CN204229387U - Anti-electromagnetic radiation touch-screen - Google Patents

Abstract

A kind of anti-electromagnetic radiation touch-screen, forms primarily of common touch-screen, solves the technical scheme that its problem adopts to be: set up anti-electromagnetic radiation device at the back side of common touch-screen.Good effect of the present utility model is adopted to be: in common touch-screen back side plating radiation prevention film; At the common touch-screen back side by the bonding conduction light transmissive material of transparent adhesive tape.Can effectively stop electromagnetic passing through, the effect of pre-anti-electromagnetic radiation and electromagnetic screen can be played, military affairs, panel computer, mobile phone, ATM, automatic machine, instrument and meter, communication, medical treatment, Aero-Space, railway, traffic etc. can be widely used in.

Description

Anti-electromagnetic radiation touch-screen

Technical field

The utility model relates to a kind of touch-screen series products.

Background technology

At present, common touch-screen is widely used in panel computer, mobile phone, ATM, automatic machine, instrument and meter, communication, aviation, railway, traffic etc.But common touch-screen does not consider the vibrational power flow implementing electromagnetic compatibility aspect, just meets touch function, does not have anti-electromagnetic radiation function.

Summary of the invention

The purpose of this utility model is to provide a kind of anti-electromagnetic radiation touch-screen, does not implement to consider EMC Design, just meet touch function, do not have the problems such as electro-magnetic screen function to solve existing product.

The utility model forms primarily of common touch-screen, solves the technical scheme that its problem adopts to be: set up anti-electromagnetic radiation device at the back side of common touch-screen.

Described anti-electromagnetic radiation device is made up of radiation prevention film, conductive material, and radiation prevention film is plated in the back side of common touch-screen, wraps up conductive material on the edge, surrounding of common touch-screen and radiation prevention film coating.

Described anti-electromagnetic radiation device forms by conducting electricity light transmissive material, conductive material, conduction light transmissive material is bonded in the common touch-screen back side by transparent adhesive tape, conductive layer is formed at the common touch-screen back side, and at common touch-screen and/or edge, conduction light transmissive material surrounding parcel conductive material.Both can prevent electromagnetic radiation, improve Electro Magnetic Compatibility again.Described anti-electromagnetic radiation device forms by conducting electricity light transmissive material and rubber cushion, and rubber cushion is arranged between common touch-screen and conduction light transmissive material, and in the surrounding of common touch-screen and conduction light transmissive material along wrapping up conductive material.

Described conduction light transmissive material is identical with common touch-screen physical dimension.

Described conduction light transmissive material is larger than common touch-screen physical dimension.

Described conduction light transmissive material is that radiation prevention film, metal grill, wire netting, electromagnetic shielding glass are wherein a kind of.

Described common touch-screen is that resistive touch screen, capacitive touch screen, infrared touch panel, acoustic wave touching screen are wherein a kind of.

Described conductive material is copper-foil conducting electricity, conductive aluminum foil, conducting foam, conductive fabric, conductive rubber, electrically-conducting paint, conductive silver paste one wherein.

Described copper-foil conducting electricity is U-shaped Copper Foil.

The above common touch-screen is resistive touch screen or capacitive touch screen.

Adopt good effect of the present utility model to be: common touch-screen back side plating radiation prevention film or at the common touch-screen back side by the bonding conduction light transmissive material of transparent adhesive tape.Can effectively stop electromagnetic passing through, the effect of pre-anti-electromagnetic radiation and electromagnetic screen can be played, military affairs, panel computer, mobile phone, ATM, automatic machine, instrument and meter, communication, medical treatment, Aero-Space, railway, traffic etc. can be widely used in.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further illustrated.

Fig. 1 is this use new embodiment 1 structural representation;

Fig. 2 is this use new embodiment 2, embodiment 6, embodiment 7 structural representation;

Fig. 3 is this use new embodiment 3 structural representation;

Fig. 4 is this use new embodiment 4, embodiment 5 structural representation;

Fig. 5 is this use new embodiment 8 structural representation;

In figure: 1 common touch-screen, 2 radiation prevention film, 3 conductive materials, 4 conduction light transmissive material, 5 transparent adhesive tapes, 6 rubber cushions.

Embodiment

Embodiment 1

As shown in Figure 1, at plating radiation prevention film 2 edge, the back side of common touch-screen 1 facade bag conductive material 3.In embodiment 1: common touch-screen 1 adopts resistive touch screen, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 2

As shown in Figure 2, conduction light transmissive material 4 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, edge facade bag conductive material 3; In embodiment 2: common touch-screen 1 adopts capacitive touch screen, conduction light transmissive material 4 adopts radiation prevention film, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 3

As shown in Figure 3, anti-electromagnetic radiation device forms by conducting electricity light transmissive material 4 and rubber cushion 6, and rubber cushion 6 is arranged between common touch-screen 1 and conduction light transmissive material 4, and in the surrounding of common touch-screen 1 and conduction light transmissive material 4 along wrapping up conductive material 3.The light transmissive material 4 that conducts electricity in embodiment 3 selects electromagnetic shielding glass, and U-shaped Copper Foil selected by conductive material 3.

Embodiment 4

As shown in Figure 4, conduction light transmissive material 4 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, and conduction light transmissive material 4 both sides exposed parts is 20mm, exposed parts bag conductive material 3; In embodiment 4: common touch-screen 1 adopts capacitive touch screen, conduction light transmissive material 4 adopts radiation prevention film, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 5

As shown in Figure 4, conduction light transmissive material 4 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, and conduction light transmissive material 4 both sides exposed parts is 10mm, exposed parts bag conductive material 3; In embodiment 5: common touch-screen 1 adopts electric resistance touch screen, conduction light transmissive material 4 adopts electromagnetic shielding glass, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 6

As shown in Figure 2, conduction light transmissive material 4 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, edge facade bag conductive material 3; In embodiment 6: common touch-screen 1 adopts capacitive touch screen, conduction light transmissive material 4 adopts electromagnetic shielding glass, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 7

The light transmissive material 4 that conducts electricity as shown in Figure 2 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, edge facade bag conductive material 3; In embodiment: common touch-screen 1 adopts electric resistance touch screen, conduction light transmissive material 4 adopts metal grill, and conductive material 3 adopts U-shaped Copper Foil.

Embodiment 8

As shown in Figure 5, conduction light transmissive material 4 is bonded in the back side of common touch-screen 1 by transparent adhesive tape 5, and 20 mm are respectively exposed, exposed conducting light transmissive material 4 part and common touch-screen 1 edge bag conductive material 3 in conduction light transmissive material 4 both sides; In embodiment 8, common touch-screen 1 is capacitance touch screen, and conduction light transmissive material 4 is radiation prevention film, and conductive material 3 is Copper Foil.

Claims (10)

1. an anti-electromagnetic radiation touch-screen, forms primarily of common touch-screen, it is characterized in that: set up anti-electromagnetic radiation device at the back side of common touch-screen.

2. anti-electromagnetic radiation touch-screen according to claim 1, it is characterized in that: described anti-electromagnetic radiation device is made up of radiation prevention film, conductive material, radiation prevention film is plated in the back side of common touch-screen, wraps up conductive material on the edge, surrounding of common touch-screen and radiation prevention film coating.

3. anti-electromagnetic radiation touch-screen according to claim 1, it is characterized in that: described anti-electromagnetic radiation device forms by conducting electricity light transmissive material, conductive material, conduction light transmissive material is bonded in the common touch-screen back side by transparent adhesive tape, conductive layer is formed at the common touch-screen back side, and at common touch-screen and/or edge, conduction light transmissive material surrounding parcel conductive material.

4. anti-electromagnetic radiation touch-screen according to claim 1, it is characterized in that: described anti-electromagnetic radiation device forms by conducting electricity light transmissive material and rubber cushion, rubber cushion is arranged between common touch-screen and conduction light transmissive material, and wraps up conductive material at common touch-screen and the edge, surrounding of conduction light transmissive material.

5. anti-electromagnetic radiation touch-screen according to claim 3, is characterized in that: described conduction light transmissive material is identical with common touch-screen physical dimension.

6. anti-electromagnetic radiation touch-screen according to claim 3, is characterized in that: described conduction light transmissive material is larger than common touch-screen physical dimension.

7., according to the anti-electromagnetic radiation touch-screen of claim 3-6 described in one of them, it is characterized in that: described conduction light transmissive material is that radiation prevention film, metal grill, wire netting, electromagnetic shielding glass are wherein a kind of.

8. anti-electromagnetic radiation touch-screen according to claim 1, is characterized in that: described common touch-screen is that resistive touch screen, capacitive touch screen, infrared touch panel, acoustic wave touching screen are wherein a kind of.

9. the anti-electromagnetic radiation touch-screen according to Claims 2 or 3, is characterized in that: described conductive material is copper-foil conducting electricity, conductive aluminum foil, conducting foam, conductive fabric, conductive rubber, electrically-conducting paint, conductive silver paste one wherein.

10. anti-electromagnetic radiation touch-screen according to claim 9, is characterized in that: described copper-foil conducting electricity is U-shaped Copper Foil.