The disclosure of Japanese Patent Application No. 2013-004634 filed on Jan. 15, 2013 including the specification, drawings and abstract is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a connecting apparatus between a terminal block that is attached to an enclosure of an inverter or a motor and power cables that supply electric power from the inverter to the motor.
2. Description of Related Art
An electric vehicle includes a motor for driving, and an inverter that converts direct-current power of a battery into alternating-current power with a suitable frequency for driving the motor. A cable for supplying the electric power from the inverter to the motor is often referred to as a power cable because the cable passes a large current. An enclosure of the inverter is connected to an enclosure of the motor with power cables. A connector is attached to an end of the power cables, while the enclosure of the inverter or the motor is provided with a terminal block that couples with the connector.
The driving motor for the electric vehicle requires a large amount of the electric power in particular. Consequently, each of the power cables has a large diameter and high stiffness, and thus a connecting structure between the connector and the terminal block requires high strength. Accordingly, Japanese Patent Application Publication No. 2011-177002 (JP 2011-177002 A) and Japanese Patent Application Publication No. 2012-160355 (JP 2012-160355 A) disclose the techniques for increasing the strength of the terminal blocks in particular. In the techniques disclosed in JP 2011-177002 A and JP 2012-160355 A, nuts are aligned in the terminal block for fastening the terminal of the connector in the power cable with bolts. In addition, partition panels (JP 2011-177002 A) or ribs (JP 2012-160355 A) are provided between the adjacent nuts to increase strength of the terminal block.
When a structural strength is increased in general, the size of the connector or the terminal block also increases. The present invention provides a technique for preventing the increase in size and increasing the strength of both the connector and the terminal block, and a technique for limiting the increase in size and securing the strength by taking advantage of structural features of the connector and the terminal block that are fitted with each other.
Aspects of the present invention relate to a connecting apparatus. The connecting apparatus includes power cables and a terminal block. The power cables are configured to supply electric power from an inverter to a motor. The power cables include a connector and a plurality of terminals. The plurality of terminals are fixed to the connector. A housing of the connector includes a first rib. The first rib is provided between the adjacent terminals. The first rib connects mutually facing surfaces of the housing. The terminal block is attached to an enclosure of the inverter or an enclosure of the motor. The terminal block includes a plurality of retaining walls. Each of the plurality of retaining walls encloses and retains a nut. The terminal block includes a second rib for connecting the adjacent retaining walls. One of the first rib and the second rib includes a recess. The connector is connected to the terminal block when each of the plurality of terminals is fastened to the terminal block with a bolt and the nut. The other of the first rib and the second rib is disposed in the recess and the first rib intersects with the second rib when the connector is connected to the terminal block.
The plurality of cable terminals are fixed to the connector in the end of the power cables. In addition, the terminal block connected to the connector is provided with retaining walls that corresponds to each of the plurality of cable terminals and encloses and retains the nut fastening the cable connector with the bolt. In the aspect of the present invention, the connector is provided with the first rib that is provided between the adjacent terminals and connects the mutually facing surfaces of the housing of the connector to increase the strength. On the other hand, the terminal block is provided with second rib for connecting the adjacent retaining walls to increase the strength. In the aspect of the present invention, either one of the first rib and the second rib is provided with the recess, and the first rib and the second rib have the positional relation in which one rib intersects with the recess provided in the other rib when the connector is connected to the terminal block. The reduction of the space where the two ribs occupy can be achieved by intersecting the two ribs. It should be noted that both of the ribs may be provided with the recess, and the positional relation of the two ribs can be determined so that the recesses face and intersect with each other.
The technique described above is particularly effective to the connector in which the plurality of the cable terminals are arranged in a line for the following reasons. When the plurality of the cable terminals are arranged in a line, the connector housing is formed in a long narrow shape. Then, the strength decreases. Providing the first rib that crosses the housing in the vicinity of a near midsection of the connector housing in the longitudinal direction is effective at increasing the strength. On the other hand, the nuts in the terminal block are arranged in a line in accordance with the arrangement of the cable terminals in the connector. In such a structure, the second rib for connecting the adjacent retaining walls of the adjacent nuts extends in the direction of the nut arrangement, that is, the longitudinal direction of the connector housing. Thus, the direction in which the first rib extends intersects with the direction in which the second rib extends, and the advantage in applying the technique disclosed herein can be achieved. A typical case is that electric power is supplied from the enclosure of one inverter to two motors. In this case, at least six cable terminals are arranged in a line in the connector to supply the electric power to each of the two motors. In the terminal block provided in the enclosure of the inverter, six nuts for fastening the cable terminals are arranged in a line, corresponding to the at least six cable terminals. The connector housing is formed in a long narrow shape corresponding to the arrangement of the six nuts in a line. In such connector and terminal block, the ribs described above are effective at securing the strength of the connector.
It should be noted that the technique disclosed herein may be applicable to the connecting structure between the terminal block provided in the enclosure of the inverter and the power cables, or to the connecting structure between the terminal block provided in the enclosure of the motor and the power cables. The connector housing corresponds to a connector that fixes the cable terminals.
Furthermore, the first rib may be provided on a terminal block side rather than in the cable terminal when the connector is connected to the terminal block. Such a structure can reduce the thickness of the connector because the two ribs intersect with each other through the recess in the direction of the connector thickness (the length of the connector housing in the direction of insertion into the terminal block).
The recess provided in the rib can be used for recognizing the direction of the connector when the operator connects the connector to the terminal block. To do this, the recess of the rib may be provided at a position offset from the center of the opening of the connector to the edge of the opening. When the present invention includes such a structure, the recess cannot be fitted into the other rib in position in the case where the direction of the connector is wrong. Therefore, the operator can be prevented from mistaking the direction of the connector.
Details of the technique disclosed herein and further modifications will be described in the following “DETAILED DESCRIPTION OF EMBODIMENTS”.
Features, advantages, and technical and industrial significance of exemplary embodiments of the invention will be described below with reference to the accompanying drawings, in which like numerals denote like elements, and wherein:
A connecting structure of an embodiment will be described with reference to the drawings. The connecting structure of the embodiment includes a terminal block that is provided to an inverter for an electric vehicle and a connector for power cables that are attached to the terminal block.
An enclosure of the connector 10 includes a connector housing 13 that fixes cable terminals 15 (see
In the terminal block 20, a set of the nut 24, a bus bar 23, and a retaining wall 22 configures a terminal unit 25. The nut 24 is provided to fix the bolt that fastens the cable terminal 15 in the connector 10 as described above. For reference, the bolt 94 is shown with phantom lines on the extreme right in
In
As clearly shown in
In the terminal block 20, adjacent retaining walls 22 (terminal units 25) are connected to each other with a second rib 26. The second rib 26 contributes to an increase in strength of the retaining wall 22 (that is, strength of the terminal block 20).
The first rib 16 is placed at the position closer to the terminal block 20 than the cable terminal 15. As clearly shown in
Furthermore, the facts that an upper end of the first rib 16 in
On the other hand, the recess 17 that is provided in the first rib 16 has another function. As shown in
For reference,
Considerations about the technique described in the embodiment will be described. The connecting structure according to the embodiment is achieved by the terminal block 20 provided in the inverter 92 and the connector 10 in the end of the power cables 91 for supplying the electric power from the inverter to the motor. The connecting structure disclosed herein may be applied to the terminal block provided in the enclosure of the motor and the connector in the end of the power cables. In this case, the structure in which the reference numeral 92 denotes in
In the connector 10 and/or the terminal block 20 of the embodiment, six terminals (the cable terminals 15 and the bus bar 23) are arranged in a line. In such a layout, both of the connector 10 and the terminal block 20 are formed to be long and narrow, and thus the strength is hardly secured. The technique disclosed herein is preferable to the case where the connector and the terminal block has such a long narrow form. However, the technique disclosed herein is not limited to the case where the six terminals are arranged in a line.
In the embodiment, the recess 17 is disposed in the first rib 16 that is provided in the connector housing 13. The recess may be disposed in the second rib 26 that is provided in the terminal block housing 21. The present invention may be configured such that both of the first rib and the second rib are provided with the recesses, and the recess in the first rib intersects with the recess in the second rib when the connector 10 is coupled to the terminal block 20.
In the embodiment, the first rib 16 is provided in the near midsection of the connector housing 13 in the longitudinal direction. However, the position where the first rib 16 is provided is not limited to the position described above.
While the present invention has been described in detail with reference to example embodiments thereof, it is to be understood that those examples are merely illustrative and claims of the present invention are not limited to those examples. The techniques that are disclosed in the claims of the present invention are intended to cover various modifications and changes of the example embodiments that are described above. In addition, the technical elements that are disclosed in the specification and the drawings exhibit technical usefulness alone or in various combinations and configurations, and those are not limited to the combinations and configurations that are disclosed in the claims at the time of filing this application. The techniques that are illustrated in the specification and the drawings can achieve a plurality of objects simultaneously, and the achievement of one object thereof itself has technical usefulness.
Number | Date | Country | Kind |
---|---|---|---|
2013-004634 | Jan 2013 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
2882513 | Olashaw | Apr 1959 | A |
6010347 | Lee | Jan 2000 | A |
7527523 | Yohn et al. | May 2009 | B2 |
7722372 | Matsumoto et al. | May 2010 | B2 |
20090023345 | Matsumoto et al. | Jan 2009 | A1 |
20110187213 | Kitagawa et al. | Aug 2011 | A1 |
20140015314 | Shiba | Jan 2014 | A1 |
Number | Date | Country |
---|---|---|
100550528 | Oct 2009 | CN |
2011-177002 | Sep 2011 | JP |
2012-160355 | Aug 2012 | JP |
2012-170172 | Sep 2012 | JP |
Number | Date | Country | |
---|---|---|---|
20140199894 A1 | Jul 2014 | US |