CN217536203U - Electrophoresis sledge body - Google Patents

Abstract

The utility model provides an electrophoresis sledge body, include: the device comprises a sledge body framework, at least 2 swing rod hoisting point assemblies, at least 2 sledge body supporting assemblies and a conductive assembly; the swing rod hoisting point assemblies are symmetrically arranged on two sides of the sledge body framework along the moving direction of the electrophoresis sledge body; the sledge body supporting assemblies are symmetrically arranged on two sides of the sledge body framework along the moving direction of the electrophoresis sledge body and are close to the middle part of the sledge body framework; the conductive assembly is simultaneously connected with the swing rod hoisting point assembly and the sledge body supporting assembly and is used for electrically conducting the swing rod hoisting point assembly and the sledge body supporting assembly; the swing rod hoisting point assembly, the pry body supporting assembly and the pry body framework are in insulation connection, so that the pry body framework is insulated and isolated from the pry body supporting assembly and the swing rod hoisting point assembly, and the pry body framework is prevented from electrophoretic sizing; the utility model discloses the electrophoresis sledge body cleaning work volume and the plant maintenance work volume in the painting workshop that can significantly reduce.

Description

Electrophoresis sledge body

Technical Field

The utility model belongs to the technical field of the automotive spraying and specifically relates to an electrophoresis sledge body with insulation system is related to.

Background

In the existing automobile production coating process, an automobile body-in-white to be electrophoresed needs to be firstly carried on an electrophoresis sledge body, and the electrophoresis sledge body and the automobile body-in-white move together under the driving of a swing rod; then the electrophoresis sledge body and the white automobile body of the automobile enter a ground conveying system together; in the electrophoresis process, after the swing rod, the sledge body framework, the sledge body support and the white automobile body of the automobile are electrified together, the white automobile body is electrified to realize electrophoresis; however, in this process, since the sled skeleton is also charged, the electrophoretic paint is coated in the electrophoresis process, so that part of the parts behind the electrophoresis swing rod is stuck with the electrophoretic paint, which causes slippage and affects the production of the product.

An electrophoresis sled with an insulation structure is urgently needed to be developed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides an electrophoresis sledge body which is used for solving at least one of the technical problems.

Specifically, the technical scheme is as follows:

an electrophoresis sled comprising:

a sledge body framework;

at least 2 swing rod hoisting point assemblies symmetrically arranged at two sides of the sledge body framework along the moving direction of the electrophoresis sledge body and close to two ends of the sledge body framework;

the electrophoresis sledge body supporting assemblies are symmetrically arranged on two sides of the sledge body framework along the moving direction of the electrophoresis sledge body and are close to the middle part of the sledge body framework;

the conductive assembly is simultaneously connected with the swing rod hoisting point assembly and the sledge body supporting assembly and is used for electrically conducting the swing rod hoisting point assembly and the sledge body supporting assembly;

the swing rod hoisting point assembly and the sledge body supporting assembly are in insulation connection with the sledge body framework.

The pendulum rod hoisting point subassembly includes:

the first connecting body is arranged on the sledge body framework;

a swing rod insulator disposed on the first connection body;

the swing rod connecting piece is arranged on the swing rod insulator;

the insulation fastening mechanism is arranged between the swing rod connecting piece and the first connecting body and used for connecting the first connecting body, the swing rod insulator and the swing rod connecting piece into a whole;

the conductive assembly is in lap joint with the swing rod connecting piece and is used for being communicated with the electric conduction.

The electrophoresis sledge body further comprises:

and the framework insulator is arranged between the swing rod connecting piece and the sledge framework.

The support assembly, comprising:

the second connecting body is arranged on the sledge body framework;

a support insulator disposed at the second connection body;

a first support body provided on the support insulator;

the insulating fastening mechanism is arranged between the second connecting body and the first supporting body and is used for connecting the second connecting body, the supporting insulator and the first supporting body into a whole;

the conductive assembly is in lap joint with the first support body and is used for being communicated and conducting electricity.

The insulating fastening mechanism includes:

a bolt;

the insulating sleeve is arranged on the outer side of the bolt;

and the flat gasket is arranged between the bolt cap of the bolt and the insulating sleeve.

The conductive assembly, comprising:

a first electrical conductor;

at least 2 second conductors, one end of each second conductor is detachably connected with the corresponding first conductor;

at least 2 third conductors, one end of each third conductor is detachably connected with the first conductor;

the other end of the second conductor is in lap joint with a swing rod connecting piece in the swing rod hoisting point component;

the other end of the third conductor is in lap joint with a first support body in the sledge body support assembly;

the first conductor, the second conductor, and the third conductor constitute a conductor assembly.

The second electrical conductor comprising:

a first L-shaped body;

the extension part is arranged at the end part of the horizontal section of the first L-shaped body and is used for being lapped with a swing rod connecting piece in the swing rod hanging point component;

one end of the vertical section of the first L-shaped body is provided with a through hole used for being connected with the first conductor.

The third electrical conductor comprising:

a second L-shaped body;

one end of the vertical section of the second L-shaped body is provided with a through hole for connecting with the first conductor;

the inner side of the horizontal section of the second L-shaped body overlaps the first support in the sled support assembly.

The first electric conductor is a strip-shaped piece;

the first conductor is provided with a connecting hole connected with the second conductor and the third conductor. Swing rod suspension point assembly, swing rod suspension point assembly and swing rod suspension point assembly

The utility model discloses following beneficial effect has at least:

the electrophoresis sledge body is symmetrically arranged at the two sides of the sledge body framework along the moving direction of the electrophoresis sledge body by the swing rod hoisting point component, and symmetrically arranged at the two sides of the sledge body framework along the moving direction of the electrophoresis sledge body by the sledge body supporting component, the insulation structures on the swing rod hoisting point component and the sledge body supporting component and the sledge body framework are all insulated and connected, and then the swing rod hoisting point component, the sledge body supporting component and the sledge body supporting component are simultaneously connected by the conductive component, so that the automobile body-in-white mounted on the swing rod hoisting point component, the sledge body supporting component and the swing rod hoisting point component and the sledge body supporting component become conductors, and no current passes through the sledge body framework; the utility model has no electricity on the sledge body framework, and electrophoresis paint can not be carried out, thereby solving the problem of electrophoresis paint skidding, and the electrophoresis sledge body does not need to be cleaned frequently and the electrophoresis paint of equipment behind the electrophoresis swing rod does not need to be cleaned; use the utility model discloses afterwards, the electrophoresis sledge body cleaning work volume and the equipment maintenance work volume in the application workshop that can significantly reduce can reduce the consumption of electrophoresis lacquer and the washing frequency of later stage electrophoresis sledge body, energy saving and consumption reduction environmental pollution.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view at E in FIG. 1;

FIG. 3 is a schematic view of the first L-shaped body of FIG. 2;

FIG. 4 is an exploded view at F in FIG. 1;

fig. 5 is a schematic view of the second L-shaped body in fig. 4.

Detailed Description

Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into multiple sub-modules.

Specific example I:

the utility model provides an embodiment:

as shown in fig. 1, an electrophoresis sled comprises: the device comprises a sledge body framework 1, at least 2 swing rod hoisting point assemblies 2, at least 2 sledge body supporting assemblies 3 and a conductive assembly 4; the swing rod hoisting point assemblies 2 are symmetrically arranged on two sides of the sledge body framework 1 along the moving direction of the electrophoresis sledge body and are close to two ends of the sledge body framework 1; the sledge body supporting assemblies 3 are symmetrically arranged on two sides of the sledge body framework 1 along the moving direction of the electrophoresis sledge body and are close to the middle part of the sledge body framework 1; the conductive component 4 is connected with the swing rod hoisting point component 2 and the sledge body supporting component 3 at the same time and is used for electrically conducting the swing rod hoisting point component 2 and the sledge body supporting component 3; pendulum rod hoisting point subassembly 2 and sledge body supporting component 3 with equal insulating connection between the sledge body skeleton 1 makes sledge body skeleton 1 with sledge body supporting component 3 and pendulum rod hoisting point subassembly 2 are insulating to be kept apart, prevents sledge body skeleton 1 electrophoresis sizing.

Specifically, as shown in fig. 2-3, the swing link suspension point assembly 2 includes: the device comprises a first connecting body 201, a swing rod insulator 202, a swing rod connecting piece 203, a framework insulator 204 and an insulation fastening mechanism; wherein, the first connecting body 201 is welded on the sledge body framework 1; a rocker insulator 202 is placed above the first connecting body 201; a rocker link 203 is placed above the rocker insulator 202; the insulation fastening mechanism is arranged between the swing rod connecting piece 203 and the first connecting body 201 and is used for connecting the first connecting body 201, the swing rod insulator 202 and the swing rod connecting piece 203 into a whole; the conductive component 4 is lapped with the swing rod connecting piece 203 and is used for communicating and conducting electricity; preferably, a framework insulator 204 is arranged between the swing link connector 203 and the sledge framework 1; preferably, the framework insulator 204 is connected between the swing rod connector 203 and the sledge framework 1 through bolts, so that the sledge framework 1 can be insulated in the vertical direction, and the reliability is improved;

preferably, the shape of the oscillating bar insulator 202 is matched with the shape of the first connecting body 201, so that the insulating effect can be improved;

preferably, the swing link connector 203 has a larger outer dimension than the swing link insulator 202 to form a protrusion portion opposite to the swing link insulator 202; the protruding part can be conveniently lapped with the conductive component 4;

as shown in fig. 4, the support assembly 3 includes: a second connecting body 301, a support insulator 302, a first support body 303, and an insulating fastening mechanism; the second connecting body 301 is welded on the sledge body framework 1; a support insulator 302 is placed above the second connecting body 301; a first support 303 is placed above the support insulator 302; an insulating fastening mechanism is arranged between the second connecting body 301 and the first supporting body 303, and is used for connecting the second connecting body 301, the supporting insulator 302 and the first supporting body 303 into a whole; the conductive component 4 is lapped with the first support 303 and used for conducting electricity.

Preferably, the shape of the supporting insulator 302 matches the shape of the second connector 301, so that the insulating effect can be improved;

in the above embodiment, the insulating fastening mechanisms used in the pendulum suspension point assembly 2 and the support assembly 3 have the same structure, and the pendulum suspension point assembly 2 is now exemplified:

the insulation fastening mechanism, as shown in fig. 2, includes: a bolt 2A, an insulating sleeve 2B and a flat gasket 2C; wherein, the insulating sleeve 2B is arranged at the outer side of the bolt 2A; a flat pad 2C is provided between the cap of the bolt 2A and the insulating sleeve 2B for preventing abrasion of the insulating sleeve 2B; preferably, the insulating sleeve 2B is a hollow T-shaped piece; the insulating sleeve 2B is matched and penetrated into a hole arranged on the first connecting body 201 and/or the swing rod connecting piece (203); the hollow part of the insulating sleeve 2B is matched with the bolt 2A; a flat washer 2C is provided between the cap portion of the bolt 2A and the horizontal section of the insulating bush 2B.

As shown in fig. 2-5, the conductive member 4 includes: a first electrical conductor 401, at least 2 second electrical conductors 402 and at least 2 third electrical conductors 403; wherein, one end of the second conductor 402 is detachably connected with the first conductor 401; one end of the third conductor 403 is detachably connected to the first conductor 401; the other end of the second conductor 402 is overlapped with the swing link connector 203 in the swing link suspension point component 2; the other end of the third conductor 403 overlaps the first support 303 in the sled support assembly 3; the first conductor 401, the second conductor 402, and the third conductor 403 constitute one conductor.

Preferably, as shown in fig. 5, the second conductive body 402 includes: a first L-shaped body 4021 and an extension 4022; an extension 4022 is arranged at the end of the horizontal section of the first L-shaped body 4021 and is used for overlapping with a protruding part in the swing rod connecting piece 203; preferably, one end of the vertical section of the first L-shaped body 4021 is provided with a through hole 4021A for connecting with the first conductor 401.

Preferably, the third conductive member 403 includes: a second L-shaped body 4031; one end of the vertical section of the second L-shaped body 4031 is provided with a through hole 4031A for connecting with the first conductor 401; the inside of the horizontal segment of the second L-shaped body 4031 overlaps the first support 303 in the sled support assembly 3.

Preferably, the first conductor 401 is a strip-shaped member; the first conductor 401 is provided with a connection hole connected to the second conductor 402 and the third conductor 403.

It should be noted that: other techniques not described herein are prior art.

The above disclosure is only a few specific implementation scenarios of the present invention, however, the present invention is not limited thereto, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention. The sequence numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the implementation scenario.

Claims (9)

1. An electrophoresis sled, comprising:

a sledge body framework;

at least 2 swing rod hoisting point assemblies symmetrically arranged at two sides of the sledge body framework along the moving direction of the electrophoresis sledge body and close to two ends of the sledge body framework;

the electrophoresis sledge body supporting assemblies are symmetrically arranged on two sides of the sledge body framework along the moving direction of the electrophoresis sledge body and are close to the middle part of the sledge body framework;

the conductive assembly is simultaneously connected with the swing rod hoisting point assembly and the sledge body supporting assembly and is used for electrically conducting the swing rod hoisting point assembly and the sledge body supporting assembly;

the swing rod hoisting point assembly and the sledge body supporting assembly are in insulation connection with the sledge body framework.

2. The electrophoresis sled of claim 1 wherein the pendulum suspension point assembly comprises:

the first connecting body is arranged on the sledge body framework;

a swing rod insulator disposed on the first connection body;

the swing rod connecting piece is arranged on the swing rod insulator;

the insulation fastening mechanism is arranged between the swing rod connecting piece and the first connecting body and used for connecting the first connecting body, the swing rod insulator and the swing rod connecting piece into a whole;

the conductive assembly is in lap joint with the swing rod connecting piece and is used for being communicated with the electric conduction.

3. The electrophoresis sled of claim 2, further comprising:

and the framework insulator is arranged between the swing rod connecting piece and the sledge framework.

4. The electrophoresis sled of claim 1 wherein the support assembly comprises:

the second connecting body is arranged on the sledge body framework;

a support insulator disposed at the second connection body;

a first support body provided on the support insulator;

the insulating fastening mechanism is arranged between the second connecting body and the first supporting body and is used for connecting the second connecting body, the supporting insulator and the first supporting body into a whole;

the conductive assembly is in lap joint with the first support body and is used for being communicated and conducting electricity.

5. Electrophoresis sled body according to claim 2 or 4 wherein the insulating fastening means comprises:

a bolt;

the insulating sleeve is arranged on the outer side of the bolt;

and the flat gasket is arranged between the bolt cap of the bolt and the insulating sleeve.

6. The electrophoresis sled of claim 1, wherein the conductive assembly comprises:

a first electrical conductor;

at least 2 second conductors having one end detachably connected to the first conductor;

at least 2 third conductors, one end of each third conductor is detachably connected with the first conductor;

the other end of the second conductor is in lap joint with a swing rod connecting piece in the swing rod hoisting point component;

the other end of the third conductor is in lap joint with a first support body in the sledge body support assembly;

the first conductor, the second conductor, and the third conductor constitute a conductor assembly.

7. The electrophoresis sled of claim 6, wherein the second electrical conductor comprises:

a first L-shaped body;

the extension part is arranged at the end part of the horizontal section of the first L-shaped body and is used for being lapped with a swing rod connecting piece in the swing rod hanging point component;

and one end of the vertical section of the first L-shaped body is provided with a through hole for connecting with the first conductor.

8. The electrophoresis sled of claim 6, wherein the third electrical conductor comprises:

a second L-shaped body;

one end of the vertical section of the second L-shaped body is provided with a through hole for connecting with the first conductor;

the inner side of the horizontal section of the second L-shaped body overlaps the first support in the sled support assembly.

9. The electrophoresis sled body of claim 6, wherein:

the first electric conductor is a strip-shaped piece;

the first conductor is provided with a connecting hole connected with the second conductor and the third conductor.

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