JP5555091B2 - cover - Google Patents

Description

  The present invention relates to a cover that is rotatably supported between a first cover part and a second cover part.

  Some batteries mounted on vehicles or the like are directly attached with a fuse unit. If the battery post of the battery or the terminal part of the fuse unit is exposed, corrosion will occur due to water and dust, so cover the upper part of the part where the battery fuse unit is attached with the battery cover that is the cover. Is generally done.

  As this type of conventional battery cover, there is one shown in FIGS. 10 to 13 (see Patent Document 1). As shown in FIGS. 10 and 11, the battery cover 50 includes a first cover part 51, a second cover part 60, and a connecting part 70 disposed between the first cover part 51 and the second cover part 60. And.

  The first cover portion 51 includes a first upper surface wall 52 and a first side wall 53 disposed downward from the three edges of the first upper surface wall 52. The first cover surface 60 side of the first upper surface wall 52 is a first inclined surface portion 54 that is inclined downward.

The second cover portion 60 includes a second upper surface wall 61 and a second side wall 62 disposed downward from the three edge portions of the second upper surface wall 61. The first cover portion 51 side of the second upper surface wall 61 is a second inclined surface portion 63 that is inclined downward.

  The connecting part 70 is disposed at a position lower than the upper surfaces of the first cover part 51 and the second cover part 60. The connecting part 70 includes a connecting part 71 provided integrally with the second cover part 60 and a hinge part 72 fixed to one end of the connecting part 71. The second cover part 60 can rotate in the R direction with the hinge part 72 as a fulcrum.

  As shown in FIG. 12, in the closed position of the second cover part 60, the first cover part 51 and the second cover part 60 cover and protect the battery post 80, the battery connection terminal 81 and the fuse unit 82. When the second cover portion 60 is rotated to change from the closed position to the upper open position, the battery post 80, the battery connection terminal 81, and the like are exposed. Thereby, replacement work of the fuse unit 82, the battery connection terminal 81, etc., fuse inspection work, etc. can be performed.

  According to the above conventional example, the connecting portion 70 is located at a position lower than the upper surfaces of the first cover portion 51 and the second cover portion 60, so that it can only rotate to a position where the first inclined surface portion 54 and the second inclined surface portion 63 abut. . Thereby, the rotation range of the 2nd cover part 60 is controlled to about 90 degree | times which is a required range.

JP 2002-289171 A

  However, in the conventional example, since the second cover part 60 can only be rotated upward in the fuse unit 82, a peripheral member (for example, a ceiling) is provided near the upper part of the fuse unit 82 as shown in FIG. When 90 is located, the 2nd cover part 60 cannot be opened with sufficient opening degree. Therefore, the replacement work of the fuse unit 82, the battery connection terminal 81, etc., the fuse inspection work, etc. are hindered.

  Accordingly, the present invention has been made to solve the above-described problem, and provides a cover that can move the movable cover portion from the closed position to expose the internal components regardless of the arrangement state of the peripheral members. The purpose is to do.

The present invention includes a first cover part, a second cover part, and a connecting part that connects the first cover part and the second cover part, and the connecting part includes the first cover part and the second cover part. The second cover part is rotatable between the first cover part and the second cover part so as to be movable in the axial direction of rotation. The connecting part is connected to the first cover part and the second cover part. A support shaft provided on one of the two cover portions and a bearing portion provided on the other, the support shaft being provided with a length that can be moved in the axial direction while being supported by the bearing portion; The support shaft includes a stopper portion that is locked to the bearing portion at a normal position and a shift position in an axial direction .

  The movable side of the first cover part and the second cover part has a notch that avoids interference with internal parts on the side surface that is rearward with respect to the moving direction from the normal position covering the internal parts to the shift position. It is preferable to have a part.

  According to the present invention, for example, when the second cover portion is on the movable side and the peripheral member is positioned on the rotation locus of the second cover portion, the second cover portion is slid in the axial direction to move the internal component. Can be exposed. When the peripheral member is located on the side of the second cover part, the internal parts can be exposed by rotating the second cover part. Therefore, irrespective of the arrangement state of the peripheral members, the movable cover portion can be moved from the closed position to expose the internal parts as much as possible.

1A and 1B show a first embodiment of the present invention, in which FIG. 1A is a perspective view showing a state in which a battery cover is installed on an upper portion of a battery and a second cover portion is in a closed position, and FIG. FIG. 5 is a side view showing a state where the second cover portion is in a closed position. 1A and 1B show a first embodiment of the present invention, in which FIG. 1A is a perspective view showing a state where a battery cover is installed on an upper part of a battery and a second cover part is rotating, and FIG. The second cover part is a side view showing a state in the middle of rotation. 1A and 1B show a first embodiment of the present invention, in which FIG. 1A is a perspective view before assembly of a battery cover, and FIG. 2B is a cross-sectional view of a main part showing a state where a support shaft is pivotally supported by a bearing portion. 1 is a perspective view of a battery cover according to a first embodiment of the present invention. FIG. 5 is a perspective view of the battery cover according to the first embodiment of the present invention, viewed from the side wall side opposite to FIG. 4. It is a top view of the battery cover which shows 1st Embodiment of this invention and a 2nd cover part is located in a normal position. FIG. 4 is a plan view of the battery cover according to the first embodiment of the present invention in which a second cover portion is located at a first slide position. FIG. 4 is a plan view of the battery cover according to the first embodiment of the present invention in which a second cover portion is located at a second slide position. It is a top view of a battery cover which shows 2nd Embodiment. It is a perspective view of a battery cover which shows a conventional example. It is a top view of a battery cover which shows a prior art example. It is a side view which shows a prior art example, a battery cover is installed in the upper part of a battery, and a 2nd cover part shows the state of a closed position. It is a perspective view which shows a prior art example and shows the state in the middle of rotation from the closed position to the open position with the battery cover installed on the upper part of the battery.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
1 to 8 show a first embodiment of the present invention.

  1 and 2, the battery directly attached fuse unit 30 is fixed to a battery post 31a via a battery connection terminal 32.

  The battery cover 1 </ b> A as a cover is installed on the upper part of the battery 31. The battery cover 1A protects the battery post 31a, the battery connection terminal 32, and the fuse unit 30 which are internal components. Hereinafter, the configuration of the battery cover 1A will be described in detail.

  As shown in FIGS. 3 to 5, the battery cover 1 </ b> A includes a first cover part 2 and a second cover part 10, and the first cover part 2 and the second cover part 10 are connected by a connecting part 20 </ b> A. .

  The first cover portion 2 includes an upper surface wall 3 and side wall 4 that is suspended from the three edges of the upper surface wall 3. The first cover portion 2 covers a part of the upper half of the fuse unit 30. The side wall 4 is provided with locking portions 5 at a plurality of locations. Each locking portion 5 is locked to the fuse unit 30. As for the 1st cover part 2, the 2nd cover part 10 side is made into the open surface. The open surface side of the top wall 3 is an inclined surface portion 6 that is inclined downward toward the open end.

  The second cover portion 10 includes an upper surface wall 11 and a side wall 12 that is suspended from an edge of the upper surface wall 11. Unlike the conventional example, the side wall 12 is suspended only from two edges. One side surface of the second cover portion 10 is a notch portion 14 (shown in FIG. 5). The side surface defined as the notch portion 14 is a side surface that is rearward with respect to the moving direction from the normal position in the sliding direction of the second cover portion 10 to the first and second shift positions. The normal position, the first shift position, and the second shift position will be described below.

  The second cover portion 10 covers the upper half of the fuse unit 30, the battery connection terminal 32, and the battery post 31 a at the closed position in the rotation direction and the normal position in the slide direction. The second cover part 10 has an open surface on the first cover part 2 side. The open surface side of the top wall 11 is an inclined surface portion 13 that is inclined downward toward the open end.

  The connecting portion 20 </ b> A is disposed at a position lower than the upper surfaces of the first cover portion 2 and the second cover portion 10. The connecting portion 20 </ b> A includes a bearing portion 21 provided integrally with the first cover portion 2, and a shaft holding rod 22 and a support shaft 23 provided integrally with the second cover portion 10.

  The bearing portion 21 protrudes from the open end of the upper surface wall 3 of the first cover portion 2 toward the opening surface of the second cover portion 10. The bearing part 21 is comprised from three bearing pieces 21a-21c at intervals. Each bearing piece 21a-21c is substantially C-shaped by side view. The support shaft 23 is pivotally supported by fitting the support shaft 23 through the openings of the bearing pieces 21a to 21c.

  The shaft holding rod 22 protrudes from the open end of the upper surface wall 11 of the second cover portion 10. The shaft holding rod 22 is longer than the width dimension of the bearing portion 21 (the width dimension between the bearing piece 21a and the bearing piece 21c at both end positions) and protrudes toward the notch portion 14 of the second cover portion 10. Further, the shaft holding rod 22 has a function as a connecting portion of the conventional example when the second cover portion 10 is rotated.

  Similar to the shaft holding rod 22, the support shaft 23 is longer than the width dimension of the bearing portion 21 (the width dimension between the bearing piece 21 a and the bearing piece 21 c at both end positions) and is on the side of the notch portion 14 of the second cover portion 10. Is protruding. Both end portions of the support shaft 23 are fixed to both end portions of the shaft holding rod 22. The support shaft 23 is disposed with a gap between the support shaft 23 and the shaft holding rod 22 except at both ends. The bearing pieces 21a to 21c of the bearing portion 21 can support the support shaft 23 in a freely rotatable manner by utilizing this gap.

  That is, the second cover portion 10 is rotatable with respect to the first cover portion 2 with the support shaft 23 as a fulcrum, and is slidable. The second cover portion 10 is in a normal position in the sliding direction, and is between a closed position that covers a part of the upper half of the fuse unit 30, the battery connection terminal 32, and the battery post 31a and an open position that exposes them. Rotate. The second cover portion 10 is in a closed position in the rotational direction, and a normal position (position shown in FIG. 6) covering the upper half of the fuse unit 30, the battery connection terminal 32, and the battery post 31a, and the battery connection terminal 32. The post-fixing bolt 32a is slid between a first shift position (position in FIG. 7) and a second shift position (position in FIG. 8) exposed to the fuse unit fixing bolt 32b.

  Further, the support shaft 23 is provided with first and second stoppers 23a and 23b having circumferential protrusions that slightly protrude from the outer peripheral surface thereof. The first and second stoppers 23a and 23b restrict the movement of the support shaft 23 in the axial direction. However, when a predetermined force or more is applied in the axial direction of the support shaft 23, each of the bearing pieces 21a to 21c is elastically deformed in the diameter-expanding direction and can slide over the first and second stoppers 23a and 23b. The first stopper 23a positions the normal position of the second cover portion 10 as shown in FIG. 6 and the first shift position of the second cover portion 10 as shown in FIG. The second stopper 23b positions the first shift position of the second cover portion 10 as shown in FIG. 7 and the second shift position of the second cover portion 10 as shown in FIG.

  In the above configuration, in the normal state, as shown in FIGS. 1 (a) and 1 (b), the second cover portion 10 has the rotation direction at the closed position and the slide direction at the normal position. The battery cover 1 </ b> A covers the outer periphery of the battery post 31 a, the battery connection terminal 32, and the fuse unit 30.

  When performing parts replacement, inspection, etc., it is necessary to expose the inside of the second cover portion 10. Here, when the peripheral member is not located on the rotation locus of the second cover part 10, the second cover part 10 is rotated around the support shaft 23, and the second cover part 10 is changed from the closed position to the open position. To do. In the rotation of the second cover portion 10, the connecting portion 20 </ b> A is located at a position lower than the upper surfaces of the first cover portion 2 and the second cover portion 10, and therefore can rotate only to a position where both the inclined surface portions 6 and 13 abut. Thereby, the rotation range of the 2nd cover part 10 is controlled by about 90 degree | times.

  When a peripheral member (not shown) is positioned on the rotation trajectory of the second cover part 10, the second cover part 10 is slid. When the sliding movement is made to the first shift position, the post fixing bolt 32a is exposed as shown in FIG. The battery connection terminal 32 and the fuse unit 30 can be removed as a unit by loosening the post fixing bolt 32a. When sliding to the second shift position, the fuse unit fixing bolt 32b is exposed as shown in FIG. The fuse unit 30 can be removed by loosening the fuse unit fixing bolt 32b.

  Further, if the peripheral member (not shown) is off the rotation locus of the second cover portion 10 at the first shift position or the second shift position, the second cover portion is at the first shift position or the second shift position. 10 can be rotated from the closed position to the open position.

  As described above, the connecting portion 20A of the battery cover 1A is rotatable between the first cover portion 2 and the second cover portion 10, and is rotated between the first cover portion 2 and the second cover portion 10. It is provided so as to be movable in the axial direction. Therefore, as described above, the battery cover 31a, the battery connection terminal 32, and the fuse unit 30 can be exposed as much as possible by moving the second cover portion 10 from the closed position regardless of the arrangement state of the peripheral members (not shown). it can. Thereby, replacement work of the fuse unit 30, the battery connection terminal 32, etc., fuse inspection work, etc. are possible.

  The support shaft 23 of the connecting portion 20 </ b> A is provided with a length that can be moved in the axial direction while being supported by the bearing portion 21. Therefore, the shift amount of the second cover portion 10 can be freely adjusted by adjusting the length of the support shaft 23.

  The second cover portion 10 has a notch portion that avoids interference between the battery post 31 a, the battery connection terminal 32, and the fuse unit 30 on the side surface that is rearward with respect to the moving direction from the normal position covering the internal parts to the shift position. 14 Accordingly, the second cover portion 10 can be slid without being rotated at all.

(Second Embodiment)
FIG. 9 shows a second embodiment of the present invention. In FIG. 9, the battery cover 1B of the second embodiment is different from the first embodiment only in the configuration of the connecting portion 20B.

  That is, the connecting portion 20 </ b> B is integrally provided on the second cover portion 10, the shaft holding portion 25 provided integrally with the first cover portion 2, the support shaft 23 supported at both ends by the shaft holding portion 25, and the second cover portion 10. The connecting portion 26 and a bearing portion 21 provided on the distal end side of the connecting portion 26 are provided. That is, in the second embodiment, contrary to the first embodiment, the support shaft 23 is provided on the first cover portion 2 side, and the bearing portion 21 is provided on the second cover portion 10 side.

  The connecting portion 20B is disposed at a position lower than the upper surfaces of the first cover portion 2 and the second cover portion 10 as in the first embodiment.

  Since other configurations are the same as those of the first embodiment, description thereof will be omitted. The same reference numerals are given to the same components in FIG. 9 for clarification.

  Also in the second embodiment, similarly to the first embodiment, the second cover portion 10 is moved from the closed position regardless of the arrangement state of the peripheral members (not shown), the battery post (not shown), and the battery Connection terminals (not shown) and fuse units (not shown) can be exposed as much as possible.

(Other)
In each of the above embodiments, the cover is the battery cover 1A, 1B, but the present invention can of course be applied to other covers.

1A, 1B Battery cover 2 First cover part 10 Second cover part 14 Notch part 20A, 20B Connecting part 21 Bearing part 23 Support shaft 30 Fuse unit (internal part)
31a Battery post (internal parts)
32 Battery connection terminal (internal parts)

Claims (2)

A first cover part; a second cover part; and a connecting part that connects the first cover part and the second cover part.
The connecting portion is provided so as to be rotatable between the first cover portion and the second cover portion and to be movable in the axial direction of rotation between the first cover portion and the second cover portion , The connecting portion includes a support shaft provided on one of the first cover portion and the second cover portion and a bearing portion provided on the other, and the support shaft is supported by the bearing portion. The cover is provided with a length that can be moved in the axial direction while the support shaft has a stopper portion that engages with the bearing portion at the normal position and the shift position in the axial direction . A cover according to claim 1 Symbol placement,
The movable side of the first cover part and the second cover part has a notch that avoids interference with internal parts on the side surface that is rearward with respect to the moving direction from the normal position covering the internal parts to the shift position. A cover having a portion.

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