CN202257505U - Imaging integrated desk based on nano touch film - Google Patents
Imaging integrated desk based on nano touch film Download PDFInfo
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- CN202257505U CN202257505U CN2011203589679U CN201120358967U CN202257505U CN 202257505 U CN202257505 U CN 202257505U CN 2011203589679 U CN2011203589679 U CN 2011203589679U CN 201120358967 U CN201120358967 U CN 201120358967U CN 202257505 U CN202257505 U CN 202257505U
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Abstract
The utility model discloses an imaging integrated desk based on a nano touch film, which comprises an imaging touch device and a desk body used for integrating the imaging touch device, wherein the desktop of the desk body is a substrate of a nonmetal transparent medium, the substrate is of a plane structure or curve structure and is detachably fixed on legs of the desk body through fixing members around the desk body, the imaging touch device comprises a nano touch film adhered on the substrate and an imaging unit, an induction signal acquiring control integrated circuit is arranged on the nano touch film and connected with a calculating control unit through an interface, and the calculating control unit is connected with the imaging unit through a wired or wireless communication mode. According to the utility model, the problems of intelligent interaction and showing touch are solved, and the size can be customized flexibly according to market demands; moreover, the nano touch film has the characteristic of scalability, and can be imaged on the curve surface.
Description
Technical field
The utility model belongs to the application of touch technology, relates in particular to a kind of intelligent interaction, shows the electronic equipment that touches.
Background technology
At present, in the touch technology field, touch technologies such as infrared, surface acoustic wave, surface capacitance, resistance, optics are arranged.In recent years, the touch-control table is of common occurrence on market, accomplishes but touch-control table at present on the market all is based on touch technologies such as camera, infrared frame; It exists problems and shortcoming: one of which; Build is very large and heavy, is unsuitable for transportation, ascribes its inner complex apparatus structure to; Its two, under same size, cost is high, is not suitable for volume production; Its three, can not the curved planar reformation touch-control, and that the nanometer touch control film has is transparent, flexible, and can the curved surface touch-control, also be at present unique technology that can the curved surface touch-control.Simultaneously, the nanometer imaging touch control film has the advantage on natural cost, manufacturing process and the touch-control performance, has overcome the shortcoming that present touch technology can't change flexibly, and can large-scale production.The nanometer imaging touch control film that in patented claim 200910181699.5, relates to; Form by nano material and modified projecting type capacitor technology; As shown in Figure 1; Grid matrix layer 11 by two-layer PET film and middle one deck that accompanies are made up of X, the crisscross nm-class conducting wire of Y axle is formed; Each matrix unit can both be sensed the touch-control of staff, then with the touching signals of hand be delivered to the joining induced signal acquisition controlling of nm-class conducting wire integrated circuit 12 in, induced signal acquisition controlling integrated circuit 12 is to possess the integrated circuit of signals collecting, processing and computer standard output interface function or the circuit main board that integrated circuit combines with P.e.c.; It passes to computing machine, the position of computer Recognition touch-control on screen through data line 13 with signal.
The utility model content
In view of the defective that above-mentioned prior art exists, the purpose of the utility model is to propose a kind of imaging integral table based on the nanometer touch control film that has imaging and touch technology concurrently.
The purpose of the utility model will be achieved through following technical scheme:
A kind of imaging integral table based on the nanometer touch control film comprises that imaging touch control equipment and one is used for the table body of integrated said imaging touch control equipment; The desktop of said table body is the substrate of a nonmetal transparent medium, and said substrate is planar structure or curved-surface structure, and said substrate removably is fixed on the table pin of said table body through fixture all around; Said imaging touch control equipment comprises that one is bonded in the nanometer touch control film on the said substrate, and an image-generating unit; Said nanometer touch control film is provided with induced signal acquisition controlling integrated circuit; Said induced signal acquisition controlling integrated circuit is connected with a calculation control unit through interface, and said calculation control unit is connected with image-generating unit through wired or wireless communication modes.Said interface is arranged on the said calculation control unit, and said interface is wired serial or parallel interface, comprises USB interface and/or RS-232 interface, and perhaps said interface is a wave point, comprises cellular interface, WiFi interface and/or BlueTooth interface.Said wired communication modes comprises serial ports, USB or parallel port, and said wireless communication modes comprises BlueTooth, infrared or radio frequency.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said nanometer touch control film is pasted on the lower surface of said substrate, and the area of said nanometer touch control film is less than or equal to the imaging area of said image-generating unit.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said table body comprises the table pin of nonmetal transparent medium.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said substrate is the unorganic glass plate, any of poly (methyl methacrylate) plate or acrylic board.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said image-generating unit is a projection imaging equipment, said calculation control unit is connected with projection imaging equipment through wired or wireless communication modes.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said projection imaging equipment is back projection imaging, said projection imaging equipment be positioned over said substrate under, the projecting direction of said projection imaging equipment is upwards; Perhaps, said projection imaging equipment is orthogonal projection imaging, said projection imaging equipment be arranged at said substrate directly over, the projecting direction of said projection imaging equipment is downward.
Preferably; Above-mentioned imaging integral table based on the nanometer touch control film; Wherein: said image-generating unit is a flexible imaging equipment, and said flexible imaging equipment is arranged at the below of said substrate, and said calculation control unit is connected with flexible imaging equipment through wired or wireless communication modes.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said flexible imaging equipment is LCD display, LED display, OLED display screen, CNT CNT display screen, any of display paper or Graphene display unit.
Preferably; Above-mentioned imaging integral table based on the nanometer touch control film; Wherein: said substrate below is provided with the interlayer board of a nonmetal transparent medium, and said interlayer board removably is fixedly connected with said table pin through support member, is placed with said flexible imaging equipment on the said interlayer board.
Preferably, above-mentioned imaging integral table based on the nanometer touch control film, wherein: said calculation control unit is used for the teleswitch equipment that the said calculation control unit of Long-distance Control opens or close through wired or wireless communication modes and and is connected.Said wired communication modes comprises serial ports, USB or parallel port, and said wireless communication modes comprises BlueTooth, infrared or radio frequency.
The outstanding effect of the utility model is:
1, the utility model problem of having solved intelligent interaction, having showed touch-control; Can realize with the imaging of table body interactive through the mode of touch-control; And can be according to market demand flexible customization size; And because the characteristic with extension of nanometer touch control film can form images on curved surface, very hommization;
2, the nanometer touch control film that adopted of the imaging touch control equipment of the utility model is easy to be installed on glass, acrylic board or the organic glass, perhaps combines with flexible imaging equipment, and system architecture is compact; Appearance transparent, weight is light and handy, can substitute traditional electronic media (like TV, computer etc.); Simultaneously, the nanometer touch control film has unique induction and computing, can be according to demand flexible customization size; Accurate positioning, insensitive to external light source, so the variation of light on every side can not influence work; There are not machinery or pressure responsive element, even it is be with gloves also can use, sturdy and durable, safe in utilization;
3, the utility model compared with similar products, unit cost is low, manufacture craft is simple, easily operation; Simple appearance, simple in structure, convenient transportation 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, the embodiment of the utility model is done further to detail, so that the utility model technical scheme is 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 utility model embodiment 1;
Fig. 3 is the vertical view of the utility model embodiment 1;
Fig. 4 is the structural representation of the utility model embodiment 2;
Fig. 5 is the structural representation of the utility model embodiment 3;
Fig. 6 is the structural representation of the utility model embodiment 4;
Fig. 7 is the structural representation of the utility model embodiment 5;
Fig. 8 is the cut-open view of the substrate of the utility model embodiment 6.
Embodiment
A kind of imaging integral table based on the nanometer touch control film of present embodiment as shown in Figures 2 and 3, comprises imaging touch control equipment and the table body that is used for the integration imaging touch control device; The desktop of table body is the substrate 1 of nonmetal transparent medium, and substrate 1 is the unorganic glass plate, any of poly (methyl methacrylate) plate or acrylic board.Substrate 1 is a planar structure, removably is fixed on through fixture 2 all around on the table pin 3 of a body; The table pin 3 of table body also is nonmetal transparent medium.Imaging touch control equipment comprises the nanometer touch control film 4 that is bonded on substrate 1 lower surface; Nanometer touch control film 4 is provided with induced signal acquisition controlling integrated circuit 5; Induced signal acquisition controlling integrated circuit 5 is connected with calculation control unit 6 through interface; Interface is arranged on the said calculation control unit, and interface is wired serial or parallel interface, comprises USB interface and/or RS-232 interface etc.Image-generating unit is a back projection imaging device 7, and calculation control unit 6 is connected with back projection imaging device 7 through wired communication modes.The area of nanometer touch control film 4 is less than or equal to the imaging area of back projection imaging device 7, back projection imaging device 7 be positioned over substrate 1 under, and projecting direction is upwards.Above-mentioned wired communication modes comprises serial ports, USB or parallel port.
When using present embodiment, the process of total system is following:
(1) when staff touches through substrate 1 in the above; Respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 4; 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 through USB interface and/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, pass to signal 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 back projection imaging device 7 through wired mode, accomplishes the Presentation Function of system.
Embodiment 2:
The structure of present embodiment and the foregoing description 1 is roughly the same, and is as shown in Figure 4, and its difference is: image-generating unit is an orthogonal projection imaging device 8, and calculation control unit 6 is connected with orthogonal projection imaging device 8 through wired communication modes.Orthogonal projection imaging device 8 be arranged at substrate 1 directly over, and projecting direction is downward, the area of nanometer touch control film 4 is less than or equal to the imaging area of orthogonal projection imaging device 8.
Embodiment 3:
The imaging integral table based on the nanometer touch control film of present embodiment, as shown in Figure 5, comprise imaging touch control equipment and the table body that is used for the integration imaging touch control device; The desktop of table body is the substrate 1 of nonmetal transparent medium, and substrate 1 is the unorganic glass plate, any of poly (methyl methacrylate) plate or acrylic board.Substrate 1 is a planar structure, removably is fixed on through fixture 2 all around on the table pin 3 of a body; The table pin 3 of table body also is nonmetal transparent medium.Imaging touch control equipment comprises the nanometer touch control film 4 that is bonded on substrate 1 lower surface; Nanometer touch control film 4 is provided with induced signal acquisition controlling integrated circuit 5; Induced signal acquisition controlling integrated circuit 5 is connected with calculation control unit 6 through interface; Interface is arranged on the said calculation control unit, and interface is wired serial or parallel interface, comprises USB interface and/or RS-232 interface etc.Image-generating unit is a flexible imaging equipment 9, comprises LCD display, LED display, OLED display screen, CNT CNT display screen, any of display paper or Graphene display unit.Substrate 1 below is provided with the interlayer board 10 of nonmetal transparent medium, and interlayer board 10 removably is fixedly connected with table pin 3 through support member 14, is placed with flexible imaging equipment 9 on the interlayer board 10.Calculation control unit 6 is connected with flexible imaging equipment 9 through wired communication modes.The area of nanometer touch control film 4 is less than or equal to the imaging area of flexible imaging equipment 9.Above-mentioned wired communication modes comprises serial ports, USB or parallel port etc.
When using present embodiment, the process of total system is following:
(1) when staff passes through on substrate 3, to touch; Respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 4; 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 through 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, pass to signal 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 9 through wired mode, accomplishes the Presentation Function of system.
Embodiment 4:
The structure of present embodiment and the foregoing description 1 or embodiment 2 is roughly the same; Its difference is: as shown in Figure 6; The interface that connects induced signal acquisition controlling integrated circuit 5 and calculation control unit 6 is a wave point, comprises cellular interface, WiFi interface and/or BlueTooth interface etc.Calculation control unit 6 is connected with back projection imaging device 7 or orthogonal projection imaging device 8 through wired communication modes.Calculation control unit 6 is connected with the teleswitch equipment 15 that is used for the unlatching of Long-distance Control calculation control unit or close through wireless communication modes.Above-mentioned wireless communication modes comprises BlueTooth, infrared or radio frequency etc.
When using present embodiment, the process of total system is following:
(1) opens computer control unit 6 with teleswitch equipment 15;
(2) when staff touches through substrate 3 in the above; Respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 4; 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; Through cellular interface, WiFi interface and/or BlueTooth interface are connected with calculation control unit 6, and execution information is transmitted;
(3) after calculation control unit 6 receives the signal that is passed over by nanometer touch control film 3, pass to signal the software systems of calculation control unit 6;
(4) 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;
(5) calculation control unit 6 is connected on back projection imaging device 7 or the orthogonal projection imaging device 8 through wireless mode, accomplishes the Presentation Function of system.
The structure of present embodiment and the foregoing description 3 is roughly the same; Its difference is: as shown in Figure 7; The interface that connects induced signal acquisition controlling integrated circuit 5 and calculation control unit 6 is a wave point, comprises cellular interface, WiFi interface and/or BlueTooth interface etc.Calculation control unit 6 is connected with flexible imaging equipment 9 through wireless communication modes.Calculation control unit 6 is connected with the teleswitch equipment 15 that is used for the unlatching of Long-distance Control calculation control unit or close through wireless communication modes.Above-mentioned wireless communication modes comprises BlueTooth, infrared or radio frequency etc.
When using present embodiment, the process of total system is following:
(1) opens computer control unit 6 with teleswitch equipment 15;
(2) when staff passes through on substrate 3, to touch; Respective change can take place in the frequency field of the sensing unit of corresponding nanometer touch control film 4; 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; Through cellular interface, WiFi interface and/or BlueTooth interface are connected with calculation control unit 6, and execution information is transmitted;
(3) after calculation control unit 6 receives the signal that is passed over by nanometer touch control film 3, pass to signal the software systems of calculation control unit 6;
(4) 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;
(5) calculation control unit 6 is connected on the flexible imaging equipment 9 through wireless mode, accomplishes the Presentation Function of system.
Embodiment 6:
The structure of present embodiment and the foregoing description 1~embodiment 5 is roughly the same, and its difference is: as shown in Figure 8, substrate 1 is a curved-surface structure, and the nanometer touch control film 4 on substrate 1 lower surface is ductile and stretchability, fits intact with the curve form of substrate 1.
Claims (10)
1. the imaging integral table based on the nanometer touch control film is characterized in that: comprise that imaging touch control equipment and one is used for the table body of integrated said imaging touch control equipment;
The desktop of said table body is the substrate of a nonmetal transparent medium, and said substrate is planar structure or curved-surface structure, and said substrate removably is fixed on the table pin of said table body through fixture all around;
Said imaging touch control equipment comprises that one is bonded in the nanometer touch control film on the said substrate, and an image-generating unit; Said nanometer touch control film is provided with induced signal acquisition controlling integrated circuit; Said induced signal acquisition controlling integrated circuit is connected with a calculation control unit through interface, and said calculation control unit is connected with image-generating unit through wired or wireless communication modes.
2. the imaging integral table based on the nanometer touch control film according to claim 1 is characterized in that: said nanometer touch control film is pasted on the lower surface of said substrate, and the area of said nanometer touch control film is less than or equal to the imaging area of said image-generating unit.
3. the imaging integral table based on the nanometer touch control film according to claim 1 is characterized in that: said table body comprises the table pin of nonmetal transparent medium.
4. the imaging integral table based on the nanometer touch control film according to claim 1 is characterized in that: said substrate is the unorganic glass plate, any of poly (methyl methacrylate) plate or acrylic board.
5. the imaging integral table based on the nanometer touch control film according to claim 1 is characterized in that: said image-generating unit is a projection imaging equipment, and said calculation control unit is connected with projection imaging equipment through wired or wireless communication modes.
6. the imaging integral table based on the nanometer touch control film according to claim 5; It is characterized in that: said projection imaging equipment is the back projection imaging; Said projection imaging equipment be positioned over said substrate under, the projecting direction of said projection imaging equipment is upwards; Perhaps, said projection imaging equipment is orthogonal projection imaging, said projection imaging equipment be arranged at said substrate directly over, the projecting direction of said projection imaging equipment is downward.
7. the imaging integral table based on the nanometer touch control film according to claim 1; It is characterized in that: said image-generating unit is a flexible imaging equipment; Said flexible imaging equipment is arranged at the below of said substrate, and said calculation control unit is connected with flexible imaging equipment through wired or wireless communication modes.
8. the imaging integral table based on the nanometer touch control film according to claim 7; It is characterized in that: said flexible imaging equipment is LCD display, LED display, OLED display screen; CNT CNT display screen, any of display paper or Graphene display unit.
9. the imaging integral table based on the nanometer touch control film according to claim 7; It is characterized in that: said substrate below is provided with the interlayer board of a nonmetal transparent medium; Said interlayer board removably is fixedly connected with said table pin through support member, is placed with said flexible imaging equipment on the said interlayer board.
10. the imaging integral table based on the nanometer touch control film according to claim 1 is characterized in that: said calculation control unit is used for the teleswitch equipment that the said calculation control unit of Long-distance Control opens or close through wired or wireless communication modes and and is connected.
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CN2011203589679U CN202257505U (en) | 2011-09-23 | 2011-09-23 | Imaging integrated desk based on nano touch film |
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CN2011203589679U CN202257505U (en) | 2011-09-23 | 2011-09-23 | Imaging integrated desk based on nano touch film |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107957803A (en) * | 2016-10-17 | 2018-04-24 | 镇江华锐科技信息有限公司 | A kind of preparation method of flexible nano touch control film |
CN107957802A (en) * | 2016-10-18 | 2018-04-24 | 镇江华锐科技信息有限公司 | A kind of low-loss nanometer touch film |
-
2011
- 2011-09-23 CN CN2011203589679U patent/CN202257505U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107957803A (en) * | 2016-10-17 | 2018-04-24 | 镇江华锐科技信息有限公司 | A kind of preparation method of flexible nano touch control film |
CN107957802A (en) * | 2016-10-18 | 2018-04-24 | 镇江华锐科技信息有限公司 | A kind of low-loss nanometer touch film |
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Granted publication date: 20120530 |