CN110844537A

CN110844537A - Electrolytic cathode copper rod drawing turnover device and use method thereof

Info

Publication number: CN110844537A
Application number: CN201911204290.0A
Authority: CN
Inventors: 马永虎; 郁洪波; 何文波; 王永刚; 王志芳; 刘国玉; 汤永升; 田军; 廖永晖
Original assignee: Jinchuan Group Co Ltd
Current assignee: Jinchuan Group Co Ltd
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-02-28

Abstract

The invention discloses an electrolytic cathode copper drawing rod overturning device and a using method thereof, belongs to the field of hydrometallurgy mechanical equipment, and solves the problems of high labor intensity and excessive and violent cathode copper tilting in manual drawing rod operation. The automatic rod pulling device comprises a first rack and a second rack, wherein a rod pulling mechanism is arranged on the second rack, a sliding rail, a push-pull oil cylinder and a turnover mechanism are arranged on the first rack, a sliding frame is arranged on the sliding rail, the push-pull oil cylinder is connected with the sliding frame, the turnover mechanism comprises a turnover frame and a turnover oil cylinder, the turnover frame is L-shaped and is hinged to the sliding frame, and the turnover oil cylinder is arranged between the turnover frame and the sliding frame. The using method comprises the following steps: pushing the sliding frame to the lower part of the supporting roller; the conductive rod is pushed forwards by the rod pushing plate and is bitten into the rod drawing roller group; the sliding frame is pulled back to a station to be turned; the turnover oil cylinder turns the turnover frame by 90 degrees. The invention enables the rod drawing and overturning processes to be linked and operated, changes the original manual rod drawing operation mode and the 'rough' copper plate overturning mode, and improves the working efficiency.

Description

Electrolytic cathode copper rod drawing turnover device and use method thereof

Technical Field

The invention belongs to the field of hydrometallurgy mechanical equipment, and particularly relates to an electrolytic cathode copper drawing rod overturning device and a using method thereof.

Background

In the copper electrolysis production process, after the copper plate is electrolyzed and discharged from the groove, the copper plate is scalded and dried, the copper plate is lifted by a crown block and hoisted to a simple plate turnover frame, then a worker manually draws out the conducting bars on the copper plate in sequence, after the bar drawing is finished, the plate turnover frame is turned over for 90 degrees by the crown block, namely the copper plate is horizontally placed from vertical, and finally the copper plate is forked by a forklift.

The copper plate has the following problems in a series of operation processes after grooving: 1. the hoisting of the copper plate needs the fine operation of crown block workers, the hoisting process is complicated, and potential safety hazards exist; 2. the weight of the current-conducting rod is not light, the labor intensity of manual rod-drawing operation is high, the current-conducting rod can be collided or clamped on fingers carelessly, and the potential safety hazard is very obvious; 3. the manual operation wastes time and labor, the working efficiency is unsatisfactory, the labor is excessive, and the cost is high; 4. when the roll-over stand tumbles, directly push it down with the help of the overhead traveling crane, the too fast uncontrollable of rate of tumbling, there is the potential safety hazard, and does not have buffer, causes the impact to ground, and the noise is huge simultaneously.

Disclosure of Invention

The invention aims to provide an electrolytic cathode copper drawing rod overturning device, which solves the problems of high labor intensity of manual drawing rod operation and over-rough overturning of cathode copper.

The invention also aims to provide a using method of the electrolytic cathode copper drawing rod overturning device.

The technical scheme of the invention is as follows: the utility model provides an electrolysis cathode copper bar drawing turning device, including first frame and second frame, the second frame is striden and is stood in first frame one end top, be equipped with bar drawing mechanism in the second frame, be equipped with the slide rail on the first frame, push-and-pull hydro-cylinder and tilting mechanism, the carriage is installed in the cooperation on the slide rail, the push-and-pull hydro-cylinder one end is connected at the first frame other end, the push-and-pull hydro-cylinder other end links to each other with the carriage, tilting mechanism includes roll-over stand and upset hydro-cylinder, the roll-over stand is L shape, the roll-over stand articulates on the carriage.

As a further improvement of the invention, a first safety seat is arranged on the first machine frame, and a second safety seat is arranged on the sliding frame. The first safety seat and the second safety seat are respectively used for stably supporting the roll-over stand at different stations.

The invention is further improved, the rod drawing mechanism comprises two supporting rolls, a rod drawing roller group, a rod pushing oil cylinder and a rod pushing plate, the two supporting rolls are arranged on a second rack in parallel by taking the width of a copper plate as an interval and used for discharging cathode copper, one end of the rod pushing oil cylinder is connected to one end of the second rack, the other end of the rod pushing oil cylinder is connected with the rod pushing plate, the rod drawing roller group is arranged at the other end of the second rack, the rod drawing roller group is composed of two rod drawing rollers which are vertically arranged, one rod drawing roller is used as a driving roller and driven by a transmission chain wheel to rotate, the other rod drawing roller is a driven roller, and a gap for biting a conductive rod is reserved between the two rod drawing rollers.

As a further improvement of the invention, a tight pushing oil cylinder is arranged on the second frame, and the end part of the tight pushing oil cylinder is connected with a tight pushing plate.

As a further improvement of the invention, a first guide rod is arranged on the rod pushing plate, a first fixing sleeve is arranged on the second rack, and the first guide rod is positioned in the first fixing sleeve and is matched for guiding.

As a further improvement of the invention, the tight push plate is provided with a second guide rod, the second rack is provided with a second fixed sleeve, and the second guide rod is positioned in the second fixed sleeve and is matched for guiding.

As a further improvement of the invention, the rod-drawing stick group is provided with two groups.

A use method of an electrolytic cathode copper drawing rod overturning device comprises the following steps:

A. the turnover frame falls on the second safety seat, the push-pull oil cylinder extends out, and the sliding frame is pushed to the lower part of the supporting roller along the sliding rail;

B. the copper plate with the conducting rods is hoisted above the second rack by the overhead travelling crane, the conducting rods are arranged on the two supporting rollers, and the lower ends of the copper plate are placed on the turnover frame;

C. the conductive rod is pushed forwards by the conductive rod pushing oil cylinder, the conductive rod pushing plate applies pushing force from one end of the conductive rod, meanwhile, the rod drawing roller group operates, when the other end of the conductive rod is pushed to the rod drawing roller group, the conductive rod is bitten into the rod drawing roller group, and then the conductive rod is continuously pushed forwards by the friction force of the two rod drawing rollers which are vertically arranged until the conductive rod is completely drawn out;

D. after the conductive rod is completely drawn out, the push-pull oil cylinder is retracted, and the sliding frame is pulled back to a station to be turned along the sliding rail;

E. the overturning oil cylinder extends out, so that the overturning frame overturns for 90 degrees and falls on the first safety seat, and the copper plate 4 is changed from a vertical state to a horizontal state;

F. after the copper plate 4 is transported away, the turnover frame is reset to fall on the second safety seat, and then the push-pull oil cylinder pushes the sliding frame to reset below the supporting roller.

In step B, after the copper plates with the conducting rods are arranged and placed by the crown block, the oil cylinder is tightly pushed to extend out, and the copper plates are tightly pushed by the tight push plate.

As a further improvement of the invention, in step D, during the sliding process of the sliding frame along the sliding rail, the thrust cylinders work simultaneously to drive the thrust plates to move forward, and the sliding frame and the thrust plates move forward simultaneously, so as to prevent the copper plate from falling, and after the sliding frame moves to the station to be overturned, the thrust cylinders are retracted and reset.

The invention has the beneficial effects that:

1. the device is practical and can realize automatic rod pulling and copper plate overturning aiming at the problems of high labor intensity of manual rod pulling operation, rough copper plate overturning mode and the like in the production process after cathode copper is discharged from a groove;

2. the device adopts the oil cylinder to control the overturning of the overturning frame, the action is soft and slow, and the noise is reduced;

3. the device of the invention uses an automatic device to replace manual labor, thereby eliminating a plurality of potential safety hazards;

4. the method provided by the invention enables the rod drawing and overturning processes to be linked and operated, and has strong operability.

Drawings

FIG. 1 is a front view of an electrolytic cathode copper rod-drawing turning device according to the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

FIG. 4 is an isometric view of FIG. 1;

FIG. 5 is a front view of a station where the copper plate is to be turned over;

fig. 6 is a front view of the station after the copper plate is turned over.

In the figure, 1-push-pull oil cylinder; 2-a slide rail; 3-turning over the shelf; 4-copper plate; 5-a first guide bar; 6-a first fixing sleeve; 7-a push rod oil cylinder; 8-supporting rolls; 9-a second guide bar; 10-tightly pushing the oil cylinder; 11-a second frame; 12-a drive sprocket; 13-a rod drawing roller; 14-a column plate; 15-a first safety seat; 16-a bearing seat; 17-a push rod plate; 18-overturning oil cylinder; 19-a carriage; 20-a second safety seat; 21-tightening the push plate; 22-a first gantry; 23-a conductive rod; 24-a rod set; 25-second fixation sleeve.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, an electrolytic cathode copper drawing rod turnover device comprises a first frame 22 and a second frame 11, wherein the second frame 11 straddles over one end of the first frame 22, a drawing rod mechanism is arranged on the second frame 11, a slide rail 2, a push-pull oil cylinder 1 and a turnover mechanism are arranged on the first frame 22, a sliding frame 19 is arranged on the slide rail 2 in a matching manner, one end of the push-pull oil cylinder 1 is connected to the other end of the first frame 22, the other end of the push-pull oil cylinder 1 is connected with the sliding frame 19, the turnover mechanism comprises a turnover frame 3 and a turnover oil cylinder 18, the turnover frame 3 is in an L shape, the turnover frame 3 is hinged on the sliding frame 19, and the turnover oil cylinder 18 is hinged between.

A first safety seat 15 is provided on the first frame 22 and a second safety seat 20 is provided on the carriage 19.

The rod drawing mechanism comprises supporting rollers 8, a rod drawing roller group 24, a rod pushing oil cylinder 7 and a rod pushing plate 17, the supporting rollers 8 are arranged in two numbers, the two supporting rollers 8 are arranged on the second rack 11 in parallel, one end of the rod pushing oil cylinder 7 is connected to one end of the second rack 11, the other end of the rod pushing oil cylinder 7 is connected with the rod pushing plate 17, the rod drawing roller group 24 is arranged at the other end of the second rack 11, the rod drawing roller group 24 is composed of two rod drawing rollers 13 which are arranged from top to bottom, one rod drawing roller 13 is driven by a transmission chain wheel 12 to rotate, and a gap is reserved between the two rod drawing rollers 13.

The second frame 11 is provided with a tight pushing oil cylinder 10, and the end part of the tight pushing oil cylinder 10 is connected with a tight pushing plate 21.

A first guide rod 5 is arranged on the push rod plate 17, a first fixing sleeve 6 is arranged on the second rack 11, and the first guide rod 5 is positioned in the first fixing sleeve 6 and is matched for guiding.

The tight push plate 21 is provided with a second guide rod 9, the second rack 11 is provided with a second fixing sleeve 25, and the second guide rod 9 is positioned in the second fixing sleeve 25 and is matched with the second fixing sleeve for guiding.

The rod drawing set 24 is provided with two groups.

The draw roller 13 is connected to the second frame 11 through a column plate 14. The upright post plate 14 is provided with a bearing seat 16, and the rod drawing roller 13 is arranged on the bearing seat 16 through a bearing.

A. the roll-over stand 3 is fallen on the second safety seat 20, the push-pull oil cylinder 1 extends out, and the sliding stand 19 is pushed to the lower part of the supporting roll 8 along the sliding rail 2;

B. the crown block hoists the copper plate 4 with the conducting rod 23 to the upper part of the second frame 11, the conducting rod 23 is arranged and placed on the two supporting rollers 8, the lower end of the copper plate 4 is placed on the turnover frame 3, after the arrangement, the tight pushing oil cylinder 10 extends out, and the tight pushing plate 21 slightly pushes the copper plate 4 tightly on the premise of not influencing rod drawing;

C. the push rod oil cylinder 7 extends out, the push rod plate 17 applies pushing force from one end of the conductive rod 23 to push the conductive rod 23 forwards, the conductive rod 6 is pushed, the copper plate 4 is not pushed due to the limit of the second frame 11, meanwhile, the pull rod roller group 24 operates, when the other end of the conductive rod 23 is pushed to the pull rod roller group 24, the conductive rod 23 is bitten into the first pull rod roller group 24, the conductive rod 23 is continuously pushed forwards through the friction force of the upper pull rod roller 13 and the lower pull rod roller 13, then the conductive rod 23 is bitten into the second pull rod roller group 24, and the two pull rod roller groups 24 simultaneously act on pushing the conductive rod 23 until the conductive rod 23 is completely pulled out;

D. after the conductive rod 23 is completely drawn out, the push-pull oil cylinder 1 is withdrawn, the sliding frame 19 is pulled back to the station to be overturned along the sliding rail 2, as shown in fig. 5, in the process that the sliding frame 19 slides along the sliding rail 2, the push-pull oil cylinder 10 works simultaneously to drive the push-pull plate 21 to move forward, the sliding frame 19 and the push-pull plate 21 move forward simultaneously, after the sliding frame 19 moves to the station to be overturned, the push-pull oil cylinder 10 is withdrawn and reset

E. The overturning oil cylinder 18 extends out, so that the overturning frame 3 overturns for 90 degrees and falls on the first safety seat 15, the copper plate 4 is changed from a vertical state to a horizontal state, and the station after overturning is shown in fig. 6;

F. after the copper plate 4 is transported away, the roll-over stand 3 is reset to fall on the second safety seat 20, and then the push-pull oil cylinder 1 pushes the sliding stand 19 to be reset to the lower part of the supporting roller 8.

Claims

1. The utility model provides an electrolysis negative pole copper bar drawing turning device which characterized in that: including first frame (22) and second frame (11), second frame (11) are strideed and are stood in first frame (22) one end top, are equipped with the rod pulling mechanism on second frame (11), are equipped with slide rail (2), push-and-pull hydro-cylinder (1) and tilting mechanism on first frame (22), carriage (19) are installed in the cooperation on slide rail (2), the push-and-pull hydro-cylinder (1) one end is connected at first frame (22) other end, and the push-and-pull hydro-cylinder (1) other end links to each other with carriage (19), tilting mechanism includes roll-over stand (3) and upset hydro-cylinder (18), and roll-over stand (3) are L shape, and roll-over stand (3) articulate on carriage (19), articulates between roll-over stand (3) and carriage (19) and installs upset hydro-cylinder (18).

2. The electrolytic cathode copper drawing rod overturning device according to claim 1, wherein: a first safety seat (15) is arranged on the first frame (22), and a second safety seat (20) is arranged on the sliding frame (19).

3. The electrolytic cathode copper drawing rod overturning device according to claim 1 or 2, characterized in that: the rod drawing mechanism comprises supporting rollers (8), a rod drawing roller set (24), rod pushing oil cylinders (7) and a rod pushing plate (17), wherein the supporting rollers (8) are provided with two supporting rollers (8) which are arranged on a second rack (11) in parallel, one end of each rod pushing oil cylinder (7) is connected to one end of the second rack (11), the other end of each rod pushing oil cylinder (7) is connected with the rod pushing plate (17), the rod drawing roller set (24) is arranged at the other end of the second rack (11), the rod drawing roller set (24) consists of two rod drawing rollers (13) which are arranged from top to bottom, one rod drawing roller (13) is driven to rotate by a transmission chain wheel (12), and a gap is reserved between the two rod drawing rollers (13).

4. The electrolytic cathode copper drawing rod overturning device according to claim 3, wherein: and a tight pushing oil cylinder (10) is arranged on the second rack (11), and the end part of the tight pushing oil cylinder (10) is connected with a tight pushing plate (21).

5. The electrolytic cathode copper drawing rod overturning device according to claim 4, wherein: the bar pushing plate (17) is provided with a first guide rod (5), the second rack (11) is provided with a first fixing sleeve (6), and the first guide rod (5) is located in the first fixing sleeve (6) and is matched with the first fixing sleeve for guiding.

6. The electrolytic cathode copper drawing rod overturning device according to claim 5, wherein: the tight push plate (21) is provided with a second guide rod (9), the second rack (11) is provided with a second fixing sleeve (25), and the second guide rod (9) is located in the second fixing sleeve (25) and is matched with the guide.

7. The electrolytic cathode copper drawing rod overturning device according to claim 6, wherein: the rod drawing set (24) is provided with two sets.

8. The use method of the electrolytic cathode copper drawing rod overturning device is characterized by comprising the following steps of:

A. the roll-over stand (3) is arranged on the second safety seat (20), the push-pull oil cylinder (1) extends out, and the sliding stand (19) is pushed to the lower part of the supporting roll (8) along the sliding rail (2);

B. the copper plate (4) with the conducting rods (23) is hoisted above the second rack (11) by the crown block, the conducting rods (23) are arranged on the two supporting rollers (8), and the lower ends of the copper plate (4) are placed on the turnover frame (3);

C. the conductive rod pushing cylinder (7) extends out, the conductive rod pushing plate (17) applies pushing force from one end of the conductive rod (23) to push the conductive rod (23) forwards, meanwhile, the rod drawing roller group (24) operates, when the other end of the conductive rod (23) is pushed to the rod drawing roller group (24), the conductive rod (23) is bitten into the rod drawing roller group (24), and then the conductive rod (23) is continuously pushed forwards through the friction force of the two rod drawing rollers (13) which are arranged up and down until the conductive rod (23) is completely drawn out;

D. after the conductive rod (23) is completely pulled out, the push-pull oil cylinder (1) is retracted, and the sliding frame (19) is pulled back to a station to be overturned along the sliding rail (2);

E. the overturning oil cylinder (18) extends out, so that the overturning frame (3) overturns for 90 degrees and falls on the first safety seat (15), and the copper plate 4 is changed from a vertical state to a horizontal state;

F. after the copper plate 4 is transported away, the turnover frame (3) is reset to fall on the second safety seat (20), and then the push-pull oil cylinder (1) pushes the sliding frame (19) to reset below the supporting roller (8).

9. The use method of the electrolytic cathode copper extraction rod turnover device according to claim 8 is characterized in that: in the step B, after the copper plates (4) with the conducting rods (23) are arranged and placed by the crown block, the tight pushing oil cylinder (10) extends out, and the tight pushing plate (21) pushes the copper plates (4) tightly.

10. The use method of the electrolytic cathode copper draw bar turnover device according to claim 9, characterized in that: in the step D, in the process that the sliding frame (19) slides along the sliding rail (2), the tight pushing oil cylinder (10) works simultaneously to drive the tight pushing plate (21) to move forwards, the sliding frame (19) and the tight pushing plate (21) move forwards simultaneously, and after the sliding frame (19) moves to a station to be overturned, the tight pushing oil cylinder (10) is retracted and reset.