CN205071359U - Integration remote control electric light and combined type electric light remote control system - Google Patents

Abstract

The utility model relates to a control field especially relates to the remote control field. Integration remote control electric light and combined type electric light remote control system, this remote control electric light includes an at least luminescent device to and one be connected to the lamp holder of power with luminescent device, and luminescent device fixes in the lamp holder top, and the lamp holder is equipped with and is used for the power access end that connects, still include an electric light remote control system, electric light remote control system includes power module, remote -control receiving module and electric light control module, and power module connects remote -control receiving module, and remote -control receiving module connects electric light control module, the power access end of lamp holder is connected to power module's power input end, electricity light control module is equipped with controllable electric power component, controllable electric power component control connection luminescent device, be equipped with at least one light emitting component among the luminescent device. Through the aforesaid design, the remote control that makes the electric light no longer needs electrician's realization of being under construction. Only need the user will unify the remote control electric light and twist and to connect on original lamp stand, can realize the remote control function of electric light.

Description

Integral remote-controlled electric light and combined type electric lamp remote-control system

Technical field

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

Background technology

Electric light, namely the artificial lighting apparatus of the energy is made in electricity consumption, and electric energy conversion is luminous energy by electric light, is mankind's illumination at night or darkroom.Since electric light utility model, it has promoted the development of the mankind greatly.Realize now the design of electric light remote control, often installing remote switch in electric light supply line.Particularly often at light switch place installing remote switch.Traditional electric light remote control design, all need to change lamp circuit, need electrician's implementation and operation, domestic consumer is difficult to realize easily.

Lamp holder is the primary structure of electric light.Lamp holder is the end of bulb, and be the coupling part of light source and external power supply, light source connects electricity by lamp holder, produces luminescence phenomenon.Light source body mainly comprises lamp pearl, bulb, fluorescent tube, and wherein fluorescent tube comprises again straight fluorescent tube and curved fluorescent tube.The form of light source of lamp pearl mainly LED, bulb is generally incandescent lamp, fluorescent lamp, tungsten halogen lamp etc., the fluorescent lamp that fluorescent tube is mainly common.And the place that the both sides plug of straight fluorescent tube inserts is equivalent to the effect of lamp holder, curved fluorescent tube is similar.

Utility model content

The purpose of this utility model is to provide a kind of integral remote-controlled electric light, solves above technical problem.

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

Integral remote-controlled electric light, comprises at least one luminescent device, and described luminescent device is connected to the lamp holder of power supply by one, it is characterized in that, described luminescent device is fixed on above described lamp holder, and described lamp holder is provided with the power access end for connecting power supply;

Also comprise an electric lamp remote-control system, described electric lamp remote-control system comprises power module, remote control reception module and electric light control module, and power module connects remote control reception module, remote control reception model calling electric light control module;

The power input of described power module connects the power access end of described lamp holder;

Described electric light control module is provided with controlled force device, luminescent device described in described controlled force device control connection;

At least one light-emitting component is provided with in described luminescent device;

Described electric lamp remote-control system and described luminescent device, be all fixed on lamp holder.Thus realize integration.

By above-mentioned design, the remote control of electric light is made no longer to need electrician to construct realization.Only needing user to be twisted by integral remote-controlled electric light is connected on original lamp socket, can realize the distant control function of electric light.

Lamp holder, refers to and is connected on lamp cord end, interface for bulb mounting, needs careful use.Electric light source mainly uses lamp holder, lamp socket naming method.

Lamp socket is fixed light position and the device that lamp contact is connected with power supply.

Be generally that lamp holder is fixed on lamp socket, realize connecting the power supply of bulb and fixing.

Described luminescent device can be at least one LED particle, at least one incandescent lamp filament, at least one fluorescent tube etc., can realize the device converting electrical energy into light.

Described integral remote-controlled electric light is also provided with luminescent device pedestal, and described luminescent device pedestal is arranged on above lamp holder, and described luminescent device is arranged on above described luminescent device pedestal.

The circuit of described electric lamp remote-control system is arranged on below described luminescent device pedestal.Or the circuit of described electric lamp remote-control system is arranged in described luminescent device pedestal.Realize integrative design, be convenient to assembling, preserve, transport and install.Ensure the attractive in appearance of bulb, be conducive to optimizing distribution of multiple light-emitting component, be convenient to the electric isolution of the circuit realizing light-emitting component and electric lamp remote-control system, and be conducive to system radiating.

Described integral remote-controlled electric light is also provided with a bulb shield, and described bulb shield covers described luminescent device.

Directly or be indirectly fixed with bulb shield described in above described lamp holder, the circuit of described electric lamp remote-control system and described luminescent device are fixed on the locus between described lamp holder and bulb shield.

Realize integrative design, be convenient to assembling, preserve, transport and install.

The circuit of described electric lamp remote-control system can be embedded in described lamp holder.

Described bulb shield and described lamp holder form a closed housing, and the circuit of described electric lamp remote-control system is wrapped in described closed housing together with described luminescent device.

Described closed housing, and not necessarily refers to the cavity of sealing.Allow that there is ventilation mouth, so that realize heat radiation.Why arranging closed housing, is realize integrative design, is convenient to assembling, preserves, transports and install.The damage avoided in preservation, transport, installation process simultaneously can tried one's best.

Can also be also be provided with a bulb shield seat, described bulb shield seat be fixed on above described lamp holder, and described bulb shield is fixed on above described bulb shield seat; The circuit of described electric lamp remote-control system and described luminescent device are fixed on the locus between described lamp holder and described bulb shield seat.

Less based on burner space, the reason that bulb shield is transparent, then a bulb shield seat is set, make internal components have more sufficient installing space, be beneficial to layout.And ensure appearance looks elegant.

The circuit of described electric lamp remote-control system is fixed on described bulb shield seat.

Further, the circuit of described electric lamp remote-control system is fixed on the below of described bulb shield seat, and described light-emitting component is arranged on the top of described bulb shield seat.Ensure the attractive in appearance of bulb, be conducive to optimizing distribution of multiple light-emitting component, be convenient to the electric isolution of the circuit realizing light-emitting component and electric lamp remote-control system, and be conducive to system radiating.

Described remote control reception module can adopt wireless remote control receiver module.Described wireless remote control receiver module is provided with antenna, and described antenna is exposed at outside integral remote-controlled electric light.Can be arranged on outside lamp holder, outside bulb shield, outside bulb shield seat, or outside luminescent device pedestal.So that reception wireless signal.

Described wireless remote control receiver module is provided with antenna, and described antenna is exposed at inside integral remote-controlled electric light.Can be arranged in bulb shield, in bulb shield seat, or in luminescent device pedestal.To ensure the clean and tidy, attractive in appearance of outside.And bulb shield, bulb shield seat, or luminescent device pedestal is nonmetal structure.And then avoid wireless signal to block.

Concrete, wireless remote control receiver module can be 2.4G wireless receiving module.

Concrete, wireless remote control receiver module is not the Internet radio receiver module.Especially, wireless remote control receiver module is not wifi module.

Described remote control reception module can adopt infrared remote control receiver module.

Described infrared remote control receiver module comprises one for receiving the light-sensitive element of remote signal, and described light-sensitive element can be photodiode, phototriode or infrared receiving terminal.

Described light-sensitive element is preferably infrared receiving terminal.Infrared receiving circuit is integrated in an element by producer usually, becomes integrated infrared receiving terminal.Internal circuit often comprises infrared diode, amplifier, amplitude limiter, band pass filter, integrating circuit, comparator etc.Adopt infrared receiving terminal, be conducive to simplifying other peripheral circuit structures.

Adopt infrared remote control system, although in remote control distance and remote signal block, relative to wireless remote-control system, be all in a disadvantageous position, fail safe is had the advantage.

The light receiving surface of the reception light of described light-sensitive element, is arranged on outside integral remote-controlled electric light.Can be arranged on outside lamp holder, outside bulb shield, outside bulb shield seat, or outside luminescent device pedestal.So that reception infrared remote-controlled signal.

Described light-sensitive element inside integral remote-controlled electric light, and arranges the light transmission mechanism making extraneous light therethrough.Described light-sensitive element can be arranged in bulb shield, in bulb shield seat, or in luminescent device pedestal.To ensure the clean and tidy, attractive in appearance of outside.And bulb shield, bulb shield seat, or luminescent device pedestal arranges light transmission mechanism.Or bulb shield, bulb shield seat, or luminescent device pedestal is made up of light transmissive material, and itself is as light transmission mechanism.And then avoid blocking infrared remote-controlled signal.

Described light transmission mechanism, is provided with the diffusing structure making light produce scattering.The light be irradiated on light transmission mechanism is made to produce scattering.

Diffusing structure can be able to appear with light, but cannot see the concrete profile of article behind clearly is as the criterion.That is, diffusing structure is that a light can appear, but cannot see the translucent construction of the concrete profile of article behind clearly.

Diffusing structure can be densely covered with short grained structure.As frosted layer, fluorescence coating, soot layer etc.

Diffusing structure can be translucent structure.Can be such as skin of paint, ceramic layer, translucent plastic film etc.

Be preferably, described light-sensitive element is arranged in described bulb shield, and bulb shield is provided with the diffusing structure making light produce scattering.The Infrared for remote control be irradiated on bulb shield is made to produce scattering.

Described light transmission mechanism is preferably a closed surface structure.Be conducive to the screening and the enhancing that realize infrared remote-controlled signal.

The outside of closed surface structure is diffusing structure, and inner side is shiny surface, and described light-sensitive element is positioned at described closed surface inner space.To the infrared remote-controlled signal being transmitted into closed surface, reflect, be convenient to light-sensitive element and receive.Realize screening and the enhancing of infrared remote-controlled signal.

Closed surface structure can be the square tube etc. of the closed surface structure of upper and lower opening, the cylindrical structure of such as upper and lower opening, the conically shaped of upper and lower opening, upper and lower opening.Upper shed or under shed can be closed with non-diffusing structure.

Described light transmission mechanism is preferably a concave structure.Be conducive to the screening and the enhancing that realize infrared remote-controlled signal.

Concave structure can be such as a paraboloid structure.It can also be the cube structure etc. of the opening in top.

Described electric lamp remote-control system also comprises a microprocessor system, and is provided with at least two remote control reception modules, and a remote control reception module is wireless remote control receiver module, and another remote control reception module is infrared remote control receiver module;

Described wireless remote control receiver module is connected the signal input part of described microprocessor system respectively with described infrared remote control receiver module.

The signal output part of described microprocessor system, connects described electric light control module.

Thus realize the superposition of two kinds of distant control functions.

Described microprocessor system will receive the useful signal of infrared remote control receiver module, is considered as the condition of the control signal accepting wireless remote control receiver module.

Described microprocessor system, after receiving the effective infrared remote-controlled signal from infrared remote control receiver module, just allows the remote signal accepting wireless remote control receiver module.

Otherwise wireless remote control receiver module is in non operating state.Or even if wireless remote control receiver module is in running order, microprocessor system is also considered as the invalidating signal received.

Start wireless remote control by infrared remote control, people must be had in control procedure in the same space, first send infrared remote-controlled signal, just allow to carry out other and control.

Relative to traditional wireless remote control, people can be avoided maliciously to send wireless remote control signals a long way off and to have carried out malice control.

Relative to traditional infrared remote control, because superposed wireless remote control, so more remote information can be added; Need not in whole control procedure, make remote controller towards controlled plant always, provide conveniently for user uses, and carry out action control for remote controller or gesture control provides technical conditions.

Described microprocessor system connects described electric light control module.Realize the control to electric light control module, and then control the luminous situation of light-emitting component.

Described electric light control module is the electric light control module with switching function.

Further, described electric light control module is have the electric light control module regulating light intensity.

Described electric light control module is output current constant current, the electric light control module that output voltage is controlled.So that control LED brightness.

The controlled force device of described electric light control module is relay.By control relay, and then control light-emitting component.

The controlled force device of described electric light control module is at least two relays, and the controlled end of one of them relay is in series with resistance.Thus by controlling to connect different relays, realize different brightness.

Described electric light control module can also be an electric light control module with toning function, and described luminescent device is the luminescent device with toning function.

Combined type remote controller, comprises a remote controller control circuit, it is characterized in that:

Remote controller control circuit is provided with microprocessor system, and a signal output part of described microprocessor system directly or is indirectly connected with infrarede emitting diode;

One signal output part of described microprocessor system, direct or indirect is connected with a wireless remote control transmitter module.

Make a remote controller can send out infrared remote-controlled signal and wireless remote control signals respectively.

Described microprocessor system, for first launching infrared remote-controlled signal, the microprocessor system of rear transmitting wireless remote control signals.

So that first start integral remote-controlled electric light with infrared remote-controlled signal, or the wireless remote control of other controlled plants receives, and then implements wireless remote control.By above-mentioned design, allow within the scope of wireless signal remote control, the consistent integral remote-controlled electric light of numerous remote control code or other controlled plants are set, and remote control can not be caused chaotic.There is good fail safe.To avoid producing remote control confusion, and adapt to the operating habit of people.

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 0.2cm 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 directivity.

Described infrarede emitting diode is greater than 1cm apart from 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.

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

More preferably, described shell is only provided with 1 button.

More preferably, button is not set.Convenient to make user operate, avoid keypress function to learn.

The microprocessor system of described remote controller control circuit is connected with a vibrating sensor system, microprocessor system 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 pass through vibration triggers microprocessor system.

The microprocessor system of described remote controller control circuit is connected with a touch sensing system.Microprocessor system 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 pass through to touch triggers microprocessor system.Touch sensing system can perception whether someone holds equipment.

The microprocessor system of described remote controller control circuit is connected with vibrating sensor system and a touch sensing system.Just triggers microprocessor systems radiate remote signal when simultaneously obtaining the signal of vibrating sensor system and touch sensing system.

Described vibrating sensor system adopts metal column vibroswitch.

Described metal column vibroswitch 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, described microprocessor system is connected with angular transducer system.To respond to angle change.

Further, described microprocessor system is connected with inclination sensor system.To respond to tilt variation.

Further, described microprocessor system is connected with acceleration sensor system.Induction acceleration changes.

Further, described microprocessor system is connected with electronic compass.To respond to direction change.

Further, described microprocessor system is connected with proximity transducer system.With the change of sense object distance.Particularly respond to the distance change of staff.Proximity transducer system is preferably active infra-red proximity transducer system.

Further, the microprocessor system of remote controller control circuit 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.

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

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

Described touch sensing system is provided with at least two touch signal induction end.For induction at least two zones of different touch sensibles.

The first compound control mode:

Described microprocessor system connects touch sensing system and vibrating sensor system.Be preferably described touch sensing system and be provided with at least two touch signal induction end.

The second compound control mode:

Described microprocessor system connects touch sensing system and acceleration sensor system.Preferably connect a vibrating sensor system again.

The third compound control mode:

Described microprocessor system connects vibrating sensor system and acceleration sensor system.Preferably connect a nearly sensing system again.

4th kind of compound control mode:

Described microprocessor system is connected with inclination sensor system described in a touch sensor system and.Preferably connect an acceleration transducer again.

Complete and whether have people's hand-held remote controller, the hand-held angle of inclination during remote controller uses how.On the basis that angle of inclination is determined, then judge the perception in accelerated motion direction, the perception of such as brandishing left, to the right, upwards, downwards.Be relatively ideal, adapt to the sensor senses collocation of the use habit of people the most.

Accompanying drawing explanation

A kind of structural representation of the integrated remote-controlled electric-lamp of Fig. 1.

Fig. 2 is a kind of electric lamp remote-control system circuit part structural representation.

The another kind of structural representation of the integrated remote-controlled electric-lamp of Fig. 3.

Fig. 4 is another kind of electric lamp remote-control system circuit part structural representation.

Fig. 5 is Combined type remote controller circuit part structural representation.

Fig. 6 is Combined type remote controller internal structure schematic diagram.

Fig. 7 is ball switch structural representation.

Embodiment

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, Fig. 2, Fig. 3, integral remote-controlled electric light, comprises at least one luminescent device 10, and the lamp holder 13 that luminescent device 10 to be connected to power supply by, and luminescent device 10 is fixed on above lamp holder 13, and lamp holder 13 is provided with the power access end for connecting power supply; Also comprise an electric lamp remote-control system, electric lamp remote-control system comprises power module 21, remote control reception module 22 and electric light control module 20, and power module 21 connects remote control reception module 22, and remote control reception module 22 connects electric light control module 20; The power input of power module 21 connects the power access end of lamp holder 13; Electric light control module 20 is provided with controlled force device, controlled force device control connection luminescent device 10; At least one light-emitting component 101 is provided with in luminescent device 10.

By above-mentioned design, the remote control of electric light is made no longer to need electrician to construct realization.Only needing user to be twisted by integral remote-controlled electric light is connected on original lamp socket, can realize the distant control function of electric light.

Controlled force device can be relay, triode, thyristor or CMOS tube etc.

Lamp holder 13, refers to and is connected on lamp cord end, interface for bulb mounting, needs careful use.Electric light source mainly uses lamp holder, lamp socket naming method.

Lamp socket is fixing bulb position and the device that the contact of lamp holder 13 (power access end) is connected with power supply.Be generally that lamp holder 13 is fixed on lamp socket, realize connecting the power supply of bulb and fixing.

Luminescent device 10 can be at least one LED particle, at least one incandescent lamp filament or at least one fluorescent tube etc., can realize the device converting electrical energy into light.

Integral remote-controlled electric light is also provided with luminescent device pedestal 12, and luminescent device pedestal 12 is arranged on above lamp holder 13, and luminescent device 10 is arranged on above luminescent device pedestal 12.Luminescent device pedestal 12 is for supporting light-emitting component 101, or adjustment light-emitting component 101 is to appropriate location.

The circuit of electric lamp remote-control system is arranged on below luminescent device pedestal 12.Or the circuit of electric lamp remote-control system is arranged in luminescent device pedestal 12.Realize integrative design, be convenient to assembling, preserve, transport and install.Ensure the attractive in appearance of bulb, be conducive to optimizing distribution of multiple light-emitting component 101, be convenient to the electric isolution of the circuit realizing light-emitting component 101 and electric lamp remote-control system, and be conducive to system radiating.

Integral remote-controlled electric light is also provided with a bulb shield 11, and bulb shield 11 covers luminescent device 10.Directly or be indirectly fixed with a bulb shield 11 above lamp holder 13, the circuit of electric lamp remote-control system and luminescent device 10 are fixed on the locus between lamp holder 13 and bulb shield 11.Realize integrative design, be convenient to assembling, preserve, transport and install.

Bulb shield 11 and lamp holder 13 form a closed housing, and the circuit of electric lamp remote-control system is wrapped in closed housing together with luminescent device 10.The circuit of electric lamp remote-control system can be embedded in lamp holder 13.

Closed housing, and not necessarily refers to the cavity of sealing.Allow that there is ventilation mouth, so that realize heat radiation.Why arranging closed housing, is realize integrative design, is convenient to assembling, preserves, transports and install.The damage avoided in preservation, transport, installation process simultaneously can tried one's best.

Can also be also be provided with a bulb shield seat 15, bulb shield seat 15 be fixed on above lamp holder 13, and bulb shield 11 is fixed on above bulb shield seat 15; The circuit of electric lamp remote-control system is fixed on bulb shield seat 15.The circuit of electric lamp remote-control system and luminescent device 10 are fixed on the locus between lamp holder 13 and bulb shield seat 15.Less based on lamp holder 13 space, the reason that bulb shield 11 is transparent, then a bulb shield seat 15 is set, make internal components have more sufficient installing space, be beneficial to layout.And ensure appearance looks elegant.

The circuit fixed position of the electric lamp remote-control system said in this patent, refers to electric lamp remote-control system circuit, or the fixed position of the circuit board of the electric lamp remote-control system circuit of carrying, so should allow the position of Individual elements, does not limit at this.Such as light-sensitive element 14, antenna, can by being drawn out to other positions, but the position not affecting whole circuit or circuit board is determined, even if not in limited fixed position, also should be considered as the protection range at this patent.

Further, the circuit of electric lamp remote-control system is fixed on the below of bulb shield seat 15, and light-emitting component 101 is arranged on the top of bulb shield seat 15.Ensure the attractive in appearance of bulb, be conducive to optimizing distribution of multiple light-emitting component 101, be convenient to the electric isolution of the circuit realizing light-emitting component 101 and electric lamp remote-control system, and be conducive to system radiating.

Remote control reception module 22 can adopt wireless remote control receiver module 221.Wireless remote control receiver module 221 is provided with antenna, and antenna is exposed at outside integral remote-controlled electric light.Can be arranged on outside lamp holder 13, outside bulb shield 11, outside bulb shield seat 15, or outside luminescent device pedestal 12.So that reception wireless signal.

Wireless remote control receiver module 221 is provided with antenna, and antenna is exposed at inside integral remote-controlled electric light.Can be arranged in bulb shield 11, in bulb shield seat 15, or in luminescent device pedestal 12.To ensure the clean and tidy, attractive in appearance of outside.And bulb shield 11, bulb shield seat 15, or luminescent device pedestal 12 is nonmetal structure.And then avoid wireless signal to block.

Concrete, wireless remote control receiver module 221 can be 2.4G wireless receiving module.Concrete, wireless remote control receiver module 221 is not the Internet radio receiver module.Especially, wireless remote control receiver module 221 is not wifi module.It should be noted that what design in the utility model is behave in dark to provide bright lamp, therefore the harm of hacker or poisoning intrusion is greater than the invasion to computer or mobile phone, needs to be strictly on guard against virus or hackers invasion.Otherwise many threats will be brought.Therefore the access control of internet has been abandoned in the utility model.

In addition, the access that internet controls, need user to carry out some to arrange, and need control software design support is installed, and this patent is exactly in order to simplify setting or the installation of user, the internet abandoning generally acknowledged advanced person controls, although limit Long-distance Control and the sequencing setting of user, but for the basic operation of user is provided convenience, and avoid virus or hackers invasion.

Remote control reception module 22 adopts infrared remote control receiver module 222.Infrared remote control receiver module 222 comprises one for receiving the light-sensitive element 14 of remote signal, and light-sensitive element 14 can be photodiode, phototriode or infrared receiving terminal.

Light-sensitive element 14 is preferably infrared receiving terminal.Infrared receiving circuit is integrated in an element by producer usually, becomes integrated infrared receiving terminal.Internal circuit often comprises infrared diode, amplifier, amplitude limiter, band pass filter, integrating circuit, comparator etc.Adopt infrared receiving terminal, be conducive to simplifying other peripheral circuit structures.

When adopting wireless remote control, as long as there is people to crack remote control code, powerful reflector can be adopted to realize malice remote control from So Far Away.Generate a panic to user.But employing infrared remote control, remote control distance can shorten a lot, and the equipment implementing remote control is in the visual line of sight of user, and therefore the possibility of malice remote control enforcement is very little.Adopt infrared remote control, although in remote control distance and remote signal block, relative to wireless remote control, be all in a disadvantageous position, fail safe is had the advantage.

The light receiving surface of the reception light of light-sensitive element 14, is arranged on outside integral remote-controlled electric light.Can be arranged on outside lamp holder 13, outside bulb shield 11, outside bulb shield seat 15, or outside luminescent device pedestal 12.So that reception infrared remote-controlled signal.

Or light-sensitive element 14 inside integral remote-controlled electric light, and arranges the light transmission mechanism making extraneous light therethrough.Light-sensitive element 14 can be arranged in bulb shield 11, in bulb shield seat 15, or in luminescent device pedestal 12.To ensure the clean and tidy, attractive in appearance of outside.And bulb shield 11, bulb shield seat 15, or luminescent device pedestal 12 arranges light transmission mechanism.Or bulb shield 11, bulb shield seat 15, or luminescent device pedestal 12 is made up of light transmissive material, and itself is as light transmission mechanism.And then avoid blocking infrared remote-controlled signal.Light transmission mechanism, is provided with the diffusing structure making light produce scattering.The light be irradiated on light transmission mechanism is made to produce scattering.

Thus make the infrared remote-controlled signal of direct irradiation on bulb shield 11, can enter comparatively smoothly, and through once or other Infrared of being irradiated on bulb shield 11 of multiple reflections greatly weaken.Therefore Infrared screening can be realized.Do not implement the infrared remote-controlled signal of remote control towards bulb shield 11, be difficult to play teleaction, thus avoid misoperation.In permission the same space, multiple remote controlled lantern is set, and does not interfere with each other during remote control.Solve infrared remote control in the same space, same remote control code time, the technical barrier of remote control cannot be carried out one to one.

The selection of diffusing structure, can be able to appear with light, but cannot see the concrete profile of article behind clearly is as the criterion.That is, diffusing structure is that a light can appear, but cannot see the translucent construction of the concrete profile of article behind clearly.The standard that light can appear is, 1 tile red UV light-emitting diode, at least 1 meter of distance front illuminated, can make the infrared receiving terminal at the diffusing structure back side effectively photosensitive.

Diffusing structure can be densely covered with short grained structure.As frosted layer, fluorescence coating, soot layer etc.Diffusing structure can also be translucent structure.Can be such as skin of paint, ceramic layer, translucent plastic film etc.

Be preferably, light-sensitive element 14 is arranged in bulb shield 11, and bulb shield 11 is provided with the diffusing structure making light produce scattering.The Infrared for remote control be irradiated on bulb shield 11 is made to produce scattering.

Thus make the Infrared of front illuminated on bulb shield 11, can enter comparatively smoothly, and through once or the Infrared that is irradiated on bulb shield 11 of multiple reflections greatly weaken.Therefore the screening of remote control Infrared can be realized.Do not implement the infrared light light of remote control towards bulb shield 11, be difficult to play teleaction, thus avoid misoperation.

Test shows, in the incident ratio of the infrared remote-controlled signal that diffusing structure comes for diffuse reflection, is far smaller than the infrared remote-controlled signal on the low diffusing structure surface of direct irradiation.The infrared remote-controlled signal on direct irradiation low diffusing structure surface has better remote control effect.Nearly all infrared remote-controlled signal come through diffuse reflection, all through diffusing structure, cannot reach the luminous intensity realizing remote control.And then cannot remote control be realized.

Light transmission mechanism is preferably a closed surface structure.Be conducive to the screening and the enhancing that realize infrared remote-controlled signal.The outside of closed surface structure is diffusing structure, and inner side is shiny surface, and light-sensitive element 14 is positioned at closed surface inner space.To the infrared remote-controlled signal being transmitted into closed surface, reflect, be convenient to light-sensitive element 14 and receive.Realize screening and the enhancing of infrared remote-controlled signal.

Closed surface structure can be the square tube etc. of the closed surface structure of upper and lower opening, the cylindrical structure of such as upper and lower opening, the conically shaped of upper and lower opening, upper and lower opening.Upper shed or under shed can be closed with non-diffusing structure.

Light transmission mechanism can also be preferably a concave structure.Be conducive to the screening and the enhancing that realize infrared remote-controlled signal.Concave structure can be such as a paraboloid structure, spherical structure.It can also be the cube structure etc. of the opening in top.

With reference to Fig. 4, electric lamp remote-control system also comprises a microprocessor system 223, and to be provided with at least two remote control reception modules 22, remote control reception module 22 be wireless remote control receiver module 221, another remote control reception module 22 is infrared remote control receiver module 222; Wireless remote control receiver module 221 is connected the signal input part of microprocessor system 223 respectively with infrared remote control receiver module 222, the signal output part of microprocessor system 223, connects electric light control module 20.Microprocessor system 223 will receive the useful signal of infrared remote control receiver module 222, is considered as the condition of the control signal accepting wireless remote control receiver module 221.Thus realize the superposition of two kinds of distant control functions.

Microprocessor system 223, after receiving the effective infrared remote-controlled signal from infrared remote control receiver module 222, just allows the remote signal accepting wireless remote control receiver module 221.Otherwise wireless remote control receiver module 221 is in non operating state.Or even if wireless remote control receiver module 221 is in running order, microprocessor system 223 is also considered as the invalidating signal received.

Start wireless remote control by infrared remote control, people must be had in control procedure in the same space, first send infrared remote-controlled signal, just allow to carry out other and control.Relative to traditional wireless remote control, people can be avoided maliciously to send wireless remote control signals a long way off and to have carried out malice control.

Relative to traditional infrared remote control, because superposed wireless remote control, so more remote information can be added; Need not in whole control procedure, make remote controller towards controlled plant always, provide conveniently for user uses, and carry out action control for remote controller or gesture control provides technical conditions.

Microprocessor system 223, after receiving effective infrared remote-controlled signal, accepts the control signal from wireless remote control receiver module 221, after exceeding setting-up time, then no longer accepts in a setting-up time.The mode no longer accepted can be direct not reception control signal, or reception control signal, but not accepting control signal controls.

Setting-up time, can be arranged on and be not more than 20 seconds.To avoid user slow because operating, and causing remote control not complete, the overlong time because allowing wireless remote control can be avoided again, and cause misoperation or set apart to malicious operation.

Further, setting-up time can be arranged on and be less than 10 seconds.Test shows, this parameter can adapt to the use habit of most users.

Further, setting-up time can be arranged on and be less than 5 seconds.Test shows, this parameter can adapt to the use habit of most users, has good fail safe simultaneously.

By above-mentioned design, allow within the scope of wireless signal remote control, the integral remote-controlled electric light that numerous remote control code is consistent is set, and remote control can not be caused chaotic.Therefore producer can produce the consistent product of remote control code in batches, again for avoiding remote control chaotic, and need not produce the different product of numerous remote control code.A large amount of production cost, classification warehouse cost, classification cost of transportation can be saved, wait cost.

In addition, because remote control code allows consistent, so numerous integral remote-controlled electric light, only a remote controller is needed.Each integral remote-controlled electric light is no longer needed to be equipped with remote controller separately.Large-tonnage product cost can be saved.And because a large amount of remote controller need not be stored again, also need not find remote controller corresponding especially, greatly can improve for Consumer's Experience brings.

Microprocessor system 223 connects electric light control module 20.Realize the control to electric light control module 20, and then control the luminous situation of light-emitting component 101.Electric light control module 20 can for having the electric light control module 20 of switching function.

Further, electric light control module 20 is for having the electric light control module 20 regulating light intensity.Electric light control module 20 is output current constant current, the electric light control module 20 that output voltage is controlled.So that control LED brightness.The controlled force device of electric light control module 20 is relay.By control relay, and then control light-emitting component 101.Or the controlled force device of electric light control module 20 is at least two relays, and the controlled end of one of them relay is in series with resistance.Thus by controlling to connect different relays, realize different brightness.

Electric light control module 20 can also be an electric light control module 20 with toning function, and luminescent device 10 is for having the luminescent device 10 of toning function.

With reference to Fig. 5, Fig. 6, Combined type remote controller, comprise a remote controller control circuit 32, remote controller control circuit 32 is provided with microprocessor system 33, and a signal output part of microprocessor system 33 directly or is indirectly connected with infrarede emitting diode 31; One signal output part of microprocessor system 33, direct or indirect is connected with a wireless remote control transmitter module 34.Make a remote controller can send out infrared remote-controlled signal and wireless remote control signals respectively.

Microprocessor system 33 is set as, first launches infrared remote-controlled signal, rear transmitting wireless remote control signals.So that first start integral remote-controlled electric light with infrared remote-controlled signal, or the wireless remote control of other controlled plants receives, and then implements wireless remote control.By above-mentioned design, allow within the scope of wireless signal remote control, the consistent integral remote-controlled electric light of numerous remote control code or other controlled plants are set, and remote control can not be caused chaotic.And there is good fail safe.Arrange and successively launch, transmitting wireless remote control signals is launched with last, the interval longer time, can effectively avoid twice straighforward operation to obscure.

Microprocessor system 33, after transmitting infrared remote-controlled signal, excites wireless remote control transmitter module 34 to launch wireless remote control signals under allowing a setting-up time internal satisfaction to excite the condition of wireless remote control transmitter module 34.After more than a setting-up time, even if meet under other excite the condition of wireless remote control transmitter module 34, do not excite wireless remote control transmitter module 34 yet, do not launch wireless remote control signals.To avoid producing remote control confusion, and adapt to the operating habit of people.

The time starting point account form of setting-up time can start to drive infrarede emitting diode 31 to launch the time of infrared remote-controlled signal for microprocessor system 33, and terminating point is that microprocessor system 33 receives and acknowledges receipt of and meets when exciting the condition of wireless remote control transmitter module 34.The setting-up time said in this patent is a kind of time objectively responded.Be not limited to the setting-up time value between two timing nodes referring to write in microprocessor system 33 program.Write in microprocessor system 33 program, the starting point and ending point calculating setting-up time also can use other nodes.But finally cause, meet setting-up time parameter in this patent, namely think and meet the time that this patent objectively responds, also should at this patent protection range.

Setting-up time can be 3 ~ 20 seconds.Or setting-up time is for being less than 10 seconds.Or be set smaller than 5 seconds.

Setting-up time, can be arranged on 3 ~ 20 seconds.To avoid user slow because operating, and causing remote control not complete, the overlong time because allowing wireless remote control can be avoided again, and cause misoperation.Be specially adapted to old man and child.

Further, setting-up time can be arranged on and be less than 10 seconds.Test shows, this parameter can adapt to the use habit of most users.

Further, setting-up time can be arranged on and be less than 5 seconds.Test shows, this parameter can adapt to the use habit of most users, has the Consumer's Experience sense of better anti-misoperation performance and Geng Jia simultaneously.The combination of some remote control commands can be completed fast.

Infrarede emitting diode 31 is positioned at a cavity, and cavity is provided with cavity wall and optical transmission window 41, and cavity wall adopts the cavity wall of shading.Infrarede emitting diode 31 is greater than 0.2cm apart from optical transmission window 41, is less than 10cm.Infrarede emitting diode 31 front is provided with plus lens 42.By above-mentioned design, the light that infrarede emitting diode 31 can be made to send, by after plus lens 42, penetrates from optical transmission window 41, has certain directivity.

Infrarede emitting diode 31 is greater than 1cm apart from outside optical transmission window 41, is less than 10cm.So that realize collimate light.More preferably, infrarede emitting diode 31 is greater than 1.5cm apart from one side outside optical transmission window 41, is less than 5cm.Optical transmission window 41 is provided with plus lens 42.To converge light.Infrarede emitting diode 31 rear is provided with concave mirror.To converge light.

Plus lens 42 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.More preferably, plus lens 42 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.

Combined type remote controller is provided with a shell 40, shell 40 is less than 4 buttons.More preferably, shell 40 is only provided with 1 button.More preferably, button is not set.Convenient to make user operate, avoid keypress function to learn.

The microprocessor system 33 of remote controller control circuit 32 is connected with a vibrating sensor system 36, microprocessor system 33 is provided with a control signal input, vibrating sensor system 36 is provided with an induced signal output, and control signal input connects induced signal output.To pass through vibration triggers microprocessor system 33.

The various sensing systems of indication in this patent are that various finger transducer increases necessary peripheral support circuit.Such as can there be one or more in voltage comparator circuit, filter circuit, voltage stabilizing circuit etc.With stable output, effective induced signal.

The microprocessor system 33 of remote controller control circuit 32 is connected with a touch sensing system 35.Microprocessor system 33 is provided with a control signal input, and touch sensing system 35 is provided with an induced signal output, and control signal input connects induced signal output.To pass through to touch triggers microprocessor system 33.Touch sensing system 35 can perception whether someone holds equipment.Touch sensible point can extend on shell 40.So that perception.

The microprocessor system 33 of remote controller control circuit 32 is connected with a vibrating sensor system 36 and touch sensing system 35.When obtaining the signal of vibrating sensor system 36 and touch sensing system 35, just triggers microprocessor system 33 launches remote signal simultaneously.

Vibrating sensor system 36 adopts metal column vibroswitch.Metal column vibroswitch 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 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 36 can also more preferably spring vibrating sensor.Relative to metal column vibroswitch system, there is the advantage that induction sensitivity is not subject to placed angle impact.

Further, microprocessor system 33 is connected with angular transducer system.To respond to angle change.

Further, microprocessor system 33 is connected with inclination sensor system 37.To respond to tilt variation.Inclination sensor system 37 can adopt ball switch.

Further, microprocessor system 33 is connected with acceleration sensor system.Change with induction acceleration.

Further, microprocessor system 33 is connected with proximity transducer system.With the change of sense object distance.Particularly respond to the distance change of staff.Proximity transducer system is preferably active infra-red proximity transducer system.

Further, microprocessor system 33 is connected with electronic compass.To respond to direction, or direction change.

Further, the microprocessor system 33 of remote controller control circuit 32 is connected with touch sensing system 35, angular transducer system simultaneously.Obtain the signal of angular transducer system and touch sensing system 35 simultaneously, different according to the signal of angular transducer system, different with the signal of touch sensing system 35, send different remote signals.And then realize when without button, realize abundant signal and export.

Further, the microprocessor system 33 of remote controller control circuit 32 is connected with touch sensing system 35, inclination sensor system 37 simultaneously.Obtain the signal of inclination sensor system 37 and touch sensing system 35 simultaneously, different according to the signal of inclination sensor system 37, different with the signal of touch sensing system 35, send different remote signals.And then realize when without button, realize abundant signal and export.

Further, the microprocessor system 33 of remote controller control circuit 32 is connected with touch sensing system 35, acceleration sensor system simultaneously.Obtain the signal of acceleration sensor system and touch sensing system 35 simultaneously, different according to the signal of acceleration sensor system, different with the signal of touch sensing system 35, send different remote signals.And then realize when without button, realize abundant signal and export.

Touch sensing system 35 is provided with at least two touch signal induction end.For induction at least two zones of different touch sensibles.At least two touch signal induction end are touched the precedence of generation as control command by microprocessing systems, excite remote signal.Such as two touch signal induction end are respectively A, B, and triggering the order occurred is B after first A, and microprocessing systems is considered as a control command, excites a remote signal; Triggering the order occurred is A after first B, and microprocessing systems is considered as another different control command, excites another remote signal.Thus realize complicated control command, and then realize complicated remote signal output.

Compound control mode, more preferably:

After microprocessor system 33 at least receives the vibration signal of vibrating sensor, send infrared remote-controlled signal by infrarede emitting diode 31; Detect the signal of other transducers again, according to the signal of other transducers, coupling wireless remote control code, and send wireless remote control signals by wireless remote control transmitter module 34.Thus the combined type realizing infrared remote-controlled signal and wireless remote control signals sends, and realizes compound control to controlled plant.

The first compound control mode:

Microprocessor system 33 is receiving the useful signal of touch sensing system 35, sends infrared remote-controlled signal by infrarede emitting diode 31.Touch sensing system 35 is provided with at least two touch signal induction end, when microprocessor system 33 receives the touch signal successively triggering two touch signal induction end again, sends wireless remote control signals by wireless remote control transmitter module 34.Priority is triggered the combination of different touch signal induction end, as different control commands by microprocessing systems.Send different wireless remote control signals.

Such as, two touch signal induction end are respectively A, B, and triggering the order occurred is B after first A, and microprocessing systems is considered as the control command that a light strengthens, and excite a light to strengthen remote signal; Triggering the order occurred is A after first B, and microprocessing systems is considered as the control command that a light weakens, and excites a light to weaken remote signal.

Also be provided with an inclination sensor system 37, proximity transducer system, or an acceleration sensor system.Again or angular transducer system.Microprocessor system 33 is further by the induced signal of touch sensing system 35, with inclination sensor system 37, angular transducer system, proximity transducer system, or in an acceleration sensor system wherein at least one induced signal superposition after, as control command.Export to realize more complicated control command.

The second compound control mode:

Microprocessor system 33, after the useful signal receiving touch sensing system 35, sends infrared remote-controlled signal by infrarede emitting diode 31.The signal input part of microprocessor system 33 also connects acceleration sensor system, when the acceleration direction of acceleration sensor system induction is different, is sent, send different wireless remote control signals by wireless remote control transmitter module 34.

Or the signal input part of microprocessor system 33 also connects acceleration sensor system, different in the acceleration change of acceleration sensor system induction, sent by wireless remote control transmitter module 34, send different wireless remote control signals.

Such as initial is accelerate left, is then changed to downward acceleration, sends a kind of wireless remote control signals.Initial is downward acceleration, is then changed to and accelerates to the right, send another kind of wireless remote control signals.

Also be provided with an inclination sensor system 37, proximity transducer system, or an acceleration sensor system.Or connection angle sensing system again.The induced signal of microprocessor system 33 degree of will speed up sensing system further, with inclination sensor system 37, angular transducer system, or after induced signal superposition of one of them in a vibrating sensor, as control command.Export to realize more complicated control command.

The third compound control mode:

Microprocessor system 33, after receiving the useful signal of vibrating sensor, sends infrared remote-controlled signal by infrarede emitting diode 31.The signal input part of microprocessor system 33 also connects acceleration sensor system, when the acceleration direction of acceleration sensor system induction is different, is sent, send different wireless remote control signals by wireless remote control transmitter module 34.

Or the signal input part of microprocessor system 33 also connects acceleration sensor system, different in the acceleration change of acceleration sensor system induction, sent by wireless remote control transmitter module 34, send different wireless remote control signals.

Such as initial is accelerate left, is then changed to downward acceleration, sends a kind of wireless remote control signals.Initial is downward acceleration, is then changed to and accelerates to the right, send another kind of wireless remote control signals.

Also comprise touch sensing system 35, touch sensing system 35 is provided with at least two touch signal induction end, when microprocessor system 33 receives the touch signal successively triggering two touch signal induction end again, send wireless remote control signals by wireless remote control transmitter module 34.

Priority is triggered the combination of different touch signal induction end, as different control commands by microprocessing systems.Send different wireless remote control signals.Such as, two touch signal induction end are respectively A, B, and triggering the order occurred is B after first A, and microprocessing systems is considered as the control command that a light strengthens, and excite a light to strengthen remote signal; Triggering the order occurred is A after first B, and microprocessing systems is considered as the control command that a light weakens, and excites a light to weaken remote signal.

Also be provided with an inclination sensor system 37, or proximity transducer system.Or connection angle sensing system again.The induced signal of microprocessor system 33 degree of will speed up sensing system further, with inclination sensor system 37, angular transducer system, or after induced signal superposition of one of them in a touch sensing system 35, as control command.Export to realize more complicated control command.

4th kind of compound control mode:

Microprocessor system 33 is receiving the useful signal of touch sensing system 35, and after receiving the useful signal of vibrating sensor, sends infrared remote-controlled signal by infrarede emitting diode 31.Touch sensing system 35 is provided with at least two touch signal induction end, when microprocessor system 33 receives the touch signal successively triggering two touch signal induction end again, sends wireless remote control signals by wireless remote control transmitter module 34.

Priority is triggered the combination of different touch signal induction end, as different control commands by microprocessing systems.Send different wireless remote control signals.

Such as, two touch signal induction end are respectively A, B, and triggering the order occurred is B after first A, and microprocessing systems is considered as the control command that a light strengthens, and excite a light to strengthen remote signal; Triggering the order occurred is A after first B, and microprocessing systems is considered as the control command that a light weakens, and excites a light to weaken remote signal.

Microprocessor system 33 is also connected with an inclination sensor system 37, and when the induced signal that inclination sensor system 37 exports is different, excite touch sensing system 35, the control command produced is different.Send different wireless remote control signals.

Such as, be inclined upwardly, and when exciting two touch signal induction end A, B successively, what send is the wireless remote control signals increasing or reduce television sound volume.

Such as, keep flat, and when exciting two touch signal induction end A, B successively, what send is the wireless remote control signals increasing or reduce TV station number.

Microprocessor system 33 can also be connected with proximity transducer system, or an acceleration sensor system.Or connection angle sensing system again.Microprocessor system 33 is further by the induced signal of touch sensing system 35, with inclination sensor system 37, angular transducer system, proximity transducer system, or after the induced signal superposition of wherein at least one or two kinds in an acceleration sensor system, as control command.Export to realize more complicated control command.

Microprocessor system is connected with a touch sensor system and an inclination sensor system.Preferably connect an acceleration transducer again.

Complete and whether have people's hand-held remote controller, the hand-held angle of inclination during remote controller uses how.On the basis that angle of inclination is determined, then judge the perception in accelerated motion direction, the perception of such as brandishing left, to the right, upwards, downwards.Be relatively ideal, adapt to the sensor senses collocation of the use habit of people the most.

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 specification 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 (107)

1. integral remote-controlled electric light, comprises at least one luminescent device, and described luminescent device is connected to the lamp holder of power supply by one, it is characterized in that, described luminescent device is fixed on above described lamp holder,

Described lamp holder is provided with the power access end for connecting power supply;

Also comprise an electric lamp remote-control system, described electric lamp remote-control system comprises power module, remote control reception module and electric light control module, and power module connects remote control reception module, remote control reception model calling electric light control module;

The power input of described power module connects the power access end of described lamp holder;

Described electric light control module is provided with controlled force device, luminescent device described in described controlled force device control connection;

At least one light-emitting component is provided with in described luminescent device.

2. integral remote-controlled electric light according to claim 1, is characterized in that, described electric lamp remote-control system and described luminescent device, be all fixed on lamp holder.

3. integral remote-controlled electric light according to claim 1, is characterized in that, controlled force device is relay, triode, thyristor or CMOS tube.

4. integral remote-controlled electric light according to claim 1, is characterized in that, lamp holder, refers to and is connected on lamp cord end, interface for bulb mounting.

5. integral remote-controlled electric light according to claim 1, is characterized in that, lamp holder is fixed on lamp socket;

Lamp socket is fixed light position and the device that lamp contact is connected with power supply.

6. integral remote-controlled electric light according to claim 1, is characterized in that, described luminescent device is the device that can realize converting electrical energy into light.

7. integral remote-controlled electric light according to claim 6, is characterized in that, described luminescent device is at least one LED particle, at least one incandescent lamp filament or at least one fluorescent tube.

8. integral remote-controlled electric light according to claim 1, is characterized in that, described integral remote-controlled electric light is also provided with luminescent device pedestal, and described luminescent device pedestal is arranged on above lamp holder, and described luminescent device is arranged on above described luminescent device pedestal.

9. integral remote-controlled electric light according to claim 8, is characterized in that, the circuit of described electric lamp remote-control system is arranged on below described luminescent device pedestal.

10. integral remote-controlled electric light according to claim 8, is characterized in that, the circuit of described electric lamp remote-control system is arranged in described luminescent device pedestal.

11. integral remote-controlled electric lights according to claim 1, is characterized in that, described integral remote-controlled electric light is also provided with a bulb shield, and described bulb shield covers described luminescent device.

12. integral remote-controlled electric lights according to claim 11, it is characterized in that, directly or be indirectly fixed with bulb shield described in above described lamp holder, the circuit of described electric lamp remote-control system and described luminescent device are fixed on the locus between described lamp holder and bulb shield.

13. integral remote-controlled electric lights according to claim 1, is characterized in that, the circuit of described electric lamp remote-control system is embedded in described lamp holder.

14. integral remote-controlled electric lights according to claim 12, it is characterized in that, described bulb shield and described lamp holder form a closed housing, the circuit of described electric lamp remote-control system is wrapped in described closed housing together with described luminescent device.

15. integral remote-controlled electric lights according to claim 14, it is characterized in that, the circuit of electric lamp remote-control system is embedded in lamp holder.

16. integral remote-controlled electric lights according to claim 14, it is characterized in that, described closed housing, and not necessarily refer to the cavity of sealing, allow to have ventilation mouth.

17. integral remote-controlled electric lights according to claim 12, is characterized in that, are also provided with a bulb shield seat, and described bulb shield seat is fixed on above described lamp holder, and described bulb shield is fixed on above described bulb shield seat; The circuit of described electric lamp remote-control system and described luminescent device are fixed on the locus between described lamp holder and described bulb shield seat.

18. integral remote-controlled electric lights according to claim 17, is characterized in that, the circuit of described electric lamp remote-control system is fixed on described bulb shield seat.

19. integral remote-controlled electric lights according to claim 17, is characterized in that, the circuit of described electric lamp remote-control system is fixed on the below of described bulb shield seat, and described light-emitting component is arranged on the top of described bulb shield seat.

20. integral remote-controlled electric lights according to claim 1, is characterized in that, described remote control reception module adopts wireless remote control receiver module.

21. integral remote-controlled electric lights according to claim 20, is characterized in that, described wireless remote control receiver module is provided with antenna, and described antenna is exposed at outside integral remote-controlled electric light.

22. integral remote-controlled electric lights according to claim 20, is characterized in that, described wireless remote control receiver module is provided with antenna, and described antenna is exposed at inside integral remote-controlled electric light.

23. integral remote-controlled electric lights according to claim 22, is characterized in that, are positioned at the bulb shield outside described luminescent device, bulb shield seat, or luminescent device pedestal is nonmetal structure.

24. integral remote-controlled electric lights according to claim 20, is characterized in that, wireless remote control receiver module is 2.4G wireless receiving module.

25. integral remote-controlled electric lights according to claim 20, is characterized in that, described remote control reception module adopts infrared remote control receiver module.

26. integral remote-controlled electric lights according to claim 25, is characterized in that, described infrared remote control receiver module comprises one for receiving the light-sensitive element of remote signal.

27. integral remote-controlled electric lights according to claim 26, is characterized in that, described light-sensitive element is photodiode, phototriode or infrared receiving terminal.

28. integral remote-controlled electric lights according to claim 27, it is characterized in that, described infrared receiving terminal comprises infrared diode, amplifier, amplitude limiter, band pass filter, integrating circuit and comparator.

29. integral remote-controlled electric lights according to claim 26, is characterized in that, the light receiving surface of the reception light of described light-sensitive element, is arranged on outside integral remote-controlled electric light.

30. integral remote-controlled electric lights according to claim 26, is characterized in that, described light-sensitive element inside integral remote-controlled electric light, and arranges the light transmission mechanism making extraneous light therethrough.

31. integral remote-controlled electric lights according to claim 20, is characterized in that, be positioned at the bulb shield outside described luminescent device, bulb shield seat, or luminescent device pedestal arrange light transmission mechanism,

Or be positioned at the bulb shield outside described luminescent device, bulb shield seat, or luminescent device pedestal is made up of light transmissive material, itself is as light transmission mechanism.

32. integral remote-controlled electric lights according to claim 31, is characterized in that, described light transmission mechanism, are provided with the diffusing structure making light produce scattering.

33. integral remote-controlled electric lights according to claim 26, is characterized in that, described integral remote-controlled electric light is also provided with a bulb shield, and described bulb shield covers described luminescent device,

Described light-sensitive element is arranged in described bulb shield, and bulb shield is provided with the diffusing structure making light produce scattering.

34. integral remote-controlled electric lights according to claim 30, is characterized in that, described light transmission mechanism is a closed surface structure.

35. integral remote-controlled electric lights according to claim 34, is characterized in that, the outside of closed surface structure is diffusing structure, and inner side is shiny surface, and described light-sensitive element is positioned at described closed surface inner space.

36. integral remote-controlled electric lights according to claim 34, is characterized in that, closed surface structure is the closed surface structure of upper and lower opening.

37. integral remote-controlled electric lights according to claim 36, is characterized in that, closed surface structure is the square tube of the cylindrical structure of upper and lower opening, the conically shaped of upper and lower opening or upper and lower opening.

38. integral remote-controlled electric lights according to claim 36, is characterized in that, upper shed or the non-diffusing structure of under shed are closed.

39. integral remote-controlled electric lights according to claim 30, is characterized in that, described light transmission mechanism is a concave structure.

40., according to integral remote-controlled electric light according to claim 39, is characterized in that, concave structure, are a paraboloid structure or spherical structure.

41., according to integral remote-controlled electric light according to claim 39, is characterized in that, concave structure, are the cube structures of the opening in top.

42. integral remote-controlled electric lights according to claim 32,33 or 35, it is characterized in that, diffusing structure is that a light can appear, but cannot see the translucent construction of the concrete profile of article behind clearly.

43. integral remote-controlled electric lights according to claim 42, is characterized in that, the standard that light can appear is, 1 tile red UV light-emitting diode, at least 1 meter of distance front illuminated, can make the infrared receiving terminal at the diffusing structure back side effectively photosensitive.

44. integral remote-controlled electric lights according to claim 42, is characterized in that, diffusing structure is densely covered with short grained structure.

45. integral remote-controlled electric lights according to claim 44, is characterized in that, diffusing structure be provided with frosted layer, fluorescence coating and or the structure of soot layer.

46. integral remote-controlled electric lights according to claim 42, is characterized in that, diffusing structure is translucent structure.

47. integral remote-controlled electric lights according to claim 46, is characterized in that, diffusing structure be provided with skin of paint, ceramic layer and or the translucent structure of translucent plastic film.

48. according to the integral remote-controlled electric light in claim 1-41 described in any one, it is characterized in that, described electric lamp remote-control system also comprises a microprocessor system, and be provided with at least two remote control reception modules, a remote control reception module is wireless remote control receiver module, and another remote control reception module is infrared remote control receiver module;

Described wireless remote control receiver module is connected the signal input part of described microprocessor system respectively with described infrared remote control receiver module.

49. integral remote-controlled electric lights according to claim 48, is characterized in that, the signal output part of described microprocessor system, connect described electric light control module.

50. integral remote-controlled electric lights according to claim 48, is characterized in that, described microprocessor system will receive the useful signal of infrared remote control receiver module, is considered as the condition of the control signal accepting wireless remote control receiver module.

51. integral remote-controlled electric lights according to claim 48, is characterized in that, described microprocessor system, after receiving the effective infrared remote-controlled signal from infrared remote control receiver module, just allows the remote signal accepting wireless remote control receiver module;

Otherwise wireless remote control receiver module is in non operating state, or even if wireless remote control receiver module is in running order, microprocessor system is also considered as the invalidating signal received.

52. integral remote-controlled electric lights according to claim 48, it is characterized in that, microprocessor system, after receiving effective infrared remote-controlled signal, accepts the control signal from wireless remote control receiver module in a setting-up time, after exceeding setting-up time, then no longer accept.

53. integral remote-controlled electric lights according to claim 52, it is characterized in that, setting-up time is not more than 20 seconds.

54. integral remote-controlled electric lights according to claim 53, it is characterized in that, setting-up time is less than 10 seconds.

55. integral remote-controlled electric lights according to claim 54, it is characterized in that, setting-up time is less than 5 seconds.

56., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, electric light control module is the electric light control module with switching function.

57., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, electric light control module is have the electric light control module regulating light intensity.

58., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, electric light control module, are output current constant current, the electric light control module that output voltage is controlled.

59., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, the controlled force device of electric light control module is relay.

60., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, the controlled force device of electric light control module is at least two relays, and the controlled end of one of them relay is in series with resistance.

61., according to the integral remote-controlled electric light in claim 1-41 described in any one, is characterized in that, electric light control module is an electric light control module with toning function, and luminescent device is the luminescent device with toning function.

62. combined type electric lamp remote-control systems, comprise an electric light, one and the supporting remote controller of electric light, it is characterized in that, the integrated remote-controlled electric-lamp of described electric light, described remote controller is Combined type remote controller;

Described integral remote-controlled electric light comprises at least one luminescent device, and described luminescent device is connected to the lamp holder of power supply by one, it is characterized in that, described luminescent device is fixed on above described lamp holder,

Described lamp holder is provided with the power access end for connecting power supply;

Also comprise an electric lamp remote-control system, described electric lamp remote-control system comprises power module, remote control reception module and electric light control module, and power module connects remote control reception module, remote control reception model calling electric light control module;

The power input of described power module connects the power access end of described lamp holder;

Described electric light control module is provided with controlled force device, luminescent device described in described controlled force device control connection;

At least one light-emitting component is provided with in described luminescent device;

Described Combined type remote controller comprises a remote controller control circuit, and remote controller control circuit is provided with microprocessor system, and a signal output part of described microprocessor system directly or is indirectly connected with infrarede emitting diode;

One signal output part of described microprocessor system, direct or indirect is connected with a wireless remote control transmitter module.

63. combined type electric lamp remote-control systems according to claim 62, is characterized in that, described microprocessor system, for first launching infrared remote-controlled signal, and the microprocessor system of rear transmitting wireless remote control signals.

64. combined type electric lamp remote-control systems according to claim 63, it is characterized in that, microprocessor system, after transmitting infrared remote-controlled signal, excites wireless remote control transmitter module to launch wireless remote control signals under allowing a setting-up time internal satisfaction to excite the condition of wireless remote control transmitter module;

After more than a setting-up time, even if meet under other excite the condition of wireless remote control transmitter module, do not excite wireless remote control transmitter module yet, do not launch wireless remote control signals.

65. combined type electric lamp remote-control systems according to claim 64, is characterized in that, setting-up time is for being less than 10 seconds.

66. combined type electric lamp remote-control systems according to claim 65, is characterized in that, setting-up time is for being less than 5 seconds.

67. combined type electric lamp remote-control systems according to claim 64, is characterized in that, setting-up time is 3 ~ 20 seconds.

68. combined type electric lamp remote-control systems according to claim 62, it is characterized in that, 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.

69. combined type electric lamp remote-control systems according to claim 68, it is characterized in that, described infrarede emitting diode is greater than 0.2cm apart from described optical transmission window, is less than 10cm.

70. combined type electric lamp remote-control systems according to claim 68, is characterized in that, described infrarede emitting diode front is provided with plus lens.

71. combined type electric lamp remote-control systems according to claim 68, it is characterized in that, described infrarede emitting diode is greater than 1cm apart from outside described optical transmission window, is less than 10cm.

72., according to the combined type electric lamp remote-control system described in claim 71, 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.

73. combined type electric lamp remote-control systems according to claim 68, it is characterized in that, described optical transmission window is provided with plus lens.

74. combined type electric lamp remote-control systems according to claim 68, is characterized in that, described infrarede emitting diode rear is provided with concave mirror.

75. combined type electric lamp remote-control systems according to claim 70 or 73, it 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.

76., according to the combined type electric lamp remote-control system described in claim 75, is characterized in that, the length of described ring body is less than 3cm.

77. combined type electric lamp remote-control systems according to claim 70 or 73, it 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.

78., according to the combined type electric lamp remote-control system described in claim 77, is characterized in that, the length of described body is less than 6cm.

79., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, Combined type remote controller is provided with a shell, described shell are less than 4 buttons.

80., according to the combined type electric lamp remote-control system described in claim 79, is characterized in that, described shell are only provided with 1 button.

81., according to the combined type electric lamp remote-control system described in claim 79, is characterized in that, described shell does not arrange button.

82. according to the combined type electric lamp remote-control system in claim 62-74 described in any one, it is characterized in that, the microprocessor system of described remote controller control circuit is connected with a vibrating sensor system, microprocessor system 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.

83. according to the combined type electric lamp remote-control system in claim 62-74 described in any one, it is characterized in that, the microprocessor system of described remote controller control circuit is connected with a touch sensing system, microprocessor system is provided with a control signal input, described touch sensing system is provided with an induced signal output, and described control signal input connects described induced signal output.

84. combined type electric lamp remote-control systems according to Claim 8 described in 3, it is characterized in that, touch sensible point extends on the shell of Combined type remote controller.

85., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, the microprocessor system of described remote controller control circuit is connected with vibrating sensor system and a touch sensing system.

86. combined type electric lamp remote-control systems according to Claim 8 described in 5, it is characterized in that, just triggers microprocessor systems radiate remote signal when the microprocessor system of described remote controller control circuit obtains the signal of vibrating sensor system and touch sensing system simultaneously.

87. combined type electric lamp remote-control systems according to Claim 8 described in 2, is characterized in that, described vibrating sensor system adopts metal column vibroswitch.

88. combined type electric lamp remote-control systems according to Claim 8 described in 7, it is characterized in that, described metal column vibroswitch 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.

89. combined type electric lamp remote-control systems according to Claim 8 described in 8, it is characterized in that, the length of described metal column is greater than 5mm, is less than 20mm.

90. combined type electric lamp remote-control systems according to Claim 8 described in 2, it is characterized in that, vibrating sensor system is spring vibrating sensor.

91., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with angular transducer system.

92., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with inclination sensor system.

93., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with acceleration sensor system.

94., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with electronic compass.

95., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with proximity transducer system.

96., according to the combined type electric lamp remote-control system described in claim 95, is characterized in that, proximity transducer system is active infra-red proximity transducer system.

97., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, the microprocessor system of remote controller control circuit is connected with touch sensing system, angular transducer system simultaneously.

98. according to the combined type electric lamp remote-control system described in claim 97, it is characterized in that, the microprocessor system of remote controller control circuit obtains 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.

99., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, the microprocessor system of remote controller control circuit is connected with touch sensing system, inclination sensor system simultaneously.

100. according to the combined type electric lamp remote-control system described in claim 99, it is characterized in that, the microprocessor system of remote controller control circuit obtains the signal of inclination sensor system and touch sensing system simultaneously, different according to the signal of inclination sensor system, different with the signal of touch sensing system, send different remote signals.

101., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, the microprocessor system of system remote-controller control circuit is connected with touch sensing system, acceleration sensor system simultaneously.

102. according to the combined type electric lamp remote-control system described in claim 101, it is characterized in that, the microprocessor system of remote controller control circuit obtains the signal of acceleration sensor system and touch sensing system simultaneously, different according to the signal of acceleration sensor system, different with the signal of touch sensing system, send different remote signals.

103. combined type electric lamp remote-control systems according to Claim 8 described in 3, it is characterized in that, described touch sensing system is provided with at least two touch signal induction end.

104., according to the combined type electric lamp remote-control system described in claim 103, is characterized in that, at least two touch signal induction end are touched the precedence of generation as control command by microprocessing systems, excite remote signal.

105., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system connects touch sensing system and acceleration sensor system, then connects a vibrating sensor system.

106., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system connects vibrating sensor system and acceleration sensor system, then connects a nearly sensing system.

107., according to the combined type electric lamp remote-control system in claim 62-74 described in any one, is characterized in that, described microprocessor system is connected with inclination sensor system described in a touch sensor system and, then connects an acceleration transducer.