JP5927603B2 - Battery cover - Google Patents

Description

  The present invention relates to a battery cover that covers a battery terminal.

  2. Description of the Related Art Conventionally, there is a battery that electrically connects a battery and an electric wire using a battery terminal connected to a battery post of the battery and a connection terminal of the electric wire. When a battery and an electric wire are connected using such a battery terminal, it is important to prevent a short circuit between the battery terminal and the connection terminal. Therefore, in order to prevent a short circuit between the battery terminal and the connection terminal, a battery cover that covers the battery terminal and the connection terminal has been proposed (see, for example, Patent Document 1).

  The battery cover described in Patent Document 1 has a fitting engagement portion for engagement that fits into the wire connection portion or the connection terminal inside the cover. In addition, a floating stopper portion that has elasticity and is hooked to the annular portion with respect to movement in the cover removal direction is integrally formed inside the cover. Further, an elastic holding rib that elastically contacts the annular portion is integrally formed inside the cover.

JP 2006-40797 A

  By the way, in recent years, with the spread of hybrid cars, batteries have been arranged under the floor in the vehicle, for example, under the floor of the luggage compartment. In such a case, when the floor of the luggage compartment is bent downward by the load, the load is applied to the battery cover.

  However, since the conventional battery cover described above does not take into consideration that a load is applied, the battery cover may be deformed due to the influence of the load, and the load may be applied to the battery terminal. That is, there is a problem that the connection stability between the battery and the electric wire is lowered.

  To solve this problem, the battery cover's lower end surface is in contact with the upper surface of the battery, and the wall of the battery cover is thickened or a reinforcing rib is provided to provide strength against the load of the battery cover. It is conceivable to improve.

  However, when the wall of the battery cover is thickened or a rib for reinforcement is provided, there is a problem that the size of the battery cover becomes large, resulting in difficulty in space saving.

  This invention is made | formed in view of the above, Comprising: It aims at providing the battery cover which can improve the connection stability of a battery and an electric wire, implement | achieving space saving.

In order to solve the above-described problems and achieve the object, a battery cover according to claim 1 of the present invention comprises a battery terminal connected to a battery post of a battery, a connection terminal of an electric wire, and the connection terminal. In the battery cover to be covered, the battery cover includes a ceiling wall in which two or more upper surfaces having different heights are formed, and a lower surface of a high ceiling wall portion formed of a wall that forms the highest surface of the upper surfaces of the ceiling wall. from extending downward and provided with a load-bearing part which are formed so as the lower end surface is in contact with the upper surface of the battery, the load-bearing part is provided with a longitudinal rib on the inner surface, in contact with the lower end portion An area expansion rib is provided.

  The battery cover according to claim 2 of the present invention is characterized in that, in the above invention, the high ceiling wall portion is formed so that an upper surface thereof is formed in a solid flat shape.

  In the battery cover according to claim 3 of the present invention, in the above invention, the load support portion extends downward from a lower surface of the high ceiling wall portion, and a lower end surface is in contact with an upper surface of the battery. It is the side wall of the said battery cover formed in this.

  The battery cover according to claim 4 of the present invention is characterized in that, in the above invention, the load supporting portion is provided along a side portion of the battery terminal.

  The battery cover according to claim 1 of the present invention extends downward from the lower surface of the high ceiling wall portion formed of the wall forming the highest surface of the upper surface of the battery cover, and the lower end surface of the battery cover is the battery cover. By having a load support portion formed so as to be in contact with the upper surface of the above, by limiting the portion where the load is easily applied to the high ceiling wall portion, and increasing the strength against the load of the high ceiling wall portion, The load-bearing structure can be provided in the minimum necessary space, and as a result, the connection stability between the battery and the electric wire can be improved while realizing space saving.

  In the battery cover according to claim 2 of the present invention, the high ceiling wall portion is formed so that the upper surface is formed in a solid flat shape, so that the load is supported by a flat surface, and as a result, the load is stably supported.

  The battery cover according to claim 3 of the present invention is such that the load support portion extends downward from the lower surface of the high ceiling wall portion, and the lower end surface is in contact with the upper surface of the battery. Therefore, it is not necessary to separately provide a load support portion on the battery cover, and the connection stability between the battery and the electric wire can be improved while realizing space saving with a simple configuration.

  In the battery cover according to a fourth aspect of the present invention, since the load support portion is provided along the side portion of the battery terminal, the backlash of the battery cover is reduced and the battery cover is attached. The battery terminal can be easily attached as a reference.

FIG. 1 is an exploded perspective view of a battery connection unit having a battery cover according to an embodiment of the present invention. FIG. 2 is a top view of the battery connection unit shown in FIG. FIG. 3 is a diagram showing a cross section taken along line AA of the battery connection unit shown in FIG. 2 and a cross section of the floor of the luggage compartment. 4 is a side view of the battery connection unit shown in FIG. 5 is a cross-sectional view of the battery connection unit shown in FIG. 4 taken along line BB. 6 is a view of the battery cover shown in FIG. 1 as viewed from below. FIG. 7 is a diagram for explaining that a load is applied to the high ceiling wall portion of the battery cover. FIG. 8 is a perspective view of the battery cover of Modification 1 of the embodiment of the present invention. FIG. 9 is a perspective view of a battery cover according to Modification 2 of the embodiment of the present invention. FIG. 10 is a perspective view of a battery cover according to Modification 3 of the embodiment of the present invention.

  Hereinafter, preferred embodiments of a battery cover according to the present invention will be described in detail with reference to the drawings.

(Embodiment)
FIG. 1 is an exploded perspective view of a battery connection unit 100 having a battery cover according to an embodiment of the present invention. FIG. 2 is a top view of the battery connection unit 100 shown in FIG. FIG. 3 is a view showing a cross section taken along line AA of the battery connection unit 100 shown in FIG. 2 and a cross section of the floor of the luggage compartment. FIG. 4 is a side view of the battery connection unit 100 shown in FIG. 5 is a cross-sectional view of the battery connection unit 100 shown in FIG. 6 is a view of the battery cover shown in FIG. 1 as viewed from below.
The battery cover 1 according to the embodiment of the present invention covers the battery terminal 51 connected to the battery post 51 of the battery 50 and the connection terminal C of the electric wire W, and the connection terminal C.
In this embodiment, it is assumed that the battery 50 is disposed under the floor of the luggage compartment.

First, the known battery 50 and battery terminal 60 will be described.
The battery 50 is provided with a battery post 51 protruding in a column shape from the upper surface 50a.
As shown in FIG. 1, the battery terminal 60 includes an annular portion 61 wound around the battery post 51 and an electric wire connecting portion 62 to which the electric wire W is connected.
The annular portion 64 is formed with an insertion hole 61a through which the battery post 51 is inserted. The insertion hole portion 64a is fastened by a bolt B1 and a nut N1 so that the hole diameter is reduced. Therefore, the battery terminal 60 is fixed to the battery post 51 by being fastened by the bolt B1 and the nut N1 and the hole diameter of the insertion hole 61a is reduced.
The electric wire connection portion 62 is formed by planting a bolt B2. In the electric wire connecting portion 62, the bolt B2 is inserted into the insertion hole C1 formed in the connection terminal C of the electric wire W, and the electric wire W is fixed by being fastened by the bolt B2 and the nut N2.

Next, the battery cover 1 will be described.
The battery cover 1 is made of, for example, an insulating synthetic resin material, and includes a cover main body portion 10, an electric wire attachment portion 40 attached to an electric wire W drawn from the cover main body portion 10, an electric wire attachment portion 41, and the cover main body portion 10. It has the flexible connection part 41 which connects and has flexibility.

The cover main body 10 has a ceiling wall 20 and a peripheral side wall 30 erected downward along the edge of the ceiling wall 20, and is substantially box-shaped with an opening 10a formed at the lower end 10b. Make a shape.
The cover main body 10 includes a terminal accommodating portion 11 and a wire lead-out portion 12.

  As shown in FIGS. 5 and 6, the terminal accommodating portion 11 is an accommodating portion for accommodating the battery terminal 60, and includes a positioning portion 11 a for positioning the battery terminal 60 therein. The positioning portion 11 a is a wall that is erected downward from the lower surface 20 a of the ceiling wall 20 and is formed along the shape of the battery terminal 60. When the battery cover 1 is attached to the battery terminal 60, the battery cover 1 is arranged at a predetermined attachment position of the battery terminal 60 by the positioning portion 11a.

  The wire lead-out portion 12 is a housing portion that accommodates the periphery of the connection terminal C of the electric wire W, and is provided so as to protrude from the terminal housing portion 11 along the direction in which the electric wire W is drawn out. The wire lead-out portion 12 has a wire lead-out port 12 a that is an opening formed in the peripheral side wall 30. The electric wire W is drawn from the battery cover 1 through the electric wire outlet 12a.

Here, the ceiling wall 20 will be described in more detail.
The ceiling wall 20 is formed in a two-stage shape having a high position surface 21a at a position where the height of the upper surface 21 is relatively high and a low position surface 21b at a position where the top surface 21 is relatively low, thereby forming the high position surface 21a. A high ceiling wall portion 22 that is a wall portion to be formed, and a low ceiling wall portion 23 that is a wall portion that forms the low position surface 21b. In addition, the high position surface 21a is formed in the flat surface (solid plane) which spreads uniformly.
In this way, when the floor of the cargo compartment is bent by forming the surfaces with different heights on the ceiling wall 20, the floor of the cargo compartment is applied to the high position surface 21a before the low position surface 21b. It comes to be touched. Further, as shown in FIG. 3, the high position surface 21 a is formed so as to protrude into the space S between the battery cover 1 and the floor F, so that the space S is effectively used.

  The cover body 10 is configured such that a lower end surface 31 a of a peripheral side wall 30 (hereinafter referred to as a load supporting peripheral side wall 31) standing from the lower surface 22 b of the high ceiling wall portion 22 is in contact with the upper surface 50 a of the battery 50. ing. That is, the load support peripheral side wall 31 supports a load applied to the high ceiling wall portion 22 as a load support portion.

Further, the load supporting peripheral side wall 31 is provided with reinforcing ribs 32 as load supporting portions on the inner surface 31b or the outer surface 31c, so that the supporting strength is increased.
The reinforcing rib 32 includes a longitudinal rib 33 and a contact area expanding rib 34.

As shown in FIGS. 5 and 6, the vertical rib 33 includes a plurality of plate-like wall portions 33 a and a guide wall portion 33 c connected to the plate-like wall portion group 33 b.
Each plate-like wall portion 33a is erected so as to be substantially orthogonal to the inner surface 31b of the load supporting peripheral side wall 31 and downward from the lower surface 22b of the high ceiling wall portion 22 to the lower end 31d position of the load supporting peripheral side wall 31. It is a plate-like wall that extends. Each plate-like wall 33 a has a lower end surface 33 e in contact with the upper surface 50 a of the battery 50.

  The guide wall portion 33c is provided so as to connect the side end portion 33d of each plate-like wall portion 33a of the plate-like wall portion group 33b constituted by a plurality of adjacent plate-like wall portions 33a, and is connected to the battery terminal 60. It is a plate-like wall formed in a shape along the side part 63. The guide wall portion 33 c is a plate-like wall extending downward from the lower surface 22 b of the high ceiling wall portion 22 to the position of the lower end 31 d of the load supporting peripheral side wall 31. Such a guide wall portion 33 c has a lower end surface 33 f in contact with the upper surface 50 a of the battery 50.

  Thus, the vertical ribs 33 extend downward from the lower surface 22b of the high ceiling wall portion 22 to the position of the lower end 31d of the load supporting peripheral side wall 31, and the lower end surfaces 33e and 33f are in contact with the upper surface 50a of the battery 50. The supporting strength against the load of the load supporting peripheral side wall 31 is increased.

  Further, since the vertical ribs 33 are provided along the side portions 63 of the battery terminal 60, the backlash of the battery cover 1 is reduced, and when the battery cover 1 is attached, the battery terminal 60 can be attached as a reference. it can. Moreover, since the longitudinal ribs 33 are formed from the position of the lower end 31d of the load supporting peripheral side wall 31, the battery terminal 60 can be mounted on the basis of the battery terminal 60 when the battery terminal 60 is positioned in the opening 10a. It is like that.

  Furthermore, the longitudinal rib 33 has a cushioning property by the guide wall portion 33c being supported by the plate-like wall portion group 33b at a plurality of locations. For this reason, when the battery cover 1 is attached, even if the longitudinal rib 33 is in a position where it interferes with the battery terminal 60, the interference state is avoided by the cushion function and the attachment of the battery cover 1 is not deteriorated. Yes.

  The contact area expanding rib 34 is formed so that the lower end surface 31a of the load supporting peripheral side wall 31 extends in the horizontal direction, that is, the contact area between the upper surface 50a of the battery 50 and the lower end surface 10c of the battery cover 1 is expanded. It is a wall provided so as to protrude from the outer surface of the lower end 31 b of the load supporting peripheral side wall 31. The contact area expanding rib 34 is connected to the load supporting peripheral side wall 31 so as to increase the contact area between the lower end surface 10 c and the upper surface 50 a of the battery 50. Can be increased. That is, the strength against the load of the high ceiling wall portion 22 is increased by the contact area expanding rib 34.

Here, it will be described with reference to FIG. 7 that a load is applied to the high ceiling wall portion 22 of the battery cover 1. FIG. 7 is a view for explaining that a load is applied to the high ceiling wall portion 22 of the battery cover 1.
FIG. 7A is a diagram showing a state in which no load is placed on the floor F of the luggage compartment. FIG. 7B is a view showing a state in which a load is placed on the floor F of the luggage compartment and the floor starts to bend. FIG.7 (c) is the figure which showed the state by which the floor F of the luggage compartment was contact | abutted to the high position surface 21a.

As shown to Fig.7 (a), in the state in which the load is not mounted in the floor F of a luggage compartment, the floor F is a state which is not bent.
When a load is applied to the floor F due to the load placed on the floor F of the luggage compartment, the floor F begins to bend downward (see FIG. 7B).
When the amount of flexure of the floor F reaches an amount in contact with the battery cover 1, the high position surface 21a and the floor F of the cargo compartment are brought into contact (see FIG. 7C). At this time, the floor F is not in contact with the low position surface 21b at a lower position than the high position surface 21a. That is, a load is applied to the high position surface 21a, and no load is applied to the low ceiling wall portion 23.
As described above, when a load is applied to the high ceiling wall portion 22, the load is supported by the load support peripheral side wall 31 as the load support portion. In addition, the longitudinal ribs 33 increase the support strength and support the load.
Further, since the high position surface 21a is formed on a flat surface (solid plane) that spreads uniformly, the load is supported by the flat surface, and as a result, the load is stably supported.

  The battery cover 1 according to the embodiment of the present invention extends downward from the lower surface 22b of the high ceiling wall portion 22 formed of the wall forming the highest surface of the upper surface of the battery cover 1, and the lower end surface 31a. Since the load supporting peripheral side wall 31 is formed so as to be in contact with the upper surface 50a of the battery 50, the portion where the load is easily applied is limited to the high ceiling wall portion 22, and the load on the high ceiling wall portion 22 is limited. By increasing the strength, the load-bearing structure can be provided in the minimum necessary space, and as a result, the connection stability between the battery and the electric wire can be improved while realizing space saving.

  In addition, since the battery cover 1 according to the embodiment of the present invention is formed on a plane (solid plane) in which the high-position surface 21a is uniformly spread, the load is supported by the plane, and as a result, the load is stable. Supported.

  Further, the battery cover 1 according to the embodiment of the present invention is formed such that the load support portion extends downward from the lower surface 22b of the high ceiling wall portion 22 and the lower end surface 31a is in contact with the upper surface 50a of the battery 50. Since the load support peripheral side wall 31 of the battery cover 1 is provided, there is no need to separately provide a load support portion on the battery cover 1, and the connection stability between the battery and the electric wire can be improved while realizing space saving with a simple configuration. Can be improved.

  Further, since the battery cover 1 according to the embodiment of the present invention is provided with the longitudinal ribs 33 as the load support portions along the side portions 63 of the battery terminal 60, the backlash of the battery cover 1 is reduced. At the same time, when the battery cover 1 is attached, it can be easily attached on the basis of the battery terminal 60. In addition, since the longitudinal ribs 33 are formed from the position of the lower end 31d of the load supporting peripheral side wall 31, the battery terminal 60 can be attached with reference to the battery terminal 60 when the battery terminal 60 is positioned in the opening 10a.

(Modification 1)
Next, Modification 1 of the battery cover 1 according to the embodiment of the present invention will be described with reference to FIG. FIG. 8 is a perspective view of battery cover 2 of Modification 1 of the embodiment of the present invention.
The battery cover 2 of Modification 1 is different from the battery cover 1 of the embodiment in that the load support peripheral side wall 31 is provided instead of the load support peripheral side wall 31.
Other configurations are the same as those of the embodiment, and the same components as those of the embodiment are denoted by the same reference numerals.

  The load supporting peripheral side wall 70 has a notch 71 formed in a part of the lower end 70 a, and the portion where the notch 71 is formed does not contact the upper surface 50 a of the battery 50.

  The battery cover 2 of the first modification extends downward from the lower surface 22b of the high ceiling wall portion 22 formed of the wall forming the highest surface of the upper surface of the battery cover 2, and the lower end surface 31a is a battery. 50, the load supporting peripheral side wall 70 is formed so as to be in contact with the upper surface 50a. Therefore, the portion where the load is easily applied is limited to the high ceiling wall portion 22, and the strength against the load of the high ceiling wall portion 22 is increased. As a result, it is possible to provide a load-bearing structure in the minimum necessary space, and as a result, as in the embodiment, the connection stability between the battery and the electric wire is improved while saving space. Can do.

(Modification 2)
Next, Modification 2 of the battery cover 1 according to the embodiment of the present invention will be described with reference to FIG. FIG. 9 is a perspective view of the battery cover 3 of Modification 2 of the embodiment of the present invention.
The battery cover 3 of Modification 2 is different from the battery cover 1 of the embodiment in that it has a columnar support portion 80 instead of the load support peripheral side wall 31 as a load support portion.
Other configurations are the same as those of the embodiment, and the same components as those of the embodiment are denoted by the same reference numerals.

  The columnar support portion 80 is a columnar column that is erected at the four corners of the lower surface 22 b of the high ceiling wall portion 22, and is a high ceiling wall formed of a wall that forms the highest surface of the upper surface of the battery cover 3. The lower end surface 80 a extends downward from the lower surface 22 b of the portion 22, and the lower end surface 80 a is formed in contact with the upper surface 50 a of the battery 50.

  The battery cover 3 of Modification 2 extends downward from the lower surface 22b of the high ceiling wall portion 22 formed of the wall forming the highest surface among the upper surfaces of the battery cover 3, and the lower end surface 80a is the battery. 50. Since the columnar support portion 80 is formed so as to be in contact with the upper surface 50a of the 50, the portion where the load is easily applied is limited to the high ceiling wall portion 22, and the strength against the load of the high ceiling wall portion 22 is increased. As a result, the load-bearing structure can be provided in the minimum necessary space, and as a result, as in the embodiment, the connection stability between the battery and the electric wire can be improved while realizing space saving. it can.

(Modification 3)
Next, Modification 3 of the battery cover 1 according to the embodiment of the present invention will be described with reference to FIG. FIG. 10 is a perspective view of the battery cover 4 of Modification 3 of the embodiment of the present invention.
The battery cover 4 of Modification 3 is different from the battery cover 1 of the embodiment in that the upper surface of the battery cover 4 is formed in a three-stage shape.
Other configurations are the same as those of the embodiment, and the same components as those of the embodiment are denoted by the same reference numerals.

  The wall forming the highest surface of the battery cover 4 and the three-step upper surface is set as the high ceiling wall portion 22.

  The battery cover 4 of this modification 3 extends downward from the lower surface 22b of the high ceiling wall portion 22 formed of the wall forming the highest surface of the upper surface of the battery cover 4, and the lower end surface 31a is a battery. 50, the load supporting peripheral side wall 31 is formed so as to be in contact with the upper surface 50a. Therefore, the portion where the load is easily applied is limited to the high ceiling wall portion 22, and the strength against the load of the high ceiling wall portion 22 is increased. As a result, it is possible to provide a load-bearing structure in the minimum necessary space, and as a result, as in the embodiment, the connection stability between the battery and the electric wire is improved while saving space. Can do.

  In the embodiment of the present invention, the high position surface 21a is formed on a plane (solid plane) that spreads uniformly. However, the present invention is not limited to this. That is, as long as the load can be supported, the high position surface 21a may be a surface having a curved surface shape.

  In the embodiment of the present invention, an example in which the supporting strength is increased by providing the reinforcing rib 32 as the load supporting portion is exemplified. However, the reinforcing rib 32 may be omitted. That is, only the load supporting peripheral side walls 31 and 70 may function as a load supporting portion.

  As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment of the invention described above, but the invention is not limited to the embodiment of the invention described above, and departs from the gist thereof. Various changes can be made without departing from the scope.

1, 2, 3, 4 Battery cover 10 Cover body portion 10a Opening portion 10b Lower end 10c Lower end surface 11 Terminal accommodating portion 11a Positioning portion 12 Electric wire extraction portion 12a Electric wire extraction port 20 Ceiling wall 20a Lower surface 21 Upper surface 21a High position surface 21b Low position Surface 22 High ceiling wall portion 22b Lower surface 23 Low ceiling wall portion 30 Peripheral side wall 31, 70 Load supporting peripheral side wall 31a Lower end surface 31b Inner surface 31c Outer surface 31d Lower end 32 Reinforcement rib 33 Vertical rib 33a Plate-like wall portion 33b Plate-like wall portion group 33c Guide wall portion 33d Side end portion 33e, 33f Lower end surface 34 Contact area expansion rib 40 Electric wire attachment portion 41 Flexible connection portion 50 Battery 50a Upper surface 51 Battery post 60 Battery terminal 61 Annular portion 61a Insertion hole portion 62 Electric wire connection portion 63 side Part 70a lower end part 71 Notch portion 80 Columnar support portion 80a Lower end surface 100 Battery connection unit B1, B2 Bolt N1, N2 Nut W Electric wire C Connection terminal C1 Insertion hole S Space F Floor

Claims (4)

In the battery cover that covers the battery terminal, the battery terminal connected to the connection terminal of the electric wire, and the connection terminal,
The battery cover is directed downward from a lower surface of a high ceiling wall portion including a ceiling wall formed with two or more upper surfaces having different heights, and a wall forming the highest surface of the upper surfaces of the ceiling wall. extend, and a lower end surface and a load-bearing part made of formed in contact with the upper surface of the battery,
The load support portion is provided with a longitudinal rib on the inner surface and a contact area expansion rib on a lower end portion. The high ceiling wall is
The battery cover according to claim 1, wherein the upper surface is formed in a solid flat shape. The load support portion is
3. The battery cover according to claim 1, wherein the side wall of the battery cover is formed so as to extend downward from a lower surface of the high ceiling wall portion and to have a lower end surface in contact with an upper surface of the battery. Battery cover. The load support portion is
The battery cover according to claim 1, wherein the battery cover is provided along a side portion of the battery terminal.

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