CN203825589U - Curved touch display screen - Google Patents

Abstract

A curved touch display screen comprises a touch display screen assembly, a printed circuit board and a bracket body, wherein the touch display screen assembly comprises a curved lens, a flexible touch screen and a flexible display screen, which are assembled in sequence; the printed circuit board is used for driving the flexible touch screen and the flexible display screen; the bracket body is provided with a curved assembly structure for assembling the touch display screen assembly and a space for accommodating the printed circuit board, the touch display screen assembly is assembled in the curved assembly structure, and the printed circuit board is assembled in the space. The curved touch display screen achieves a lifelike display effect, avoids a distortion phenomenon and can well fit the curved surface of a car instrument panel.

Description

A kind of curved surface touch display screen

Technical field

The utility model relates to touch display screen technical field, relates in particular to a kind of curved surface touch display screen.

Background technology

Along with the fast development of vehicle-mounted technology, the onboard system that possesses diversified function is also more and more applied in vehicle, to meet user's various demands, touch display screen in the display device of described onboard system is all plane conventionally, but due to normally cabochon of the panel board surface of vehicle, therefore, in the time that described touch display screen is embedded into the panel board of vehicle, the panel board of vehicle and the well combination of described touch display screen, outward appearance, have the sensation of indent, attractive in appearance not, and have every sky at the panel board of vehicle and the centre of described touch display screen, easily cause the display device of onboard system to show the problem that has distortion.

Utility model content

What the utility model solved is in the time that touch display screen is embedded into the panel board of vehicle, the panel board of vehicle and the well combination of described touch display screen, and may there is the problem of the phenomenon of distortion in the shown content of described touch display screen.

For addressing the above problem, the utility model provides a kind of curved surface touch display screen, comprising:

Touch display screen combination, comprises the toroidal lens, flexible touch screen and the flexible display screen that assemble successively;

For driving the printed circuit board (PCB) of described flexible touch screen and flexible display screen;

Rack body, has the curved surface assembly structure of the described touch display screen combination of assembling and the space that holds described printed circuit board (PCB), and described touch display screen combination is assemblied in described curved surface assembly structure, and described printed circuit board (PCB) is assemblied in described space.

Optionally, described toroidal lens is any one in acrylic lens, polycarbonate lens or tempered glass lens.

Optionally, described flexible touch screen is fexible film capacitive touch screen.

Optionally, described flexible display screen is flexible OLED display screen.

Optionally, the combination of described touch display screen also comprises:

The first optics glue-line between described toroidal lens and flexible touch screen;

The second optics glue-line between flexible touch screen and flexible display screen.

Optionally, described toroidal lens comprises the assembly area for assembling described flexible touch screen and flexible display screen and surrounds the neighboring area of described assembly area.

Optionally, described curved surface assembly structure is that bottom surface is the peviform structure of curved surface.

Optionally, described rack body is provided with the perforate of passing for described touch display screen combination and the cabling between described printed circuit board (PCB).

Optionally, described curved surface touch display screen also comprises: the housing or the support that coordinate with described rack body.

Optionally, touch recognition circuit that described printed circuit board (PCB) is provided with the display driver circuit that is electrically connected with described flexible display screen, be electrically connected with described flexible touch screen, the master controller being electrically connected with described display driver circuit and touch recognition circuit, and the imput output circuit being electrically connected with described master controller.

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

Employing comprises the toroidal lens of assembling successively, the touch display screen combination of flexible touch screen and flexible display screen, described touch display screen combination is assemblied in the curved surface assembly structure of rack body, by be assemblied in for the printed circuit board (PCB) that drives described flexible touch screen and flexible display screen rack body for answering the space of printed circuit board described in holding, due to toroidal lens, flexible touch screen and flexible display screen are assembled together successively, flexible touch screen can be consistent with flexible display screen and the curvature of described toroidal lens, make toroidal lens, between flexible touch screen and flexible display screen, there is no space, can fit tightly together, and described touch display screen combination also can well be assembled together with the curved surface assembly structure of described touch display screen combination, curved surface touch display screen display effect is true to nature, can not produce the phenomenon of distortion, and can be connected with the curved surface at meter panel of motor vehicle place is harmonious, outer light effect is attractive in appearance.

Between toroidal lens and flexible touch screen, undertaken bonding by the first optics glue-line, between flexible touch screen and flexible display screen, undertaken bonding by the second optics glue-line, by the bonding light reflectance that can effectively reduce toroidal lens, flexible touch screen and flexible display screen of optics glue-line, reduce the ambient light interference that enters human eye because of surface reflection, can obtain good display effect.

Brief description of the drawings

Fig. 1 is the decomposition texture schematic diagram of the curved surface touch display screen of the utility model embodiment;

Fig. 2 is the partial schematic diagram of the touch display screen combination of the utility model embodiment;

Fig. 3 is the front-view schematic diagram of the touch display screen combination of the utility model embodiment;

Fig. 4 is the schematic rear view of the touch display screen combination of the utility model embodiment;

Fig. 5 is that touch display screen combination and the printed circuit board (PCB) of the utility model embodiment is assemblied in the structural representation on rack body;

Fig. 6 is the perspective view of the curved surface touch display screen of the utility model embodiment;

Fig. 7 is the electrical block diagram of the printed circuit board (PCB) of the utility model embodiment.

Embodiment

As stated in the Background Art, in prior art, exist in the time that touch display screen is embedded into the panel board of vehicle, because touch display screen is all plane conventionally, but normally cabochon of the panel board surface of vehicle, the panel board of vehicle and the well combination of described touch display screen have the sensation of indent outward appearance, attractive in appearance not, and have every sky at the panel board of vehicle and the centre of described touch display screen, easily cause the problem of display distortion.

In order to address the above problem, technical solutions of the utility model provide a kind of curved surface touch display screen, and as shown in Figure 1, described curved surface touch display screen comprises touch display screen combination U11, printed circuit board (PCB) U12 and rack body U13.

Described touch display screen combination U11 comprises toroidal lens U101, flexible touch screen U102 and the flexible display screen U103 of assembling successively.

Described toroidal lens U101 can be for having uniform thickness and the continuous lens of curvature, and described lens can, according to different lens strength demand and demands for security, be selected acrylic, polycarbonate or tempered glass etc.

In the utility model embodiment, described flexible touch screen U102 is fexible film capacitive touch screen, and capacitive touch screen can be realized multi-point touch, and capacitive touch screen has the advantages such as better transmittance, sharpness for touch screens.

Described flexible display screen U103 is flexible OLED(Organic Light-Emitting Diode, organic electric exciting light-emitting diode) display screen, described flexible display screen can freely be controlled the angle of bend of screen, and the touch display screen combination after assembling successively with described toroidal lens U101, flexible touch screen U102 has better display effect.

Described printed circuit board (PCB) U12 is used for driving described flexible touch screen U102 and flexible display screen U103.Described printed circuit board (PCB) U12 also has several via holes U121, for printed circuit board (PCB) U12 being fixed on to rack body U13 rear end by screw.

Described rack body U13, there is the curved surface assembly structure U131 of the described touch display screen combination of assembling U11 and the space that holds described printed circuit board (PCB), described touch display screen combination U11 is assemblied in described assembly structure U131, and described printed circuit board (PCB) U12 is assemblied in described space.

For above-mentioned purpose of the present utility model, feature and advantage can more be become apparent, below in conjunction with accompanying drawing, specific embodiment of the utility model is described in detail.

Toroidal lens U101 in described touch display screen combination U11 shown in Fig. 1, between flexible touch screen U102 and flexible display screen U103, can be assembled together in several ways, in the present embodiment, please refer to Fig. 2, toroidal lens U101, flexible touch screen U102 and flexible display screen U103 are pasted together successively by optical cement, particularly, described touch display screen combination U11 also comprises the first optics glue-line U104 between described toroidal lens U101 and flexible touch screen U102, the second optics glue-line U105 between flexible touch screen U102 and flexible display screen U103.

By described the first optics glue-line U104 and the second optics glue-line U105, described toroidal lens U101, flexible touch screen U102 and flexible display screen U103 are pasted together successively, be illustrated in figure 3 the front view of touch display screen combination U11, be illustrated in figure 4 the rear view of touch display screen combination U11.By the bonding light reflectance that can effectively reduce toroidal lens, flexible touch screen and flexible display screen of optics glue-line, reduce the ambient light interference that enters human eye because of surface reflection, can obtain good display effect.

As shown in Figure 4, in the present embodiment, the surf zone of described toroidal lens U101 is slightly larger than the surf zone of described flexible touch screen U102 and flexible display screen U103, because flexible touch screen U102 is positioned at the centre of toroidal lens U101 and flexible display screen U103, so in the rear view of the touch display screen combination U11 shown in Fig. 4, flexible touch screen U102 is blocked by flexible display screen U103, and described flexible touch screen U102 is not shown in the drawings.Described toroidal lens U101 comprises the assembly area and the neighboring area that surrounds described assembly area for assembling described flexible touch screen U102 and flexible display screen U103 as shown in Figure 4, and described assembly area is positioned at the medium position of described toroidal lens U101.Further can be by the mode of adhesion, the neighboring area of described toroidal lens U101 can be pasted on to the front portion of described rack body U13, be assemblied in the front portion of described rack body U13 by touch display screen combination U11, realize being connected of described touch display screen combination U11 and described rack body U13.Particularly, between touch display screen combination U11 and rack body U13, have adhesive-layer, described adhesive-layer can be positioned at the neighboring area of described toroidal lens.

The front portion of described rack body U13 has curved surface assembly structure U131, be used for assembling described touch display screen combination, described curved surface assembly structure U131 is that bottom surface is the peviform structure of curved surface, and described curved surface assembly structure U131 can hold flexible touch screen U102 and the flexible display screen U103 in described touch display screen combination U11.Described curved surface assembly structure U131 can carry out adhesion closely with described touch display screen combination U11, can form an airtight space at the front end of rack body like this, can effectively stop light from the injecting of peripheral space, the generation of the phenomenon of the image display effect variation that the phenomenon such as light reflection, refraction that effectively prevents from producing due to the irradiation of light causes.

As shown in Figure 5, be provided with the space U132 that holds printed circuit board (PCB) U12 at the rear portion of described rack body U13, described printed circuit board (PCB) U12 can be assemblied in the space U132 at described rack body U13 rear portion, can described printed circuit board (PCB) U12 be fixed on to rack body U13 rear end by screw.

Please refer to Fig. 6, on described rack body U13, be also provided with for the touch display screen that connects described rack body U13 front portion and combine the perforate U133 that the cabling between U11 and the printed circuit board (PCB) U12 at rack body U13 rear portion passes.

Connect after touch display screen combination U11 and printed circuit board (PCB) U12 at the cabling through described perforate, can be with perforate U133 described in fluid sealant shutoff, can form an airtight space at the front end of rack body U13 like this, confined space can stop the moisture that can cause flexible OLED display screen to lose efficacy in uncertain external environment condition, the serviceable life of guaranteeing described flexible OLED display screen.

Described curved surface touch display screen also comprises back cover (housing) or the support of pre-described rack body U13 coupling, the back cover going out as shown in Figure 1 or switching support U14.

The circuit structure of the printed circuit board (PCB) of the curved surface touch display screen of the present embodiment as shown in Figure 7, the touch recognition circuit L12 that has the display driver circuit L11 that is electrically connected with described flexible display screen U103 on described printed circuit board (PCB) U12, be electrically connected with described flexible touch screen U102, the master controller L13 being electrically connected with described display driver circuit L11 and touch recognition circuit L12, and the imput output circuit L14 being electrically connected with described master controller L13.

Described printed circuit board (PCB) U12 drives position and the action message of demonstration and the identification flexible touch screen U102 induction of described flexible display screen U103, master controller L13 is used for controlling touch recognition circuit L12 the input of flexible touch screen U102 is identified, drive the demonstration of flexible display screen U103 by controlling display driver circuit L11 simultaneously, in addition, also be connected with imput output circuit L14, imput output circuit L14 is connected to receive the content of needs demonstration with other peripheral circuits.

The curved surface touch display screen providing for the present embodiment as mentioned above, in the present embodiment, in touch display screen combination U11, between toroidal lens U101, flexible touch screen U102 and flexible display screen U103, between three, can be set to have the curved surface of identical curvature, between three, can well fit together, between three, do not have every empty phenomenon and occur, so can not cause the distortion phenomenon of image in showing image, truly displays image information, better than conventional flat-faced screen display effect.And because the panel board in the interior chamber of vehicle is also curved surface conventionally, the curved surface touch display screen that the present embodiment provides more meets the shape need of the interior chamber of vehicle, can with more harmonious being connected of the desired curved surface outward appearance of the panel board of vehicle, appearance looks elegant.

Although the utility model discloses as above, the utility model is not defined in this.Any those skilled in the art, not departing from spirit and scope of the present utility model, all can make various changes or modifications, and therefore protection domain of the present utility model should be as the criterion with claim limited range.

Claims (10)

1. a curved surface touch display screen, is characterized in that, comprising:

Touch display screen combination, comprises the toroidal lens, flexible touch screen and the flexible display screen that assemble successively;

For driving the printed circuit board (PCB) of described flexible touch screen and flexible display screen;

Rack body, has the curved surface assembly structure of the described touch display screen combination of assembling and the space that holds described printed circuit board (PCB), and described touch display screen combination is assemblied in described curved surface assembly structure, and described printed circuit board (PCB) is assemblied in described space.

2. curved surface touch display screen as claimed in claim 1, is characterized in that, described toroidal lens is any one in acrylic lens, polycarbonate lens or tempered glass lens.

3. curved surface touch display screen as claimed in claim 1, is characterized in that, described flexible touch screen is fexible film capacitive touch screen.

4. curved surface touch display screen as claimed in claim 1, is characterized in that, described flexible display screen is flexible OLED display screen.

5. curved surface touch display screen as claimed in claim 1, is characterized in that, described touch display screen combination also comprises:

The first optics glue-line between described toroidal lens and flexible touch screen;

The second optics glue-line between flexible touch screen and flexible display screen.

6. curved surface touch display screen as claimed in claim 5, is characterized in that, described toroidal lens comprises the assembly area for assembling described flexible touch screen and flexible display screen and surrounds the neighboring area of described assembly area.

7. curved surface touch display screen as claimed in claim 6, is characterized in that, described curved surface assembly structure is that bottom surface is the peviform structure of curved surface.

8. curved surface touch display screen as claimed in claim 1, is characterized in that, described rack body is provided with the perforate of passing for the cabling between described touch display screen combination and described printed circuit board (PCB).

9. curved surface touch display screen as claimed in claim 1, is characterized in that, also comprises: the housing or the support that coordinate with described rack body.

10. curved surface touch display screen as claimed in claim 1, it is characterized in that, touch recognition circuit that described printed circuit board (PCB) is provided with the display driver circuit that is electrically connected with described flexible display screen, be electrically connected with described flexible touch screen, the master controller being electrically connected with described display driver circuit and touch recognition circuit, and the imput output circuit being electrically connected with described master controller.