KR20130143441A - Position guiding apparatus for battery of vehicle - Google Patents

Abstract

The present invention relates to a position guiding device for a battery of vehicle. The present invention is to accurately place a battery (16) on a bottom plate (13) of a placing part (12) of a vehicle (10). For this, the position guiding device (20) is installed on the bottom plate (13). The position guiding device (20) is for guiding the edge of the battery (16). A roller (30) is rotatably installed on a supporter (28) of a bracket (24) mounted on the bottom plate (13). The roller (30) is protruding from an end part (29) of the supporter (28) of the bracket (24). The end part (29) of the supporter (28) is installed toward the bottom plate (13), so that the rollers (30) are facing downwards. On the surface of the rollers (30), a contact rib (31) is protruding. A roller (30) placed at the bottom among all the rollers (30) is rotatable. The other rollers (30) are rotatable only in a direction that the battery (16) is placed on the bottom plate (13). Since the battery (16) is guided by the rollers (30), the frictional force between the battery (16) and rollers (30) can be minimized, so that the battery (16) can be easily guided and the battery (16) can be placed in an accurate position.

Description

Position guiding apparatus for battery of vehicle

The present invention relates to a vehicle battery location guide device, and more particularly to a vehicle battery location guide device for allowing a heavy battery to be seated in the correct position at a specific location of the vehicle or charging station.

Recently, many cars driven by electricity have been developed due to concerns of depletion of fossil fuels. For example, an electric motor is driven to drive the vehicle, or an internal combustion engine and a motor are used to drive the vehicle. In order to provide driving force for driving the vehicle using electricity as described above, a battery for supplying electricity is required. However, since charging a battery takes a lot of time, a method of exchanging a battery of a vehicle itself has been adopted and studied.

In order to replace the battery used in the vehicle in the vehicle as described above, it is necessary to secure a structure in which the battery can be mounted in the vehicle and the charging station. Since the battery is heavy, very careful movement is required to place the battery in a specific position in the vehicle and the charging station. In order to compensate for such a positional deviation, there is a problem in that a configuration for guiding the battery to the place where the battery is seated Respectively.

When placing a heavy battery in a specific position of a vehicle or charging station, a guide member having an inclined structure is generally used to guide the battery from being in a fixed position. The guide member has an inclined surface inclining downward in a direction in which the battery is seated on the side from which the battery enters. When the inclined surface of the guide member guides the lower edge portion of the battery, the battery is guided to the correct position when the battery is out of a predetermined position within a range where the guide member is installed.

However, since the guide member as described above is merely formed of an inclined surface, it provides a frictional force in the process of seating the battery, so that there is a problem that the outer surface of the guide member or the battery is damaged and the unbalance between the side where the frictional force acts There is a problem that the battery is not properly seated.

Also, if one side of the battery touches the guide member during the process of getting out of the battery, the battery or the guide member may be damaged and the battery may not be separated from the guide member.

Accordingly, an object of the present invention is to solve the conventional problems as described above, to minimize the frictional force caused by the battery is out of position when mounting and detaching the battery.

It is another object of the present invention to smoothly detach without taking a heavy battery when it is removed.

According to a feature of the present invention for achieving the above object, the present invention is provided on the battery seat of the vehicle is installed on the bottom plate is mounted on the battery is guided to the side of the battery to guide the battery on the bottom plate A vehicle battery position guide device for guiding to be mounted in a position, comprising: a bracket mounted on the bottom plate and provided with inclined ends facing each other, and at least a surface of which is made of an elastic material and faces each other of the bracket; And a plurality of rollers rotatably supported at both ends thereof, and the rollers have a constant level from which the outer surface of each of the rollers protrudes from the front end of the supporting portion of the bracket, and at least one of the rollers at the bottom of the rollers is bidirectional. Can be rotated and the rest of the rollers are Only the rotation in the direction for guiding the effort is possible.

The bracket includes a bottom portion and a support portion extending side by side perpendicular to both ends of the bottom portion.

The roller is located in the position corresponding to the horizontal radius R of the roller at the upper part, the center of rotation O of the roller at the lower part.

Contact ribs are formed on the surface of the roller to protrude in the width direction of the roller.

The contact ribs are formed to be shifted from each other on the basis of the width direction center of the roller.

The position guide device is disposed at a position corresponding to an edge where side surfaces of the battery meet so that virtual extension lines in a direction toward which the tip of the bracket faces are perpendicular to each other.

At the position where the imaginary extension line meets, a cone-shaped connection cone having a top cut off is installed on the bottom plate.

The bottom portion of the bracket is provided with a separate base is configured so that the base is mounted on the bottom plate.

In the vehicle battery position guide device according to the present invention can obtain the following effects.

First, in the present invention, a plurality of contact ribs on the surface of the roller made of an elastic material for guiding the battery when the battery is mounted and detached to a position out of position in the process of mounting and detaching the heavy battery in the vehicle or charging station Since the dog is formed, it is possible to move the battery to the right position while minimizing the friction force generated when the contact with the roller has the effect that can guide the battery more quickly and accurately without damaging the battery or the guide device.

Particularly, in the present invention, when the battery is detached from the state in which the battery is mounted, the roller which is in contact with the battery rotates to guide the battery so that there is no jam between the battery and the roller so that the battery can be separated out smoothly. .

In the present invention, since some of the rollers on the upper portion of the battery are separated from each other, the rollers do not rotate in the direction in which the battery is separated, thereby preventing the battery from moving out of the original moving direction.

1 is a perspective view showing the configuration of a vehicle employing a preferred embodiment of a vehicle battery position guide device according to the present invention.
FIG. 2 is an exploded perspective view showing a configuration of a bottom plate side and a battery mounted thereon, in which the embodiment of the present invention is employed. FIG.
Figure 3 is a front perspective view showing the configuration of the main part of the embodiment of the present invention.
Figure 4 is a rear perspective view showing the configuration of the main part of the embodiment of the present invention.
Figure 5 is a side view showing the configuration of the main part of the embodiment of the present invention.
6 is an operational state view showing that the battery is guided in the mounting direction according to the embodiment of the present invention.
7 is an operational state view showing that the battery is guided in the separating direction according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a preferred embodiment of a vehicle battery position guiding apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawings, the battery seat 12 is formed to open to the upper surface of the vehicle 10. The battery seating part 12 is formed as a space recessed on the upper surface of the vehicle 10 or protruded, and is opened / closed by a door 12 '. As the door 12 ', a sliding door of a kind may be used. A bottom plate (13) is installed on the battery mounting part (12). The bottom plate 13 is well illustrated in FIGS. 1 and 2, and is provided at a predetermined height on the bottom surface of the battery seat 12. The bottom plate 13 is mounted to the vehicle body of the vehicle 10 forming the battery seating portion 12. [ In the present embodiment, the bottom plate 13 is in the shape of a plate having a shape that can be positioned at the bottom of the battery mount portion 12. [

On one side of the bottom plate 13, a connector mounting portion 14 is formed as shown in Fig. The connector mounting portion 14 is formed by cutting out a part of one end of the bottom plate 13 and is a portion where the connector driving device 15 is installed. Reference numeral 15 'denotes a connector which is electrically connected to the side of the battery 16 to be described later.

A battery 16 is mounted on the bottom plate 13. Since the configuration of the battery 16 is not a gist of the present invention, only relevant portions will be described. The battery case 17 constituting the external appearance of the battery 16 has a substantially flat hexahedron shape. In the battery case 17, a connector installation space (not shown) is recessed at one end of a surface facing the bottom plate 13. The connector installation space is provided with a mating connector (not shown) which is electrically connected to the connector 15 '.

A plurality of fixed holders 18 are provided on the bottom plate 13. The fixed holder 18 is installed at both ends of the bottom plate 13 so as to be opposite to each other. When the battery 16 enters, the fixed holder 18 is operated such that the tips thereof are distant from each other. The tip end is operated to be hooked on the side surface of the battery 16. The fixed holder 18 is formed in a substantially '-' shape when viewed from the side so that the front end portion is hooked to the hook structure formed on the side of the battery 16. The fixed holder 18 is attached to the outer surface of the battery 16 to fix the battery 16 on the bottom plate 13. The fixed holder 18 is driven and operated by a separate driving source (not shown).

On the other hand, a blower device 19 is installed at one end of the bottom plate 13, that is, the opposite end on which the connector driving device 15 is mounted. The blower device 19 serves to deliver air for cooling into the battery 16.

The bottom plate 13 is provided with a position guiding device 20 for guiding the movement of the battery 16 when the battery 16 is mounted on the bottom plate 13 and when the battery 16 is separated from the bottom plate 13. The position guiding device 20 is installed on the bottom plate 13 at a position corresponding to both ends of the side surface of the battery 16 adjacent to the edge of the battery 16 in the present embodiment. Therefore, in the present embodiment, in which the battery 16 is a flat hexahedron, a total of eight position guiding devices 20 are used. However, the number of the position guiding devices 20 may vary depending on other design conditions such as the size of the battery 16.

The position where the position guiding device 20 is installed may be a portion corresponding to the edge of the battery 16. [ This is because the positional deviation from the edge portion is the greatest when the battery 16 is attached and detached. That is, when the battery 16 is rotated with respect to the geometric center of the battery 16, the position guiding devices 20 corresponding to the corners corresponding to both ends of the diagonal line can correct the position of the battery 16. Even when the battery 16 is displaced in the longitudinal direction or in the width direction of the battery 16, the position guiding devices 20 located at the opposite ends of one side of the battery 16 are positioned in the battery 16, Can be corrected.

The position guide device 20 has a bracket 24 is installed on the base 22 of the plate. The base 22 is a part mounted to the bottom plate 13. The bracket 24 is composed of a lower bracket 25 and an upper bracket 25 'in the present embodiment. However, the lower bracket 25 and the upper bracket 25 'may be integrally formed.

The bracket 24 is composed of a bottom portion 27 mounted on the base 22 as a whole and a support portion 28 extending side by side with a pair protruding perpendicularly to both ends of the bottom portion 27. The support 28 extends side by side so that the pair has a predetermined interval.

The support part 28 is provided with a roller 30. The roller 30 itself is made of an elastic material, or at least the material constituting the surface is preferably made of an elastic material. This is to minimize damage to the battery 16 or the roller 30 even if the battery 16 collides with the roller 30.

The surface of the roller 30 is provided with a plurality of contact ribs 31 in the width direction of the roller 30. The contact rib 31 is in direct contact with the outer surface of the battery 16. Since the contact ribs 31 are present, the entire surface of the roller 30 is brought into contact only with the contact ribs 31 without contacting the outer surface of the battery 16. Of course, when the battery 16 is greatly out of position and a large force is applied to the roller 30, the surface of the roller 30 is in contact with the contact rib 31.

The contact ribs 31 are formed so as to deviate from each other on both sides partitioned in the width direction by partitioning the roller 30 into two parts in the width direction. Such a configuration is also intended to minimize the area where the contact rib 31 contacts the outer surface of the battery 16.

The roller 30 is supported at both ends of the rotation shaft 32 which is the center of rotation of the roller 30. A plurality of the rollers 30 are rotatably installed on the support 28. At least two rollers 30 may be used.

Referring to FIG. 5, the roller 30 is installed to protrude by a predetermined distance from the support part 28. The tip 29 of the support portion 28 on which the roller 30 is installed is inclined. As the outer surface of the roller 30 protrudes from the tip 29 of the support 28, an external force does not directly act on the tip 29 of the support 28.

In this embodiment, four rollers 30 are installed, but a plurality of rollers 30 may be installed. When the roller 30 is viewed from the side, the line connecting the outer surface in the position protruding from the tip of the support 28 is mutually installed to correspond to the inclination of the tip 29 of the support 28 (battery) Good to guide 16).

Indeed, the center of rotation O of the roller 30, which is relatively lower, is in a position moved in the direction of the battery 16 relatively than the bottom of the roller 30, which is relatively upper. That is, as can be seen in Figure 5, within the position corresponding to the horizontal radius (R) of the roller 30, which is relatively upper, the center of rotation (O) of the roller 30, which is relatively lower, is positioned Should be done. As the rollers 16 adjacent to each other are installed as described above, when the battery 16 moves in the mounting direction, the rollers 30 may be guided to slide continuously along the rollers 30.

The roller 30 is installed on the bracket 24 so that the degree of protruding the outer surface of each of the rollers 30 from the tip 29 of the bracket 24 is constant. To this end, the tip 29 of the support 29 of the bracket 24 should be inclined downward toward the bottom plate 13.

In addition, the rollers 30 except for the roller 30 at the bottom of the present invention are supported by the one-way bearing 33 and are installed on the bracket 24. Thus, these rollers 30 are rotated only in the direction in which the battery 16 moves for mounting to guide the battery 16. Of course, the bottom roller 30 can be rotated in both directions.

As such, the support of the rollers 30 on the upper side with the one-way bearing 33 to guide only the movement in the direction in which the battery 16 is mounted may possibly cause the battery 16 to be out of position when mounted. This is because there is no possibility of moving out of position because the movement starts when it is in a fixed position.

In addition, the rotation of the roller 30 in the direction away from the home position when the battery 16 is removed is as much as encouraging the battery 16 to be out of the home position. Therefore, when the battery 16 is out of position, the roller 30 is stopped so that the battery 16 can no longer be moved out of position. At this time, the roller 30 is formed of an elastic material, so that even if the battery 16 collides, it is possible to prevent the departure from the position while absorbing a certain degree of impact.

On the other hand, in the present invention, the position guide device 20 is adjacent to each other, that is, corresponding to each of the two outer surfaces forming one corner of the battery 16, respectively, the tip of the support 28 of each bracket 24 It is arrange | positioned so that the direction which 29 faces so that it may mutually orthogonally cross. As a result, the edge of the battery 16 can be effectively guided.

In addition, the connection cone 34 is installed at a portion of the virtual extension line in the direction in which the tip 29 of the position guide device 20 adjacent to each other is directed. The connection cone 34 has a conical shape having an upper cut off, and is mounted in a corresponding groove formed in the lower surface of the battery 16 to determine a mounting position on the bottom plate 13 of the battery 16.

Hereinafter, the use of the vehicle battery position guiding apparatus according to the present invention will be described in detail.

The battery 16 is mounted on the battery seat 12 of the vehicle 10. The battery 16 supplies power for driving various electrical components in the vehicle 10 as well as power for driving the vehicle 10. [ To this end, the mating connector is coupled to the connector 15 'in a state in which the battery 16 is seated in the battery mounting part 12.

In order to achieve such a coupling, the battery 16 must be lowered from the top of the bottom plate 13 so that the battery 16 can be accurately seated in the correct position on the bottom plate 13. The position guiding device 20 is used for this purpose.

In the process of mounting the battery 16 to the bottom plate 13, as shown in Figure 6, when the battery 16 is lowered vertically to the position of A, and the rollers 30 The battery 16 is not in contact. This is the most ideal state, and no friction force is applied between the roller 30 and the battery 16 at all.

However, when the battery 16 is actually mounted on the bottom plate 13, the battery 16 may be lowered to the position B as shown in FIG. When lowered in this way, the lower edge of the battery 16 is guided to the roller 30 at the top. In this case, the upper roller 30 is rotated in the direction of the arrow shown in FIG. 6 to guide the battery 16.

Therefore, the battery 16 is guided to the lower roller 30 adjacent to the roller 30 at the top, and repeatedly guided to the roller 30 at the lowermost level so that the battery 16 is moved to the A position. Will move. In this way, the battery 16 is guided by the roller 30 so that the battery 16 is positioned on the side outside the area where the battery 16 rests, and on the opposite side, the edge of the battery 16. Is inside the area where the battery 16 rests relative to the rollers 30, so that the battery 16 and the roller 30 are not in contact with each other on the part side.

When the battery 16 is guided in contact with the roller 30, in this embodiment, the contact rib 31 of the roller 30 comes into contact with the outer surface of the battery 16. Therefore, as compared with the case where the entire outer surface of the roller 30 contacts the outer surface of the battery 16, the frictional force is greatly reduced. In particular, the contact rib 31 is arranged to be shifted relative to the center in the width direction of the roller 30 to generate a very small friction force. Of course, when the degree of deviation of the battery 16 is very large, the contact rib 31 is elastically deformed and the battery 16 is in direct contact with the outer surface of the roller 30.

When the battery 30 is seated on the bottom plate 13 in the state A of FIG. 6, the fixing holder 18 is operated to fix the battery 16 to the bottom plate 13. Next, the connector driving device 15 is driven, and the mating connector of the battery 16 and the connector 15 'are engaged and electrically connected. When the battery 16 and the vehicle body are electrically connected as described above, the vehicle can be driven using the power of the battery 16.

In the course of using the battery 16, the blower device 19 supplies air for cooling the heat generated from the battery 16. [ The air supplied from the blower unit 19 passes through the inside of the battery 16 and receives heat generated from the battery pack and discharges it to the outside of the battery 16.

On the other hand, the battery 16 is discharged or almost discharged to be replaced in the reverse order described above. That is, the connector driving device 15 is operated to disconnect the connector 15 'from the mating connector, thereby releasing the fixed holder 18 from being coupled to the battery 16.

Then, a device for holding the battery 16 catches the battery 16 and lifts the battery 16 to be separated from the bottom plate 13. When the battery 16 moves vertically upward while the battery 16 is seated on the bottom plate 13 while the battery 16 is separated from the bottom plate 13, only the lowermost roller 30 is in contact. , It is not in contact with the remaining rollers 30.

However, when the rising trajectory of the battery 16 is misaligned, the battery 16 may be in contact with the roller 30 of some of the plurality of position guide devices 20. That is, the battery 16 may be in contact with the remaining rollers 30 except for the lower roller 30. In this case, when the battery 16 is in contact with the roller 30 in a direction in which the battery 16 is separated, The remaining rollers 30 except the sum roller 30 are in close contact with the battery 16 without rotating. Thus, the battery 16 no longer goes in that direction and is pushed over the in situ area on the bottom plate 13. As the battery 16 is separated and lifted from the bottom plate 13, the area where the battery 16 can flow gradually (connecting the tip of the roller 30 at the corresponding height of all the position guide devices 20). Since the area of one region is wider, the roller 30 may rise while being pushed to the opposite side by the elasticity of the roller 30 even when the roller 305 is in contact with one side.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

For example, in the illustrated embodiment, the upper bracket 25 'is in the form of a triangular plate, but it need not necessarily be a plate of various shapes. Of course, even in this case, the tip 29 should be made to be inclined.

In the illustrated embodiment, the base 22 is provided on the bracket 24 to be fixed on the bottom plate 13, but the base 22 is not necessarily used, and the bracket 24 is used. Bottom 27 of may be mounted directly to the bottom plate (13).

For reference, in the present invention, only the one-way bearing 33 may be employed, and at least the surface of the roller 30 may be made of an elastic material. That is, the contact rib 31 may be selectively used in the embodiment in which the one-way bearing 33 is employed.

In the illustrated embodiment, only the lowest roller 30 is rotated in both directions, but at least, the one or more rollers 30 may be rotated in both directions. For example, the roller 30 from the bottom to the second or third can be rotated in both directions, and the remaining roller 30 can be rotated in one direction.

10: vehicle 12: battery mount part
13: Bottom plate 14: Connector mounting part
15: Connector drive device 15 ': Connector
16: Battery 17: Battery case
18: fixed holder 19: blower drive device
20: position guiding device 22: base
24: Bracket 25: Lower Bracket
25 ': upper bracket 27: bottom
28: support part 30: roller
31: contact rib 32: rotating shaft
33: one-way bearing

Claims (8)

In the vehicle battery position guide device is provided on the battery mounting portion of the vehicle is installed on the bottom plate on which the battery is mounted to guide the side of the battery to be mounted in place on the bottom plate,
A bracket mounted on the bottom plate and provided with support portions facing the inclined ends thereof;
At least one surface is made of an elastic material and includes a plurality of rollers rotatably supported at both ends of the support portion facing each other of the bracket,
The rollers have a constant degree from which the outer surface of each of the rollers protrudes from the tip of the support of the bracket, and at least one of the rollers can be bidirectionally rotated and the remaining rollers have the battery mounted on the bottom plate. A vehicle battery position guidance device that can only rotate in the direction of guiding direction.
The vehicle battery position guide device of claim 1, wherein the bracket comprises a bottom portion and a support portion extending side by side orthogonal to both ends of the bottom portion.
2. The vehicle battery position guidance device according to claim 1, wherein the roller is located at a center of rotation (O) of the roller at the lower portion within a position corresponding to the horizontal radius (R) of the roller at the upper portion.
The vehicle battery position guidance device according to any one of claims 1 to 3, wherein contact ribs protrude from the surface of the roller in the width direction of the roller.
5. The vehicle battery position guide device according to claim 4, wherein the contact ribs are formed to be offset from each other on the basis of the width direction center of the roller.
The vehicle battery position guide device of claim 5, wherein the position guide device is disposed at a position corresponding to an edge where side surfaces of the battery meet so that virtual extension lines in a direction in which the front end of the bracket faces are perpendicular to each other.
The vehicle battery position guide device of claim 6, wherein a cone-shaped connection cone having a top cut off is installed on the bottom plate at a position where the virtual extension line meets.
The vehicle battery position guide device of claim 7, wherein a bottom of the bracket is provided with a separate base, and the base is mounted on the bottom plate.

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