WO2010034166A1 - Flexible switchboard - Google Patents

Abstract

A flexible switchboard comprises a flexible surface layer (1), a first flexible circuit board (2), an insulating meshy fabric (3), a second flexible circuit board (4) and a flexible bottom layer (5) in turn. There are corresponding electrical contacts (21,41) on the first flexible circuit board (2) and the second flexible circuit board (4) respectively. There are through holes (31) corresponding to the electrical contacts on the insulating meshy fabric. A switch pressing region (11) corresponding to the electrical contacts is arranged on the flexible surface layer. Each edge of the flexible surface layer, the first flexible circuit board, the insulating meshy fabric, the second flexible circuit board and the flexible bottom layer is encapsulated and fixed together.

Description

 Manual flexible slab

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 [1] The present invention relates to an electrical signal input device, and more particularly to a flexible switch plate that can be wound up.

[2] The existing flexible switch board has a structure including a flexible surface layer, a first flexible circuit board, a flexible insulating layer, a second flexible circuit board and a flexible bottom layer in order from the outside to the inside, the first flexible circuit board and the second Corresponding surfaces of the flexible circuit board are respectively provided with corresponding conductive contacts, and the flexible insulating layer is provided with a through hole corresponding to the conductive contact, and a flexible pressing layer is disposed with a switch pressing area corresponding to the conductive contact, and the flexible surface layer The first flexible circuit board, the flexible insulating layer, the second flexible circuit board, and the edge of the flexible bottom layer are packaged and fixed together.

 [3] The first flexible circuit board and the second flexible circuit board are separated by a flexible insulating layer, the conductive contacts of the first flexible circuit board and the second flexible circuit board are not in contact, and the flexible switch board does not operate.

 [4] Using 吋, pressing the switch pressing area on the flexible surface layer, the conductive contact on the first flexible circuit board can be pressed toward the through hole on the flexible insulating layer, and through the through hole and the second flexible circuit board The conductive contacts are in contact to turn on the electrical signal.

 [5] This flexible switch board has a flexible insulating layer usually made of sponge, and the use of sponge as a flexible insulating layer has the following disadvantages: (1) The structural strength of the sponge is poor, and the through hole is opened on the sponge. It should not be too dense, otherwise the joint between the hole and the hole will be broken. Thus, for a flexible switch plate with more pressing and dense pressing areas, the sponge is not ideal as its flexible insulating layer. (2) There is no through hole in the sponge purchased in the market. It is necessary to set up a through hole specially, which is troublesome in production and processing.

[6] It is an object of the present invention to provide a flexible switch board having a flexible insulating layer with high strength and no need to machine through holes

Production and processing are very convenient.

[7] The technical solution of the present invention is as follows: a flexible switch board, comprising a flexible surface layer, a first flexible circuit board, a flexible insulating layer, a second flexible circuit board and a flexible bottom layer, in order from the outside to the inside, the first flexible circuit Corresponding surfaces of the board and the second flexible circuit board are respectively provided with corresponding conductive contacts, the flexible insulating layer is provided with a through hole corresponding to the conductive contact, and a switch pressing area corresponding to the conductive contact is distributed on the flexible surface layer , flexible The surface layer, the first flexible circuit board, the flexible insulating layer, the second flexible circuit board and the edge of the flexible bottom layer are packaged together; the flexible insulating layer is an insulating mesh fabric.

 [8] The above-mentioned insulating mesh fabric is a common polyester mesh fabric.

 [9] After using the above scheme, the flexible switch board of the present invention uses an insulating mesh fabric as its flexible insulating layer

Compared with the prior art, the following beneficial effects are obtained: (1) The strength of the mesh fabric is high, and there is no need to worry about the breakage of the joint between the through holes due to the too dense through holes, so that it can be applied to various types of Flexible switch board. (2) The mesh fabric is densely covered with through holes, which eliminates the need for re-opening, which is convenient for production and processing. Country deletion

1 is a cross-sectional view of the present invention.

Figure 2 is an exploded perspective view of the present invention.

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 [12] The flexible switch board of the present invention, as shown in FIG. 1 and 2, includes a flexible surface layer 1, a first flexible circuit board 2, an insulating mesh fabric 3, a second flexible circuit board 4, and the like from the outside to the inside. The flexible bottom layer 5, the first flexible circuit board 2 and the corresponding surface of the second flexible circuit board 4 are respectively provided with corresponding conductive contacts 21, 41, and the insulating mesh fabric 3 is densely covered with a through hole 31, and the flexible surface layer 1 There are distributed switch pressing regions 11 corresponding to the conductive contacts 21 (41), the edges of the flexible facing layer 1, the first flexible circuit board 2, the insulating mesh fabric 3, the second flexible circuit board 4, and the flexible bottom layer 5 The packages are fixed together.

 [13] The first flexible circuit board 2 and the second flexible circuit board 4, the conductive contacts 21, 41 of the first flexible circuit board 2 and the second flexible circuit board 4 are separated by the insulating mesh fabric 3. Without contact, the flexible switch board does not work.

 [14] Using the 按压, pressing the switch pressing area 11 on the flexible surface layer 1, the conductive contact 21 on the first flexible circuit board 2 can be pressed against the through hole 31 in the insulating mesh fabric 3, and through the through hole The hole 31 is in contact with the conductive contact 41 of the second flexible circuit board 4 to turn on the electrical signal.

 [15] In the present invention, the insulating mesh fabric 3 is generally selected from a mesh cloth having a small hole, such as a common polyester mesh cloth, so that the small pressing area of each switch pressing area 11 is dense and dense. The mesh cloth of the hole is just right. For each of the switch pressing regions 11 having a large area and being sparse, a switch pressing region 11 corresponds to the plurality of through holes 31, that is, the corresponding conductive contacts 21, 41 are in contact with each other through the plurality of through holes 31. Turn on, the same applies.

[16] In order to increase the elasticity and feel of the flexible switch board, between the second flexible circuit board 4 and the flexible bottom layer 5 The pad is provided with a sponge, and the edge of the sponge is also packaged and fixed with the edges of the flexible facing 1, the first flexible circuit board 2, the insulating mesh fabric 3, the second flexible circuit board 4, and the flexible substrate 5.

Claims

Claim

 [1] 1. The flexible switch board comprises, in order from the outside to the inside, a flexible surface layer, a first flexible circuit board, a flexible insulating layer, a second flexible circuit board and a flexible bottom layer, the first flexible circuit board and the second flexible circuit board Corresponding surfaces are respectively provided with corresponding conductive contacts, the flexible insulating layer is provided with a through hole corresponding to the conductive contact, and the flexible surface layer is distributed with a switch pressing area corresponding to the conductive contact, the flexible surface layer, the first The edge of the flexible circuit board, the flexible insulating layer, the second flexible circuit board and the flexible bottom layer are fixed together; and the flexible insulating layer is an insulating mesh fabric.

 [2] 2. The flexible switch board according to claim 1, wherein: the insulating mesh fabric is a common polyester mesh cloth.