CN219636266U - OBC is tilting mechanism for assembly - Google Patents

Abstract

The utility model discloses an OBC assembling turnover mechanism, which comprises a mounting mechanism and a rotating mechanism, wherein the mounting mechanism is arranged on the rotating mechanism; the mounting mechanism is connected with the product in a matched manner to fix the product; the rotating mechanism is connected with the mounting mechanism in a matched mode, and the manually operated rotating mechanism can drive the mounting mechanism to rotate in the front direction and vertically overturn. This scheme sets up tilting mechanism and the tight locking mechanism of location through cooperating on OBC assembly structure, can realize that OBC assembly structure locks to tilting mechanism in, carries out positive rotation and the upset of vertical direction through tilting mechanism, replaces artifical upset, can improve the efficiency of OBC assembly greatly.

Description

OBC is tilting mechanism for assembly

Technical Field

The utility model relates to the technical field of machine manufacturing, in particular to a turnover mechanism for OBC assembly.

Background

The vehicle-mounted charger (OBC) of the electric automobile is fixedly arranged on the electric automobile, has the capability of safely and automatically fully charging a power battery of the electric automobile, can dynamically adjust charging current or voltage parameters according to data provided by a Battery Management System (BMS), and executes corresponding actions to complete a charging process.

Many of the existing OBC assembly stations are assembled after being overturned, and are overturned by workers in a pure manual mode, and because the OBC products are large and heavy, the OBC assembly stations are inconvenient for the workers to overturned in the pure manual mode, have great labor intensity and are extremely tired, and are extremely dangerous, so that the production efficiency and quality of the OBC assembly are greatly reduced.

It can be seen how to improve the OBC assembly efficiency is a problem to be solved in the art.

Disclosure of Invention

Aiming at the technical problem of low OBC assembly efficiency, the utility model aims to provide the turnover mechanism for OBC assembly, after the turnover mechanism is used, the turnover mechanism can replace manual turnover, so that the OBC assembly efficiency can be greatly improved, and the problems in the prior art are well overcome.

In order to achieve the above purpose, the utility model provides an OBC assembling turnover mechanism, which comprises an installation mechanism and a rotation mechanism; the mounting mechanism is connected with the product in a matched manner to fix the product; the rotating mechanism is connected with the mounting mechanism in a matched mode, and the manually operated rotating mechanism can drive the mounting mechanism to rotate in the front direction and vertically overturn.

Further, the mounting mechanism comprises a base and a clamp; the upper end face of the clamp is provided with a groove for placing a product; the base is arranged at the bottom of the clamp and is connected with the rotating mechanism in a matched mode.

Further, positioning holes for positioning connection with the base are distributed on two sides of the clamp; the base is provided with a locating pin corresponding to the locating hole of the clamp, and the locating pin of the base can be matched and connected with the locating hole of the clamp, so that the clamp is arranged above the base and matched and connected with the base.

Further, the other two sides of the clamp are provided with buckles for fixing products inside the clamp in a distributed mode and are connected with the base.

Further, both sides of the base are provided with sliding grooves and are connected with the rotating mechanism in a matched mode.

Further, the turnover mechanism comprises a bottom plate and a turnover assembly, wherein the turnover assembly is arranged on the bottom plate, and the bottom plate can be driven to vertically turn over and rotate in the front direction relative to the ground through the turnover assembly.

Further, slide rails matched with the base slide grooves are arranged on two sides of the bottom plate.

Further, the bottom plate is provided with universal balls which are matched with the bottom of the clamp.

Further, a locking cylinder is arranged on the bottom plate, and after the clamp slides onto the bottom plate, the locking cylinder stretches out and props against the base, so that a locking pin on the base is jacked into a positioning hole of the clamp.

Further, the turnover assembly is arranged below the base, and the rotation assembly comprises a bracket, a first handle, a second handle, a first rotation shaft, a second rotation shaft and a rotation plate;

one end of the first rotating shaft is vertically connected relative to the rotating plate, the other end of the first rotating shaft is connected with the bracket, and the first handle is arranged on the rotating plate; the rotary plate can rotate in front relative to the bracket through a first rotary shaft;

the second rotating shaft is horizontally arranged on the bracket relative to the rotating plate and is connected with the rotating plate through a connecting piece, and the second handles are arranged at two ends of the second rotating shaft; the rotating plate can rotate in the vertical direction relative to the bracket through the second rotating shaft.

According to the turnover mechanism for OBC assembly, the turnover mechanism and the positioning locking mechanism are matched on the OBC assembly structure, so that the OBC assembly structure can be locked into the turnover mechanism, the turnover mechanism can rotate in the front and overturn in the vertical direction, manual turnover is replaced, and the OBC assembly efficiency can be greatly improved.

Drawings

The utility model is further described below with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the whole structure of the turnover mechanism for OBC assembly;

FIG. 2 is a schematic view of a mounting mechanism of the present OBC assembly tilting mechanism;

FIG. 3 is a side view of the mounting mechanism of the present OBC assembly flip mechanism;

fig. 4 is a schematic diagram of a rotating mechanism of the turning mechanism for the OBC assembly;

fig. 5 is a schematic view showing a state in which the turnover mechanism for the OBC assembly horizontally rotates;

FIG. 6 is a schematic diagram of a horizontal rotation structure of the turnover mechanism for OBC assembly;

fig. 7 is a schematic diagram showing a state in which the present turning mechanism for OBC assembly is turned vertically;

fig. 8 is a schematic diagram of a vertical overturning structure of the overturning mechanism for OBC assembly.

The following is a description of the components in the drawings:

100. mounting mechanism 200, rotation mechanism 110, clamp 111, locating hole 112, snap 120, base 121, locating pin 122, chute 210, base plate 211, slide rail 212, retainer plate 213, universal ball 220, flip assembly 221, rotation plate 222, first handle 223, first rotation shaft 224, rotation bearing 225, bearing lock nut 226, second handle 227, second rotation shaft 228, rotation bearing 229, bracket.

Detailed Description

The utility model is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the utility model easy to understand.

Aiming at the technical problem of low assembly efficiency of the existing OBC, the technical problem is based on, and the scheme provides the turnover mechanism for the OBC assembly, which is matched with the turnover mechanism and the positioning locking mechanism on the OBC assembly structure, so that the OBC assembly structure can be locked into the turnover mechanism tightly, and the turnover mechanism can rotate positively and overturn in the vertical direction to replace manual turnover, thereby greatly improving the efficiency of the OBC assembly.

The tilting mechanism is used in OBC assembly that this scheme provided, its cooperation OBC assembly structure cooperation is used, see FIG. 1, and tilting mechanism is used in OBC assembly in this scheme includes installation mechanism 100 and slewing mechanism 200.

Further, referring to fig. 2, the mounting mechanism 100 includes a base 120 and a clamp 110.

The upper end face of the clamp 110 is provided with a groove for placing a product, and the product is embedded in the groove for placement.

Positioning holes 111 are distributed on two sides of the clamp 110 and are used for being matched and connected with the base 120, so that the clamp 110 and the base 120 can be positioned and connected.

Referring to fig. 3, the other two sides of the clamp 110 are distributed with the buckles 112 and connected with the base 120, and products inside the clamp 110 can be fixed through the buckles 112, so that the clamp 110 can be stably arranged inside the groove.

The base 120 is disposed at the bottom of the clamp 110, and is provided with a positioning pin 121 corresponding to the positioning hole 111 of the clamp 110, and the clamp 110 can be disposed above the base 120 and connected with the base 120 in a matching manner through the positioning pin 121 of the base 120 and the positioning hole 111 of the clamp 110.

The sliding grooves 122 are arranged on two sides of the base 120 and are used for being matched and connected with the rotating mechanism 200, so that a product needing to be turned over can be slid onto the rotating mechanism 200 together with the clamp 110.

Referring to fig. 4, the rotation mechanism 200 includes a base plate 210 and a turnover assembly 220, wherein the turnover assembly 220 is disposed on the base plate 210, and the base plate 210 can be driven to vertically turn and rotate in front with respect to the ground by the turnover assembly 220.

Slide rails 211 matched with the base sliding grooves 122 are arranged on two sides of the bottom plate 210, and the slide rails can be matched with the sliding grooves 122 on the base to realize horizontal axial movement of the clamp 110 relative to the bottom plate 210.

Meanwhile, in order to further facilitate the pulling in and out of the clamp 110, the bottom plate 210 is provided with the universal balls 213 and is matched with the bottom of the clamp 110, so that the friction between the bottom of the clamp 110 and the bottom plate 210 is changed into the friction between the clamp and the universal balls 213, and the friction force when the clamp 110 is pulled is greatly reduced.

Secondly, a limit plate 212 is arranged on the slide rail 211 at two sides of the bottom plate 210, and can be matched and connected with the clamp 110 to limit the clamp 110.

The bottom plate 210 is provided with a locking cylinder 2232, when the clamp 110 slides onto the bottom plate 210, the locking cylinder 2232 extends out and props against the base 120, and the positioning pin 121 on the base 120 is propped into the positioning hole 111 of the clamp until the clamp 110 is matched and connected with the limiting plate 212, and then the end face of the clamp 110 is matched with the end face of the clamp 110 through the limiting plate 212 to press and limit the clamp 110.

The tilting assembly includes a bracket 290, a first handle 222, a second handle 226, a first rotation shaft 223, a second rotation shaft 227, and a rotation plate 221.

Referring to fig. 5, one end of the first rotation shaft 223 is vertically connected to the rotation plate 221 through a rotation bearing 224, the other end is connected to the shaft sleeve through the rotation bearing 224, and is connected to the bracket 290 in cooperation with a bearing lock nut 225, and the first handle 222 is disposed on the rotation plate 221.

By operating the first handle 222 to rotate clockwise or counterclockwise, the drivable rotation plate 221 can rotate positively with respect to the bracket 290 through the first rotation shaft 223.

The worker rotates the jig clockwise or counterclockwise by rotating the first handle 222 in the front direction about the rotation center in fig. 6.

Referring to fig. 7, the second rotation shaft 227 is horizontally disposed on a bracket 229 with respect to the rotation plate 221, and both ends are coupled to a shaft housing 228 through rotation bearings, the shaft housing being coupled to the bracket 229; meanwhile, the second rotation shaft 227 is connected to the rotation plate 221 through a connection member, and the second handle 226 is provided at both ends of the second rotation shaft 227.

When the user needs to vertically turn over, the user operates the second handle 226 to rotate upwards or downwards, and drives the rotating plate 221 to rotate vertically relative to the bracket 229 through the second rotating shaft 227.

When the worker turns vertically, he holds the second handle 226 and presses it downward, and the jig turns downward with respect to the rotation center in fig. 7.

According to the turnover mechanism for OBC assembly, which is formed by the scheme, the turnover mechanism and the positioning locking mechanism are matched on the OBC assembly structure, so that the OBC assembly structure can be locked into the turnover mechanism, and the turnover mechanism can rotate positively and turn vertically, so that manual turnover is replaced, and the production efficiency, quality and safety and reliability of the OBC product turnover assembly are improved remarkably.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The turnover mechanism for OBC assembly is characterized by comprising an installation mechanism and a rotating mechanism; the mounting mechanism is connected with the product in a matched manner to fix the product; the rotating mechanism is connected with the mounting mechanism in a matched mode, and the manual operation rotating mechanism can drive the mounting mechanism to rotate in the front and vertically overturn.

2. The flip-flop mechanism for the assembly of an OBC of claim 1, wherein said mounting mechanism comprises a base and a clamp; the upper end face of the clamp is provided with a groove for placing a product; the base is arranged at the bottom of the clamp and is connected with the rotating mechanism in a matched mode.

3. The turnover mechanism for OBC assembly of claim 2, wherein positioning holes for positioning connection with the base are distributed on two sides of the clamp; the base is provided with a locating pin corresponding to the locating hole of the clamp, and the locating pin of the base can be matched and connected with the locating hole of the clamp, so that the clamp is arranged above the base and matched and connected with the base.

4. The turnover mechanism for OBC assembly of claim 2, wherein the other two sides of the clamp are provided with buckles for fixing the product inside the clamp and are connected with the base.

5. The turnover mechanism for OBC assembly of claim 2, wherein both sides of the base are provided with sliding grooves and are connected with the rotating mechanism in a matching way.

6. The turnover mechanism for assembling the OBC of claim 1, wherein the turnover mechanism comprises a bottom plate and a turnover assembly, the turnover assembly is arranged on the bottom plate, and the bottom plate can be driven to vertically turn and rotate in the front direction relative to the ground through the turnover assembly.

7. The turnover mechanism for assembling an OBC according to claim 6, wherein two sides of said bottom plate are provided with slide rails adapted to the slide grooves of the base.

8. The turnover mechanism for assembling of an OBC of claim 6, wherein said base plate is provided with universal balls and is engaged with the bottom of the jig.

9. The turnover mechanism for assembling of an OBC according to claim 6, wherein the base plate is provided with a locking cylinder, and the locking cylinder extends out and abuts against the base plate after the clamp slides onto the base plate, and the locking pin on the base plate is pushed into the positioning hole of the clamp.

10. The flip mechanism for assembling an OBC according to claim 6, wherein said flip assembly is disposed below the base, said flip assembly comprising a bracket, a first handle, a second handle, a first rotation shaft, a second rotation shaft, and a rotation plate;

one end of the first rotating shaft is vertically connected relative to the rotating plate, the other end of the first rotating shaft is connected with the bracket, and the first handle is arranged on the rotating plate; the rotary plate can rotate in front relative to the bracket through a first rotary shaft;

the second rotating shaft is horizontally arranged on the bracket relative to the rotating plate and is connected with the rotating plate through a connecting piece, and the second handles are arranged at two ends of the second rotating shaft; the rotating plate can rotate in the vertical direction relative to the bracket through the second rotating shaft.