CN103952728A - Electrolytic manganese or zinc negative plate double-station out-in groove device - Google Patents

Abstract

The invention discloses an electrolytic manganese or zinc negative plate double-station out-in groove device including a frame, a first material rack mechanism, a second material rack mechanism and a driver, the first material rack mechanism and the second material rack mechanism are connected by a connecting plate, the first material rack mechanism and the second material rack mechanism are located within the frame, the driver and the frame are in hinge joint, a piston rod of the driver and the connecting plate are in hinge joint, and the first material rack mechanism and the second material rack mechanism are driven by the driver to move in the frame. The electrolytic manganese or zinc negative plate double-station out-in groove device can improve electrolytic work efficiency.

Description

Electrolytic manganese or zinc negative plate double discrepancy slot device

Technical field

The present invention relates to a kind of in electrolytic metal Mn or zinc production technique, the electrolytic manganese adopting or the zinc negative plate double slot device of coming in and going out.

Background technology

Existing a kind of electrolytic metal Mn or zinc production technique, before electrolytic process, first electrolytic manganese or electrolytic zinc anode plate are moved on to the top of electrolyzer by mechanical manipulator, then electrolytic manganese or electrolytic zinc anode plate are inserted in the anode of electrolyzer, after electrolytic process finishes, by mechanical manipulator, electrolytic manganese or electrolytic zinc anode plate are taken out, then electrolytic manganese or electrolytic zinc anode plate are transplanted in the flow chart of manganese or zinc separation, the manganese or the zinc that on anticathode plate surface, adhere to carry out separation, last mechanical manipulator has moved on to the top of electrolyzer by surface without the negative plate of manganese or zinc, then repeat said procedure.In above-mentioned operation process, when mechanical manipulator takes out electrolytic manganese or electrolytic zinc anode plate from electrolyzer, electrolyzer power-off and cause electrolysis work to stop, only have when mechanical manipulator is inserted in electrolyzer by surface without the negative plate of manganese or zinc, electrolysis work could start, because electrolyzer power-off in this course causes the time that electrolysis work stops conventionally will spending 120 seconds, therefore reduced the working efficiency of electrolysis.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of electrolytic manganese or zinc negative plate double discrepancy slot device, and this device can be conducive to improve electrolysis working efficiency.

In order to solve the problems of the technologies described above, a kind of electrolytic manganese of the present invention or zinc negative plate double discrepancy slot device, contain framework, the first bin mechanism, the second bin frame and driving mechanism, the first bin mechanism is connected by web plate with the second bin frame, the first bin mechanism and the second bin frame are positioned at framework, driving mechanism and framework form hinged, and the piston rod of driving mechanism and web plate form hinged, and the first bin mechanism and the second bin frame can move under the drive of driving mechanism in framework.

Described driving mechanism contains Das Vorderradfahrwerkmit Vorderradantrieb and rear drive device, described web plate contains front web plate and rear web plate, before in described framework, on rear end, be respectively provided with guide rail, described the first bin mechanism is identical with the structure of the second bin frame, all contain left bin, right bin, front intermediate support, rear intermediate support, front left driving mechanism, rear left driving mechanism, front right driving mechanism and rear right driving mechanism, before left bin and right bin, rear end respectively in the slide by separately and framework before, rear two ends are provided with guide rail formation and are slidably connected, front intermediate support and rear intermediate support be positioned at left bin and right bin before, in the middle of rear end, and before in front intermediate support and rear intermediate support and framework, rear end is provided with guide rail formation and is slidably connected, front left driving mechanism and front intermediate support form hinged, the piston rod of front left driving mechanism and the front end of left bin form hinged, front right driving mechanism and front intermediate support form hinged, the piston rod of front right driving mechanism and the front end of right bin form hinged, rear left driving mechanism and rear intermediate support form hinged, the piston rod of rear left driving mechanism and the rear end of left bin form hinged, rear right driving mechanism and rear intermediate support form hinged, the piston rod of rear right driving mechanism and the rear end of right bin form hinged, the front intermediate support of the first bin mechanism is connected by front web plate with the front intermediate support of the second bin mechanism, Das Vorderradfahrwerkmit Vorderradantrieb and framework form hinged, the piston rod of Das Vorderradfahrwerkmit Vorderradantrieb and front web plate form hinged, the rear intermediate support of the first bin mechanism is connected by rear web plate with the rear intermediate support of the second bin mechanism, rear drive device and framework form hinged, the piston rod of rear drive device and rear web plate form hinged.

Described driving mechanism is cylinder, oil cylinder or YE.

Described Das Vorderradfahrwerkmit Vorderradantrieb, rear drive device, front left driving mechanism, front right driving mechanism, rear left driving mechanism and rear right driving mechanism, be cylinder, oil cylinder or YE.

When above-mentioned electrolytic manganese or zinc negative plate double are come in and gone out slot device use, before electrolytic process finishes, mechanical manipulator is moved into surface in the first bin mechanism without the negative plate of manganese or zinc in advance, after electrolytic process finishes, mechanical manipulator captures negative plate and moves and be put in the second bin mechanism from electrolyzer, then the first bin mechanism and the second bin mechanism move under the drive of driving mechanism in framework, make the first bin mechanism be displaced to the previous position of the second bin, then mechanical manipulator is sent into the negative plate in the first bin mechanism in electrolyzer, to carry out electrolysis operation, then mechanical manipulator is transplanted on the negative plate on the second bin in detached job operation, the manganese or the zinc that on anticathode plate surface, adhere to carry out separation, last mechanical manipulator is before electrolytic process finishes, surface is moved in the first bin mechanism without the negative plate of manganese or zinc.In above-mentioned operation process, from mechanical manipulator, the negative plate electrolyzer is captured to move and be put in the second bin mechanism, then the first bin mechanism and the second bin mechanism move under the drive of driving mechanism in framework, make the first bin mechanism be displaced to the second previous position of bin frame, then mechanical manipulator is sent into the negative plate in the first bin mechanism in electrolyzer, to carry out electrolysis operation, in this process, electrolyzer power-off time is only 20 seconds, be significantly less than the prior art electrolyzer power-off time of 120 seconds, therefore greatly improved electrolysis working efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of electrolytic manganese of the present invention or zinc negative plate double discrepancy slot device.

Fig. 2 be in Fig. 1 A to structural representation view.

Fig. 3 is the local structure enlarged diagram in Fig. 1.

1. first bin mechanisms in figure, 2. rear drive device, 3. rear web plate, 4. left bin, 5. rear left driving mechanism, 6. rear intermediate support, 7. rear right driving mechanism, 8. right bin, 9. framework, 10. front web plate, 11. Das Vorderradfahrwerkmit Vorderradantriebs, 12. second bin frames, 13. rear rails, 14. negative plates, 15. front intermediate supports, 16. front left driving mechanisms, 17. front right driving mechanisms.

Embodiment

In Fig. 1 and Fig. 2, a kind of electrolytic manganese of the present invention or zinc negative plate double discrepancy slot device, contain framework 9, the first bin mechanism 1, the second bin frame 12 and driving mechanism.The first bin mechanism 1 is connected by web plate with the second bin frame 12, and the first bin mechanism 1 and the second bin frame 12 are positioned at framework 9.Driving mechanism and framework 9 form hinged, and the piston rod of driving mechanism and web plate form hinged, and the first bin mechanism 1 and the second bin frame 12 can be in the interior movements of framework 9 under the drive of driving mechanism.Described driving mechanism contains Das Vorderradfahrwerkmit Vorderradantrieb 11 and rear drive device 2, and described web plate contains front web plate 10 and rear web plate 3, is respectively provided with guide rail on the front and back ends in described framework, i.e. fromer rail and rear rail 13.Described the first bin mechanism 1 is identical with the structure of the second bin frame 12.Now with the second bin frame 12, elaborate, the second bin frame 12 contains left bin 4, right bin 8, front intermediate support 15, rear intermediate support 6, front left driving mechanism 16, rear left driving mechanism 5, front right driving mechanism 17 and rear right driving mechanism 7.The front and back ends of left bin 4 and right bin 8 fromer rail that the slide by separately and the forward and backward two ends in framework 9 are provided with respectively and rear rail 13 form and are slidably connected.Front intermediate support 15 and rear intermediate support 6 are positioned in the middle of the front and back ends of left bin 4 and right bin 8, and the front and back ends in front intermediate support 15 and rear intermediate support 6 and framework 9 is provided with fromer rail and rear rail 13 formations are slidably connected.Front left driving mechanism 16 is hinged with front intermediate support 15 formations, and the front end of the piston rod of front left driving mechanism 16 and left bin 4 forms hinged, and front right driving mechanism 17 is hinged with front intermediate support 15 formations, and the front end of the piston rod of front right driving mechanism 17 and right bin 8 forms hinged.Rear left driving mechanism 5 is hinged with rear intermediate support 6 formations, and the rear end of the piston rod of rear left driving mechanism 5 and left bin 4 forms hinged, and rear right driving mechanism 7 is hinged with rear intermediate support 6 formations, and the rear end of the piston rod of rear right driving mechanism 7 and right bin 8 forms hinged.The front intermediate support 15 of the front intermediate support of the first bin mechanism 1 and the second bin mechanism 12 is connected by front web plate 10, Das Vorderradfahrwerkmit Vorderradantrieb 11 forms hinged with framework 9, the piston rod of Das Vorderradfahrwerkmit Vorderradantrieb 11 and front web plate 10 form hinged, the rear intermediate support 6 of the rear intermediate support of the first bin mechanism 1 and the second bin mechanism 12 is connected by rear web plate 3, rear drive device 2 is hinged with framework 9 formations, and the piston rod of rear drive device 2 and rear web plate 3 form hinged.Described driving mechanism is cylinder, oil cylinder or YE.Described Das Vorderradfahrwerkmit Vorderradantrieb 11, rear drive device 5, front left driving mechanism 16, front right driving mechanism 17, rear left driving mechanism 5 and rear right driving mechanism 7, be cylinder, oil cylinder or YE.When above-mentioned electrolytic manganese or zinc negative plate double are come in and gone out slot device use, before electrolytic process finishes, the left bin of the first bin mechanism 1 and right bin under the drive of left driving mechanism and right driving mechanism from distance the shortest, mechanical manipulator is moved into surface in the first bin mechanism 1 without the negative plate 14 of manganese or zinc in advance, the both sides that are about to negative plate 14 upper ends are moved respectively on the left bin and right bin that is placed on the first bin mechanism 1, and the left bin 4 of the second bin mechanism 12 is under the promotion of front left driving mechanism 16 and rear left driving mechanism 5, right bin 8 under the promotion of front right driving mechanism 17 and rear right driving mechanism 7 from distance the longest, and be positioned at the top of electrolyzer.After electrolytic process finishes, mechanical manipulator captures negative plate and shifts out from electrolyzer, at this moment the left bin 4 of the second bin mechanism 12 under the drive of front left driving mechanism 16 and rear left driving mechanism 5, right bin 8 is under the drive of front right driving mechanism 17 and rear right driving mechanism 7, left bin 4 and right bin 8 from distance the shortest, mechanical manipulator is put into the negative plate of crawl on the left bin 4 and right bin 8 of the second bin mechanism 12.Then the first bin mechanism 1 and the second bin mechanism 12 under the promotion of driving mechanism in the interior movement of framework 9, make the first bin mechanism 1 be displaced to the second previous position of bin frame 12, then mechanical manipulator is picked up the negative plate 14 in the first bin mechanism 1, the left bin of the first bin mechanism 1 and right bin under the promotion of left driving mechanism and right driving mechanism from distance the longest, at this moment mechanical manipulator is sent into the negative plate of picking up 14 in electrolyzer, to carry out electrolysis operation.Then mechanical manipulator is transplanted on the negative plate in the second bin mechanism 12 in detached job operation, the manganese or the zinc that on anticathode plate surface, adhere to carry out separation, last mechanical manipulator, before electrolytic process finishes, is moved into surface in the first bin mechanism 1 without the negative plate of manganese or zinc.In above-mentioned operation process, from mechanical manipulator, the negative plate electrolyzer is captured to move and be put in the second bin mechanism 12, then the first bin mechanism 1 and the second bin mechanism 12 under the drive of driving mechanism in the interior movement of framework 9, make the first bin mechanism 1 be displaced to the second previous position of bin mechanism 12, then mechanical manipulator is sent into the negative plate 14 in the first bin mechanism 1 in electrolyzer, to carry out electrolysis operation, in this process, electrolyzer power-off time is only 20 seconds, be significantly less than the prior art electrolyzer power-off time of 120 seconds, therefore greatly improved electrolysis working efficiency.

Claims (4)

1. an electrolytic manganese or the zinc negative plate double slot device of coming in and going out, it is characterized in that: contain framework, the first bin mechanism, the second bin frame and driving mechanism, the first bin mechanism is connected by web plate with the second bin frame, the first bin mechanism and the second bin frame are positioned at framework, driving mechanism and framework form hinged, the piston rod of driving mechanism and web plate form hinged, and the first bin mechanism and the second bin frame can move under the drive of driving mechanism in framework.

2. a kind of electrolytic manganese according to claim 1 or the zinc negative plate double slot device of coming in and going out, it is characterized in that: described driving mechanism contains Das Vorderradfahrwerkmit Vorderradantrieb and rear drive device, described web plate contains front web plate and rear web plate, before in described framework, on rear end, be respectively provided with guide rail, described the first bin mechanism is identical with the structure of the second bin frame, all contain left bin, right bin, front intermediate support, rear intermediate support, front left driving mechanism, rear left driving mechanism, front right driving mechanism and rear right driving mechanism, before left bin and right bin, rear end respectively in the slide by separately and framework before, rear two ends are provided with guide rail formation and are slidably connected, front intermediate support and rear intermediate support be positioned at left bin and right bin before, in the middle of rear end, and before in front intermediate support and rear intermediate support and framework, rear end is provided with guide rail formation and is slidably connected, front left driving mechanism and front intermediate support form hinged, the piston rod of front left driving mechanism and the front end of left bin form hinged, front right driving mechanism and front intermediate support form hinged, the piston rod of front right driving mechanism and the front end of right bin form hinged, rear left driving mechanism and rear intermediate support form hinged, the piston rod of rear left driving mechanism and the rear end of left bin form hinged, rear right driving mechanism and rear intermediate support form hinged, the piston rod of rear right driving mechanism and the rear end of right bin form hinged, the front intermediate support of the first bin mechanism is connected by front web plate with the front intermediate support of the second bin mechanism, Das Vorderradfahrwerkmit Vorderradantrieb and framework form hinged, the piston rod of Das Vorderradfahrwerkmit Vorderradantrieb and front web plate form hinged, the rear intermediate support of the first bin mechanism is connected by rear web plate with the rear intermediate support of the second bin mechanism, rear drive device and framework form hinged, the piston rod of rear drive device and rear web plate form hinged.

3. a kind of electrolytic manganese according to claim 1 or zinc negative plate double discrepancy slot device, is characterized in that: described driving mechanism is cylinder, oil cylinder or YE.

4. a kind of electrolytic manganese according to claim 2 or the zinc negative plate double slot device of coming in and going out, it is characterized in that: described Das Vorderradfahrwerkmit Vorderradantrieb, rear drive device, front left driving mechanism, front right driving mechanism, rear left driving mechanism and rear right driving mechanism, be cylinder, oil cylinder or YE.