The present invention relates to a cable connecting structure, and more particularly, to a cable connecting structure for connecting a cable to a unit which requires electric power.
With reference to
Such unit 101 is connected with a cable 108, for example, a high-voltage cable or the like. As illustrated in
Patent Document 1: Japanese Patent Laid-Open Publication No. 2004-153904
A cable terminal structure with a shield layer is disclosed as a conventional art in the Patent Document 1 mentioned above. In this terminal structure, one end of a cylindrical fitting is interposed between an exposed insulator and the shield layer, and a flange portion is incorporated into the cylindrical fitting. The other end of the cylindrical fitting is inserted into a through hole of a panel, and the flange portion is fixed to the panel by means of screw.
Conventionally, in the cable connecting structure illustrated in
However, a clamping direction (lateral direction X) of the connection bolt 121 and a clamping direction (downward direction Y) of the coupling bolt 122 require the clamping from two directions perpendicular to each other. Therefore, in the layout of the unit 101, if there exists an obstacle D in at least one of the two clamping directions as shown in
As also illustrated in
In view of the circumstances mentioned above, it is an object of the present invention to provide a cable connecting structure that facilitates layout of components and minimizes the length of a connection cable.
In order to achieve the above object, a cable connection structure according to the present invention includes:
It may be further preferred that a fixing direction for the round terminal and the connecting direction conversion member is arranged so as to constitute a perpendicular relationship with a fixing direction for the flange portion and the terminal block.
According to the cable connecting structure of the present embodiment mentioned above, the cable is connected to the unit by assembling working from one direction to thereby facilitate the layout of components and minimize the length of the cable.
An embodiment of the present invention will be described hereunder with reference to the accompanying drawings (
In
The unit 1 includes a unit body 2 as well as a cover member 4 having a U-shape in a plan view. The cover member 4 is mounted on one side portion of the unit body 2 so as to form a cable connecting space 3 that penetrates in the vertical direction of the cover member 4. As illustrated in
In the cable connecting space 3, the terminal block 7, which is fixed to the unit 1, is arranged and three cables 8, 8, 8 are arranged so as to respectively correspond to the three connection portions 5, 5, 5. Accordingly, as illustrated in
A single cable 8 will be described hereunder with reference to
The cable 8 also includes a flange portions 13 which is coupled with the terminal block 7. The flange portion 13 is fixed to the cable 8 through an interposing member 14, and formed with a coupling bolt hole 15 which penetrates in the perpendicular direction at one end side thereof.
As illustrated in
As illustrated in
A water-proof sheet 19 is laid on the upper surface of the terminal block 7, and coupling screw holes 20 are formed in the terminal block 7 at positions corresponding respectively to the coupling bolt holes 15 of the flange portions 13.
At a time when the terminal block 7 is fixed to the unit 1, connection bolts 21 are first inserted into the respective connection bolt holes 11 of the round terminals 12 from the lateral direction X and then clamped into the respective connecting screw holes 17 of the connecting direction conversion members 16 to fix the round terminals 12 respectively to the connecting direction conversion members 16. Then, coupling bolts 22 are inserted into the respective coupling bolt holes 15 of the flange portions 13 from the lower side, i.e., a fixing direction Y1, and then clamped into the respective coupling screw holes 20 of the terminal block 7 to fix the flange portions 13 to the terminal block 7, thereby setting the terminal block 7 to the cable 8 in advance.
Thereafter, fixing bolts 23 are inserted into the respective fixing bolt holes 6 of the connection portions 5 from the upper direction, i.e., a fixing direction Y2, and then clamped into the respective fixing screw holes 18 of the connecting direction conversion members 16, thereby fixing the terminal block 7 to the unit 1.
As a result, it is only necessary to clamp the fixing bolts 23 from one upward direction, i.e., the fixing direction Y2, so as to connect the cable 8 to the unit 1. This facilitates the layout of components and eliminates the need to secure a space for a special clamping operation. Further, the degree of freedom of clamping is increased and the length of the cable 8 can be minimized.
The fixing direction X for fixing the round terminals 12 to the connecting direction conversion members 16 and the fixing direction Y1 for fixing the flange portions 13 to the terminal block 7 are arranged perpendicularly to each other as illustrated in
This is especially effective when the fixing direction X for fixing the round terminals 12 to the connecting direction conversion members 16 and the fixing direction Y1 for fixing the flange portions 13 to the terminal block 7 are arranged perpendicularly to each other.
A cable connecting structure according to this invention is applicable not only to a high-voltage cable and a high-voltage unit, but also to various vehicles.
Number | Date | Country | Kind |
---|---|---|---|
2010-105258 | Apr 2010 | JP | national |
This patent application is a U.S. National Phase of International Patent Application No. PCT/JP2011/060054, filed 25 Apr. 2011, which claims priority to Japanese Patent Application No. 2010-105258, filed 30 Apr. 2010, the disclosures of which are incorporated herein by reference in their entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2011/060054 | 4/25/2011 | WO | 00 | 12/20/2012 |