CN110016711B - Section bar electrolytic soaking device based on aluminum alloy processing - Google Patents

Abstract

The invention provides an electrolytic soaking device for a profile processed based on aluminum alloy, which comprises an electrolytic soaking tank, a rotary connecting rod and a power supply control box, wherein the rotary connecting rod is connected with the power supply control box; the negative electrode seat is provided with four groups of three, the outer wall of the negative electrode seat is provided with threads, and twelve negative electrode seats are in threaded connection with the threaded holes A and the threaded holes B on the front end surfaces of the protective tank and the electrolytic soaking tank. The device has higher flexibility and electrolytic efficiency, firstly, due to the matching arrangement among the motor, the cylindrical disc and the protective tank, when the motor rotates, the protective tank is driven to swing back and forth, on one hand, when the electrolytic soaking tank shakes, the electrolyte in the electrolytic soaking tank can shake, and the electrolytic efficiency is accelerated; on the other hand, when the electrolytic soaking tank shakes, the cylindrical section bar in the electrolytic soaking tank can roll along the inner wall of the electrolytic soaking tank, so that each peripheral surface of the cylindrical section bar can be in contact with the electrolyte, and dead angles of the aluminum alloy section bar during electrolysis are prevented.

Description

Section bar electrolytic soaking device based on aluminum alloy processing

Technical Field

The invention belongs to the technical field of metal surface processing, and particularly relates to an electrolytic soaking device for a profile processed based on aluminum alloy.

Background

The aluminum alloy has low density and high strength ratio. Is one of the most widely used nonferrous metal structural materials in industry, and has excellent electrical conductivity, thermal conductivity and corrosion resistance. Meanwhile, because the aluminum alloy has low density, low price, low toxicity and mature forming process, compared with stainless steel and titanium alloy, the aluminum alloy has very wide development space in the fields of medical instruments, foods, household devices and the like.

Based on the above, the aluminum alloy section bar mainly has the following defects during electrolytic soaking:

one is that the safety performance is low, in the process of electrolysis, if an operator operates improperly or the electrolytic cell is broken when the service life is up, the electrolyte in the electrolytic cell splashes around, which is very easy to cause the surrounding workers to be injured, and the existing equipment has low protection performance and can not perform good prevention and protection; moreover, in the process of aluminum alloy section bar electrolysis, because of the different shapes of the section bars, the phenomenon of poor electrolysis effect of local positions is easy to occur, the subsequent use is influenced, and finally, the use cost is higher, and electrolyte is wasted when the small-sized section bars are electrolyzed.

In view of the above, the present invention provides an apparatus for electrolytic soaking of aluminum alloy-processed sections, which is improved based on the existing structure and defects, and is expected to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides an electrolytic soaking device for a section bar processed based on an aluminum alloy, which aims to solve the problems that the safety performance is low, in the electrolytic process, if an operator does not operate properly or the electrolytic cell is broken after reaching the service life, electrolyte in the electrolytic cell splashes around, surrounding workers are easily injured, the protection performance of the existing equipment is low, and good prevention and protection cannot be performed; moreover, in the process of aluminum alloy section bar electrolysis, because of the different shapes of the section bars, the phenomenon of poor electrolysis effect of local positions is easy to occur, the subsequent use is influenced, and finally, the use cost is higher, and the problem of electrolyte waste is relatively caused when small-sized section bars are electrolyzed.

The invention is used for the purpose and the effect of the section bar electrolytic soaking device after the aluminum alloy processing, and is achieved by the following specific technical means:

an electrolytic soaking device for a profile processed based on aluminum alloy comprises an electrolytic soaking groove, a threaded hole A, a rectangular groove, a protective groove, a threaded hole B, a cylindrical rod A, a positive pole seat, a negative pole seat, an exhaust pipe, a groove-shaped frame, a gauze, a cover plate, a cylindrical shaft, a support frame, a rectangular fixing plate, a motor, a cylindrical disc, a cylindrical rod B, a rotary connecting rod and a power supply control box; the left end face of the electrolytic soaking tank is provided with four groups of two threaded holes A, each group of two threaded holes A is arranged in a rectangular array shape, the front end face of the electrolytic soaking tank is provided with four groups of three threaded holes A, and the top end face of the electrolytic soaking tank is provided with one rectangular tank; the left end face of the protective groove is provided with four groups of two threaded holes B, each group of two threaded holes B is arranged on the left end face of the protective groove in a rectangular array shape, the front end face of the protective groove is provided with four groups of three threaded holes B, and when the electrolytic soaking groove and the protective groove are connected in a sleeved mode, the threaded holes A are aligned with the threaded holes B; the number of the negative electrode seats is four, and each negative electrode seat is three, the outer wall of each negative electrode seat is provided with threads, and twelve negative electrode seats are in threaded connection with the threaded holes A and the threaded holes B on the front end surfaces of the protective tank and the electrolytic soaking tank; the protective groove is rotatably connected with one cover plate; the left end face and the right end face of the protection groove are both welded with one cylindrical shaft, and the left lower corner of the right end face of the protection groove is welded with one cylindrical rod A; the two cylindrical shafts are rotatably connected with one support frame, the middle position of the front end face of the right support frame is welded with one rectangular fixing plate, and the top end face of the rectangular fixing plate is fixedly connected with a motor; the motor rotating shaft is fixedly connected with the cylindrical disc; the top end face of the rectangular fixing plate is located at the rear side of the motor and is fixedly connected with the power supply control box, the connecting cables on the positive electrode seat and the negative electrode seat are electrically connected with the power supply control box, and the motor is also electrically connected with the power supply control box.

Furthermore, the electrolytic soaking tank is of a trapezoidal groove-shaped structure.

Furthermore, the protective groove is sleeved outside the electrolytic soaking groove, and a certain gap is formed between the electrolytic soaking groove and the protective groove.

Furthermore, the positive pole seat is provided with four groups of two, the outer wall of the positive pole seat is provided with threads, and the eight positive pole seats are in threaded connection with the threaded holes A and the threaded holes B on the left end surfaces of the protective tank and the electrolytic soaking tank.

Furthermore, one exhaust pipe is welded above the right end face of the protection groove.

Further, the exhaust pipe is of a bent tubular structure, and the opening of the exhaust pipe faces downwards.

Furthermore, the groove-shaped frame is sleeved in the rectangular groove, the gauze is fixedly connected between every two sashes on the groove-shaped frame, and a gap exists between the bottom of the groove-shaped frame and the top end face of the inner wall of the electrolytic soaking tank.

Further, the motor is a slow-speed motor, and the rotating speed is 20 r/min.

Furthermore, the cylindrical rod B is welded at the left side of the front end face of the cylindrical disc, and the cylindrical rod B and the cylindrical rod A are rotatably connected through the rotating connecting rod.

Compared with the prior art, the invention has the following beneficial effects:

the device has higher safety, and can effectively prevent the electrolyte in the electrolytic soaking tank from injuring surrounding personnel when the electrolytic soaking tank is cracked due to illegal operation or the electrolytic soaking tank is cracked when reaching the service life, firstly, the protective tank can prevent the electrolyte from splashing to hurt the personnel due to the explosion caused by illegal operation during electrolysis due to the arrangement of the protective tank;

secondly, due to the arrangement of exhaust, when the electrolytic soaking tank is cracked due to illegal operation, on one hand, gas in the gap between the protective tank and the electrolytic soaking tank can be exhausted through the exhaust pipe, and the protective tank is prevented from being burst due to expansion of the gas in the gap between the protective tank and the electrolytic soaking tank; on the other hand, because the exhaust pipe is of a bent tubular structure and the opening of the exhaust pipe is downward, when electrolyte is also discharged from the exhaust pipe after the electrolytic soaking tank is broken, the exhaust pipe can guide and discharge the electrolyte to a lower position, and the electrolyte is prevented from being splashed to nearby workers.

The device has higher flexibility and electrolytic efficiency, firstly, due to the matching arrangement among the motor, the cylindrical disc and the protective tank, when the motor rotates, the protective tank is driven to swing back and forth, on one hand, when the electrolytic soaking tank shakes, the electrolyte in the electrolytic soaking tank can shake, and the electrolytic efficiency is accelerated; on the other hand, when the electrolytic soaking tank shakes, the cylindrical section bar in the electrolytic soaking tank can roll along the inner wall of the electrolytic soaking tank, so that each peripheral surface of the cylindrical section bar can be in contact with the electrolyte, and dead angles of the aluminum alloy section bar during electrolysis are prevented.

The device has higher electrolysis completion degree when the aluminum alloy section is electrolyzed, the groove-shaped frame is sleeved in the rectangular groove due to the arrangement of the groove-shaped frame, the gauze is fixedly connected between every two lattices on the groove-shaped frame, and a gap exists between the bottom of the groove-shaped frame and the top end surface of the inner wall of the electrolysis soaking groove, so that the bottom end surface of the aluminum alloy section can be fully electrolyzed.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention.

Fig. 3 is a schematic axial view of the present invention in use.

Fig. 4 is an axial view of the present invention in a disassembled configuration.

Fig. 5 is an enlarged schematic view of fig. 4 at a.

FIG. 6 is a schematic view of the enlarged cross-sectional structure of the electrolytic immersion bath, the shield bath, the anode holder, the cathode holder, the cell frame and the cover plate of the present invention.

FIG. 7 is an axial view of the present invention with the channel frame removed.

Fig. 8 is an enlarged view of the structure of fig. 7B according to the present invention.

Fig. 9 is an enlarged view of the structure of fig. 7 at C according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an electrolytic immersion bath; 101. a threaded hole A; 102. a rectangular groove; 2. a protective bath; 201. a threaded hole B; 202. a cylindrical rod A; 3. a positive electrode holder; 4. a negative pole seat; 5. an exhaust pipe; 6. a channel frame; 601. a screen; 7. a cover plate; 8. a cylindrical shaft; 9. a support frame; 10. a rectangular fixing plate; 11. a motor; 12. a cylindrical disk; 1201. a cylindrical rod B; 13. rotating the connecting rod; 14. a power supply control box;

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides an electrolytic soaking device for a profile processed based on aluminum alloy, which comprises an electrolytic soaking tank 1, a threaded hole A101, a rectangular tank 102, a protective tank 2, a threaded hole B201, a cylindrical rod A202, an anode seat 3, a cathode seat 4, an exhaust pipe 5, a tank-shaped frame 6, a gauze 601, a cover plate 7, a cylindrical shaft 8, a support frame 9, a rectangular fixing plate 10, a motor 11, a cylindrical disc 12, a cylindrical rod B1201, a rotating connecting rod 13 and a power supply control box 14, wherein the threaded hole A101 is formed in the rectangular tank; the left end face of the electrolytic soaking tank 1 is provided with four groups of two threaded holes A101 in a rectangular array shape, the front end face of the electrolytic soaking tank 1 is provided with four groups of three threaded holes A101 in a rectangular array shape, and the top end face of the electrolytic soaking tank 1 is provided with a rectangular tank 102; the left end face of the protective groove 2 is provided with four groups of two threaded holes B201 in a rectangular array shape, the front end face of the protective groove 2 is provided with four groups of three threaded holes B201 in a rectangular array shape, and when the electrolytic soaking groove 1 and the protective groove 2 are connected in a sleeved mode, the threaded holes A101 are aligned with the threaded holes B201; the negative electrode seats 4 are provided with four groups of three, the outer walls of the negative electrode seats 4 are provided with threads, and twelve negative electrode seats 4 are in threaded connection with the threaded holes A101 and B201 on the front end surfaces of the protective bath 2 and the electrolytic soaking bath 1; a cover plate 7 is rotatably connected to the protective groove 2; a cylindrical shaft 8 is welded on the left end face and the right end face of the protection groove 2, and a cylindrical rod A202 is welded at the lower left corner of the right end face of the protection groove 2; a support frame 9 is rotatably connected to each of the two cylindrical shafts 8, a rectangular fixing plate 10 is welded in the middle of the front end face of the right support frame, and a motor 11 is fixedly connected to the top end face of the rectangular fixing plate 10; a cylindrical disc 12 is fixedly connected to a rotating shaft of the motor 11; the top end face of the rectangular fixing plate 10 is fixedly connected with a power supply control box 14 at the rear side of the motor 11, the connecting cables on the positive electrode base 3 and the negative electrode base 4 are electrically connected with the power supply control box 14, and the motor 11 is also electrically connected with the power supply control box 14.

The electrolytic soaking tank 1 is in a trapezoidal groove-shaped structure, so that the using amount of electrolyte can be saved and the electrolytic cost can be reduced when the aluminum alloy section with lower height and smaller overall size is subjected to electrolytic soaking.

Wherein, a protective bath 2 has been cup jointed in the electrolysis soaking groove 1 outside, and has certain clearance between electrolysis soaking groove 1 and the protective bath 2, so when the explosion takes place because of the operation of violating the regulations when the electrolysis, protective bath 2 can prevent that electrolyte splash from causing the staff injured.

Wherein, anodal seat 3 is equipped with four groups altogether two, and anodal seat 3 outer walls all sets up screw thread to 3 threaded connection of eight anodal seats are on the screw hole A101 and the screw hole B201 of protective bath 2 and electrolysis soaking groove 1 left end face, so take off anodal seat 3 screw thread, can conveniently dismantle electrolysis soaking groove 1.

Wherein, the position welding of protection groove 2 right-hand member face top has an exhaust pipe 5, so when leading to electrolysis soaking groove 1 to break because of the illegal operation, the gas in protection groove 2 and electrolysis soaking groove 1 clearance can discharge through exhaust pipe 5.

Wherein, the exhaust pipe 5 is a bent tubular structure, and the opening of the exhaust pipe 5 is downward, so when the electrolyte is also discharged from the exhaust pipe 5 after the electrolytic soaking tank 1 is broken, the exhaust pipe can guide and discharge the electrolyte to the lower position, and prevent the electrolyte from splashing to the nearby workers.

Wherein the groove-shaped frame 6 is sleeved in the rectangular groove 102, the gauze 601 is fixedly connected between each sash on the groove-shaped frame 6, and a gap exists between the bottom of the groove-shaped frame 6 and the top end surface of the inner wall of the electrolytic soaking tank 1, so that the bottom end surface of the aluminum alloy section can be fully electrolyzed.

Wherein, the motor 11 is a slow-speed motor with the rotating speed of 20 r/min.

Wherein, cylinder disc 12 front end face left side position welding has a cylinder pole B1201, and cylinder pole B1201 and cylinder pole A202 rotate through rotating connecting rod 13 and connect, so can drive guard tank 2 when motor 11 rotates and swing, on the one hand, reinforcing electrolysis efficiency, on the other hand can make things convenient for cylindrical aluminum alloy ex-trusions to roll in electrolysis soaking tank 1, avoids the electrolysis dead angle.

The specific use mode and function of the embodiment are as follows:

preparation before use: firstly, respectively connecting four groups of positive electrode bases 3 with a power supply control box 14 by using cables, connecting four groups of negative electrode bases 4 with the power supply control box 14 by using cables, and then filling electrolyte into an electrolytic soaking tank 1;

when the electrolytic soaking device is used, when spherical and cylindrical aluminum alloy sections need to be subjected to electrolytic soaking, the groove-shaped frame 6 can be taken out at the moment, then the spherical and cylindrical aluminum alloy sections are placed into the electrolytic soaking tank 1, then the power switches on the anode seat 3 and the cathode seat 4 are switched on, meanwhile, the power switch of the motor 11 is switched on, when the motor 11 drives the cylindrical disc 12 to rotate, the electrolytic soaking tank 1 can be pulled to shake through the rotating connecting rod 13, and at the moment, on one hand, electrolyte in the electrolytic soaking tank 1 can shake when the electrolytic soaking tank 1 shakes, so that the electrolytic efficiency is accelerated; on the other hand, when the electrolytic soaking tank 1 shakes, the cylindrical section bar in the electrolytic soaking tank 1 can roll along the inner wall of the electrolytic soaking tank 1, so that each peripheral surface of the cylindrical section bar can be contacted with the electrolyte, and dead angles of the aluminum alloy section bar during electrolysis are prevented;

when parts which are rectangular and the like and are difficult to roll on a plane are required to be electrolyzed and soaked, firstly, the groove-shaped frame 6 is placed in the electrolysis soaking groove 1, then the parts which are required to be electrolyzed are placed in the groove-shaped frame 6, and because a gap exists between the bottom of the groove-shaped frame 6 and the top end surface of the inner wall of the electrolysis soaking groove 1, the bottom end surface of the aluminum alloy section can be ensured to be fully electrolyzed.

Because the positive electrode seat 3 and the negative electrode seat 4 are respectively provided with four groups, and the electrolytic soaking tank 1 is of a trapezoidal structure, when parts needing electrolysis are small and have low height or low thickness, a small amount of electrolyte can be added, and at the moment, on one hand, a single group of positive electrode seat 3 and a single group of negative electrode seat 4 can be independently communicated, so that the consumption of electric quantity is saved; on the other hand, the electrolytic immersion tank 1 has a trapezoidal structure, and the amount of electrolyte to be used can be reduced.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (1)

1. The utility model provides a section bar electrolysis soak device based on after aluminum alloy processing which characterized in that: the section bar electrolytic soaking device used after aluminum alloy processing comprises an electrolytic soaking groove (1), a threaded hole A (101), a rectangular groove (102), a protective groove (2), a threaded hole B (201), a cylindrical rod A (202), a positive pole seat (3), a negative pole seat (4), an exhaust pipe (5), a groove-shaped frame (6), a gauze (601), a cover plate (7), a cylindrical shaft (8), a support frame (9), a rectangular fixing plate (10), a motor (11), a cylindrical disc (12), a cylindrical rod B (1201), a rotary connecting rod (13) and a power supply control box (14); the left end face of the electrolytic soaking tank (1) is provided with four groups of two threaded holes A (101) in each group in a rectangular array shape, the front end face of the electrolytic soaking tank (1) is provided with four groups of three threaded holes A (101) in each group in a rectangular array shape, and the top end face of the electrolytic soaking tank (1) is provided with one rectangular groove (102); the left end face of the protective groove (2) is provided with four groups of two threaded holes B (201) in each group in a rectangular array shape, the front end face of the protective groove (2) is provided with four groups of three threaded holes B (201) in each group in a rectangular array shape, and when the electrolytic soaking groove (1) and the protective groove (2) are connected in a sleeved mode, the threaded holes A (101) and the threaded holes B (201) are aligned; the number of the negative electrode seats (4) is four, three in each group, the outer wall of each negative electrode seat (4) is provided with threads, and twelve negative electrode seats (4) are in threaded connection with the threaded holes A (101) and B (201) on the front end surfaces of the protective groove (2) and the electrolytic soaking groove (1); the protective groove (2) is rotatably connected with one cover plate (7); the left end face and the right end face of the protection groove (2) are respectively welded with the cylindrical shaft (8), and the left lower corner of the right end face of the protection groove (2) is welded with the cylindrical rod A (202); the two cylindrical shafts (8) are rotatably connected with one support frame (9), the middle position of the front end face of the right support frame is welded with one rectangular fixing plate (10), and the top end face of the rectangular fixing plate (10) is fixedly connected with a motor (11); the rotating shaft of the motor (11) is fixedly connected with the cylindrical disc (12); the power supply control box (14) is fixedly connected to the top end face of the rectangular fixing plate (10) at the rear side of the motor (11), connecting cables on the positive pole seat (3) and the negative pole seat (4) are electrically connected with the power supply control box (14), and the motor (11) is also electrically connected with the power supply control box (14); the electrolytic soaking tank (1) is of a trapezoidal groove-shaped structure;

the protective groove (2) is sleeved on the outer side of the electrolytic soaking groove (1), and a certain gap is formed between the electrolytic soaking groove (1) and the protective groove (2);

the positive electrode seats (3) are provided with four groups of two, the outer walls of the positive electrode seats (3) are provided with threads, and the eight positive electrode seats (3) are in threaded connection with the threaded holes A (101) and B (201) on the left end surfaces of the protective groove (2) and the electrolytic soaking groove (1);

the exhaust pipe (5) is welded above the right end face of the protection groove (2);

the exhaust pipe (5) is of a bent tubular structure, and the opening of the exhaust pipe (5) is downward;

the groove-shaped frame (6) is sleeved in the rectangular groove (102), the gauze (601) is fixedly connected between every two sashes on the groove-shaped frame (6), and a gap exists between the bottom of the groove-shaped frame (6) and the top end face of the inner wall of the electrolytic soaking groove (1);

the motor (11) is a slow-speed motor, and the rotating speed is 20 r/min;

the cylindrical rod B (1201) is welded at the left side of the front end face of the cylindrical disc (12), and the cylindrical rod B (1201) and the cylindrical rod A (202) are rotatably connected through the rotating connecting rod (13);

before use, the four groups of positive electrode bases (3) are respectively connected with the power supply control box (14) by cables, the four groups of negative electrode bases (4) are connected with the power supply control box (14) by cables, and then electrolyte is filled in the electrolytic soaking tank (1);

when the electrolytic soaking tank is used, when spherical and cylindrical aluminum alloy sections need to be subjected to electrolytic soaking, the groove-shaped frame (6) can be taken out at the moment, then the spherical and cylindrical aluminum alloy sections are placed into the electrolytic soaking tank (1), then power switches on the positive pole seat (3) and the negative pole seat (4) are switched on, meanwhile, the power switch of the motor (11) is switched on, when the motor (11) drives the cylindrical disc (12) to rotate, the electrolytic soaking tank (1) can be pulled to shake through the rotating connecting rod (13), and at the moment, on the one hand, when the electrolytic soaking tank (1) shakes, electrolyte in the electrolytic soaking tank (1) can shake, so that the electrolytic efficiency is accelerated; on the other hand, when the electrolytic soaking tank (1) shakes, the cylindrical section bar in the electrolytic soaking tank (1) can roll along the inner wall of the electrolytic soaking tank (1), so that each peripheral surface of the cylindrical section bar can be contacted with the electrolyte, and dead angles of the aluminum alloy section bar during electrolysis are prevented;

when parts which are rectangular and the like and are difficult to roll on a plane are required to be electrolytically soaked, firstly, the groove-shaped frame (6) is placed in the electrolytic soaking groove (1), then the parts which are required to be electrolyzed are placed in the groove-shaped frame (6), and because a gap exists between the bottom of the groove-shaped frame (6) and the top end surface of the inner wall of the electrolytic soaking groove (1), the bottom end surface of the aluminum alloy section can be fully electrolyzed;

because the positive electrode seat (3) and the negative electrode seat (4) are respectively provided with four groups, and the electrolytic soaking tank (1) is of a trapezoidal structure, when parts needing electrolysis are small and have low height or low thickness, a small amount of electrolyte can be added, and at the moment, on one hand, a single group of positive electrode seat (3) and a single group of negative electrode seat (4) can be independently communicated to save the consumption of electric quantity; on the other hand, the electrolytic immersion tank (1) has a trapezoidal structure, so that the using amount of the electrolyte can be reduced.

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