CN213835571U - Anodic oxidation electrolytic cell - Google Patents

Abstract

The application relates to the field of electrolytic cells, in particular to an anodic oxidation electrolytic cell. The key points of the technical scheme are as follows: the infusion tube is communicated with the storage box, the infusion tube extends to the upper part of the water tank, and the height of the storage box is higher than that of the water tank; the valve assembly comprises an installation part, a plugging part, a floating part and a resetting part; the mounting part is fixedly connected to the transfusion tube; the plugging part is connected to the mounting part in a sliding way and can cover the opening end of the infusion tube; the reset part is respectively connected with the mounting part and the plugging part and is used for driving the plugging part to move downwards so as to open the opening end of the infusion tube; float and shutoff portion link to each other, and float is located the shutoff portion below, the bottom of float be used for with the basin in the liquid level butt of electrolytic solution, the vertical rebound of electrolytic solution's liquid level promotion float, until the open end of transfer line is closed, this application has in time carries out the function that supplements to the electrolytic solution in the basin.

Description

Anodic oxidation electrolytic cell

Technical Field

The application relates to the field of electrolytic cells, in particular to an anodic oxidation electrolytic cell.

Background

The anodic oxidation is a surface treatment process for carrying out electrochemical oxidation on the surface of metal or alloy, and relates to the subsequent finish machining of workpieces.

At present, in an anodic oxidation process, a device which is widely applied is an electrolytic cell, the electrolytic cell mainly comprises a water tank for storing an electrolytic solution, and meanwhile, the electrolytic cell also comprises polar plates which are arranged in the electrolytic cell, the polar plates are respectively arranged on two opposite sides of the electrolytic cell, the polar plates which are respectively arranged on two sides of the electrolytic cell are opposite to each other, a hanger is arranged on the electrolytic cell, a product is hung on the hanger and is immersed in the electrolytic solution, here, a direct current power supply is respectively connected to the polar plates and the hanger to form an electric field, and a workpiece is used as an anode to realize anodic oxidation.

In view of the above-mentioned related art, during the long-term electrolysis, the electrolytic solution in the water tank will be reduced and needs to be replenished, but in the actual operation, there is a defect that the replenishment is not timely, and the electrolytic tank has a larger space for improvement.

SUMMERY OF THE UTILITY MODEL

In order to timely supplement the electrolytic solution in the water tank, the application provides an anodic oxidation electrolytic tank.

The anodic oxidation electrolytic cell provided by the application adopts the following technical scheme:

an anodic oxidation electrolytic cell comprises a water tank, a hanger and a polar plate, and comprises a valve assembly, a liquid conveying pipe and a storage box, wherein one end of the liquid conveying pipe is communicated with the storage box, the other end of the liquid conveying pipe extends to the upper part of the water tank, the liquid conveying pipe is fixed with the water tank, and the storage box is higher than the water tank; the valve assembly comprises an installation part, a plugging part, a floating part and a resetting part; the mounting part is fixedly connected to the infusion tube; the plugging part is connected to the mounting part in a sliding manner, one side of the plugging part is abutted against the opening end face of the infusion tube, and the plugging part can cover the opening end of the infusion tube; the resetting part is respectively connected with the mounting part and the plugging part and is used for driving the plugging part to move downwards so as to open the opening end of the infusion tube; the floating part is connected with the blocking part, the floating part is located below the blocking part, the bottom of the floating part is used for being abutted against the liquid level of the electrolytic solution in the water tank, and when the liquid level of the electrolytic solution rises, the liquid level of the electrolytic solution pushes the floating part to vertically move upwards until the opening end of the infusion tube is closed.

Through adopting above-mentioned technical scheme, when electrolytic solution reduces, the liquid level descends, the flotation part descends along with the liquid level this moment, under the drive of the portion that resets, shutoff portion downstream, make the open end of transfer line open, at this moment, electrolytic solution in the bin flows into transfer line department from the top down, flow out to the basin in until the open end from the transfer line, realize the replenishment of electrolytic solution, subsequently, the liquid level rises at the replenishment in-process, the liquid level promotes flotation part upward movement, flotation part drive shutoff portion shifts up this moment, close the open end lid of transfer line until the shutoff portion, the replenishment is stopped this moment, descend once more until the liquid level, here, through the flotation drive of flotation part, make shutoff portion closed the transfer line shutoff, realize automatic replenishment, and then realize in time carrying out the effect of replenishing to the electrolytic solution in the basin, the structure is ingenious and practical.

Preferably, the shutoff portion includes shutoff board and slider, slider fixed connection in on the shutoff board, be provided with the spout on the installation department, the slider slide connect in the spout, the open end of one side laminating butt transfer line of shutoff board.

Through adopting above-mentioned technical scheme, under the connection of sliding between slider and spout, the shutoff board realizes being connected with sliding between the installation department, and simultaneously, the shutoff board has great surface area, and through laminating one side of shutoff board to transfer line department, can cover the transfer line betterly, satisfy the in-service use operating mode.

Preferably, the floating part comprises a floating ball and a connecting rod, two ends of the connecting rod are respectively and fixedly connected to the blocking part and the floating ball, and the floating ball is used for abutting against the liquid level of the electrolytic solution.

By adopting the technical scheme, the floating ball is abutted to the liquid level, so that buoyancy can be generated, the connecting rod plays a role in carrying out stress association on the floating ball and the plugging part at the moment, the buoyancy can be transmitted to the plugging part, and the liquid level rises to enable the plugging part to cover the infusion tube upwards.

Preferably, the portion that resets includes a plurality of reset spring, reset spring is located the top of shutoff portion, reset spring's both ends respectively fixed connection in the installation department and the top of shutoff portion, work as when reset spring is in under the natural state, the open end of transfer line is opened.

By adopting the technical scheme, when the liquid level rises, the plugging part upwards compresses the spring until the liquid level falls, and the reset spring applies downward elastic force to the plugging part, so that the plugging part can be automatically opened downwards, and the automation degree is high.

Preferably, the installation department includes mount pad and installation boss, the transfer line runs through the mount pad, and the terminal surface of transfer line with the surface parallel and level of mount pad, shutoff portion slide connect in on the mount pad, shutoff portion with the mount pad looks butt laminating, installation boss fixed connection in on the mount pad, the both ends of the portion that resets connect respectively in installation boss and on the shutoff portion.

Through adopting above-mentioned technical scheme, the mount pad of shutoff portion laminating butt can make the shutoff portion more stable when sliding, and the installation base can support the portion that resets simultaneously for the portion that resets drive shutoff portion obtains the atress strong point when moving down, and the operating mode is used in the structure laminating, and the structure is practical.

Preferably, the sliding blocks are respectively arranged on two opposite sides of the plugging plate, and the sliding grooves are arranged corresponding to the sliding blocks.

Through adopting above-mentioned technical scheme, when the shutoff board slided, the slider that is located the shutoff board both sides respectively guided the both sides of shutoff board when sliding for difficult skew when the shutoff board removes, the removal of shutoff board is more stable.

Preferably, the floating part further comprises a guide ring, the guide ring is fixedly connected to the mounting seat, the connecting rod is sleeved in the guide ring, and the connecting rod and the guide ring are in sliding abutting connection.

Through adopting above-mentioned technical scheme, when the floater floated on the liquid level, the connecting rod reciprocated along with the floater, and at this in-process, the guide ring led to the connecting rod butt for the connecting rod is difficult for the skew, and is more stable when the connecting rod removed.

Preferably, the sliding block and the sliding groove are arranged in a T shape.

Through adopting above-mentioned technical scheme, the slider and the spout that are the T style of calligraphy setting have great butt area when sliding each other for it is more stable when moving, and the spout can be spacing with the slider inlay card simultaneously, and the spout is taken off to the difficult pine of slider, stable in structure.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the plugging part slides back and forth through the floating drive of the floating part, the plugging part can close the infusion tube with the liquid level, automatic liquid supplement is realized, the effect of timely supplementing the electrolytic solution in the water tank is realized, and the structure is ingenious and practical;

2. the sliding blocks respectively positioned at the two sides of the plugging plate guide the two sides of the plugging plate when sliding, so that the plugging plate is not easy to deviate when moving, and the plugging plate is stable to move;

3. when the liquid level descends, the reset spring applies downward elastic force to the plugging part, so that the plugging part can be automatically opened downwards, and the automation degree is high.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural diagram between the plugging plate and the sliding block of the present application.

Description of reference numerals: 1. a water tank; 2. a hanger; 3. a polar plate; 4. a transfusion tube; 5. a storage tank; 6. a valve assembly; 61. an installation part; 611. a mounting seat; 6111. mounting holes; 6112. a chute; 612. mounting a boss; 62. a plugging section; 621. a plugging plate; 622. a slider; 63. a floating section; 631. a floating ball; 632. a connecting rod; 633. a guide ring; 64. a reset portion.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an anodic oxidation electrolytic cell. Referring to fig. 1, the electrolytic cell includes a water tank 1, a hanger 2 and a pole plate 3, wherein the hanger 2 is fixed on the water tank 1, the hanger 2 is used for placing a workpiece, the pole plates 3 are respectively and fixedly installed on the side walls of two opposite sides of the water tank 1, the hanger 2 is connected with the pole plate 3, and a product on the hanger 2 is used as an anode to realize a surface oxidation process.

Referring to fig. 1 and 2, in order to realize automatic fluid infusion, the electrolytic cell includes a valve assembly 6, a fluid infusion tube 4 and a storage tank 5, wherein the storage tank 5 can be selected as a glass storage tank 5 to adapt to acidic solutes in an electrolytic solution, a support rod is arranged at the bottom of the storage tank 5, the support rod is arranged along a vertical direction, the top end of the support rod is fixedly connected to the storage tank 5, the storage tank 5 is arranged on the ground through the support rod, and the storage tank 5 is higher than the water tank 1; the infusion tube 4 is selected as a glass tube, in the embodiment, the infusion tube 4 comprises a vertical section and a horizontal section which are sequentially connected, one end of the horizontal section is communicated with the bottom of the vertical section, the top end of the vertical section is fixedly connected with the bottom of the storage box 5, and the infusion tube 4 is communicated with the storage box 5, so that one end of the infusion tube 4 is communicated with the storage box 5; the other end of transfer line 4 extends to the top of basin 1, and the one end that vertical section was kept away from to horizontal section on transfer line 4 promptly extends to the top of basin 1 to transfer line 4 is fixed mutually with basin 1, and in this embodiment, staple bolt fixed connection is passed through on the top of horizontal section and the basin 1 lateral wall of transfer line 4.

Under gravity, the electrolytic solution that is located in the storage box 5 can be via 4 downflow of transfer line to basin 1 in, and here is defined as the open end with the one end that transfer line 4 kept away from storage box 5, and the one end that vertical section was kept away from to horizontal section is the open end promptly, and valve assembly 6 sets up in the open end department of transfer line 4, and valve assembly 6 is used for opening and close the open end of transfer line 4 to realize opening and stopping of fluid infusion action.

Referring to fig. 2, the valve assembly 6 includes a mounting portion 61, a blocking portion 62, a floating portion 63, and a returning portion 64.

Wherein, installation department 61 is fixed connection on transfer line 4, shutoff portion 62 slides along vertical direction and connects on installation department 61, installation department 61 is used for here supporting shutoff portion 62, one side of shutoff portion 62 and the open end butt of transfer line 4, shutoff portion 62 can close the open end of opening and close transfer line 4, in addition, reset portion 64 is located the top of shutoff portion 62, reset portion 64 is connected with installation department 61 and shutoff portion 62 respectively, reset portion 64 is used for driving shutoff portion 62 and moves down, when reset portion 64 is under the natural state, shutoff portion 62 is located the below of transfer line 4 open end, at this moment, the open end of transfer line 4 is opened, the electrolyte can flow out to basin 1 in from the open end of transfer line 4, realize the fluid infusion action.

The floating portion 63 is connected to the stopper 62, the floating portion 63 is located below the stopper 62, the bottom of the floating portion 63 is adapted to abut against the surface of the electrolytic solution in the water tank 1, the surface of the electrolytic solution rises as the replenishing operation proceeds, the surface of the electrolytic solution pushes the floating portion 63 to move vertically upward while the surface of the electrolytic solution rises, the floating portion 63 pushes the stopper 62 to close the open end of the infusion tube 4, and the replenishing operation is stopped.

In particular, the opening end of the transfusion tube 4 is blocked. The mounting portion 61 includes a mounting seat 611, in this embodiment, the mounting seat 611 is provided in a plate shape, a mounting hole 6111 is provided in the mounting seat 611 in a penetrating manner, the infusion tube 4 penetrates the mounting seat 611 through the mounting hole 6111, generally, the mounting seat 611 and the infusion tube 4 are fixed to each other by welding, and an end surface of the infusion tube 4 is flush with a side surface of the mounting seat 611.

Referring to fig. 2 and fig. 3, the blocking portion 62 includes a blocking plate 621 and a slider 622, in this embodiment, the outer edge profile of the blocking plate 621 is rectangular, the blocking plate 621 is placed along the vertical direction, one side of the blocking plate 621 abuts against the end face of the opening end of the infusion tube 4, and the blocking plate 621 abuts against the mounting seat 611, the area of the blocking plate 621 is larger than the opening area of the infusion tube 4, so that the blocking plate 621 can block the infusion tube 4.

The blocking plate 621 is slidably connected to the mounting seat 611 through two sliding blocks 622, wherein the number of the sliding blocks 622 is two in this embodiment, the two sliding blocks 622 are fixedly connected to the blocking plate 621, the sliding blocks 622 are respectively disposed on two opposite sides of the blocking plate 621, and generally, the sliding blocks 622 and the blocking plate 621 are integrally connected; the mounting portion 61 is provided with a sliding groove 6112, the sliding groove 6112 is recessed from outside to inside and is arranged on the mounting seat 611, the sliding groove 6112 is arranged along the vertical direction, the sliding block 622 and the sliding groove 6112 are matched in shape, in the embodiment, the sliding block 622 and the sliding groove 6112 are arranged in a T shape, and meanwhile, the sliding block 622 and the sliding groove 6112 can be arranged in a dovetail shape. The sliding groove 6112 and the sliding block 622 are correspondingly arranged, the sliding block 622 is located in the sliding groove 6112, the surface of the sliding block 622 is in sliding and abutting connection with the groove wall of the sliding groove 6112, the sliding block 622 is connected in the sliding groove 6112 in a sliding mode, it needs to be noted that the corresponding arrangement refers to the fact that the number of the sliding grooves 6112 is the same as that of the sliding block 622, the sliding blocks 622 slide in the sliding grooves 6112 in a one-to-one correspondence mode, in the embodiment, the number of the sliding grooves 6112 is two, the two sliding grooves 6112 are parallel to each other, the sliding grooves 6112 conduct motion guiding on the sliding block 622, and then the plugging plate 621 is conducted motion guiding, when the plugging plate 621 slides, the plugging plate 621 can slide in the vertical direction, at the moment, the plugging plate 621 can open and close the opening end of the infusion tube 4.

Referring to fig. 2, the mounting portion 61 further includes a mounting boss 612, and the mounting boss 612 is fixedly connected to the mounting seat 611, in this embodiment, the mounting boss 612 extends along a top edge of the mounting seat 611, and the mounting boss 612 and the mounting seat 611 are integrally connected. In order to improve the automation degree during fluid infusion, the two ends of the restoring part 64 are respectively connected to the mounting boss 612 and the blocking part 62.

Specifically, the reset portion 64 includes a plurality of reset springs, for example, the number of the reset springs may be two, three or four, in this embodiment, the number of the reset springs is two, the reset springs are disposed along the vertical direction, the reset springs are located above the blocking portion 62, and two ends of the reset springs are respectively and fixedly connected to the top of the mounting boss 612 and the top of the blocking portion 62. Here, the return spring applies a downward moving elastic force to the blocking portion 62, and at this time, the mounting boss 612 provides a mounting support point for the return spring, and when the return spring is in a natural state, the opening end of the infusion tube 4 is set in an open state.

In addition, the floating portions 63 include floating balls 631 and connecting rods 632, the floating portions 63 may be provided in multiple sets, in this embodiment, the floating portions 63 are provided in two sets, the two sets of floating portions 63 are respectively located on two opposite sides of the blocking plate 621, and the floating balls 631 are in the shape of hollow glass spheres; the connecting rod 632 may be made of glass, the connecting rod 632 is disposed along a vertical direction, two ends of the connecting rod 632 are respectively and fixedly connected to the blocking portion 62 and the floating ball 631, generally, the connecting rod 632 may be fixed at bottom positions of the floating ball 631 and the blocking plate 621 in a welding manner, the floating ball 631 is used for abutting against a liquid level of an electrolytic solution, the electrolytic welding applies an upward buoyancy to the floating ball 631, when the liquid level rises, the floating ball 631 pushes the connecting rod 632 to move upwards, the connecting rod 632 drives the blocking plate 621 to slide upwards, and until the blocking plate 621 covers an opening end of the infusion tube 4, the suspension of the fluid infusion is achieved. Meanwhile, the return spring is compressed until the liquid level of the electrolytic solution drops in the electrolytic process, the return spring resets and pushes the plugging plate 621 to slide downwards, the opening end of the infusion tube 4 is opened, and the automatic replenishment of the liquid level of the electrolytic solution is realized in such a reciprocating manner.

Furthermore, the floating portion 63 further includes a guide ring 633, the guide ring 633 is disposed in a semi-ring shape, the guide ring 633 is fixedly connected to the mounting seat 611, generally, the guide ring 633 can be fixed to the mounting seat 611 through welding, the connecting rod 632 is sleeved in the guide ring 633, the connecting rod 632 slides and abuts against the guide ring 633, the guide ring 633 abuts against and guides the connecting rod 632, so that the connecting rod 632 is not prone to shift, and the connecting rod 632 is more stable when moving.

The implementation principle of the anodic oxidation electrolytic cell in the embodiment of the application is as follows: when the electrolytic solution is reduced, the liquid level is lowered, at the moment, the floating ball 631 is lowered along with the liquid level, the blocking plate 621 slides downwards under the driving of the return spring, so that the opening end of the liquid conveying pipe 4 is opened, at the moment, the electrolytic solution in the storage tank 5 flows into the liquid conveying pipe 4 from top to bottom until flowing out of the opening end of the liquid conveying pipe 4 into the water tank 1, and the supplement of the electrolytic solution is realized; subsequently, the liquid level rises in the replenishing process, the liquid level pushes the floating ball 631 to move upwards, at the moment, the floating ball 631 drives the blocking plate 621 to move upwards through the connecting rod 632 until the blocking plate 621 covers the opening end of the infusion tube 4, the fluid replenishing is stopped at the moment, the fluid replenishing is completed until the liquid level descends again, the fluid replenishing process is repeated again, the fluid replenishing is automated, and the electrolytic solution in the water tank 1 is replenished in time.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides an anodic oxidation electrolysis trough, includes basin (1), hanger (2) and polar plate (3), its characterized in that: the infusion device is characterized by further comprising an infusion tube (4), a storage box (5) and a valve assembly (6), wherein one end of the infusion tube (4) is communicated with the storage box (5), the other end of the infusion tube (4) extends to the upper side of the water tank (1), the infusion tube (4) is fixed with the water tank (1), and the storage box (5) is higher than the water tank (1);

the valve assembly (6) comprises an installation part (61), a blocking part (62), a floating part (63) and a resetting part (64);

the mounting part (61) is fixedly connected to the infusion tube (4);

the plugging part (62) is connected to the mounting part (61) in a sliding manner, one side of the plugging part (62) is abutted against the opening end face of the infusion tube (4), and the plugging part (62) can cover and open and close the opening end of the infusion tube (4);

the resetting part (64) is respectively connected with the mounting part (61) and the plugging part (62), and the resetting part (64) is used for driving the plugging part (62) to move downwards so as to open the opening end of the infusion tube (4);

the floating part (63) is connected with the blocking part (62), the floating part (63) is located below the blocking part (62), the bottom of the floating part (63) is used for being abutted to the liquid level of the electrolytic solution in the water tank (1), and when the liquid level of the electrolytic solution rises, the liquid level of the electrolytic solution pushes the floating part (63) to vertically move upwards until the opening end of the infusion tube (4) is closed.

2. An anodizing cell according to claim 1, wherein: shutoff portion (62) are including shutoff board (621) and slider (622), slider (622) fixed connection in on shutoff board (621), be provided with spout (6112) on installation department (61), slider (622) slide connect in spout (6112), the open end of one side laminating butt transfer line (4) of shutoff board (621).

3. An anodizing cell according to claim 1, wherein: the floating part (63) comprises a floating ball (631) and a connecting rod (632), two ends of the connecting rod (632) are respectively fixedly connected to the blocking part (62) and the floating ball (631), and the floating ball (631) is used for being abutted to the liquid level of the electrolytic solution.

4. An anodizing cell according to claim 1, wherein: reset portion (64) includes a plurality of reset spring, reset spring is located the top of shutoff portion (62), reset spring's both ends respectively fixed connection in on installation department (61) and the top of shutoff portion (62), when reset spring is under the natural state, the open end of transfer line (4) is opened.

5. An anodizing cell according to claim 1 or 4, wherein: installation part (61) includes mount pad (611) and installation boss (612), transfer line (4) run through mount pad (611), and the terminal surface of transfer line (4) with the surface parallel and level of mount pad (611), shutoff portion (62) slide connect in on mount pad (611), shutoff portion (62) with mount pad (611) looks butt laminating, installation boss (612) fixed connection in on mount pad (611), the both ends of portion of restoring to the throne (64) connect respectively in installation boss (612) and on shutoff portion (62).

6. An anodizing cell according to claim 2, wherein: the sliding blocks (622) are respectively arranged on two opposite sides of the plugging plate (621), and the sliding grooves (6112) are arranged corresponding to the sliding blocks (622).

7. An anodizing cell according to claim 2, wherein: the sliding block (622) and the sliding groove (6112) are arranged in a T shape.

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