This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2007-218275, filed on Aug. 24, 2007, the entire contents of which are incorporated herein by reference.
The present invention relates to a battery pack, and more particularly, to an improvement in a structure for grounding a terminal cover used as a shield for a battery pack.
Hybrid vehicles and electric vehicles use high voltage battery packs as power sources. Such a battery pack is connected to a high voltage unit of a vehicle by connecting a connector or a round terminal to a terminal base arranged on the battery pack.
A high voltage portion of the battery pack produces electromagnetic noise. Thus, high voltage cables connected to the battery pack are provided with shields. Furthermore, the main body of the battery pack, which accommodates a battery, is covered by a metal case, which is grounded to function as a shield.
The terminal base includes terminal connection portions connected to a connector or round terminal. The terminal connection portions forms a shield interruption in the battery pack. That is, the terminal connection portions form an interruption between the shield of the high voltage cables and the shield of the battery pack main body. By using a connector having an internal structure for connecting the shield of a high voltage cable to the shied of the battery pack main body, the problem of shield interruption at the connection portion can be solved. However, a round terminal has a simple structure and does not include a shield. As a result, electromagnetic noise may leak out of the terminal connection portion.
Accordingly, in the prior art, to prevent the leakage of electromagnetic noise, as shown in
A battery pack may be provided with a high voltage interlock (HVIL) switch, which is arranged on the terminal base. The HVIL switch disconnects the terminal connection portions from the battery when removing the terminal cover. The HVIL switch is one type of a safety device that prevents the application of high voltage to the terminal connection portions of the terminal base that are exposed when the terminal cover is removed. When installing the HVIL switch to the terminal base, stable opening and closing of the switch in accordance with the removal and attachment of the terminal cover must be ensured. Thus, as shown in
Furthermore, to protect the terminal connection portions from moisture, the terminal cover may be provided with a seal. In such a case, to seal the terminal base with the terminal cover, the terminal cover must be directly attached to the terminal base.
In this manner, in a structure in which the terminal cover is attached to the terminal base and not to the case of the battery pack main body, the terminal cover and case cannot be electrically connected, and the terminal cover cannot be grounded. Thus, sufficient shielding of the terminal connection portions cannot be ensured.
Japanese Laid-Open Patent Publication No. 2003-115679 describes a grounding structure for a printed circuit board accommodated in a conductive case. In the publication, a grounding plate, which is arranged on an attachment boss of the printed circuit board, electrically connects the case and printed circuit board. This grounds the printed circuit board. However, such a grounding structure cannot be used as the grounding structure for the above-described battery pack terminal cover.
The present invention provides a battery pack for electrically connecting a terminal cover, which is attached to a terminal base, and a case for a battery pack even if the terminal cover and case do not directly contact each other.
One aspect of the present invention is a battery pack for accommodating a battery. The battery pack including a case which is formed from a conductive material for accommodating the battery. A terminal base is formed from a non-conductive material and attached to the case. A terminal cover is formed from a conductive material and attached to the terminal base. A conductor is formed from a conductive material and contacts both of the terminal cover and the case.
A further aspect of the present invention is a battery pack for accommodating a battery. The battery pack includes a case which is formed from a conductive material for accommodating the battery. A terminal base is formed from a non-conductive material and attached to the case. A terminal cover is formed from a conductive material and attached to the terminal base. The terminal base includes a first attachment, which is receivable of a first bolt for fastening the terminal base to the case, and a second attachment, which is receivable of a second bolt for fastening the terminal cover to the terminal base. A first bus bar is formed from a conductive material and connects the first and second attachments to connect the terminal cover and the case.
Other aspects and advantages of the present invention will become apparent from the following description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
The invention, together with objects and advantages thereof, may best be understood by reference to the following description of the presently preferred embodiments together with the accompanying drawings in which:
In the drawings, like numerals are used for like elements throughout.
A preferred embodiment of a battery pack according to the present invention will now be discussed with reference to
The battery pack has a main body of which the exterior portion is defined by a case formed from a conductive metal material. A battery is accommodated in the case. Referring to
In the battery pack, the terminal cover 12 is attached to the terminal base 11 and does not come into direct contact with the case 10 of the battery pack main body. In the preferred embodiment, electrical connection is established between the terminal cover 12 and the case 10 to ground the terminal cover 12. This ensures that the terminal cover 12 shields terminal connection portions in an optimal manner.
The terminal base 11 of the battery pack will now be described in detail.
As shown in
An HVIL switch 18 is arranged on the terminal base 11. A plug 19 (refer to
The terminal base 11 includes three terminal base fastening bolt attachments (hereafter, referred to as the “first attachments”) 28 to 29. Each of the first attachments 26 to 28 receives a terminal base fastening bolt (hereafter, referred to as the “first bolt”) for fastening the terminal base 11 to the case of the battery pack main body. Insert collars 32 to 34, which are formed by a metal conductive material, are respectively arranged in the first attachments 26 to 28.
Furthermore, the terminal base 11 includes four terminal cover fastening bolt attachments (hereafter, referred to as the “second attachments”) 35 to 38. Each of the second attachments 35 to 38 receives a terminal cover fastening bolt (hereafter, referred to as the “second bolt”) for fastening the terminal cover 12 to the terminal base 11. Metal insert nuts 43 to 46 are respectively arranged in the second attachments 35 to 38.
In the battery pack, bus bars 47 and 48 for grounding the terminal cover 12 are arranged at two locations on the terminal base 11. The bus bars 47 and 48 are formed from a metal conductive material. As shown in
The terminal cover 12 attached to the terminal base 11 in this manner will now be described in detail.
As shown in
In the battery pack, when attaching the terminal cover 12 to the terminal base 11, the bus bars 47 and 48 electrically connect the case 10 of the battery pack main body to the terminal cover 12 and thereby ground the terminal cover 12. Such electrical connection of the case 10 and the terminal cover 12 with the bus bars 47 and 48 will now be specifically described.
The bus bar 47 has one end held between the upper surface of the first attachment 26 and the bolt head of the first bolt 49. The bus bar 47 has another end held between the upper surface of the second attachment 35 and the terminal cover 12. Thus, the bus bar 47 is in contact with the upper surface of the insert collar 32, which is arranged in the first attachment 26, and the rear surface of the terminal cover 12. Further, the lower surface of the insert collar 32 is in contact with the surface of the case 10 for the battery pack main body. The insert collar 32 and the bus bar 47 are both formed from a conductive material. Thus, the insert collar 32 and the bus bar 47 electrically connect the case 10 for the battery pack main body and the terminal cover 12. Since the case 10 for the battery pack main body is grounded, the case 10 grounds the terminal cover 12.
The bus bar 48, which connects the first attachment 27 and the second attachment 36, is set in the same manner as the bus bar 47. Thus, the insert collar 33, which is arranged in the first attachment 27, and the bus bar 48 also electrically connect the case 10 for the battery pack main body and the terminal cover 12. In other words, in the preferred embodiment, the battery pack has two separate electrical conduction routes connecting the case 10 and the terminal cover 12.
In the preferred embodiment, the insert collars 32 and 33 and the bus bars 47 and 48 are in contact with both of the terminal cover 12 and the case 10 and correspond to a conductor formed by a conductive material.
In the preferred embodiment, the battery pack has the advantages described below.
(1) The battery pack includes the two bus bars 47 and 48, which respectively connect the first attachments 26 and 27 to the second attachments 35 and 36 on the terminal base 11. Further, the insert collars 32 and 33, which are arranged in the first attachments 26 and 27, and the bus bars 47 and 48 electrically connect the case 10 of the battery pack main body and the terminal cover 12. Thus, the terminal cover 12 is grounded with a relatively simple modification. Accordingly, the terminal cover 12 shields the terminal connection portions 13 and 14 in an optimal manner.
(2) The insert collars 32 and 33 arranged in the first attachments 26 and 27 electrically connect the bus bars 47 and 48 to the case 10. Thus, with a relatively simply structure, the bus bars 47 and 48 electrically connect the case 10 and the terminal cover 12.
(3) The case 10 and the terminal cover 12 are electrically connected through two routes formed by the bus bars 47 and 48. Thus, even if electrical conduction cannot be established in one of the routes due to a contact failure or the like, the terminal cover 12 can still be grounded through the other route. Accordingly, the terminal connection portions 13 and 14 remain shielded in an optimal manner and improve product reliability.
(4) The grounding of the terminal cover 12 is ensured without directly attaching the terminal cover 12 to the case 10 for the battery pack main body. Thus, with the structure for attaching the terminal cover 12 to the terminal base 11, the terminal cover 12 shields the terminal connection portions 13 and 14 while ensuring the operability of the HVIL switch 18 and the sealing of the terminal connection portions 13 and 14 and the HVIL switch 18 with the seals 20 and 21.
(5) While employing round terminals, which have no shield functions, as the terminals for connecting high voltage cables to the terminal connection portions 13 and 14, the terminal cover 12 prevents the leakage of electromagnetic noise from the terminal connection portions 13 and 14.
The preferred embodiment of the battery pack described above may be modified as described below.
The shapes of the bus bars 47 and 48 may be varied as required in accordance with the positional relationship of the connected first and second attachments. As long as the bus bar is formed from a conductive material and connects the first and second attachments, regardless of shape, electrical conduction between the first and second attachments and, ultimately, electrical conduction of the case 10 for the battery pack main body and the terminal cover 12 can be established. To keep the bus bars 48 and 48 simply shaped and compact, it is preferable that the connected first and second attachments be located as close as possible to each other.
The electrical conduction of the bus bars 47 and 48 with the case 10 may be established by components other then the insert collars 32 and 33 arranged in the first attachments 26 and 27. For example, the first bolt 49 and the nut 50 may be formed by conductive materials. In this case, the electrical conduction between the bus bar 47 and the case 10 can be established by the first bolt 49 and the nut 50. In such a structure, the bus bar 47, the first bolt 49, and the nut 50 serve as the conductor.
The conductor may be formed by only the bus bars 47 and 48. That is, in addition to electrically connecting the first and second attachments, the bus bars 47 and 48 may be electrically connected to the case 10.
In the preferred embodiment, the two bus bars 47 and 48 on the terminal base 11 form two electrical conduction routes between the terminal cover 12 and the case 10. However, the possibility of the two electrical conduction routes both being broken due to contact failures is low. Thus, only one electrical conduction route can be formed by using only one bus bar. In this case, the conductor is formed by, for example, the insert collar 32 and the bus bar 47. If necessary, three or more bus bars may be used to form three or more electrical conduction routes.
When necessary, the seals 20 and 21 arranged on the terminal cover 12 and/or the HVIL switch 18 arranged on the terminal base 11 can be eliminated. In such a case, the terminal cover 12 that is attached to the terminal base 11 and not in direct contact with the case 10 for the battery pack main body can still be electrically connected to the case 10 by the bus bars. Accordingly, terminal cover 12 shields the terminal connection portions 13 and 14 in an optimal manner.
In the preferred embodiment, the terminal cover 12, which is attached to the terminal base 11 but does not come in direct contact with the case 10 for the battery pack main body, is electrically connected to the case 10 by the bus bars 47 and 48, which connect the first attachments 26 and 27 and the second attachments 35 and 36 on the terminal base 11. Alternatively, a conductor formed from a conductive material and contacting both of the terminal cover 12 and the case 10 may be used in lieu of the bus bars 47 and 48. This would also establish electrical conduction between the case 10 for the battery pack main body and the terminal cover 12.
For example, in a further embodiment of a battery pack according to the present invention, as shown in
The grounding plate 63 arranged between the terminal base 61 and the terminal cover 62 is thinner than the terminal cover 62 and can be resiliently deformed in a relatively simple manner. As shown in
Accordingly, the grounding plate 63, which comes in contact with both of the case 60 and the terminal cover 62, electrically connects the case 60 and the terminal cover 62. In this state, the case 60 for the battery pack main body is grounded. This grounds the terminal cover 62 and optimally shields the terminal connection portions 68 and 69 with the terminal cover 62.
It should be apparent to those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention. Particularly, it should be understood that the present invention may be embodied in the following forms.
The present invention may be applied to a battery pack that does not include an HVIL switch on the terminal base.
The present invention may be applied to a battery pack used for applications other than vehicle power sources. More specifically, the present invention is applicable to any battery pack including a case formed from a conductive material and accommodating a battery, a terminal base formed from a non-conductive material and attached to the outer side of the case, and a terminal cover formed from a conductive material and attached to the terminal base.
The present examples and embodiments are to be considered as illustrative and not restrictive, and the invention is not to be limited to the details given herein, but may be modified within the scope and equivalence of the appended claims.
Number | Date | Country | Kind |
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2007-218275 | Aug 2007 | JP | national |