KR100960320B1 - DLC Anode Storage System - Google Patents

Abstract

The present invention relates to an anode storage device for double layer coating in the electroplating process, and in particular, convenient to store and take out after wearing in the anode yard (Anode Yard), which occurs during transportation The present invention relates to an apparatus for storing and managing an anode (101.Anode) which prevents damage and deformation of the anode (101.Anode).

The inventors of the present invention, the two-layer plated anode storage device, a four-sided frame of a multi-layer structure in which the left and right bars (2, 3) and the front and rear bars (4, 5) is fixed to four columns (1), the front and rear bars (4) 5, an operation unit 400 fixed on the operation unit, an operation unit 300 connected to the operation unit 400 and operated by operation of the operation unit, and fixed on the operation unit 400 and the operation unit 300 Characterized in that consisting of the adjusting unit 500 to adjust the driving unit.

The present invention does not need to sequentially deposit the anodes during storage or during storage, and breakage and deformation of the double layer coating anode (101.Anode), which may occur due to frequent hangers and collisions during transportation. When using it, there is no need for a wide working space because there is no need to expand and work on both the initial and new charging anodes (101.New Anode). It is effective in preventing safety accidents during use.

Description

Two-Piece Anode Storage System {DLC Anode Storage System}

1 is a conventional known art

2 is an overall perspective view of the present invention

Figure 3a is the overall operation of the present invention (preparation)

Figure 3b is the overall operation of the present invention (storage)

Figure 3c is the overall operation of the present invention (discharge)

4 is a detailed view of the present invention

5 is an operation of the present invention

Figure 6 is a "C" part of the present invention

Figure 7 is a "B" part of the present invention

Figure 8 is a "A" part of the present invention

♠ Explanation of symbols for the main parts of the drawing ♠

100: Anode Pallet 101: Anode

200: anode storage device 201: anode storage device moving hanger

202: wheel for storing the anode storage device 300: operating part of the anode storage device

301: left guide roll 302: right guide roll 303: left conveying roll

304: Right conveying roll 305: Left roll coupling 306: Right roll coupling fixing pin                 

307: left roll shaft 308: right roll shaft 309: left roll shaft cover

310: right roll shaft cover 311: left roll motor

312: right roll motor 313: left motor coupling

314: right motor coupling 315: left roll shaft bearing

316: right roll shaft bearing 317: left motor coupling bolt

318: right side motor coupling bolt 319: moving part left motor cover

320: right motor cover 321: left motor cover bolt

322: right motor cover bolt 323: left roll bearing cover bolt

324: Right roll bearing cover bolt 325: Left roll shaft drive shaft

326: right roll shaft drive shaft 327: left roll drive bar

328: right roll drive bar 329: left roll drive shaft support

330: right roll drive shaft support 331: left roll drive shaft support bolt

332: Right roll drive shaft support bolt 333: Left roll drive shaft fixing bolt

334: Right roll drive shaft fixing bolt 335: Left roll return hook

336: left roll return hook 351 ~ 351-6: moving part transport roll sensor

352 ~ 352-66: Adjuster anode detection sensor 400: anode storage device control panel

401: Case of operation unit (Case) 403: Return motor (Motor)

404: return motor support 405: return wire winder (Winder)

406: return motor fixing bolt 407: return wire guide (Guide)

408: return left wire 409: return right wire                 

410: Return Left Locker 411: Return Right Locker

412: left locker releaser 413: right locker releaser

414: left rocker spring 415: right rocker spring

416: left locker release shaft 417: left locker release shaft

418: right rocker releaser moving shaft 419: right rocker releaser moving shaft

420: left rocker release support 421: right rocker release support

422: left locker release bolt fixing bolt 423: right locker release bolt fixing bolt

424: left locker release bolt fixing bolt 425: right rocker release bolt fixing bolt

500: anode storage device adjustment unit 501: anode detection sensor detection axis

502: adjuster support shaft 503: adjuster upward preventer

504: left and right power transmission shaft 505: upstream preventer connecting shaft

506: upward spring 507: power transmission shaft

508: left and right return spring 509: power transmission shaft gear

510: washer 511: adjustment shaft support shaft fixing bolt

The present invention relates to an anode storage device for double layer coating in the electroplating process, and in particular, convenient to store and take out after wearing in the anode yard (Anode Yard), which occurs during transportation The present invention relates to an apparatus for storing and managing an anode (101.Anode) which prevents damage and deformation of the anode (101.Anode). In general, for two-layer plating, one layer plating is performed in a CAROSEL plating cell, followed by double layer coating in a horizontal plating cell. Is necessary. Namely, Current, Strip, and Anode, among which Anode is a Consumable Anode, which is consumed after use and is a continuous anode. Since input and withdrawal must be done, in order to be stored and used after receiving in an anode yard, it must be efficiently managed during withdrawal and convenient to withdraw.

   A conventional anode storage device will be described with reference to the accompanying drawings. 1 is a working state diagram using a conventional known technique. In general, in the electroplating process, a soluble anode (101.Anode) is used for double layer coating in an electroplating process. Store it in the anode yard (Anode Yard) about 3 ~ 6 steps up and down. Of course, the new anode (101.New Anode) can be stored up and down during storage and used from the top. However, when converting to double layer coating and then double layer coating, and then converting to double layer coating, the initial anode is used. After the work is withdrawn, the work to be put in before the work is performed. Therefore, the initial charge anode (Initial Anode) can be stored as shown in the figure, and can not be transported from the top, and must be marked on each initial charge node (Initial Anode Pallet). After unfolding the node pallet (100.Anode Pallet), manage the Double Layer Coating anode (101.Anode) as a method of working one by one as shown on the right.

However, this method of managing the anode requires that the storage of the anode Pallet should be marked and placed in order during storage so that the initial anode can be efficiently used and transported. When you do a lot of frequent hangers and movements of the anode (101.Anode) breakage and deformation occurs. In addition, when using, the initial charging anode (Initial Anode) and the new charging anode (101.New Anode) both work to be laid out, a large work space is required. In addition, there is a problem such as the risk of safety accidents because a large number of operations are carried out spread out in a wide working space during storage, transport, use.

The present invention has been made to solve the above problems, it is not necessary to indicate the order in the anode pallet (100.Anode Pallet) during storage, and when carrying a new anode (101.New Anode) It prevents damage and deformation, and also requires a large working space by eliminating the need to open and operate both the initial and new charging anodes (101.New Anode). It is an object of the present invention to provide a two-layer plating anode storage device having no risk of safety accidents.

In order to achieve the above object, the present invention, the two-layer plated anode storage device, a four-sided frame of a multi-layer structure in which the left and right bars (2,3) and the front and rear bars (4,5) are fixed to four columns (1), An operation unit 400 fixed to the front and rear side bars 4 and 5, an operation unit 300 connected to the operation unit 400 and operated by an operation of the operation unit, and fixed to the operation unit 400. Characterized in that it consists of an adjusting unit 500 to adjust the driving unit of the operation unit 300.

   The operation unit 400 may include a case 401 fixed on the front and rear bars 4 and 5, a return motor 403 fixed to the case 401, and a return motor 403. A return wire guide 407 connected to the winder 405 and fixed to the case 401, return wires 408 and 409 connected to the return wire guide 407, and connected to the return wires 408 and 409. Roll drive bars 327 and 328, and roll drive shaft supports 329 and 330 coupled to the roll drive bars 327 and 328, wherein the operation part 300 is a roll drive bar of the operation part 400. Roll shafts 307 and 308 connected to the 327 and 328 to rotate, a plurality of guide rolls 301 and 302 fixed and rotated on the roll shafts 307 and 308, and a transport roll formed inside the guide rolls 301 and 302. 303 and 304, a transport roll sensor 351 coupled to the front end portions of the transport rolls 303 and 304, and Roll motors 311 and 312 for rotating the guide rolls (301, 302), the adjustment unit 500, the support shaft 502 fixed on the case 401 of the operation unit 400, and the support The left and right power transmission shaft 504 penetrated through the shaft 502 and screwed with the locker releasers 412 and 413 and the shaft gear 509 is formed at the center thereof, and the upper and lower teeth are engaged with the shaft gear 509. A power transmission shaft 507, and the anode detection sensor 352 attached to the sensing shaft 501 connected to the upper and lower power transmission shaft 507 is characterized in that it is configured.

 In more detail, the operation unit 300 stores a double layer coating (101.Anode) and the left guide roll made of rubber (rubber) material to be able to withstand breakage or impact even during storage. 301, right guide roll 302, left conveying roll 303, right conveying roll 304, left roll coupling 305, right roll coupling fixing pin 306, left roll shaft 307, right side Roll shaft 308, Left roll shaft cover 309, Right roll shaft cover 310, Left roll motor 311, Right roll motor 312, Left motor coupling 313, Right motor coupling 314 ), Left roll shaft bearing 315, right roll shaft bearing 316, left motor coupling bolt 317, right motor coupling bolt 318, moving part left motor cover 319, right motor cover 320 ), Left motor cover bolt 321, right motor cover bolt 322, left roll bearing cover bolt 323, right roll bearing cover bolt 324, left roll Shaft drive shaft 325, right roll shaft drive shaft 326, left roll drive bar 327, right roll drive bar 328, left roll drive shaft support 329, right roll drive shaft support 330, left roll Drive shaft support bolt 331, right roll drive shaft support bolt 332, left roll drive shaft fixing bolt 333, right roll drive shaft fixing bolt 334, left roll return hook 335, operating part left roll return hook 336, the operation part carrying roll detection sensor (351 ~ 351-6), the adjusting part anode detection sensor (352 ~ 352-66),

The operation unit 400 transmits the power of the two-layer plated anode storage device (200.DLC Anode Storage System) to move the anode storage device operation unit 400, the operation unit case 401, the operation unit shaft center fixture 402, Return motor 403, return motor support 404, return wire winder 405, return motor fixing bolt 406, return wire guide 407, return left wire 408, return right wire 409, Left Locker (410), Right Locker (411), Left Locker Releaser (412), Right Locker Releaser (413), Left Locker Spring (414), Right Locker Spring (415), Left Locker Release locker shaft 416, right locker releaser move shaft 418, left rocker releaser support 420, right locker releaser support 421 left locker releaser fixing bolt 422, right locker releaser fixed Bolt 423, the left locker release fixing bolt 424, the right locker release is made of a structure of fixing bolt 425,

The adjusting unit 500 corresponds to the brain of the two-layer plated anode storage system (200.DLC Anode Storage System) in order to serve as an adjustment, the storage unit adjusting unit 500, the anode detection sensor detection axis 501, the adjusting unit Support shaft 502, adjuster upward preventer 503, left / right power transmission shaft 504, upward protector connecting shaft 505, upward spring 506, power transmission shaft 507, left / right return spring ( 508, the power transmission shaft gear 509, the washer 510, and the adjuster support shaft fixing bolt 511.

Hereinafter, with reference to the accompanying drawings, the operation of the present invention will be described in detail divided into four stages of the two-layer plating anode preparation step, storage step, discharge step and continuous step.

Figures 3a, 3b and 3c is the overall operation of the present invention (preparation, storage, discharge). 4 is a partial detailed view of the present invention. 5 is an operation diagram of the present invention.                     

<1. Two-Piece Anode Preparation Step>

As shown in Fig. 3a, a double layer coating anode (101.Anode) is prepared and prepared and stored as an anode (101.Anode). When the preparation is complete, the return motor 403 of the 200-DLC Anode Storage System (200.DLC) is rotated, and the return left wire 408 is returned to the return wire winder 405 through the return wire guide 407. The left roll is pulled inward while the right roll drive bar 327 and the right roll drive bar 328 caught in the left roll return hanger 335 and the right roll return hanger 336 as the return right wire 409 is wound. The drive shaft 325 and the right roll drive shaft 326 are rotated and the left roll shaft 307 and the right roll shaft 308 rotate in the same direction, and the left guide roll 301 and the right guide roll 302, Left conveying roll 303, right conveying roll 304 are two-layer plating anode storage device (200.DLC Ano When the sensor of the moving part transport roll detection sensors 351 to 351-6 is detected by rotating inward of the de Storage System, the preparation step of the two-layer plating anode storage device 200. DLC Anode Storage System is completed.

<2.Layer Plating Anode Storage Step>

In the storage step of the 200.DLC Anode Storage System, a double layer coating anode 101.Anode is prepared in the preparation step as shown in FIG. 3B. A double layer coating (101.Anode) may be placed on the left conveying roll 303 and the right conveying roll 304 between the guide rolls 302. 352-6 detects the double layer coating anode (101.Anode), and the anode detection sensor detection axis 501 is lowered, and the upward preventer connection shaft 505 and the adjuster upward protector 503 ), Washer 510, upward spring 506, power transmission shaft 507, left and right by turning the left and right power transmission shaft 504 while lowering and turning the power transmission shaft gear 509. As shown in FIG. 8, threads of the power transmission shaft 504 and the left locker releaser 412 and the right locker releaser 413 are connected as shown in FIG. 8. Since the left locker releaser 412 and the right locker releaser 413 always rotate inward or rotate outward simultaneously, the left locker releaser 412 and the right locker releaser 413 slide outwards. The storage step is completed while moving in the direction while the return left locker 410 and the return right locker 411 remain locked more.

<3. Two-Layer Plating Anode Discharge Stage>

In the discharging step of the 200.DLC Anode Storage System, when the double layer coating anode 101.Anode is rotated in the storage step as shown in FIG. 3C, the left and right roll motors 311 and 312 rotate. Since the left and right guide rolls 301 and 302 and the left and right conveying rolls 303 and 304 rotate, the two-layer plating anode 101.Anode can be discharged forward and the two-layer plating anode 101.Anode can be discharged to the top. In the case of the six-stage left guide roll 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 304, the six-stage double layer coating anode 101.Anode The return motor 403 rotates in the opposite direction of the winding while discharging the upper portion, and the return left wire 408 and the return right wire 409 remain loose, and the anode detection sensor detection axis 501 ) Rises to the upper side, the upward preventer connecting shaft 505, the adjusting unit upward protector 503, and 510, the upward spring 506, the power transmission shaft 507 is turned up to rotate the left / right power transmission shaft 504 in the opposite direction of the storage step while turning the power transmission shaft gear 509, The threads of the connection portion between the right power transmission shaft 504, the left rocker releaser 412, and the right rocker releaser 413 are reversed as shown in FIG. 8, so that the left rocker releaser 412 and the right rocker releaser 413 are reversed. ) Is always turned inward or rotated outward at the same time, so the left locker releaser 412 and the right locker releaser 413 move inward while pulling inward to return the left locker 410 and the right return locker 411. ) Is released and rotates the left and right roll drive shafts 325, 6 while rotating outward by the force of the left and right rocker springs 414, 5, and the left and right roll shafts 307 rotate in the same direction, and the left and right guide rolls 301 2, the left and right conveying rolls (303, 4) By rotating in the outward direction of the gold anode storage device 200, the detection of the sensor of the moving part transport roll detection sensor 351-1 is released to discharge the two-layered two-layer anode 101 of the top, If the upper discharge of the four-stage, three-stage, two-stage, one-stage two-layer plating anode 101 also mentioned above, the discharge step is completed.

<4. Two-Piece Anode Continuous Step>

In the successive stage of 200.DLC Anode Storage System, double layer coating anode (101.Anode) is first prepared in 1st stage. When ready to store the node 101.Anode, the 2nd, 3rd, 4th, 5th, 6th stage left guide roll 301 and the right guide roll 302, the left carrier roll 303, the right transport When the rolls 304 are all “OUT” and the sensor of the moving part transport roll detection sensors 351 to 351-6 has to be released and the storage stage 1 is completed, the stage 2 preparation stage and the storage stage 2 are completed. Step, three stages of preparation, three stages of storage, four stages of preparation, four stages of storage, five stages of preparation, five stages of storage, six stages of preparation, six stages of storage Double Layer Coating (101.Anode) is completed storage in the 200.DLC Anode Storage System.

If there is a need for discharging the two-plating anode (101.Anode) of the two-plating anode storage system (200.DLC Anode Storage System) during storage, the six-stage left guide roll is completed when the six-stage discharging step is completed. 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 304 pull out the six-stage two-layer plating anode to the top, and the return motor 403 moves in the unwinding direction. Rotating return left wire 408, return right wire 409 is maintained in a loose state, the anode detection sensor detection axis 501 ascends to the upper preventer connecting shaft 505, adjuster upward preventer 503 , The washer 510_, the upward spring 506, the power transmission shaft 507 ascends upward and rotates the left / right power transmission shaft 504 in the opposite direction of the storage step while turning the power transmission shaft gear 509, Of the right-side power transmission shaft 504 and the left rocker releaser 412 and the right rocker releaser 413 Since the thread of the connection part is reversed as shown in FIG. 8, the left locker releaser 412 and the right locker releaser 413 are always rotated inward or rotated outwards. The locker releaser 413 moves inward while pulling in, and the return left locker 410 and the return right locker 411 are released to the outside by the force of the left locker spring 414 and the right locker spring 415. While rotating, the left roll drive shaft 325 and the right roll drive shaft 326 are rotated, and the left roll shaft 307 and the right roll shaft 308 rotate in the same direction, and the left guide roll 301 and the right guide roll are rotated. 302, the left conveying roll 303, the right conveying roll 304 is rotated outward of the two-layer plating anode storage device is released, the sensor of the operating part conveying roll detection sensor 351-6 is released, 5 Double Layer Co ating) When the anode (101.Anode) is discharged, the five stages of the left guide roll 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 304 are formed according to the above-mentioned procedure. Rotation to the outside of the two-layer plating anode storage system (200.DLC Anode Storage System), the sensor detection of the moving part transport roll sensor 351-5 is released, four-stage two-layer anode (101.Anode) ), The five stages of the left guide roll 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 304 are the two-layer plating anode storage device 200 according to the above-mentioned procedure. DLC Anode Storage System is rotated outward to release the sensor detection of the moving part transport roll sensor 351-4, and discharges the double layer coating anode (101.Anode) of three stages. The lower stage guide roll 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 30 of 5 steps based on the above-mentioned procedure 4) The sensor of the moving part transport roll sensor 351-3 is released by rotating in the outward direction of the 200-DLC Anode Storage System, and the two-layer double layer plating is performed. Coating) When the anode (101.Anode) is discharged, the five stages of the left guide roll 301, the right guide roll 302, the left conveying roll 303, and the right conveying roll 304 are prepared according to the above-mentioned procedure. The sensor of the moving part transport roll sensor 351-2 is released by rotating in the outward direction of the 200.DLC Anode Storage System, and finally, the first double layer coating (Double Layer Coating) ) The double layer coating anode (101.Anode) of the 200.DLC Anode Storage System is discharged by discharging the anode (101.Anode). Your work is done.

The present invention does not need to sequentially deposit the anodes during storage or during storage, and breakage and deformation of the double layer coating anode (101.Anode), which may occur due to frequent hangers and collisions during transportation. When using it, there is no need for a wide working space because there is no need to expand and work on both the initial and new charging anodes (101.New Anode). It is effective in preventing safety accidents during use.

Claims (4)

A quadrangular frame having a multilayer structure in which the left and right bars 2 and 3 and the front and rear bars 4 and 5 are fixed to the four pillars 1; An operation unit 400 fixed to the front and rear bars 4 and 5; An operation unit 300 connected to the operation unit 400 and operated by an operation of the operation unit; And an adjustment unit 500 fixed to the operation unit 400 to adjust the driving unit of the operation unit 300. The operation unit 400 may include a case 401 fixed to the front and rear bars 4 and 5, a return motor 403 fixed to the case 401, and a winder of the return motor 403. A return wire guide 407 connected to the 405 and fixed to the case 401, return wires 408 and 409 connected to the return wire guide 407, and a roll drive connected to the return wires 408 and 409. Two-plated anode storage device, characterized in that consisting of a bar (327,328), and the roll drive shaft support (329,330) coupled with the roll drive bar (327,328). delete The method of claim 1, wherein the operation unit 300 Roll shafts 307 and 308 connected to the roll driving bars 327 and 328 of the operation unit 400, a plurality of guide rolls 301 and 302 fixedly rotated on the roll shafts 307 and 308, and the guide rolls Transport rolls 303 and 304 formed inwardly of the 301 and 302, a transport roll sensor 351 coupled to the front end portions of the transport rolls 303 and 304, and roll motors 311 and 312 for rotating the guide rolls 301 and 302. Two-layer plating anode storage device, characterized in that configured. delete

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