• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention provides a housing (10) which comprises a housing chamber (20) of an electronic component (100) and from which electrical wires (150) are pulled out when the electrical wires (150) are electrically connected to the electronic component (100), and at least one retaining mechanism which is provided between a retaining wall (21) out of a plurality of walls making up the accommodating chamber (20) and the electronic component (100) or an element of retaining (30) the electronic component (100), and causes the housing chamber (20) to retain the electronic component (100) or the retaining element (30). The housing (10) comprises a main component (11) in which at least one housing chamber (20) communicating with respective openings at both ends is formed. The retaining wall (21) is deformed toward the accommodation chamber side (20) compared to when the electronic component (100) is in a received state.
    公开号:FR3047120A1
    申请号:FR1750531
    申请日:2017-01-23
    公开日:2017-07-28
    发明作者:Tatsuya Tsubouchi;Takahiko Mitsui;Yosuke Fukuhara
    申请人:Yazaki Corp;
    IPC主号:
    专利说明:

    BACKGROUND OF THE INVENTION 1. Field of the invention
    The present invention relates to an electrical connection box and a wiring harness. 2. Description of the prior art
    There is conventionally known an electrical connection box in which electronic components are received in a housing chamber in the interior of a housing and in which the electronic components and the electrical wires are electrically connected in the accommodation chamber, and a wiring harness which includes the electrical connection box (Japanese Patent Application Laid-open No. 2001-186629 and Japanese Patent Application Laid-Open No. 2013-223367). The electrical wires are pulled out of the interior of the housing to the outside and are electrically connected to certain connection target objects. For example, the electrical connection box or the wiring harness is installed in a vehicle and, being interposed between a vehicle power supply and a load thereof, can provide the electrical connection between them. In the electrical connection box, a retaining mechanism that directly or indirectly retains the electronic components in the housing chamber is provided (JP-A-2013-223367). The retaining mechanism comprises engagement bodies provided on each of the housing chamber and the electronic component side and, by causing the engagement bodies to engage with each other, retain directly or indirectly the electronic components in the housing chamber.
    Moreover, in such a retaining mechanism of the previous example, to ensure a committed state of the engagement bodies (in other words, the connection resistance between the housing chamber and the electronic component side) , and in order to facilitate the convenience of the electronic component side during assembly and disassembly with respect to the accommodation chamber (in other words, the practicality of the engagement bodies during assembly and disassembly), a certain play is provided between the engagement bodies that are in the engaged state. Thus, in the electrical connection box, in the case where the electronic component side is retained on the housing chamber only through such a retaining mechanism, there is a possibility that the connection resistance between the housing chamber and the electronic component side is deteriorated when the vibration associated with the entry of a road surface is transmitted through a vehicle body. In the technology described above in JP-A-2001-186629, what is similar to the retaining mechanism is provided as a mechanism for retaining a mounting state between a case body and a bottom cover and, by bending, in a direction of depth, a wall opening side of the lower cover on which engagement bodies are provided, it is designed to provide the connection resistance between the housing body and the lower cover. In the technology disclosed in Japanese Patent No. 2882313, by clamping a substrate with support ribs provided on each of a lower housing and an upper housing, it is designed to provide the connection resistance between the housing and the substrate.
    SUMMARY OF THE INVENTION
    An object of the present invention is to provide an electrical connection box and a wiring harness which are capable of providing the connection resistance between the housing chamber and the electronic component side.
    In order to achieve the above-mentioned purpose, an electrical connection box according to one aspect of the present invention comprises a housing which comprises a housing chamber in which an electronic component is received and from which electrical wires are drawn to the outside when the electrical wires are electrically connected to the electronic component; and at least one retaining mechanism which is provided between a retaining wall which is one of a plurality of walls comprising the accommodation chamber and the electronic component or a retaining element of the electronic component, and causes the accommodation chamber to retain the electronic component or the retaining element, wherein the housing has openings at both ends and comprises a main component in which at least one housing chamber communicating with the respective openings is formed, the retaining wall is caused to deform to the accommodation chamber side compared to when the electronic component is in a received state in which the retaining mechanism retains the electronic component or the retaining element in the accommodation chamber, first and second connecting walls which are connected at the retaining wall among the walls constituting the accommodation chamber are brought to the sides of the part connecting to the retaining wall, tilting or deforming toward the accommodation chamber side compared to when the electronic component is in the received state, and a deformation amount of the retaining wall is the amount wherein the retaining wall is capable of supporting the electronic component or the retaining element against an opposite wall which is opposite the retaining wall among the walls constituting the accommodation chamber when the electronic component is in the received state.
    According to another aspect of the present invention, in the electrical connection box, it is preferable that the retaining mechanism comprises a first engagement body provided on the retaining wall, and a second engagement body which is provided on the retaining wall. electronic component or the retaining element and which engages the first engagement body when the electronic component or the retaining element is received in the chamber. housing, the first engagement body comprising a pressure portion which applies on the second engagement body a pressing force towards a direction of removal of deformation of the retaining wall when the electronic component is in the received state and the second engagement body comprising a receiving portion which receives the pressing force of the first engagement body when the electronic component is in the received state.
    According to still another aspect of the present invention, in the electrical connection box, it is preferable that the housing comprises a first lid component which, being mounted in an end portion of an outer wall opening side. of the main component, closes the opening, and a second cover component which, being mounted in an end portion of the other opening side of the outer walls of the main component, closes the other opening, the wall of the retainer component of a portion of outer walls of the main component, and being shaped to deform in a deformation removal direction to be in a shape that allows the first and second cover components to be mounted when the electronic component is in the received state, and the first and second connecting walls composing a portion of the outer walls of the main component, and being formed so as to deform in an inclination or deformation removal direction to be in a shape that allows the first and second lid components to be mounted when the electronic component is in the received state.
    A wiring harness according to yet another aspect of the present invention comprises an electronic component; electrical wires electrically connected to the electronic component; and an electrical connection box which comprises a housing which comprises a housing chamber in which an electronic component is received and from which the electrical wires are pulled outwards, and at least one retaining mechanism which is provided between a wall of retainer which is one of a plurality of walls composing the housing chamber and the electronic component or a retaining element of the electronic component, and causes the housing chamber to retain the electronic component or the retaining element, wherein the housing has apertures at both ends and comprises a main component in which at least one housing chamber communicating with the respective apertures is formed, the retaining wall is caused to deform towards the accommodation chamber side compared to when the electronic component is in a received state in which the retaining mechanism retains the electronic component or the element held in the accommodation chamber, first and second connecting walls which are connected to the retaining wall among the walls constituting the accommodation chamber are fed, on connecting portion sides connecting to the retaining wall, to tilting or deforming toward the accommodation chamber side compared to when the electronic component is in the received state, and a deformation amount of the retaining wall is the amount by which the retaining wall is able to support the electronic component or the retaining element against an opposite wall which is opposite the retaining wall among the walls forming the accommodation chamber when the electronic component is in the received state.
    The above and other objects, features, and advantages and the technical and industrial importance of this invention will be better understood from the following detailed description of presently preferred embodiments of the invention, considered in connection with the invention. with the attached drawings.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Fig. 1 is a perspective view illustrating an electrical connection box and a wiring harness according to one embodiment;
    Fig. 2 is an exploded perspective view illustrating the relationship of a main component and a retainer;
    Figure 3 is a sectional view along line X-X in Figure 2;
    Fig. 4 is a drawing illustrating a section along the line Y-Y in Fig. 2 as a perspective view;
    Fig. 5 is a conceptual drawing of the main component viewed from a first opening side and illustrates the shape thereof before and after receiving the retainer; and
    Fig. 6 is a conceptual drawing of the main component seen from the first opening side and illustrates a received state of the retainer.
    DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
    The following describes in detail an exemplary embodiment of an electrical connection box and a wiring harness according to the present invention based on the accompanying drawings. The invention, however, is not intended to be limited by the embodiment.
    Form of realization
    An embodiment of the electrical connection box and the wiring harness according to the invention will be described with reference to FIGS. 1 to 6.
    Reference 1 in Fig. 1 shows an electrical connection box of the present embodiment. The reference WH in FIG. 1 represents a wiring harness which comprises the electrical connection box 1.
    The electrical connection box 1 of the embodiment receives different electronic components 100 electrically connected to connection target objects such as a power supply (description omitted), a load (description omitted), and a sensor (description omitted). Electronic components 100 mean, for example, relays, circuit protection components such as a fuse, and connectors. In the embodiment, electronic devices such as an electronic control unit are also defined as electronic components 100 received in the electrical connection box 1. Received electronic components 100 are electrically connected with appropriate electrical wires (power supply lines , signal lines, and the like) 150. In the electrical connection box 1, the electrical wires 150 are pulled out. The electrical connection box 1 composes the wiring hart WH with the electrical wires 150 and others. The wiring harness WH is disposed in a vehicle and is connected to a power supply side (a secondary battery), an electrical equipment side (an actuator and others) as a load, and others via electrical wires 150, for example.
    The electrical connection box 1 of the embodiment comprises a housing 10 which receives at least one of the electronic components 100 and from which the electrical wires 150 electrically connected to the electronic components 100 are pulled out. The housing 10 is molded with an insulating material such as a synthetic resin and has a space such that the electronic components 100 are received therein. In the internal space is formed at least one of the housing chambers 20 of the electronic components 100 (FIGS. 1 and 2). In this example, first to third housing chambers 20A, 20B, and 20C are formed.
    The housing 10 of the embodiment is formed with a plurality of constituent components. For example, the housing 10 of this example comprises a main component 11, a first cover component 12, and a second cover component 13 (Figure 1).
    The main component 11 is used as a frame and is open at both ends, and the respective openings (first and second openings 11a and 11b) communicate with each other via the internal space (Fig. 2). . The main component 11 of this example is a tubular body for which outer walls are formed with first to fourth outer walls 11A, 11B, 11C, and 11D. In the main component 11, at least one housing chamber 20 which communicates with the first and second openings 11a and 11b is formed. In the main component 11 of this example, first and second partition walls 11E and 11F are provided as inner walls, and the first to third housing chambers 20A, 20B, and 20C are formed with these first and second partition walls 11E and 11F.
    The first lid component 12 is mounted in the end portion on the first opening side 11a (one of the openings) of the outer walls (the first to fourth outer walls 11A, 11B, 11C, and 11D) of the main component 11, and close the first opening 11a with the assembly. The second cover component 13 is mounted in the end portion on the second opening side 11b (the other of the openings) of the outer walls of the main component 11, and closes the second opening 11b with the mounting.
    Although not shown, between the main component 11 and the first lid component 12, and between the main component 11 and the second lid component 13, a retaining mechanism composed of a engagement body provided on a side and a planned engagement body on the other side is provided. The retaining mechanism between the main component 11 and the first lid component 12 maintains a mounting state of the main component 11 and the first lid component 12 by engaging the engagement bodies with each other. The retaining mechanism between the main component 11 and the second lid component 13 maintains a mounting state of the main component 11 and the second lid component 13 by engaging the engagement bodies with each other. For example, each retaining mechanism has a claw portion on at least one of the two engagement bodies, and is formed as a locking mechanism that causes the engagement bodies to lock due to gripping claw portions. each other, or thanks to the claw part that hooks a commitment part of the engagement body on the other side.
    In the housing 10, the housing chamber 20 (the first to third housing chambers 20A, 20B, and 20C) is formed for each electronic component 100, or for each combination of a plurality of electronic components 100 (hereinafter referred to as "Group of electronic components"). For example, when an electronic device such as an electronic control unit is a receiving subject, in the accommodation chamber 20, the electronic device is directly received. When a group of electronic components is a receiving subject, in the housing chamber 20, the group of electronic components is indirectly received through a retaining element 30 of the electronic components 100 which will be described later.
    For example, the first housing chamber 20A is formed with a plurality of walls. In this example, it is formed with first to fourth walls 21 to 24 generally rectangular. The first wall 21 means the first outer wall 11A of the main component 11. The second wall 22 is formed with a portion of the second outer wall 11B of the main component 11. The third wall 23 is formed with a portion of the third outer wall 11C of the main component 11. The fourth wall 24 means the first partition wall 11E of the main component 11.
    A group of electronic components is received in the first housing chamber 20A. The respective electronic components 100 constituting the group of electronic components are held by the retaining element 30 and, in a state of one-piece combination by the retaining element 30, are received together in the first housing chamber 20A. (Figures 1 and 2). The retaining element 30 is formed with an insulating material such as a synthetic resin, and has a space 31 in which each electronic component 100 is received and maintained (hereinafter referred to as an "electronic component housing chamber") at the same time. interior for each electronic component 100 (FIG. 2). In the electronic component housing chamber 31, end portions of the electrical wires 150 are electrically connected to the terminals (omitted description) of the electronic component 100. The electrical wires 150 are pulled outwardly of the retaining element 30. The retainer 30 of this example is formed of a rectangular parallelepiped for which the electronic component accommodating chambers 31 are aligned. The retainer 30 may be called a block.
    In the electrical connection box 1 there is provided a retaining mechanism (hereinafter referred to as "the first retaining mechanism") 40 which holds the retaining element 30 in the first housing chamber 20A (Fig. 3). The first retention mechanism 40 is constructed such that the retaining member 30 can be detached from the first accommodation chamber 20A, and at least one is provided between a retaining wall, which is one of a plurality of walls constituting the first housing chamber 20A, and the retaining element 30. In this example, the first wall 21 is used as the retaining wall. Therefore, in the following description, the first wall 21 is called "retaining wall 21".
    The first retaining mechanism 40 comprises a first engagement body 41 (FIGS. 3 and 4) provided on the retaining wall 21, and a second engaging body 42 (FIGS. 2 and 3) which is provided on the retaining element. retained 30 and engages the first engagement body 41 when the retainer 30 is received in the first accommodation chamber 20A. The first retainer 40 has a claw portion on at least one of the first engagement body 41 and the second engagement body 42, and is formed as a locking mechanism which causes the engagement bodies to engage with each other. blocking with gripping claw portions or with the claw portion engaging an engaging portion of the engaging body on the other side. In the first retainer 40 of this example, the first engaging body 41 and the second engaging body 42 have claw portions 41a and 42a, respectively. The retainer 30 is inserted through the second opening 11b to the first opening 11a, and is received in the first accommodation chamber 20A. Therefore, the respective claw portions 41a and 42a are formed such that they engage one another and engage when the retaining member 30 reaches a certain position of the first accommodation chamber 20A. with the insertion, and such that the displacement of the retaining member 30 towards the second opening side 11b can be limited. On the first engaging body 41 and the second engaging body 42 there are provided guide portions 41b and 42b which guide the retainer 30 in the direction of insertion relative to the first accommodation chamber 20A. The respective guide portions 41b and 42b are guide rail-like portions extending along the direction of insertion, and are disposed in two locations so as to grip the respective claw portions 41a and 42a. The guide portions 41b and 42b are formed such that the cross section perpendicular to the insertion direction is L-shaped.
    In this example, the first retainer mechanism 40 is provided in two locations. The first two retaining mechanisms 40 are arranged in locations which are close to each end portion (the different end portions of the first and second openings 11a and 11b) of the retaining wall 21.
    In addition, in the electrical connection box 1, another retaining mechanism (hereinafter referred to as "second retaining mechanism") 50 for holding the retaining element 30 in the first housing chamber 20A is provided (FIG. 3). The second retaining mechanism 50 is constructed such that the retaining member 30 can be detached from the first housing chamber 20A, and at least one is provided between an opposite wall, which is opposite the wall one of a plurality of walls constituting the first housing chamber 20A, and the retaining element 30. In this example, the fourth wall 24 is used as the opposite wall. Therefore, in the following description, the fourth wall 24 is called "opposite wall 24". In this example, the second retention mechanism 50 is provided in one location.
    The second retaining mechanism 50 is formed as a locking mechanism which includes a claw portion provided on one side of the opposing wall 24 and the retaining member 30, and an engagement portion which is provided on the other side. and hooks the claw portion and engages with it when the retainer 30 is received in the first accommodation chamber 20A. In this example, a claw portion 51 protruding toward the retaining wall 21 is provided on the opposite wall 24 and an engagement portion 52 is provided on the retaining member 30. The claw portion 51 and the portion engagement 52 are formed such that the claw portion 51 catches the engaging portion 52 and engages it when the retainer 30 reaches a certain position of the first accommodation chamber 20A with the insertion of the retaining member 30 in the first housing chamber 20A, and such that the displacement of the retaining element 30 towards the second opening side 11b can be limited.
    Furthermore, the electrical connection box 1 is installed on a vehicle body, and the vibration associated with the entry of a road surface is thus transmitted via the vehicle body. Thus, the electrical connection box 1 of the embodiment is constructed such that the engagement state (a blocking state) of the first holding mechanism 40 and the second holding mechanism 50 is not weakened by such a vibration and such that the connection resistance between the first housing chamber 20A and the retaining element 30 is not deteriorated. More specifically, by forming the retaining wall 21 and forming first and second connecting walls, which are connected to the retaining wall 21, among a plurality of walls constituting the first housing chamber 20A, as follows, the connection resistance between the first housing chamber 20A and the retaining element 30 is ensured. The first connecting wall means a wall (a portion of the second outer wall 11B and the second wall 22) of the first housing chamber 20A connected to an end portion (a different end portion of the first and second sides). second openings 11a and 11b) of the retaining wall 21 (Figures 1 and 2). The second connecting wall means a wall (a portion of the third outer wall 11C and the third wall 23) of the first housing chamber 20A connected to the other end portion (a different end portion of the sides of the first and second openings 11a and 11b) of the retaining wall 21. In the following description, the second wall 22 is called "first connecting wall 22" and the third wall 23 is called "second connecting wall 23".
    The retaining wall 21 is caused to deform toward the first housing chamber side 20A, compared to when the electronic components 100 are in a received state in which the retaining mechanisms (the first and second retaining mechanisms 40 and 50). maintain the retainer 30 in the first housing chamber 20A (Figure 5). Then, the retaining wall 21 is formed such that, when the electronic components 100 are in a received state, it deforms in a deformation removal direction by being pushed by the retaining member 30, and so that the amount of deformation is made small. Since the retaining wall 21 composes a portion of the outer wall of the main component 11, it is desirable that the deformation of the retaining wall 21 be made low to a position in which the adjustment of the housing 10 (1 adjustment of the first lid component 12 and the second lid component 13 with respect to the retaining wall 21) is not affected when the electronic components 100 are in a received state (Fig. 6). Therefore, the retaining wall 21 is formed such that, when the electronic components 100 are in a received state, it deforms in a deformation elimination direction by being pushed by the retaining element 30, and is in a shape that allows the first cover component 12 and the second cover component 13 to be mounted. Thus, the retaining wall 21 is made to have flexibility, by appropriately providing the thickness and shape, so that the shape can be changed before and after receiving the electronic components 100. The amount of deformation of the retaining wall 21 is the amount of changes in the area that changes the shape the most, and represents the difference between the position at which the electronic components 100 are in a received state and the position that is before the reception of the electronic components The amount of deformation is made to be the amount by which the retaining wall 21 can press the retaining member 30 against the opposite wall 24 when the electronic components 100 are in a received state. In the retaining wall 21 in this example, a central portion is caused to deform toward the first housing chamber side 20A with respect to the two opposite end portions (the different end portions of the first and second openings sides). 11a and 11b). Thus, the amount of deformation of the retaining wall 21 means the amount of shape changes in the central portion of the retaining wall 21.
    In the electrical connection box 1, to allow the retaining wall 21 to press the retaining element 30 on the opposite wall 24, the minimum distance between the central portion of the retaining wall 21 and the opposite wall 24 before receiving the electronic components 100 is made narrower than the physical size of the retaining element 30 which is between them. Thus, in the electrical connection box 1, while pushing the retaining wall 21 in the direction of eliminating deformation with the retaining element 30, the retaining element 30 is received in the first housing chamber 20A. . Therefore, in the electrical connection box 1, in order to make such a work of pushing possible, the end portion on the second opening side 11b of the opposite wall 24 is disposed in a position deeper than the part of end on the second opening side 11b of the retaining wall 21 (FIG. 3), so that, upon receipt of the retaining element 30 in the first accommodation chamber 20A, the retaining element 30 and the electronic components 100 do not come into contact with the end portion on the second opening side 11b of the opposite wall 24. In this example, it is desirable that the end portion on the second opening side 11b of the opposite wall 24 is disposed in a position such that contact does not occur until at least engagement of the guide portions 41b and 42b of the first holding mechanism 40 begins (i.e. until ue the guiding portion 42b on the side of the retaining member 30 is inserted on the guide portion 41b on the first housing chamber side 20A).
    As in the above, in the electrical connection box 1, by providing the retaining wall 21 which is deformed towards the first housing chamber side 20A by a certain amount of deformation, the retaining wall 21 can support the element 30 against the opposite wall 24 when the electronic components 100 are in a received state. Thus, in the electrical connection box 1, since the play (i.e. relative movement) of the retaining member 30 with respect to the first housing chamber 20A is limited, the resistance of the engagement (blocking resistor) of the first and second retaining mechanisms 40 and 50 can be provided and the deterioration in the connection resistance between the first housing chamber 20A and the retaining element 30 can be suppressed.
    In the electrical connection box 1, the first holding mechanism 40 may be used to provide the connection resistance. For example, on the first engagement body 41 is provided a pressure portion which applies on the second engagement body 42 a pressing force towards the direction of elimination of the deformation of the retaining wall 21 when the electronic components 100 are in a received state. Then, on the second engagement body 42 is provided a receiving portion which receives the pressing force of the first engagement body 41 when the electronic components 100 are in a received state. In this example, a portion of the guide portion 41b is used as a pressing portion 41b1, and a portion of the guide portion 42b is used as the receiving portion 42b1 (FIGS. 2 and 4). In the first holding mechanism 40, when the electronic components 100 are in a received state, causing the pressing portion 41bl to exert a pressing force on the receiving portion 42bl, a force of reaction of the pressing force is exerted on the pressing portion 41bl of the receiving portion 42bl. Therefore, because the first retaining mechanism 40 generates a pulling force between the first housing chamber 20A and the retaining element 30 when the electronic components 100 are in a received state, the engagement resistance blocking) is increased. Thus, in the electrical connection box 1, the connection resistance between the first housing chamber 20A and the retaining element 30 can be increased.
    When the electronic components 100 are in a received state, the deformation of the retaining wall 21 is decreased to the position in which the first lid component 12 and the second lid component 13 can be mounted. At this time, with the deformation of the retaining wall 21, the first and second connecting walls 22 and 23 are also deformed. That is, in the first and second connecting walls 22 and 23, with deformation in the deformation removal direction of the retaining wall 21, the connecting portion sides connecting to the retaining wall 21 are pushed with the two opposite end portions (different end portions of the sides of first and second openings 11a and 11b) of the retaining wall 21. Thus, the first and second connecting walls 22 and 23 are made to have flexibility, suitably providing the thickness and shape, so that the shape can be changed before and after receiving the electronic components 100. Then in the first and second connecting walls 22 and 23, taking into account the deformation when the electronic components 100 are in a received state, the connecting portion sides connecting to the retaining wall 21 are brought to tilt or deform toward the first housing chamber side 20A, compared to the received state (Fig. 5).
    For example, the first and second connecting walls 22 and 23 compose part of the outer walls of the main component 11. Thus, the first and second connecting walls 22 and 23 are formed by determining the shape at the time of inclination or the deformation such that, when the electronic components 100 are in a received state, they deform in the direction of elimination of inclination or deformation and are in a shape that allows the first and second lid components 12 and 13 to be mounted. Therefore, the electrical connection box 1 can ensure the adjustment of the housing 10 (the adjustment of the first lid component 12 and the second lid component 13 with respect to the retaining wall 21), even when the wall of the housing retainer 21 is deformed to provide the connection resistance between the first housing chamber 20A and the retaining element 30. Then, the electrical connection box 1 can also suppress the expansion of the physical size of the housing 10. By furthermore, when the first and second connecting walls 22 and 23 are provided as inner walls of the main component 11, causing them to tilt or deform towards the first housing chamber side 20A, even when the first and second second connecting walls 22 and 23 also serve as walls of a separate housing chamber 20, the inner volume of the housing chamber 20 can be maintained in one size capable of receiving the electronic components 100, for example. As in the foregoing, by causing the first and second connecting walls 22 and 23 to tilt or deform toward the first housing chamber side 20A, the electrical connection box 1 can suppress side effects on the peripheries of the housing. first and second connecting walls 22 and 23 while ensuring the connection resistance between the first housing chamber 20A and the retaining element 30.
    In addition, it is desirable that the retaining wall 21 is formed such that it can be deformed into a shape such that the deformation is substantially eliminated (i.e. the shape such as the end portions respectively on the sides of first and second openings 11a and 11b are substantially in a straight line) when the electronic components 100 are in a received state. Then, it is desirable that the first and second connecting walls 22 and 23 are formed such that they can be deformed into a shape such that the inclination or deformation is substantially eliminated (i.e. such that the respective end portions on the first and second opening sides 11a and 11b of the second and third walls 22 and 23 are substantially in a straight line) when the electronic components 100 are in a received state. Therefore, in the first lid component 12 and the second lid component 13, the parts which engage the retaining wall 21 and the first and second connecting walls 22 and 23 do not need to be formed corresponding to the form of deformation and equivalent of the retaining wall 21. Thus, the electrical connection box 1 can improve the forming capacity of the first cover component 12 and the second cover component 13, and improve the adjustment of the housing 10.
    As illustrated in the foregoing, the electrical connection box 1 of the embodiment can increase the connection resistance between the first housing chamber 20A and the retaining element 30. Therefore, because the retaining the retaining element 30 on the first housing chamber 20A can be maintained independently of the presence of the vibration transmitted by the vehicle body, the unnecessary load on the electronic components 100 and the electrical wires 150 can be prevented from 'to be applied, and the electrical connection box 1 can thus improve longevity. On the other hand, because the retaining wall 21 and the first and second connecting walls 22 and 23 are in the forms described above when the electronic components 100 are in a received state, the electrical connection box 1 of the form embodiment can ensure the adjustment of the housing 10 while improving longevity. The wiring harw WH according to the embodiment comprises the prior electrical connection box 1, and can thus have the effect of the electrical connection box 1.
    On the other hand, when an electronic device such as an electronic control unit is the receiving target object for the first housing chamber 20A and the electronic component 100 is directly received in the first housing chamber 20A, in the housing of electrical connection 1, by providing the second engagement body 42 on the electronic component 100 (for example a case of the electronic component 100), the electronic component 100 must only compose the first retaining mechanism 40 which is directly maintained in the first chamber 20A housing. The electrical connection box 1 and the wiring harness WH in this case can increase the connection resistance between the first housing chamber 20A and the electronic component 100, and the retention state of the electronic component 100 in the first housing chamber. 20A can be maintained and longevity can be improved.
    In the embodiment, a portion of the outer walls of the main component 11 composes the first housing chamber 20A. However, the first housing chamber 20A can be formed only with inner walls such as partition walls. The electrical connection box 1 in this case, even with such a first housing chamber 20A, can increase the connection resistance between the first housing chamber 20A and the electronic component 100 or the retaining element 30. In this case, as in the previous example, the electrical connection box 1 and the wiring harness WH can improve the longevity independently of the presence of the vibration transmitted by the vehicle body.
    In the electrical connection box according to the embodiments, by providing the retaining wall which is deformed by a deformation, the retaining wall is able to press the retaining element against the opposite wall when the electronic components are in a received state. Thus, in the electrical connection box, since the play (i.e., relative movement) of the retainer relative to the housing chamber is limited, the engagement resistance (resistance of locking) of the holding mechanism can be ensured and the deterioration of the connection resistance between the housing chamber and the retaining element can be eliminated. In addition, by causing the first and second connecting walls to tilt or deform toward the accommodation chamber side, the electrical connection box can suppress the side effects (physical size expansion and deterioration of the accommodation fit ) on the peripheries of the first and second connecting walls while ensuring the connection resistance between the housing chamber and the retaining element. The wiring harness according to the invention comprises the electrical connection box, and thus the same effect as that of the electrical connection box can be obtained.
    权利要求:
    Claims (4)
    [1" id="c-fr-0001]
    1. Electrical connection box (1) characterized in that it comprises: a housing (10) which comprises a housing chamber (20) in which an electronic component (100) is received and of which electrical wires (150) are pulled outwardly when the electrical wires (150) are electrically connected to the electronic component (100); and at least one retaining mechanism (40) which is provided between a retaining wall (21) which is one of the walls forming the accommodation chamber (20) and the electronic component (100) or a retaining element (30). ) of the electronic component (100), and causes the housing chamber (20) to retain the electronic component (100) or the retaining element (30), wherein the housing (10) has apertures at both ends and comprises a main component (11) in which at least one accommodating chamber (20) communicating with the respective apertures is formed, the retaining wall (21) is caused to deform towards the accommodating chamber side (20) compared to when the electronic component (100) is in a received state in which the retaining mechanism (40) retains the electronic component (100) or the retaining element (30) in the housing chamber (20), first and second walls connecting pieces (22, 23) which connect to the rete wall naked (21) of the walls forming the accommodating chamber (20) are fed, on connecting portion sides connecting to the retaining wall (21), to tilt or deform towards the accommodation chamber side (20) compared to when the electronic component (100) is in the received state, and a deformation amount of the retaining wall (21) is the amount in which the retaining wall (21) is able to support the electronic component (100) or the retaining element (30) against an opposite wall which is opposite the retaining wall (21) among the walls forming the accommodating chamber (20) when the electronic component (100) is in the received state.
    [2" id="c-fr-0002]
    An electrical connection box (1) according to claim 1, wherein the retaining mechanism (40) comprises a first engagement body (41) provided on the retaining wall (21), and a second engagement body (42) which is provided on the electronic component (100) or the retaining element (30) and which engages the first engagement body (41) when the electronic component (100) or the retaining element (30) is received in the accommodation chamber (20), the first engagement body (41) comprises a pressing portion which applies on the second engagement body (42) a pressing force towards a direction of elimination of the deformation of the retaining wall (21) when the electronic component (100) is in the received state, and the second engaging body (42) comprises a receiving part which receives the pressing force of the first engaging body ( 41) when the electronic component (100) is in the received state.
    [3" id="c-fr-0003]
    The electrical connection box (1) according to claim 1 or 2, wherein the housing (10) comprises a first lid component (12) which, being mounted in an end portion of an opening side outer wall of the main component (11), closes the opening, and a second cover component (13) which, being mounted in an end portion of the other opening side of the outer walls of the main component ( 11), closes the other opening, the retaining wall (21) composes a portion of the outer walls of the main component (11), and is shaped to deform in a deformation removal direction to be in a a shape that allows the first and second cover components (12, 13) to be mounted when the electronic component (100) is in the received state, and the first and second connecting walls (22, 23) comprise a portion of the outer walls of the main component (11), and are shaped to deform in an inclination or deformation removal direction to be in a shape that allows the first and second lid components (12, 13) to be mounted when the electronic component ( 100) is in the received state.
    [4" id="c-fr-0004]
    4. A wiring harness characterized in that it comprises: an electronic component (100); electrical wires (150) electrically connected to the electronic component (100); and an electrical connection box that includes a housing (10) that includes a housing chamber (20) in which an electronic component (100) is received and from which electrical wires (150) are pulled out, and at least one retaining mechanism (40) which is provided between a retaining wall (21) which is one of the walls forming the accommodation chamber (20) and the electronic component (100) or a retaining element (30). electronic component (100), and causes the housing chamber (20) to retain the electronic component (100) or the retaining element (30), wherein the housing (10) has apertures at both ends and comprises a component in which at least one accommodating chamber (20) communicating with the respective apertures is formed, the retaining wall (21) is caused to deform towards the accommodating chamber side (20) compared to when the component electronics (100) is in a received state d wherein the retaining mechanism (40) retains the electronic component (100) or the retaining element (30) in the housing chamber (20), first and second connecting walls (22, 23) which connect to the retaining wall (21) of the walls forming the accommodating chamber (20) are fed, on connecting portion sides connecting to the retaining wall (21), to tilt or deform towards the housing chamber (20) compared to when the electronic component (100) is in the received state, and a deformation amount of the retaining wall (21) is the amount in which the retaining wall (21) is capable of pressing the electronic component (100) or retaining element (30) against an opposite wall that is opposite the retaining wall (21) from among the walls forming the accommodating chamber (20) when the electronic component (100) is in the received state.
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    同族专利:
    公开号 | 公开日
    FR3047120B1|2019-06-07|
    US9924606B2|2018-03-20|
    US20170215291A1|2017-07-27|
    CN106998037B|2019-03-19|
    DE102017200498A1|2017-07-27|
    JP6309554B2|2018-04-11|
    JP2017135770A|2017-08-03|
    CN106998037A|2017-08-01|
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    JP6276788B2|2016-01-25|2018-02-07|矢崎総業株式会社|Electronic component storage confirmation structure, electrical junction box and wire harness|JP6604477B2|2016-05-20|2019-11-13|株式会社オートネットワーク技術研究所|Board unit|
    JP6510574B2|2017-02-14|2019-05-08|矢崎総業株式会社|Electronic component unit and wire harness|
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    JP6914905B2|2018-11-29|2021-08-04|矢崎総業株式会社|Bonder cap containment structure, electrical junction box, and wire harness|
    法律状态:
    2017-11-13| PLFP| Fee payment|Year of fee payment: 2 |
    2018-07-27| PLSC| Publication of the preliminary search report|Effective date: 20180727 |
    2019-11-19| PLFP| Fee payment|Year of fee payment: 4 |
    2020-12-10| PLFP| Fee payment|Year of fee payment: 5 |
    2021-12-17| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2016011321|2016-01-25|
    JP2016011321A|JP6309554B2|2016-01-25|2016-01-25|Electrical junction box and wire harness|
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