JP2011525683A - Battery cover structure having battery terminals - Google Patents

Abstract

The present invention relates to a battery cover structure having battery terminals, and more particularly to a battery cover structure for a liquid electrolyte battery. The present invention has the following features. That is, it has a battery terminal (1) having a fixed part (1a), a clamp part (1b), and at least one measurement terminal part (1c ₁ , 1c ₂ ), and a battery cover (2). The battery terminal (1) is fixed to the battery cover (2) by the fixing portion (1a), and the battery cover (2) is arranged around the battery terminal (1) at the measurement terminal portion (1c ₁ 1c ₂ ) with a shallow recess (3), which is equipped with a cover (4), which is filled with a sealing material.
[Selection] Figure 1

Description

Detailed Description of the Invention

  The present invention relates to a battery cover structure having battery terminals, and more particularly to a battery cover structure for a liquid electrolyte battery.

  For example, German Patent Application Publication No. 102005030992A1, German Patent Application Publication No. 4127956B4, No. 10301033B3, German Patent Application Translation Nos. 68987878T2, No. 68913339T2, Many battery terminal structures are known from current technologies such as those disclosed in German Patent Invention Nos. 19860198C2, 3417521C2, German Patent Application Translation No. 69612537T2, and the like. . These battery terminal structures are configured such that they have liquid and gas sealing properties.

  It is also known to place sensors or test leads at the battery terminals. In this case, the following basic problems occur. That is, the contact point where the sensor or test lead is connected to the battery terminal must be well protected. This protection is related to chemical and physical effects. For example, when an erodible electrolyte liquid touches a contact point, additional electrical resistance is generated due to corrosion, and the measurement result is distorted. In addition, corrosion can reduce the physical stability of the contact points, which can cause the test leads to break with slight physical loads.

  However, there is also a need for protection against physical damage. This is because, in fact, this type of battery is also cleaned by high-pressure water jets, so that the contact points must not be damaged.

  German Patent Application Publication No. 19961311A1, German Patent Application Publication No. 10118051A1, German Patent Application Publication No. 3532044A1, German Patent Application Translation No. 69616306T2, US Pat. No. 4,572,878 In the specification, European Patent Application No. 1204165A1 and WO 99 / 54444A1, pamphlets with additional test leads or sensors are disclosed. The successful realization of the protection requirements for erodible media and physical damage at the same time has proved to be a fundamentally difficult task if the construction costs for that must be low. This requirement is particularly difficult to achieve when standard batteries must widely accept non-standard dimensions for housing and electrode packets.

German Patent Application Publication No. 102005030992A1 German Patent Application Publication No. 4127956B4 German Patent Application Publication No. 10301043B3 Specification German patent application translated version 689878878T2 specification German patent application translated version 68913339T2 specification German Patent Invention No. 19860198C2 Specification German Patent No. 3417521C2 specification German patent application translated version 69612537T2 specification German Patent Application Publication No. 19961311A1 German Patent Application Publication No. 10118051A1 German Patent Application Publication No. 3532044A1 German Patent Application Translation Version No. 69616306T2 Specification U.S. Pat. No. 4,572,878 European Patent Application No. 1204165A1 International Publication No. 99 / 54744A1 Pamphlet

  Accordingly, it is an object of the present invention to provide a battery terminal structure that guarantees moisture protection and physical protection against physical damage of the battery terminal to which the test leads are connected, and in particular, for such protection. The object is to provide a demand that minimizes the cost and does not require significant changes to the conventional battery terminal structure.

  This object is achieved by a battery cover structure with a battery terminal according to claim 1.

  The battery cover is provided with a plurality of similarly configured battery terminals, but the following description is directed to only one battery terminal and its arrangement in the battery cover.

  A battery terminal is disposed on the battery cover, and is clamped by, for example, a coupling and coupling method by a conventional fixing method. The battery terminal is provided with at least one measurement terminal portion, and the measurement terminal portion extends laterally from the battery terminal into the plane of the battery cover. A test lead can be connected to the measurement terminal portion in a conventional manner. The battery cover around the battery terminal is provided with a shallow depression covered with a cover, and the measurement terminal portion is placed in this depression. This recess is filled with an elastic sealing material. Accordingly, the measurement terminal portion, a part of the test lead, and particularly the contact point where the test lead is connected to the measurement terminal portion are all encased in the elastic sealing material and are well protected from the liquid and vaporized gas. This type of sealant is known to those skilled in the art, and therefore the illustration of the product name is omitted. Due to the elastic properties of the sealing material, even if the temperature changes, for example, cracks that allow erodible electrolyte liquid to enter do not occur. There is a risk of this crack in the case of hard fillers with high physical stability. Therefore, the shallow depression is covered with a cover made of a hard material, preferably a cover made of synthetic resin, and the size of the cover is such that even when high-pressure water is sprayed or on the cover, such as a driver. Make sure that the tool will not be damaged if it falls.

  According to Claim 2, the said cover can be fixed on a hollow with a clip holder. The clip holder can be easily manufactured at a low cost when manufacturing the cover, and has a reliable closing property and a good sealing property.

  According to the third aspect, the cover is fixed on the recess by the adhesive tape. This alternative to the embodiment of claim 2 is even cheaper.

  Hereinafter, the present invention will be described based on embodiments and drawings.

The battery terminal 1 is fixed to the battery cover 2 by a coupling and coupling method. In the illustrated embodiment, two measuring terminals portion _1c to the battery terminals 1 1, 1c ₂ is provided, on the measurement terminal portion _1c 1, 1c _2, each one of the test leads, e.g. soldering, welding or clamping Can be connected with a set screw. A shallow recess 3 is provided in the battery cover 2 around the battery terminal 1, and the recess 3 can be covered with a cover 4. The measurement terminal portions 1c ₁ and 1c ₂ are located in opposite directions and extend horizontally in the recess. This recess 3 is preferably completely filled with an elastic sealing material, so that the measuring terminal portions 1c ₁ , 1c ₂ are completely embedded in the sealing material and thus against moisture and erodible water vapor. Protected. The cover 4 is preferably manufactured from the same material as the battery cover 2 itself. Thereby, reliable protection against physical loads is ensured. When the clip holder 5 on the peripheral side is used, a very reliable connection to the recess 3 of the cover 4 is ensured. Providing the punched-out portion 6 enables another embodiment of the test lead (not shown).

  The above embodiment is the best embodiment of the present invention. One skilled in the art can appreciate the technical teaching of the present invention based on the above-described embodiments. It will be apparent to those skilled in the art that this embodiment may be further developed and modified or combined with the teachings of the present invention. Accordingly, other embodiments not explicitly described or shown are also within the scope of protection of the appended claims.

1 is a perspective view of a battery cover according to the present invention. FIG. 1a shows a battery terminal.

Claims (3)

A battery cover structure having a battery terminal, the following features:
A battery terminal (1) having a fixed part (1a), a clamp part (1b) and at least one measuring terminal part (1c ₁ , 1c ₂ ), and
A battery cover (2) in which the battery terminal (1) is fixed by its fixing part (1a),
The battery cover (2) has a shallow recess (3) for receiving the measurement terminal portions (1c ₁ , 1c ₂ ) around the battery terminal (1), In the dent (3)
-Filled with elastic sealing material, and
A cover (4) made of a hard material is provided,
Battery cover structure.   The battery cover structure with battery terminals according to claim 1, characterized in that the cover (4) can be fixed on the recess (3) by means of a clip holder (5).   The battery cover structure having a battery terminal according to claim 1, wherein the cover (4) can be fixed on the recess (3) with an adhesive tape.

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