CN106804559A - Optoelectronic device - Google Patents

Abstract

The invention provides an optoelectronic device, which comprises a frame-shaped body, a reflecting unit and a first laser emitter. The reflection unit is arranged on the inner side surface of the frame-shaped body. The first laser emitter is arranged on the inner side surface of the frame-shaped body corresponding to the reflection unit, emits first laser, and the first laser is continuously reflected to form a first laser net. The photoelectric device projects laser on the reflection unit, and the laser is continuously reflected to form a laser net in the frame-shaped body. Mosquitoes can be killed by the laser net.

Description

Electrooptical device

Technical field

On a kind of electrooptical device, more particularly to laser continuously reflects to form the electrooptical device of laser net to the present invention.

Background technology

In daily life, either indoors or the exterior space, people are frequently subjected to the interference of mosquito and then influence to learn The quality practised, work or sleep, even because bite by mosquitos causes health to come to harm.In general, people are usually used Traditional electric mosquito flap catches mosquito, and traditional electric mosquito flap has the wire netting of belt current, when mosquito contacting metal net produces short circuit, mosquito Can be shot dead by electric current.But the effect on driving birds is not good of traditional electric mosquito flap wire netting radiating under long-time use, also easily remain different Thing on wire netting, and if wire netting be squeezed and be easily deformed the short circuit for causing circuit.

The content of the invention

Lead to not reach present invention aim to solve the wire netting deformation under long-time use of traditional electric mosquito flap The accurate problem for catching mosquito.

Implementation aspect of the invention discloses a kind of electrooptical device and is sent out comprising frame-shaped body, reflector element and first laser Emitter.Reflector element is arranged at the inner surface of frame-shaped body, and first laser transmitter is arranged at frame shape corresponding to reflector element The inner surface of body, first laser transmitter transmitting first laser, the reflected unit of first laser continuously reflects and is formed First laser net.

In a kind of exemplary embodiment of the invention, also include：

Shift knob；And

Control unit, is electrically connected with the shift knob, and when the shift knob is pressed, described control unit drives The first laser transmitter projects the first laser.

In a kind of exemplary embodiment of the invention, also include：

OPTICAL SENSORS, is arranged at the inner surface of the frame-shaped body, and the OPTICAL SENSORS is used to sense described The energy level of one laser；And

Control unit, is electrically connected with the OPTICAL SENSORS, to sensed according to the OPTICAL SENSORS described first The energy level of laser switches the on off state of the first laser transmitter.

In a kind of exemplary embodiment of the invention, after the first laser transmitter projects the first laser, If being less than energy threshold in the energy level that the OPTICAL SENSORS in a time section is sensed, described control unit is closed The generating laser.

In a kind of exemplary embodiment of the invention, also comprising second laser transmitter, when first laser transmitting When device and the second laser transmitter launch the first laser with second laser respectively, in forming the in the frame-shaped body Dual-laser net.

In a kind of exemplary embodiment of the invention, the density degree of the first laser net is swashed according to described first The incidence angle that the original projection direction of light is formed with the normal of the reflector element is determined.

In a kind of exemplary embodiment of the invention, the reflector element is around the inner side of the frame-shaped body Surface, so that the first laser continuously reflects through the reflector element and forms the first laser net.

In a kind of exemplary embodiment of the invention, the quantity of the reflector element is multiple, is arranged at the frame shape The inner surface of body, each reflector element is correspondingly arranged, so that the first laser continuously reflects.

In a kind of exemplary embodiment of the invention, the frame-shaped body is closed frame-shaped body or with opening Open frame-shaped body.

Electrooptical device of the invention to project laser on reflector element, laser formed through continuously reflecting laser net in In frame-shaped body.Mosquito can be destroyed by laser net.Because the present invention is without the traditional wire netting of use, therefore the present invention Electrooptical device do not have the problems such as wire netting poor heat radiation or deformation, and by adjusting the quantity and incident angle of reflector element And the density degree of laser net can be changed, and then raising uses the free degree.

Brief description of the drawings

Fig. 1 is the schematic diagram of the electrooptical device of one embodiment of the invention；

Fig. 2 is the block diagram of the electrooptical device of one embodiment of the invention；

Fig. 3 A are the method flow diagram of the operation method of the electrooptical device of one embodiment of the invention；

Fig. 3 B are the method flow diagram of the operation method of the electrooptical device of another embodiment of the present invention；

Fig. 4 is the schematic diagram of the frame-shaped body of one embodiment of the invention；

Fig. 5 is the frame-shaped body of one embodiment of the invention and the schematic diagram of reflector element；

Fig. 6 is the schematic diagram of the laser path of one embodiment of the invention；

Fig. 7 A~7E is the schematic diagram of the laser net of one embodiment of the invention；

Fig. 8 A~8D is the schematic diagram of the waveform of the energy level of the laser of one embodiment of the invention.

Specific embodiment

Fig. 1 and Fig. 2 is refer to, it is respectively the schematic diagram and sheet of the electrooptical device 100 of one embodiment of the invention The block diagram of the electrooptical device 100 of one embodiment of invention.Electrooptical device 100 comprising frame-shaped body 190, reflector element 192 and Generating laser 160.

As shown in figure 1, reflector element 192 is arranged at the inner surface of frame-shaped body 190.The correspondence of generating laser 160 is anti- The inner surface that unit 192 is arranged at frame-shaped body 190 is penetrated, generating laser 160 projects laser along an original projection direction In reflector element 192, laser continuously reflects to form laser net via reflector element 192.Again as shown in Fig. 2 electrooptical device 100 Also include shift knob 120, control unit 140 and OPTICAL SENSORS 180.Generating laser 160 electrically connects with shift knob 120 Connect control unit 140.Shift knob 120 is pressed with for user, and OPTICAL SENSORS 180 is arranged at the inner side of frame-shaped body 190 Surface is used to sense the energy level of laser, and control unit 140 is used to drive and close that generating laser 160 projected swashs Light.How will using the specific means and various embodiments of frame-shaped body 190 and the formation light net of reflector element 192 on laser It is described later in detail in the following passage.

Please with reference to Fig. 3 A, it is the method flow diagram of the operation method of the electrooptical device of one embodiment of the invention. First, in step S204, generating laser 160 is driven.In the circular region project laser of frame-shaped body 190, make laser Frame-shaped body 190 around region in reflect to form a closing reflection path.In an embodiment, frame-shaped body 190 is It is made up of plastics, metal, wood or the common material of other daily lifes, but the scope that the present invention is covered is not intended to limit In this embodiment, and in an embodiment, 190 shapes of circle zone of frame-shaped body can be circular, oval, square Shape, rectangle, triangle or polygon, but the scope that the present invention is covered is not restricted in this embodiment.In some realities Apply in example, frame-shaped body 190 can be the open frame-shaped body with opening, such as opening with half arc, L-shaped or V-shape Form is put to surround.Please with reference to Fig. 4, it is the schematic diagram of the frame-shaped body 190 of one embodiment of the invention.Compared to Fig. 1, The frame-shaped body 190 of Fig. 4 has opening, and generating laser 160 launches laser towards reflector element 192, and laser is in frame-shaped body 190 circular regions (namely top has half arc area of opening) form the reflection path of closing.

When Laser emission, laser is for starting point is advanced towards reflector element 192 with generating laser 160.Hit in laser After middle reflector element 192, laser reflects via reflector element 192, is moved on the reflector element 192 towards other direction, swashs Light continuously reflects to form a laser net.Above-mentioned described continuously reflection refers to laser and is formed in reflector element 192 Space in multiple reflections.For example, behind the left side of laser hits reflector element 192, according to its reflection angle toward reflection The right side projection of unit 192, behind the right side of laser hits reflector element 192, similarly, according to its reflection angle again toward reflection The another location in the left side of unit 192 continues to project, and wherein reflector element 192 is correspondingly arranged in the inner side of frame-shaped body 190, passes through Continuously repeatedly projection, just can form laser net in frame-shaped body 190.In this embodiment, reflector element 192 be minute surface, Metal with reflection laser ability or other there is the material or coating of reflecting effect, but the scope that covers of the present invention not with This is limited.In some embodiments, reflector element 192 covers the inner surface of whole frame-shaped body 190.In some embodiments In, reflector element 192 is only covered by a part for the inner surface of frame-shaped body 190, such as in the frame-shaped body of a circle, Reflector element 192 only covers half, 1/3rd or 1/10th of the inner surface of frame-shaped body 190 of whole circle, can Shape according to last laser net sets reflector element 192.

In an embodiment, reflector element 192 is one of the forming and is completely covered by the overall inner side table of frame-shaped body 190 Face.In an embodiment, electrooptical device 100 includes multiple reflector elements 192, and each reflector element 192 is local reflex section And the inner surface of frame-shaped body 190 is correspondingly arranged in, laser is continuously reflected to form laser net, each reflector element A part for 192 inner surfaces for only covering frame-shaped body 190.

In some embodiments, the shape of reflector element 192 is consistent with the shape of frame-shaped body 190.In some implementations In example, the shape of reflector element 192 and the shape of frame-shaped body 190 are simultaneously differed.For example, please with reference to Fig. 5, it is The frame-shaped body 190 of one embodiment of the invention and the schematic diagram of reflector element 192.Embodiment compared to Fig. 1, the frame of Fig. 5 Shape body 190 is constituted by the arcuate structure of a couple with opening half, two set by the inner surface of its half arcuate structure The shape of reflector element 192 is different from the structure that half arc is presented, as illustrated, reflector element 192 is long strip type.

Please with reference to Fig. 7 A to Fig. 7 E, it is the schematic diagram of the laser net of one embodiment of the invention.Such as above-mentioned institute Say, in different embodiments, frame-shaped body 190 is presented in different circular form, herein for convenience for example, Fig. 7 A extremely The frame-shaped body 190 of Fig. 7 E is presented in the form of rectangle.

As shown in Figure 7 A, the laser that generating laser 160 is launched advances towards direction D1.Laser direction of advance D1 can with swash The position P1 that light is reflected forms incident angle A1 relative to the normal D2 of reflector element 192.When laser is via frame-shaped body 190 The reflector element (not showing in Fig. 7 A) of inner surface produces reflection, (i.e. another towards another part of frame-shaped body 190 with direction D3 One reflector element position) continue to project.The reflection direction D3 of laser forms shooting angle A2 with the normal D2 of reflector element, Incident angle A1 is equal with shooting angle A2.Laser continues to be projected to the another of frame-shaped body 190 after the reflection by position P1 The inner surface of side, the rest may be inferred, and reflector element is set in the reflection path of laser, and laser can be continuously in frame shape sheet The internal reflection of body 190.

When laser is in above-mentioned described mode, by after multiple reflection, will be in frame-shaped body 190 in step S206 Laser net 161 is formed in circular region, as shown in Figure 7 A.The density degree of laser net according to laser original projection direction with The incident angle that the normal D2 of reflector element 192 is formed is determined.That is, when incident angle is smaller, what is formed swashs Light net comparatively dense, on the contrary, when incident angle is bigger, the laser net for being formed relatively disperses.

For example, in an embodiment, when generating laser 160 projects laser with an original projection direction, the throwing of laser Penetrate direction and form incident angle A3 with the normal of reflector element 192, the laser net 162 for finally being formed is as shown in Figure 7 B.It is another Aspect, when generating laser 160 projects laser with another original projection direction, projecting direction and the reflector element 192 of laser Normal formed incident angle A4, the laser net 163 for being formed, as seen in figure 7 c.Because incident angle A3 is less than incident angle A4, therefore relatively the closeness of the laser net 162 formed in Fig. 7 B is intensive more than the laser net 163 formed in Fig. 7 C Degree.

In another embodiment, two different generating lasers are respectively provided with the inner surface of frame-shaped body 190, when The two generating lasers are projected laser with an incidence angle and penetrated simultaneously, just can form closeness laser net higher.

As described in Fig. 7 D, when generating laser 160a is set in the position in the lower left corner of frame-shaped body 190, laser net can be formed 164.If now increasing generating laser 160b in the position in the upper right corner of frame-shaped body 190, thrown simultaneously with generating laser 160a Laser is penetrated, the laser net 165 that closeness is the twice of laser net 164 just can be formed, as seen in figure 7e.

But in different embodiments, quantity and position set by inner surface of the generating laser in frame-shaped body Difference is had, in other words, in another embodiment, more than two generating lasers is set in the inner surface of frame-shaped body And the position of generating laser can mutually close to while projecting the laser net that laser forms another high density.But should The scope that the solution present invention is covered is not restricted in above-described embodiment.

The closing reflection path that the laser of above-described embodiment is formed after continuously reflecting falls at grade, but In other embodiment, the closing reflection path that laser is formed does not fall at grade.For example, please join in the lump Fig. 6 is read, it is the schematic diagram of the laser path of one embodiment of the invention.Compared to above-described embodiment, the laser of Fig. 6 is formed Closed path do not fall within a plane, in this embodiment, the frame-shaped body 190 of the left and right sides is set in nonparallel mode Put.As shown in fig. 6, and frame-shaped body 190 is one half arcuate structures, half arcuate structure in left side is horizontally extending U Type structure, half arcuate structure on right side includes the U-shape structure being extends in the vertical direction.Laser via frame-shaped body 190 reflection Unit 192 continuously reflects, laser (namely four arrows in figure) structure that the roads of Tu6Zhong tetra- reflect via reflector element 192 Into a laser net for closed path, laser net does not fall at grade.In an embodiment, due in Fig. 5 and Fig. 6 And frame-shaped body 190 is made up of one half arcuate structures, therefore two halves arcuate structure can be connected using Y types handle, and switch is pressed Button 120 then may be disposed at Y type handles.

That is, the laser net that the present invention is formed can fall at grade or be distributed in different planes.

In one embodiment of this invention, the laser (such as blue laser or green laser) that generating laser is projected The energy level critical value (such as per second 0.04 joule) that be can bear more than general mosquito (such as per second 0.1 joule), works as mosquito Into in frame-shaped body and when touching laser net, the wing of mosquito can lose mobility to worm by laser damage, and then reach Catch the purpose of mosquito.The blue laser illustrated at this or green laser, the energy level (0.1 joule per second) of laser and mosquito Critical value (0.04 joule per second) the only explanation of property as an example that can bear.

In general, generating laser is projected laser its intensity will not be damaged to human body, for common people, Such laser intensity is approximately similar to project use laser pointer during bulletin, or the visual effect laser viewed and admired. Can't cause to endanger immediately in the case of short-time contact.

In another embodiment, the running of electrooptical device is except startup laser transmitter projects laser and in frame-shaped body Outside middle formation laser net, the step of having further comprised manipulation of switches button and detected laser.

Please with reference to Fig. 3 B, it is the method flow diagram of the operation method of the electrooptical device of one embodiment of the invention, In step S202, shift knob 120 in electrooptical device 100 is electrically connected with control unit 140, when user is not by compressing switch During button 120, control unit 140 just will not drive the generating laser 160 to carry out the projection of laser, that is, electrooptical device 100 Will not operate at this moment, enter directly into step S212 close generating laser 160, wait next time user by compress switch by Button 120.

On the contrary, when user presses shift knob 120, in step S204, control unit 140 just receives driving Instruct to drive generating laser 160 to project laser, now laser being reflected in frame-shaped body 190 via reflector element 192 Laser net is formed, the forming method of the laser net of its thin portion is identical with described in above-mentioned paragraph, does not repeat separately herein.

As above-mentioned described, the laser that generating laser 160 is projected has the energy level corresponding to it, implements in one In example, its energy level is more than the critical value that daily seen mosquito can be born.Therefore when user's pressing shift knob drives The formation of dynamic laser net, electrooptical device is brandished in mosquito whereabouts, when mosquito enters brandished range contact laser net Meanwhile, its wing can be destroyed so that mosquito loses ability to act, further up to the purpose of killing mosquitoes.

However, though the wing that the laser net that generating laser is projected can destroy mosquito makes it lose mobility, also It is possible to impact human body.For example, when human body stretches into false touch laser net in frame-shaped body, it is possible to being produced to human body negative Face rings.If such as laser is irradiated to eye, is irradiated to the more sensitive skin of child or is irradiated to human body for a long time, it would still be possible to Cause danger.Therefore, the built-in OPTICAL SENSORS of electrooptical device disclosed in this invention is used for sensing the energy level of laser, in not shadow Ring in the case of normal function avoiding causing harm.

In step S208, when projecting laser and form laser net in frame-shaped body 190 when, in electrooptical device 100 OPTICAL SENSORS 180 just start detect laser energy level.When user presses shift knob, in a time section (such as 2 Millisecond) in, when OPTICAL SENSORS 180 judges that the energy level of the laser for detecting is less than energy threshold in step S210, represent There is foreign matter (finger of such as user, other positions of body or clothing) into the projected path of laser net and having intercepted big Partial laser beam, OPTICAL SENSORS 180 transmits alarm signal to control unit 140, when control unit 140 is receiving this police After showing signal, in step S212, control unit 140 just positive closing generating laser 160 and stop project laser, whereby Avoid causing the injury of user.

In another embodiment, OPTICAL SENSORS 180 judges that the energy level of the laser for detecting is more than in step S210 During energy threshold, now OPTICAL SENSORS 180 will not intervene the running of generating laser 160, just persistently drive generating laser 160 Projection laser.For time section, the invention is not restricted to above-described embodiment, in other embodiment, time section be 10 milliseconds, 50 milliseconds or 1 second.

Please with reference to Fig. 8 A, the energy of its laser projected by the generating laser 160 of one embodiment of the invention The waveform of level.In an embodiment, the projection laser of generating laser 160 forms laser net in frame-shaped body 190, its laser Net has the energy level E of laser₁, the waveform of the energy of its laser as shown in Figure 8 A, in this embodiment, the energy wave of laser Shape has periodic pulsewidth waveform, but the present invention is not limited thereto, and in other embodiment, the energy of laser can also have It is lasting to maintain fixed energy level, or other waveforms with tool equality.

Please with reference to Fig. 8 B~8D, it is the laser that the present invention is detected in the OPTICAL SENSORS 180 of different embodiments Energy level.In an embodiment, as shown in Figure 8 A, when laser net is formed at frame-shaped body 190, the now minimum mosquito of volume Worm is into the laser net in frame-shaped body and in time section T₁Laser net is inside touched, the laser of part will be blocked. Now, OPTICAL SENSORS 180 is in time section T₁The energy of interior detected laser is by energy level E₁It is reduced to energy level E₂, as shown in Figure 8 B.

But because the volume occupied by mosquito is minimum, the sub-fraction that blocking laser is merely able in frame-shaped body is caused The degree that energy declines is not obvious, thus while the energy level of laser is by energy level E₁Drop to energy level E₂, light sensing Device 180 judges energy level E₂Energy threshold E default still above OPTICAL SENSORS 180_th, in this scenario, represent and enter The small volume (such as mosquito) of the object of laser is touched in frame-shaped body 190, the laser that this object is intercepted is less, therefore Optical sensor 180 is not notified that control unit 140 closes generating laser 160 in this scenario.

As shown in Figure 8 C, when laser net is formed at frame-shaped body 190, entity (such as hand now with certain volume The human bodies such as finger, palm or head) enter in frame-shaped body 190 and in time section T₁Interior contact laser, implements as described above Example equally meeting blocking part laser, now OPTICAL SENSORS 180 is in time section T₁The energy level of interior detected laser by Energy level E₁It is reduced to energy level E₃, as shown in Figure 8 C.

But because above-mentioned entity is larger compared to the volume of mosquito, the part that laser is blocked is relatively more, therefore swash The degree that the energy level of light declines is larger.Now the energy level of laser drops to energy level E₃, energy level E₃Less than light The default energy threshold E of sensor 180_th, in this scenario, the meeting proactive notification of OPTICAL SENSORS 180 control unit 140 is closed Generating laser 160, and stop projecting laser.Consequently, it is possible to entity (such as other positions of the finger or body of user) Just it is not exposed to the irradiation to laser beam and then comes to harm, reaches the purpose for safely using electrooptical device.

As in fig. 8d, when laser net is formed at frame-shaped body 190, if now certain entity (such as any position of human body Or any object with certain volume) in time section T₁Laser net in interior entrance frame-shaped body 190, and block completely Firmly the emission port of generating laser 160 causes that laser cannot be projected to form laser net, and now OPTICAL SENSORS 180 cannot be sensed The energy level of any laser.

In this scenario, OPTICAL SENSORS 180 is in time section T₁The energy level E of interior detected laser₄It is 0, it is small In the default energy threshold E of OPTICAL SENSORS 180_th, as in fig. 8d.Therefore similarly OPTICAL SENSORS 180 can proactive notification control Unit 140 closes generating laser 160.

Above-mentioned described energy level E₁~E₄And time section T₁Only as exemplary explanation, the present invention is contained The scope of lid is not limited to above-described embodiment.

Electrooptical device disclosed in this invention can project laser on reflector element, and laser is formed through continuously reflecting In frame-shaped body, laser net can be applied with killing mosquitoes laser net.In section Example, electrooptical device is also pressed comprising switch Button and OPTICAL SENSORS, when pressed by a user, form laser net, and the energy standard of laser is detected by OPTICAL SENSORS Position.When there is foreign matter (such as a part for user's body) to enter laser net, OPTICAL SENSORS just can force to stop laser projection with Reach the purpose of security.

Claims (9)

1. a kind of electrooptical device, it is characterised in that include：

Frame-shaped body；

Reflector element, is arranged at the inner surface of the frame-shaped body；And

First laser transmitter, the inner surface of the frame-shaped body, described are arranged at corresponding to the reflector element One laser transmitter projects first laser, the first laser continuously reflects through the reflector element and forms first laser Net.

2. electrooptical device according to claim 1, it is characterised in that also include：

Shift knob；And

Control unit, is electrically connected with the shift knob, and when the shift knob is pressed, described control unit drives described First laser transmitter projects the first laser.

3. electrooptical device according to claim 1, it is characterised in that also include：

OPTICAL SENSORS, is arranged at the inner surface of the frame-shaped body, and the OPTICAL SENSORS is used to sense described first and swashs The energy level of light；And

Control unit, is electrically connected with the OPTICAL SENSORS, to the first laser sensed according to the OPTICAL SENSORS The energy level switch the on off state of the first laser transmitter.

4. electrooptical device according to claim 3, it is characterised in that when the first laser transmitter projects described first After laser, if being less than energy threshold, the control in the energy level that the OPTICAL SENSORS in a time section is sensed Unit closes the generating laser.

5. electrooptical device according to claim 1, it is characterised in that also comprising second laser transmitter, when described first When generating laser launches the first laser with second laser respectively with the second laser transmitter, in the frame-shaped body Interior formation second laser net.

6. electrooptical device according to claim 1, it is characterised in that the density degree of the first laser net is according to institute The incidence angle that the original projection direction of first laser formed with the normal of the reflector element is stated to be determined.

7. electrooptical device according to claim 1, it is characterised in that the reflector element is around the frame-shaped body The inner surface, so that the first laser continuously reflects through the reflector element and forms the first laser net.

8. electrooptical device according to claim 1, it is characterised in that the quantity of the reflector element is multiple, is arranged at The inner surface of the frame-shaped body, each reflector element is correspondingly arranged, so that the first laser continuously reflects.

9. electrooptical device according to claim 1, it is characterised in that the frame-shaped body is closed frame-shaped body or tool There is the open frame-shaped body of opening.