CN215517688U - Stamping part electrophoresis application equipment with waste residue filtration - Google Patents

Abstract

The utility model discloses stamping part electrophoretic coating equipment with a waste residue filtering structure, which comprises an equipment main body, a filtering component and a fishing component, wherein the filtering component is arranged behind the lower end of the equipment main body; a fishing assembly disposed inside a lower end of the equipment body; and the drying assembly is arranged below the right end of the equipment main body. This stamping workpiece electrophoresis application equipment with waste residue filtration sets up the top surface top at the filter box through the pump body, can make the pump body with the electrophoresis liquid in the electrophoresis tank from first pipeline suction, enter into the filter box inside, then under the filtration of first filter plate, stop the waste residue in the electrophoresis liquid, prevent that the inside waste residue of electrophoresis liquid from influencing electrophoresis application's efficiency and quality, and can pass through the second pipeline with the electrophoresis liquid after filtering and re-enter into the electrophoresis tank inside, keep the clean degree of electrophoresis liquid, it concentrates recovery processing to the waste residue also to be convenient for through the filter box simultaneously.

Description

Stamping part electrophoresis application equipment with waste residue filtration

Technical Field

The utility model relates to the technical field of electrophoretic coating equipment, in particular to stamping part electrophoretic coating equipment with a waste residue filtering structure.

Background

The electrophoretic coating is a coating method which utilizes an external electric field to ensure that particles such as pigment, resin and the like suspended in electrophoretic liquid directionally migrate and are deposited on the surface of a substrate of one of electrodes, the principle of electrophoretic coating is invented at the end of the 30 th 20 th century, but the development of the technology and the industrial application are that after 1963, electrophoretic coating is a special coating forming method developed in the last 30 years, the technology is a construction process which has the most practical significance for water-based paint, has the characteristics of water solubility, no toxicity, easiness in automatic control and the like, and is rapidly and widely applied to industries such as automobiles, building materials, hardware, household appliances and the like.

Electrophoresis coating equipment in the market can't filter the waste residue that accumulates in the electrophoresis liquid when carrying out the application to stamping piece to reduce the problem to stamping piece electrophoresis coating quality and efficiency, for this reason, we provide a stamping piece electrophoresis coating equipment with waste residue filtration.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide stamping part electrophoretic coating equipment with a waste residue filtering structure, and aims to solve the problem that waste residues accumulated in an electrophoretic solution cannot be filtered when the electrophoretic coating equipment provided in the background technology is used for coating stamping parts, so that the electrophoretic coating quality and efficiency of the stamping parts are reduced.

In order to achieve the purpose, the utility model provides the following technical scheme: a stamping part electrophoresis coating equipment with waste residue filtration includes:

an apparatus main body;

further comprising:

a filter assembly disposed at the rear of the lower end of the apparatus main body;

a fishing assembly disposed inside a lower end of the equipment body;

the drying assembly is arranged below the right end of the equipment main body;

the filter assembly includes:

the first pipeline is connected to the bottom end of the equipment main body, and an integrated structure is formed between the first pipeline and the equipment main body;

the filter box is connected to the rear end of the first pipeline, and the filter box is communicated with the first pipeline;

the first filter plate is arranged at the top end of the filter box, and the first filter plate is clamped with the filter box.

Preferably, the apparatus main body includes:

a support;

the first motor is arranged at the top end of the right side of the bracket, and the first motor is fixedly connected with the bracket;

the screw rod is connected to the left end of the first motor, is in key connection with the first motor, is clamped with the bracket and is in a rotating structure with the bracket;

the guide rod is arranged at the lower end of the screw rod, and the guide rod and the screw rod are distributed in parallel;

and the sliding seat is sleeved on the outer side of the guide rod, is in a sliding structure with the guide rod and is meshed with the screw rod.

Preferably, the apparatus main body further includes:

the electric telescopic rods are arranged at the bottom end of the sliding seat, the number of the electric telescopic rods is two, and the electric telescopic rods are symmetrically distributed about a perpendicular bisector of the sliding seat;

the storage rack is connected to the bottom end of the electric telescopic rod, and the storage rack is fixedly connected with the electric telescopic rod;

and the electrophoresis cell is arranged below the storage rack and is of an integrated structure with the filtering component.

Preferably, the filter assembly further comprises:

the pump body is arranged at the top end of the filter box, and is communicated with the filter box;

and the second pipeline is connected to the top end of the pump body, and an integrated structure is formed between the second pipeline and the equipment main body.

Preferably, the fishing assembly comprises:

the second motors are arranged inside the left side and the right side of the electrophoresis cell, and the second motors are fixedly connected with the electrophoresis cell;

the gear is connected to the front end of the second motor, and the gear is in key connection with the second motor;

the rack, it set up in the right-hand member of gear, and mesh mutually between rack and the gear, laminate mutually between rack and the electrophoresis cell moreover to be sliding structure between rack and the electrophoresis cell.

Preferably, the fishing assembly further comprises:

the lifting plate is arranged on the right side of the upper end of the rack, and the perpendicular bisector of the lifting plate is attached to the perpendicular bisector of the electrophoresis cell;

and the filtering holes are formed in the bottom end of the lifting plate, and the filtering holes and the lifting plate are of an integrated structure.

Preferably, the drying assembly includes:

drying the frame;

the second filter plate is arranged inside the lower end of the drying frame, and the second filter plate is clamped with the drying frame;

the fans are arranged inside the upper end of the drying frame and are symmetrically distributed around a perpendicular bisector of the drying frame;

and the electric heating plate is arranged at the front end of the fan, and an integrated structure is formed between the electric heating plate and the drying frame.

The utility model provides stamping part electrophoretic coating equipment with a waste residue filtering structure, which has the following beneficial effects: this stamping workpiece electrophoresis application equipment with waste residue filtration adopts mutually supporting between a plurality of subassemblies, not only is convenient for filter the electrophoresis liquid, prevents that the inside waste residue of electrophoresis liquid from influencing electrophoresis application's efficiency and quality, also is convenient for concentrate recovery processing to the waste residue, can be convenient for when electrophoresis application simultaneously, and the stamping workpiece that drops is salvaged to still have the stoving function, improve electrophoresis application's speed.

1. According to the electrophoresis tank, the pump body is arranged above the top surface of the filter tank, so that electrophoresis liquid in the electrophoresis tank can be sucked out of the first pipeline by the pump body and enters the filter tank, waste residues in the electrophoresis liquid are blocked under the filtration of the first filter plate, the efficiency and the quality of electrophoresis coating are prevented from being influenced by the waste residues in the electrophoresis liquid, the filtered electrophoresis liquid can enter the electrophoresis tank again through the second pipeline, the cleanness degree of the electrophoresis liquid is kept, and meanwhile, the waste residues are conveniently recycled and treated in a centralized manner through the filter tank;

2. according to the utility model, the lifting plate is arranged in the electrophoresis cell, when the stamping parts on the storage rack are subjected to electrophoresis coating, the stamping parts slide off the storage rack, the rack drives the lifting plate to slide upwards by starting the second motor to drive the gear to rotate, and the falling stamping parts can be salvaged by the lifting plate, so that the falling objects can be picked up conveniently;

3. according to the utility model, the drying component is arranged at the right lower end of the equipment main body, so that the fan can rapidly dry the stamping part after electrophoretic coating through the electric heating plate, the electrophoretic coating efficiency of the stamping part is improved, and the second filter plate is arranged in the lower end of the drying frame, so that the electrophoretic liquid dropping on the stamping part can be filtered by the second filter plate and collected in the lower end of the drying frame, and the utilization rate of the electrophoretic liquid can be improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an electrophoretic painting apparatus for stamping parts with a waste residue filtering structure according to the present invention;

FIG. 2 is a schematic diagram of a right side view of an electrophoresis cell of stamping part electrophoretic coating equipment with a waste residue filtering structure according to the present invention;

fig. 3 is a schematic diagram of a lifting plate structure of stamping part electrophoretic coating equipment with a waste residue filtering structure.

In the figure: 1. an apparatus main body; 101. a support; 102. a first motor; 103. a screw rod; 104. a guide bar; 105. a slide base; 106. an electric telescopic rod; 107. a rack; 108. an electrophoresis cell; 2. a filter assembly; 201. a first conduit; 202. a filter box; 203. a first filter plate; 204. a pump body; 205. a second conduit; 3. fishing the components; 301. a second motor; 302. a gear; 303. a rack; 304. a lifting plate; 305. filtering holes; 4. a drying assembly; 401. drying the frame; 402. a second filter plate; 403. a fan; 404. an electric heating plate.

Detailed Description

As shown in fig. 1 and 3, a stamping part electrocoating apparatus having a slag filtering structure includes: the apparatus main body 1 further includes: the apparatus main body 1 includes: the device comprises a bracket 101, a first motor 102 arranged at the top end of the right side of the bracket 101, a lead screw 103 connected to the left end of the first motor 102 and connected with the bracket 101 in a fixed manner, the lead screw 103 is connected with the first motor 102 in a key manner, the lead screw 103 is clamped with the bracket 101 and is in a rotating structure with the bracket 101, so that the lead screw 103 is driven to rotate by the first motor 102, a guide rod 104 arranged at the lower end of the lead screw 103 and distributed in parallel between the guide rod 104 and the lead screw 103, the guide rod 104 can limit a slide seat 105, the slide seat 105 is sleeved outside the guide rod 104 and is in a sliding structure with the guide rod 105 and 104, and the slide seat 105 is engaged with the lead screw 103 so as to adjust the position of the slide seat 105 by the rotation of the lead screw 103, electric telescopic handle 106, it settles in the bottom of slide 105, and the quantity of electric telescopic handle 106 is provided with two, and electric telescopic handle 106 is about the perpendicular bisector symmetric distribution of slide 105, setting through two electric telescopic handle 106, can improve the stability of supporter 107, it is connected in the bottom of electric telescopic handle 106, and be fixed connection between supporter 107 and the electric telescopic handle 106, be convenient for come the high control of opposition supporter 107 through electric telescopic handle 106, electrophoresis cell 108, it sets up in the below of supporter 107, and electrophoresis cell 108 is the integrated structure with filtering component 2, electrophoresis cell 108 can play the effect that bears to the electrophoresis liquid, salvage subassembly 3, it settles inside the lower extreme of equipment main part 1, salvage subassembly 3 includes: a second motor 301 disposed inside the left and right sides of the electrophoresis cell 108, wherein the second motor 301 is fixedly connected to the electrophoresis cell 108, so that the electrophoresis cell 108 can fix the second motor 301, a gear 302 connected to the front end of the second motor 301, and the gear 302 is connected to the second motor 301, so that the gear 302 is driven by the second motor 301 to rotate, a rack 303 disposed at the right end of the gear 302 and engaged with the gear 302, and the rack 303 is attached to the electrophoresis cell 108, and a sliding structure is formed between the rack 303 and the electrophoresis cell 108, so that the gear 302 drives the rack 303 to move, a lifting plate 304 disposed at the right side of the upper end of the rack stamping part 303, and the perpendicular bisector of the lifting plate 304 is attached to the perpendicular bisector of the electrophoresis cell 108, the lifting plate 304 can salvage dropped objects, so as to pick up the objects, inside filtration pore 305, it was seted up in the bottom of lifter plate 304, and was the integral structure between filtration pore 305 and the lifter plate 304, can make the electrophoresis liquid flow out from filtration pore 305, and drying assembly 4, it sets up in the right-hand member below of equipment main part 1, and drying assembly 4 includes: drying frame 401, second filter plate 402, it settles inside drying frame 401's lower extreme, and looks block between second filter plate 402 and the drying frame 401, can make second filter plate 402 filter the electrophoresis liquid that drips on the stamping piece, and collect inside drying frame 401's lower extreme, thereby can improve the utilization ratio of electrophoresis liquid, fan 403, it sets up inside drying frame 401's upper end, and fan 403 is the symmetric distribution about drying frame 401's perpendicular bisector, fan 403 can air-dry the stamping piece after the electrophoresis application, electric plate 404, it sets up in the front end of fan 403, and be the integral structure between electric plate 404 and the drying frame 401, electric plate 404 can improve the temperature that fan 403 blew out, thereby accelerate the air-dried speed of stamping piece.

As shown in fig. 2, the filter assembly 2, which is disposed behind the lower end of the apparatus main body 1, the filter assembly 2 includes: a first pipe 201 connected to the bottom end of the apparatus body 1, the first pipe 201 and the apparatus body 1 being integrated to facilitate the flow of the electrophoretic fluid from the first pipe 201, a filter box 202 connected to the rear end of the first pipe 201, the filter box 202 being communicated with the first pipe 201, the filter box 202 being also adapted to facilitate the centralized recycling of the waste residues, a first filter plate 203 disposed at the top end of the filter box 202 and engaged with the filter box 202, the first filter plate 203 being capable of blocking the waste residues in the electrophoretic fluid to prevent the waste residues inside the electrophoretic fluid from affecting the efficiency and quality of the electrophoretic coating, a pump 204 disposed at the top end of the filter box 202 and communicated between the pump 204 and the filter box 202, the pump 204 being capable of circulating the electrophoretic fluid, a second pipe 205 connected to the top end of the pump 204, the second pipe 205 being integrated to the apparatus body 1, the filtered electrophoretic fluid can be re-introduced into the electrophoretic cell 108 through the second pipe 205, so as to keep the electrophoretic fluid clean.

In summary, when the stamping part electrophoretic coating apparatus with the waste residue filtering structure is used, firstly, according to the structure shown in fig. 1 and fig. 2, the stamping part is arranged on the rack 107, the rack 107 is fed into the electrophoretic bath 108 through the electric telescopic rod 106 for electrophoretic coating, then, when electrophoretic coating is performed, waste residues generated in electrophoretic liquid easily affect the efficiency and quality of electrophoretic coating, the pump body 204 is arranged above the top surface of the filter box 202, so that the pump body 204 can suck the electrophoretic liquid in the electrophoretic bath 108 out of the first pipeline 201 and enter the filter box 202, then, under the filtering of the first filter plate 203, the waste residues in the electrophoretic liquid are blocked, the waste residues in the electrophoretic liquid are prevented from affecting the efficiency and quality of electrophoretic coating, and the filtered electrophoretic liquid can re-enter the electrophoretic bath 108 through the second pipeline 205 to maintain the cleanness degree of the electrophoretic liquid, meanwhile, the filter box 202 is convenient for centralized recovery processing of waste residues, then according to the structure shown in fig. 3, when the stamping parts on the shelf 107 are subjected to electrophoretic coating, the stamping parts slide off the shelf 107, the lifting plate 304 can be salvaged by driving the gear 302 to rotate by starting the second motor 301, so that the rack 303 drives the lifting plate 304 to slide upwards, the falling stamping parts can be picked up conveniently, finally, after the electrophoretic coating is finished, the screw rod 103 drives the slide seat 105 to move to the front of the drying frame 401 under the limit of the guide rod 104 by starting the first motor 102 at the upper end of the bracket 101, so that the fan can rapidly dry the stamping parts after electrophoretic coating through the electric heating plate 404, the electrophoretic coating efficiency of the stamping parts is improved, and the second filter plate 402 is arranged inside the lower end of the drying frame 403, the electrophoresis liquid dropped on the pressing member can be filtered by the second filter plate 402, and is collected inside the lower end of the drying frame 401, so that the utilization rate of the electrophoresis liquid can be improved.

Claims (7)

1. A stamping part electrophoresis coating equipment with waste residue filtration includes:

an apparatus main body (1);

it is characterized by also comprising:

a filter assembly (2) disposed rearward of a lower end of the apparatus main body (1);

a fishing assembly (3) disposed inside the lower end of the apparatus body (1);

a drying component (4) arranged below the right end of the equipment main body (1);

the filter assembly (2) comprises:

the first pipeline (201) is connected to the bottom end of the equipment main body (1), and the first pipeline (201) and the equipment main body (1) form an integrated structure;

a filter box (202) connected to the rear end of the first pipeline (201), wherein the filter box (202) is communicated with the first pipeline (201);

a first filter plate (203) disposed at the top end of the filter box (202), wherein the first filter plate (203) is engaged with the filter box (202).

2. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 1, is characterized in that: the apparatus main body (1) includes:

a support (101);

the first motor (102) is arranged at the top end of the right side of the bracket (101), and the first motor (102) is fixedly connected with the bracket (101);

the screw rod (103) is connected to the left end of the first motor (102), the screw rod (103) is in key connection with the first motor (102), the screw rod (103) is clamped with the bracket (101), and a rotating structure is formed between the screw rod (103) and the bracket (101);

the guide rod (104) is arranged at the lower end of the screw rod (103), and the guide rod (104) and the screw rod (103) are distributed in parallel;

and the sliding seat (105) is sleeved on the outer side of the guide rod (104), a sliding structure is formed between the sliding seat (105) and the guide rod (104), and the sliding seat (105) is meshed with the screw rod (103).

3. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 2, is characterized in that: the apparatus main body (1) further includes:

the electric telescopic rods (106) are arranged at the bottom end of the sliding seat (105), the number of the electric telescopic rods (106) is two, and the electric telescopic rods (106) are symmetrically distributed about a perpendicular bisector of the sliding seat (105);

the article placing rack (107) is connected to the bottom end of the electric telescopic rod (106), and the article placing rack (107) is fixedly connected with the electric telescopic rod (106);

and the electrophoresis cell (108) is arranged below the shelf (107), and the electrophoresis cell (108) and the filter assembly (2) are in an integrated structure.

4. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 1, is characterized in that: the filter assembly (2) further comprises:

the pump body (204) is arranged at the top end of the filter box (202), and the pump body (204) is communicated with the filter box (202);

and the second pipeline (205) is connected to the top end of the pump body (204), and the second pipeline (205) and the equipment main body (1) form an integrated structure.

5. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 3, is characterized in that: the fishing assembly (3) comprises:

the second motor (301) is arranged inside the left side and the right side of the electrophoresis cell (108), and the second motor (301) is fixedly connected with the electrophoresis cell (108);

a gear (302) connected to the front end of the second motor (301), wherein the gear (302) is in key connection with the second motor (301);

and the rack (303) is arranged at the right end of the gear (302), the rack (303) is meshed with the gear (302), the rack (303) is attached to the electrophoresis cell (108), and a sliding structure is formed between the rack (303) and the electrophoresis cell (108).

6. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 5, is characterized in that: the fishing assembly (3) further comprises:

the lifting plate (304) is arranged on the right side of the upper end of the rack (303), and the perpendicular bisector of the lifting plate (304) is attached to the perpendicular bisector of the electrophoresis cell (108);

and the filtering holes (305) are arranged inside the bottom end of the lifting plate (304), and the filtering holes (305) and the lifting plate (304) form an integrated structure.

7. The stamping part electrophoretic coating equipment with the waste residue filtering structure as claimed in claim 1, is characterized in that: the drying assembly (4) comprises:

a drying frame (401);

a second filter plate (402) arranged inside the lower end of the drying frame (401), wherein the second filter plate (402) is clamped with the drying frame (401);

the fans (403) are arranged inside the upper end of the drying frame (401), and the fans (403) are symmetrically distributed around the perpendicular bisector of the drying frame (401);

and the electric heating plate (404) is arranged at the front end of the fan (403), and the electric heating plate (404) and the drying frame (401) are in an integrated structure.

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