rod 107, driving motors 109 are respectively and fixedly arranged at two ends of the supporting top frame 108, cam discs 110 are arranged on output shafts of the driving motors 109, telescopic scissor arms 111 are rotatably arranged between the two cam discs 110 through shaft pins, and the wave-shaped guide rail sliding chutes 103, the inclined guide rail sliding chutes 104 and the standing guide rail sliding chutes 105 at the two ends form a guide rail sliding chute structure which is continuously communicated;

the electrophoresis stroke frame assembly 200 of the middle-low voltage cabinet accessory comprises an electrophoresis stroke top frame 202, the top and the bottom of the electrophoresis stroke top frame 202 are respectively provided with a top end table 201 and a main slide rail shaft frame rod 204, the bottom of the main slide rail shaft frame rod 204 is fixedly provided with a shaft frame rod chassis 211, the main slide rail shaft frame rod 204 is provided with a guide rail vertical sliding groove 205, a first spiral sliding groove 208 and a second spiral sliding groove 209, both sides of the electrophoresis stroke top frame 202 are fixedly provided with end frame supporting arms 207, both ends of the electrophoresis stroke top frame 202 and the bottom of the end frame supporting arms 207 are respectively provided with an I-shaped wheel 203, the bottom of the end frame supporting arms 207 is provided with a conical arc plate 210, the conical arc plate 210 is of a small top and big bottom conical structure, the end frame supporting arm vertical supporting arm sliding grooves 206 are arranged on the end frame supporting arms 207, the bottom of the main slide rail shaft frame rod 204 is sleeved with shaft frame rod pushing springs 212, the I-shaped wheels 203 on both sides of the top end table 201 roll on two guide rail moving bosses 106 on the top of the two stroke side rail tables 102, and the I-shaped wheels 203 on the bottom of the end frame supporting arms 207 roll on the two guide rail moving bosses 106 on the two stroke tables 102.

In this embodiment, preferably, the electrophoresis rotating table assembly 300 of the middle and low voltage cabinet accessory comprises an electrophoresis rotating table 301, two walking arm sliding rods 303 are rotatably disposed on the outer side of the electrophoresis rotating table 301 through the matching of a T-shaped sliding slot 302 and a T-shaped sliding block 304, a supporting side arm support 305 is fixedly disposed on both sides of the bottom of the electrophoresis rotating table 301, a first square arm 309 is slidably disposed on the supporting side arm support 305 in a penetrating manner, an arm rod arm support 310 and a first fixed end support 307 are respectively fixedly disposed on both ends of the first square arm 309, a first pushing spring 306 is sleeved on the first square arm 309, a universal ball wheel 308 is disposed on the first fixed end support 307, a second square arm rod 312 is slidably disposed on the bottom of the arm rod arm support 310 in a penetrating manner, a second fixed end support 314 and a third fixed end support 315 are respectively fixedly disposed on both ends of the second square arm rod 312, and a second pushing spring 311 and a third pushing spring 313 are sleeved on the second square arm rod 312, a hanging arm 316 of a middle-low pressure cabinet perforated accessory is fixedly arranged on a third fixed end platform 315, a first convex sliding column 317 is arranged on the inner wall of a central sliding groove of an electrophoresis rotating platform 301, the electrophoresis rotating platform 301 slides up and down on a main sliding rail shaft frame rod 204, the electrophoresis rotating platform 301 rotates on the main sliding rail shaft frame rod 204, the first convex sliding column 317 is inserted into a communicating sliding groove formed by a guide rail vertical sliding groove 205 and a first spiral sliding groove 208, the far end of a telescopic scissor arm 111 is connected with a top end platform 201 at the top of an electrophoresis stroke frame component 200 of the middle-low pressure cabinet accessory through a shaft pin, a walking arm sliding rod 303 rotates around the electrophoresis rotating platform 301 through the matching of a T-shaped sliding block 304 and the T-shaped sliding groove 302, the walking arm sliding rod 303 penetrates through an end rack supporting arm 207 through a supporting arm vertical sliding groove 206, the far end arm body of the walking arm sliding rod 303 is inserted into a wave-shaped guide rail sliding groove 103 on the stroke side rail platform 102, two ends of a first pushing spring 306 are respectively abutted against a supporting side arm frame 305 and a first fixed end table 307, through pushing of the first pushing spring 306, an arm rod arm frame 310 naturally faces outwards, two ends of a second pushing spring 311 are respectively abutted against a third fixed end table 315 and the arm rod arm frame 310, two ends of a third pushing spring 313 are respectively abutted against a second fixed end table 314 and the arm rod arm frame 310, a middle-low-pressure cabinet perforated accessory suspension arm 316 forms a buffer structure which can move front and back relative to the arm rod arm frame 310, a butt suspension arm structure is formed between two middle-low-pressure cabinet perforated accessory suspension arms 316 on the two third fixed end tables 315, the middle-low-pressure cabinet perforated accessory suspension arms are suspended on the two middle-low-pressure cabinet perforated accessory suspension arms 316, and a universal ball wheel 308 on the first fixed end table 307 is abutted against the inner wall of the conical arc plate 210 and rolls on the inner wall of the conical arc plate 210;

the tank liquid follow-up stirring assembly 400 comprises a tank liquid follow-up stirring platform 401, two sides of the tank liquid follow-up stirring platform 401 are symmetrically and fixedly provided with U-shaped supporting side arm plates 402 in a distributed manner, a second convex sliding column 406 is arranged on the inner wall of a central chute of the tank liquid follow-up stirring platform 401, the end portion of each U-shaped supporting side arm plate 402 is fixedly provided with a stirring motor 403, a stirring shaft lever 404 is arranged on a power output shaft of each stirring motor 403, a stirring support rod 405 is arranged on each stirring shaft lever 404, the tank liquid follow-up stirring platform 401 slides up and down on a main sliding rail shaft lever 204, the tank liquid follow-up stirring platform 401 rotates on the main sliding rail shaft lever 204, the second convex sliding column 406 is inserted into a chute of a second spiral chute 209, and two ends of a shaft lever pushing spring 212 respectively abut against a shaft lever bottom plate 211 and the bottom of the tank liquid follow-up stirring platform 401.

In another embodiment of the present invention, in order to avoid the simultaneous up-and-down movement of the electrophoresis rotating platform 301 and the tank liquid following stirring platform 401 on the main rail shaft frame 204 and the mutual interference during the rotation movement, a universal ball wheel is disposed on the bottom surface of the electrophoresis rotating platform 301, and meanwhile, in order to ensure the smoothness of the rotation of the traveling arm sliding bar 303 on the periphery of the electrophoresis rotating platform 301, the rotating structure between the end structure of the traveling arm sliding bar 303 and the electrophoresis rotating platform 301 may be replaced by a wheel structure or other structures, which actually ensures the smoothness of the rotation of the traveling arm sliding bar 303 on the periphery of the electrophoresis rotating platform 301.

The anode and cathode electrolysis regions arranged in the electrophoresis tank assembly 100 of the low-and-medium-voltage cabinet accessory are the known technologies which are already disclosed and widely applied to daily life, and the invention is not described in detail nor drawn in the specification.

The working principle and the using process of the invention are as follows: when the electrophoresis coating is coated, processed, produced and used, the middle-low voltage cabinet accessory electrophoresis tank assembly 100 is provided with a middle-low voltage cabinet accessory electrophoresis stroke rack assembly 200 in a walking mode at the top, the middle-low voltage cabinet accessory is suspended at the bottom of a middle-low voltage cabinet accessory electrophoresis rotating table assembly 300 on the middle-low voltage cabinet accessory electrophoresis stroke rack assembly 200, at the moment, the cam discs 110 are driven to rotate through the two driving motors 109, the telescopic scissor arms 111 are stretched and retracted through rotation of the two cam discs 110, the middle-low voltage cabinet accessory electrophoresis stroke rack assembly 200 is pushed to reciprocate at the top of the middle-low voltage cabinet accessory electrophoresis tank assembly 100 through stretching and retracting of the telescopic scissor arms 111, at the moment, electrophoresis conveying of the middle-low voltage cabinet accessories in the middle-low voltage cabinet accessory electrophoresis tank assembly 100 from one end to the other end is achieved, and when the electrophoresis conveying device is actually used, the walking arm sliding rod 303 rotates around the electrophoresis rotating table 301 through the matching of the T-shaped sliding block 304 and the T-shaped sliding chute 302, and the walking arm sliding rod 303 penetrates through the end part rack supporting arm 207 through the supporting arm vertical sliding groove 206, the far end arm body of the walking arm sliding rod 303 is inserted into the wave-shaped guide rail sliding groove 103 on the stroke side rail platform 102, the wave-shaped guide rail sliding groove 103, the inclined guide rail sliding grooves 104 at two ends and the standing guide rail sliding groove 105 form a continuously communicated guide rail sliding groove structure, when the middle and low-pressure cabinet accessories are electrophoresed, the blanking at one end and the lifting from the other end of the electrophoresis tank assembly 100 of the middle and low-pressure cabinet accessories can be realized through the matching of the walking arm sliding rod 303 and the continuous guide rail sliding groove structure, the discharging and the material taking when the middle and low-pressure cabinet accessories are actually used are convenient, through the pushing of the first pushing spring 306, the arm rod arm frame 310 naturally faces outwards relative to the supporting side arm frame 305, when the middle and low-pressure cabinet accessories electrophoresis rotating platform assembly 300 moves upwards and downwards from the middle and low-pressure cabinet accessories electrophoresis stroke frame assembly, the universal ball wheel 308 on the first fixed end table 307 is abutted against the inner wall of the conical arc plate 210 and rolls on the inner wall of the conical arc plate 210, because the conical arc plate 210 is of a conical structure with a small upper part and a large lower part, a butt-joint suspension arm structure is formed between two suspension arms 316 with the hole fittings of the medium and low-pressure cabinet on the two third fixed end tables 315, and the hole fittings of the medium and low-pressure cabinet are suspended on the suspension arms 316 with the hole fittings of the medium and low-pressure cabinet, by this way, the suspension of the medium and low-pressure cabinet during electrophoresis is convenient, and simultaneously through the matching of the second pushing spring 311 and the third pushing spring 313, the suspension arms 316 with the hole fittings of the medium and low-pressure cabinet form a buffer structure which can move back and forth relative to the arm frame 310, when the electrophoresis rotating table component 300 of the medium and low-pressure cabinet fittings reciprocates on the electrophoresis stroke frame component 200 of the medium and low-pressure cabinet fittings, the two suspension arms 316 with the hole fittings of the medium and low-pressure cabinet can be ensured to always abutted together, the falling of the accessories with holes of the medium and low voltage cabinet during suspension is avoided, when the walking arm sliding rod 303 slides on the guide rail in the wave-shaped guide rail sliding groove 103, and the electrophoresis rotating table component 300 of the medium and low voltage cabinet accessories reciprocates up and down on the electrophoresis stroke frame component 200 of the medium and low voltage cabinet accessories, because the first convex sliding column 317 is inserted into the communicating sliding groove formed by the guide rail vertical sliding groove 205 and the first spiral sliding groove 208, at the moment, the electrophoresis rotating table component 300 of the medium and low voltage cabinet accessories forms a rotating structure outside the electrophoresis stroke frame component 200 of the medium and low voltage cabinet accessories, and at the moment, the medium and low voltage cabinet accessories suspended at the bottom of the electrophoresis rotating table component 300 of the medium and low voltage cabinet accessories form a rotating electrophoresis coating structure in the electrophoresis tank component 100 of the medium and low voltage cabinet accessories, so that the electrophoresis liquid in the electrophoresis tank component 100 of the medium and low voltage cabinet accessories is in a stirring state, when the middle-low voltage cabinet accessory electrophoresis rotating table component 300 forms a frequent up-down reciprocating and rotating structure at the bottom of the middle-low voltage cabinet accessory electrophoresis stroke frame component 200, the bottom of the middle-low voltage cabinet accessory electrophoresis rotating table component 300 is abutted against the top of the tank liquid follow-up stirring component 400, at the moment, the second convex sliding column 406 is inserted into the sliding groove of the second spiral sliding groove 209, two ends of the shaft frame rod pushing spring 212 respectively abut against the bottom disk 211 of the shaft frame rod and the bottom of the tank liquid follow-up stirring table 401, at the moment, the tank liquid follow-up stirring table 401 slides up and down on the main sliding rail shaft frame rod 204, and the tank liquid follow-up stirring table 401 rotates on the main sliding rail shaft frame rod 204, so that the tank liquid follow-up stirring table 401 drives the U-shaped support side arm plate 402 to perform a small left-right reciprocating half-circle rotation, at the moment, the stirring shaft rod 404 and the stirring support rod 405 are driven to perform a reciprocating circle-dividing action centering on the middle-low voltage cabinet accessory cabinet, at the moment, the stirring shaft lever 404 and the stirring support rod 405 are driven by the stirring motor 403 to stir the electrophoretic liquid on the periphery of the middle-low pressure cabinet accessory in a circling manner, so that a dynamic stirring environment is formed outside the middle-low pressure cabinet accessory during electrophoresis, and the middle-low pressure cabinet accessory rotates in a self-reciprocating manner at the bottom of the electrophoresis rotating table component 300 of the middle-low pressure cabinet accessory, so that the quality of the middle-low pressure cabinet accessory during electrophoretic coating is ensured and the phenomenon of a pinhole of a coating layer caused by nonuniform electrophoretic liquid is avoided through the double-layer electrophoretic liquid stirring structure The electrophoresis tank liquid follow-up stirring component 400 can stir the peripheral electrophoresis liquid by taking the middle-low pressure cabinet accessories as the center, and can realize linear push type automatic discharging and automatic feeding of the middle-low pressure cabinet accessories in the electrophoresis tank component 100.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A coating device for middle and low voltage cabinet accessories comprises an electrophoresis tank assembly (100) for the middle and low voltage cabinet accessories, and is characterized in that: the electrophoresis tank assembly comprises a middle-low-voltage cabinet accessory electrophoresis tank assembly (100), a middle-low-voltage cabinet accessory electrophoresis stroke frame assembly (200) is arranged at the top of the middle-low-voltage cabinet accessory electrophoresis tank assembly (100) in a walking mode, a middle-low-voltage cabinet accessory electrophoresis rotating table assembly (300) and a tank liquid follow-up stirring assembly (400) are sleeved on the middle-low-voltage cabinet accessory electrophoresis stroke frame assembly (200), the tank liquid follow-up stirring assembly (400) is located below the middle-low-voltage cabinet accessory electrophoresis rotating table assembly (300), an electrophoresis suspension structure of a middle-low-voltage cabinet with hole accessories is formed between the bottoms of the middle-low-voltage cabinet accessory electrophoresis rotating table assemblies (300), and the tank liquid follow-up stirring assembly (400) forms a follow-up stirring structure of a middle-low-voltage cabinet accessory in the middle-low-voltage cabinet accessory electrophoresis tank assembly (100);

the middle and low voltage cabinet accessory electrophoresis tank assembly (100) comprises a middle and low voltage cabinet accessory electrophoresis tank (101), wherein stroke side rail tables (102) are arranged on the tops of two sides of the middle and low voltage cabinet accessory electrophoresis tank (101), wave-shaped guide rail sliding grooves (103) are formed in the stroke side rail tables (102), inclined guide rail sliding grooves (104) and standing guide rail sliding grooves (105) are continuously arranged at two ends of each wave-shaped guide rail sliding groove (103), an end part frame rod (107) is fixedly arranged at one end of the middle and low voltage cabinet accessory electrophoresis tank (101), a supporting top frame (108) is arranged on the top of the end part frame rod (107), driving motors (109) are fixedly arranged at two ends of the supporting top frame (108), cam disks (110) are arranged on output shafts of the driving motors (109), and telescopic scissor arms (111) are rotatably arranged between the two cam disks (110) through shaft pins;

the electrophoresis stroke frame assembly (200) of the middle-low voltage cabinet accessory comprises an electrophoresis stroke top frame (202), the top and the bottom of the electrophoresis stroke top frame (202) are respectively provided with a top end platform (201) and a main slide rail shaft frame rod (204), the bottom of the main slide rail shaft frame rod (204) is fixedly provided with a shaft frame rod chassis (211), the main slide rail shaft frame rod (204) is provided with a guide rail vertical sliding groove (205), a first spiral sliding groove (208) and a second spiral sliding groove (209), two sides of the electrophoresis stroke top frame (202) are respectively and fixedly provided with an end frame support arm (207), two ends of the electrophoresis stroke top frame (202) and the bottom of the end frame support arm (207) are respectively provided with an I-shaped wheel (203), the bottom of the end frame support arm (207) is provided with a tapered arc plate (210), the end frame support arm (207) is provided with a support arm vertical sliding groove (206), and the bottom of the main slide rail shaft frame rod (204) is sleeved with a shaft top frame rod spring (212);

the electrophoresis rotating table component (300) of the middle and low voltage cabinet accessory comprises an electrophoresis rotating table (301), two walking arm sliding rods (303) are rotatably arranged on the outer side of the electrophoresis rotating table (301) through matching of a T-shaped sliding groove (302) and a T-shaped sliding block (304), two sides of the bottom of the electrophoresis rotating table (301) are fixedly provided with supporting side arm frames (305), a first square arm rod (309) is arranged on each supporting side arm frame (305) in a sliding and penetrating manner, two ends of the first square arm rod (309) are respectively and fixedly provided with an arm rod arm frame (310) and a first fixed end table (307), a first pushing spring (306) is sleeved on each first square arm rod (309), a universal ball wheel (308) is arranged on each first fixed end table (307), a second square arm rod (312) is arranged at the bottom of each arm rod (310) in a sliding and penetrating manner, a second fixed end table (314) and a third fixed end table (315) are respectively arranged at two ends of each second square arm rod (312), a second square arm rod (312) is sleeved with a second fixed end table (313) and a second fixed end table (313), a third fixed end table (316) is provided with a middle and low voltage cabinet accessory fixing sliding groove (301), a middle and low voltage cabinet accessory is arranged on each rack (312);

the tank liquid follow-up stirring assembly (400) comprises a tank liquid follow-up stirring table (401), two sides of the tank liquid follow-up stirring table (401) are symmetrically distributed and fixedly provided with U-shaped supporting side arm plates (402), a second convex sliding column (406) is arranged on the inner wall of a central sliding groove of the tank liquid follow-up stirring table (401), the end portion of each U-shaped supporting side arm plate (402) is fixedly provided with a stirring motor (403), a stirring shaft lever (404) is arranged on a power output shaft of each stirring motor (403), and a stirring support rod (405) is arranged on each stirring shaft lever (404).

2. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: electrophoresis swivel table (301) slides from top to bottom on main slide rail pedestal pole (204), and electrophoresis swivel table (301) rotates on main slide rail pedestal pole (204), first protruding traveller (317) insert in the intercommunication spout that guide rail vertical chute (205) and first spiral spout (208) formed, the distal end of flexible scissors arm (111) is connected through pivot and top end platform (201) at well low pressure rack accessory electrophoresis stroke frame subassembly (200) top.

3. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: the tank liquid follow-up stirring table (401) slides up and down on the main sliding rail shaft frame rod (204), the tank liquid follow-up stirring table (401) rotates on the main sliding rail shaft frame rod (204), the second convex sliding column (406) is inserted into the sliding groove of the second spiral sliding groove (209), and two ends of the shaft frame rod push spring (212) respectively abut against the bottoms of the shaft frame rod bottom disc (211) and the tank liquid follow-up stirring table (401).

4. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: the drum-shaped wheels (203) at the two sides of the top end table (201) roll on the two guide rail moving bosses (106) at the tops of the two stroke side rail tables (102), and the drum-shaped wheels (203) at the bottoms of the end rack supporting arms (207) roll on the two guide rail moving bosses (106) at the bottoms of the two stroke side rail tables (102).

5. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: the walking arm sliding rod (303) rotates around the electrophoresis rotating table (301) through the matching of the T-shaped sliding block (304) and the T-shaped sliding groove (302), the walking arm sliding rod (303) penetrates through the end rack supporting arm (207) through the supporting arm vertical sliding groove (206), and the far end arm body of the walking arm sliding rod (303) is inserted into the wave-shaped guide rail sliding groove (103) on the stroke side rail table (102).

6. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: the wave-shaped guide rail sliding groove (103) and the inclined guide rail sliding grooves (104) and the standing guide rail sliding grooves (105) at the two ends form a guide rail sliding groove structure which is communicated with each other.

7. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: two ends of the first pushing spring (306) are respectively abutted against the supporting side arm support (305) and the first fixed end platform (307), the arm rod arm support (310) naturally faces outwards through pushing of the first pushing spring (306), two ends of the second pushing spring (311) are respectively abutted against the third fixed end platform (315) and the arm rod arm support (310), two ends of the third pushing spring (313) are respectively abutted against the second fixed end platform (314) and the arm rod arm support (310), and the suspension arm (316) of the low-and-medium-pressure cabinet perforated accessory forms a buffer structure which can move back and forth relative to the arm rod arm support (310).

8. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: a butt joint suspension arm structure is formed between two suspension arms (316) with accessories of the middle and low-pressure cabinets on the two third fixed end tables (315), and the accessories of the middle and low-pressure cabinets are suspended on the two suspension arms (316) with accessories of the middle and low-pressure cabinets.

9. The coating device for the middle and low voltage cabinet fittings according to claim 1, wherein: the conical arc plate (210) is of a conical structure with a small upper part and a large lower part, and the universal ball wheel (308) on the first fixed end platform (307) props against the inner wall of the conical arc plate (210) and rolls on the inner wall of the conical arc plate (210).

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