CN201459258U - Manganese stripping machine of electrolytic cathode plate - Google Patents
Manganese stripping machine of electrolytic cathode plate Download PDFInfo
- Publication number
- CN201459258U CN201459258U CN2009200656072U CN200920065607U CN201459258U CN 201459258 U CN201459258 U CN 201459258U CN 2009200656072 U CN2009200656072 U CN 2009200656072U CN 200920065607 U CN200920065607 U CN 200920065607U CN 201459258 U CN201459258 U CN 201459258U
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- roller bearings
- wheel
- bearing
- roller
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Abstract
Disclosed is a manganese stripping machine of an electrolytic cathode plate. The machine adopts the scheme that motors are respectively mounted on the right front portion and the left rear portion of a support, double sprockets are arranged on motor shafts, three supporting plates are respectively and evenly fixed onto a front center sill and a back center sill of the support, three supporting plates are respectively and evenly fixed onto a front under beam and a back under beam of the support, the supporting plates are connected with bearing supports, the bearing supports for mounting bearings are connected with rolling shafts to form a structure with three rolling shafts in a front row and three rolling shafts in a back row, working cylindrical surfaces of the six rolling shafts form an S passage, the double sprockets are arranged on an upper shaft neck of each rolling shaft, the double sprockets positioned of the motors on the right front portion are connected with the double sprockets positioned on the rolling shafts on the right side of the front row via a chain I, the double sprockets on the three rolling shafts in the front row are sequentially connected via two chains II, the double sprockets of the motors on the left back portion are connected with the double sprockets on the rolling shafts on the left side of the back row via the chain I, and the double sprockets of the three rolling shafts in the back row are sequentially connected via the two chains II. The machine realizes mechanically and automatically striping electrolytic manganese layers on the electrolytic cathode plate, and is used for striping the electrolytic manganese layers on the electrolytic cathode plate.
Description
Technical field
The utility model relates to a kind of manganese stripping machine for electrolytic cathode.
Background technology
At present, electrolytic manganese layer on the electrolytic manganese factory electrolytic negative plate all is by knocking manually, utilize the fragility of electrolytic manganese layer, knock from the stainless steel electrolytic negative plate, sometimes how the manganese sheet of stainless steel electrolytic negative plate manually knocks all and can't come off fully, sometimes the manganese plate is owing to be subjected to knocking of gravity, some can leave the rough vestige that beats above the negative plate, like this to having a greatly reduced quality its work-ing life, sometimes serious knocking can make full wafer stainless steel electrolytic negative plate scrap, and brings no small economic spending to enterprise; More seriously the staff is in many dusts for a long time, in the severe environment of big noise, workload and labour intensity are all very big, and the healthy formation potential of employee is threatened, therefore the staff who removes plate also is the big operating post that flows, and constantly recruitment also causes financial loss to enterprise.
Summary of the invention
At above-mentioned situation, the utility model provides a kind of mechanize to divest electrolytic manganese layer on the electrolytic negative plate automatically, and fund input is few, and is stable, simple in structure, the manganese stripping machine for electrolytic cathode of easy maintenance.
For achieving the above object, a kind of manganese stripping machine for electrolytic cathode, comprise that support is welded by several channel-section steels, a motor is respectively installed on preceding upper right side of support and upper left side, back, double-stranded wheel is set on the motor shaft, the preceding central sill of support and back central sill are evenly fixed 3 support plates respectively, the preceding underbeam of support and back underbeam are evenly fixed 3 support plates respectively, support plate coupling shaft bearing, bearing support on preceding central sill and the back central sill is installed the last axle journal of bearing fixed roller, bearing support on preceding underbeam and the back underbeam is installed the following axle journal of bearing II fixed roller, form 3 roller bearings of front-seat arrangement and arrange 3 roller bearings with back row, and S shape passage is formed on the work cylindrical surface of front-seat 3 roller bearings and 3 roller bearings of back row, the last axle journal of every roller bearing is provided with double-stranded wheel, and remain on the same level with two strands wheel on the motor shaft, the upper sprocket wheel of the two strands wheel of preceding top-right motor, the upper sprocket wheel of the two strands wheel on the roller bearing on chain I and front-seat right side is connected, the two strands wheel of front-seat 3 roller bearings connects successively through 2 chain II, the upper sprocket wheel of the two strands wheel of the upper left motor in back, the upper sprocket wheel of the two strands wheel on the roller bearing of chain I and player No.5's side is connected, and the two strands of 3 roller bearings of back row is taken turns and connected successively through 2 chain II.
In order to realize result optimizing, improve, improve over-all properties of the present utility model, further step is:
Described front-seat 3 roller bearings are turned clockwise by driven by motor, and back 3 roller bearings of row are rotated counterclockwise by driven by motor.
S shape passage is formed on the outer work cylindrical surface of 3 roller bearings behind described front-seat 3 roller bearings, puts into the negative plate of band electrolytic manganese layer from the left side, through 6 roller bearings, comes out from the right side.
Shiny surface or annular knurl face or the V-shaped groove face parallel with axis are arranged in the work cylindrical surface of described roller bearing.
The utility model adopts a motor is respectively installed in support right front and left back, double-stranded wheel is set on the motor shaft, the preceding central sill of support and back central sill are evenly fixed 3 support plates respectively, the preceding underbeam of support and back underbeam are evenly fixed 3 support plates respectively, support plate coupling shaft bearing, preceding central sill and back central sill, preceding underbeam is installed bearing with the bearing support on the underbeam of back and is connected with roller bearing, form front-seat 3 roller bearings and 3 roller bearing structures of back row, and S shape passage is formed on the work cylindrical surface of 6 roller bearings, the last axle journal of every roller bearing is provided with double-stranded wheel, the two strands of the two strands of the motor of right front wheel on the roller bearing on chain I and front-seat right side taken turns and is connected, the two strands wheel of front-seat 3 roller bearings connects successively through 2 chain II, the two strands of the two strands of the motor of left back wheel on the roller bearing of chain I and player No.5's side taken turns and is connected, the two strands wheel of 3 roller bearings of back row has realized that through the scheme that 2 chain II connect successively mechanize divests the electrolytic manganese layer on the electrolytic negative plate automatically.
The beneficial effect that the utility model is produced compared to existing technology:
1, the electrolytic manganese layer that divests automatically on the electrolytic negative plate with mechanize replaces handwork, has saved a large amount of labor force who works under the environment mal-condition.
2, prolong the work-ing life of stainless steel electrolytic negative plate, saved cost.
3, after electrolytic negative plate entered S shape passage from the left side, electrolytic negative plate became S shape bent plate, automatic aligning after coming out.
4, leave no trace divest on the electrolytic negative plate the electrolytic manganese layer all.
6, simple in structure, cost is low, and is easy to maintenance, durable in use.
The utility model is used to peel off the electrolytic manganese layer on the electrolytic negative plate.
Below in conjunction with the drawings and specific embodiments the utility model is described in further detail.
Description of drawings
Fig. 1 is a front-seat roller bearing assembling front view of the present utility model.
Fig. 2 is a vertical view of the present utility model.
Fig. 3 is a left view of the present utility model.
Among the figure: 1, support, 2, motor, 3, double-stranded wheel, 4, roller bearing, 5, bearing I, 6, bearing I I, 7, chain I, 8, chain II, 9, support plate, 10, bearing support.
Embodiment
By accompanying drawing Fig. 1, Fig. 2, shown in Figure 3, a kind of manganese stripping machine for electrolytic cathode, comprise that support 1 is welded by several channel-section steels, a motor 2 is respectively installed on support 1 preceding upper right side and upper left side, back, double-stranded wheel 3 is set on 2 in the motor, the preceding central sill of support 1 and back central sill are evenly fixed 3 support plates 9 respectively, the preceding underbeam of support 1 and back underbeam are evenly fixed 3 support plates 9 respectively, support plate 9 coupling shaft bearings 10, bearing support 10 on preceding central sill and the back central sill is installed the last axle journal of bearing I 5 fixed rollers 4, bearing support 10 on preceding underbeam and the back underbeam is installed the following axle journal of bearing II 6 fixed rollers 4, form front-seat 3 roller bearings 4 of arranging and arrange 3 roller bearings 4 with back row, and S shape passage is formed on the work cylindrical surface of front-seat 3 roller bearings 4 and 3 roller bearings 4 of back row, the last axle journal of every roller bearing 4 is provided with double-stranded wheel 3, and go up the two strandss wheel 3 that is provided with 2 in motor and remain on the same level, the upper sprocket wheel of the two strands of top-right motor 2 wheel 3 before the support 1, the upper sprocket wheel of the two strands wheel 3 on the roller bearing 4 on chain I 7 and front-seat right side is connected, the two strands wheel 3 of front-seat 3 roller bearings 4 connects successively through 2 chain II 8, the upper sprocket wheel of the two strands wheel 3 of the upper left motor 2 in support 1 back, the upper sprocket wheel of the two strands wheel on the roller bearing 4 of chain I 7 and player No.5's side is connected, and the two strands of 3 roller bearings 4 of back row is taken turns 3 and connected successively through 2 chain II 8.
During work, start two motors 2,2 clockwise direction rotations of support 1 preceding upper right side motor, two strands wheel 3 by motor 2 is taken turns the rotation of 3 clockwise directions through the two strands of the roller bearing 4 on the front-seat right side of chain I 7 drives, the two strands wheel 3 of front-seat 3 roller bearings 4 is connected successively by chain II 8, therefore, driving front-seat 3 roller bearings 4 turns clockwise, simultaneously, 2 rotations counterclockwise of the upper left motor in support 1 back, drive two strands wheel 3 rotation counterclockwise of the roller bearing 4 of player No.5's side through chain I 7 by the two strands wheel 3 of motor 2, the two strands wheel 3 of 3 roller bearings 4 of back row is connected successively by chain II 8, therefore, driving back 3 roller bearings 4 of row is rotated counterclockwise, after 6 roller bearing 4 rotations, the staff sends into the stainless steel electrolytic negative plate front portion of the S shape passage of being made up of the work cylindrical surface of front-seat 3 roller bearings 4 and 3 roller bearings 4 of back row from the left side, utilize different rotary direction front-seat and back row's roller bearing 4, the stainless steel electrolytic negative plate enters S shape passage automatically, the work cylindrical surface of roller bearing 4 is pressed into S shape automatically with the stainless steel electrolytic negative plate, utilize the fragility of electrolytic manganese layer, the embrittlement on the stainless steel electrolytic negative plate of electrolytic manganese layer fragmentates, and peel off from the stainless steel electrolytic negative plate, fall down, last of stainless steel electrolytic negative plate can revert to linear state with S shape electrolytic negative plate to roller bearing 4; Shiny surface is arranged on the work cylindrical surface of roller bearing 4, for the work cylindrical surface of strengthening roller bearing 4 and the frictional force of stainless steel electrolytic negative plate, favourablely peel off from the stainless steel electrolytic negative plate with the electrolytic manganese layer, annular knurl face or the V-shaped groove face parallel with axis are also adopted in the work cylindrical surface, and the design quantity of roller bearing 4 can be regulated according to the size of electrolytic negative plate.
Claims (4)
1. manganese stripping machine for electrolytic cathode, it is characterized in that it comprises that support (1) is welded by several channel-section steels, a motor (2) is respectively installed on preceding upper right side of support (1) and upper left side, back, on motor (2) axle double-stranded wheel (3) is set, the preceding central sill of support (1) and back central sill are evenly fixed 3 support plates (9) respectively, the preceding underbeam of support (1) and back underbeam are evenly fixed 3 support plates (9) respectively, support plate (9) coupling shaft bearing (10), bearing support (10) on preceding central sill and the back central sill is installed the last axle journal of bearing I (5) fixed roller (4), bearing support (10) on preceding underbeam and the back underbeam is installed the following axle journal of bearing II (6) fixed roller (4), front-seat 3 roller bearings (4) and back row's arrangement 3 roller bearings (4) arranged of formation, and S shape passage is formed on the work cylindrical surface of front-seat 3 roller bearings (4) and back 3 roller bearings of row (4), the last axle journal of every roller bearing (4) is provided with double-stranded wheel (3), and with motor (2) axle on the two strands wheel (3) that is provided with remain on the same level, the upper sprocket wheel of the two strands wheel (3) of the preceding top-right motor of support (1) (2) axle, the upper sprocket wheel of the two strands wheel (3) on the roller bearing (4) on chain I (7) and front-seat right side is connected, the two strands wheel (3) of front-seat 3 roller bearings (4) connects successively through 2 chain II (8), the upper sprocket wheel of the two strands wheel (3) of support (1) the upper left motor in back (2), the upper sprocket wheel of the two strands wheel (3) on the roller bearing (4) of chain I (7) and player No.5's side is connected, and the two strands of back 3 roller bearings of row (4) is taken turns (3) and connected successively through 2 chain II (8).
2. a kind of manganese stripping machine for electrolytic cathode according to claim 1 is characterized in that described front-seat 3 roller bearings (4) are turned clockwise by motor (2) drive, and back 3 roller bearings of row (4) are driven by motor (2) and are rotated counterclockwise.
3. a kind of manganese stripping machine for electrolytic cathode according to claim 1, S shape passage is formed on the outer work cylindrical surface that it is characterized in that back 3 roller bearings of described front-seat 3 roller bearings (4) (4), put into the negative plate of band electrolytic manganese layer from the left side,, come out from the right side through 6 roller bearings (4).
4. a kind of manganese stripping machine for electrolytic cathode according to claim 1 is characterized in that shiny surface or annular knurl face or the V-shaped groove face parallel with axis are arranged in the work cylindrical surface of described roller bearing (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009200656072U CN201459258U (en) | 2009-08-18 | 2009-08-18 | Manganese stripping machine of electrolytic cathode plate |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009200656072U CN201459258U (en) | 2009-08-18 | 2009-08-18 | Manganese stripping machine of electrolytic cathode plate |
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CN201459258U true CN201459258U (en) | 2010-05-12 |
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CN2009200656072U Expired - Lifetime CN201459258U (en) | 2009-08-18 | 2009-08-18 | Manganese stripping machine of electrolytic cathode plate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105154925A (en) * | 2015-10-09 | 2015-12-16 | 靖西县大锰新材料有限公司 | Stripping machine for electrolytic manganese metal |
-
2009
- 2009-08-18 CN CN2009200656072U patent/CN201459258U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105154925A (en) * | 2015-10-09 | 2015-12-16 | 靖西县大锰新材料有限公司 | Stripping machine for electrolytic manganese metal |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20100512 Effective date of abandoning: 20090818 |