CN203545104U - Electric vehicle turnover device and electric vehicle production line - Google Patents

Abstract

The utility model provides an electric vehicle turnover device and an electric vehicle production line. The electric vehicle turnover device can turn over an electric vehicle for 180 degrees and comprises a guide rail, a lifting part and a clamping part, wherein the guide rail is an end-to-end closed guide rail; the lifting part is arranged on the guide rail, can lift up or lower down the electric vehicle while cyclically moving along the guide rail, can lift up a front wheel of the electric vehicle while moving when the lifting part moves to a set point of the guide rail and can lower down the electric vehicle while moving after the lifting part moves set distance; the clamping part is arranged on a datum plane and can clamp a rear wheel of the electric vehicle when the rear wheel of the electric vehicle is in contact with the datum plane after the lifting part lowers down the electric vehicle. The electric vehicle turnover device provided by the utility model can put the electric vehicle on the main production line in a forward direction after the inverted electric vehicle is turned over for 180 degrees, the mechanical and automatic turnover of the electric vehicle is realized, the labor intensity of workers is reduced and the production efficiency of the electric vehicle production line is improved.

Description

Battery-driven car turning device and battery-driven car flow production line

Technical field

The utility model relates to battery-driven car production field, in particular to a kind of battery-driven car turning device and the battery-driven car flow production line that comprises this battery-driven car turning device.

Background technology

Conventionally the assembling of the integral body of battery-driven car needs to rely on the flow production line that is provided with operation position to complete.According to car load assembly technology flow process, first, electromobile frame is upside down on the special cart frame of conveyor line initiating terminal or the auxiliary branch line of conveyor line, to be installed preparing after front and rear wheel, must rely on artificial (needing 2 people) that semi-finished electromobile frame 180 degree are turned on main flow waterline, could continue all the other parts of assembling.Because artificial upset labour intensity is large, inefficiency, wastes time and energy, dangerous, very easily damages again product and equipment, greatly perplexs the quality of battery-driven car assembly line, production efficiency and product for this reason.

Utility model content

The utility model is intended at least solve one of technical matters existing in prior art.

For this reason, an object of the present utility model is, a kind of battery-driven car turning device of realizing mechanical automation upset battery-driven car is provided, and improved the production efficiency of battery-driven car and guaranteed the quality of product.

Another object of the present utility model is to provide a kind of battery-driven car flow production line that comprises this battery-driven car turning device.

For achieving the above object, the embodiment of an aspect of the utility model provides a kind of battery-driven car turning device, battery-driven car can be carried out to 180 degree upsets, comprising: guide rail; Lifting part, described lifting part is arranged on described guide rail, and described in can edge, rail circulation moves that sling in limit or described battery-driven car is transferred on limit, sling while moving when described lifting part moves to the set point of a described guide rail wheel of described battery-driven car, mobile setpoint distance back is moved limit and is transferred described battery-driven car; And clamping part, described clamping part is arranged on a reference plane, and can transfer described battery-driven car in described lifting part and when another wheel of described battery-driven car contacts with described reference plane, clamp described another wheel of described battery-driven car.

The battery-driven car turning device that the utility model above-described embodiment provides, lifting part edge guide rail moves limit a wheel that is upside down in the battery-driven car on placement dolly is sling, and now battery-driven car becomes from inversion state the state of vertically slinging, and has completed 90 degree upsets; Lifting part moves after setpoint distance, limit is continued to move limit along guide rail and is started to transfer battery-driven car, when another wheel of battery-driven car contacts with reference plane, clamping part clamps another wheel of battery-driven car, then lifting part continues edge guide rail and moves limit and continue to transfer battery-driven car, until a wheel of battery-driven car contacts with reference plane, now battery-driven car becomes forward from the state of vertically slinging and is placed on reference plane, has completed again 90 degree upsets.Battery-driven car turning device is by carrying out battery-driven car twice 90 upsets, 180 degree upsets of battery-driven car have been realized, make battery-driven car become from inversion state the state that forward is placed, by using battery-driven car turning device, realize mechanization automatic turning battery-driven car, replaced the process of artificial upset battery-driven car, reduced workman's labour intensity, mechanical automation switching process has improved the production efficiency of battery-driven car, and the product design of battery-driven car is guaranteed.

In addition, the battery-driven car turning device providing according to the utility model above-described embodiment also has following additional technical feature:

According to an embodiment of the present utility model, described guide rail is end to end dead front type guide rail; A described wheel is front-wheel, and described another wheel is trailing wheel.

According to an embodiment of the present utility model, described battery-driven car turning device also comprises function unit, and described function unit can be controlled the work of described lifting part and described clamping part.

According to an embodiment of the present utility model, described battery-driven car turning device also comprises proximity transducer, described proximity transducer is arranged on described reference plane, when the trailing wheel of described battery-driven car contacts with described reference plane, described proximity transducer can detect the trailing wheel of described battery-driven car, and can be passed to described function unit by signal being detected, described function unit is controlled the trailing wheel that described clamping part clamps described battery-driven car.

According to an embodiment of the present utility model, described clamping part comprises: clamping piece, and described clamping piece can clamp the trailing wheel of described battery-driven car; And drive element, described function unit and described drive element are connected to control the work of described drive element, and described drive element can drive described clamping piece to move to clamp the trailing wheel of described battery-driven car.

According to an embodiment of the present utility model, described guide rail is provided with roller chain, and described lifting part is provided with the sprocket wheel that can be meshed with described roller chain, and described roller chain moves on described guide rail by lifting part described in described chain wheel drive.

According to an embodiment of the present utility model, described lifting part comprises at least one electric block, and a plurality of described electric blocks are distributed on described dead front type guide rail, and described electric block is provided with suspension hook to described battery-driven car is sling.

According to an embodiment of the present utility model, on described electric block, be also provided with the conduction planker moving with described electric block, described guide rail is provided with conductive trough, and described conduction planker is connected with described conductive trough, with by the current lead-through in described conductive trough to described electric block.

According to an embodiment of the present utility model, described guide rail is oval guide rail, and described conductive trough is the oval conductive trough corresponding with described oval guide rail.

The embodiment of another aspect of the utility model provides a kind of battery-driven car flow production line, comprising: main flow production line; Auxiliary flow production line, is provided with in described auxiliary flow production line and can supports the placement dolly of being inverted battery-driven car; With battery-driven car turning device, described battery-driven car turning device is the battery-driven car turning device described in above-mentioned arbitrary embodiment, and described battery-driven car turning device can be placed into forward after being upside down in described battery-driven car on described placement dolly and turning over turnback in described main flow production line.

The utility model above-described embodiment provides battery-driven car flow production line, comprise main flow production line, auxiliary flow production line and battery-driven car turning device, battery-driven car turning device carries out 180 degree upsets by inverted battery-driven car in auxiliary flow production line, then forward is placed in main flow production line, use battery-driven car turning device to carry out 180 degree upsets to inverted battery-driven car, the shortcoming such as the production efficiency of having avoided artificial upset battery-driven car to cause is low, product is fragile, has improved the production efficiency of battery-driven car flow production line.

Additional aspect of the present utility model and advantage will become in description part below obviously, or recognize by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination obviously and is easily understood becoming the description of embodiment, wherein:

Fig. 1 is upside down according to the battery-driven car described in embodiment of the utility model the structural representation of placing on dolly;

Fig. 2 is according to the guide rail of battery-driven car turning device and the annexation schematic diagram of electric block described in embodiment of the utility model;

Fig. 3 is the connection structure schematic diagram of the guide rail shown in Fig. 2 and conductive trough and electric block;

Fig. 4 to Fig. 7 is that the battery-driven car turning device providing with the utility model one embodiment carries out four kinds of view in 180 degree switching processes by battery-driven car, and wherein, Fig. 4 is the schematic diagram of electric block when front wheel of electric motorcar is sling; Fig. 5 be electric block by battery-driven car transfer to trailing wheel contact with main flow production line, the schematic diagram of clamping part when trailing wheel is clamped; Fig. 6 clamps under the prerequisite of rear wheels of electric vehicle at clamping part, and electric block continues edge guide rail and moves the schematic diagram of limit while transferring battery-driven car; Fig. 7 electric block is transferred the schematic diagram while contacting with main flow production line to front-wheel by battery-driven car.

Wherein, in Fig. 1 to Fig. 7, the corresponding relation between Reference numeral and component names is:

1 guide rail, 11 conductive troughs, 2 electric blocks, 21 suspension hooks, 22 conduction plankers, 3 battery-driven cars,

31 front-wheels, 32 trailing wheels, 41 oil cylinders, 42 clamping pieces, 5 main flow production lines,

6 auxiliary flow production lines, 61 place dolly

The specific embodiment

In order more clearly to understand above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the drawings and specific embodiments, the utility model is further described in detail.It should be noted that, in the situation that not conflicting, the application's embodiment and the feature in embodiment can combine mutually.

A lot of details have been set forth in the following description so that fully understand the utility model; but; the utility model can also adopt other to be different from mode described here and implement, and therefore, protection domain of the present utility model is not subject to the restriction of following public specific embodiment.

Describe with reference to the accompanying drawings according to the battery-driven car turning device described in the utility model embodiment.

As shown in Fig. 2, Fig. 3 and Fig. 5, the battery-driven car turning device providing according to the embodiment of an aspect of the utility model, can carry out battery-driven car 180 degree upsets, comprising: guide rail 1, lifting part and clamping part.

Wherein, as shown in Figure 2, described guide rail 1 is end to end dead front type guide rail;

As shown in Figure 2, described lifting part is arranged on described guide rail 1, and described in can edge, sling or described battery-driven car is transferred on limit in guide rail 1 loopy moving limit, sling while moving when described lifting part moves to the set point of described guide rail 1 front-wheel of described battery-driven car, mobile setpoint distance back is moved limit and is transferred described battery-driven car;

As shown in Figure 5, described clamping part is arranged on a reference plane, and can transfer described battery-driven car 3 in described lifting part and when the trailing wheel 32 of described battery-driven car contacts with described reference plane, clamp the trailing wheel 32 of described battery-driven car 3.

The battery-driven car turning device that the utility model above-described embodiment provides, lifting part edge guide rail 1 moves limit the front-wheel 31 that is upside down in the battery-driven car 3 on placement dolly 61 is sling, now battery-driven car 3 is become and is vertically sling state (as shown in Figure 4 from inversion state (as shown in Figure 1), in figure, arrow represents the moving direction of battery-driven car 3), completed 90 degree upsets, lifting part moves to be set after setpoint distance, limit is continued to move limit along guide rail 1 and is started to transfer battery-driven car 3, when the trailing wheel 32 of battery-driven car 3 contacts with reference plane (as shown in Figure 5, in figure, arrow represents the moving direction of battery-driven car 3), clamping part clamps the trailing wheel of battery-driven car 3 32, then lifting part continues edge guide rail 1 and moves limit and continue to transfer battery-driven car 3(as shown in Figure 6), until the front-wheel 31 of battery-driven car 3 contacts (as shown in Figure 7) with reference plane, now battery-driven car becomes forward from the state of vertically slinging (as shown in Figure 4) and is placed on (as shown in Figure 7) on reference plane, 90 degree upsets have been completed again.Battery-driven car turning device is by carrying out battery-driven car twice 90 upsets, 180 degree upsets of battery-driven car have been realized, make battery-driven car become from inversion state the state that forward is placed, by using battery-driven car turning device, realize mechanization automatic turning battery-driven car, replaced the process of artificial upset battery-driven car, reduced workman's labour intensity, mechanical automation switching process has improved the production efficiency of battery-driven car, and the product design of battery-driven car is guaranteed.

In above-described embodiment of the present utility model, battery-driven car turning device has completed battery-driven car 180 degree upsets by the front-wheel of the battery-driven car of slinging, can certainly be by the trailing wheel of the battery-driven car of slinging, realize 180 degree upsets of battery-driven car, this process and lifting front-wheel complete the similar process of upset, specific as follows: lifting part edge guide rail moves limit the trailing wheel that is upside down in the battery-driven car on placement dolly is sling, and now battery-driven car becomes from inversion state the state of vertically slinging, completed 90 degree upsets; Lifting part moves after setpoint distance, limit is continued to move limit along guide rail and is started to transfer battery-driven car, when the front-wheel of battery-driven car contacts with reference plane, clamping part clamps the front-wheel of battery-driven car, then lifting part continues edge guide rail and moves limit and continue to transfer battery-driven car, until the trailing wheel of battery-driven car contacts with reference plane, now battery-driven car becomes forward from the state of vertically slinging and is placed on reference plane, 90 degree upsets have been completed again, now battery-driven car has carried out twice 90 degree upsets altogether, has realized 180 degree upsets of battery-driven car.

In the above-described embodiments, as shown in Figure 2, guide rail 1 is end to end dead front type guide rail, certainly guide rail can not seal yet, lifting part can move back and forth on guide rail, lifting part from one end to the other side completes lifting and the upset of battery-driven car in mobile process on guide rail, and then lifting part is returned to one end of guide rail from the other end of guide rail, and repeats the process of lifting and upset battery-driven car.

According to an embodiment of the present utility model, described battery-driven car turning device also comprises function unit, and described function unit can be controlled the work of described lifting part and described clamping part.

Function unit is controlled lifting part at sling battery-driven car start to transfer battery-driven car at set point of set point, and when the trailing wheel of battery-driven car contact with reference plane, function unit control clamping part work is so that by the trailing wheel clamping of battery-driven car.The setting of function unit, has realized automation upset battery-driven car, has improved the production efficiency of battery-driven car.

Further, preferably, described battery-driven car turning device also comprises proximity transducer, described proximity transducer is arranged on described reference plane, when the trailing wheel 32 of described battery-driven car 3 contacts with described reference plane, described proximity transducer can detect the trailing wheel 32 of described battery-driven car 3, and can be passed to described function unit by signal being detected, and described function unit is controlled the trailing wheel 32 that described clamping part clamps described battery-driven car 3.

Whether the trailing wheel that detects battery-driven car by proximity transducer contacts with reference plane, when the trailing wheel of battery-driven car contacts with reference plane, proximity transducer can detect the trailing wheel of battery-driven car and the signal detecting is passed to function unit, and then function unit is controlled clamping part action by the trailing wheel clamping of battery-driven car.

According to a specific embodiment of the present utility model, as shown in Figure 4, described clamping part comprises clamping piece 42 and drive element.

Wherein, described clamping piece 42 can clamp the trailing wheel 32 of described battery-driven car 3;

Described function unit and described drive element are connected to control the work of described drive element, and described drive element can drive described clamping piece 42 to move to clamp the trailing wheel 32 of described battery-driven car 3.

Preferably, in the specific embodiment shown in Fig. 4, described drive element is oil cylinder 41.

Clamping part comprises clamping piece and oil cylinder, when the trailing wheel of battery-driven car contacts with reference plane, and the work of function unit oil cylinder with controllable, hydraulic oil cylinder driving clamping piece clamps the trailing wheel of battery-driven car.

According to an embodiment of the present utility model, described guide rail 1 is provided with roller chain, and described lifting part is provided with the sprocket wheel that can be meshed with described roller chain, and described roller chain moves on described guide rail 1 by lifting part described in described chain wheel drive.

Guide rail is provided with roller chain, and lifting part is provided with sprocket wheel, and roller chain moves on guide rail by chain wheel drive lifting part, in the process that lifting part moves on guide rail, battery-driven car is sling and carried out 180 degree upsets.

According to an embodiment of the present utility model, as shown in Figure 2, described lifting part comprises at least one electric block 2, and a plurality of described electric blocks 2 are distributed on described dead front type guide rail, and described electric block 2 is provided with suspension hook 21 to described battery-driven car 3 is sling.

Electric block is provided with suspension hook, to the front-wheel of inverted battery-driven car is sling, makes battery-driven car become from inversion state the state of vertically slinging, and completes 90 degree upsets.

In the concrete example shown in Fig. 2, described lifting part comprises that 2, two described electric blocks 2 of two described electric blocks are distributed on described dead front type guide rail.

Lifting part comprises that two electric blocks and two electric blocks are distributed on dead front type guide rail, in two electric blocks, an electric block is when a battery-driven car of lifting, another electric block is synchronously being transferred a battery-driven car, two electric blocks cooperatively interact, and match with the beat of main flow production line, can improve the production efficiency of battery-driven car.

According to a specific embodiment of the present utility model, as shown in Figure 3, on described electric block 2, be also provided with the conduction planker 22 moving with described electric block 2, described guide rail 1 is provided with conductive trough 11, described conduction planker 22 is connected with described conductive trough 11, with by the current lead-through in described conductive trough 11 to described electric block 2.

Preferably, in the concrete example shown in Fig. 3, conductive trough 11 on guide rail 1 is two conductive troughs, respectively as the both positive and negative polarity of power supply, electric block 2 is provided with two blocks of conduction plankers 22, be communicated with two conductive troughs 11 on guide rail 1 respectively, make electric current in conductive trough 11 electric block 2 of can flowing through, electric block 2 can be moved along guide rail 1.

Further, as shown in Figure 2, described guide rail 1 is oval guide rail, and described conductive trough is the oval conductive trough corresponding with described oval guide rail.In addition, in the specific embodiment shown in Fig. 2, the center of oval guide rail and the center superposition of oval conductive trough.

Guide rail is oval guide rail, and conductive trough is the oval conductive trough corresponding with oval guide rail, is convenient to like this electric block and is communicated with the conductive trough on guide rail all the time in the process moving along guide rail.

In the utility model, guide rail and conductive trough are ellipse, certainly, guide rail and conductive trough can also be set to other shapes, as kidney-shaped or circle, conductive trough can be not identical with the shape of guide rail yet, as long as realize in the process that electric block moves on guide rail, conduction planker is communicated with conductive trough all the time.

The utility model embodiment on the other hand provides a kind of battery-driven car flow production line, comprises main flow production line 5, auxiliary flow production line 6 and battery-driven car turning device.

Wherein, as shown in Figure 1, in described auxiliary flow production line 6, be provided with and can support the placement dolly 61 of being inverted battery-driven car 3;

Described battery-driven car turning device is the battery-driven car turning device described in above-mentioned arbitrary embodiment, and described battery-driven car turning device can be placed into forward after being upside down in described battery-driven car 3 on described placement dolly 61 and turning over turnback in described main flow production line 5.

In the battery-driven car flow production line providing at the present embodiment, as shown in Figure 5, clamping part is arranged in main flow production line 5, electromobile frame assembles front-wheel 31 and trailing wheel 32 rear (as shown in Figure 1) in auxiliary flow production line 6, the lifting part of battery-driven car turning device is sling inverted battery-driven car 3 in auxiliary flow production line 6, and move along guide rail 1, and 180 battery-driven car 3 forwards of spending after upset are placed in main flow production line 5 the most at last, carry out the assembling of other parts in main flow production line 5.

Below in conjunction with accompanying drawing, the working process of the battery-driven car flow production line that the utility model embodiment is provided describes:

First, as shown in Figure 1, electromobile frame is upside down on the placement dolly 61 of auxiliary flow production line 6, installs the front-wheel 31 and trailing wheel 32 of battery-driven car 3;

Secondly, electric block 2 moves to after set point on guide rail 1, and function unit is controlled the suspension hook 21 of electric block 2 front-wheel of battery-driven car 3 31 is sling automatically, as shown in Figure 4, and battery-driven car 3 90 degree that overturn now; Then, electric block 2 moves on guide rail 1, and electric block 2 moves after setpoint distance, and function unit is controlled suspension hook 21 and started to decline; When the trailing wheel 32 of battery-driven car 3 touches main flow production line 5, as shown in Figure 5, the proximity transducer being arranged in main flow production line 5 is passed to function unit by the signal detecting, function unit control cylinder 41 work, clamping piece 42 moves and by trailing wheel 32 Automatic-clampings under the drive of cylinder 41; Then, as shown in Figure 6, electric block 2 continues to advance on guide rail 1, the working direction of electric block 2 is as shown in the arrow at electric block place in Fig. 6, the suspension hook 21 of electric block 2 continues to decline simultaneously, and the descent direction of suspension hook 21 is as shown in Fig. 6 bend arrow, and now the front-wheel of battery-driven car 3 can be along the orbiting motion shown in the camber line with arrow, in this process, main flow production line 5 is advanced along the direction shown in the arrow at main flow production line 5 places in Fig. 6; When the front-wheel 31 of battery-driven car 3 touches main flow production line 5, as shown in Figure 7, suspension hook 21 stops declining, and by trailing wheel 32 synchronous release automatically from clamping part, at this moment battery-driven car 3 overturn again 90 degree, twice upset realized 180 degree upsets altogether, and inverted battery-driven car 3 forwards are placed in main flow production line 5.Two electric blocks 2 that are distributed on oval guide rail cooperatively interact, when an electric block 2 is when lifting by crane a battery-driven car 3, another electric block 2 is synchronously being transferred a battery-driven car 3, go round and begin again like this and match with the beat of main flow production line 5, having realized without the complete automation of artificial upset battery-driven car and having carried;

Finally, battery-driven car 3 continues all the other parts of assembling in main flow production line 5.

In sum, the battery-driven car turning device that the utility model embodiment provides, by inverted battery-driven car in auxiliary flow production line is carried out to 180 degree upsets, then forward is placed in main flow production line, realized mechanization automatic turning battery-driven car, reduced workman's labour intensity, the complete automation that makes battery-driven car flow production line realize battery-driven car is carried, improve the production efficiency of battery-driven car, and guaranteed the product design of battery-driven car.

In the description of this specification sheets, the description of term " embodiment ", " concrete example ", " specific embodiment " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or feature can be with suitable mode combinations in any one or more embodiment or example.

In the utility model, unless otherwise clearly defined and limited, term " is connected ", " connection ", etc. all should be interpreted broadly, for example, " connection " can be to be fixedly connected with, to removably connect, and can be to be also electrically connected to, or connect integratedly; Can be to be directly connected, also can indirectly be connected by intermediary.For the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term in the utility model.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a battery-driven car turning device, can carry out battery-driven car 180 degree upsets, it is characterized in that, comprising:

Guide rail;

Lifting part, described lifting part is arranged on described guide rail, and described in can edge, rail circulation moves that sling in limit or described battery-driven car is transferred on limit, sling while moving when described lifting part moves to the set point of a described guide rail wheel of described battery-driven car, mobile setpoint distance back is moved limit and is transferred described battery-driven car; With

Clamping part, described clamping part is arranged on a reference plane, and can transfer described battery-driven car in described lifting part and when another wheel of described battery-driven car contacts with described reference plane, clamp described another wheel of described battery-driven car.

2. battery-driven car turning device according to claim 1, is characterized in that,

Described guide rail is end to end dead front type guide rail;

A described wheel is front-wheel, and described another wheel is trailing wheel.

3. battery-driven car turning device according to claim 2, is characterized in that,

Also comprise function unit, described function unit can be controlled the work of described lifting part and described clamping part.

4. battery-driven car turning device according to claim 3, is characterized in that,

Also comprise proximity transducer, described proximity transducer is arranged on described reference plane, when the trailing wheel of described battery-driven car contacts with described reference plane, described proximity transducer can detect the trailing wheel of described battery-driven car, and can be passed to described function unit by signal being detected, described function unit is controlled the trailing wheel that described clamping part clamps described battery-driven car.

5. battery-driven car turning device according to claim 4, is characterized in that, described clamping part comprises:

Clamping piece, described clamping piece can clamp the trailing wheel of described battery-driven car; With

Drive element, described function unit and described drive element are connected to control the work of described drive element, and described drive element can drive described clamping piece to move to clamp the trailing wheel of described battery-driven car.

6. according to the battery-driven car turning device described in any one in claim 2 to 5, it is characterized in that,

Described guide rail is provided with roller chain, and described lifting part is provided with the sprocket wheel that can be meshed with described roller chain, and described roller chain moves on described guide rail by lifting part described in described chain wheel drive.

7. battery-driven car turning device according to claim 6, is characterized in that,

Described lifting part comprises at least one electric block, and a plurality of described electric blocks are distributed on described dead front type guide rail, and described electric block is provided with suspension hook to described battery-driven car is sling.

8. battery-driven car turning device according to claim 7, is characterized in that,

On described electric block, be also provided with the conduction planker moving with described electric block, described guide rail is provided with conductive trough, and described conduction planker is connected with described conductive trough, with by the current lead-through in described conductive trough to described electric block.

9. battery-driven car turning device according to claim 8, is characterized in that,

Described guide rail is oval guide rail, and described conductive trough is the oval conductive trough corresponding with described oval guide rail.

10. a battery-driven car flow production line, is characterized in that, comprising:

Main flow production line;

Auxiliary flow production line, is provided with in described auxiliary flow production line and can supports the placement dolly of being inverted battery-driven car; With

Battery-driven car turning device, described battery-driven car turning device is battery-driven car turning device as claimed in any one of claims 1-9 wherein, and described battery-driven car turning device can be placed into forward after being upside down in described battery-driven car on described placement dolly and turning over turnback in described main flow production line.

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