KR101380573B1 - Inlet device for charging of electric vehicle - Google Patents

Abstract

The present invention relates to an inlet device for charging an electric vehicle. The present invention as described above and the outer housing is installed in a form embedded in one side of the electric vehicle so that the inner surface is exposed to the outside; An inlet terminal installed to protrude to a predetermined height on an inner surface of the outer housing and receiving power; An inner housing provided inside the outer housing in a form surrounding the inlet terminal; A connection line electrically connecting the inlet terminal and a battery provided at one side of the inside of the electric vehicle; A shielding portion provided on an outer surface of the inner housing to be movable along a height direction of the inner housing so that end portions of the inlet terminal and the inner housing are selectively shielded from the outside; Provided is an inlet device for charging an electric vehicle.

Description

Inlet device for electric vehicle charging {INLET DEVICE FOR CHARGING OF ELECTRIC VEHICLE}

The present invention relates to an inlet device for charging an electric vehicle, and specifically, to prevent foreign matter from penetrating into an inner housing surrounding the inlet terminal and the inlet terminal, thereby preventing safety accidents when charging the battery of the electric vehicle. At the same time, the present invention relates to an electric vehicle charging inlet device for easily separating an outlet device from an inlet device after charging is completed.

Research is actively being made in the sense that electric vehicles are the most likely alternative to solve future automobile pollution and energy problems.

Electric vehicles (EVs) are mainly vehicles powered by AC or DC motors using battery power, and are classified into battery-only electric vehicles and hybrid electric vehicles. Using a motor to drive and recharging when the power is exhausted, the hybrid electric vehicle can run the engine to generate electricity to charge the battery and drive the electric motor using this electricity to move the car.

In addition, hybrid electric vehicles can be classified into a series and a parallel method, in which the mechanical energy output from the engine is converted into electrical energy through a generator, and the electrical energy is supplied to a battery or a motor so that the vehicle is always driven by a motor. It is a concept of adding an engine and a generator to increase the mileage of an existing electric vehicle, and the parallel method allows two cars to be driven by a battery power source and to drive a vehicle by an engine (gasoline or diesel) alone. Depending on the driving conditions and the parallel method, the engine and the motor may drive the vehicle at the same time.

Also, recently, motor / control technology is gradually developed, and high power, compact and highly efficient system is being developed. As the DC motor was converted into an AC motor, the output power and EV power performance (acceleration performance, maximum speed) were greatly improved, reaching a level comparable to that of gasoline cars. As the motor rotates with high output, the motor becomes light and compact, and the payload and volume are greatly reduced.

In order to charge the electric vehicle, the charging is performed by inserting the outlet device provided in the charging station into the inlet device provided in the electric vehicle.

1 is a perspective view showing the structure of a general electric vehicle charging inlet device and an outlet device, Figure 2 is a cross-sectional view showing the structure of a conventional inlet device according to the line 'II-II' of FIG.

As shown in these figures, the conventional electric vehicle charging inlet device (2) is an outer housing 10 is installed in a form embedded in one side of the electric vehicle so that the inner surface is exposed to the outside, and the outer housing 10 The inner housing of the outer housing 10 in the form of surrounding the inlet terminal 20 to protect the inlet terminal 20 and the inlet terminal 20 from being supplied with power and installed to protrude to a predetermined height on the inner surface of the inlet terminal 20. The inner housing 30 is provided in, the inlet terminal 20 and the connection line 40 for electrically connecting the battery (not shown) provided on one side of the electric vehicle.

The outer housing 10 is a cylindrical member having an opening formed at one side thereof and having a predetermined space therein, and a separate cover member for selectively opening and closing an upper surface of the outer housing 10 having the opening formed at one side thereof. (11) is rotatably coupled.

In addition, the outer surface of the outer housing 10 on the opposite side to which the cover member 11 is rotatably coupled to the outer surface of the outer housing 10, the locking member 12 which can maintain a state in which the upper surface of the outer housing 10 is shielded. Is rotatably coupled.

The inlet terminal 20 is provided to protrude a predetermined height from the bottom surface of the outer housing 10 is connected to the outlet terminal (not shown) provided in the outlet device (1) is a member to receive power, the outer surface An internal housing 30 is provided.

The inner housing 30 protects the appearance of the inlet terminal 20 and at the same time an upper surface thereof is formed so that the inlet terminal 20 can be connected to an outlet terminal (not shown), and the inlet terminal 20 is accommodated therein. It is a cylindrical member provided with a receiving space.

The connection line 40 is a member that electrically interconnects the inlet terminal 20 and a battery (not shown) provided on one side of the electric vehicle.

The process of charging the battery of the electric vehicle by inserting the outlet device into a conventional inlet device having such a structure is as follows.

First, the cover member provided on one side of the outer housing 10 is rotated to expose the inside of the outer housing 10 to the outside, and then when the outlet device 1 is inserted into the outer housing 10, the outlet device 1 The outlet terminal (not shown) provided in the inlet terminal 20 provided in the form protruding to the bottom surface of the outer housing 10 are coupled to each other.

When power is supplied to the outlet terminal 1 while the outlet terminal 1 and the inlet terminal 20 are connected to each other, the power is transmitted to the inlet terminal 20 via the outlet terminal 1 and the inlet terminal 20 The charging of the battery of the electric vehicle is made through the connection line 40 connected to.

However, in the conventional inlet device for charging an electric vehicle having such a configuration, since the end portion of the inlet terminal 20 provided inside the outer housing 10 is completely exposed to the outside, the end portion of the inlet terminal 20 When foreign matter is attached, sparks may occur, which may cause a safety accident when charging an electric vehicle.

In addition, the outlet inserted into the inlet device 2 after the charging is completed because there is no separate device that can facilitate the separation of the outlet device 1 from the inlet device 2 after the charging of the electric vehicle is completed. There is an inconvenient problem of having to pull out the device 1 directly.

1. Inlet of an electric vehicle and an electric vehicle including the same (Patent application 10-2011-0089088) 2. Electric vehicle charging connector (Patent application 10-2010-0087983)

The present invention has been made in view of the above problems, and prevents foreign matter from penetrating the inner housing surrounding the inlet terminal and the inlet terminal to prevent safety accidents when charging the battery of the electric vehicle. The present invention provides an inlet device for charging an electric vehicle that can easily separate an outlet device from an inlet device after charging is completed.

Electric vehicle charging inlet device according to an embodiment of the present invention for achieving the object of the present invention as described above, the outer housing is installed in a form embedded in one side of the electric vehicle so that the inner surface is exposed to the outside; An inlet terminal installed to protrude to a predetermined height on an inner surface of the outer housing and receiving power; An inner housing provided inside the outer housing in a form surrounding the inlet terminal; A connection line electrically connecting the inlet terminal and a battery provided at one side of the inside of the electric vehicle; A shielding portion provided on an outer surface of the inner housing to be movable along a height direction of the inner housing so that end portions of the inlet terminal and the inner housing are selectively shielded from the outside; .

Here, the shielding portion is formed to have a larger diameter than the inner housing, the upper and lower surfaces of the shielding member is inserted into the outer surface of the inner housing, and is provided between the bottom surface and the shielding member of the outer housing It may include an elastic spring for elastically supporting the shielding member.

In addition, the outer surface of the inner housing may be formed with a protruding jaw protruding, and the lower inner surface of the shielding member may protrude from a protruding member that is caught by the locking jaw so that the shielding member is not separated from the outer surface of the inner housing. .

In addition, one side of the outer housing may be provided with a locking ring is inserted into the engaging groove formed in the outlet device is inserted into the outer housing to maintain the outlet device is inserted into the outer housing.

In addition, the upper surface of the shielding member is formed to be cut to cross the plate surface is folded when the outlet device is inserted into the inlet device, the outlet device is unfolded when detached from the inlet device to the outside of the upper surface of the shielding member A separate shield cover for shielding from may be provided.

And, one side of the outer housing is provided with a separate cover member for selectively opening and closing the opening formed surface of the outer housing, the cover member is rotatably coupled to the point and the outer housing on the opposite side of the cover A locking member may be provided to keep the member closed.

The present invention has the effect of preventing the occurrence of a safety accident when charging the battery of the electric vehicle by preventing foreign matter from penetrating the inner housing surrounding the inlet terminal and the inlet terminal by the above-mentioned problem solving means. .

In addition, after the charging of the electric vehicle battery is completed, the outlet device can be easily separated from the inlet device by the elastic restoring force.

1 is a perspective view showing the structure of a general electric vehicle charging inlet device and an outlet device,
2 is a cross-sectional view showing the structure of a conventional inlet device taken along the line 'II-II' of FIG.
3 is a perspective view showing the structure of an inlet device and an outlet device for charging an electric vehicle according to an embodiment of the present invention;
4 is a cross-sectional view taken along the line 'IV-IV' of FIG. 3,
5 is an operation diagram showing the operation of the electric vehicle charging inlet device according to an embodiment of the present invention.

In the following description, specific details of the electric vehicle charging inlet device of the present invention are shown to provide a more general understanding of the present invention, which can be easily practiced without these specific details and also by their modifications. It will be apparent to those skilled in the art.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, with reference to the parts necessary for understanding the operation and operation according to the present invention.

Figure 3 is a perspective view showing the structure of the inlet device and outlet device for charging the electric vehicle according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along the line 'IV-IV' of Figure 3, Figure 5 Operational diagram showing the operation of the electric vehicle charging inlet device according to an embodiment of the present invention.

As shown in these drawings, the electric vehicle charging inlet device according to the present invention, the outer housing 110 is installed in a form embedded in one side of the electric vehicle so that the inner surface is exposed to the outside of the outer housing 110 Inlet terminal 120 is installed to protrude to a predetermined height on the inner surface to receive power, the inner housing 130 provided in the interior of the outer housing 110 in a form surrounding the inlet terminal 120, and the inlet terminal 120 ) And a connection line 140 electrically connecting the battery provided at one side of the electric vehicle, and the inlet terminal 120 to be movable along the height direction of the inner housing 130 on the outer surface of the inner housing 130. And an end portion of the inner housing 130 and a shielding portion 150 to be selectively shielded from the outside.

The outer housing 110 is a cylindrical member having an opening formed at one side thereof and having a predetermined space therein, and a separate cover member for selectively opening and closing an upper surface of the outer housing 110 having an opening formed at one side thereof. 111 is rotatably coupled.

And, the outer surface of the outer housing 110 of the opposite side to which the cover member 111 is rotatably coupled to the engaging member 112 that can maintain the cover member 111 shielding the upper surface of the outer housing 110 Is rotatably coupled.

The locking member 112 is rotatably coupled to one side of the outer housing 110 so that its end portion is movable along the arc trajectory, and the cover member 111 is covered to maintain the contact state with the locking member 112. The compression coil spring 112a is installed so that the restoring force acts on the member 111 side.

One end of the compression coil spring (112a) is in contact with one side of the locking member 112, the other end is in contact with one side of the outer housing 110, the end of the locking member 112 in the direction in which the cover member 111 is disposed Make it elastically supported.

On one side of the outer housing 110 is inserted into the engaging groove 210 formed in the outlet device 200 is inserted into the outer housing 110 to hold the outlet device 200 is maintained in the inserted state in the outer housing 110 Ring 113 may be provided.

The inlet terminal 120 is a member protruding from the bottom of the outer housing 110 by a predetermined height and connected to an outlet terminal (not shown) provided in the outlet device 200 to receive power. The inner housing 130 is provided.

The inner housing 130 protects the appearance of the inlet terminal 120 and at the same time an upper surface thereof is formed so that the inlet terminal 120 can be connected to an outlet terminal (not shown), and the inlet terminal 120 is accommodated therein. It is a cylindrical member provided with a receiving space.

The projection 151a formed at the end of the shielding member 151 is caught on the outer surface of the inner housing 130 so that the locking step 131 is stepped to prevent the shielding member 151 from being detached from the outer surface of the inner housing 130. Formed.

In addition, the connection line 140 is electrically connected to the inlet terminal 120 and the battery (not shown) provided on the inner side of the electric vehicle to receive electricity from the charger so that the battery is charged.

The shielding part 150 is formed to have a diameter larger than that of the inner housing 130, and the shielding member 151 and the outer housing 110 of the shielding member 151 inserted into the outer surface of the inner housing 130 are formed by openings of the upper and lower surfaces thereof. An elastic spring 152 may be provided between the bottom surface and the shielding member 151 to elastically support the shielding member 151.

The upper and lower surfaces of the shielding member 151 are formed with openings and are inserted into the outer surface of the inner housing 130 so as to be movable along the height direction of the inner housing 130, and the length of the shielding member 151 is the elastic spring 152. ) To the maximum length so that the end of the shielding member 151 may be disposed at the same height as the end of the inner housing 130.

In addition, a protruding member 151a may be protruded from the lower inner surface of the shielding member 151 so that the shielding member 151 is not detached from the outer surface of the inner housing 130 by being caught by the locking jaw 131.

In addition, the upper surface of the shielding member 151 is formed by cutting the plate surface to intersect and folded when the outlet device 200 is inserted into the inlet device 100, when the outlet device 200 is separated from the inlet device 100 A separate shielding cover 153 may be provided to spread out to shield the upper surface of the shielding member 151 from the outside.

The shielding cover 153 is formed of a synthetic material such as silicone, rubber, etc., which has its own elastic material, so that the cut surface intersected selectively opens and closes the upper surface of the shielding member 151 as the outlet device 200 is pulled out. do.

On the other hand, as shown in Figure 3, the outlet device 200 is inserted into the electric vehicle charging inlet device 100 according to an embodiment of the present invention to charge the battery of the electric vehicle has an inlet terminal ( The outlet terminal (not shown) is provided in contact with 120 to allow the electric vehicle to be charged.

In addition, a locking groove 210 is inserted into one side of the outer housing 110 at one side of the outer surface thereof to allow the outlet device 200 to maintain a state in which the outlet device 200 is inserted into the outer housing 110. It is recessed.

On the other side of the outer surface of the outlet device 200, a separate release button 220 is provided to enable the locking ring 113 to be easily released from the locking groove 210.

The process of charging the battery of the electric vehicle by inserting the electric vehicle charging outlet device into the electric vehicle charging inlet device according to an embodiment of the present invention having such a structure is as follows.

First, the cover member 111 provided on one side of the outer housing 110 is rotated to expose the inside of the outer housing 110 to the outside, and then the outlet device 200 is gradually inserted into the outer housing 110. .

Accordingly, the outlet terminal (not shown) in the outlet device 200 pushes the shielding cover 153 of the inlet device 100 to open the shielding cover 153 and the inlet terminal 120 of the inlet device 100. Contact

And, as the insertion of the outlet device 200 proceeds further, an end of an outlet terminal (not shown) provided in the outlet device 200 contacts the end of the shielding member 151, and the outlet device 200 is moved. As the shield member 151 is gradually inserted into the outer housing 110, the shielding member 151 compresses the elastic spring 152 while moving downward along the height direction of the inner housing 130.

When the outlet device 200 is inserted deeper into the outer housing 110, the outlet device 200 is connected to the outlet terminal (not shown) and the inlet terminal 120 provided inside the outlet device 200.

Then, the locking ring 113 provided in the outer housing 110 is inserted into the locking groove 210 formed in the outlet device 200 to maintain the state in which the outlet device 200 is inserted into the inlet device 100. The electric vehicle is charged by the power applied through the outlet device 200.

When the charging of the electric vehicle is completed, pressing the release button 220 provided on one side of the outlet device 200, the locking ring 113 is released from the locking groove 210 and at the same time the shielding member by the elastic force of the elastic spring 152 As the 151 rises along the height direction of the inner housing 130, the outlet device 200 is pushed out of the inlet device 100.

When the inlet terminal 120 and the outlet terminal (not shown) are separated from each other by such elastic force, the outlet device 200 is separated from the inlet device 100, and the outlet device 200 is shielded when the outlet device 200 is separated from the inlet device 100. The cover 153 is restored to its original form.

In addition, the charging operation of the electric vehicle is completed by closing the cover member 111 to prevent foreign matter from penetrating into the inner housing 130, thereby preventing safety accidents when charging the battery of the electric vehicle and at the same time charging is performed. After completion, there is an effect that can easily separate the outlet device 200 from the inlet device 100.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: inlet device 110: external housing
111: cover member 112: locking member
113: hook 120: inlet terminal
130: internal housing 131: locking jaw
140: connection line 150: shield
151: shielding member 151a: protruding member
152: elastic spring 153: shielding cover
200: outlet device 210: locking groove
220: exit button

Claims (6)

An outer housing installed in a form embedded in one side of the electric vehicle;
An inlet terminal installed to protrude to a predetermined height on an inner surface of the outer housing and receiving power;
An inner housing provided inside the outer housing in a form surrounding the inlet terminal;
A connection line electrically connecting the inlet terminal and a battery provided at one side of the inside of the electric vehicle;
It is formed to have a larger diameter than the inner housing, the upper and lower surfaces are formed with an opening formed between the shielding member inserted into the outer surface of the inner housing, the bottom surface and the shielding member of the outer housing is elastic the shielding member A shield made of an elastic spring for supporting;
Inlet device for charging an electric vehicle, characterized in that it comprises a. delete The method of claim 1,
The outer surface of the inner housing is formed with a protruding jaw protruding, the lower inner surface of the shielding member is characterized in that the protruding member is protruded so as to be caught by the locking jaw so that the shielding member is not separated from the outer surface of the inner housing Inlet device for vehicle charging. The method of claim 1,
One side of the outer housing is inserted into the engaging groove formed in the outlet device to be inserted into the outer housing, the inlet device for charging the electric vehicle, characterized in that provided with a retaining ring for maintaining the state that the outlet device is inserted into the outer housing. . 5. The method of claim 4,
The upper surface of the shielding member is formed to be cut to cross the plate surface and folded when the outlet device is inserted into the inlet device, and the outlet device is unfolded when it is detached from the inlet device to shield the upper surface of the shielding member from the outside. Inlet device for charging an electric vehicle characterized in that a separate shielding cover to be provided. 6. The method according to any one of claims 1 to 5,
One side of the outer housing is provided with a separate cover member for selectively opening and closing the opening formed surface of the outer housing, the cover member is the point that the cover member is rotatably coupled to the outer housing on the opposite side Inlet device for charging an electric vehicle, characterized in that the locking member is provided to maintain a closed state.

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