CN204808297U - Concatenation formula electric capacity touch pad - Google Patents

Abstract

The utility model discloses a concatenation formula electric capacity touch pad, including formation of image background unit and electric capacity induction element, formation of image background unit is located electric capacity induction element's front, electric capacity induction element is formed by at least one sub - electric capacity tablet concatenation, sub - electric capacity tablet including hard base plate, set up at the hard base plate straight wire of many first parallels in the one side and set up the parallel straight wires of many seconds on hard base plate another side wherein, the straight wire of first parallel is crossing with the parallel straight wire of second, the straight wire of two adjacent first parallels forms a parallelogram net with the adjacent two parallel straight wires of second. The utility model discloses the small -size touch pad can be obtained, the jumbo size touch pad can be obtained again, preparation simple process, it is with low costs, but wide application in electron device field.

Description

A kind of spliced capacitance contact board

Technical field

The utility model relates to field of electronic devices, especially a kind of spliced capacitance contact board.

Background technology

The design fundamentals of existing capacitance contact board are: at the tow sides printing parallel conductive electric wire of a plastic sheeting, and the parallel conductive electric wire in front is mutually vertical with the parallel conductive electric wire of reverse side, like this, just can form numerous grid.When finger comes on capacitive sensing plate, certain of its transverse direction can change to the electric capacity between conductor wire to the electric capacity between conductor wire and vertical certain, therefore the position of these vertical and horizontal two pairs of conductor wires can be determined by the change of perception electric capacity, thus determine the position of finger on capacitive sensing plate.Restricted by printing technology, the specification of current capacitive sensing plate is fixing often, and the specification of the touch-screen of reality is Protean often, although current capacitive sensing plate can obtain undersized touch pad by cutting, but, this capacitive sensing plate can not connect each other, therefore it can only adapt to the change requirement of small size touch pad.If desired obtain large scale touch pad (as blackboard etc.) by this kind of capacitive sensing plate, then manufacture craft process can become very complicated, and yield rate is also lower; In addition, the paint principal ingredient that the printing due to conductor wire adopts is silver powder, and the manufacturing cost of this kind of capacitive sensing plate is higher.

Utility model content

In order to solve the problems of the technologies described above, the purpose of this utility model is: provide one can obtain small size touch pad, can obtain large scale touch pad again, and manufacture craft is simple, the spliced capacitance contact board that cost is low.

The utility model solves the technical scheme that its technical matters adopts:

A kind of spliced capacitance contact board, comprise imaging background cell and capacitive sensing unit, described imaging background cell is positioned at before capacitive sensing unit, and described capacitive sensing unit is spliced by least one block of sub-capacitive sensing plate; Described sub-capacitive sensing plate comprises hard substrate, be arranged on the many bar first straight parallel wires of hard substrate wherein in one side and the many second straight parallel wires be arranged on hard substrate another side, described first straight parallel wire is crossing with the second straight parallel wire, and described adjacent two first straight parallel wires and adjacent two second straight parallel wires form a parallelogram mesh.

Further, described sub-capacitive sensing plate is also provided with conducting bridge, and described adjacent two blocks of sub-capacitive sensing plates are spliced by conducting bridge.

Further, during described sub-capacitive sensing plate splicing, the first straight parallel wire of described adjacent two blocks of sub-capacitive sensing plates to be on same straight line and to be undertaken connecting by conducting bridge or the second straight parallel wire of adjacent two blocks of sub-capacitive sensing plates to be on same straight line and to be connected by conducting bridge.

Further, described first straight parallel wire is the straight wire of laterally parallel laying, described second straight parallel wire is the straight wire of vertical parallel laying, described first straight parallel wire is vertical with the second straight parallel wire, when described sub-capacitive sensing plate is horizontally-spliced, the first straight parallel wire of described adjacent two blocks of sub-capacitive sensing plates to be on same level straight line and to be connected by conducting bridge; When described sub-capacitive sensing plate vertically splices, the second straight parallel wire of described adjacent two blocks of sub-capacitive sensing plates to be on same vertical straight line and to be connected by conducting bridge.

Further, described first straight parallel wire and the second straight parallel wire are the wire that copper wires, other non-copper plain conductor or non-metallic conducting material are formed.

Further, also comprise line connection unit, described line connection unit is positioned at after capacitive sensing unit, and described first straight parallel wire is all connected with line connection unit with the second straight parallel wire.

Further, described conducting bridge is conductive metal wire or conduction viscose bar.

Further, the outside surface of described capacitive sensing unit is coated with and is covered with protective seam.

Further, also comprise frame, described imaging background cell and capacitive sensing unit are all arranged in frame, and described imaging background cell is positioned at the front portion of frame.

Further, described imaging background cell is backlight plane.

The beneficial effects of the utility model are: comprise capacitive sensing unit, capacitive sensing unit is spliced by least one block of sub-capacitive sensing plate, both undersized capacitance contact board can be obtained by small size sub-capacitive sensing plate, also undersized capacitance contact board can be obtained by the mode that undersized for polylith capacitive sensing plate is carried out splicing, applied widely; Sub-capacitive sensing plate is formed by the hard substrate with the first straight parallel wire and the second straight parallel wire, current comparatively ripe hard base plate line plate manufacture craft can be adopted in conjunction with simple concatenation to obtain large scale touch pad, compared with the traditional approach based on plastic sheeting printed wiring board, manufacture craft is simpler, and the first straight parallel wire and the second straight parallel wire to printing material without particular/special requirement, can adopt non-silver powder material, cost is lower.Further, the outside surface of capacitive sensing unit is coated with and is covered with protective seam, can reduce the impact caused line capacitance because of the first straight parallel wire and the second straight parallel wire corrosion.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 is the structural representation of a kind of spliced capacitance contact board of the utility model;

Fig. 2 be the hard substrate of sub-capacitive sensing plate wherein one side structural representation;

Fig. 3 is the structural representation of the hard substrate another side of sub-capacitive sensing plate.

Reference numeral: 1, imaging background cell; 2, capacitive sensing unit; 3, sub-capacitive sensing plate; 3a, hard substrate; 3b, the first straight parallel wire; 3C, the second straight parallel wire; 3d, conducting bridge; 4, frame; 5, protective seam; 6, line connection unit.

Embodiment

With reference to Fig. 1,2 and 3, a kind of spliced capacitance contact board, comprises imaging background cell 1 and capacitive sensing unit 2, and described imaging background cell 1 is positioned at before capacitive sensing unit 2, and described capacitive sensing unit 2 is spliced by least one block of sub-capacitive sensing plate 3; Described sub-capacitive sensing plate 3 comprises hard substrate 3a, be arranged on many first straight parallel wire 3bs of hard substrate 3a wherein in one side and many second straight parallel wire 3C be arranged on hard substrate 3a another side, described first straight parallel wire 3b is crossing with the second straight parallel wire 3C, and described adjacent two the first straight parallel wire 3b and adjacent two the second straight parallel wire 3C form a parallelogram mesh.

Wherein, imaging background cell, for projection imaging, generally adopts not reflective plane to realize.

With reference to Fig. 2 and 3, be further used as preferred embodiment, described sub-capacitive sensing plate 3 is also provided with conducting bridge 3d, and described adjacent two blocks of sub-capacitive sensing plates 3 are spliced by conducting bridge 3d.

With reference to Fig. 2 and 3, be further used as preferred embodiment, when described sub-capacitive sensing plate 3 splices, the first straight parallel wire 3b of described adjacent two blocks of sub-capacitive sensing plates 3 to be on same straight line and to be undertaken connecting by conducting bridge 3d or the second straight parallel wire 3C of adjacent two blocks of sub-capacitive sensing plates 3 to be on same straight line and to be connected by conducting bridge 3d.

With reference to Fig. 2 and 3, be further used as preferred embodiment, described first straight parallel wire 3b is the straight wire of laterally parallel laying, described second straight parallel wire 3C is the straight wire of vertical parallel laying, described first straight parallel wire 3b is vertical with the second straight parallel wire 3C, when described sub-capacitive sensing plate 3 is horizontally-spliced, the first straight parallel wire 3b of described adjacent two blocks of sub-capacitive sensing plates 3 to be on same level straight line and to be connected by conducting bridge 3d; When described sub-capacitive sensing plate 3 vertically splices, the second straight parallel wire 3C of described adjacent two blocks of sub-capacitive sensing plates 3 to be on same vertical straight line and to be connected by conducting bridge 3d.

Be further used as preferred embodiment, described first straight parallel wire 3b and the second straight parallel wire 3C is the wire that copper wires, other non-copper plain conductor or non-metallic conducting material are formed.

With reference to Fig. 2 and 3, be further used as preferred embodiment, also comprise line connection unit 6, described line connection unit 6 is positioned at after capacitive sensing unit 2, and described first straight parallel wire 3b is all connected with line connection unit 6 with the second straight parallel wire 3C.

Be further used as preferred embodiment, described conducting bridge 3d is conductive metal wire or conduction viscose bar.

With reference to Fig. 1, be further used as preferred embodiment, the outside surface of described capacitive sensing unit 2 is coated with and is covered with protective seam 5.

With reference to Fig. 1, be further used as preferred embodiment, also comprise frame 4, described imaging background cell 1 and capacitive sensing unit 2 are all arranged in frame 4, and described imaging background cell 1 is positioned at the front portion of frame 4.

Be further used as preferred embodiment, described imaging background cell 1 is backlight plane.

Below in conjunction with Figure of description and specific embodiment, the utility model is described in further detail.

With reference to Fig. 1,2 and 3, the first embodiment of the present utility model:

Spliced capacitance contact board of the present utility model comprises frame 4, is arranged on being positioned at imaging background cell 1 above and being positioned at the capacitive sensing unit 2 with line connection unit 6 below in frame 4.Wherein, capacitive sensing unit 2 is spliced by the sub-capacitive sensing plate 3 of more than a piece, and capacitive sensing plate 3 comprises hard substrate 3a, be arranged on hard substrate 3a wherein several copper straight lines (i.e. the first straight parallel wire) 3b of the upper laterally parallel laying of one side and several copper straight lines (i.e. the second straight parallel wire) 3C being arranged on vertical parallel laying on hard substrate 3a another side.During sub-capacitive sensing plate 3 horizontally-spliced (as shown in Figure 2), the corresponding copper straight line 3b of the horizontal parallel laying of adjacent two blocks of sub-capacitive sensing plates 3 to be on same level straight line and to be connected by conducting bridge 3d; When sub-capacitive sensing plate 3 vertically splices (as shown in Figure 3), the corresponding copper straight line 3C of adjacent two pieces of vertical parallel layings of sub-capacitive sensing plate to be on same vertical straight line and to be connected by conducting bridge 3d.

The present embodiment adopts the hard substrate with copper cash to form capacitance contact board, such plate can (centre be non-conductive hard substrate by common hard base plate line plate, two sides is copper coin) etching form, such manufacturing technology is one very proven technique, therefore, no matter be material cost, or cost of labor is all lower.And the interconnection technique between copper cash is also very ripe and reliable technology.Like this, just by sub-for polylith capacitive sensing plate being carried out simple concatenation to realize the object manufacturing large gauge touch-screen.

The outside surface of spliced sub-capacitive sensing plate 3 is coated with and is covered with protective seam 5, can prevent the electric capacity affected because of the corrosion of copper cash between copper cash.

Conducting bridge 3d is the conductive metal wire (as copper sheet etc.) be connected to by welding manner on copper straight line, or conduction viscose bar.

Compared with prior art, the utility model has the following advantages:

(1) capacitive sensing unit is comprised, capacitive sensing unit is spliced by least one block of sub-capacitive sensing plate, both undersized capacitance contact board can be obtained by small size sub-capacitive sensing plate, also undersized capacitance contact board can be obtained by the mode that undersized for polylith capacitive sensing plate is carried out splicing, applied widely;

(2) sub-capacitive sensing plate is formed by the hard substrate with the first straight parallel wire and the second straight parallel wire, current comparatively ripe hard base plate line plate manufacture craft can be adopted in conjunction with simple concatenation to obtain large scale touch pad, compared with the traditional approach based on plastic sheeting printed wiring board, manufacture craft is simpler;

(3) first straight parallel wires and the second straight parallel wire are to printing material without particular/special requirement, and can adopt non-silver powder material, cost is lower;

(4) outside surface of capacitive sensing unit is coated with and is covered with protective seam, can reduce the impact caused line capacitance because of the first straight parallel wire and the second straight parallel wire corrosion.

More than that better enforcement of the present utility model is illustrated, but the utility model is created and is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent variations or replacement under the prerequisite without prejudice to the utility model spirit, and these equivalent distortion or replacement are all included in the application's claim limited range.

Claims (10)

1. a spliced capacitance contact board, it is characterized in that: comprise imaging background cell (1) and capacitive sensing unit (2), described imaging background cell (1) is positioned at before capacitive sensing unit (2), and described capacitive sensing unit (2) is spliced by least one piece of sub-capacitive sensing plate (3); Described sub-capacitive sensing plate (3) comprises hard substrate (3a), be arranged on the many bar first straight parallel wires (3b) of hard substrate (3a) wherein in one side and the many second straight parallel wires (3C) be arranged on hard substrate (3a) another side, described first straight parallel wire (3b) is crossing with the second straight parallel wire (3C), and described adjacent two first straight parallel wires (3b) and adjacent two second straight parallel wires (3C) form a parallelogram mesh.

2. the spliced capacitance contact board of one according to claim 1, is characterized in that: described sub-capacitive sensing plate (3) is also provided with conducting bridge (3d), and described adjacent two pieces of sub-capacitive sensing plates (3) are spliced by conducting bridge (3d).

3. the spliced capacitance contact board of one according to claim 2, it is characterized in that: during described sub-capacitive sensing plate (3) splicing, the first straight parallel wire (3b) of described adjacent two pieces of sub-capacitive sensing plates (3) to be on same straight line and to be undertaken connecting by conducting bridge (3d) or the second straight parallel wire (3C) of adjacent two pieces of sub-capacitive sensing plates (3) to be on same straight line and to be connected by conducting bridge (3d).

4. the spliced capacitance contact board of one according to claim 3, it is characterized in that: described first straight parallel wire (3b) is the straight wire of laterally parallel laying, the straight wire that described second straight parallel wire (3C) is vertical parallel laying, described first straight parallel wire (3b) is vertical with the second straight parallel wire (3C), when described sub-capacitive sensing plate (3) is horizontally-spliced, the first straight parallel wire (3b) of described adjacent two pieces of sub-capacitive sensing plates (3) to be on same level straight line and to be connected by conducting bridge (3d); When described sub-capacitive sensing plate (3) is vertically spliced, the second straight parallel wire (3C) of described adjacent two pieces of sub-capacitive sensing plates (3) to be on same vertical straight line and to be connected by conducting bridge (3d).

5. the spliced capacitance contact board of one according to claim 2, is characterized in that: described first straight parallel wire (3b) and the second straight parallel wire (3C) are the wire that copper wires, other non-copper plain conductor or non-metallic conducting material are formed.

6. the spliced capacitance contact board of one according to claim 2, it is characterized in that: also comprise line connection unit (6), described line connection unit (6) is positioned at after capacitive sensing unit (2), and described first straight parallel wire (3b) is all connected with line connection unit (6) with the second straight parallel wire (3C).

7. the spliced capacitance contact board of one according to claim 2, is characterized in that: described conducting bridge (3d) is conductive metal wire or conduction viscose bar.

8. the spliced capacitance contact board of the one according to any one of claim 1-7, is characterized in that: the outside surface of described capacitive sensing unit (2) is coated with and is covered with protective seam (5).

9. the spliced capacitance contact board of the one according to any one of claim 1-7, it is characterized in that: also comprise frame (4), described imaging background cell (1) and capacitive sensing unit (2) are all arranged in frame (4), and described imaging background cell (1) is positioned at the front portion of frame (4).

10. the spliced capacitance contact board of the one according to any one of claim 1-7, is characterized in that: described imaging background cell (1) is backlight plane.