The present disclosure relates to a connector.
Conventionally, a connector is known which includes a housing made of metal, a conductor held in the housing and an intermediate insulating portion provided between the conductor and the housing (see, for example, Patent Document 1). In such a connector, the heat dissipation of a busbar is improved if the intermediate insulating portion is a ceramic member having a high thermal conductivity.
Patent Document 1: JP 2018-510462 A
However, in the above connector, a tiny gap may be formed between the busbar and the housing due to dimensional errors and a difference in coefficient of liner expansion by a configuration in which the ceramic member is merely placed adjacent to the busbar and the housing, and there has been a problem that thermal contact resistance increases to deteriorate heat dissipation.
The present disclosure aims to provide a connector enabling good heat dissipation.
The present disclosure is directed to a connector with a housing made of metal, a flat plate-like busbar to be held in the housing, a first ceramic member to be interposed between one flat surface of the busbar and a first contact portion of the housing, a second ceramic member to be interposed between another flat surface of the busbar and a second contact portion of the housing, and a fastening member for collectively fastening the busbar, the first and second ceramic members and the first and second contact portions.
According to the connector of the present disclosure, good heat dissipation is enabled.
First, embodiments of the present disclosure are listed and described.
[1] The connector of the present disclosure is provided with a housing made of metal, a flat plate-like busbar to be held in the housing, a first ceramic member to be interposed between one flat surface of the busbar and a first contact portion of the housing, a second ceramic member to be interposed between another flat surface of the busbar and a second contact portion of the housing, and a fastening member for collectively fastening the busbar, the first and second ceramic members and the first and second contact portions.
According to this configuration, the busbar, the first and second ceramic members and the first and second contact portions are collectively fastened by the fastening member. Thus, the one flat surface of the busbar is maintained in contact with the first contact portion of the housing via the first ceramic member having a high thermal conductivity without any gap, the other flat surface of each busbar is maintained in contact with the second contact portion of the housing via the second ceramic member having a high thermal conductivity without any gap, and the heat dissipation of the busbar is improved.
[2] Preferably, the fastening member is composed of a bolt and a nut.
According to this configuration, since the fastening member is composed of the bolt and the nut, the busbar, the first and second ceramic members and the first and second contact portions can be easily collectively fastened by the fastening member. Further, a fastening torque is easily controlled, for example, as compared to the case where the fastening member is a rivet or the like.
[3] Preferably, a pair of the busbars are provided, each of the first and second contact portions is provided over the pair of busbars, and the fastening member fastens the first and second contact portions between the pair of busbars.
Since each of the first and second contact portions is provided over the pair of busbars and the first and second contact portions are fastened between the pair of busbars by the fastening member, the pair of busbars can be respectively fastened together with the first and second ceramic members by one fastening member. That is, the number of components of the fastening member can be reduced as compared to the case where the fastening member is provided for each busbar.
[4] Preferably, a pair of the busbars are provided, each of the first and second contact portions is provided over the pair of busbars, and each of the first and second ceramic members is provided over the pair of busbars.
According to this configuration, since each of the first and second contact portions is provided over the pair of busbars and each of the first and second ceramic members is provided over the pair of busbars, the number of components can be reduced, for example, as compared to the case where the first and second ceramic members are provided for each busbar.
[5] Preferably, facing surfaces of the first and second ceramic members facing the busbar is set equal to or longer than a length of the busbar in a width direction of the busbar.
According to this configuration, since the facing surfaces of the first and second ceramic members facing the busbars are set equal to or longer than the length of the busbar in the width direction of the busbar, the busbar can be stably sandwiched by the first and second ceramic members. Further, since the busbar can be entirely in contact with the first and second ceramic members in the width direction, heat dissipation is improved.
A specific example of a connector of the present disclosure is described below with reference to the drawings. Note that the present invention is not limited to these illustrations and is intended to be represented by claims and include all changes in the scope of claims and in the meaning and scope of equivalents.
As shown in
The housing 13 is made of metal and, in this embodiment, made of aluminum. The housing 13 includes a large tube portion 13a substantially in the form of rectangular tubes, a flange portion 13b extending in a flange-like manner from an opening of a tip side of the large tube portion 13a, an inward extending portion 13c extending to an inner side opposite to the flange portion 13b from the opening of the tip side of the large tube portion 13a, and a small tube portion 13d substantially in the form of a rectangular tube extending from the inner edge of the inward extending portion 13c. The busbars 14 are held inserted in the large tube portion 13a and the small tube portion 13d.
As shown in
As shown in
Here, the connector 11 of this embodiment includes a first ceramic member 18 interposed between one flat surface 14a of each busbar 14 and a first contact portion 17 of the housing 13 and a second ceramic member 20 interposed between another flat surface 14b of each busbar 14 and a second contact portion 19 of the housing 13. Further, the connector 11 includes a bolt 21 and a nut 22 as a fastening member for collectively fastening the busbars 14, the first and second ceramic members 18, 20 and the first and second contact portions 17, 19.
In particular, the first and second ceramic members 18, 20 are, for example, made of alumina, have an insulating property, and have a higher thermal conductivity than resin materials and the like. The first and second ceramic members 18, 20 are in the form of flat plates. The first ceramic member 18 is interposed between the one flat surface 14a of each busbar 14 and the first contact portion 17, which is the upper wall of the small tube portion 13d of the housing 13. The second ceramic member 20 is interposed between the other flat surface 14b of each busbar 14 and the second contact portion 19, which is the lower wall of the small tube portion 13d of the housing 13.
As shown in
Further, each of the first and second ceramic members 18, 20 is provided over the pair of busbars 14. That is, the first ceramic member 18 is provided on the entire inner surface in the width direction of the first contact portion 17, which is the upper wall of the small tube portion 13d. Further, the second ceramic member 20 is provided on the entire inner surface in the width direction of the second contact portion 19, which is the lower wall of the small tube portion 13d. Note that, by this configuration, facing surfaces of the first and second ceramic members 18, 20 facing the busbars 14 are set equal to or longer than a length of the busbars 14 in the width direction of the busbars 14, and the entire flat surfaces 14a, 14b of the busbars 14 are in contact with the first and second ceramic members 18, 20 in the width direction.
The bolt 21 and the nut 22 collectively fasten the busbars 14, the first and second ceramic members 18, 20 and the first and second contact portions 17, 19 by fastening the first and second contact portions 17, 19 between the pair of busbars 14. That is, a shaft portion 21a of the bolt 21 is passed through the first contact portion 17, the first ceramic member 18, the second ceramic member 20 and the second contact portion 19 in this order between the pair of busbars 14 and threadably engaged with the nut 22. Note that a fastening torque of the bolt 21 and the nut 22 at this time is such a torque that tiny gaps are not formed between the respective members due to dimensional errors, differences in coefficient of liner expansion and the like of the respective members and the heat dissipation of the busbars 14 is maintained.
Next, functions of the connector 11 configured as described above are described.
In the connector 11, a state where the one flat surface 14a and the other flat surface 14b of each busbar 14 are in contact with the first or second contact portion 17, 19 of the housing 13 via the first or second ceramic member 18, 20 is maintained by the bolt 21 and the nut 22. Thus, it is suppressed that tiny gaps are formed between the respective members, for example, due to dimensional errors, differences in coefficient of liner expansion and the like of the respective members.
Next, effects of this embodiment are described below.
(1) The busbars 14, the first and second ceramic members 18, 20 and the first and second contact portions 17, 19 are collectively fastened by the bolt 21 and the nut 22. Thus, the one flat surface 14a of each busbar 14 is maintained in contact with the first contact portion 17 of the housing 13 via the first ceramic member 18 having a high thermal conductivity without any gap, and the other flat surface 14b of each busbar 14 is maintained in contact with the second contact portion 19 of the housing 13 via the second ceramic member 20 having a high thermal conductivity without any gap. Thus, the heat dissipation of the busbar 14 is improved.
(2) Since the fastening member is composed of the bolt 21 and the nut 22, the busbars 14, the first and second ceramic members 18, 20 and the first and second contact portions 17, 19 can be easily collectively fastened. Further, the fastening torque is easily controlled, for example, as compared to the case where the fastening member is a rivet or the like.
(3) Each of the first and second contact portions 17, 19 is provided over the pair of busbars 14, and the first and second contact portions 17, 19 are fastened between the pair of busbars 14 by the bolt 21 and the nut 22. Thus, the pair of busbars 14 can be respectively fastened together with the first and second ceramic members 18, 20 by one bolt 21 and one nut 22. That is, the number of components of the fastening member can be reduced as compared to the case where the bolt 21 and the nut 22 are provided for each busbar 14.
(4) Since each of the first and second contact portions 17, 19 is provided over the pair of busbars 14 and each of the first and second ceramic members 18, 20 are provided over the pair of busbars 14, the number of components can be reduced as compared to the case where the first and second ceramic members 18, 20 are provided for each busbar 14.
(5) Since the facing surfaces of the first and second ceramic members 18, 20 facing the busbars 14 are set equal to or longer than the length of the busbars 14 in the width direction of the busbars 14, the busbars 14 can be stably sandwiched by the first and second ceramic members 18, 20. Further, since the busbars 14 can be entirely in contact with the first and second ceramic members 18, 20 in the width direction, heat dissipation is improved.
This embodiment can be modified and carried out as follows. This embodiment and the following modifications can be carried out in combination without technically contradicting each other.
Although the fastening member is composed of the bolt 21 and the nut 22 in the above embodiment, there is no limitation to this and, for example, another fastening member such as a rivet may be used.
Although each of the first and second contact portions 17, 19 is provided over the pair of busbars 14 in the above embodiment, there is no limitation to this and the first and second contact portions 17, 19 may be individually provided for each busbar 14.
Although the first and second contact portions 17, 19 are fastened between the pair of busbars 14 by the bolt 21 and the nut 22 in the above embodiment, there is no limitation to this and the bolt 21 and the nut 22 may be, for example, provided for each busbar 14 and fastened.
Although each of the first and second ceramic members 18, 20 is provided over the pair of busbars 14 in the above embodiment, there is no limitation to this and first and second ceramic members may be, for example, provided for each busbar 14. Further, the facing surfaces of the first and second ceramic members 18, 20 facing the busbars 14 are set longer than the length of the busbars 14 in the width direction of the busbars 14, there is no limitation to this. For example, these facing surfaces may have the same length as the busbars 14 or may be shorter than the busbars 14.
Although the connector 11 includes the pair of busbars 14 in the above embodiment, there is no limitation to this and, for example, the connector 11 may include one, three or more busbars.
Although the housing 13 is made of aluminum in the above embodiment, there is no limitation to this and the housing 13 may be made of another metal material.
Although the first and second ceramic members 18, 20 are made of alumina in the above embodiment, there is no limitation to this and these ceramic members may be made of another material as long as this material has an insulating property and has a higher thermal conductivity than resin materials and the like.
The present disclosure includes the following implementation examples. Reference signs of the constituent elements of the embodiment are given not for limitation, but for understanding assistance.
[Addendum 1] A connector (11) according to an implementation example of the present disclosure may be provided with:
[Addendum 2] A connector (11) according to an implementation example of the present disclosure may be provided with:
[Addendum 3] In one or more implementation examples of the present disclosure,
[Addendum 4] In one or more implementation examples of the present disclosure, the first contact portion (17) may be in surface contact with the first ceramic member (20).
[Addendum 5] In one or more implementation examples of the present disclosure, the second contact portion (19) may be in surface contact with the second ceramic member (22).
[Addendum 6] In one or more implementation examples of the present disclosure, the fastening member (21) may include a shaft portion (21a) passed through the first contact portion (17), the first ceramic member (20), the second ceramic member (22) and the second contact portion (19).
[Addendum 7] In one or more implementation examples of the present disclosure, the shaft portion (21a) may be at a position away from the two busbars (14).
[Addendum 8] In one or more implementation examples of the present disclosure, a length of the busbar (14) or the two busbars (14) in a longitudinal direction may be longer than lengths of the first and second contact portions (17, 19) in the longitudinal direction.
[Addendum 9] In one or more implementation examples of the present disclosure, lengths of the first and second ceramic members (20, 22) in the longitudinal direction may be longer than the lengths of the first and second contact portions (17, 19) in the longitudinal direction.
[Addendum 10] In one or more implementation examples of the present disclosure,
[Addendum 11] In one or more implementation examples of the present disclosure, the first and second housing constituent members (13f, 13g) may be divided bodies divided by a dividing surface extending along both the width direction and longitudinal direction of the busbar (14) or the two busbars (14).
[Addendum 12] In one or more implementation examples of the present disclosure, each of the first and second housing constituent members (13f, 13g) may include a flange portion (13b) configured to be fixed to another member, e.g. an electrical device (12).
[Addendum 13] In one or more implementation examples of the present disclosure, both ends in the width direction of the first and second ceramic members (18, 20) may project in the width direction from the busbar (14) or the two busbars (14).
[Addendum 14] In one or more implementation examples of the present disclosure, lengths of the first and second contact portions (17, 19) in the width direction may be longer than the lengths of the first and second ceramic members (18, 20) in the width direction.
It would be apparent to a person skilled in the art that the present invention may be embodied in other specific forms without departing from the technical concept thereof. For example, some of the components described in the embodiment (or one or more aspects thereof) may be omitted or several components may be combined. The scope of the present invention should be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.
Number | Date | Country | Kind |
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2020-047453 | Mar 2020 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2021/007084 | 2/25/2021 | WO |