JP6426921B2 - Protective cover for electrical parts - Google Patents

Description

  The present invention relates to a protective cover for an electric component which is applied to protection of a battery terminal or a fuse unit connected to a battery post of a vehicle-mounted battery, and prevents corrosion due to short circuit due to contact with the outside or intrusion of water droplets.

  A battery terminal, a fuse unit, and the like for supplying power to an accessory and the like are connected to the battery post on the positive side of the in-vehicle battery. Such battery terminals and fuse units are usually protected by a protective cover made of a resin in order to prevent corrosion due to short circuit due to contact with the outside or intrusion of water droplets and the like.

  As a conventional example of the protective cover for this kind of electric parts, the thing of patent documents 1 is known. 19-22 show a protective cover for the conventional battery connection described in Patent Document 1. FIG.

  As shown in FIG. 19, this protective cover 201 is entirely formed as an integral molded product of resin, and is mounted and fixed on the battery side to cover the battery terminal and fuse unit directly attached to the battery post. A cover main body portion 210 and a cover opening / closing portion 230 which is connected to the cover main body portion 210 via a hinge portion 220 and can be opened and closed with an axis of the hinge portion 220 as a rotation center.

  An insertion piece 251 having a locking projection 253 on the tip end side is provided on the top wall of the cover opening / closing portion 230 in proximity to the hinge portion 220, and the top wall of the cover main body portion 210 is shown in FIGS. As shown in the drawing, at the time of the opening operation of the cover opening and closing portion 230, the insertion hole portion 240 into which the insertion piece 251 is inserted is provided. The insertion pieces 251 are provided close to both ends in the axial direction of the hinge portion 220, and the insertion holes 240 are provided in a pair corresponding to the position of the insertion pieces 251.

  Each insertion piece 251 is configured as a rib-like projecting wall along the rotation surface of the cover opening / closing portion 230, and each locking projection 253 of the pair of insertion pieces 251 is an outer surface of each insertion piece 251 or The inner surfaces are formed to protrude outward or inward from each other. In the illustrated example, the locking projections 253 are formed so as to protrude inward from each other on the inner side surface of each insertion piece 251.

  The insertion hole portion 240 is formed as a through hole, and as shown in FIG. 21 and FIGS. 22 (a) and 22 (b), an inclined surface 243 for smoothly guiding the insertion of the locking projection 253 at the inlet portion. Is formed. Further, the projection margin (projection height) of the locking projection 253 is set to correspond to the locking margin of the locking projection 253 with respect to the insertion hole portion 240. Further, the locking projection 253 is formed in a hemispherical shape.

The operation will be described next.
When the cover opening / closing unit 230 is opened, as shown in FIG. 20, the cover opening / closing unit 230 is raised by about 90 ° upward with the hinge unit 220 as a rotation center. As described above, when the cover opening / closing unit 230 is operated to the open position, the insertion piece 251 of the cover opening / closing unit 230 is gradually inserted into the insertion hole 240 of the cover main body 210.

  When the insertion piece 251 is inserted into the insertion hole portion 240, first, as shown in FIG. 22 (a), the locking projection 253 slides on the inner peripheral edge portion of the insertion hole portion 240, and insertion is performed. The piece 251 enters the depth of the insertion hole 240 while bending outward. When the locking projection 253 passes the inner peripheral edge of the insertion hole 240 with the approach to the back, as shown in FIG. 22 (b), the insertion piece 251 elastically returns inward at that position, The locking projection 253 is locked to the inner peripheral edge portion of the insertion hole portion 240, and the cover opening / closing portion 230 is held in the open state.

  Further, when the cover opening / closing portion 230 is locked in the open state as described above, the pair of the insertion piece 251 and the insertion hole portion 240 is provided, so that the cover opening / closing portion 230 is held by two points support. Become.

  Further, since the locking projections 253 of the pair of insertion pieces 251 are formed so as to protrude outward or inward, the locking projections 253 are brought into contact with the inner peripheral edge portion of the insertion hole portion 240 while being inserted into the insertion hole portion 240. When inserted, the direction of the lateral force received by the inner peripheral edge of each insertion hole 240 is in the opposite direction.

Unexamined-Japanese-Patent No. 2002-329492

  By the way, in the above-described conventional example, since the locking projection 253 provided on the side surface of the tip end portion of the insertion piece 251 is formed in a hemispherical shape, insertion when engaging the insertion piece 251 with the insertion hole portion 240 Force (operation force at the time of engagement) and locking retention force after the insertion piece 251 is engaged with the insertion hole portion 240 (retention force when the force in the direction in which the engagement is released acts) And were at the same level. Therefore, if the protrusion height of the locking projection 253 is increased to increase the holding force, the insertion force also increases and the workability at the time of insertion becomes worse, and conversely, the engagement at the time of the insertion is improved. When the protrusion height of the locking projection is reduced, there is a problem that the holding force is reduced. In addition, since the locking projection 253 is hemispherical, the load is concentrated on the apex during the engagement operation, and the apex is scraped by the sliding action of the repeated opening and closing operations, resulting in a reduction in holding power. As a result, there is also a problem that it is not possible to exert sufficient retaining power.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to reduce the operating force when engaging the engaging portion and the engaged portion and to improve the workability at the time of engaging operation. It is an object of the present invention to provide a protective cover for electric parts which can prevent the reduction of the locking retention force due to the repeated opening and closing operations of the cover opening and closing part.

In order to achieve the objective mentioned above, the protective cover for electrical parts concerning the present invention is characterized by following (1)-(9).
(1) A cover main body attached to and fixed to an electrical component, and a cover opening / closing part connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for electrical components,
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The side surface is formed as a steep downward inclined surface, and the steep downward inclined surface is a straight line connecting the lower end of the loose upward inclined surface and the lower end of the steep downward inclined surface, or the straight line The surface has a curved or planar shape that matches a part of the outer peripheral surface of the locking projection when formed in a hemispherical shape with a short straight line diameter, and continues from the loose upward inclined surface to the steep downward inclined surface middle part is, the engagement of the case where the formed hemispherically Located inside the outer peripheral surface of the projection,
The engaging portion and the engaged portion are respectively formed at two places along the axial direction of the hinge portion.
Each of the engaging portions is
The lock portion comprises a pair of rib-shaped lock pieces spaced in parallel with each other in the axial direction of the hinge portion, and each of the lock pieces has left-right symmetry with respect to an intermediate line between the lock pieces. A locking projection protruding outward or inward
Each of the engaged portions is
It consists of a pair of lock hole or lock frame mutually spaced apart in the axial direction of said hinge part, and mutually arranged in parallel, and said lock hole or said lock frame is provided with said locking projection of the corresponding lock piece. On the side, a locking edge which engages with the locking projection is formed inwardly or outwardly,
The distance between the pair of lock pieces constitutes one of the engagement portions, and the lock piece positioned on the other of the engagement portions and the other engagement portion constitute the one engagement portion Smaller than the distance to the lock piece located on the part side,
Protective cover for electrical parts characterized in that.
(2) A cover main body attached to and fixed to an electrical component, and a cover opening / closing part connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for electrical components,
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The intermediate portion, which is formed as a steep downward slope and continues from the loose upward slope to the steep downward slope, has a curved surface shape or a planar shape, the locking projection is the loose upward slope Located on the inner side of the outer peripheral surface of the locking projection when the lower end of the inclined surface and the lower end of the steep downward inclined surface are formed in a hemispherical shape,
The engaging portion and the engaged portion are respectively formed at two places along the axial direction of the hinge portion.
Each of the engaging portions is
The lock portion comprises a pair of rib-shaped lock pieces spaced in parallel with each other in the axial direction of the hinge portion, and each of the lock pieces has left-right symmetry with respect to an intermediate line between the lock pieces. A locking projection protruding outward or inward
Each of the engaged portions is
It consists of a pair of lock hole or lock frame mutually spaced apart in the axial direction of said hinge part, and mutually arranged in parallel, and said lock hole or said lock frame is provided with said locking projection of the corresponding lock piece. On the side, a locking edge which engages with the locking projection is formed inwardly or outwardly,
The distance between the pair of lock pieces constitutes one of the engagement portions, and the lock piece positioned on the other of the engagement portions and the other engagement portion constitute the one engagement portion Smaller than the distance to the lock piece located on the part side,
Protective cover for electrical parts characterized in that.
(3) The intermediate portion is a cut surface having a planar shape,
A protective cover for an electrical component according to the above (1) or (2), characterized in that
( 4 ) A locking projection is outwardly provided on the outer side surface of each of the lock pieces symmetrically with respect to the intermediate line between the lock pieces,
The distance when the pair of lock pieces is not bent at the two closest points of the pair of lock pieces when bent is larger than the sum of the projecting heights of the locking projections of the respective lock pieces. ,
A protective cover for an electrical component according to any one of the above (1) to (3) , characterized in that
( 5 ) The distance when the pair of lock pieces are not bent at the two closest points of the pair of lock pieces when bent is the sum of the projection heights of the locking projections of the respective lock pieces. Slightly larger than
The protective cover for the electrical component as described in said ( 4 ) characterized by the above-mentioned.
( 6 ) In each of the lock frames, on the side of the corresponding lock piece on which the locking protrusion is provided, a locking edge that engages with the locking protrusion is formed inward.
Each of the lock frames has a bottomed cylindrical shape in which recesses are disposed opposite to each other in the axial direction of the hinge portion, and the locking edge is formed as an edge of a peripheral wall of the recess Yes,
The protective cover for the electrical component as described in said ( 4 ) or ( 5 ) characterized by the above-mentioned.
( 7 ) Each of the lock frames consists of a single engagement hole formed by combining a pair of engagement holes or a pair of engagement holes, and is provided on the side of the corresponding lock piece on which the locking projection is provided. The edge of the hole is the locking edge,
The protective cover for the electrical component as described in said ( 4 ) or ( 5 ) characterized by the above-mentioned.
( 8 ) A cover main body attached to and fixed to an electric component, and a cover opening / closing part connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for electrical components,
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The side surface is formed as a steep downward inclined surface, and the steep downward inclined surface is a straight line connecting the lower end of the loose upward inclined surface and the lower end of the steep downward inclined surface, or the straight line The surface has a curved or planar shape that matches a part of the outer peripheral surface of the locking projection when formed in a hemispherical shape with a short straight line diameter, and continues from the loose upward inclined surface to the steep downward inclined surface The intermediate portion, which is Located inside the outer peripheral surface of the projection,
The engaging portion and the engaged portion are disposed outside of both axial ends of the hinge portion.
Protective cover for electrical parts, characterized in that.
(9) A cover main body attached to and fixed to an electric component, and a cover opening / closing part connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for electrical components,
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The intermediate portion, which is formed as a steep downward slope and continues from the loose upward slope to the steep downward slope, has a curved surface shape or a planar shape, the locking projection is the loose upward slope Located on the inner side of the outer peripheral surface of the locking projection when the lower end of the inclined surface and the lower end of the steep downward inclined surface are formed in a hemispherical shape,
The engaging portion and the engaged portion are disposed outside of both axial ends of the hinge portion.
Protective cover for electrical parts characterized in that.

According to the protective cover for the electric component of the above configuration (1) or (2), the side surface on the front side of the locking projection when the lock piece engages with the lock hole or lock frame is formed as a loose upward slope. Since the rear side surface is formed as a steep slope, the sliding resistance at the time of locking (insertion) (insertion force: operation force at the time of engagement) is reduced, and the engaging operation is performed. Workability at the time can be improved, and locking retention can be increased. In addition, since the intermediate portion transitioning from the loose upward slope to the steep downward slope is positioned inside the outer circumferential surface of the locking projection when formed in a hemispherical shape, when the cover opening and closing portion is repeatedly opened and closed. It is possible to reduce abrasion of the locking projection of the Therefore, the insertion force (the operation force at the time of engagement) does not change as the number of times of opening and closing increases in the section from the beginning of use until the scraping of the locking projection progresses, and the insertion force unchanged from the beginning of use Thus, it is possible to repeat the opening and closing, and to prevent the decrease in the locking retention force due to the repeated opening and closing operation of the cover opening and closing portion. In addition, since the locking projections are projected outward or inward from the side surface of the distal end portion of the lock piece that constitutes each engaging portion, the lateral direction when the lock piece is bent along with the progress of the engagement Force will be offset. Therefore, the shear force acting on the hinge can be reduced, and the durability of the hinge can be enhanced.
According to the protective cover for the electric component having the configuration of the above (1) or (2), while the middle portion is formed in a hemispherical shape, the locking protrusion is located inside the outer peripheral surface of the locking protrusion Can be miniaturized.
Further, according to the protective cover for the electric component of the configuration of the above (1) or (2), the pair of lock pieces are at a close distance from each other, so the lock pieces are affected by the resin flow at the time of resin molding The molding error of the above becomes small, and the locking performance is less likely to be adversely affected.
Further, according to the protective cover for the electric component of the configuration of the above (1) or (2), when the cover opening / closing portion is operated to the open position, the engaging portion and the engaged portion are engaged at a total of four places. Accordingly, the total retaining power can be enhanced without increasing the projecting height of the locking projections. Therefore, as compared with the case where the protruding height of the locking projection is increased, scraping of the locking projection can be reduced, and a sufficient locking function can be exhibited even in repeated opening and closing operations. In particular, since a pair of lock pieces constituting each engaging portion has a locking projection projecting outward or inward symmetrically with respect to an intermediate line between both the locking pieces, In each set of engaged portions, the lateral force when the lock piece bends as the engagement progresses is offset. Therefore, the shear force acting on the hinge can be reduced, and the durability of the hinge can be enhanced.
According to the protective cover for the electrical component of the configuration of the above (3), since the shape of the middle portion is simple, the shape of the locking projection can be simplified.
According to the protective cover for the electrical component of any one of the configurations ( 4 ) and ( 5 ), the pair of lock pieces bends at the two closest points of the pair of lock pieces when bent. The distance when not being bent is greater than the sum of the projecting heights of the locking projections of the locking pieces. For this reason, even when it bends most, since a pair of lock pieces do not contact, a lock piece can be bent appropriately. In particular, the distance between the pair of lock pieces is such that the distance when the pair of lock pieces is not bent at the two points is slightly larger than the sum of the projecting heights of the locking projections of the respective lock pieces. Can be minimized. If the pair of lock pieces are positioned as described above, the molding error between the lock pieces due to the influence of the resin flow at the time of resin molding becomes extremely small, and the adverse effect on the locking performance can be minimized.
According to the protective cover for the electric component of the above configuration ( 6 ), the locking projections are projected outward on the outer side surfaces of the pair of lock pieces, and the locking edges of the pair of lock frames are directed inward. Being formed, the distance between the pair of lock pieces can be set to the minimum, and within a small distance, the shearing force acting on the hinge can be offset. Further, since the pair of lock frames have a bottomed cylindrical shape in which the recesses are arranged to face each other in the axial direction of the hinge part, the strength of the lock frame can be improved, and the engaging part and the engaged part Can contribute to the improvement of the engagement strength of the
According to the protective cover for the electric component of the configuration of the above ( 7 ), since the locking projection protrudes outward on the outer surface of the pair of lock pieces, the distance between the pair of lock pieces is set to the minimum. The shear forces acting on the hinges can be offset within a small distance range. In addition, since the pair of lock frames is formed by a single engagement hole formed by combining the pair of engagement holes or the pair of engagement holes, a simple configuration with a small amount of protrusion can be achieved.
According to the protective cover for the electric component having the configuration of the above (8) or (9) , the respective engaging portions and the respective engaged portions are disposed outside the both axial ends of the hinge portion, in other words, Since it is not provided in the hinge part, the influence on the strength of the hinge part by arranging the engaging part and the engaged part can be reduced.

  According to the present invention, the operating force at the time of engaging the engaging portion and the engaged portion can be reduced, and the workability at the time of engaging operation can be improved, and the cover opening and closing portion is repeatedly opened and closed. It is possible to reduce the decrease in the locking retention force.

  The present invention has been briefly described above. Furthermore, the details of the present invention will be further clarified by reading the modes for carrying out the invention described below (hereinafter referred to as "embodiments") with reference to the attached drawings. .

FIG. 1 is a perspective view of the protective cover of the first embodiment of the present invention with the cover opening / closing portion closed. FIG. 2 is a perspective view when the cover opening / closing part of the first embodiment is opened. FIG. 3 is a plan view when the cover opening / closing portion of the first embodiment is closed. FIG. 4 is an enlarged view of an essential part of FIG. FIG. 5 is a cross-sectional view taken along the line XX in FIG. FIG. 6 is a characteristic diagram for explaining the performance of the first embodiment. FIG. 7 is a characteristic diagram for explaining another performance of the first embodiment. FIG. 8 is a perspective view of the protective cover of the second embodiment of the present invention with the cover opening / closing portion closed. FIG. 9 is a plan view when the cover opening / closing portion of the second embodiment is closed. FIG. 10 is an enlarged view of the circle A in FIG. 11 is a cross-sectional view taken along the line B-B in FIG. 12 is a cross-sectional view taken along the line C-C in FIG. FIG. 13 is a perspective view of the second embodiment of the present invention with the cover opening / closing portion opened. FIG. 14 is a side view of the second embodiment with the cover opening / closing portion opened. FIG. 15 is a plan view when the cover opening and closing portion of the second embodiment is opened. 16 is a cross-sectional view taken along the line DD in FIG. FIG. 17 is a cross-sectional view taken along the line E-E of FIG. 18 is a cross-sectional view taken along the line F-F in FIG. 19 (a) and 19 (b) are block diagrams of the conventional example, FIG. 19 (a) is a plan view, and FIG. 19 (b) is a side view. FIG. 20 is a side view showing how the cover opening / closing portion in the prior art is opened and closed. FIG. 21 is an enlarged view of the main part of FIG. 22 (a) and 22 (b) are explanatory views of the engagement of the insertion piece and the insertion hole in the conventional example, and FIG. 22 (a) is a view showing a state in the middle of the engagement; (B) is a figure which shows an engagement state.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First Embodiment
First, a first embodiment of the present invention will be described using FIGS. 1 to 7.
1 is a perspective view of the protective cover according to the first embodiment when the cover opening / closing portion is closed, FIG. 2 is a perspective view when the cover opening / closing portion is open, and FIG. 3 is a state where the cover opening / closing portion is closed 4 is an enlarged view of an essential part of FIG. 3, and FIG. 5 is a cross-sectional view taken along the line X-X of FIG.

  As shown in FIGS. 1 to 3, the protective cover 1 is a protective cover for the battery connection portion 600 which is entirely formed as an integral molded product of resin, and the battery terminal 601 directly attached to the battery post A cover main body 10 mounted and fixed on the battery side to cover the fuse unit 602, and the cover main body 10 are connected via a hinge 20 and can be opened and closed with the axis of the hinge 20 as a rotation center And the cover opening / closing portion 30. In the present embodiment, a battery is described as an example of the electrical component, but the present invention is not limited thereto. The present invention is also applicable to protective covers for electrical components such as electrical connection boxes and connectors.

  The cover main body 10 includes the wire lead-out portion 11 of the electric wires 610 and 620, the notch 12 having a rectangular shape in top view, and the open / close support 13 supporting the cover opening / closing portion 30 fitted in the notch 12 via the hinge 20. ,have. The battery connection portion 600 such as the battery terminal 601 and the fuse unit 602 is disposed in the notch portion 12, and by opening the cover opening / closing portion 30, necessary work for the battery connection portion 600 can be performed.

  The wire lead-out portion 11 and the opening / closing support portion 13 of the cover main body portion 10 respectively have upper walls 11a and 13a and side walls 11b and 13b so as to cover the portions to be protected. Is one step higher than the upper wall 13 a of the open / close support 13. Further, the cover opening / closing portion 30 has an upper wall 30a and a side wall 30b so as to cover the portion to be protected when the cover opening / closing portion 30 is closed, and the upper wall 30a of the cover opening / closing portion 30 is The height is set so as to be flush with the upper wall 11 a of the wire lead-out portion 11 when in the closed state. Further, a notch 30d (see FIG. 2) is provided at a necessary portion of the side wall 30b so as to avoid interference with the battery connection portion 600 or the like when the cover opening / closing portion 30 is closed.

  The hinge portion 20 is linearly formed at the boundary between the upper wall 13 a of the opening / closing support 13 of the cover main body 10 and the upper wall 30 a of the cover opening / closing portion 30. In this case, because the hinge 20 is provided at the height of the upper wall 13a of the opening / closing support 13 of the cover main body 10, the cover opening / closing at a position one step higher than the height of the upper wall 13a of the opening / closing support 13 At the side edge portion of the upper wall 30 a of the upper portion 30 a on the opening / closing support 13 side, an inclined surface 31 which is inclined downward toward the hinge portion 20 is provided. The hinge portion 20 is given flexibility by being formed thinner than the upper wall 30 a of the cover opening / closing portion 30 and the upper wall 13 a of the opening / closing support portion 13 of the cover main body portion 10.

  When the cover opening / closing unit 30 is operated to the open position as shown in FIG. 2 on the upper wall 13a of the opening / closing support 13 and the upper wall 30a of the cover opening / closing unit 30 in the vicinity of both axial ends of the hinge unit 20 Engaging portions 50A and 50B and engaged portions 40A and 40B which engage with each other to hold the cover opening / closing portion 30 in the open position are provided along the axial direction of the hinge portion 20, respectively.

  Each of the engaging portions 50A and 50B is configured by a pair of rib-like lock pieces 51 in a side view triangle. The pair of lock pieces 51 is formed as a projecting wall along the pivoting surface of the cover opening / closing portion 30 (surface perpendicular to the axis of the hinge 20), and in the direction perpendicular to the pivoting surface (axis of the hinge 20). Direction) are spaced parallel to one another. Then, in the middle of engagement, the tip end side can be bent in the direction perpendicular to the rotation surface. Note that the pair of lock pieces 51 in a side view triangle are disposed on the inclined surface 31 of the cover opening / closing part 30, and the upper end edge of the lock piece 51 protrudes so as to match the height of the upper surface of the cover opening / closing part 30 The dimensions are set.

  As shown in FIG. 4, on the outer surface of the tip portion of the pair of lock pieces 51 that can be bent in the direction perpendicular to the pivoting plane, an intermediate line L1 between the two lock pieces 51 (hereinafter referred to as an engagement portion The locking projections 53 are provided so as to protrude outward in a symmetrical manner with respect to 50A, 50B and "center line L1" of the engaged portions 40A, 40B. Between the inner side surfaces of the pair of lock pieces 51, a flexible space (clearance) 54 which allows the required amount of bending of both lock pieces 51 is secured. At this time, since the inner side surfaces of the pair of lock pieces 151 are tapered so as to be tapered toward the tip, the movable range of both lock pieces 151 is expanded.

  On the other hand, the engaged portions 40A, 40B respectively disposed corresponding to the engaging portions 50A, 50B are spaced apart in a direction (axial direction of the hinge portion 20) perpendicular to the rotation surface. It is constituted by a pair of lock frames 41. The pair of lock frames 41 has locking edges 43 with which the locking projections 53 of the pair of locking pieces 51 engage by utilizing the deflection of the locking pieces 51. It faces inward corresponding to the side in which the latching protrusion 53 was provided.

  In this case, the pair of lock frames 41 form a bottomed cylindrical type in which the recesses 42 are disposed to face each other in the direction perpendicular to the rotation surface, and the locking edge 43 is a peripheral wall of the recesses 42 It is formed as an edge of Further, as shown in FIG. 4, the distance from the center line L1 to the pair of locking edges 43 facing inward is H1, and the distance from the center line L1 to the outer surface of the locking piece 51 is H2, locking protrusion Assuming that the projection height of the projection 53 is H3 and the engagement margin (lap amount) of the engagement projection 53 with respect to the engagement edge 43 is H4, H1 = H2 and H3 = H4.

Further, the sum (H3 + H3) of the projection height H3 of each locking projection 53 is when the pair of lock pieces 51 are not bent at two points P1 closest to each other in the pair of lock pieces 51 when bent. It is larger than the distance (S). As a result, since the pair of lock pieces 51 do not contact when bent, the lock pieces 51 can be bent properly.
In particular, the distance S when the pair of lock pieces 51 is not bent at the two points P1 is slightly larger than the sum (H3 + H3) of the projection heights H3 of the locking projections 53 of the lock pieces 51 respectively. The distance between the lock pieces 51 can be minimized. Thus, with the pair of lock pieces 51 positioned, the molding error between the lock pieces 51 due to the influence of the resin flow at the time of resin molding becomes extremely small, and the adverse effect on the locking performance can be minimized. .

  Further, as can be seen from FIGS. 1 to 3, the engaging portions 50A, 50B and the engaged portions 40A, 40B are disposed on the outside of both axial ends of the hinge portion 20. And as shown in FIG. 3, compared with the distance Fb between the two lock pieces 51 located inside respectively among a pair of lock pieces 51 which constitute each engaging part 50A, 50B outside and inside, each The distances Fa and Fc between the pair of outer and inner lock pieces 51 are set to be quite small.

  This point will be specifically described. Now, as shown in FIG. 3, assuming that the positions of substantial engagement points of the four lock pieces 51 aligned in the axial direction from one to the other in the hinge portion 20 are E1, E2, E3, E4, each pair The distance between the two outer and inner locking pieces 51 which make up the distance is a distance Fa between E1 and E2 and a distance Fc between E1 and E2. Further, the distance between the two lock pieces 51 located inside of the pair of lock pieces 51 is a distance Fb between E2 and E3. Since the axial length D1 of the hinge portion 20 is set as long as possible to achieve bending stability, the distance Fb between the lock pieces 51 at the positions E2 and E3 on the outside thereof is It will be set quite long. On the other hand, it is desirable that the intervals Fa and Fc between the lock pieces 51 of each pair be set to a minimum according to the thickness of the lock piece 51 and the required deflection amount of the lock piece 51. It is set small.

Further, the locking projection 53 formed on the outer side surface of the locking piece 51 is configured as follows in detail.
Referring to FIGS. 4 and 5, when the cover opening / closing portion 30 is operated to the open position, first, the locking edge portion 43 is in sliding contact with the front side (left side in FIG. The side surface is formed as a loose upward inclined surface 53a. In addition, after passing over the loose upward inclined surface 53a due to the bending of the locking piece 51, the locking piece 51 is gradually brought out of bending by sliding contact with the locking edge 43 and the locking force between the locking edge 43 and The side surface on the rear side which generates H is formed as a downward inclined surface 53b which is steeper than the inclination angle of the inclined surface 53a. And the intermediate part which changes to loose steep slope 53b from loose upslope slope 53a is formed as flat cut face 53c parallel to the rotation face of hinge part 20. For this reason, the intermediate portion is formed as a cut surface in which the apex is located closer to the lock piece 51 than the plane including the loose upward inclined surface 53a.

  At this time, the cut surface 53c transitioning from the loose upward inclined surface 53a to the steep downward inclined surface 53b is the outer peripheral surface of the locking projection when formed in a hemispherical shape (the outer peripheral surface is indicated by the dotted line in FIG. 4) It is located more inside. In particular, as shown in FIG. 4, the cut surface 53 c is formed to have a hemispherical shape in which the lower end of the loose upward inclined surface 53 a and the lower end of the steep downward inclined surface 53 b are hemispherical. Located inside At this time, the shape of the locking projection, which is assumed to be formed hemispherical, is not limited to the hemispherical shape in which the lower end of the loose upward inclined surface 53a and the lower end of the steep downward inclined surface 53b are diameters. A semispherical shape having a smaller diameter than in the case where the lower end of the loose upward inclined surface 53a and the lower end of the steep downward inclined surface 53b are diameters may be assumed as the shape of the locking projection. In addition, although the surface shape of the middle portion is described as the flat cut surface 53c, the shape of the middle portion is not limited to the flat plane shape, and may be a curved shape, in other words, it bulges toward one point It may be a pyramidal shape or a shape other than an edge where two planes intersect so that a line segment is a vertex.

The operation will be described next.
When the cover opening / closing unit 30 is opened, as shown in FIG. 2, the cover opening / closing unit 30 is raised by about 90 ° upward with the hinge unit 20 as a rotation center. As described above, when the cover opening / closing unit 30 is operated to the open position, the two sets of lock pieces 51 forming the pair of the cover opening / closing unit 30 are gradually inserted inside the two sets of lock frames 41 forming the pair of the cover main body unit 10 I will be done.

  When the lock pieces 51 are inserted into the lock frame 41, the locking projections 53 of the lock pieces 51 slide while being in elastic contact with the locking edge portions 43 of the lock frame 41, and the lock pieces 51 It further enters the inside of the lock frame 41 while bending inward. Then, when the locking projection 53 passes through the locking edge 43 of the lock frame 41 with the entry, the lock piece 51 elastically returns outward, and the locking protrusion 53 is at the locking edge 43 of the lock frame 41. It is locked so that the cover opening / closing portion 30 is held in the open state. Therefore, while holding the open state of the cover opening / closing portion 30, operations such as attachment / removal of battery terminals and various connection terminals or fuse replacement can be easily performed.

  As described above, when the cover opening / closing portion 30 is operated to the open position, the engaging portions 50A, 50B and the engaged portions 40A, 40B are a total of four places (four lock pieces 51 and four lock frames 41). Since the locking is performed, the projection height of each locking protrusion 53 is increased, and the total amount (lapping margin) of the locking protrusion 53 and the locking edge 43 is not increased. Locking retention can be enhanced. Therefore, as compared with the case where the protruding height of the locking projection 53 is increased, it is possible to reduce scraping of the middle portion of the locking projection 53 and to exhibit a sufficient locking function even in repeated opening and closing operations. it can.

  In particular, since the locking projections 53 project outward in a symmetrical manner with respect to the center line L1 between the two lock pieces 51, the pair of lock pieces 51 constituting each of the engagement portions 50A and 50B are protruded. In each set of the engaging portions 50A, 50B and the engaged portions 40A, 40B, the lateral force when the lock piece 51 bends as the engagement progresses is offset. Therefore, the shear force acting on the hinge 20 can be reduced, and the durability of the hinge 20 against repeated opening and closing can be enhanced.

  Further, in the protective cover 1, the locking projections 53 are provided so as to protrude outward on the tip outer surface of the pair of lock pieces 51, and the locking edge portions 43 of the pair of lock frames 41 are formed inward. Therefore, the distances Fa and Fc between the pair of lock pieces 51 can be set to the minimum, and the shear force acting on the hinge 20 can be offset within a small distance range. Further, since the pair of lock frames 41 are in the form of a closed-end cylindrical type in which the recesses 42 face each other in the direction perpendicular to the rotational surface of the cover opening / closing portion 30, strength improvement of the lock frames 41 is achieved. This can contribute to an improvement in the engagement strength between the engaging portions 50A, 50B and the engaged portions 40A, 40B.

  Further, in the protective cover 1, the engaging portions 50A, 50B and the engaged portions 40A, 40B are disposed outside the axial ends of the hinge portion 20. The influence on the strength of the hinge 20 by arranging the engaging parts 40A and 40B can be reduced. Moreover, compared with the distance Fb between the two lock pieces 51 positioned on the inner side among the lock pieces 51 on the outer side and the inner side constituting the respective engaging portions 50A, 50B, the lock on the outer side and the inner side of each pair Since the distances Fa and Fc between the pieces 51 are set small, the pair of lock pieces 51 are close to each other, so that the molding error between the lock pieces 51 due to the influence of the resin flow at the time of resin molding is small. This makes it difficult to adversely affect the locking performance.

  Further, in this protective cover 1, the side surface on the front side of the locking projection 53 when the lock piece 51 engages with the lock frame 41 is formed as a loose upward inclined surface 53a, and the side surface on the rear side is an inclined surface. Since it is formed as 53b, the sliding resistance at the time of engagement (at the time of insertion) (also referred to as insertion force) can be reduced and the engagement force can be increased. In addition, the intermediate portion transitioning from the loose upward inclined surface 53a to the steep downward inclined surface 53b is formed as a flat cut surface 53c parallel to the pivoting surface of the hinge portion 20, and formed hemispherically. Since it is located inside the outer peripheral surface of the locking projection (the outer peripheral surface is described by a dotted line in FIG. 4), it is possible to reduce scraping of the locking projection 53 when the cover opening / closing portion 30 is repeatedly opened and closed. it can. Therefore, the insertion force does not change as the number of times of opening and closing increases in the section from the beginning of use until the removal of the locking projection progresses, and the insertion force (sliding resistance at the time of opening and closing) does not change from the beginning of use. Opening and closing can be repeated.

FIG. 6 is a characteristic diagram showing changes in the insertion force of the engaging portions 50A and 50B with respect to the engaged portions 40A and 40B in the conventional example and the embodiment of the present invention depending on the number of times of opening and closing the cover opening / closing portion 30.
As apparent from FIG. 6, in the conventional example, in the section where the number of times of opening and closing is small at the beginning of use, the protrusion height of the locking projection is large, so that the insertion force for engagement becomes large. As the scraping progresses, the insertion force tends to gradually decrease. However, in the embodiment of the present invention, since the removal of the locking projection 53 is reduced, the change in the insertion force is reduced even if the number of times of opening and closing increases from the beginning of use. Therefore, regardless of the number of times of opening and closing, it is possible to open and close with a constant insertion force.

FIG. 7 is a characteristic diagram showing a change in holding power of the engaged portions 40A, 40B and the engaging portions 50A, 50B in the conventional example and the embodiment of the present invention according to the number of times of opening and closing the cover opening / closing portion 30. .
As apparent from FIG. 7, in the conventional example, the holding power tends to be rapidly reduced due to the influence of the removal of the locking projection as the number of times of opening and closing increases, but in the embodiment of the present invention Even if it increases, it can exhibit the same holding power.

Second Embodiment
Next, a second embodiment of the present invention will be described with reference to FIGS.
8 is a perspective view of the second embodiment in which the cover opening / closing portion is closed, FIG. 9 is a plan view of the same, FIG. 10 is an enlarged view of the circle A of FIG. 9, and FIG. FIG. 12 is a cross-sectional view taken along the line C-C in FIG. 9. 13 is a perspective view of the second embodiment with the cover opening / closing portion opened, FIG. 14 is a side view, FIG. 15 is a plan view, and FIG. 16 is a sectional view taken along the line DD in FIG. FIG. 17 is a cross-sectional view taken along the line E-E in FIG. 15, and FIG. 18 is a cross-sectional view taken along the line F-F in FIG.

  In the first embodiment described above, as shown in FIG. 1, the cover opening / closing portion 30 is provided with the lock pieces 51 as the engaging portions 50A and 50B, and the cover main body portion 10 is the lock as the engaged portions 40A and 40B. Although the case where the frame 41 is provided and the lock frame 41 is formed in a bottomed cylindrical shape is shown, in the second embodiment, as shown in FIG. , 150B, and the cover opening / closing portion 130 is provided with the lock frame 141 as the engaged portions 140A and 140B, and the lock frame 141 is configured by the engagement hole 142. have. Further, another difference from the first embodiment is that the engaging portions 150A and 150B and the engaged portions 140A and 140B are disposed at positions inside the axial direction both ends of the hinge portion 120.

  As shown in FIGS. 8 to 18, the protective cover 101 is a protective cover for a battery connection portion which is entirely formed as an integral molded product of a resin, and a battery terminal or a fuse unit directly attached to a battery post A cover main body 110 attached and fixed to the battery side to cover the cover, and a cover open / close connected to the cover main body 110 via a hinge 120 and openable and closable about an axis of the hinge 120 And a unit 130. In the present embodiment, a battery is described as an example of the electrical component, but the present invention is not limited thereto. The present invention is also applicable to protective covers for electrical components such as electrical connection boxes and connectors.

  The cover main body portion 110 supports the main body portion 111 formed in an L shape in plan view as a whole, the cutout portion 112 having a rectangular shape in top view, and the cover opening / closing portion 130 fitted in the cutout portion 112 via the hinge portion 120. And a support portion 113. A battery connection portion such as a battery terminal or a fuse unit is disposed in the notch portion 112, and by opening the cover opening / closing portion 130, necessary work on the battery connection portion can be performed.

  The main body portion 111 of the cover main body portion 110 has an upper wall 111a, an inclined wall 111b connected to the upper wall 111a, and a side wall 111c connected to the upper wall 111a so as to cover the portion to be protected. The open / close support 113 is raised higher than the upper wall 111 a of the main body 111, and the peripheral surface of the open / close support 113 is provided with an inclined surface 114 inclined downward to the upper surface of the main body 111. Further, the cover opening / closing portion 130 is inclined with the upper wall 130a corresponding to the upper wall 111a, the inclined wall 111b and the side wall 111c so as to cover the portion to be protected similarly when the cover opening / closing portion 130 is closed. It has a wall 130 b and a side wall 130 c. The upper wall 130a of the cover opening / closing portion 130 is set to be flush with the upper wall 111a, the inclined wall 111b, and the side wall 111c of the main portion 111 when the cover opening / closing portion 130 is closed.

  The hinge 120 is located at the side edge of the rectangular cutout 112 on the side of the open / close support 113, and is linear at the boundary between the upper wall 111 a of the main body 111 and the upper wall 130 a of the cover open / close unit 130. It is formed. The hinge portion 120 is provided with flexibility by being formed thinner than the upper wall 130 a of the cover opening / closing portion 130 and the upper wall 113 a of the opening / closing support portion 113 of the cover main body portion 110. Further, as shown in FIG. 12, a reinforcing rib 115 is provided on the lower surface of the upper wall 111 a of the main portion 111 in the vicinity of the hinge portion 120.

  Further, the cover opening / closing portion 130 is in the open position as shown in FIGS. 13 and 14 on the inclined surface 114 of the cover main body 110 and the upper wall 130 a of the cover opening / closing portion 130 in the vicinity of both axial end portions of the hinge portion 120. Engaging portions 150A, 150B and engaged portions 140A, 140B are provided along the axial direction of the hinge portion 120, which engage with each other to hold the cover opening / closing portion 130 in the open position when operated. There is.

  Each of the engaging portions 150A and 150B is configured by a pair of rib-like lock pieces 151 in a side view triangle. The pair of lock pieces 151 are each formed as a projecting wall along the pivoting surface (surface perpendicular to the axis of the hinge 120) of the cover opening / closing portion 130, and in the direction perpendicular to the pivoting surface (axis of the hinge 120). Direction) are spaced parallel to one another. Then, in the middle of engagement, the tip end side can be bent in the direction perpendicular to the rotation surface. Note that the pair of lock pieces 151 in a side view triangle are disposed in a portion from the inclined surface 114 of the cover main body 110 to the upper wall 111 a of the main body 111, and the upper end edge of the lock piece 151 is the main body 111. The projecting dimension is set to coincide with the height of the upper surface of the open / close support 113 raised from the upper wall 111a.

  As shown in FIG. 10, an intermediate line L1 between the lock pieces 151 (hereinafter referred to as an engagement portion) is provided on the outer surface of the tip portion of the pair of lock pieces 151 that can be bent in the direction perpendicular to the pivoting surface. The locking projections 153 project outward in a symmetrical manner with respect to 150A, 150B and the “center line L1” of the engaged portions 140A, 140B. Between the inner side surfaces of the pair of lock pieces 151, a deflection space (a gap) 154 which allows deflection of a necessary amount of both lock pieces 151 is secured. At this time, since the inner side surfaces of the pair of lock pieces 151 are tapered so as to be tapered toward the tip, the movable range of both lock pieces 151 is expanded.

  On the other hand, as shown in FIG. 8, the engaged portions 140A and 140B respectively disposed corresponding to the engaging portions 150A and 150B are in a direction perpendicular to the rotation surface (axial direction of the hinge portion 120) And a pair of lock frames 141 disposed apart from each other. The pair of lock frames 141 have locking edges 143 with which the locking projections 153 of the pair of locking pieces 151 engage by utilizing the deflection of the locking pieces 151, and these locking edges 143 are It faces inward corresponding to the side in which the latching protrusion 153 was provided.

  In this case, the pair of lock frames 141 may be respectively configured as a pair of engagement holes, but in the present embodiment, one pair of engagement holes are formed as a single engagement hole 142. ing. And as shown in FIG. 11, the hole edge corresponding to the side in which each locking protrusion 153 of the engagement hole 142 is provided is made into the locking edge 143 engaged with the locking protrusion 153. In addition, the distance from the center line L1 to the pair of locking edges 143 facing inward is H1, the distance from the center line L1 to the outer surface of the locking piece 151 is H2, and the protruding height of the locking protrusion 153 is H3. Assuming that the locking margin (lap amount) of the locking projection 153 with respect to the locking edge 143 is H4, H1 = H2 and H3 = H4.

Further, the sum (H3 + H3) of the projection height H3 of each locking projection 153 is when the pair of lock pieces 151 is not bent at two points P1 closest to each other in the pair of lock pieces 151 when bent. It is made larger than the distance. As a result, since the pair of lock pieces 151 do not contact when bent, the lock pieces 151 can be bent properly.
In particular, the distance when the pair of lock pieces 151 is not bent at the two points P1 is slightly larger than the sum (H3 + H3) of the protruding heights H3 of the locking projections 153 of the lock pieces 151 respectively. The distance between the lock pieces 151 can be minimized. Thus, with the pair of lock pieces 151 positioned, the molding error between the lock pieces 151 due to the influence of the resin flow at the time of resin molding becomes extremely small, and the adverse effect on the locking performance can be minimized. .

  The engagement hole 142 may penetrate in the thickness direction of the cover opening / closing portion 130, but if it penetrates, foreign matter may enter the protective cover 101 from the engagement hole 142, so protection The walls 144, 145 cover the bottom of the engagement hole 142. The protective walls 144, 145 also serve as reinforcement around the engagement holes 142.

  Further, as can be seen from FIGS. 8 and 9, the engaging portions 150 A, 150 B and the engaged portions 140 A, 140 B are disposed inside the both axial ends of the hinge portion 120. Then, as shown in FIG. 9, each of the pair of outer and inner lock pieces 151 constituting each engaging portion 150A, 150B is compared with the distance Fb between the two lock pieces 151 located on the inner side, respectively. The distances Fa and Fc between the pair of outer and inner lock pieces 151 are set to be quite small.

  This point will be specifically described. Now, as shown in FIG. 9, assuming that the positions of substantial engagement points of the four lock pieces 151 aligned in the axial direction from one to the other in the hinge portion 120 are E1, E2, E3 and E4, each pair forms The distance between the two outer and inner locking pieces 151 is the distance Fa between E1 and E2 and the distance Fc between E1 and E2. Further, the distance between the two lock pieces 151 located inside of the pair of lock pieces 151 is a distance Fb between E2 and E3. And Fa and Fc are set smaller than Fb.

Further, the locking projection 53 formed on the outer side surface of the locking piece 51 is configured as follows in detail.
10 to 12, when the cover opening / closing portion 130 is operated to the open position, the front side (right side in FIG. 10) in which the lock piece 151 is gradually bent by sliding contact with the locking edge 143 first. The side surface of is formed as a loose upward inclined surface 153a. In addition, after passing over the loose upward inclined surface 153 a due to the bending of the locking piece 151, the locking piece 151 is gradually returned from the bending by sliding contact with the locking edge 143, and the locking force between the locking edge 143 and The side surface on the rear side (left side in FIG. 10) that generates the lower surface is formed as a downward inclined surface 153 b that is steeper than the inclination angle of the inclined surface 153 a. An intermediate portion transitioning from the loose upward inclined surface 153 a to the steep downward inclined surface 153 b is formed as a flat cut surface 153 c parallel to the pivoting surface of the hinge portion 120. For this reason, the intermediate portion is formed as a cut surface in which the apex is located closer to the lock piece 151 than the plane including the loose upward inclined surface 153a.

  At this time, the cut surface 153c transitioning from the loose upward inclined surface 153a to the steep downward inclined surface 153b is the outer peripheral surface of the locking projection when formed in a hemispherical shape (in FIG. 10, the outer peripheral surface is indicated by a dotted line) It is located more inside. In particular, as shown in FIG. 10, the cut surface 153c is formed in a hemispherical shape in which the lower end of the loose upward inclined surface 153a and the lower end of the steep downward inclined surface 153b are hemispherical than the outer peripheral surface of the locking projection. Located inside At this time, the steep downward inclined surface 153b corresponds to a part of the outer peripheral surface of the locking projection when the locking projection is formed in a hemispherical shape. In addition, the shape of the locking projection assumed to be formed in a hemispherical shape is not limited to a hemispherical shape in which the lower end of the gently rising inclined surface 153a and the lower end of the steep falling inclined surface 153b are diameters. A hemispherical shape having a smaller diameter than in the case where the lower end of the loose upward inclined surface 153a and the lower end of the steep downward inclined surface 153b have diameters may be assumed as the shape of the locking projection. In addition, although the surface shape of the middle portion is described as the flat cut surface 153c, the shape of the middle portion is not limited to the flat plane shape, and may be a curved shape, in other words, it bulges toward one point It may be a pyramidal shape or a shape other than an edge where two planes intersect so that a line segment is a vertex.

The operation will be described next.
When the cover opening / closing unit 130 is opened, as shown in FIGS. 13 and 14, the cover opening / closing unit 130 is lifted upward to a large angle exceeding 90 ° with the hinge unit 120 as a rotation center. Thus, when the cover opening / closing portion 130 is operated to the open position, the two sets of lock pieces 151 forming the pair of the cover main body 110 are gradually inserted into the two engagement holes 142 forming the pair of the cover opening / closing portion 130 go.

  When the lock pieces 151 are inserted into the engagement holes 142, as shown in FIGS. 16-18, the locking projections 153 of the lock pieces 151 are engaged with the locking edges 143 on both sides of the engagement holes 142. It slides while being elastically in contact, and the lock piece 151 further enters the inside of the engagement hole 142 while bending inward. Then, when the locking projection 153 passes the locking edge 143 of the engagement hole 142 with the entry, the lock piece 151 elastically returns outward, and the locking projection 153 is locked to the locking edge 143. The cover opening / closing portion 130 is held in the open state. Therefore, while holding the open state of the cover opening / closing portion 130, operations such as attachment / removal of battery terminals and various connection terminals or fuse replacement can be easily performed.

  When the cover opening / closing portion 130 is operated to the open position as described above, the engaging portions 150A, 150B and the engaged portions 140A, 140B have a total of four places (four locking protrusions 153 and four locking edges Since the locking is performed in 143), the projection height of each locking protrusion 153 is increased, and the wrap amount (locking margin) of the locking protrusion 153 and the locking edge 143 is not increased. , Can increase the total retaining power. Therefore, as compared with the case where the protruding height of the locking projection 153 is increased, it is possible to reduce scraping of the middle portion of the locking projection 153 and to exhibit a sufficient locking function even in repeated opening and closing operations. it can.

  In particular, since the locking projections 153 project outward in a symmetrical manner with respect to the center line L1 between the two lock pieces 151, the pair of lock pieces 151 constituting each of the engagement portions 150A and 150B are protruded. In each set of the engaging portions 150A and 150B and the engaged portions 140A and 140B, the lateral force when the lock piece 151 bends with the progress of the engagement is offset. Therefore, the shear force acting on the hinge portion 120 can be reduced, and the durability of the hinge portion 120 against repeated opening and closing can be enhanced.

  Further, in the protective cover 101, the locking projection 153 is projected outward on the tip outer surface of the pair of lock pieces 151, and the locking edge 143 of the engagement hole 142 is formed inward. The distances Fa and Fc between the pair of lock pieces 151 can be set to a minimum, and the shear force acting on the hinge 120 can be offset within a small distance. Further, since the pair of engagement holes corresponding to the pair of lock frames 141 are united into one engagement hole 142, a simple configuration with a small amount of protrusion can be achieved.

  Further, in the protective cover 101, each pair of lock pieces 151 on the outer side and the inner side constituting each engaging portion 150A, 150B is compared with the distance Fb between the two lock pieces 151 positioned on the inner side, respectively. Since the distances Fa and Fc between the outer and inner lock pieces 151 are set small, the lock pieces 151 forming the pair are close to each other, so the lock pieces 151 due to the influence of the resin flow at the time of resin molding The molding error between them becomes smaller, and the locking performance is less likely to be adversely affected.

  Further, in the protective cover 101, the side surface on the front side of the locking projection 153 when the lock piece 151 engages with the engagement hole 142 is formed as a loose upward inclined surface 153a, and the side surface on the rear side is steep. Since the surface 153 b is formed, the sliding resistance (also referred to as the insertion force) at the time of locking (at the time of insertion) can be reduced, and the locking force can be increased. In addition, the intermediate portion transitioning from the loose upward inclined surface 153a to the steep downward inclined surface 153b is formed as a flat cut surface 153c parallel to the pivoting surface of the hinge portion 120, and formed hemispherically. Since it is located inside the outer peripheral surface of the locking projection (the outer peripheral surface is described by a dotted line in FIG. 10), it is possible to reduce scraping of the locking projection 153 when the cover opening / closing portion 130 is repeatedly opened and closed. it can. Therefore, the insertion force does not change as the number of times of opening and closing increases in the section from the beginning of use until the removal of the locking projection progresses, and the insertion force (sliding resistance at the time of opening and closing) does not change from the beginning of use. Opening and closing can be repeated.

  The present invention is not limited to the embodiments described above, and appropriate modifications, improvements, etc. are possible. In addition, the material, shape, size, number, arrangement location, and the like of each component in the embodiment described above are arbitrary and not limited as long as the present invention can be achieved.

  For example, although the case where the locking projection 53 is formed outward on the outer surface of the lock piece 51 is shown in the first embodiment, the center line between the two lock pieces 51 is formed on the inner surface of the lock piece 51. It may be formed inward and symmetrical with respect to L1. In that case, if the pair of lock frames 41 is formed to have the locking edge portion 43 engaged with the locking protrusion 53 outward corresponding to the side on which the locking protrusion 53 is provided. Good. Therefore, it is also possible to form the pair of lock frames 41 integrally.

  Similarly, in the second embodiment, the case where the locking projection 153 is formed outward on the outer surface of the lock piece 151 is shown, but the center surface between the two lock pieces 151 is formed on the inner surface of the lock piece 151. It may be formed inward and symmetrical with respect to the line L1. In that case, the engagement holes corresponding to the pair of lock frames 141 are not combined into one as in the second embodiment, but are separately provided, and the engagement projections 153 are provided in the respective engagement holes. It is only necessary to form outward the locking edge 143 that engages with the locking projection 153, corresponding to the side that has been placed.

  Further, in the first embodiment, the engaging portions 50A and 50B including the pair of lock pieces 51 are provided on the cover opening / closing portion 30 side, and the engaged portion 40A including the pair of lock frames 41 on the cover main body portion 10; Although the case where 40B is provided is shown, conversely, the engaged portions 40A and 40B comprising the pair of lock frames 41 are provided on the cover opening / closing portion 30 side, and the pair of lock pieces 51 is provided on the cover main body portion 10 side. The engaging portions 50A, 50B may be provided.

  Similarly, in the second embodiment, the cover main body 110 is provided with the engaging portions 150A and 150B including the pair of lock pieces 151, and the cover opening / closing portion 130 is provided with the pair of lock frames 141 (the engagement holes 142 are equivalent). In the opposite case, the engaged portion 140A, which includes the lock frame 141 (corresponding to the engagement hole 142) on the cover opening / closing portion 130 side, is provided. 140B may be provided, and engaging portions 150A and 150B formed of a pair of lock pieces 151 may be provided on the cover main body 110 side.

Here, the features of the embodiment of the protective cover for the electric component according to the present invention described above will be briefly summarized and listed in the following (i) to (ix), respectively.
(I) A cover main body (10) to be attached and fixed to an electric component, and a cover connected to the cover main body via a hinge (20) and capable of opening and closing with an axis of the hinge being a rotation center A protective cover (1) for an electrical part comprising an opening / closing part (30),
The cover body portion and the cover opening / closing portion engage with each other when the cover opening / closing portion is operated to the open position, and hold the cover opening / closing portion in the open position (50A, 50B) An engaged portion (40A, 40B) is formed,
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece (51) which bends in the axial direction of the hinge portion in the middle of engagement, and is formed on the outer surface or the inner surface of the lock member A locking projection (53) projecting outward or inward;
The engaged portion includes a lock hole or lock frame (41) with which the locking projection of the lock piece engages by utilizing the deflection of the lock piece, and the lock hole or the lock frame corresponds to the corresponding one. A locking edge (43) engaging with the locking projection is formed inwardly or outwardly on the side of the locking piece provided with the locking projection,
The locking projection is formed as a loose upward slope (153a) on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. And after the loosely rising inclined surface is exceeded due to the deflection of the locking piece, the locking piece is brought into sliding contact with the locking edge to gradually release the locking piece from the deflection to generate a locking force between the locking edge and the locking edge. Side surface is formed as a steep downward slope (153b), and the steep downward slope is a part of the outer circumferential surface of the locking projection when the locking projection is formed in a hemispherical shape. The outer peripheral surface of the locking projection in the case where the middle portion (153c), which is identical and is continuous from the loose upward inclined surface to the steep downward inclined surface and whose surface is a curved shape or a planar shape, is formed hemispherically. Located more inside than
Protective cover for electrical parts characterized in that.
(Ii) A cover main body (10) attached to and fixed to an electrical component, and a cover connected to the cover main body via a hinge (20) and can be opened and closed with the axis of the hinge as a rotation center A protective cover (1) for an electrical part comprising an opening / closing part (30),
The cover body portion and the cover opening / closing portion engage with each other when the cover opening / closing portion is operated to the open position, and hold the cover opening / closing portion in the open position (50A, 50B) An engaged portion (40A, 40B) is formed,
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece (51) which bends in the axial direction of the hinge portion in the middle of engagement, and is formed on the outer surface or the inner surface of the lock member A locking projection (53) projecting outward or inward;
The engaged portion includes a lock hole or lock frame (41) with which the locking projection of the lock piece engages by utilizing the deflection of the lock piece, and the lock hole or the lock frame corresponds to the corresponding one. A locking edge (43) engaging with the locking projection is formed inwardly or outwardly on the side of the locking piece provided with the locking projection,
The locking projection is formed as a loose upward inclined surface (53a) on the front side which slides the locking piece in a sliding contact with the locking edge when the cover opening / closing portion starts to be moved to the open position. And after the loosely rising inclined surface is exceeded due to the deflection of the locking piece, the locking piece is brought into sliding contact with the locking edge to gradually release the locking piece from the deflection to generate a locking force between the locking edge and the locking edge. The middle portion (53c) having a curved surface shape or a planar shape whose surface on the rear side is formed as a steep downward inclined surface (53b) and which is continuous from the loose upward inclined surface to the steep downward inclination surface The locking projection is positioned inward of the outer circumferential surface of the locking projection when the locking projection is formed in a hemispherical shape having a diameter at the lower end of the loose ascending inclined surface and the lower end of the steep descending inclined surface;
Protective cover for electrical parts characterized in that.
(Iii) The intermediate portion is a cut surface having a planar shape,
A protective cover for an electrical component according to the above (i) or (ii), characterized in that
(Iv) The engaging portion and the engaged portion are respectively formed at two places along the axial direction of the hinge portion.
Each of the engaging portions is
The lock portion comprises a pair of rib-shaped lock pieces spaced in parallel with each other in the axial direction of the hinge portion, and each of the lock pieces has left-right symmetry with respect to an intermediate line between the lock pieces. A locking projection protruding outward or inward
Each of the engaged portions is
It consists of a pair of lock hole or lock frame mutually spaced apart in the axial direction of said hinge part, and mutually arranged in parallel, and said lock hole or said lock frame is provided with said locking projection of the corresponding lock piece. On the side, a locking edge which engages with the locking projection is formed inwardly or outwardly,
The distance between the pair of lock pieces constitutes one of the engagement portions, and the lock piece positioned on the other of the engagement portions and the other engagement portion constitute the one engagement portion Smaller than the distance to the lock piece located on the part side,
A protective cover for an electrical component according to any one of the above (i) to (iii), characterized in that
(V) Locking projections are outwardly provided on left and right sides of each of the lock pieces symmetrically with respect to an intermediate line between the lock pieces,
The distance (S) when the pair of lock pieces is not bent at the closest two points (P1) of the pair of lock pieces when bent is the projection height of the locking projection of each of the lock pieces. Greater than the sum of (H3 + H3),
A protective cover for an electrical component as set forth in (iv) above, characterized in that
(Vi) At the two closest points of the pair of lock pieces when bent, the distance when the pair of lock pieces is not bent is the sum of the projection heights of the locking projections of the lock pieces. Slightly larger than
A protective cover for an electrical component according to (v) above, characterized in that
(Vii) In each of the lock frames, on the side of the corresponding lock piece on which the locking projection is provided, a locking edge that engages with the locking projection is formed inward,
Each of the lock frames has a bottomed cylindrical shape in which the recesses (42) are arranged to face each other in the axial direction of the hinge portion, and the locking edge portion serves as an edge of the peripheral wall of the recess Is formed,
A protective cover for the electrical component according to the above (v) or (vi), characterized in that
(Viii) Each of the lock frames is composed of a pair of engagement holes (142) or a single engagement hole (142) in which a pair of engagement holes are united, and the locking projection of the corresponding lock piece is provided A hole edge provided on the closed side is the locking edge (143),
A protective cover for the electrical component according to the above (v) or (vi), characterized in that
(Ix) The engaging portion and the engaged portion are disposed outside of both axial ends of the hinge portion.
A protective cover for an electrical component according to any one of the above (i) to (viii), characterized in that

DESCRIPTION OF SYMBOLS 1 protection cover 10 cover main-body part 20 hinge part 30 cover opening / closing part 40A, 40B engaged part 41 lock frame 42 recessed part 43 locking edge part 50A, 50B engaging part 51 locking piece 53 locking protrusion 53a loose upward inclined surface 53b Steep downward inclined surface 53 c Flat cut surface 101 Protective cover 110 Cover body portion 120 Hinge portion 130 Cover opening / closing portions 140 A, 140 B Engaged portions 141 Lock frame 142 Engaging holes 143 Locking edge portions 150 A, 150 B Engaging portions 151 Locking piece 153 Locking projection 153a Loose upward inclined surface 153b Steep downward inclined surface 153c Flat cut surface L1 Intermediate line Fb between the lock pieces Distance Fa between two lock pieces located inside lock piece Fc Lock pieces on outer and inner side Distance between

Claims (9)

An electric component comprising: a cover main body attached to and fixed to an electric component; and a cover opening / closing unit connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for the
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The side surface is formed as a steep downward inclined surface, and the steep downward inclined surface is a straight line connecting the lower end of the loose upward inclined surface and the lower end of the steep downward inclined surface, or the straight line The surface has a curved or planar shape that matches a part of the outer peripheral surface of the locking projection when formed in a hemispherical shape with a short straight line diameter, and continues from the loose upward inclined surface to the steep downward inclined surface middle part is, the engagement of the case where the formed hemispherically Located inside the outer peripheral surface of the projection,
The engaging portion and the engaged portion are respectively formed at two places along the axial direction of the hinge portion.
Each of the engaging portions is
The lock portion comprises a pair of rib-shaped lock pieces spaced in parallel with each other in the axial direction of the hinge portion, and each of the lock pieces has left-right symmetry with respect to an intermediate line between the lock pieces. A locking projection protruding outward or inward
Each of the engaged portions is
It consists of a pair of lock hole or lock frame mutually spaced apart in the axial direction of said hinge part, and mutually arranged in parallel, and said lock hole or said lock frame is provided with said locking projection of the corresponding lock piece. On the side, a locking edge which engages with the locking projection is formed inwardly or outwardly,
The distance between the pair of lock pieces constitutes one of the engagement portions, and the lock piece positioned on the other of the engagement portions and the other engagement portion constitute the one engagement portion Smaller than the distance to the lock piece located on the part side,
Protective cover for electrical parts characterized in that. An electric component comprising: a cover main body attached to and fixed to an electric component; and a cover opening / closing unit connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for the
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The intermediate portion, which is formed as a steep downward slope and continues from the loose upward slope to the steep downward slope, has a curved surface shape or a planar shape, the locking projection is the loose upward slope Located on the inner side of the outer peripheral surface of the locking projection when the lower end of the inclined surface and the lower end of the steep downward inclined surface are formed in a hemispherical shape,
The engaging portion and the engaged portion are respectively formed at two places along the axial direction of the hinge portion.
Each of the engaging portions is
The lock portion comprises a pair of rib-shaped lock pieces spaced in parallel with each other in the axial direction of the hinge portion, and each of the lock pieces has left-right symmetry with respect to an intermediate line between the lock pieces. A locking projection protruding outward or inward
Each of the engaged portions is
It consists of a pair of lock hole or lock frame mutually spaced apart in the axial direction of said hinge part, and mutually arranged in parallel, and said lock hole or said lock frame is provided with said locking projection of the corresponding lock piece. On the side, a locking edge which engages with the locking projection is formed inwardly or outwardly,
The distance between the pair of lock pieces constitutes one of the engagement portions, and the lock piece positioned on the other of the engagement portions and the other engagement portion constitute the one engagement portion Smaller than the distance to the lock piece located on the part side,
Protective cover for electrical parts characterized in that. The intermediate portion is a cut surface having a planar shape,
A protective cover for an electrical component according to claim 1 or 2, characterized in that. Locking projections are projected outward on the outer side surface of each of the lock pieces symmetrically with respect to the intermediate line between the lock pieces,
The distance when the pair of lock pieces is not bent at the two closest points of the pair of lock pieces when bent is larger than the sum of the projecting heights of the locking projections of the respective lock pieces. ,
The protective cover for electrical parts according to any one of claims 1 to 3 , characterized in that. The distance when the pair of lock pieces is not bent at the two closest points of the pair of lock pieces when bent is slightly smaller than the sum of the projection heights of the locking projections of the respective lock pieces. Great for
A protective cover for an electrical component according to claim 4 , characterized in that. In each of the lock frames, a locking edge that engages with the locking protrusion is formed inward on the side of the corresponding locking piece on which the locking protrusion is provided,
Each of the lock frames has a bottomed cylindrical shape in which recesses are disposed opposite to each other in the axial direction of the hinge portion, and the locking edge is formed as an edge of a peripheral wall of the recess Yes,
A protective cover for an electrical component according to claim 4 or 5 , characterized in that. Each of the lock frames comprises a single engagement hole formed by combining a pair of engagement holes or a pair of engagement holes, and a hole edge provided on the side of the corresponding lock piece on which the locking projection is provided. A portion is the locking edge,
A protective cover for an electrical component according to claim 4 or 5 , characterized in that. An electric component comprising: a cover main body attached to and fixed to an electric component; and a cover opening / closing unit connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for the
Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The side surface is formed as a steep downward inclined surface, and the steep downward inclined surface is a straight line connecting the lower end of the loose upward inclined surface and the lower end of the steep downward inclined surface, or the straight line The surface has a curved or planar shape that matches a part of the outer peripheral surface of the locking projection when formed in a hemispherical shape with a short straight line diameter, and continues from the loose upward inclined surface to the steep downward inclined surface The intermediate portion, which is Located inside the outer peripheral surface of the projection,
The engaging portion and the engaged portion are disposed outside of both axial ends of the hinge portion.
Protective cover for electrical parts, characterized in that. An electric component comprising: a cover main body attached to and fixed to an electric component; and a cover opening / closing unit connected to the cover main body via a hinge and openable / closable about an axis of the hinge as a rotation center A protective cover for the
  Each of the cover main body and the cover opening / closing part has an engaging part and an engaged part which engage with each other when the cover opening / closing part is operated to the open position and hold the cover opening / closing part in the open position. Formed
  The engaging portion is formed perpendicularly to the axial direction of the hinge portion, and comprises a lock piece that bends in the axial direction of the hinge portion in the middle of engagement, and the outward surface or the inner surface of the lock portion faces outward or A locking projection projects inward,
  The engaged portion includes a lock hole or a lock frame with which a locking projection of the lock piece engages by utilizing a deflection of the lock piece, and the lock hole or the lock frame corresponds to that of the corresponding lock piece. A locking edge that engages with the locking projection is formed inward or outward on the side where the locking projection is provided,
  The locking projection is formed as a loose upward inclined surface on the front side which is in sliding contact with the locking edge and gradually bends the lock piece when the cover opening / closing portion starts to be moved to the open position. The back side of the locking piece comes into sliding contact with the locking edge to gradually release the locking piece from the bending to generate a locking force between the locking edge and the locking edge. The intermediate portion, which is formed as a steep downward slope and continues from the loose upward slope to the steep downward slope, has a curved surface shape or a planar shape, the locking projection is the loose upward slope Located on the inner side of the outer peripheral surface of the locking projection when the lower end of the inclined surface and the lower end of the steep downward inclined surface are formed in a hemispherical shape,
  The engaging portion and the engaged portion are disposed outside of both axial ends of the hinge portion.
  Protective cover for electrical parts characterized in that.

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