CN101387930B - Electronic white board electronic white board - Google Patents

Abstract

The invention relates to an electronic whiteboard, which comprises a panel, pluralities of infrared emitters, pluralities of infrared receivers and an electronic component. The pluralities of infrared emitters are distributed along the periphery of the panel, and infrared rays emitted by the emitters can go through along the surface of the panel to cross into an infrared matrix. The pluralities of infrared receivers are distributed along the periphery of the panel, each infrared receiver corresponds to each infrared emitter, and the infrared receiver and the infrared emitter are located on two sides of the panel oppositely. The electronic component is located at a corner of the panel, which determines whether to block the infrared rays emitted by the infrared emitters or not and where to block in the infrared matrix.

Description

Electronic whiteboard

Technical field

The present invention is about a kind of electronic whiteboard, particularly a kind of electronic whiteboard of having installed RF transmitter and infrared receiver.

Background technology

Because it is simple in structure that the infrared touch panel curtain has, and do not receive electric current, voltage and electrostatic interference, can under some harsh environmental conditions, work; And have plurality of advantages such as high stability and high-resolution, make the infrared touch panel curtain more and more become the main product in touch screen market.

Common in the market infrared touch panel curtain mainly is located on CRT monitor or the LCD by the infrared ray framework, makes that infrared touch panel curtain usable range is limited to.

Summary of the invention

The invention provides a kind of electronic whiteboard, borrowing installing RF transmitter and infrared receiver on the plate face of electronic whiteboard, can detect the motion track of user on the plate face.

Electronic whiteboard provided by the present invention, its main element have comprised a panel, a plurality of RF transmitter, a plurality of infrared receiver and an electronic component.Wherein, a plurality of RF transmitters, along the edge arranged distribution of panel, and the infrared ray that it sent is to pass through along panel plate face, and is woven into an infrared ray matrix.A plurality of infrared receivers then are the edge arranged distribution along panel, and wherein each infrared receiver is corresponding to a RF transmitter, and infrared receiver and corresponding RF transmitter lay respectively at the relative both sides of panel.Electronic component then is the corner that is positioned at panel, and according to the signal of infrared receiver, whether the decision infrared ray that RF transmitter sent is blocked, and the position of decision blocking-up is where to be arranged in infrared ray matrix; This panel has first limit respect to one another and second limit and the 3rd limit respect to one another and the 4th limit; First circuit board and tertiary circuit plate, wherein first circuit board and tertiary circuit plate are all strip, and respectively along first limit and the setting of the 3rd limit of panel, RF transmitter is connected to the side of first circuit board and tertiary circuit plate; Second circuit board and the 4th circuit board, wherein second circuit board and the 4th circuit board are all strip, and respectively along second limit and the setting of the 4th limit of panel, these infrared receivers are connected to the side of second circuit board and the 4th circuit board; First circuit board, tertiary circuit plate, second circuit board, the 4th circuit board are formed by plural piece circuit board assemblies serial connection respectively, and the circuit board assemblies two ends have first joint and second joint.

In one embodiment, said panel is a rectangular panel, and has first limit respect to one another and second limit and the 3rd limit respect to one another and the 4th limit.

In another embodiment; Described electronic whiteboard more comprises first circuit board and tertiary circuit plate; Wherein first circuit board and tertiary circuit plate are all strip; And first limit and the 3rd limit along panel is provided with respectively, and RF transmitter is connected to the side of first circuit board and tertiary circuit plate.Wherein, first circuit board is connected in series by plural piece circuit board respectively with the tertiary circuit plate and forms.

Said electronic whiteboard more comprises second circuit board and the 4th circuit board; Wherein second circuit board and the 4th circuit board are all strip; And second limit and the 4th limit along panel is provided with respectively, and infrared receiver is connected to the side of second circuit board and the 4th circuit board.Wherein, second circuit board is connected in series by plural piece circuit board respectively with the 4th circuit board and forms.

In one embodiment, said electronic whiteboard more comprises a framework, is installed in the periphery of panel, in order to ccontaining RF transmitter, infrared receiver and electronic component.Its middle frame has an outward extending grillage, and has a plurality of openings that run through on the grillage, wherein on opening sidewalls, has installed RF transmitter respect to one another and infrared receiver respectively.

Description of drawings

Fig. 1 has shown the apparatus structure of electronic whiteboard provided by the present invention;

Fig. 2 has shown the circuit theory diagrams of electronic whiteboard provided by the present invention;

Fig. 3 has shown that the present invention installs RF transmitter and the mode of infrared receiver on panel;

Fig. 4 has shown the circuit board assemblies that is used for assembling the strip circuit board;

Fig. 5 has shown the circuit board assemblies that is used for assembling the strip circuit board;

Fig. 6 has shown the electronic whiteboard of installing framework on panel;

Fig. 7 has shown the thin portion structure of grillage;

Fig. 8 has shown the application scenarios of electronic whiteboard collocation computing machine and projector;

Fig. 9 has shown and has been made into octagonal panel; And

Figure 10 has shown the conglobate panel of making.

Drawing reference numeral:

Electronic whiteboard 1 panel 10

The first limit 10a, the second limit 10b

The 3rd limit 10c the 4th limit 10d

RF transmitter 11 infrared receivers 12

Electronic component 13 microcontrollers 130

Common serial bus joint 131 first circuit board 14a

Second circuit board 14b tertiary circuit plate 14c

The 4th circuit board 14d circuit board assemblies 140

The first joint 140a, the second joint 140b

Circuit board assemblies 141 first joint 141a

The second joint 141b framework 15

Grillage 150 openings 1501

RF transmitter 16a infrared receiver 16b

Arcuation circuit board 17a, 17b, 17c, 17d

Computing machine 2 projectors 3

Embodiment

Please with reference to Fig. 1, this figure has shown a kind of electronic whiteboard 1 provided by the present invention.The main element of this electronic whiteboard 1 has comprised a panel 10, a plurality of RF transmitter 11, a plurality of infrared receiver 12 and an electronic component 13.

Said a plurality of RF transmitter 11 along the edge arranged distribution of panel 10, and is arranged on the plate face of panel 10.Wherein, the infrared ray that described these RF transmitters 11 are sent can pass through along the plate face of panel 10, and is woven into an infrared ray matrix.

As for said a plurality of infrared receivers 12, also be edge arranged distribution, and be arranged on the plate face of panel 10 along panel 10.Wherein, Each this infrared receiver 12 is corresponding to this RF transmitter 11; And this infrared receiver 12 lays respectively on the relative both sides of panel 10 with this corresponding RF transmitter 11, the infrared ray that is sent in order to receiving infrared-ray transmitter 11.

In addition; Said electronic component 13 is arranged at the corner of panel 10; Can be according to the signal of described these infrared receivers 12, whether the infrared ray that determines described these RF transmitters 11 to be sent is blocked, and the position that decision is blocked is where to be arranged in infrared ray matrix.

It should be noted that although the panel 10 that shows among Fig. 1 is a rectangular panel, but in the making of reality; Demand on the viewable design, and be made into the panel of other shape, for example; Also can be made into polygonal panel, and RF transmitter and infrared receiver are set respectively in polygonal face plate edge, and the infrared ray that RF transmitter is sent; Plate face along the polygon panel passes through, and is woven into infrared ray matrix.

Please with reference to Fig. 1, described rectangular panel 10 has the first limit 10a respect to one another and the second limit 10b and the 3rd limit 10c respect to one another and the 4th limit 10d.Shown in figure, the first limit 10a and the second limit 10b are two long limits of rectangular panel 10, then are two minor faces of rectangular panel 10 as for the 3rd limit 10c and the 4th limit 10d.

In this embodiment, a plurality of RF transmitters 11 are to be positioned on the plate face of rectangular panel 10, and respectively along the first limit 10a of rectangular panel 10 and the 3rd limit 10c mode arranged distribution with straight line.By this, the infrared ray that these RF transmitters 11 are sent can pass through along the plate face of rectangular panel 10, and is woven into an infrared ray matrix.

As for a plurality of infrared receivers 12, also be positioned on the plate face of rectangular panel 10, and be respectively along the second limit 10b of rectangular panel 10 and the 4th limit 10d mode arranged distribution with straight line.As aforementioned, each infrared receiver 12 just in time corresponds to a RF transmitter 11, in order to receive the infrared ray that is sent by this RF transmitter 11.

In addition, being arranged at the electronic component 13 on rectangular panel 10 corners, then is with the circuit ways of connecting, is connected to described RF transmitter 11 and infrared receiver 12.This electronic component 13 sends the infrared ray except being used for controlling RF transmitter 11; Signal that also can receiving infrared-ray receiver 12; Whether the infrared ray that is sent with judgement RF transmitter 11 is blocked, and the place that decision is blocked is which position that is arranged in whole infrared ray matrix.

That is, owing to be positioned at RF transmitter 11 its infrared rays that sent on the 3rd limit 10c, can send from left to right, and be positioned at 12 receptions of infrared receiver on the 4th limit 10d along rectangular panel 10 laterally through the plate face.Same, be positioned at RF transmitter 11 its infrared rays that sent on the first limit 10a, can from top to bottom send, and be positioned at 12 receptions of infrared receiver on the second limit 10b along rectangular panel 10 longitudinally through the plate face.

Under this situation; 11 of RF transmitters that are positioned on the first limit 10a send infrared ray longitudinally; Can go up the horizontal infrared ray that each RF transmitter 11 is sent with the 3rd limit 10c respectively, intersection on the plate face of rectangular panel 10, and constitute infrared ray matrix.

Thus; As user during with finger touch or with any object touch panel 10; Except the first limit 10a vertical infrared ray that upward certain RF transmitter 11 is sent is blocked in meeting, also can block the 3rd limit 10c simultaneously and go up the horizontal infrared ray that certain RF transmitter 11 is sent.At this moment, the signal through electronic component 13 is received can determine touch point position.

Please with reference to Fig. 2, this figure has shown the circuit theory diagrams of electronic whiteboard 1 among the present invention.Wherein, electronic component 13 main elements have comprised a microcontroller (MCU) 130, are linked to a control chip 142 via circuit, and for example model is the element of 74LS138, is linked to RF transmitter 11 again.On the other hand, the signal that is received by infrared receiver 12 can be sent to microcontroller 130 again via an amplifier 143.It should be noted that electronic component 13 and comprised a USB that (Universal SerialBus, USB) joint 131, are connected in microcontroller 130.Thus, when using the electronic whiteboard 1 of this case,, can electronic whiteboard 1 and computing machine or other electronic product be linked as long as see through general USB connecting line.Thus, as long as see through the USB connecting line, electronic whiteboard 1 just can obtain enough electric power, drives above-mentioned RF transmitter 11 and infrared receiver 12.

Please with reference to Fig. 3, this figure has shown in one embodiment, installing RF transmitter 11 and the mode of infrared receiver 12 on panel 10.Wherein, said electronic whiteboard 1 more comprises first circuit board 14a, second circuit board 14b, tertiary circuit plate 14c and the 4th circuit board 14d.First circuit board 14a and tertiary circuit plate 14c are all the circuit board of strip, and are provided with along the first limit 10a of panel 10 and the 3rd limit 10c respectively.As for, 11 of RF transmitters are the sides that is connected to first circuit board 14a and tertiary circuit plate 14b.

Same, second circuit board 14b and the 4th circuit board 14d also are the circuit board of strip, and respectively along the second limit 10b and the 4th limit 10d setting of panel 10.12 of above-mentioned infrared receivers are connected to the side of second circuit board 14b and the 4th circuit board 14d.

Please with reference to Fig. 4, in preferred embodiment, above-mentioned first circuit board 14a and tertiary circuit plate 14c are to be formed by plural piece circuit board assemblies 140 serial connections, and wherein circuit board assemblies 140 is the short circuit board of length.The right ends of each piece circuit board assemblies 140 has the first joint 140a and the second joint 140b respectively, has then connected a plurality of RF transmitters 11 with the mode of dense arrangement as for the side at circuit board assemblies 140.When assembling; Can in regular turn circuit board assemblies 140 be installed on the face plate edge; And see through the mode that winding displacement links, second joint 140b of last circuit board assemblies 140 and the first joint 140a of a back circuit board assemblies 140 are linked, and two circuit board assemblies 140 are serially connected.Thus, as long as assemble several piece circuit board assemblies 140 in regular turn, can constitute required first circuit board 14a and tertiary circuit plate 14c.

Same, in the embodiment that Fig. 5 showed, second circuit board 14b and the 4th circuit board 14d also are to be cascadedly combined by plural piece circuit board assemblies 141, wherein circuit board assemblies 141 is the short circuit board of length.The right ends of each piece circuit board assemblies 141 has the first joint 141a and the second joint 141b respectively, and at the side of circuit board assemblies 141, also the mode with dense arrangement has connected a plurality of infrared receivers 12.When assembling, can borrow the first joint 141a to engage, and be serially connected with the second joint 141b with two circuit board assemblies 141.By this, can be assembled into required second circuit board 14b and the 4th circuit board 14d.

Use the short circuit board assemblies 140 and 141 of aforementioned length to assemble required strip circuit board 14a-14d, have suitable advantage.At first, for the different panel 10 of various sizes, all can be through adjustment circuit board assemblies 140 and 141 number of combinations, meet this panel 10 it grows the strip circuit board of limits and minor face and assemble out.Secondly, in use, to such an extent as to RF transmitter 11, infrared receiver 12 circuit board assemblies 140 or 141; The situation that all possibly break down or damage; At this moment, as long as to there being the circuit board assemblies 140 or 141 that damages situation to change, except increasing the convenience of repairing; Do not change owing to do not need whole piece strip circuit board 14a-14d all eliminated, therefore significantly reduce the cost of repairing yet.

Please with reference to Fig. 6, said electronic whiteboard 1 more comprises a framework 15, is installed on the periphery surface of panel 10, in order to ccontaining aforesaid RF transmitter 11, infrared receiver 12, electronic component 13 and strip circuit board 14a-14d.Shown in figure, during rectangular panel 10 in being applied to figure, framework 15 also can be made into rectangular-shaped, so that cover described strip circuit board 14a-14d and electronic component 13 fully.Certainly, on the side of framework 15, can make opening, to avoid covering RF transmitter 11 and infrared receiver 12.

At the lower edge of said framework 15 and have an outward extending grillage 150; Please with reference to shown in Figure 7; On grillage 150, have several openings that runs through 1501, wherein on the sidewall of opening 1501, and installed RF transmitter 16a respect to one another and infrared receiver 16b respectively.This RF transmitter 16a and infrared receiver 16b also see through circuit and are linked to electronic component 13.When the user passes through opening 1501 with finger or with object, can interdict infrared ray therebetween, in case electronic component 13 receives the signal of infrared receiver 16b, just can carry out other feature operation according to described these opening 1501 default functions.

Then, please with reference to Fig. 8, this figure has shown electronic whiteboard that this case provides 1, the situation when practical application.As shown in the figure, electronic whiteboard 1 can be via USB (USB) joint 131 of aforementioned electronic element 13, and produces electrically connects with a computing machine 2.This computing machine 2 also is linked to a projector 3, and the screen-picture of computing machine 2 is projected on the panel 10 of electronic whiteboard 1 via projector 3.

Owing to have the infrared ray matrix that constitutes by infrared light beam on the panel 10; Therefore; When the user touches panel 10 with finger or other object, can block two infrared light beams anyhow through this position, this moment, electronic component 13 meetings be sent to computing machine 2 with user's operation trace; Via the computing of computing machine 2, judge the correspondence position of its touch point of user on screen-picture again.

See through this kind arrangement, electronic whiteboard 1 is except the screen that can be used as computing machine 2 uses, and the operation of user on panel 10 also can produce the effect that is equal to computer mouse, and can see through in the action on panel 10 surfaces, reaches the effect of control computer 2.That is the user can reach the purpose with finger or the direct control computer of other object.

In addition, because the handwriting trace of user on panel 10, all can be detected by electronic component 13, and be sent to computing machine 2 and write down or handle, therefore, electronic whiteboard 1 also can be applicable in the general meeting or education activities.

As aforementioned, though the panel 10 that Fig. 1 and Fig. 3 showed is rectangle, but in design alternative; Also can be made into other shape, for example, in Fig. 9, panel 10 is made into an octagon panel; And strip circuit board 14a-14d, RF transmitter 11 and infrared receiver 12 are set respectively on its plate face edge; And the infrared ray that RF transmitter 11 is sent, pass through along the plate face of octagon panel, and be woven into infrared ray matrix.

In addition, please with reference to Figure 10, panel 10 also can be made into a round panel, and on the peripheral board face of this round panel, arcuation circuit board 17a-17d is set, RF transmitter 11 and infrared receiver 12.Same, as to be sent by the RF transmitter 11 of arcuation circuit board 17a and 17c inner edge infrared ray, can be on the plate face of round panel infrared ray matrix of formation, and by 12 receptions of infrared receiver of arcuation circuit board 17b and 17d inner edge.

Though the present invention illustrates as above with preferred embodiments, so it is not only to terminate in the foregoing description that in order to limit spirit of the present invention with the invention entity.Be with, the modification of in not breaking away from spirit of the present invention and scope, being done all should be included in the claim scope.

Claims (4)

1. an electronic whiteboard is characterized in that, described electronic whiteboard comprises:

One panel;

A plurality of RF transmitters, along the edge arranged distribution of described panel, the infrared ray that wherein said these RF transmitters sent passes through along the plate face of described panel, and is woven into an infrared ray matrix;

A plurality of infrared receivers; Edge arranged distribution along described panel; Wherein each described infrared receiver is corresponding to a described RF transmitter; And described infrared receiver and corresponding described RF transmitter lay respectively at the relative both sides of described panel, in order to receive the infrared ray that described RF transmitter sends;

One electronic component; Be positioned on the described panel; According to the signal of described these infrared receivers, whether the decision infrared ray that described these RF transmitters sent is blocked, and the position that decision is blocked is where to be arranged in described infrared ray matrix;

Described panel has first limit respect to one another and second limit and the 3rd limit respect to one another and the 4th limit;

First circuit board and tertiary circuit plate; Wherein said first circuit board and tertiary circuit plate are all strip; And said first limit and the 3rd limit along said panel is provided with respectively, and described these RF transmitters are connected to the side of said first circuit board and tertiary circuit plate;

Second circuit board and the 4th circuit board; Wherein said second circuit board and the 4th circuit board are all strip; And said second limit and the 4th limit along said panel is provided with respectively, and described these infrared receivers are connected to the side of described second circuit board and the 4th circuit board;

Described first circuit board, tertiary circuit plate, second circuit board, the 4th circuit board are formed by plural piece circuit board assemblies serial connection respectively; Said circuit board assemblies two ends have first joint and second joint, and described circuit board assemblies interconnects through the winding displacement ways of connecting;

One framework; Be installed on the periphery surface of this panel; Ccontaining said RF transmitter, said infrared receiver, said electronic component and described first circuit board, tertiary circuit plate, second circuit board, the 4th circuit board, the lower edge of wherein said framework have an outward extending grillage, and said grillage has several openings that runs through; On the sidewall of said opening; Installed a pair of RF transmitter respect to one another and infrared receiver respectively, respect to one another a pair of RF transmitter and the infrared receiver on the sidewall of said opening, installed respectively see through circuit and are connected to said electronic component.

2. electronic whiteboard as claimed in claim 1 is characterized in that, described panel is a rectangular panel.

3. an electronic whiteboard is characterized in that, described electronic whiteboard comprises:

One rectangular panel has first limit respect to one another and second limit and the 3rd limit respect to one another and the 4th limit;

A plurality of RF transmitters; Described first limit and described the 3rd limit along described rectangular panel distributes respectively; The infrared ray that wherein said these RF transmitters sent can pass through along the plate face of described rectangular panel, and is woven into an infrared ray matrix;

A plurality of infrared receivers; Described second limit and described the 4th limit along described rectangular panel distributes respectively; Wherein each described infrared receiver is corresponding to a described RF transmitter, to receive described the infrared ray that RF transmitter was sent;

One electronic component; Be positioned at the corner of described rectangular panel; According to the signal of described these infrared receivers, whether the decision infrared ray that described these RF transmitters sent is blocked, and where the position that decision is blocked is arranged in described infrared ray matrix;

Described panel has first limit respect to one another and second limit and the 3rd limit respect to one another and the 4th limit;

First circuit board and tertiary circuit plate; Wherein said first circuit board and tertiary circuit plate are all strip; And said first limit and the 3rd limit along said panel is provided with respectively, and described these RF transmitters are connected to the side of said first circuit board and tertiary circuit plate;

Second circuit board and the 4th circuit board; Wherein said second circuit board and the 4th circuit board are all strip; And said second limit and the 4th limit along said panel is provided with respectively, and described these infrared receivers are connected to the side of described second circuit board and the 4th circuit board;

Described first circuit board, tertiary circuit plate, second circuit board, the 4th circuit board are formed by plural piece circuit board assemblies serial connection respectively; Said circuit board assemblies two ends have first joint and second joint, and described circuit board assemblies interconnects through the winding displacement ways of connecting;

One framework; Be installed on the periphery surface of this panel; Ccontaining said RF transmitter, said infrared receiver, said electronic component and described first circuit board, tertiary circuit plate, second circuit board, the 4th circuit board, the lower edge of wherein said framework have an outward extending grillage, and said grillage has several openings that runs through; On the sidewall of said opening; Installed a pair of RF transmitter respect to one another and infrared receiver respectively, respect to one another a pair of RF transmitter and the infrared receiver on the sidewall of said opening, installed respectively see through circuit and are connected to said electronic component.

4. electronic whiteboard as claimed in claim 3; It is characterized in that; Described electronic whiteboard more comprises a rectangular frame, is installed in the periphery surface of described panel, in order to ccontaining described RF transmitter, described infrared receiver and described electronic component.

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