This application is related to co-pending application “HOLDER-MOUNTING STRUCTURE” filed concurrently herewith in the names of Makoto Nakayama and Takahiko Mitsui, which application is assigned to the assignee of the instant application and is incorporated by reference herein.
This application claims priority to Japanese Patent Application No. 2010-072775, filed Mar. 26, 2010, which is incorporated by reference herein.
1. Field of the Invention
The present invention relates to a holder-mounting structure configured for mounting of (a) a holder having an electric component to (b) a holder mounting portion provided in an electrical junction box.
2. Description of the Related Art
Automobile and other vehicles incorporate various electronic devices. In order to deliver supply of electricity to these various electronic devices, the automobiles include electrical junction boxes that integrate electric components such as connectors, relays, and fuses, the junction boxes being provided between a power source and the electronic devices. A holder mounting portion is provided in the electrical junction box, and a holder having at least one electric component (which is referred to as “component-equipped holder” throughout this specification) is mounted to the holder mounting portion
A known mounting structure of this type is disclosed, for example, in Japanese Patent Application Laid-Open Publication No. H5-159693.
The component-equipped holder comprises an electric component such as a fuse and a holder to which the fuse is attached. The holder is formed in a shape of a cylinder having a bottom. Also, the holder includes a guide hole into which the fuse is slidably inserted. The fuse is attached to the holder in a state where the fuse is fitted in the guide hole.
The holder mounting portion has a cylindrical shape and inserted slidably into the holder. Also, the holder mounting portion is partitioned by a plurality of partition walls so that a plurality of female terminals are accommodated therein. When the holder is slidably inserted into the holder mounting portion, a terminal of the fuse is pressed into the female terminal so that the fuse is connected to the female terminal.
A downside to such a state-of-the-art component-equipped holder is that the female terminal connected to the electric wire may be positioned in a displaced state with respect to its legitimate position defined by design due to distortion and obliquity in the female terminal caused by the electric wire being pulled. Meanwhile, the fuse is fitted into the guide hole so that its displacement with respect to the holder is prevented. Accordingly, the fuse is moved close to the female terminal displaced with respect to the legitimate position. In this case, the female terminal may be forcibly and/or torsionally inserted, which requires a larger force (i.e., an insertion force). Further, when the female terminal is forcibly and/or torsionally inserted, the fuse may experience deformed or damaged.
In view of the above identified problems, an object of the present invention is to provide a component-equipped-holder mounting structure that reduces the insertion force in insertion of the electric component in the mating terminal by virtue of inserting the electric component is inserted to the mating terminal without forcible or torsional insertion thereof and prevents deformation and damage to the mating terminal.
According to a first aspect of the present invention, there is provided a component-equipped-holder mounting structure comprising: (a) an electric component; (b) a holder configured to hold the electric component; and (c) a holder mounting portion.
The electric component includes a housing and a terminal extending from the housing.
The holder includes (i) a holder body, (ii) a pair of holder arms extending from the holder body and being configured to position the housing of the electric component therebetween, the holder arms being configured to hold the electric component displaceably such that the electric component is positioned in a longitudinal direction of a mating terminal to be connected to the electric component, and (iii) a locking portion protruding from the pair of holder arms and being configured to be brought into locking engagement with the housing of the electric component; and
The holder mounting portion includes an accommodating portion configured to accommodate therein a mating terminal with the holder slidably inserted into the holder mounting portion.
Preferably, a dimension of the pair of holder arms from the holder body to the locking portion is defined such that a gap is created between the holder body and the housing.
Preferably, the pair of holder arms are sized and dimensioned to provide a gap between the holder arms and the housing.
Preferably, the pair of locking portions are sized and dimensioned to provide a gap between the locking portions and a part of the electric component residing between the locking portions.
Some objects, features and advantages of the present invention include, but not limited to, effective and reliable prevention of deformation and damage to the mating terminal and reduction in the insertion force for inserting the electric component into the mating terminal. Other objects, features, and advantages of the present invention will be apparent in view of this disclosure to those skilled in the art.
The above and other objects and advantages of the present invention will be apparent upon reading of the following detailed description, taken in conjunction with the following accompanying drawings, in which like reference numerals represent corresponding parts throughout:
A component-equipped-holder mounting structure according to one embodiment of the present invention is described hereinafter with reference to
Referring to
The mounting structure 1 comprises (A) the component-equipped holder 2 and (B) a holder mounting portion 7.
The component-equipped holder 2 includes (a) an electric component, and (b) a holder 4 including a holder body 41 and at least one pair of holder arms 49 protruding from the holder body 41 and configured for positioning of a housing 31 therebetween. In this embodiment, the electric component is a fuse 3.
The holder mounting portion 7 includes an accommodating portion 71 into which the component-equipped holder 2 having a mating terminal accommodated therein is slidably inserted. In this embodiment, the mating terminal is a tuning-fork-type terminal 61 adapted to be connected to the fuse 3.
Referring to
The housing 31 includes a rectangular housing body 33 from which the terminals 36 protrude (in the Y-direction); a pair of first locking portions 34; a pair of protective plate portions 35 extending in parallel with a direction in which the pair of terminals 36 are arranged (i.e., a direction indicated by an arrow Z, which is hereafter referred to as Z-direction) and adapted to clamp the fusible member 37 therebetween; and a housing mounting portions 30 each provided at each of ends of the each of the protective plate portions 35 in the Z-direction and adapted to clamp an end of the pair of terminals 36, the end being proximal to the fusible member 37. It should be noted that the arrow Z represents a direction orthogonal to the arrow Y. Also, the Z-direction is the direction in which the pair of terminals 36 are juxtaposedly arranged.
The pair of first locking portions 34 are provided at an end of the housing body 33 away from the terminals 36. The pair of first locking portions 34 are each provided at corresponding each of both edges of the one end of the housing body 33 away from the terminal 36 and extend in the direction indicated by the arrow X, and provided convex in a direction in which the both ends of the housing body 33 becomes away from each other in the direction indicated by the arrow X (hereafter referred to as X-direction. The first locking portion 34 extends over an entire length of the housing body 33 in the Z-direction. It should be noted that the arrow X represents a direction orthogonal to both of the arrow Y and the arrow Z. Also, the X-direction is the direction in which the first locking portions 34 protrude toward the holder arm 49.
The protective plate portions 35 have a shape of a plate. An end of the protective plate portion 35 in the Y-direction continues to the first locking portion 34. The protective plate portions 35 protrude to an extent larger than an extent of protrusion of a later-described housing mounting portion 30 in the X-direction.
The housing mounting portion 30 has a shape of a plate. An end of the housing mounting portion 30 in the Y-direction continues to the housing body 33.
One end of each of the pair of terminals 36 in the Y-direction is embedded in the housing body 33, and an end of each of the pair of terminals 36, the end on the side of the fusible member 37 in the Z-direction, is clamped by the housing mounting portion 30, so that an end of each of the terminals 36, the end being away from the fusible member 37 in the Z-direction is exposed (see
Referring to
The holder body 41 includes a pair of protruding portions 44. A top surface 41a of the holder body 41 is flat.
The pair of protruding portions 44 are each provided at corresponding each of both ends of the holder body 41 in the X-direction and over an entire length of the holder 4 in the Z-direction. Also, the pair of protruding portions 44 each protrude from the both ends of the holder body 41 in the X-direction. The protruding portions 44 and the top surface 41a are flush with each other.
The holding portion 42 is provided at a central portion of the holder body 41. The holding portion 42 includes at least one pair of holder arms 49 (two pairs in the illustrated example), and a second locking portion 45 adapted to be brought into locking engagement with the first locking portion 34 of the housing 31. The two pairs of the holder arms 49 are provided on a per-pair basis at corresponding each of the both ends of the holding portion 42 in the Z-direction. Each of the holder arms 49 extends from the holder body 41 in the Y-direction. Also, the pair of holder arms 49 are spaced from each other and configured to be elastically deformable toward and away from each other (in the X-direction). Also, the pair of holder arms 49 are configured for positioning of the fuse 3 such that the terminal 36 extends in a space between the holder arms 49. Specifically, the pair of holder arms 49 are configured for positioning of the housing 31 therebetween. The arrow X indicates a direction in which the pair of holder arms 49 are arranged.
Referring to
The pair of legs 43 each extend in a shape of a plate from the holder body 41 in the Y-direction to be spaced from each other, and include a pair of plate portions 46 configured for positioning of the holding portion 42 therebetween; a pair of arm portions 47 provided such that they are aligned with the plate portion 46 in the X-direction and spaced from the plate portion 46; and a pair of connecting portions 48 configured to connect the distal ends of the pair of the arm portions 47 with respect to the holder body 41 to the plate portion 46.
The plate portion 46 includes a complete-locking portion 50 protruding from the outer surface of the plate portion 46 away from the fuse 3.
The complete-locking portion 50 is provided at an end of the plate portion 46 away from the holder body 41. Also, the complete-locking portion 50 includes a first tapering portion 50a slanting from an end of the complete-locking portion 50 closer to the holder body 41 toward a central portion in the Y-direction and in a direction away from the outer surface; and the second tapering portion 50b slanting from the end of complete-locking portion 50, the end being a distal end with respect to the holder body 41 (i.e., an end of the plate portion 46) toward the central portion in the Y-direction and in a direction away from the outer surface. The slanting of the second tapering portion 50b is moderate relative to that of the first tapering portion 50a.
The arm portion 47 has a shape of a rod. The arm portion 47 is elastically deformable in the X-direction. An end of the arm portion 47 continues to the holder body 41, and the other end thereof is connected via the connecting portion 48 to an end of the plate portion 46, and the arm portion 47 is adapted to be held at two points.
Also, the arm portion 47 includes a provisional-locking portion 51. The provisional-locking portion 51 protrudes from the outer surface of the arm portion 47, the outer surface being away from the plate portion 46. The provisional-locking portion 51 is provided at the central portion of the arm portion 47 in the Y-direction, and arranged closer to the holder body 41 than the complete-locking portion 50 is.
The provisional-locking portion 51 includes a vertical surface 51a provided at an end of the provisional-locking portion 51 closer to the holder body 41 and vertically extending with respect to the outer surface; and a tapering portion 51b slanting from an end of the provisional-locking portion 51 away from the holder body 41 toward the central portion in the Y-direction and away from the outer surface.
Still referring to
An electrical junction box is constructed to be mounted in an automobile and distribute electrical power supply from a power source to various electronic devices. The electrical junction box includes a plurality of busbars 6 adapted to connect the fuse 3, a relay, and a connector to each other in accordance with a predetermined pattern; a busbar mounting portion made of insulating synthetic resin in a shape of a plate and adapted to attach a plurality of busbars 6 thereto; and a holder mounting portion 7 adapted to attach the component-equipped holder 2 to the busbar mounting portion.
The busbar 6 is made from a conductive metal plate with punching and bending provided as required. Referring to
The busbar mounting portion includes a plurality of through-holes. The tuning-fork-type terminal 61 is attached to the busbar mounting portion with a tip of the tuning-fork-type terminal 61 passed through the through-hole. In this manner, the tuning-fork-type terminal 61 is attached to the busbar mounting portion such that it upstands from the busbar mounting portion in the Y-direction. Also, the busbar mounting portion includes a relay mounting portion configured for mounting of the relay, and a connector mounting portion configured for mounting of the connector. The relay mounting portion and the connector mounting portion each have a shape of a frame complementary to the outer shapes of the relay and the connector attached to the relay mounting portion and the connector mounting portion. When the relay is attached to the relay mounting portion, the relay is electrically connected to the busbar 6. When the connector is attached to the connector mounting portion, the connector is electrically connected to the busbar 6.
Referring again to
Referring to
The fuse cavity 72b includes, as shown in
The fuse accommodating portion 77 is provided in a shape of a recess on a mounting surface 7b to which the fuse 3 of the electrical junction box is mounted. When the complete-locking portion 50 of the component-equipped holder 2 is brought into locking engagement with the complete-locking engagement portion 74 of the holder mounting portion 7, the fuse 3 is accommodated in the fuse accommodating portion 77, and thus the fuse 3 is electrically connected to the tuning-fork-type terminal 61 passed through the terminal accommodating portion 76.
The terminal accommodating portion 76 extends straight in the Y-direction and through the holder mounting portion 7.
The pair of leg-accommodating portions 73 are arranged such that the fuse cavity 72b resides therebetween in the Z-direction, and the leg-accommodating portions 73 and the fuse cavity 72b (its terminal accommodating portion 76) are separated from each other by the partition wall 79. Also, the leg-accommodating portion 73 includes a groove 78 provided in a shape of a recess on the inner surface 73a on which the outer surface of the plate portion 46 is disposed in an overlapping manner. The complete-locking portion 50 is passed through the groove 78.
The complete-locking engagement portion 74 protrudes from a bottom surface of the groove 78 provided in the shape of a recess.
Still referring to
Further, there are provided a plurality of fuse cavities 72a, 72c around the holder mounting portion 7. The fuse cavities 72a, 72c and the fuse cavity 72b (and accordingly, accommodating portion 71) are arranged in the X-direction. Also, the fuse cavities 72a, 72c include a fuse accommodating portion 77 adapted to accommodate therein a fuse (to which the holder 4 is not mounted), and a pair of terminal accommodating portions 76 configured to accommodate therein the pair of tuning-fork-type terminals 61.
The following describes the construction and arrangement of the component-equipped-holder mounting structure 1 of the holder. First, the housing 31 of the fuse 3 is moved close to a space between the pair of holder arms 49 in the Y-direction. Further, when the fuse 3 is moved toward the innermost portion in the Y-direction, the end 31a of the housing 31 is brought into abutment on the tapering portion 45c of the second locking portion 45, When further moved, the pair of holder arms 49 is elastically deformed along the tapering portion 45c in the direction away from each other, and the first locking portion 34 goes on the second locking portion 45. When further moved, the first locking portion 34 goes beyond the second locking portion 45, and the pair of holder arms 49 are restored to the state before the elastic deformation. In this manner, the fuse 3 is held such that it is allowed to be moved with respect to the holder 4 in the directions indicated by the arrows X, Y, and Z (i.e., held displaceably), so that the component-equipped holder 2 is assembled.
Next, the pair of legs 43 are each inserted into the leg-accommodating portion 73, and the holder 4 is slidably inserted into the accommodating portion 71 such that the fuse 3 is moved close to the fuse accommodating portion 77 of the fuse cavity 72b. Thus, the tapering portion 51b of the provisional-locking portion 51 is brought into abutment on the provisional-locking engagement portion 75. When the holder 4 is further slid toward an innermost portion in the Y-direction, the pair of the arm portion 47 is elastically deformed along the tapering portion 51b in the direction toward each other, and the provisional-locking portion 51 goes on the provisional-locking engagement portion 75. When the holder 4 is further slid, the provisional-locking portion 51 goes beyond the provisional-locking engagement portion 75, and after the pair of the arm portions 47 have been restored to the state before the elastic deformation, the tapering portion 50b of the complete-locking portion 50 is brought into abutment on the complete-locking engagement portion 74. At this point, the provisional-locking portion 51 is positioned closer to the innermost portion than the provisional-locking engagement portion 75 in the Y-direction. In this manner, the holder 4 is positioned at the provisional-locking position of the holder mounting portion 7.
In the provisionally locked state where the holder 4 is positioned at the provisional-locking position of the holder mounting portion 7, the fuse 3 held by the holder 4 and the tuning-fork-type terminal 61 of the busbar 6 are not electrically connected to each other (electrically disconnected).
Next, the following describes a mechanism of connection and disconnection of the fuse 3 held by the holder 4. At this point, as shown in
Also, when the fuse 3 held by the holder 4 and the tuning-fork-type terminal 61 of the busbar 6 are to be electrically connected, the following operation is to be performed. As shown in
Also, the following operation is performed when the fuse 3 held by the holder 4 and the tuning-fork-type terminal 61 of the busbar 6 are electrically disconnected from each other.
The protruding portion 44 is raised in a direction away from the holder mounting portion 7 (i.e., in the Y-direction) by holding the protruding portion 44 of the holder body 41 with a finger tip in the complete-locking state where the fuse 3 held by the holder 4 and the tuning-fork-type terminal 61 of the busbar 6 are electrically connected to each other. The pair of plate portions 8 are elastically deformed in a direction toward each other along the first tapering portion 50a in the complete-locking portion 50, so that the complete-locking portion 12 goes on the complete-locking engagement portion 17. At this point, the tuning-fork-type terminal 61 and the fuse 3 are connected to each other, and only the holder 4 is raised. When further raised, the fuse 3 is raised in a state where the first and second locking portions 34, 45 are in locking engagement with each other, so that the electrical connection between the tuning-fork-type terminal 61 and the fuse 3 is exited, and at the same time, the complete-locking portion 12 goes beyond the complete-locking engagement portion 17. In this manner, when the complete-locking portion 12 goes beyond the complete-locking engagement portion 17, then the pair of plate portions 8 are restored in a state before the elastic deformation, so that the complete-locking portion 12 and the complete-locking engagement portion 17 are taken out of locking engagement with each other, and thus the holder 4 is taken out of the complete-locking position and placed in the provisional-locking position of the holder mounting portion 7. Also, as shown in
According to the above embodiment, the component-equipped-holder mounting structure 1 comprises the electric component (i.e., the fuse 3 in this embodiment) having the housing 31 and the terminals 36 extending from the housing 31; the holder 4 adapted to hold the fuse 3; and the holder mounting portion 7 into which the holder 4 is slidably inserted and having the accommodating portion 71 configured for accommodation of the mating terminal (i.e., the tuning-fork-type terminal 61 in this embodiment) to be connected to the fuse 3. The holder 4 includes the holder body 41; the pair of holder arms 49 extending from the holder body 41 and configured for positioning of the housing 31 therebetween; the locking portion (i.e., the second locking portion 45 in this embodiment) extending from the pair of holder arms 49 and configured for locking engagement with the housing 31. The dimension A1 of the pair of holder arms 49 from the holder body 41 to the second locking portion 45 is defined such that there exists the gap between the holder body 41 and the housing 31. The dimension B1 of the pair of holder arms 49 is defined such that there is the gap between the holder arm 49 and the housing 31. The dimension C1 between the pair of the second locking portions 45 is defined such that there is the gap between the second locking portions 45 and a part of the fuse 3 that resides between the second locking portions 45.
Accordingly, when the fuse 3 is being inserted into the tuning-fork-type terminal 61, the fuse 3 is readily moved (shifted) in the longitudinal direction of the tuning-fork-type terminal 61 without elastic deformation of the pair of holder arms 49 in a direction away from each other (the X-direction), and it is possible to reliably prevent deformation of and damage to the tuning-fork-type terminal 61, and to provide the component-equipped-holder mounting structure 1 with more reduced insertion force, i.e., a force necessary to be exerted when inserting the fuse 3 into the tuning-fork-type terminal 61.
Restated in more detail, for example, the tuning-fork-type terminal 61 may, as shown in
Also, for example, the tuning-fork-type terminal 61 may be, as shown in
Also, since the top surface 41a of the holder body 41 is flat, the holder 4 can be readily pressed against the holder mounting portion 7. Also, since the holder body 41 includes the protruding portion 44, the holder can be readily raised from the holder mounting portion 7 by raising the protruding portion 44 with the protruding portion 44 held by the finger.
In this embodiment, the dimension A1 is defined such that there exists the gap between the holder body 41 and the housing 31 in the Y-direction, and the dimension B1 is defined such that there exists the gap between the pair of holder arms 49 and the housing 31 in the X-direction, and the dimension C1 is defined such that there exists the gap between the pair of the second locking portions 45 and a portion of the fuse 3 residing between the second locking portions 45 (i.e., housing body 33) in the X-direction. However, the present invention is not limited to this specific configuration. As shown in
As shown in
Also, when the fuse 3 held by the holder 4 and the tuning-fork-type terminal 61 of the busbar 6 are to be electrically disconnected, the fuse 3 is connected to the tuning-fork-type terminal 61 and the pair of holder arms 49 remain in a state of elastic deformation in the direction away from each other. In this state, when the protruding portion 44 is pinched with the protruding portion 44 of the holder body 41 caught by the fingertip and raised in a direction away from the holder mounting portion 7 (the Y-direction), only the holder 4 is raised, and the pair of holder arms 49 is gradually moved toward the state before the elastic deformation. When further raised, the fuse 3 is raised in a state where the locking portions 34, 45 are brought into locking engagement, the terminal 36 is moved (or shifted) in the X-direction and in the Y-direction, the pair of holder arms 49 is restored to the state before the elastic deformation, and simultaneously, the electrical connection between the tuning-fork-type terminal 61 and the fuse 3 is disabled. As has been described in the foregoing, since the dimension is such that at least the gap between the holder body 41 and the housing 31 is created, when the fuse 3 is being inserted into the tuning-fork-type terminal 61, the pair of holder arms 49 is elastically deformed in the direction away from each other (the X-direction), and thereby the fuse 3 is allowed to be moved (or shifted) in the longitudinal direction of the tuning-fork-type terminal 61.
Further, in this embodiment, only the dimension A1 out of the dimensions A1, B1, C1 is defined such that the gap is created between the holder body 41 and the housing 31 in the Y-direction. However, the present invention is not limited to this specific configuration. As shown in
Also, in this embodiment, multiple pairs (two pairs in this embodiment) of the holder arms 49 are provided. The present invention is not limited to this specific configuration. The present invention may only include a single pair of the holder arms 49.
Further, in this embodiment, the fuse 3 connected to the dark-current component is used as the electric component. The present invention is not limited to this specific configuration. The electric component may comprise be a fuse, a relay, and a connector that are connected to the tuning-fork-type terminal 61 as the mating terminal (i.e., connected to an electric component other than the dark-current component).
Also, in this embodiment, as the mating terminal, the plurality of tuning-fork-type terminals 61 are used that are provided in one piece with the busbar 6. The present invention is not limited to this specific configuration. The busbar 6 may comprise any female terminal as long as it is connected to the electric wire.
While the invention has been described in terms of specific embodiments, it will be understood by those skilled in the art that various modifications may be made therein without departing from the spirit and scope of the invention. Also, the terms and expressions which have been employed in this specification are used for description and not for limitation, there being no intention in the use of such terms and expressions of excluding equivalents of the features shown and described or portions thereof. Accordingly, the scope of this invention is only defined and limited by the following claims and their equivalents.
Number | Date | Country | Kind |
---|---|---|---|
2010-072775 | Mar 2010 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4178061 | Ahroni | Dec 1979 | A |
5145414 | Oikawa | Sep 1992 | A |
5171293 | Umemoto et al. | Dec 1992 | A |
5277626 | Oikawa et al. | Jan 1994 | A |
5751208 | Martinez | May 1998 | A |
6406331 | Brown | Jun 2002 | B1 |
D462331 | Fukumori et al. | Sep 2002 | S |
6585541 | Higashida et al. | Jul 2003 | B2 |
7479867 | Kita | Jan 2009 | B2 |
7753735 | Kudo et al. | Jul 2010 | B2 |
7887372 | Lee et al. | Feb 2011 | B2 |
7988493 | Taniguchi et al. | Aug 2011 | B2 |
Number | Date | Country |
---|---|---|
05-159693 | Jun 1993 | JP |
Entry |
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Office Action dated Apr. 2, 2013, issued for the corresponding Chinese patent application No. 201110121428.8 and English translation thereof. |
Number | Date | Country | |
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20110232960 A1 | Sep 2011 | US |