CN202033733U - Curved screen based on nanometer touch film technology - Google Patents

Abstract

The utility model discloses a curved screen based on nanometer touch film technology. The curved screen comprises a curved base plate which is arc-shaped imaging equipment, the radian of the curved base plate is 0-180 degrees, a nanometer touch film with flexibility is bonded on the curved base plate and provided with an induction signal acquisition and control integrated circuit, the induction signal acquisition and control integrated circuit is connected with a calculation control unit by an interface, and the calculation control unit is connected with the curved base plate in a wired or wireless communication manner. The curved screen realizes the touch technology on a curved surface, and is applicable to display devices with different dimensions, low in unit cost, simple for system integration and easy to operate, thus being a low-energy consumption and low-carbon product.

Description

A kind of curved surface screen based on nanometer touch control film technology

Technical field

The utility model relates to a kind of electronic equipment of touch technology, relates in particular to a kind of electronic equipment that is applied in the touch technology of the curved surface with certain radian.

Background technology

At present, in the touch technology field, touch technologies such as infrared, surface acoustic wave, surface capacitance, resistance, optics are arranged, and on curved surface touch-control field, these technology do not cause the revolutionary variation of user interface, main cause be since these touch technologies to be limited to itself manufacturing process complexity and material cost high, can't realize large-scale production and popularize to market.And traditional touch technology sensitivity is big and step-down along with the change of size.The nanometer imaging touch control film that in patented claim 200910181699.5, relates to, as shown in Figure 1, form by the grid matrix layer 11 that two-layer PET film and middle one deck that accompanies are made up of X, the crisscross nm-class conducting wire of Y-axis, each matrix unit can both be sensed the touch-control of staff, then the touching signals of hand is delivered to the joining induced signal acquisition controlling of nm-class conducting wire integrated circuit 12 in, induced signal acquisition controlling integrated circuit 12 passes to computing machine, the position of computer Recognition touch-control on screen by data line 13 with signal.

The utility model content

In view of the defective that above-mentioned prior art exists, the purpose of this utility model is to propose a kind of curved surface screen based on nanometer touch control film technology.

The purpose of this utility model will be achieved by the following technical programs:

A kind of curved surface screen based on nanometer touch control film technology, comprise a curved substrate, described curved substrate is the imaging device of arcuate shape, the radian of described curved substrate is 0～180 degree, be bonded with on the described curved substrate and have flexible nanometer touch control film, described nanometer touch control film is provided with induced signal acquisition controlling integrated circuit, described induced signal acquisition controlling integrated circuit is connected with calculation control unit by interface, and described calculation control unit is connected with curved substrate by wired or wireless communication modes.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: described curved substrate is nonmetallic transparent medium, comprise glass, acrylic board or film, described curved substrate is fitted with nanometer touch control film and imaging flexographic film successively, and described imaging flexographic film and projection imaging units match are complete, and described calculation control unit is connected with the projection imaging unit by wired or wireless communication modes.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: be stained with coherent film between described curved substrate and the nanometer touch control film.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: described curved substrate is a flexible imaging equipment, comprises LCD display, LED display, OLED display screen, CNT carbon nano-tube display screen, display paper or Graphene display unit.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: described curved substrate be shaped as hypersurface, be at least waveform or sphere.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: described curved substrate is a hollow spherical shell, the inside surface of described spherical shell is bonded with a plurality of nanometer touch control films, between two adjacent arbitrarily nanometer touch control films is seamless spliced, the curved surface radian that described each nanometer touch control film is covered is 0～180 degree, the induced signal acquisition controlling integrated circuit of described each nanometer touch control film is connected with calculation control unit respectively by interface, and described calculation control unit is connected with described projection imaging unit or flexible imaging equipment by wired or wireless communication modes.

Further, above-mentioned a kind of curved surface screen based on nanometer touch control film technology, wherein: described interface is wired serial or parallel interface, comprise USB interface and/or RS-232 interface, be wave point perhaps, comprise cellular interface, WiFi interface and/or BlueTooth interface.

Outstanding effect of the present utility model is:

1, the nanometer imaging touch control film is made up of nano material and modified projecting type capacitor technology, the employed PET film surface in the outside adopts the metal magnetically controlled sputter method to adhere to carbon processing layer and antistatic backing, make film surface form one deck conductive layer as thin as a wafer, and formation external phase, improve the surface conduction performance, the electric charge of generation is leaked as early as possible, therefore has scratch resistance, electrostatic-proof function, the PET film has good mechanical property makes the nanometer touch control film have good ductility and pliability, the nm-class conducting wire in middle layer still can operate as normal under case of bending, mutual interference can be subjected to, thereby a difficult problem that has solved the curved surface touch-control on the medium of curved surface can be perfectly be adsorbed in.In addition, the imaging flexographic film has the back projection imaging function, also adopts the PET material, therefore also is ductile and pliability.

2, the nanometer touch control film is easy to be installed on glass, acrylic board or the film, perhaps combine with flexible imaging equipment, and the system architecture compactness, weight is light and handy, can substitute traditional electronic media (as TV, computer etc.).

3, the nanometer touch control film uses unique induction and computing, and accurate positioning is insensitive to external light source, and light on every side changes can not influence work, even be with gloves can use, does not have machinery or pressure responsive element yet, sturdy and durable, safe in utilization.

4, the size of flexible customization curved surface screen according to demand, maximum can provide 167 cun of monolithics.

5, curved surface screen can increase the human body visible angle, brings the visual effect that is similar to as the 3D film.

6, overturn the tradition that touch technology in the past can not carry out touch-control at curved surface, and be consistent, can be conveniently used in the interactive information inquiry and the amusement of indoor and outdoor with the touch-control effect on plane.

7, compared with similar products, unit cost is low, and manufacture craft is simple, easily operation.

8, curve screen of the present utility model is to produce also to be to use all to meet low energy consumption, the requirement of low-carbon (LC).

Following constipation closes the embodiment accompanying drawing, embodiment of the present utility model is described in further detail, so that technical solutions of the utility model are easier to understand, grasp.

Description of drawings

Fig. 1 is the structural representation of prior art nanometer touch control film;

Fig. 2 is the structural representation of the curve screens of the utility model embodiment 1;

Fig. 3 is the structural representation of the utility model embodiment 1;

Fig. 4 is the structural representation of the curve screens of the utility model embodiment 2;

Fig. 5 is the structural representation of the utility model embodiment 2;

Fig. 6 is the structural representation of the utility model embodiment 4.

Embodiment

Embodiment 1

A kind of curved surface screen of present embodiment based on nanometer touch control film technology, as shown in Figures 2 and 3, comprise a curved substrate 1, curved substrate 1 is a kind of nonmetallic transparent medium, can adopt glass, acrylic board or film or the like, the radian of curved substrate 1 is 0～180 degree, the stickup face of curved substrate 1 is a convex surface, be fitted with coherent film 2 successively, nanometer touch control film 3 and imaging flexographic film 4, imaging flexographic film 4 can be holographic film or grey film, the induced signal acquisition controlling integrated circuit 5 of nanometer touch control film 3 is connected with calculation control unit 6 by USB interface or RS-232 interface, and calculation control unit 6 is connected with projection imaging unit 7 by wired communication modes again.

The preparation method of the curved surface screen of present embodiment may further comprise the steps:

Step 1: in the environment of shield electromagnetic interference, with nanometer touch control film bonding;

Step 2: in the back side of the stickup face of described curved substrate, mark pad pasting zone;

Step 3: thoroughly clean the stickup face of above-mentioned curved substrate, spray the aqueous solution that contains surfactant, coherent film is attached on the curved substrate in the pad pasting zone of described stickup face;

Step 4: the coherent film surface sprinkling that has pasted in step 3 contains the aqueous solution of surfactant, from the mediad periphery of described coherent film aqueous solution is driven out of together with dust, bubble, and coherent film is volatilized in air naturally;

Step 5: thoroughly clean above-mentioned coherent film surface, spray the aqueous solution that contains surfactant, the nanometer touch control film is attached on the coherent film in the pad pasting zone on described coherent film surface;

Step 6: the surface sprinkling of the nanometer touch control film that has pasted in step 4 contains the aqueous solution of surfactant, from the mediad periphery of described nanometer touch control film aqueous solution is driven out of together with dust, bubble, and the nanometer touch control film is volatilized in air naturally;

Step 7: thoroughly clean the surface of above-mentioned nanometer touch control film, contain the aqueous solution of surfactant, fitted to coupling in the surface of imaging flexographic film and nanometer touch control film in the surface sprinkling of described nanometer touch control film;

Step 8: the surface sprinkling of the imaging flexographic film that has pasted in step 7 contains the aqueous solution of surfactant, from the mediad periphery of described imaging flexographic film aqueous solution is driven out of together with dust, bubble, and the imaging flexographic film is volatilized in air naturally;

Step 9: the induced signal acquisition controlling integrated circuit of described nanometer touch control film is connected to calculation control unit by USB interface or RS-232 interface, and calculation control unit is connected with the projection imaging unit by wired communication modes.

The curved surface screen of present embodiment can increase the human body visible angle, bring the visual effect that is similar to as the 3D film, overturn touch technology in the past and can not carry out the tradition of touch-control at curved surface, and be consistent with the touch-control effect on plane, can be conveniently used in the interactive information inquiry and the amusement of indoor and outdoor.

When using present embodiment, the process of total system is as follows:

(1) when staff touches in the above by curved substrate 1, respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 3, thereby induced signal acquisition controlling integrated circuit 5 can be passed to the positional information that touches the action of calculation control unit 6 imitation clicks, be connected with calculation control unit 6 by USB interface or RS-232 interface, execution information is transmitted;

(2) after calculation control unit 6 receives the signal that is passed over by nanometer touch control film 3, signal is passed to the software systems of calculation control unit 6;

(3) the software system analysis processing signals of calculation control unit 6, service logic be according to semaphore request, and dynamic film/music/picture/word content is reflected to calculation control unit 6 outputs;

(4) calculation control unit 6 is finished the Presentation Function of system by being wiredly connected on the projection imaging unit 7.

Embodiment 2

A kind of curved surface screen of present embodiment based on nanometer touch control film technology, as shown in Figure 4 and Figure 5, with flexible imaging equipment 8 as curved substrate, comprise LCD display, LED display, the OLED display screen, CNT carbon nano-tube display screen, display paper or Graphene display unit or the like, the radian of flexible imaging equipment 8 are 0～180 degree, and the stickup face of flexible imaging equipment 8 is a concave curved surface, be fitted with nanometer touch control film 3, the induced signal acquisition controlling integrated circuit 5 of nanometer touch control film 3 is by cellular interface, and WiFi or BlueTooth interface are connected with calculation control unit 6, and calculation control unit 6 is connected with flexible imaging equipment 8 by wireless communication modes.

The preparation method of the curved surface screen of present embodiment may further comprise the steps:

Step 1: in the environment of shield electromagnetic interference, with nanometer touch control film bonding;

Step 2: in the back side of the stickup face of described flexible imaging equipment, mark pad pasting zone;

Step 3: thoroughly clean the stickup face of above-mentioned flexible imaging equipment, spray the aqueous solution that contains surfactant, the nanometer touch control film is attached on the stickup face of flexible imaging equipment in the pad pasting zone of described stickup face;

Step 4: the surface sprinkling of the nanometer touch control film that has pasted in step 3 contains the aqueous solution of surfactant, from the mediad periphery of described coherent film aqueous solution is driven out of together with dust, bubble, and the nanometer touch control film is volatilized in air naturally;

Step 5: the induced signal acquisition controlling integrated circuit of described nanometer touch control film is passed through cellular interface, and WiFi or BlueTooth interface are connected to calculation control unit, and calculation control unit is connected with flexible imaging equipment by wireless communication modes.

When using present embodiment, the process of total system is as follows:

(1) when staff touches in the above by flexible imaging equipment 8, respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 3, thereby induced signal acquisition controlling integrated circuit 5 can be passed to the positional information that touches the action of calculation control unit 6 imitation clicks, pass through cellular interface, WiFi or BlueTooth interface are connected with calculation control unit 6, and execution information is transmitted;

(2) after calculation control unit 6 receives the signal that is passed over by nanometer touch control film 3, signal is passed to the software systems of calculation control unit 6;

(3) the software system analysis processing signals of calculation control unit 6, service logic be according to semaphore request, and dynamic film/music/picture/word content is reflected to calculation control unit 6 outputs;

(4) calculation control unit 6 is connected on the flexible imaging equipment 8 by wireless mode, finishes the Presentation Function of system.

Embodiment 3

A kind of curved surface screen of present embodiment based on nanometer touch control film technology, its structure is similar with 2 to embodiment 1 to the preparation method, and difference is: curved substrate or flexible imaging equipment are similar corrugated hypersurface.

Embodiment 4

A kind of curved surface screen of present embodiment based on nanometer touch control film technology, as shown in Figure 6, curved substrate is a hollow spherical shell 40, spherical shell 40 both can be identical with the curved substrate of embodiment 1, also can be identical with the flexible imaging equipment of embodiment 2, the inside surface of spherical shell 40 is bonded with a plurality of nanometer touch control films 41, adopt seamless spliced between two adjacent arbitrarily nanometer touch control films 41, the curved surface radian that each nanometer touch control film 41 is covered is 0～180 degree, the induced signal acquisition controlling integrated circuit of each nanometer touch control film 41 passes through cellular interface, WiFi or BlueTooth interface are connected with calculation control unit 6 respectively, calculation control unit 6 is connected with described projection imaging unit or flexible imaging equipment by wireless communication modes, imaging mode is identical with embodiment 2 with embodiment 1 with principle of operation, repeat no more clipped structure among the figure.

Claims (7)

1. the curved surface based on nanometer touch control film technology shields, comprise a curved substrate, described curved substrate is the imaging device of arcuate shape, it is characterized in that: the radian of described curved substrate is 0～180 degree, be bonded with on the described curved substrate and have flexible nanometer touch control film, described nanometer touch control film is provided with induced signal acquisition controlling integrated circuit, described induced signal acquisition controlling integrated circuit is connected with calculation control unit by interface, and described calculation control unit is connected with curved substrate by wired or wireless communication modes.

2. according to the described a kind of curved surface screen of claim 1 based on nanometer touch control film technology, it is characterized in that: described curved substrate is nonmetallic transparent medium, comprise glass, acrylic board or film, described curved substrate is fitted with nanometer touch control film and imaging flexographic film successively, and described imaging flexographic film and projection imaging units match are complete, and described calculation control unit is connected with the projection imaging unit by wired or wireless communication modes.

3. a kind of curved surface screen based on nanometer touch control film technology according to claim 2 is characterized in that: be stained with coherent film between described curved substrate and the nanometer touch control film.

4. according to the described a kind of curved surface screen based on nanometer touch control film technology of claim 1, it is characterized in that: described curved substrate is a flexible imaging equipment, comprises LCD display, LED display, the OLED display screen, CNT carbon nano-tube display screen, display paper or Graphene display unit.

According to claim 2 or 4 described any one based on curved surfaces of nanometer touch control film technology screen, it is characterized in that: described curved substrate be shaped as hypersurface, be at least waveform or sphere.

6. a kind of curved surface screen according to claim 5 based on nanometer touch control film technology, it is characterized in that: described curved substrate is a hollow spherical shell, the inside surface of described spherical shell is bonded with a plurality of nanometer touch control films, between two adjacent arbitrarily nanometer touch control films is seamless spliced, the curved surface radian that described each nanometer touch control film is covered is 0～180 degree, the induced signal acquisition controlling integrated circuit of described each nanometer touch control film is connected with calculation control unit respectively by interface, and described calculation control unit is connected with described projection imaging unit or flexible imaging equipment by wired or wireless communication modes.

7. any one curved surface screen according to claim 1 based on nanometer touch control film technology, it is characterized in that: described interface is wired serial or parallel interface, comprise USB interface and/or RS-232 interface, it perhaps is wave point, comprise cellular interface, WiFi interface and/or BlueTooth interface.

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