KR910006145Y1 - Electric connector - Google Patents

Abstract

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Description

Electrical connector

1 is a graph showing the relationship between the contact pressure of an electrical connector and the displacement of the leaf spring due to the difference in the spring strength of the leaf spring.

2a is a perspective view of a first embodiment of an electrical connector according to the present invention.

2b or a side view of FIG. 2a.

3 is a cross-sectional view taken along the line X-X of FIG. 2a.

* Explanation of symbols for main parts of the drawings

1: Female electric connector 2: Receiving part

3: first plate spring 4: second plate spring

4C: bend

The present invention relates to an electrical connector in which a pair of female and male electrical connectors are in elastic contact with each other and electrically connected to each other. More specifically, the present invention relates to an electrical connector in which the structure of a leaf spring of a female electrical connector is improved.

In recent years, with the trend of miniaturization and high performance of electronic devices, miniaturization and high performance of electrical connectors used therein are also required.

In the electrical connector, the male electrical connector and the female electrical connector are individually housed in various housings formed of an insulating resin, and the housings are elastically coupled together. However, in accordance with the above-mentioned demand for miniaturization and high performance, even a minimum unit of electrical connector is required to have high performance such as miniaturization and stability of contact pressure.

As a material that satisfies the above-mentioned demand, in particular, the demand for miniaturization, a conductive metal thin plate is generally used as a material for forming an electrical connector.

In addition, from the standpoint of mass productivity and product cost reduction, the structure of the electrical connector having a leaf spring used as a direct contact portion is an integral structure formed by bending a metal plate. However, the spring force (spring strength) is weakened because the leaf spring disposed in the receiving portion of the female electrical contactor in contact with the male electrical connector is thin and small, and thus a sufficient contact pressure at the time of connection between the male electrical connector and the female electrical connector The drawback is that this is not obtained.

In order to solve the said drawback, it is proposed to use a double leaf spring in the receiving part as described in Unexamined-Japanese-Patent No. 81-133680 as an example.

However, although the installation of the double leaf spring increases the contact pressure between the electrical connectors, it is very inconvenient to handle by increasing the insertion force for inserting the male connector into the female electrical connector against the spring force of the leaf spring. In particular, if the longitudinal length of the male connector is shortened in order to most effectively address the demand of miniaturization, the length of the leaf spring provided thereon is also necessarily shortened.

Therefore, the insertion force increases by increasing the spring strength of the leaf spring, and the contact pressure as a reaction against the leaf spring cannot be kept constant because the dimension of the height direction of the insertion portion of the male connector is uneven, As the electrical characteristics become unstable, there is a problem that does not satisfy the demand for high performance.

Based on these facts, the present invention integrally forms two leaf springs disposed in the receiving portion of the female electrical connector, and the leaf springs disposed inside the receiving portion are in direct flat contact with the leaf springs disposed outside. Without overlapping, the leaf spring is bent and overlapped inside the receiver so as to be separated from the contact portion of the male connector, thereby providing a combination of two leaf springs with different spring strengths, thus providing an insertion force as compared to the conventional direct overlapping method. It is an object of the present invention to provide an electrical connector that realizes high performance of an electronic device while reducing an unbalance of over-contact pressure.

A first embodiment of the present invention will be described below with reference to the accompanying drawings.

First, the relationship between the contact pressure P and the displacement δ by the difference in the spring strength between the leaf springs arranged in the receiver of the female electrical connector will be described with reference to FIG. The contact pressure is the same as the reaction exerted on the contact of the male connector in the leaf spring, and the displacement refers to the distance the leaf spring has moved outwards to the contact of the male connector. In FIG. 1, reference numeral A denotes a leaf spring having a large spring strength, and reference numeral B denotes a leaf spring having a small spring strength.

In order to maintain the contact pressure P within a predetermined range, for example, in the range of P ₁ to P ₂ , when the leaf spring A having a large spring strength is used, only the displacement range appears from δ ₁ to δ ₂ , On the other hand, in the case of using a leaf spring B having a small spring strength, the displacement range is from δ ₂ to δ ₄ , and thus, δ ₁ to δ ₂ │ <│ δ ₃ to δ ₄ │. It can be seen from this that the leaf spring B takes a larger displacement range δ than the leaf spring A.

If the displacement range δ can be chosen large, the tolerance of the nonuniformity of the contact dimension of the male connector will increase.

That is, the contact pressure P can be easily set within a predetermined range.

The present invention has been made in accordance with the above, wherein if the leaf springs simply overlap, the device for increasing the spring strength inevitably increases the spring strength by improving the shape, and the allowable variation range is within a predetermined range. To maintain the contact pressure.

In FIGS. 2A, 2B and 3, the female electrical connector 1 is integrally formed using one conductive metal sheet, but at one end of the female electrical connector, a rectangular cylindrical receiver 2 is provided. It is. In the receiving portion 2, a male electrical connector (not shown) is inserted in the I direction in FIG. 2A.

In the receiving portion 2, two leaf springs formed by bending the lower end of the thin metal plate in the longitudinal direction, that is, the first leaf spring 3 and the second leaf spring 4 are arranged. The second leaf spring 4 does not directly overlap the first leaf spring 3, and the second leaf spring 4 is in contact with the front end 4a and the rear end 4b, and the front end 4a. And the two leaf springs at the intermediate portion between the rear end portions 4b are bent to protrude into the receiving portion 2 without contacting each other to form the bent portion 4c.

The apex of the bent portion 4c comes in contact with the contact portion of the hydroelectric connector to urge the second leaf spring 4 from the outside. At this time, the pressing force, i.e., the insertion force, is received by the second leaf spring via the rear end 4b of the second leaf spring 3, and the second leaf spring 4 is at the front end at the common point of the two leaf springs. (4a) It is bent inside the receiving part 2 around.

As described above, the second leaf spring 4 and the first leaf spring 3 do not simply overlap flat, but overlap by bending the middle portion of the second leaf spring 4 so that the spring strengths of the two springs are different. In comparison with the flat superposition, the amount of displacement of the curved superimposed leaf springs 3 and 4 can be large.

Therefore, the allowable amount of the nonuniformity of the contact portion of the male connector can be increased, and the predetermined range of the contact pressure required by the electrical connector can be maintained.

In the drawing, reference numeral 5 denotes an electric wire. The exposed core wire 5a is fixed by the inwardly bent retaining members 6a and 6b, and the electric wire 5 is similarly fixed by the retaining members 7a and 7b that are bent inward at the other end.

As described above, according to the present invention, the first leaf spring and the second leaf spring do not directly overlap with each other, but are overlapped by bending the second leaf spring, and the leaf spring comes into contact with the power receiving connector at the bent portion. Also, the rear end portion of the spring will contact such that the component of the insertion force is distributed to the rear end portion of the second leaf spring so that the second leaf spring will be displaced by the component.

In other words, the point of action of the force of the second leaf spring is placed at the rear end of the longer distance from the point of action of the force of the first leaf spring to the open hole of the receiver, making the strength of the second leaf spring smaller than that of the first leaf spring. As a result, the strength of the leaf spring, where the two leaf springs simply overlap, is reduced. On the contrary, when the allowable displacement amount of the leaf spring is increased, as a result, the non-uniformity of the insertion force and the contact pressure is absorbed, and the predetermined stable electrical characteristics are realized, thereby obtaining a high-performance electric machine.

Claims (1)

In a female electrical connector having a wire connecting portion for connecting and fixing an insulated wire at a lower end portion and a receiving portion 2 for receiving a male electrical connector at an opposite end, the receiving portion 2 bends an elastic metal plate to form a lower portion and both sides. , Has a rectangular cylindrical shape consisting of an upper portion of the three plate structure, the outermost plate of the upper portion of the receiving portion 2 is fixed in parallel to the lower portion, the first plate spring 3 of the upper portion of the receiving portion 2 is At the front end, overlapping with the outermost plate and inclined downward toward the rear end, the second leaf spring 4 of the upper portion of the receiving portion 2 overlaps the first leaf spring 3 and the outermost pin only at the front end thereof. And an inclined downward direction away from the first plate spring (3) away from the front end, and having a bent portion in contact with the male connector, and bent toward the first plate spring toward the rear end so as to be in contact with each other.Visitor.