CN207298454U - Induction type light bulb - Google Patents

Abstract

The utility model provides a kind of induction type light bulb, including：Shell mechanism, optics cover, printing opacity cover and first vector, event sensor circuit and brightness impression circuit in the shell mechanism；The event sensor circuit is used for detecting in induction range whether trigger event occurs；The brightness impression circuit is used for the brightness for detecting induction range；The optics cover is arranged on the first openend for external light extraction of the shell mechanism, and the first side of the first vector is towards first openend；The printing opacity cover is covered on the first side of the first vector, and to form a cavity between the printing opacity cover and the first vector, the event sensor circuit and brightness impression circuit are arranged on the first side of the first vector, and in the cavity.

Description

Induction type light bulb

Technical field

It the utility model is related to lighting area, more particularly to a kind of induction type light bulb.

Background technology

Illumination is that the measure of work and life area or item is illuminated using various light sources.Light bulb, it can be understood as A kind of device for realizing illumination functions.In existing correlation technique, since daytime need not be illuminated, nobody when without being shone It is bright, in the case of these, if light bulb remains work, the waste of electric energy can be caused, reduce the service life of light bulb.

In existing correlation technique, human body sensor or photosensitive sensors can be configured outside light bulb, and then according to The energization of the actuated signal control light bulb of human body sensor or photosensitive sensors, to realize that the sensing of light bulb controls.

However, in existing program, human body sensor or photosensitive sensors, outside light bulb, when more changing the bulb, The connection circuit of corresponding adjustment light bulb and sensor is also needed, assembling is very inconvenient with replacing.

Utility model content

The utility model provides a kind of induction type light bulb, to solve the problems, such as assembling with replacing inconvenience.

First aspect according to the present utility model, there is provided a kind of induction type light bulb, including：Shell mechanism, optics cover, Printing opacity cover and first vector, event sensor circuit and brightness impression circuit in the shell mechanism；

The event sensor circuit is used for detecting in induction range whether trigger event occurs；The brightness impression circuit is used In the brightness of detection induction range；

The optics cover is arranged on the first openend for external light extraction of the shell mechanism, the first vector First side is towards first openend；

The printing opacity cover is covered on the first side of the first vector, to be carried in the printing opacity cover and described first A cavity is formed between body, the event sensor circuit and brightness impression circuit are arranged on the first side of the first vector, and In the cavity.

Optionally, the light bulb, further includes：Light emitting module, control module in the shell mechanism and shine Drive module, the control module connect the luminous drive module；The light emitting module connects the luminous drive module, institute State event sensor circuit and the brightness impression circuit is all connected with the control module；

The event sensor circuit, is additionally operable to produce simultaneously when detecting and the trigger event occurring in the induction range The first trigger signal is sent to the control module；

The brightness impression circuit, is additionally operable to produce when the brightness detected is less than threshold value and send out to the control module Send the second trigger signal；

The control module, for according to first trigger signal and second trigger signal, to the luminous drive Dynamic model block sends control signal；

The luminous drive module, for according to the control signal, driving the light emitting module to shine.

Optionally, the light bulb, further includes：Second support in the shell mechanism, the Second support For first side towards first openend, the first vector is arranged at the first side of the Second support, described to shine Module is arranged on the first side of the Second support, and is distributed in the periphery of the first vector.

Optionally, the light bulb, further includes：The 3rd carrier in the shell mechanism, the control module and The drive module that shines is arranged on the 3rd carrier；3rd carrier is plugged in the Second support, and causes the control mould Block and luminous drive module are in the side opposite with the first side of the Second support.

Optionally, mesoporous is equipped among the Second support, the 3rd carrier is arranged in the mesoporous of the Second support.

Optionally, connected between the first vector and the 3rd carrier by the first connection line conduction, so that：It is described Event sensor circuit and the brightness impression circuit can connect the control module, institute by the described first connection line conduction State and connected between Second support and the 3rd carrier by the second connection line conduction, so that：The light emitting module can pass through The second connection line conduction connects the luminous drive module.

Optionally, the light bulb, further includes：Delay in the shell mechanism sets circuit and arranged on described outer The setting component on shell structure surface, the delay set circuit to connect the control module；

The delay sets circuit, and for sending delayed electric signal to the control module, the delayed electric signal is root Determined according to the setting operation for setting component；

The control module is additionally operable to, before the control signal is sent to the luminous drive module, according to described The parameter value of delayed electric signal, postpones the corresponding time.

Optionally, the delay sets circuit to include rheostat, and described rheostatic one end is grounded, described in other end connection One input terminal of control module, the parameter value of the delayed electric signal are determined according to the rheostatic resistance value；It is described Rheostatic resistance value is to set what operation determined according to described.

Optionally, the light bulb, further includes the power supply module in the lamp design, the power supply module difference Connection event sensor circuit, brightness impression circuit, control module and luminous drive module, the power supply module are used for external electrical The electricity suppl in source is to event sensor circuit, brightness impression circuit, control module and luminous drive module.

The event sensor circuit includes at least one of：

Infrared sensor；

Microwave remote sensor；

Sound transducer.

Optionally, the printing opacity cover is equipped with buckle, and the first vector is equipped with bayonet, and the printing opacity cover passes through described Buckle is fastened and connected in the first vector with the bayonet.

Optionally, the center of the optics cover is equipped with through hole, and the printing opacity cover extends described through the through hole The outside of optics cover.

Induction type light bulb provided by the utility model, by the event sensor circuit be used to detecting in induction range whether The brightness of trigger event, the brightness impression circuit for detecting induction range, and event sensor circuit and brightness impression occurs Answer circuit to be arranged in the shell mechanism, event sensor circuit and brightness impression circuit are integrated in light bulb, replace and fill Timing only needs integral replacing light bulb, and assembling is convenient with replacing.

Meanwhile the first side of the first vector is also covered on by the printing opacity cover, with the printing opacity cover A cavity is formed between the first vector, and the event sensor circuit and brightness impression circuit are arranged on described first and carry The first side of body, and in the cavity, the common placement of event sensor circuit and brightness impression circuit is realized, effectively Space is saved, and due to both common placements, has made homogeneity, the specific aim higher of its detection range.

Brief description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property Put, other attached drawings can also be obtained according to these attached drawings.

Fig. 1 is the structure diagram one of one induction type light bulb of the utility model；

Fig. 2 is the circuit module schematic diagram one of one induction type light bulb of the utility model；

Fig. 3 is the structure diagram two of one induction type light bulb of the utility model；

Fig. 4 is the circuit module schematic diagram two of one induction type light bulb of the utility model；

Fig. 5 is the circuit diagram of one induction type light bulb of the utility model；

Fig. 6 is the structure diagram three of one induction type light bulb of the utility model；

Fig. 7 is the structure diagram four of one induction type light bulb of the utility model.

Description of reference numerals：

11- shell mechanisms；

12- optics covers；

13- printing opacity covers；

131- is buckled；

14- first vectors；

141- bayonets；

15- Second supports；

The 3rd carriers of 16-；

17- lamp caps；

18- sets component；

21- event sensor circuits；

22- brightness impression circuits

23- control modules；

24- shines drive module；

25- light emitting modules；

26- delays set circuit；

27- power supply modules；

U0- external power supplies；

U1- rectification circuits；

U2- voltage-current converter circuits；

U3- microprocessors；

U4-LED illuminating circuits；

The first capacitances of C1-；

The second capacitances of C2-；

The 3rd capacitances of C3-；

The 4th capacitances of C4-；

R1- first resistors；

R2- second resistances；

The first diodes of D1-；

The first inductance of T1-；

Z1- zener diodes；

The first rheostats of RT-；

RS- photosensitive sensors；

PIR- infrared sensors.

Embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work All other embodiments obtained, shall fall within the protection scope of the present invention.

Term " first " in the specification and claims of the utility model and above-mentioned attached drawing, " second ", " the 3rd " (if present)s such as " the 4 " is for distinguishing similar object, without for describing specific order or precedence.Should The data that the understanding so uses can exchange in the appropriate case, so as to the utility model described herein embodiment for example It can be implemented with the order in addition to those for illustrating or describing herein.In addition, term " comprising " and " having " and he Any deformation, it is intended that cover it is non-exclusive include, for example, contain the process of series of steps or unit, method, System, product or equipment are not necessarily limited to those steps clearly listed or unit, but may include what is do not listed clearly Or for the intrinsic other steps of these processes, method, product or equipment or unit.

The technical solution of the utility model is described in detail with specifically embodiment below.These are specific below Embodiment can be combined with each other, and may be repeated no more for the same or similar concept or process in some embodiments.

Fig. 1 is the structure diagram one of one induction type light bulb of the utility model；Please refer to Fig.1, the light bulb, including： Shell mechanism 11, optics cover 12, printing opacity cover 13 and first vector 14, event in the shell mechanism 11 sense Circuit 21 and brightness impression circuit 22.

The event sensor circuit 21, for detecting in induction range whether trigger event occurs；Trigger event therein, It can be understood as the event of someone or thing activity in induction range.

The brightness impression circuit 22, for detecting the brightness of induction range.

The optics cover 12 is arranged on the first openend for external light extraction of the shell mechanism 11, and described first carries The first side of body 14 is towards first openend.Please refer to Fig.1, the first openend is appreciated that the upper end in Fig. 1.

The printing opacity cover 13 is covered on the first side of the first vector 14, with the printing opacity cover 13 with it is described A cavity is formed between first vector 14, the event sensor circuit 21 and brightness impression circuit 22 are arranged on the first vector 14 First side, and in the cavity.

Optics cover 12 can be the cover of any achievable printing opacity with printing opacity cover 13, such as can use lens, in order to Easy to the output and distribution of light, optics cover 12 further can also be adjusted the shape and construction of lens.

Induction type light bulb provided by the utility model, is for detecting in induction range by the event sensor circuit 21 The no brightness that trigger event, the brightness impression circuit 22 occurs for detecting induction range, and 21 He of event sensor circuit Brightness impression circuit 22 is arranged in the shell mechanism 11, and event sensor circuit 21 and brightness impression circuit 22 are integrated in lamp In bubble, replace with only needing integral replacing light bulb during assembling, assembling is convenient with replacing.

Meanwhile the first side of the first vector 14 is also covered on by the printing opacity cover 13, with the printing opacity A cavity is formed between cover 13 and the first vector 14, and the event sensor circuit 21 and brightness impression circuit 22 are all provided with In the first side of the first vector 14, and in the cavity, event sensor circuit 21 and brightness impression electricity are realized The common placement on road 22, is effectively saved space, and due to both common placements, makes homogeneity, the specific aim of its detection range Higher.

Fig. 2 is the circuit module schematic diagram one of one induction type light bulb of the utility model.

Please refer to Fig.2, in one of which embodiment, the light bulb, further includes：In the shell mechanism 11 Light emitting module 25, control module 23 and luminous drive module 24, the control module 23 connect the luminous drive module 24；Institute State light emitting module 25 and connect the luminous drive module 24, the event sensor circuit 21 and the brightness impression circuit 22 connect Connect the control module 23.

The event sensor circuit 21, is additionally operable to produce when detecting and the trigger event occurring in the induction range And send the first trigger signal to the control module 23.

The brightness impression circuit 22, is additionally operable to produce and to the control module when the brightness detected is less than threshold value 23 send the second trigger signal.

The control module 23, for according to first trigger signal and second trigger signal, shining to described Drive module 24 sends control signal.Under which, it will be appreciated that only to acquire the first trigger signal and the second trigger signal When, just send control signal.

The luminous drive module 24, for according to the control signal, driving the light emitting module 25 to shine.

, can due to only when detecting trigger event and detecting that brightness is less than threshold value, just driving light emitting module 25 to shine In the case of incorporating brightness impression circuit 22 and event sensor circuit 21 at the same time, driving is used as using trigger event and brightness Luminous necessary condition, compared to the scheme using only luminance sensor and the side using only human body sensor in the prior art Case, the utility model can more targetedly drive luminous, further save energy consumption.

Fig. 3 is the structure diagram two of one induction type light bulb of the utility model.

Please refer to Fig.3, in one of which embodiment, the light bulb, further includes：In the shell mechanism 11 Second support 15, the first side of the Second support 15 are arranged at institute towards first openend, the first vector 14 The first side of Second support 15 is stated, the light emitting module 25 is arranged on the first side of the Second support 15, and is distributed in institute State the periphery of first vector 14.

By the layout of light emitting module 25, can be influenced to avoid shining for light emitting module 25 by first vector 14, meanwhile, by It is consistent with the direction of Second support 15 in first vector 14, and first vector 14 is arranged at the first side of Second support 15, can With the space in effectively save shell mechanism 11, to make up because while incorporate event sensor circuit 21 and brightness impression circuit 22 The space hold brought.

In one of which embodiment, the light bulb, further includes：The 3rd carrier in the shell mechanism 11 16, the control module 23 and luminous drive module 24 are arranged on the 3rd carrier 16；3rd carrier 16 is plugged in described Second support 15, and cause the control module 23 and luminous drive module 24 be in the Second support 15 with described first The opposite side in side.By the grafting of the 3rd carrier 16, it can be conducive to what is connected between 15 and the 3rd carrier 16 of Second support It is firm.

In one of which embodiment, mesoporous is equipped among the Second support 15, the 3rd carrier 16 is arranged in institute State the mesoporous of Second support 15.Wherein, groove can be equipped with mesoporous, the 3rd carrier 16 is pluggable in the groove.It is keeping On the basis of consolidating connection between 15 and the 3rd carrier 16 of Second support, space can be also saved.In specific implementation process, the 3rd carrier 16 can be perpendicular to Second support 15.

Simultaneously as the 3rd carrier 16 is arranged in mesoporous, it will not then be hindered between first vector 14 by Second support 15 Every, the connection of the circuit in first vector 14 and the circuit on the 3rd carrier 16 can be conducive to, specifically, can cause connection Circuit is simpler and safe.So please refer to Fig.3, in one of which embodiment, 14 and the 3rd carrier of first vector Connected between 16 by the first connection line conduction, so that：The event sensor circuit 21 and the brightness impression circuit 22 The control module 23 can be connected by the described first connection line conduction, between 15 and the 3rd carrier 16 of Second support Connected by the second connection line conduction, so that：The light emitting module 25 can be connected by the described second connection line conduction Connect the luminous drive module 24.

In one of which embodiment, the light bulb further includes lamp cap 17, and the lamp cap 17 is arranged on the shell mechanism 11 the second openend, the circuit in light bulb can be by lamp cap 17 to external connection.In addition, the first of the shell mechanism 11 opens The opening at mouthful end is big, and available for light extraction, the opening of the second openend is small, and available for external connection, and shell mechanism 11 is along the The direction of one openend to the second openend is from large to small.Wherein, the 3rd carrier 16 can have perpendicular to the design of Second support 15 Effect adapts to the shape design of shell mechanism 11.And in order to further adapt to the shape of shell mechanism 11, and space is saved, the 3rd carries One end that the shape of body 16 may be designed as close first openend is big, small close to one end of the second openend.

In addition, first vector 14 and Second support 15 are circle, and its center of circle is in same axis after assembling.First carries Body 14, Second support 15, the 3rd carrier 16 can be arbitrary circuit board.

Fig. 4 is the circuit module schematic diagram two of one induction type light bulb of the utility model.

Please refer to Fig.4, and combine Fig. 3, the light bulb, further includes：Delay in the shell mechanism 11 is set Circuit 26 and the setting component 18 arranged on 11 surface of shell mechanism, the delay set circuit 26 to connect the control module 23。

The delay sets circuit 26, for sending delayed electric signal, the delayed electric signal to the control module 23 According to for set component 18 setting operation determine.Operation is set, it can be understood as can arbitrarily change delayed electric signal The mode of operation of parameter value.

The control module 23 is additionally operable to, before the control signal is sent to the luminous drive module 24, according to The parameter value of the delayed electric signal, postpones the corresponding time.

By postponing the design of setting circuit 26 and delayed electric signal, the Time-delayed trigger of sensing back lighting is realized, meanwhile, The time of delay can determine according to operation, and then can in time provide illumination to the user.Compared in the prior art immediately The luminous scheme of light emitting module 25 is driven, in the prior art induction zone of the illumination region of light emitting module 25 compared to sensor circuit Domain may mismatch, such as, the scope of illumination region may be too small compared to induction region, for example, in floor, due to floor Passageway has connected two floors, and induction region may cover two floors and corridor, and light emitting module 25 is mainly used for as wherein one Floor or corridor lighting, for similar in the case of, Time-delayed trigger can more targetedly trigger illumination.

Fig. 5 is the circuit diagram of one induction type light bulb of the utility model.

It refer to Fig. 5, in one of which embodiment, the delay sets circuit 26 to include rheostat RT, the variable resistance One end ground connection of device RT, the other end connect an input terminal of the control module 24, and the parameter value of the delayed electric signal is Determined according to the resistance value of the rheostat RT；The resistance value of the rheostat RT is to set what operation determined according to described.

Under the embodiment, due to the change in resistance of rheostat RT, the ginseng of the delayed electric signal to control module 23 is inputted Numerical value can change, and parameter value can be magnitude of voltage.Control module 23 is according to the numerical value change of magnitude of voltage, it may be determined that delay Time.

Operation is set, can be for any operation for setting component.Component 18 is set to include any input module, As long as delay can be caused to set the device change in circuit 26, the scope of protection of the utility model is not just departed from, specifically, setting Putting component 14 can enumerate including at least one of：Button, knob, slide button, the button in touch screen, and touch screen, rotation Button, slide button etc..Transparent window can be equipped with outside component 14 by setting, and transparent window is openable structure.The delay is set Circuits, which can connect, sets component 14, such as：Rheostatic sliding block can press key connection with sliding, to realize synchronous slip.

In specific implementation process, Fig. 5 is refer to, the control module 23 can include microprocessor U3, related control mould The description of 23 function of block can be regarded as the function description to microprocessor U3.

The light bulb can also include power supply module 27, the power supply module 27 distinguish connection event sensor circuit 21, Brightness impression circuit 22, control module 23 and luminous drive module 24, power supply module 27 are used for the electricity suppl of external power supply U0 To event sensor circuit 21, brightness impression circuit 22, control module 23 and luminous drive module 24, power supply module 27 can be also arranged on In the lamp design 13.The power supply module 1 includes rectification circuit U1, the rectification circuit U1, for by external power supply U0 AC rectification into supplied to event sensor circuit 21, brightness impression circuit 22, control module 23 and shining respectively after direct current Drive module 24.In specific implementation process, power supply module 1 may also include the first capacitance C1 and the second capacitance C2, the first capacitance C1 The input side both ends of rectification circuit U1 are parallel to, the second capacitance C2 is parallel to the both ends of the outlet side of rectification circuit U1.

In order to realize the power supply to control module 23, the light bulb can also include second resistance R2 and Voltage stabilizing module, surely Die block can include the 4th capacitance C4 and zener diode Z1, and the power supply of the power supply module 1 is after second resistance R2 partial pressures Supplied to control module 23, specifically, the first end connection power supply module 27 of second resistance R2, the first end of the 4th capacitance C4 connect The second end of second resistance R2, the second end ground connection of the 4th capacitance C4 are connect, zener diode Z1 is parallel to the 4th capacitance C4 Both ends.

In addition, the second end of second resistance R2 is also connected to event sensor circuit 1 and brightness impression circuit 2, to realize Power supply to event sensor circuit 1 and brightness impression circuit 2.

Fig. 5 is refer to, the luminous drive module 24 can include voltage-current converter circuit U2, and the voltage and current turns Circuit U 2 is changed, enters working status for receiving the control signal, and in the operating condition, according to the electricity output electricity supplied Stream, so that the light emitting module 25 shines.Voltage-current converter circuit U2, is voltage-controlled current source, passes through voltage electricity Circuit U 2 is changed in circulation, the adjustable constant-current source of the transformed suitable output of electric current, its output current can keep stablizing without It can change with the change of load.Specifically, the drive module 24 that shines can also include first resistor R1, the of first resistor R1 The output terminal of one end connection voltage-current converter circuit U2, the second end connection voltage-current converter circuit U2's of first resistor R1 Sampling end, voltage-current converter circuit U2 can be in the operating condition according to the electric defeated of the controlling of sampling output terminal of first resistor R1 Go out, to export adjustable constant-current source.

The luminous drive module 4 can also include direct-current voltage reducing circuit；The direct-current voltage reducing circuit, it is described for receiving Control signal enters working status, and in the operating condition, the electricity decompression that voltage-current converter circuit U2 is exported is described in Light emitting module 25, so that the light emitting module 25 shines.The direct-current voltage reducing circuit can be with the voltage-current converter circuit U2 shares corresponding device, and specifically, direct-current voltage reducing circuit can include controller, switching device, the first diode D1, first Inductance T1 and the 3rd capacitance C3, controller and switching device can be arranged in voltage-current converter circuit U2, so as to receive control at the same time Signal processed, into working status, the control terminal connection controller of the switching device, the source electrode connection power supply of the switching device Module 27, the second end of the first diode D1 and the first end of first resistor R1 connect the drain electrode of the switching device, The second end of the first resistor R1 connects the first end of the first inductance T1, the luminous mould of second end connection of the first inductance T1 The first end of 7 and the 3rd capacitance C3 of block, the second end ground connection of the 3rd capacitance C3.

It refer to Fig. 5, institute's event sensor circuit 21 can include infrared sensor PIR, in other alternative embodiments, also may be used Including microwave remote sensor MS or sound transducer ST.And then by the testing principle of different sensors, it can detect triggering The generation of event.In specific implementation process, the combination of infrared sensor PIR, microwave remote sensor and sound transducer also can be used To detect.I.e., it is possible to it is interpreted as：Event sensor circuit 21 can include at least one of：Infrared sensor PIR；Microwave passes Sensor；Sound transducer.

Fig. 5 is refer to, brightness impression circuit 22, can include photosensitive sensor RS, can also use any other can be achieved Photosensitive sensor.

Light emitting module 25 can include the luminous drive module 24 of LED illuminating circuits U4, LED illuminating circuit U4 one end connection, The other end is grounded, and LED illuminating circuits U4 can include the LED particle of series connection, in other optional embodiments, can also use it His device, which is realized, to shine.

Fig. 6 is the structure diagram three of one induction type light bulb of the utility model.

Fig. 6 is refer to, the center of the optics cover 12 is equipped with through hole, and the printing opacity cover 13 extends through the through hole In the outside of the optics cover 12.

Since through hole is arranged on the center of optics cover 12, printing opacity cover 13 corresponds to the center for being also arranged on optics cover 12, its Brightness impression circuit 22 therein can be caused to be in the position of 12 immediate vicinity of optics cover with event sensor circuit 21, it is existing Having in correlation technique, brightness impression circuit 22 or event sensor circuit 21 are arranged on bulb edge, its light sensed is sidelight, and this In application, sense from center, sensing result can be made sensitiveer, accurate.

Fig. 7 is the structure diagram four of one induction type light bulb of the utility model.

Fig. 7 is refer to, the printing opacity cover 13 is equipped with buckle 131, and the first vector 14 is equipped with bayonet 141, described Light shield 13 is fastened and connected in the first vector 14 by the buckle 131 with the bayonet 141.By buckle 131 with The fastening of bayonet 141, can improve the stability that printing opacity cover 13 is connected with first vector 14, and easy to disassemble, and then easy to more Change device therein.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, those of ordinary skill in the art should Understand：It can still modify the technical solution described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical solution of type.

Claims (12)

1. A kind of 1. induction type light bulb, it is characterised in that including：Shell mechanism, optics cover, printing opacity cover and arranged on described outer First vector, event sensor circuit and brightness impression circuit in shell structure；

   The event sensor circuit is used for detecting in induction range whether trigger event occurs；The brightness impression circuit is used to examine Survey the brightness of induction range；

   The optics cover be arranged on the shell mechanism the first openend for external light extraction, the first of the first vector Side is towards first openend；

   The printing opacity cover is covered on the first side of the first vector, between the printing opacity cover and the first vector A cavity is formed, the event sensor circuit and brightness impression circuit are arranged on the first side of the first vector, and are located at In the cavity.
2. 2. light bulb according to claim 1, it is characterised in that further include：Light emitting module in the shell mechanism, Control module and luminous drive module, the control module connect the luminous drive module；Described in the light emitting module connection Shine drive module, and the event sensor circuit and the brightness impression circuit are all connected with the control module；

   The event sensor circuit, is additionally operable to produce and to institute when detecting and the trigger event occurring in the induction range State control module and send the first trigger signal；

   The brightness impression circuit, is additionally operable to produce when the brightness detected is less than threshold value and sends the to the control module Two trigger signals；

   The control module, for according to first trigger signal and second trigger signal, to the luminous driving mould Block sends control signal；

   The luminous drive module, for according to the control signal, driving the light emitting module to shine.
3. 3. light bulb according to claim 2, it is characterised in that further include：Second support in the shell mechanism, The first side of the Second support is arranged at the first of the Second support towards first openend, the first vector Side, the light emitting module are arranged on the first side of the Second support, and are distributed in the periphery of the first vector.
4. 4. light bulb according to claim 3, it is characterised in that further include：The 3rd carrier in the shell mechanism, The control module and luminous drive module are arranged on the 3rd carrier；3rd carrier is plugged in the Second support, and So that the control module and luminous drive module are in the side opposite with the first side of the Second support.
5. 5. light bulb according to claim 4, it is characterised in that mesoporous is equipped among the Second support, the described 3rd carries Body is arranged in the mesoporous of the Second support.
6. 6. light bulb according to claim 5, it is characterised in that connect between the first vector and the 3rd carrier by first Link conducting connection, so that：The event sensor circuit and the brightness impression circuit can be connected by described first Line conduction connects the control module, is connected between the Second support and the 3rd carrier by the second connection line conduction, So that：The light emitting module can connect the luminous drive module by the described second connection line conduction.
7. 7. light bulb according to claim 3, it is characterised in that further include：Delay in the shell mechanism is set Circuit and the setting component arranged on the shell mechanism surface, the delay set circuit to connect the control module；

   The delay sets circuit, and for sending delayed electric signal to the control module, the delayed electric signal is according to pin The setting operation for setting component is determined；

   The control module is additionally operable to, before the control signal is sent to the luminous drive module, according to the delay The parameter value of electric signal, postpones the corresponding time.
8. 8. light bulb according to claim 7, it is characterised in that the delay sets circuit to include rheostat, the variable resistance One end of device is grounded, an input terminal of the other end connection control module, according to the parameter value of the delayed electric signal What the rheostatic resistance value determined；The rheostatic resistance value is to set what operation determined according to described.
9. 9. according to claim 1 to 8 any one of them light bulb, it is characterised in that further include in the shell mechanism Power supply module, the power supply module difference connection event sensor circuit, brightness impression circuit, control module and the driving mould that shines Block, the power supply module are used for the electricity suppl of external power supply to event sensor circuit, brightness impression circuit, control module and hair Optical drive module.
10. 10. according to claim 1 to 8 any one of them light bulb, it is characterised in that the event sensor circuit include with down toward It is one of few：

    Infrared sensor；

    Microwave remote sensor；

    Sound transducer.
11. 11. according to claim 1 to 8 any one of them light bulb, it is characterised in that the center of the optics cover is equipped with logical Hole, the printing opacity cover extend the outside of the optics cover through the through hole.
12. 12. according to claim 1 to 8 any one of them light bulb, it is characterised in that the printing opacity cover is equipped with buckle, described First vector is equipped with bayonet, and the printing opacity cover is fastened and connected in the first vector by the buckle and the bayonet.