CN108796558B - Nickel-based alloy foil production is with negative pole rotary drum mechanism that can polish fast - Google Patents

Abstract

The invention discloses a cathode drum mechanism capable of quickly polishing for nickel-based alloy foil production, which comprises a cathode drum, a rotating support frame, a movable support frame and a rotating motor, wherein a left trunnion and a right trunnion are respectively arranged at two ends of the cathode drum, the rotating support frame is rotatably connected with the left trunnion, the movable support frame is rotatably connected with the right trunnion, the rotating support frame and the movable support frame are of a lifting structure, the rotating motor is detachably and fixedly connected with the left trunnion, and the cathode drum mechanism also comprises a plurality of movable abrasive paper rolls. The cathode drum can be conveniently switched between the electrolysis station and the polishing station, so that the debugging time of equipment is saved, the cathode drum is simple and efficient, the cathode drum is driven by the same rotating motor at the electrolysis station or the polishing station, a power system is not required to be configured at each station, and the equipment cost is saved.

Description

Nickel-based alloy foil production is with negative pole rotary drum mechanism that can polish fast

Technical Field

The invention relates to the technical field of alloy foil film production equipment, in particular to a cathode drum mechanism capable of being quickly polished for nickel-based alloy foil production.

Background

The nickel-based alloy foil is produced by two methods, one is produced by hammer forging or rolling, and the other is produced by electrolysis. The electrolytic production is roughly shown in fig. 5, an electrolytic bath 1 contains an electrolyte, a cathode drum 3 is partially immersed in the electrolyte to serve as a cathode, the cathode drum 3 keeps continuously and stably rotating at a low speed, an arc-shaped anode 2 is further arranged in the electrolytic bath 1, metal ions in the electrolyte between the cathode drum 3 and the anode 2 are gradually separated out on the outer surface of the cathode drum 3 to form an alloy foil 4, the newly separated alloy foil 4 rotates along with the cathode drum 3 and leaves the electrolytic bath 1, and finally, a tape winder 5 is used for winding the alloy foil 4.

In the process of producing the nickel-based alloy by the electrolytic method, because metal ions in the electrolyte are finally separated out on the outer surface of the cathode drum to form an alloy foil, the surface quality of the cathode drum has a crucial influence on the quality of an alloy foil product, the outer surface of the cathode drum needs to be polished before each production. Above-mentioned in-process, dismouting cathode drum that needs relapse because cathode drum is bulky, and dismouting all needs to spend more energy at every turn, and is consuming time hard, seriously restricts the production efficiency of equipment, influences the economic benefits of enterprise.

In order to solve the technical problem, no solution proposed by the prior people is found at present.

Disclosure of Invention

In light of the above deficiencies of the prior art, the present invention provides a cathode drum mechanism for producing nickel-based alloy foil, which is capable of polishing rapidly, and aims to solve one of the technical problems in the background art.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the utility model provides a but nickel base alloy paper tinsel production is with negative pole rotary drum mechanism of polishing fast, including the negative pole rotary drum, the rotation support frame, movable support frame and rotation motor, the both ends of negative pole rotary drum are equipped with left trunnion and right trunnion respectively, the rotation support frame rotates with left trunnion and is connected, movable support frame and right trunnion rotate to be connected, the rotation support frame is elevation structure with movable support frame, rotate motor detachable and left trunnion fixed connection, the negative pole rotary drum can use left trunnion to rotate at certain angle as the centre of a circle, and the negative pole rotary drum can be fixed respectively at electrolysis station and the station of polishing, still include a plurality of mobilizable abrasive paper rolls, the abrasive paper roll is located the top of the station of polishing, all roll up the abrasive paper of polishing usefulness on every abrasive paper.

As a further improvement of the invention, the rotary support frame comprises a bottom support I and a motor bracket, a first lifting rod is rotatably arranged on the bottom support I and is rotatably connected with the left trunnion, the first lifting rod comprises a fixed outer sleeve and a movable inner sleeve, the motor bracket is fixedly arranged on the outer sleeve, and the rotary motor is fixedly arranged on the motor bracket.

As a further improvement of the invention, the movable support frame comprises a second bottom support, the bottom of the second bottom support is provided with an electric roller and a lifting stop block, the second bottom support is provided with a second lifting rod, and the second lifting rod is rotatably connected with the right trunnion.

As a further improvement of the invention, the mesh number of the sand paper is sequentially increased or decreased, the initial end of the sand paper is fixed on the sand paper roller, and the tail end of the sand paper is provided with a balancing weight.

As a further improvement of the invention, a first rail and a hanging bracket are arranged above the grinding station, the sand paper roller is rotatably arranged on the hanging bracket, a first sliding block is arranged on the hanging bracket, and the first sliding block is movably arranged in the first rail.

As a further improvement of the invention, a movable press roll unit is also included.

As a further improvement of the invention, the compression roller unit comprises a second rail, a compression roller and a second sliding block, the second sliding block is movably arranged in the second rail, a gas spring is arranged between the compression roller and the second sliding block, and two ends of the gas spring are respectively connected to a middle shaft of the compression roller and the second sliding block.

As a further improvement of the invention, a driving belt pulley is fixedly arranged on an output shaft of the rotating motor, a driven belt pulley is fixedly arranged on the left trunnion, and a belt is sleeved between the driving belt pulley and the driven belt pulley.

The invention has the beneficial effects that:

according to the invention, large-scale instruments such as a crown block are not needed, the cathode drum can be conveniently switched between the electrolysis station and the polishing station through the design of the liftable rotating support frame and the movable support frame, the cathode drum can be put into production and use only by fine adjustment after being moved from the polishing station to the electrolysis station, the debugging time of equipment is saved, the operation is simple and efficient, the cathode drum is driven by the same rotating motor at the electrolysis station or the polishing station, a power system is not needed to be configured at each station, and the equipment cost is saved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a top view of the present embodiment;

FIG. 2 is a front view of the cathode drum of this embodiment in an electrolysis station;

FIG. 3 is a first schematic view of the cathode drum of this embodiment at a grinding station;

FIG. 4 is a second schematic view of the cathode drum of this embodiment at a grinding station;

FIG. 5 is a schematic diagram of prior art electrolytic production of nickel-base alloys.

In the figure, 1-electrolytic cell, 2-anode, 3-cathode rotary drum, 3 a-left trunnion, 3 b-right trunnion, 4-alloy foil, 5-belt winder, 6-rotating motor, 7-rotating support frame, 7 a-bottom support I, 7 b-first lifting rod, 7 c-motor bracket, 8-movable support frame, 8 a-bottom support II, 8 b-electric roller, 8 c-second lifting rod, 9-driving belt pulley, 10-belt, 11-driven belt pulley, 12-sand paper roller, 13-slide block I, 14-hanger, 15-track I, 16-sand paper, 17-counterweight block, 18-track II, 19-compression roller and 20-gas spring.

Detailed Description

The following embodiments are provided to describe the embodiments of the present invention, and to further describe the detailed description of the embodiments of the present invention, such as the shapes, configurations, mutual positions and connection relationships of the components, the functions and operation principles of the components, the manufacturing processes and operation methods, etc., so as to help those skilled in the art to more fully, accurately and deeply understand the inventive concept and technical solutions of the present invention.

As shown in fig. 1 to 4, a but nickel base alloy foil production is with negative pole rotary drum mechanism of polishing fast, including negative pole rotary drum 3, rotate support frame 7, movable support frame 8 and rotation motor 6, the both ends of negative pole rotary drum 3 are equipped with left trunnion 3a and right trunnion 3b respectively, rotate support frame 7 and left trunnion 3a and rotate and be connected, movable support frame 8 rotates with right trunnion 3b and is connected, it is elevation structure to rotate support frame 7 and movable support frame 8, fixed mounting has drive pulley 9 on the output shaft of rotation motor 6, fixed mounting has driven pulley 11 on the left trunnion 3a, cup jointed belt 10 between drive pulley 9 and the driven pulley 11. The cathode drum 3 can rotate in a certain angle by taking the left trunnion 3a as a circle center, the cathode drum 3 can be respectively fixed on an electrolysis station and a polishing station, and the electrolytic cell 1 is arranged below the electrolysis station.

The rotary supporting frame 7 comprises a first bottom support 7a, the first bottom support 7a can be fixed on the ground in a mode of expansion screws and the like, a first lifting rod 7b is rotatably installed on the first bottom support 7a, and the first lifting rod 7b is rotatably connected with the left trunnion 3 a. In one embodiment, the first lifting rod 7b is an electro-hydraulic rod, the bottom end of the first lifting rod 7b is connected with the first bottom support 7a through a thrust bearing, and the top end of the first lifting rod 7b is rotatably connected with the left trunnion 3a through a bearing. The rotary support frame 7 further comprises a motor bracket 7c, the first lifting rod 7b comprises a fixed outer sleeve and a movable inner sleeve, the motor bracket 7c is fixedly installed on the outer sleeve, and the rotary motor 6 is fixedly installed on the motor bracket 7 c.

The movable support frame 8 comprises a second bottom support 8a, an electric roller 8b and a lifting stop block are arranged at the bottom of the second bottom support 8a, a second lifting rod 8c is mounted on the second bottom support 8a, and the second lifting rod 8c is rotatably connected with the right trunnion 3 b. In one embodiment, the second lifting rod 8c and the stop block are both electro-hydraulic rods, and the top end of the second lifting rod 8c is rotatably connected with the right trunnion 3b through a bearing.

The cathode drum mechanism capable of being quickly polished for producing the nickel-based alloy foil further comprises a plurality of movable sand paper rollers 12, sand paper 16 for polishing is wound on each sand paper roller 12, the mesh number of the sand paper 16 is sequentially increased or sequentially decreased, the initial end of the sand paper 16 is fixed on the sand paper rollers 12, a balancing weight 17 is arranged at the tail end of the sand paper 16, and the tail end of the sand paper 16 is kept vertically downward through the gravity of the balancing weight 17. The polishing machine also comprises a movable compression roller unit which is used for keeping the abrasive paper 16 and the cathode drum 3 in close contact during polishing so as to ensure the polishing effect. In a specific embodiment, a first rail 15 and a second rail 18 are respectively arranged above the grinding station, the grinding roller 12 is rotatably mounted on a hanger 14, a first slider 13 is arranged on the hanger 14, the first slider 13 is movably mounted in the first rail 15, the second slider is movably mounted in the second rail 18, the pressing roller unit comprises a pressing roller 19 and a second slider, a gas spring 20 is arranged between the pressing roller 19 and the second slider, and two ends of the gas spring 20 are respectively connected to a central shaft of the pressing roller 19 and the second slider.

The working principle of the invention is as follows: when the cathode drum 3 needs to be polished, firstly, the rotary support frame 7 and the movable support frame 8 are lifted to a high position, the cathode drum 3 is lifted out of the electrolytic cell 1, then the electric roller 8b at the bottom of the movable support frame 8 is started, the cathode drum 3 is moved from the electrolytic station to the polishing station, then the first slide block 13 drives the hanger 14 to move to a proper position, one sand paper roller 12 is made to enter a working position, the sand paper roller 12 rotates to make the sand paper 16 reeled on the sand paper roller fall to a proper position, then the second slide block drives the press roller 19 to move to a proper position, the press roller 19 gives a continuous thrust to the sand paper 16, the sand paper 16 is kept in contact with the cathode drum 3, the sand paper 16 is prevented from swinging and the like, then the rotary motor 6 is started, the rotary motor 6 drives the cathode drum 3 to rotate, thereby polishing of the outer surface of the cathode drum 3 is realized, the rotating motor 6 stops working, then the press roll unit and the sand paper roll 12 are reset, then the sand paper 16 on the sand paper roll 12 with the next mesh falls, the polishing process is repeated, and the sand paper rolls 12 are sequentially replaced according to the sequence of the mesh number of the sand paper 16 from top to bottom until the polishing process is completed. After the grinding process is finished, the rotating motor 6 stops working, the hanger 14 and the compression roller unit are reset, and the cathode drum 3 is moved to the electrolysis station from the grinding station, so that the subsequent production of the alloy foil can be carried out.

According to the invention, large-scale instruments such as a crown block are not needed, the cathode drum 3 can be conveniently switched between the electrolysis station and the polishing station through the design of the liftable rotating support frame 7 and the movable support frame 8, the cathode drum 3 can be put into production and use only by fine adjustment after being moved from the polishing station to the electrolysis station, the debugging time of equipment is saved, the operation is simple and efficient, the cathode drum 3 is driven by the same rotating motor 6 at the electrolysis station or the polishing station, a power system is not needed to be configured at each station, and the equipment cost is saved.

The invention has been described in an illustrative manner, and it is to be understood that the invention is not limited to the precise form disclosed, and that various insubstantial modifications of the inventive concepts and solutions, or their direct application to other applications without such modifications, are intended to be covered by the scope of the invention. The protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (4)

1. The utility model provides a but nickel base alloy foil production is with negative pole rotary drum mechanism that polishes fast which characterized in that: the cathode drum comprises a cathode drum, a rotating support frame, a movable support frame and a rotating motor, wherein a left trunnion and a right trunnion are respectively arranged at two ends of the cathode drum, the rotating support frame is rotatably connected with the left trunnion, the movable support frame is rotatably connected with the right trunnion, the rotating support frame and the movable support frame are of a lifting structure, the rotating motor is detachably and fixedly connected with the left trunnion, the cathode drum can rotate within a certain angle by taking the left trunnion as a circle center, the cathode drum can be respectively fixed at an electrolysis station and a polishing station, the cathode drum also comprises a plurality of movable abrasive paper rollers, the abrasive paper rollers are positioned above the polishing station, and abrasive paper for polishing is coiled on each abrasive paper roller;

the mesh number of the abrasive paper is sequentially increased or decreased, the initial end of the abrasive paper is fixed on the abrasive paper roller, and the tail end of the abrasive paper is provided with a balancing weight;

a first rail and a hanging bracket are arranged above the polishing station, the sand paper roller is rotatably arranged on the hanging bracket, a first sliding block is arranged on the hanging bracket, and the first sliding block is movably arranged in the first rail;

also includes a movable press roller unit;

the compression roller unit comprises a second rail, a compression roller and a second sliding block, the second sliding block is movably arranged in the second rail, an air spring is arranged between the compression roller and the second sliding block, and two ends of the air spring are respectively connected to a middle shaft of the compression roller and the second sliding block.

2. The rapidly sandable cathode drum mechanism for nickel-base alloy foil production according to claim 1, wherein: the rotary supporting frame comprises a first bottom support and a motor bracket, a first lifting rod is rotatably mounted on the first bottom support and is rotatably connected with a left trunnion, the first lifting rod comprises a fixed outer sleeve and a movable inner sleeve, the motor bracket is fixedly mounted on the outer sleeve, and a rotary motor is fixedly mounted on the motor bracket.

3. The rapidly sandable cathode drum mechanism for nickel-base alloy foil production according to claim 1, wherein: the movable support frame comprises a second bottom support, an electric roller and a liftable stop block are arranged at the bottom of the second bottom support, a second lifting rod is mounted on the second bottom support, and the second lifting rod is rotatably connected with the right trunnion.

4. The rapidly sandable cathode drum mechanism for nickel-base alloy foil production according to claim 1, wherein: a driving belt pulley is fixedly mounted on an output shaft of the rotating motor, a driven belt pulley is fixedly mounted on the left trunnion, and a belt is sleeved between the driving belt pulley and the driven belt pulley.

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