JP5924639B2 - Terminal cover - Google Patents

Description

  The present invention relates to a terminal cover that covers a battery post and a terminal portion of a battery.

  An electric power supply line is connected to a battery post that forms an electrode in a battery of an automobile or the like in order to supply electric power of the battery to an external device. A terminal portion is provided at the end of the power supply line, and the battery post and the power supply line are connected by connecting the terminal portion to the battery post. The terminal portion and the battery post are provided with an electrically insulating terminal cover that covers the terminal portion and the battery post in order to prevent a short circuit and leakage due to contact.

  As shown in Patent Document 1, the terminal cover is configured to be switchable between a closed state that covers the battery post 92 and the terminal portion 93 and an open state that opens them (FIG. 13). . This type of terminal cover 9 includes a cover portion 90 that covers the battery post 92 and the terminal portion 93, and a rotating shaft 91 that is disposed perpendicular to the axis of the battery post 92. In addition, the terminal portion 93 includes a bearing portion 931 that rotatably supports the rotary shaft 91. By arranging the rotation shaft 91 of the terminal cover 9 on the bearing portion 931 of the terminal portion 93, the terminal cover 9 can be rotated in the axial direction of the battery post 92 around the rotation shaft 91. Thereby, the terminal cover 9 can be opened and closed. As described above, by configuring the terminal cover 9 to be openable and closable, it is possible to easily access the terminal portion 93.

JP 2003-31204 A

However, the terminal cover 9 of Patent Document 1 has the following problems.
In the terminal cover 9, the terminal cover 9 cannot be opened and closed when a sufficient space cannot be secured above the battery.

  For example, when a battery is placed in a vehicle cabin, a laterally recessed battery placement space is formed on the side wall of the quarter panel or the like facing the vehicle cabin, and the battery is placed on the inside. There is a case. At this time, there may be a case where a sufficient working space cannot be secured above the battery due to the arrangement of components arranged in the vicinity. Therefore, in order to access the terminal unit 93, it is necessary to take out the battery from the battery placement space. Therefore, in such a case, access to the terminal unit 93 cannot be easily performed.

  The present invention has been made in view of the above-described background, and an object of the present invention is to provide a terminal cover that can easily access a terminal portion even when a space is insufficient above a battery.

One aspect of the present invention is an electrically insulating terminal cover that covers a battery post disposed on a battery and a terminal portion connected to the battery post,
A cover body for covering the battery posts and the terminal unit, a working port formed through the side surface of the cover main body has a lid for covering the working port,
The lid is configured to be switchable between a closed state that covers the work port and an open state in which the lid does not cover the work port ,
The lid body and the cover main body portion are integrally formed with an integral hinge including a first thin wall portion provided between the lid body and the cover main body portion, and the cover body portion is centered on the first thin wall portion. The terminal cover is configured to be rotatable with respect to the terminal cover (claim 1).

  The terminal cover includes the working port formed through the side surface of the cover main body, and the lid that covers the working port. The closed state in which the lid covers the working port; It is configured to be switchable to an open state in which the lid does not cover the work opening. That is, since the working port is formed on the side surface of the cover main body portion, when the lid of the working port is opened and closed, the working port is not easily affected by the space above the terminal cover. Therefore, for example, even when the upper space is narrow, the working port can be opened and closed, and access from the working port to the terminal portion can be facilitated.

Explanatory drawing which shows the assembly | attachment state of the terminal cover in Example 1. FIG. FIG. 3 is a front view showing a battery mounting state in the first embodiment. The top view which shows the mounting state of the battery in Example 1 (AA arrow sectional drawing in FIG. 2). FIG. 3 is an exploded explanatory view showing components in the first embodiment. The principal part enlarged plan view of the terminal part in Example 1. FIG. The principal part enlarged front view of the terminal part in Example 1 (Explanatory drawing of the arrow B direction in FIG. 5). The single figure of the terminal cover in Example 1. FIG. Explanatory drawing which shows the cross-sectional shape of the terminal cover in Example 1 (DD sectional view taken on the line in FIG. 1). Sectional drawing which shows the terminal cover which made the cover body the closed state in Example 1 (E-E arrow directional cross-sectional view in FIG. 1). Sectional drawing which shows the terminal cover which made the cover body the open state in Example 1 (cross-sectional view in the EE line arrow in FIG. 1). Explanatory drawing which shows the terminal cover which made the cover body the open state in Example 1. FIG. FIG. 3 is an explanatory diagram illustrating a terminal cover in the first embodiment in which a cover main body is opened. Explanatory drawing which shows the terminal cover in background art.

In the terminal cover, the lid and the cover main body are integrally formed with an integral hinge including a first thin portion provided between the two, and the lid is centered on the first thin portion. Further, it is configured to be rotatable with respect to the cover main body . Thereby , the said cover body and the said cover main-body part can be handled as one component, and the handling can be made easy.

In addition, the terminal unit includes a connection unit configured to be connectable to a detection unit of a battery tester that inspects the battery, and the working port can be formed at a position corresponding to the connection unit. (Claim 2 ). In this case, since the connection part is arranged inside the work opening, it is easy to grasp the position of the connection part. Therefore, it is possible to easily connect the detection unit and the connection unit.

Further, the work port may comprise an attitude regulating means for regulating the posture of the detecting portion of the battery tester (claim 3). For example, depending on the posture of the detection unit connected to the connection unit, the detection unit and peripheral components may interfere with each other. Therefore, by providing the posture regulating means, it is possible to regulate the posture of the detection unit and prevent interference between the detection unit and peripheral parts.

Further, the posture restricting means can be constituted by an inner peripheral end portion of the work opening (claim 4 ). In this case, the posture restricting means can be easily provided without complicating the structure of the terminal cover.

Another aspect of the present invention is an electrically insulating terminal cover that covers a battery post disposed on a battery and a terminal portion connected to the battery post,
A cover body that covers the battery post and the terminal; a work port that is formed through the side surface of the cover body; a lid that covers the work port; and a fixed portion that is fixed to the terminal. And
The lid is configured to be switchable between a closed state that covers the work port and an open state in which the lid does not cover the work port,
The cover body portion is configured to be rotatable with respect to the fixed portion, and is configured to be movable between a cover position that covers the battery post and the terminal portion, and an open position that exposes them. It is in the terminal cover characterized by the above-mentioned (Claim 5 ).
In this case, the cover main body can be opened upward of the battery. Therefore, when a space is secured above the battery, the cover main body portion can be opened upward to access the terminal portion. Thereby, it is possible to cope with various arrangement states with one component, and the degree of arrangement freedom can be improved.

Further, the cover main body part and the fixing part are integrally formed with an integral hinge comprising a second thin part provided between them, and the cover main body part is centered on the second thin part. It can comprise so that it can rotate with respect to the said fixing | fixed part (Claim 6 ). In this case, the cover body portion and the fixing portion can be handled as one component, and the handling can be facilitated.

Further, the cover body may include an engaging portion engaged with the terminal unit to regulate the position of the cover main body (claim 7). In this case, even when an external force is applied to the terminal cover, the terminal cover can be prevented from being detached from the terminal portion.

Example 1
An embodiment relating to a terminal cover will be described with reference to FIGS.
As shown in FIG. 1, the terminal cover 1 has an electrical insulating property and covers the battery post 31 disposed on the battery 3 and the terminal portion 2 connected to the battery post 31. The terminal cover 1 includes a cover main body portion 10 that covers the battery post 31 and the terminal portion 2, a work port 121 that is formed through the side surface of the cover main body portion 10, and a lid body 13 that covers the work port 121. Yes. The terminal cover 1 is configured to be switchable between a closed state (FIG. 9) where the lid 13 covers the work port 121 and an open state (FIG. 10) where the lid 13 does not cover the work port 121.

The terminal cover 1 of this example will be described in further detail.
This example shows a terminal cover 1 that covers a battery post 31 of a battery 3 disposed in a vehicle compartment and a terminal portion 2 connected to the battery post 31 in an automobile.

  As shown in FIGS. 2 and 3, the battery 3 is arranged inside a battery arrangement space 41 formed so as to be recessed in the lateral direction in the quarter panel arranged facing the vehicle interior. In the battery placement space 41, the distance between the ceiling surface 42 located above the battery 3 and the battery top surface 33 is smaller than the value obtained by adding the height of the battery post 31 to the height of the terminal cover 1. The terminal cover 1 cannot be opened upward with the battery 3 disposed in the space 41.

  Two battery posts 31 and 32 having a substantially frustoconical shape are disposed on the front side of the battery upper surface 33, one of which forms a plus electrode and the other of which forms a minus electrode. In this example, the battery post 31 shown in FIGS. 3 and 4 is a positive electrode, and the battery post 32 on the opposite side is a negative electrode. Therefore, the terminal cover 1 is disposed on the battery post 31 and the terminal portion 2 on the positive electrode side where a short circuit or electric leakage may occur due to contact.

  As shown in FIG. 4, the terminal portion 2 is connected to a wire harness 22 connected to a vehicle body side device, a terminal main body portion 21 connected to the battery post 31, a terminal main body portion 21, a wire harness 22, The fusible link 23 is arranged between the two.

  As shown in FIGS. 5 and 6, the terminal body 21 includes a terminal holding part 211 fixed to the battery post 31, a tightening part 213 for fastening the terminal holding part 211, and a terminal connection connected to the fusible link 23. Part 216. The terminal holding part 211 is formed in a substantially cylindrical shape so that the longitudinal direction of the substantially rectangular plate material is arranged on the circumference, and has an opening 212 on the circumference when viewed from the axial direction. When viewed from a direction orthogonal to the axial direction, it has a substantially truncated cone shape.

  Bolt insertion holes (not shown) are formed at the pair of end portions arranged in the opening 212 of the terminal holding portion 211, and a pair of tightening portions 213 are formed to stand radially outward. ing. By inserting the bolt 214 into the bolt insertion hole and fastening with the nut 215, the interval between the openings 212 is narrowed and the inner diameter of the terminal holding portion 211 is narrowed. Thereby, the terminal holding part 211 can be fixed to the battery post 31.

  The terminal connecting portion 216 is formed on a plane perpendicular to the axial direction of the terminal holding portion 211 from the lower end portion at a position opposite to the fastening portion 213 in the terminal holding portion 211 and on the opposite side to the fastening portion 213. It is extended toward.

  As shown in FIG. 4, the fusible link 23 includes a fuse 234 having a pair of electrodes, one electrode is connected to the wire harness 22, and the other electrode is connected to the bus bar 231.

As shown in FIGS. 5 and 6, the bus bar 231 is extended from the fusible link 23, and the terminal main body portion 21 is arranged so that the extending direction thereof is the same as the extending direction of the terminal connecting portion 216. It is arranged so as to overlap the upper surface. The bus bar 231 and the terminal connecting portion 216 are fastened and fixed to each other by a bolt 232 and a nut 233. As shown in FIG. 8, in this example, the width dimension W <b> 1 of the bus bar 231 is set larger than the width dimension W <b> 2 of the terminal connection portion 216, and the end portion of the bus bar 231 protrudes from the end portion of the terminal connection portion 216. Is arranged.
Further, in this example, the connection portion 24 that connects the detection portion 5 of the battery tester within the range in which the bus bar 231 is disposed and within the range of the posture regulating means 18 described later is used.

The battery post 31 and the terminal portion 2 connected as described above are covered with the terminal cover 1.
As shown in FIGS. 1 and 7, the terminal cover 1 is formed of an insulating resin having electrical insulation, and covers a cover body 10 that covers the battery post 31 and the terminal 2, and a side surface of the cover body 10. And the lid 13 covering the work port 121, and the fixed portion 16 fixed to the terminal portion 2.

  As shown in FIGS. 1, 3, and 8, the cover main body portion 10 includes a substantially rectangular cover upper surface portion 11 and a cover side surface portion 12 formed so as to hang downward from the cover upper surface portion 11. ing.

As shown in FIGS. 1 and 7, the cover side surface portion 12 that hangs down from one long side of the substantially rectangular shape that forms the cover upper surface portion 11 has a work port 121 formed therethrough. The work port 121 is formed to be disposed at a position corresponding to the connection portion 24 and on the opening side of the battery placement space 41 when the terminal cover 1 is assembled to the battery 3. The inner peripheral end 122 arranged on the side opposite to the fixed portion 16 in the working port 121 is formed at a position corresponding to the front end portion in the extending direction of the bus bar 231 when the terminal cover 1 is assembled to the battery 3. Yes.
In this example, the number of work ports 121 is one, but a plurality of work ports can be formed at arbitrary positions.

  As shown in FIGS. 9 and 10, the lid body 13 and the cover main body portion 10 that cover the work port 121 are located between the inner peripheral end portion 122 disposed above the work port 121 and the upper end of the lid body 13. It is integrally formed with an integral hinge comprising the first thin portion 14 provided, and the lid 13 is configured to be rotatable around the first thin portion 14. 9 is configured to be switchable between a closed state in which the lid body 13 shown in FIG. 9 covers the work port 121 and an open state in which the lid body 13 shown in FIG. In addition, the formation position of the 1st thin part 14 which connects the cover body 13 and the cover main-body part 10 is not restricted to said formation position, One inner peripheral edge part 122 of the work port 121, and this one It can be formed between the two inner peripheral ends and the end of the lid 13 that faces the inner peripheral end.

  As shown in FIGS. 8 to 10, the cover main body portion 10 includes a pair of engaging portions 17 that engage with the terminal portion 2 in order to regulate the position of the cover main body portion 10. The pair of engaging portions 17 includes an engaging main body portion 171 that hangs downward from the cover upper surface portion 11 of the cover main body portion 10 and an engaging claw portion 172 that protrudes from the engaging main body portion 171. The pair of engaging portions 17 are disposed in a direction orthogonal to the longitudinal direction of the substantially rectangular shape forming the cover upper surface portion 11 with a distance corresponding to the width W1 of the bus bar 231, and both end portions in the width direction of the bus bar 231. And can be engaged with each other.

  As shown in FIG. 11, the engaging portion 17 disposed on the working port 121 side is disposed on the inner side of the working port 121, and the inner peripheral end portion 122 and the engaging portion disposed on the opposite side to the fixed portion 16. The distance between the sensor 17 and the battery tester 5 corresponds to the width of the battery tester 5. Thereby, the inner peripheral end 122 and the engaging portion 17 constitute the posture restricting means 18 of the detecting portion 5, restrict the range in which the detecting portion 5 is inserted into the work port 121, and connect the detecting portion 5 to the connecting portion 24. The posture of the detection unit 5 when connected to can be regulated.

  In this example, the posture restricting means 18 is configured by the inner peripheral end 122 and the engaging portion 17 of the working port 121, but the present invention is not limited to this, and various structures can be used. For example, the posture restricting means 18 can be configured by only the inner peripheral end portion of the working port, or can be configured by providing a pair of restricting portions such as the engaging portion 17 inside the working port. Further, as shown in this example, it is possible to configure the inner peripheral end portion of the working port and the restricting portion in combination.

  As shown in FIGS. 1, 3, and 4, the fixing portion 16 is fixed so as to cover the fuse included in the fusible link 23, and has a substantially rectangular shape corresponding to the outer shape of the fusible link 23 when viewed from above. The fixed upper surface part 161 and the fixed side wall part 162 distribute | arranged so that it may hang down from the outer periphery of the fixed upper surface part 161 are provided. In the fixed side wall part 162, fixed engagement claws (not shown) are formed on the two fixed side wall parts 162 arranged in a direction orthogonal to the direction in which the cover main body part 10 and the fixed part 16 are arranged. It is configured to be engageable with an engaged portion (not shown) formed on the link 23. Thereby, the fixing portion 16 is fixed to the fusible link 23.

  As shown in FIGS. 1 and 12, the fixing portion 16 and the cover main body portion 10 have an integral hinge including a second thin portion 15 provided between the fixing side wall portion 162 and the cover side surface portion 12 facing each other. The cover body 10 is integrally formed, and is configured to be rotatable about the second thin portion 15. The second thin wall portion 15 is formed on a plane parallel to the cover upper surface portion 11, and covers the battery post 31 and the terminal portion 2 shown in FIG. 1 and the cover main body portion 10 shown in FIG. It is configured to be movable between an open position that rotates and exposes the battery post 31 and the terminal portion 2. In addition, the 2nd thin part which connects a fixing | fixed part and a cover main-body part can be formed in various positions according to the shape of a fixing | fixed part and a cover main-body part.

Next, the effect of this example is demonstrated.
The terminal cover 1 has a working port 121 formed through the side surface of the cover main body 10 and a lid 13 that covers the working port 121. The lid 13 covers a closed state that covers the working port 121, and a lid. The body 13 is configured to be switchable to an open state where the work port 121 is not covered. That is, since the work port 121 is formed on the side surface of the cover body 10, the work port 121 is not easily affected by the space above the terminal cover 1 when the lid 13 of the work port 121 is opened and closed. Therefore, for example, even when the upper space is narrow, the work port 121 can be opened and closed, and access from the work port 121 to the terminal unit 2 can be facilitated.

  In the terminal cover 1, the lid 13 and the cover main body 10 are integrally formed with an integral hinge composed of a first thin portion 14 provided therebetween, and the lid 13 forms the first thin portion 14. It is configured to be rotatable at the center. Therefore, the lid 13 and the cover main body 10 can be handled as one component, and the handling can be facilitated.

  The terminal unit 2 includes a connection unit 24 configured to be connected to a detection unit 5 of a battery tester that inspects the battery 3, and the work port 121 is formed at a position corresponding to the connection unit 24. is there. Thereby, since the connection part 24 is distribute | arranged inside the work port 121, it is easy to grasp | ascertain the position of the connection part 24. FIG. Therefore, the connection work between the detection unit 5 and the connection unit 24 can be easily performed.

  Further, the work port 121 is provided with a posture regulating means 18 for regulating the posture of the detection unit 5 of the battery tester. For example, depending on the attitude of the detection unit 5 connected to the connection unit 24, the detection unit 5 and peripheral components may interfere with each other. Therefore, by providing the attitude regulating means 18, the attitude of the detection unit 5 can be regulated, and interference between the detection unit 5 and peripheral parts can be prevented.

  Further, the posture regulating means 18 includes at least a part of the work port 121 by an inner peripheral end 122. Therefore, the posture restricting means 18 can be easily provided without complicating the structure of the terminal cover 1.

  The terminal cover 1 includes a fixed portion 16 that is fixed to the terminal portion 2, and the cover main body portion 10 is configured to be rotatable with respect to the fixed portion 16, and covers the battery post 31 and the terminal portion 2. It is configured to be movable between a position and an open position where these are exposed. Therefore, the cover body 10 can be opened toward the upper side of the battery 3. Therefore, when a space is secured above the battery 3, the cover body 10 can be opened upward to access the terminal 2. Thereby, it is possible to cope with various arrangement states with one component, and the degree of arrangement freedom can be improved.

  The cover main body 10 and the fixed portion 16 are integrally formed with an integral hinge including a second thin wall portion 15 provided between the cover main body portion 10 and the fixed portion 16, and the cover main body portion 10 is centered on the second thin wall portion 15. Is configured to be rotatable. In this case, the cover main body portion 10 and the fixing portion 16 can be handled as one component, and the handling can be facilitated.

  In addition, the cover main body 10 includes an engaging portion 17 that engages with the terminal portion 2 in order to regulate the position of the cover main body 10. Therefore, even when an external force is applied to the terminal cover 1, it is possible to prevent the terminal cover 1 from being detached from the terminal portion 2.

DESCRIPTION OF SYMBOLS 1 Terminal cover 10 Cover main-body part 121 Work port 13 Cover body 2 Terminal part 3 Battery 31, 32 Battery post

Claims (7)

An electrically insulating terminal cover that covers a battery post disposed on the battery and a terminal portion connected to the battery post,
A cover body for covering the battery posts and the terminal unit, a working port formed through the side surface of the cover main body has a lid for covering the working port,
The lid is configured to be switchable between a closed state that covers the work port and an open state in which the lid does not cover the work port ,
The lid body and the cover main body portion are integrally formed with an integral hinge including a first thin wall portion provided between the lid body and the cover main body portion, and the cover body portion is centered on the first thin wall portion. The terminal cover is configured to be rotatable with respect to the terminal. 2. The terminal cover according to claim 1, wherein the terminal portion includes a connection portion configured to be connectable to a detection unit of a battery tester that inspects the battery, and the work port corresponds to the connection portion. A terminal cover characterized in that it is formed at the position . The terminal cover according to claim 2, wherein the work opening is provided with a posture regulating means for regulating a posture of the detection unit of the battery tester . 4. The terminal cover according to claim 3, wherein the posture restricting means is constituted by an inner peripheral end portion of the working port . An electrically insulating terminal cover that covers a battery post disposed on the battery and a terminal portion connected to the battery post,
A cover body that covers the battery post and the terminal; a work port that is formed through the side surface of the cover body; a lid that covers the work port; and a fixed portion that is fixed to the terminal. And
The lid is configured to be switchable between a closed state that covers the work port and an open state in which the lid does not cover the work port,
The cover body portion is configured to be rotatable with respect to the fixed portion, and is configured to be movable between a cover position that covers the battery post and the terminal portion, and an open position that exposes them. A terminal cover characterized by that. The terminal cover according to claim 5, wherein the cover main body part and the fixing part are integrally formed with an integral hinge comprising a second thin part provided between the two, and the cover main body part is A terminal cover configured to be rotatable with respect to the fixed portion around the second thin portion . The terminal cover according to any one of claims 1 to 6, wherein the cover main body portion includes an engaging portion that engages with the terminal portion in order to regulate a position of the cover main body portion. Features terminal cover.

Images