CN205174246U - Infrared remote control dome lamp and directionality remote controller - Google Patents

Abstract

The utility model relates to a control field especially relates to the remote control field. The infrared remote control dome lamp including a LED lamp interface, still includes a lamp shade and an infrared remote control receiving system, LED lamp interface connection infrared remote control receiving system, infrared remote control receiving system connects power source, infrared remote control receiving system is equipped with the infrared ray receiving element who is used for receiving the infrared remote control signal, and infrared ray receiving element sets up at the lamp shade rear. In the above -mentioned design, the lamp shade has weakened the intensity that external infrared remote signal shines infrared ray receiving element, but weakens lessly to the direct irradiation to the infrared remote signal on the lamp shade. Consequently it does not have part or the whole infrared remote signal s of direct irradiation to the lamp shade to make, and receiving element is invalid to the infrared ray to do not play remote action. And the infrared remote signal of direct irradiation to the lamp shade, because a little less than the decay, so still have remote action.

Description

Infrared remote control ceiling light and directionality remote controller

Technical field

The utility model relates to control field, particularly relates to field of remote control.

Background technology

Infrared remote control is in daily life, very universal.Major part has the household electrical appliances of distant control function, all adopts infrared remote control.

Infrared remote control has a very large shortcoming, is in the same space, can there is stronger interference.Such as the electrical equipment of several employing same remote signal, is placed in the same space, and when launching remote signal, several electrical equipment all can produce response.Remote control manipulator, cannot the electrical equipment that oneself will control of remote control accurately, and make not need the electrical equipment of remote control to be failure to actuate.

Utility model content

The purpose of this utility model is to provide a kind of infrared remote control ceiling light, solves above technical problem.

The technical problem that the utility model solves can realize by the following technical solutions:

Infrared remote control ceiling light, comprises a lampshade, it is characterized in that, also comprises a LED interface and an infrared remote control receiving system;

Described LED interface connects described infrared remote control receiving system, and described infrared remote control receiving system connects power interface;

Described infrared remote control receiving system is provided with the infrared receiver component for receiving infrared remote-controlled signal, and described infrared receiver component is arranged on described lampshade rear;

Described lampshade is top light cover.

In above-mentioned design, lampshade reduces the intensity that extraneous infrared remote-controlled signal is irradiated to infrared receiver component, but weakens less to the infrared remote-controlled signal shone directly on lampshade.Therefore the some or all of infrared remote-controlled signal do not shone directly on lampshade is made, invalid to infrared receiver component, do not play teleaction.And the infrared remote-controlled signal shone directly on lampshade, because decay is more weak, so still there is teleaction.

Therefore can be implemented in the same space, an IR remote controller precisely controls the effect of multiple electric light.Thus solve in infrared remote control the same space, the problem of stronger interference can be there is.

Described lampshade can adopt at least one in glass lamp shade, acrylic lamp shade, plastic lamp shade, fabric lampshade, non-woven fabrics lampshade.

During described lampshade employing glass lamp shade, the transparent glass on glass lamp shade, adopts ground glass.

During described lampshade employing glass lamp shade, the transparent glass on glass lamp shade, one side is provided with skin of paint.

On described LED interface, connection be LED.Test proves, the light that fluorescent lamp, incandescent lamp produce is comparatively mixed and disorderly, can cause interference, when being used in this patent, need to carry out some optical treatment to the receiving sensitivity of infrared receiver component.And adopt LED, then need not carry out too much optical treatment.

The infrared receiver component of described infrared remote control receiving system can adopt at least one in infrared photodiode, infrared phototriode, infrared receiving terminal.

On described LED interface, LED lamp panel can be connected with.By connecting LED lamp panel, realize highlight illumination.

Described LED interface can adopt screw thread socket, adopts the LED of hickey to twist and is connected on screw thread socket.

LED lamp panel can be lamp panel metal substrate being attached with LED particle.Heat radiation can be realized.

Infrared phototriode and auxiliary circuit is integrated with in described infrared receiving terminal.Often be applied on the infrared remote control such as television set, air-conditioning electrical equipment.

Described infrared remote control receiving system comprises a signal processing circuit, and the signal input part of described signal processing circuit connects infrared receiver component; The signal output part of described signal processing circuit is connected with a switch element, and described switch element connects described LED interface.

Described switch element can be at least one in relay, triode, IGCT, FET.

SCM system is provided with in signal processing circuit.Logical operation is carried out by SCM system.Traditional infrared remote control receiving system, also has some to be adopt SCM system to carry out logical operation.

Described infrared remote control receiving system is arranged on described lampshade rear.So that reduce the line of infrared receiver component and signal processing circuit.Be convenient to layout simultaneously.

Described infrared remote control receiving system comprises a shell, and described signal processing circuit and described switch element are arranged in described shell.

Described infrared receiver component can be arranged in described shell, and shell arranges optical transmission window, and described infrared receiver component is arranged on described optical transmission window rear.

Described infrared receiver component also can not be arranged in described shell, by the signal processing circuit in holding wire connected with outer casing.

The length of described holding wire is arranged on 8cm ~ 40cm.With ensure infrared receiver component arrange flexibly position prerequisite under, save electric wire.

Described infrared remote control receiving system is provided with at least two infrared receiver components, and an infrared receiver component is positioned at described lampshade rear, and the optical signal receive direction of another infrared receiver component is towards outside described lampshade.And on optical signal receive direction, do not blocked by lampshade.

So that receive the light in lampshade and the light outside lampshade respectively, to contrast two kinds of light.

Described infrared remote control receiving system, is provided with at least two signaling interfaces, and infrared receiver component described in is connected to a signaling interface, and infrared receiver component described in another is connected to another signaling interface.

Two signaling interfaces connect two comparison signal inputs of a comparison circuit respectively, and the signal output part of comparison circuit connects the signal input part of described signal processing circuit.

And then the fiducial value of the signal of telecommunication that the described infrared receiver component of described infrared remote control receiving system identification two is produced.Thus reduction signal disturbing, avoid maloperation.When infrared receiver component signal such as only in lampshade is stronger, be just considered as signal effective.

Or two described signaling interfaces connect two an of subtractor circuit respectively and ask difference signal input, and the signal output part of subtractor circuit connects the signal input part in described infrared remote control receiving system.And then the signal of telecommunication that the described infrared receiver component of described infrared receiving module identification two is produced ask difference.Thus reduction signal disturbing, avoid maloperation.

The described infrared receiver component being positioned at described lampshade rear connects the positive signal input of described comparison circuit; The negative signal input of described comparison circuit is connected towards the described infrared receiver component outside described lampshade; Infrared signal input in described infrared receiving module is the effective infrared signal input of positive signal.And then realize, at the infrared receiver component at lampshade rear, when receiving stronger infrared signal, system is considered as effectively.

The described infrared receiver component being positioned at described lampshade rear connects the positive signal input of described integrated transporting discharging; The negative signal input of described integrated transporting discharging is connected towards the described infrared receiver component outside described lampshade; Infrared signal input in described infrared receiving module is the effective infrared signal input of positive signal.And then realize, at the infrared receiver component at lampshade rear, when receiving stronger infrared signal, system is considered as effectively.

Also can be that at least two described signaling interfaces of described infrared remote control receiving system, connect at least two signal input ports of described SCM system respectively.And then realize the input of two signals.

Can also be that at least two described infrared receiver components are set at described lampshade rear, at least two described infrared receiver components connection signal treatment circuit respectively.So that improve optical signal receptivity.

The infrared receiver component of 10 degree is differed by more than towards angle, at least two described infrared receiver components connection signal treatment circuits respectively described lampshade rear setting at least two.So that receive the light of different angles.

Concrete enforcement:

Described infrared remote control ceiling light, comprises a base, and described LED interface is arranged on below described base, and described lampshade is arranged on below described base, and covers described LED interface.So that hang on the ceiling, or hang on the wall.

Described signal processing circuit and described switch element are arranged in described shell, and described shell is arranged on below described base.

Be preferably, base is fixed on described base by screw or rivet.

The height of described infrared receiver component, between LED interface opening and base.To weaken the interference of the electric light light of LED interface access.

The photosurface of described switch element down, or towards downside.

The photosurface of described switch element not described base down.

Described lampshade can also be the lampshade that crystal is arranged into.

Described base edge is provided with the edge to lower convexity.

The position of described infrared receiver component, between described edge bottom and the fixed position of LED interface.So that block the light penetrating outside base, particularly block the light of the metope coming from firm banking.

Directionality remote controller, comprise an infrared remote controller, described infrared remote controller is connected with an infrarede emitting diode, it is characterized in that, infrared remote controller is provided with microprocessor system, described infrarede emitting diode is positioned at a cavity, and described cavity is provided with cavity wall and optical transmission window, and described cavity wall adopts the cavity wall of shading;

Described infrarede emitting diode is greater than 0.5cm apart from described optical transmission window, is less than 10cm

Described infrarede emitting diode front is provided with plus lens.

By above-mentioned design, the light that infrarede emitting diode can be made to send, by after plus lens, from optical transmission window injection, has certain directionality.

Described infrarede emitting diode is greater than 1cm apart from one side outside described optical transmission window, is less than 10cm.

More preferably, described infrarede emitting diode is greater than 1.5cm apart from one side outside described optical transmission window, is less than 5cm.

Described optical transmission window is provided with plus lens.To converge light.

Described infrarede emitting diode rear is provided with concave mirror.To converge light.

Described plus lens front is also provided with the ring body that a length is greater than 1cm, and described ring body is the ring body of a shading material.To block the light launched towards periphery.Be preferably length and be less than 3cm.

Described plus lens front is also provided with the body that a length is greater than 2cm, and described ring body is the body of a shading material.Be preferably length and be less than 6cm.To block the light launched towards periphery.

Directionality remote controller is provided with a shell, described shell is less than 4 buttons.

More preferably, described shell is only provided with 1 button.Or button is not set.

The microprocessor system of described infrared remote controller is connected with a vibrating sensor system, infrared remote controller is provided with a control signal input, described vibrating sensor system is provided with an induced signal output, and described control signal input connects described induced signal output.To trigger infrared remote controller by vibration.

The microprocessor system of described infrared remote controller is connected with a touch sensing system.Infrared remote controller is provided with a control signal input, and described touch sensing system is provided with an induced signal output, and described control signal input connects described induced signal output.To trigger infrared remote controller by touching.

The microprocessor system of described infrared remote controller is connected with vibrating sensor system and a touch sensing system.Just trigger infrared remote controller when obtaining the signal of vibrating sensor system and touch sensing system simultaneously and launch remote signal.

Described vibrating sensor system adopts ball switch.

Described ball switch comprises a cylindrical shell, cylindrical shell two ends are respectively equipped with two electrodes, and two electrodes are equipped with depression, are provided with a metal column in cylindrical shell, the length of described metal column is greater than the distance between the concave edges of two electrodes, the distance between the depression summit being less than two electrodes; The external diameter of described metal column is less than the internal diameter of described cylindrical shell.So that when rocking, produce resistance variations.

The length of described metal column is greater than 5mm, is less than 20mm.So that meet inertia requirement and requirement of strength.

Vibrating sensor system adopts more preferably spring vibrating sensor.

Further, the microprocessor system of infrared remote controller is connected with touch sensing system, angular transducer system simultaneously.Obtain the signal of angular transducer system and touch sensing system simultaneously, different according to the signal of angular transducer system, different with the signal of touch sensing system, send different remote signals.And then realize when without button, realize abundant signal and export.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of the present utility model.

Fig. 2 is directionality remote controller structure schematic diagram.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, setting forth the utility model further below in conjunction with concrete diagram.

With reference to Fig. 1, infrared remote control ceiling light, comprises a LED interface 2, also comprises lampshade 1 and an infrared remote control receiving system 3; LED interface 2 connects infrared remote control receiving system 3, and infrared remote control receiving system 3 connects power interface; Infrared remote control receiving system 3 is provided with the infrared receiver component 4 for receiving infrared remote-controlled signal, and infrared receiver component 4 is arranged on lampshade 1 rear.Lampshade 1 is top light cover.

In above-mentioned design, lampshade 1 reduces the intensity that extraneous infrared remote-controlled signal is irradiated to infrared receiver component 4, but weakens less to the infrared remote-controlled signal shone directly on lampshade 1.Therefore the some or all of infrared remote-controlled signal do not shone directly on lampshade 1 is made, invalid to infrared receiver component 4, do not play teleaction.And the infrared remote-controlled signal shone directly on lampshade 1, because decay is more weak, so still there is teleaction.

Therefore can be implemented in the same space, an IR remote controller precisely controls the effect of multiple electric light.Thus solve in infrared remote control the same space, the problem of stronger interference can be there is.

Lampshade 1 can adopt at least one in glass lamp shade 1, acrylic lamp shade 1, plastic lamp shade 1, fabric lampshade 1, non-woven fabrics lampshade 1.

When lampshade 1 adopts glass lamp shade 1, the transparent glass on glass lamp shade 1, adopts ground glass.

When lampshade 1 adopts glass lamp shade 1, the transparent glass on glass lamp shade 1, one side is provided with skin of paint.

On LED interface 2, connection be LED.Test proves, the light that fluorescent lamp, incandescent lamp produce is comparatively mixed and disorderly, can cause interference, when being used in this patent, need to carry out some optical treatment to the receiving sensitivity of infrared receiver component 4.And adopt LED 5, then need not carry out too much optical treatment.

On LED interface 2, LED lamp panel 6 can be connected with.By connecting LED lamp panel 6, realize highlight illumination.LED interface can also adopt screw thread socket, adopts the LED of hickey to twist and is connected on screw thread socket.Screw thread socket can be the screw thread socket of incandescent lamp pattern.

LED lamp panel 6 can be lamp panel metal substrate being attached with LED particle.Heat radiation can be realized.

The infrared receiver component 4 of infrared remote control receiving system 3 can adopt at least one in infrared photodiode, infrared phototriode, infrared receiving terminal.

Infrared phototriode and auxiliary circuit is integrated with in infrared receiving terminal.Often be applied on the infrared remote control such as television set, air-conditioning electrical equipment.

Infrared remote control receiving system 3 comprises a signal processing circuit, and the signal input part of signal processing circuit connects infrared receiver component 4; The signal output part of signal processing circuit is connected with a switch element, and switch element connects LED interface 2.

Switch element can be at least one in relay, triode, IGCT, FET.

SCM system is provided with in signal processing circuit.Logical operation is carried out by SCM system.Traditional infrared remote control receiving system 3, also has some to be adopt SCM system to carry out logical operation.

Infrared remote control receiving system 3 is arranged on lampshade 1 rear.So that reduce the line of infrared receiver component 4 and signal processing circuit.Be convenient to layout simultaneously.

Infrared remote control receiving system 3 comprises a shell, and signal processing circuit and switch element are arranged in the enclosure.

Infrared receiver component 4 can be arranged in the enclosure, and shell arranges optical transmission window, and infrared receiver component 4 is arranged on optical transmission window rear.

Infrared receiver component 4 also can not be arranged in the enclosure, by the signal processing circuit in holding wire connected with outer casing.

The length of holding wire is arranged on 8cm ~ 40cm.To ensure, under the prerequisite of infrared receiver component 4 flexible arrangement position, to save electric wire.

Infrared remote control receiving system 3 is provided with at least two infrared receiver components 4, infrared receiver component 4 and is positioned at lampshade 1 rear, and the optical signal receive direction of another infrared receiver component 4 is towards outside lampshade 1.And on optical signal receive direction, do not blocked by lampshade 1.

So that receive the light in lampshade 1 and the light outside lampshade 1 respectively, to contrast two kinds of light.

Infrared remote control receiving system 3, is provided with at least two signaling interfaces, and an infrared receiver component 4 is connected to a signaling interface, and another infrared receiver component 4 is connected to another signaling interface.

Two signaling interfaces connect two comparison signal inputs of a comparison circuit respectively, the signal input part of the signal output part connection signal treatment circuit of comparison circuit.

And then make infrared remote control receiving system 3 identify the fiducial value of the signal of telecommunication that two infrared receiver components 4 produce.Thus reduction signal disturbing, avoid maloperation.When infrared receiver component 4 signal such as only in lampshade 1 is stronger, be just considered as signal effective.

Or two signaling interfaces connect two an of subtractor circuit respectively and ask difference signal input, and the signal output part of subtractor circuit connects the signal input part in infrared remote control receiving system 3.And then the signal of telecommunication that infrared receiving module identification two infrared receiver components 4 are produced ask difference.Thus reduction signal disturbing, avoid maloperation.

The infrared receiver component 4 being positioned at lampshade 1 rear connects the positive signal input of comparison circuit; The negative signal input of comparison circuit is connected towards the infrared receiver component 4 outside lampshade 1; Infrared signal input in infrared receiving module is the effective infrared signal input of positive signal.And then realize, at the infrared receiver component 4 at lampshade 1 rear, when receiving stronger infrared signal, system is considered as effectively.

The infrared receiver component 4 being positioned at lampshade 1 rear connects the positive signal input of integrated transporting discharging; The negative signal input of integrated transporting discharging is connected towards the infrared receiver component 4 outside lampshade 1; Infrared signal input in infrared receiving module is the effective infrared signal input of positive signal.And then realize, at the infrared receiver component 4 at lampshade 1 rear, when receiving stronger infrared signal, system is considered as effectively.

Also can be, at least two signaling interfaces of infrared remote control receiving system 3 connect at least two signal input ports of SCM system respectively.And then realize the input of two signals.

Can also be that at least two infrared receiver components 4 are set at lampshade 1 rear, at least two infrared receiver components 4 connection signal treatment circuit respectively.So that improve optical signal receptivity.

The infrared receiver component 4 of 10 degree is differed by more than towards angle, at least two infrared receiver components 4 connection signal treatment circuits respectively lampshade 1 rear setting at least two.So that receive the light of different angles.

Concrete enforcement:

Infrared remote control ceiling light, comprises a base 8, and LED interface 2 is arranged on below base 8, and lampshade 1 is arranged on below base 8, and covers LED interface 2.So that hang on the ceiling, or hang on the wall.

Signal processing circuit and switch element are arranged in the enclosure, and shell is arranged on below base 8.

Be preferably, base 8 is fixed on base 8 by screw or rivet.

The height of infrared receiver component 4, between LED interface 2 opening and base 8.To weaken the interference of the electric light light that LED interface 2 accesses.

The photosurface of switch element down, or towards downside.

The photosurface of switch element is not towards lower bottom base 8.

Lampshade 1 can also be the lampshade 1 that crystal is arranged into.

Base 8 edge is provided with the edge to lower convexity.

The position of infrared receiver component 4, between edge bottom and the fixed position of LED interface 2.So that block the light penetrating outside base 8, particularly block the light of the metope coming from firm banking 8.

With reference to Fig. 2, directionality remote controller, comprise an infrared remote controller 71, infrared remote controller 71 is connected with an infrarede emitting diode 75, it is characterized in that, infrared remote controller 71 comprises a microprocessor system, and infrarede emitting diode 75 is positioned at a cavity, cavity is provided with cavity wall 72 and optical transmission window 74, and cavity wall 72 adopts the cavity wall 72 of shading; Infrarede emitting diode 75 is greater than 1cm apart from optical transmission window 74, is less than 10cm.Infrarede emitting diode 75 front is provided with plus lens 73.

By above-mentioned design, the light that infrarede emitting diode 75 can be made to send, by after plus lens 73, penetrates from optical transmission window 74, has certain directionality.

Infrarede emitting diode 75 is greater than 1cm apart from one side outside optical transmission window 74, is less than 10cm.

More preferably, infrarede emitting diode 75 is greater than 1.5cm apart from one side outside optical transmission window 74, is less than 5cm.

Optical transmission window 74 is provided with plus lens 73.To converge light.

Infrarede emitting diode 75 rear is provided with concave mirror.To converge light.

Plus lens 73 front is also provided with the ring body that a length is greater than 1cm, and ring body is the ring body of a shading material.To block the light launched towards periphery.Be preferably length and be less than 3cm.

Plus lens 73 front is also provided with the body that a length is greater than 2cm, and ring body is the body of a shading material.Be preferably length and be less than 6cm.To block the light launched towards periphery.

Directionality remote controller is provided with a shell, shell is less than 4 buttons.

Button on shell connects the microprocessor system of infrared remote controller 71.More preferably, shell is only provided with 1 button.Or button is not set.

The microprocessor system of infrared remote controller 71, is connected with a vibrating sensor system, and infrared remote controller 71 is provided with a control signal input, and vibrating sensor system is provided with an induced signal output, and control signal input connects induced signal output.To trigger infrared remote controller 71 by vibration.

The microprocessor system of infrared remote controller 71, is connected with a touch sensing system.Infrared remote controller 71 is provided with a control signal input, and touch sensing system is provided with an induced signal output, and control signal input connects induced signal output.To trigger infrared remote controller 71 by touching.

The microprocessor system of infrared remote controller 71 is connected with vibrating sensor system and a touch sensing system simultaneously.Just trigger infrared remote controller 71 when obtaining the signal of vibrating sensor system and touch sensing system simultaneously and launch remote signal.

Vibrating sensor system adopts ball switch.Ball switch comprises a cylindrical shell, and cylindrical shell two ends are respectively equipped with two electrodes, and two electrodes are equipped with depression, are provided with a metal column in cylindrical shell, and the length of metal column is greater than the distance between the concave edges of two electrodes, the distance between the depression summit being less than two electrodes; The external diameter of metal column is less than the internal diameter of cylindrical shell.So that when rocking, produce resistance variations.The length of metal column is greater than 5mm, is less than 20mm.So that meet inertia requirement and requirement of strength.

Vibrating sensor system adopts more preferably spring vibrating sensor.

Further, the microprocessor system of infrared remote controller 71 is connected with touch sensing system, angular transducer system simultaneously.Obtain the signal of angular transducer system and touch sensing system simultaneously, different according to the signal of angular transducer system, different with the signal of touch sensing system, send different remote signals.And then realize when without button, realize abundant signal and export.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (53)

1. infrared remote control ceiling light, comprises a lampshade, it is characterized in that, also comprises a LED interface and an infrared remote control receiving system;

Described LED interface connects described infrared remote control receiving system, and described infrared remote control receiving system connects power interface;

Described infrared remote control receiving system is provided with the infrared receiver component for receiving infrared remote-controlled signal, and described infrared receiver component is arranged on described lampshade rear;

Described lampshade is top light cover.

2. infrared remote control ceiling light according to claim 1, is characterized in that, described lampshade adopts at least one in glass lamp shade, acrylic lamp shade, plastic lamp shade, fabric lampshade, non-woven fabrics lampshade.

3. infrared remote control ceiling light according to claim 2, is characterized in that, during described lampshade employing glass lamp shade, the transparent glass on glass lamp shade, adopts ground glass.

4. infrared remote control ceiling light according to claim 3, is characterized in that, during described lampshade employing glass lamp shade, the transparent glass on glass lamp shade, one side is provided with skin of paint.

5. infrared remote control ceiling light according to claim 1, is characterized in that, on described LED interface, connection be LED.

6. infrared remote control ceiling light according to claim 1, is characterized in that, the infrared receiver component of described infrared remote control receiving system adopts at least one in infrared photodiode, infrared phototriode, infrared receiving terminal.

7. infrared remote control ceiling light according to claim 5, is characterized in that, described LED interface is connected with LED lamp panel.

8. infrared remote control ceiling light according to claim 5, is characterized in that, described LED interface adopts screw thread socket, adopts the LED of hickey to twist and is connected on screw thread socket.

9. infrared remote control ceiling light according to claim 7, is characterized in that, LED lamp panel is lamp panel metal substrate being attached with LED particle.

10. infrared remote control ceiling light according to claim 6, is characterized in that, is integrated with infrared phototriode and auxiliary circuit in described infrared receiving terminal.

11. infrared remote control ceiling lights according to claim 1, is characterized in that, described infrared remote control receiving system comprises a signal processing circuit, and the signal input part of described signal processing circuit connects infrared receiver component; The signal output part of described signal processing circuit is connected with a switch element, and described switch element connects described LED interface.

12. infrared remote control ceiling lights according to claim 11, is characterized in that, described switch element is at least one in relay, triode, IGCT, FET.

13. infrared remote control ceiling lights according to claim 11, is characterized in that, be provided with SCM system in signal processing circuit, carry out logical operation by SCM system.

14. infrared remote control ceiling lights according to claim 11, is characterized in that, described infrared remote control receiving system is arranged on described lampshade rear.

15. infrared remote control ceiling lights according to claim 11, it is characterized in that, described infrared remote control receiving system comprises a shell, described signal processing circuit and described switch element are arranged in described shell.

16. infrared remote control ceiling lights according to claim 15, it is characterized in that, described infrared receiver component is arranged in described shell, and shell arranges optical transmission window, and described infrared receiver component is arranged on described optical transmission window rear.

17. infrared remote control ceiling lights according to claim 15, is characterized in that, described infrared receiver component is not arranged in described shell, by the signal processing circuit in holding wire connected with outer casing.

18. infrared remote control ceiling lights according to claim 17, it is characterized in that, the length of described holding wire is arranged on 8cm ~ 40cm.

19. infrared remote control ceiling lights according to claim 11, it is characterized in that, described infrared remote control receiving system is provided with at least two infrared receiver components, an infrared receiver component is positioned at described lampshade rear, and the optical signal receive direction of another infrared receiver component is towards outside described lampshade.

20. infrared remote control ceiling lights according to claim 19, it is characterized in that, described infrared remote control receiving system, is provided with at least two signaling interfaces, infrared receiver component described in one is connected to a signaling interface, and infrared receiver component described in another is connected to another signaling interface.

21. infrared remote control ceiling lights according to claim 20, is characterized in that, two signaling interfaces connect two comparison signal inputs of a comparison circuit respectively, and the signal output part of comparison circuit connects the signal input part of described signal processing circuit.

22. infrared remote control ceiling lights according to claim 21, is characterized in that, the fiducial value of the signal of telecommunication that the described infrared receiver component of described infrared remote control receiving system identification two produces.

23. infrared remote control ceiling lights according to claim 20, it is characterized in that, two described signaling interfaces connect two an of subtractor circuit respectively and ask difference signal input, and the signal output part of subtractor circuit connects the signal input part in described infrared remote control receiving system.

24. infrared remote control ceiling lights according to claim 21, is characterized in that, the described infrared receiver component being positioned at described lampshade rear connects the positive signal input of described comparison circuit; The negative signal input of described comparison circuit is connected towards the described infrared receiver component outside described lampshade; Infrared signal input in described infrared receiving module is the effective infrared signal input of positive signal.

25. infrared remote control ceiling lights according to claim 1, is characterized in that, the described infrared receiver component being positioned at described lampshade rear connects the positive signal input of integrated transporting discharging; The negative signal input of described integrated transporting discharging is connected towards the described infrared receiver component outside described lampshade; Infrared signal input in described infrared receiving module is the effective infrared signal input of positive signal.

26. infrared remote control ceiling lights according to claim 13, is characterized in that, at least two described signaling interfaces of described infrared remote control receiving system, connect at least two signal input ports of described SCM system respectively.

27. infrared remote control ceiling lights according to claim 11, is characterized in that, arrange at least two described infrared receiver components at described lampshade rear, at least two described infrared receiver components connection signal treatment circuit respectively.

28. infrared remote control ceiling lights according to claim 27, is characterized in that, differ by more than the infrared receiver component of 10 degree described lampshade rear setting at least two towards angle, at least two described infrared receiver components connection signal treatment circuits respectively.

29. directionality remote controllers, comprise an infrared remote controller, described infrared remote controller is connected with an infrarede emitting diode, it is characterized in that, infrared remote controller is provided with microprocessor system, described infrarede emitting diode is positioned at a cavity, and described cavity is provided with cavity wall and optical transmission window, and described cavity wall adopts the cavity wall of shading;

Described infrarede emitting diode is greater than 0.5cm apart from described optical transmission window, is less than 10cm

Described infrarede emitting diode front is provided with plus lens.

30. directionality remote controllers according to claim 29, is characterized in that, described infrarede emitting diode is greater than 1cm apart from one side outside described optical transmission window, is less than 10cm.

31. directionality remote controllers according to claim 30, is characterized in that, described infrarede emitting diode is greater than 1.5cm apart from one side outside described optical transmission window, is less than 5cm.

32. directionality remote controllers according to claim 30, it is characterized in that, described optical transmission window is provided with plus lens.

33. directionality remote controllers according to claim 29, is characterized in that, described infrarede emitting diode rear is provided with concave mirror.

34. directionality remote controllers according to claim 29, is characterized in that, described plus lens front is also provided with the ring body that a length is greater than 1cm, and described ring body is the ring body of a shading material.

35. directionality remote controllers according to claim 29, is characterized in that, described plus lens front is also provided with the body that a length is greater than 2cm, and described body is the body of a shading material.

36. directionality remote controllers according to claim 29, it is characterized in that, directionality remote controller is provided with a shell, described shell is less than 4 buttons.

37. directionality remote controllers according to claim 36, is characterized in that, described shell are only provided with 1 button.

38. directionality remote controllers according to claim 29, it is characterized in that, the microprocessor system of described infrared remote controller is connected with a vibrating sensor system, infrared remote controller is provided with a control signal input, described vibrating sensor system is provided with an induced signal output, and described control signal input connects described induced signal output.

39. directionality remote controllers according to claim 29, is characterized in that, the microprocessor system of described infrared remote controller is connected with a touch sensing system.

40. according to directionality remote controller according to claim 39, it is characterized in that, described infrared remote controller is provided with a control signal input, and described touch sensing system is provided with an induced signal output, and described control signal input connects described induced signal output.

41. directionality remote controllers according to claim 29, is characterized in that, the microprocessor system of described infrared remote controller is connected with vibrating sensor system and a touch sensing system.

42. directionality remote controllers according to claim 41, is characterized in that, described vibrating sensor system adopts ball switch.

43. directionality remote controllers according to claim 42, it is characterized in that, described ball switch comprises a cylindrical shell, cylindrical shell two ends are respectively equipped with two electrodes, two electrodes are equipped with depression, be provided with a metal column in cylindrical shell, the length of described metal column is greater than the distance between the concave edges of two electrodes, the distance between the depression summit being less than two electrodes; The external diameter of described metal column is less than the internal diameter of described cylindrical shell.

44. directionality remote controllers according to claim 43, it is characterized in that, the length of described metal column is greater than 5mm, is less than 20mm.

45. directionality remote controllers according to claim 41, is characterized in that, it is spring vibrating sensor further that vibrating sensor system adopts.

46. infrared remote control ceiling lights according to claim 1, it is characterized in that, described infrared remote control ceiling light, comprises a base, described LED interface is arranged on below described base, and described lampshade is arranged on below described base, and covers described LED interface.

47. infrared remote control ceiling lights according to claim 46, it is characterized in that, described infrared remote control receiving system comprises a shell, and described infrared remote control receiving system comprises a signal processing circuit, and the signal input part of described signal processing circuit connects infrared receiver component; The signal output part of described signal processing circuit is connected with a switch element, and described switch element connects described LED interface,

Described signal processing circuit and described switch element are arranged in described shell, and described shell is arranged on below described base.

48. infrared remote control ceiling lights according to claim 46, is characterized in that, the height of described infrared receiver component, between LED interface opening and base.

49. infrared remote control ceiling lights according to claim 11, is characterized in that, the photosurface of described switch element down, or towards downside.

50. infrared remote control ceiling lights according to claim 11, it is characterized in that, described infrared remote control ceiling light, comprises a base, described LED interface is arranged on below described base, and described lampshade is arranged on below described base, and covers described LED interface;

The photosurface of described switch element is not towards described base.

51. infrared remote control ceiling lights according to claim 1, is characterized in that, described lampshade is the lampshade that crystal is arranged into.

52. infrared remote control ceiling lights according to claim 46, it is characterized in that, described base edge is provided with the edge to lower convexity.

53. infrared remote control ceiling lights according to claim 52, is characterized in that, the position of described infrared receiver component, between described edge bottom and the fixed position of LED interface.