CN207118017U - Sensing lamp - Google Patents

Abstract

The utility model provides a kind of sensing lamp, including：On-off circuit, the first rectification circuit, voltage-current converter circuit, switch detection circuit, sensing detection circuit, sensor and LED illuminating circuits.Wherein, the power supply of one end connection sensing lamp of on-off circuit, the other end of on-off circuit connects one end of the first rectification circuit, one end of other end connection voltage-current converter circuit and one end of switch detection circuit of first rectification circuit, the other end connection sensing detection circuit of switch detection circuit；Sensing detection state of the circuit by switch detection circuit detection switch circuit, when on-off circuit is in first state, sensing detects circuit control voltages current converter circuit to LED illuminating circuit continued powers, when on-off circuit is in the second state, sensing detection circuit controls voltage-current converter circuit to be powered to LED illuminating circuits in the first preset time.Sensing lamp provided by the utility model, enrich the mode of operation of sensing lamp.

Description

Sensing lamp

Technical field

It the utility model is related to electronic technology, more particularly to a kind of sensing lamp.

Background technology

Sensing lamp is the green energy conservation illuminator of a new generation, and it is a variety of that sensing lamp includes infrared ray or microwave remote sensor etc. Working method, because it has the characteristics that stable, energy-conservation, it is widely used in commercial and industrial occasion.

In the prior art, sensing lamp controls the connection of illuminator and closing by induced signal.When sensing lamp passes through After sensor receives induced signal, sensing lamp starts to illuminate, and if sensor no longer receives sensing letter after a certain time Number, sensing lamp lighting-off.

Using prior art, sensing lamp can only be started according to the induced signal received or lighting-off function, sensing lamp Mode of operation it is more single.

Utility model content

The utility model provides a kind of sensing lamp, sensing lamp is worked under a plurality of modes of operation.

The utility model provides a kind of sensing lamp, including：On-off circuit, the first rectification circuit, voltage-current converter circuit, Switch detection circuit, sensing detection circuit, sensor and LED illuminating circuit；

One end of the on-off circuit connects the power supply of the sensing lamp, the other end connection institute of the on-off circuit State one end of the first rectification circuit, the other end of first rectification circuit connect the voltage-current converter circuit one end and One end of the switch detection circuit, the other end of the voltage-current converter circuit connects the LED illuminating circuits, described to open Close the other end connection sensing detection circuit of detection circuit, the sensor connection sensing detection circuit；

The switch detection circuit is used for the state for detecting the on-off circuit, when the on-off circuit is in first state When, the sensing detection circuit controls the voltage-current converter circuit to be opened to the LED illuminating circuits continued power when described When powered-down road is in the second state, the sensing detection circuit controls the voltage-current converter circuit in the first preset time Powered to the LED illuminating circuits.

In the embodiment of the utility model one, first rectification circuit is used for the mains for accessing the sensing lamp Electricity is converted to the direct current that the sensing lamp can use；

The voltage-current converter circuit is used to direct current being converted to low-voltage DC current voltage, the low-voltage DC Current voltage is used to power for the LED illuminating circuits；

The switch detection circuit is used for the state for detecting the on-off circuit, and the state of the on-off circuit is sent Circuit is detected to the sensing；

The sensor is used to detect the action message of extraneous people and object or the monochrome information of light.

In the embodiment of the utility model one, when the on-off circuit is in the first state, the switch detection Electric circuit inspection is in the first state to the on-off circuit, and the switch detection circuit is sent to the sensing detection circuit The status information of the on-off circuit, the signal of sensor described in the sensing detection circuits mask simultaneously control the voltage x current Change-over circuit is the LED illuminating circuits continued power；

When the on-off circuit is in second state, the switch detection circuit is detected at the on-off circuit In second state, the switch detection circuit sends the status information of the on-off circuit to the sensing detection circuit, The sensing detection circuit receives the signal of the sensor, the sensor detection it is outside whether someone or object movement or light Whether brightness is less than certain brightness, if then the sensor sends drive signal to the sensing detection circuit so that institute Stating sensing detection circuit controls the voltage-current converter circuit to be powered to the LED illuminating circuits, and after preset time period, The sensing detection circuit controls the voltage-current converter circuit to stop powering to the LED illuminating circuits, and continues to The signal that the sensor is sent.

In the embodiment of the utility model one, the switch detection circuit includes：First resistor, second resistance, the 3rd electricity Resistance, FET and the first electric capacity；

The first end of the first resistor connects first rectification circuit and the voltage-current converter circuit, and described the Second end of one resistance connects first end, the first end of first electric capacity and the grid of the FET of the 3rd resistor Pole, the first end of the second resistance connect first rectification circuit and the voltage-current converter circuit, second electricity Second end of resistance connects the drain electrode of the FET and the sensing detection circuit, described in the drain electrode connection of the FET The first end of 4th resistance and it is described sensing detection circuit, the second end of the 3rd resistor, first electric capacity the second end, Second end of the 4th resistance and the source ground of the FET；

Wherein, the switch detection circuit determines the shape of on-off circuit by detecting the drain electrode level state of FET State, when the drain electrode level of the FET is low level, it is on-state to determine the on-off circuit, when the field-effect When the drain electrode level of pipe is high level, it is off state to determine the on-off circuit.

In the embodiment of the utility model one, the on-off circuit includes：First switch, the first switch are serially connected in institute State on power supply live wire；

Or the first switch is serially connected on the power supply zero line.

In the embodiment of the utility model one, the first state is：First switch weight in the first preset time Multiple connection is led to and turns off n times, and the N is the integer more than 0；

Second state is：The first switch is repeatedly switched on and turned off M times in the second preset time, and the M is Integer more than 0.

In the embodiment of the utility model one, when the M is equal with the N, by the first switch when default It is interior to be repeatedly switched on and turn off identical number to realize that the circulating repetition of the first state and second state switches；When When the M is not equal to the N, the number for being repeatedly switched on and being switched in preset time by the first switch is simultaneously true to distinguish It is the first state or second state to need the state switched calmly.

In the embodiment of the utility model one, the sensing detection circuit includes the second electric capacity, and the of second electric capacity The first end of one end connection sensing detection circuit and the second resistance, the second end ground connection of second electric capacity, second Electric capacity is used to detect circuit power supply when on-off circuit is opened and turned off for the sensing.

In the embodiment of the utility model one, the sensor comprises at least following one kind：Infrared sensor, microwave sensing Device, sound transducer or infrared and optical sensor.

In the embodiment of the utility model one, in addition to：Second rectification circuit；

One end of second rectification circuit connects the on-off circuit, the other end connection institute of second rectification circuit State switch detection circuit；

Second rectification circuit is used to mains electricity being converted to direct current, is the switch detection circuit, sensing Detect circuit and sensor power supply.

The utility model provides a kind of sensing lamp, sensing lamp provided by the utility model, not only can in the second state root Start according to the induced signal received or lighting-off function, additionally it is possible to control voltage-current converter circuit to hold in first state Continuing to the power supply of LED illuminating circuits makes its Chang Liang, so that sensing lamp can switch different works under the control of on-off circuit Operation mode, and then the mode of operation of sensing lamp is enriched, sensing lamp is worked under a plurality of modes of operation.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, 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 creative labor is not paid Put, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the utility model sensing lamp embodiment one；

Fig. 2 is the structural representation of the utility model sensing lamp embodiment two；

Fig. 3 is the structural representation of the utility model sensing lamp embodiment three；

Fig. 4 is the structural representation of the utility model sensing lamp example IV；

Fig. 5 is the structural representation of the utility model sensing lamp embodiment five.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Term " first ", " second ", " the 3rd " in specification and claims of the present utility model and above-mentioned accompanying drawing, (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 embodiment of the present utility model described herein 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 same or analogous concept or process in some embodiments.

Fig. 1 is the structural representation of the utility model sensing lamp embodiment one.Sensing lamp as shown in Figure 1 includes：Switch Circuit 1, the first rectification circuit 2, voltage-current converter circuit 3, switch detection circuit 4, sensing detection circuit 5, sensor 6 and hair Optical diode LED illuminating circuits 7.Wherein, on-off circuit 1 one end connection sensing lamp power supply, on-off circuit 1 it is another End connection the first rectification circuit 2 one end, the first rectification circuit 2 the other end connection voltage-current converter circuit 3 one end and One end of switch detection circuit 4, the other end connection LED illuminating circuits 7 of voltage-current converter circuit 3, switch detection circuit 4 Other end connection sensing detection circuit 5, the connection sensing detection circuit 5 of sensor 6.Specifically, switch detection circuit 4 is used to detect The state of on-off circuit 1, when on-off circuit 1 is in first state, the sensing detection control voltage current converter circuit 3 of circuit 5 To the continued power of LED illuminating circuits 7, when on-off circuit 1 is in the second state, sensing detection circuit 5 is in the first preset time Interior control voltage-current converter circuit 3 is powered to LED illuminating circuits 7.

Specifically, the first rectification circuit 2 can use for the mains electricity of sensing lamp access to be converted into sensing lamp Direct current, voltage-current converter circuit 3 is used to direct current is converted into low-voltage DC current voltage lighted for LED by circuit Circuit 7 is powered.The state of the detection switch circuit 1 of switch detection circuit 4, and the state of on-off circuit 1 can be sent to sensing Detect circuit 5.Sensor 6 is used to detect the information such as the brightness of action message or light of extraneous people and object.Sensing detection electricity Road 5 can receive the information that sensor 6 and switch detection circuit 4 are sent.

When on-off circuit 1 is in first state, switch detection circuit 4 detects that on-off circuit 1 is in the first shape first State, and to sensing detection circuit 5 send on-off circuit 1 status information.The then letter of the sensing detection shield sensor 6 of circuit 5 Number, the information for coming from sensor 6 is no longer received, and control voltage current converter circuit 3 is the continued power of LED illuminating circuits 7, LED illuminating circuits 7 is constantly in the working condition lighted so that sensing lamp can under the control of on-off circuit 1 Chang Liang.Can Selection of land, after switch detection circuit 4 detects that on-off circuit 1 is not at first state, the sensing detection control voltage electric current of circuit 5 Change-over circuit 3 stops to the continued power of LED illuminating circuits 7.

When on-off circuit 1 is in the second state, switch detection circuit 4 detects that on-off circuit 1 is in the second shape first State, and to sensing detection circuit 5 send on-off circuit 1 status information.Then sensing detection circuit 5 begins preparing for receiving sensing The signal that device 6 is sent, sensor 6 detect it is outside whether someone or object movement or brightness are less than certain brightness, if It is that then sensor 6 sends drive signal to sensing detection circuit 5 so that the sensing detection control voltage current converter circuit 3 of circuit 5 Powered to LED illuminating circuits 7.After preset time period, the sensing detection control voltage current converter circuit 3 of circuit 5 stops to LED Illuminating circuit 7 is powered, and continues to prepare to receive the signal that sensor 6 is sent.

Alternatively, in the above-described embodiments, voltage-current converter circuit 3 can control different topological structures to drive LED Illuminating circuit 7.For example, topological structure can be FLYBACK structures, BUCK structures, BUCK BOOST structures, BOOST structures, SEPIC structures, FORWARD structures or HALFBRIDGE structures.

The sensing lamp that the present embodiment provides, not only can start or stop according to the induced signal received in the second state Illumination functions, additionally it is possible to control voltage-current converter circuit 3 to continue to make its normal to the power supply of LED illuminating circuits 7 in first state It is bright, so that sensing lamp can switch different mode of operations under the control of on-off circuit 1, and then enrich sensing lamp Mode of operation.

Fig. 2 is the structural representation of the utility model sensing lamp embodiment two.The sensing lamp of embodiment as shown in Figure 2 is being schemed On the basis of 1 illustrated embodiment, switch detection circuit 4 includes：First resistor 41, second resistance 42,3rd resistor 44, the 4th resistance 46th, the electric capacity 45 of FET 43 and first.Wherein, the first end of first resistor 41 connects the first rectification circuit 2 and voltage x current Change-over circuit 3, first end, the first end of the first electric capacity 45 and the field-effect of the second end connection 3rd resistor 44 of first resistor 41 The grid of pipe 43, the first end of second resistance 42 connect the first rectification circuit 2 and voltage-current converter circuit 3, second resistance 42 The second end connection FET 43 drain electrode and sensing detection circuit 5, drain electrode the 4th resistance 46 of connection of FET 43 First end and sensing detection circuit 5, the second end of 3rd resistor 44, the second end of the first electric capacity 45, the second of the 4th resistance 46 End and the source ground of FET 43.

Wherein, the state of on-off circuit makes the source level influence drain electrode level of FET 43 change, switch inspection Slowdown monitoring circuit 4 determines the state of on-off circuit 1 by detecting the drain electrode level state of FET 43.The electricity of first resistor 41, second Resistance 42, the resistance 46 of 3rd resistor 43 and the 4th are divider resistance, and the first electric capacity 45 is used for the power-on time for extending FET 43. Specifically, if on-off circuit is switch, when switching in an ON state, the input voltage of on-off circuit passes through the first rectified current Road rectification and after the partial pressure of first resistor 41 and 3rd resistor 44, voltage is supplied to the source electrode of FET 43, the voltage More than the cut-in voltage of the source electrode of FET 43, the drain voltage of FET 43 close to 0V be low level.Closed when switch is quick When disconnected, the voltage after the first rectification circuit 2 quickly reduces, and the source voltage of FET 43 is also quickly reduced to its cut-in voltage Under, then FET 43 ends, and switch detection circuit 4 detects that the drain voltage of FET 43 is high level.Then to sum up, Switch detection circuit 4 often detect within a certain period of time FET 43 drain level from low level to high level again to low electricity It is flat, or just think that the switch of on-off circuit 1 has carried out one to high level, switch detection circuit 4 again from high level to low level Secondary effective switching manipulation, i.e. switch have carried out the operation that turns on and off of one-time continuous, or have carried out continuous pass successively Disconnected and making operation.

Fig. 3 is the structural representation of the utility model sensing lamp embodiment three.Further, in embodiment illustrated in fig. 2 base On plinth, on-off circuit 1 includes：First switch 11, first switch 11 are serially connected on power supply live wire；Or first switch 11 It is serially connected on power supply zero line.Wherein, one end connection civil power input AC of first switch 11, the other end pass through the first electric capacity C1 The first rectification circuit 2 is connected with inductance L1.

Then specifically, the state of on-off circuit 1 is determined by the state of first switch 11.The state of first switch 11 can be with Including：Connect, turn off, be repeatedly switched on and turn off in preset time.

Further, in the above-described embodiments, first state is：First switch 11 is repeatedly switched in the first preset time And n times are turned off, N is the integer more than 0.Second state is：First switch 11 is repeatedly switched in the second preset time and turns off M Secondary, M is the integer more than 0.Interlude is not construed as limiting between repeating and connecting.

When M is equal with N, it is repeatedly switched on by first switch 11 in preset time and turns off identical number to realize The circulating repetition of first state and the second state switches；When M is not equal to N, repeated by first switch 11 in preset time The number connected and switched is come to distinguish and determine to need the state that switches be first state or the second state.

For example, a kind of possible implementation of the present embodiment is：First state is that first switch 11 repeated to connect in 10 seconds Lead to and turn off once, the second state is that first switch 11 was repeatedly switched on and turned off three times in 10 seconds.Especially, first it is default when Between can be equal to the second preset time, if not having to complete in preset time first switch 11 is repeatedly switched on and turned off dynamic Make, then any change does not occur for the state of sensing lamp.

Alternatively, the alternatively possible implementation of the present embodiment is：After first switch 11 is connected, sensing circuit for lamp leads to Electricity, now on-off circuit 1 is the second state.First switch 11 was continuously switched in 5 seconds and turned off three times, now on-off circuit 1 For first state.When needing on-off circuit 1 switching to the second state from first state, it is only necessary to turn off and be again switched on One switch 11, on-off circuit 1 switch to the second state from first state.

Fig. 4 is the structural representation of the utility model sensing lamp example IV.As shown in figure 4, shown in Fig. 3 shown in Fig. 4 On the basis of sensing lamp embodiment, sensing detection circuit 5 includes the second electric capacity 51, and the capacitance of the second electric capacity 51 is larger.Its In, the first end connection sensing detection circuit of the second electric capacity 51 simultaneously connects the first end of second resistance 42 by resistance 52, and second The second end ground connection of electric capacity 51.Second electric capacity 51 is used to provide longer power-on time when switch opens shut-off to maintain to sense Detect the work of circuit 5.

Further, in the various embodiments described above, sensor 6 comprises at least infrared sensor, microwave remote sensor, sound and passed One kind in sensor or infrared and optical sensor.

In addition, the first electricity connected between the rectification circuit 2 of first switch 11 and first that Fig. 3 and Fig. 4 embodiments include Hold C1, inductance L1, the output end of the first rectification circuit by inductance C2 ground connection, the first rectification circuit by resistance R2 connections to sense Detection circuit, voltage-current converter circuit by resistance R1 be grounded, voltage-current converter circuit include transformer T1 and C3 with And the diode D1 in voltage-current converter circuit is the circuit device for having existed and having applied in the sensing lamp of prior art Part and circuit structure, are repeated no more.

Fig. 5 is the structural representation of the utility model sensing lamp embodiment five.Sensing lamp as shown in Figure 5 is shown in Fig. 1 Embodiment one on the basis of, in addition to：Second rectification circuit 8.Wherein, one end connecting valve circuit of the second rectification circuit 8 1, the other end of second rectification circuit 8 connects the switch detection circuit 4.Specifically, the second rectification circuit 8 is used to feel The mains electricity for answering lamp to access is converted to the direct current that sensing lamp can use, and the electricity changed with the first rectification circuit 2 Stream is separated so that the first rectification circuit 2 is powered exclusively for the illuminating circuit on Tu Zhongshang roads, and the second rectification circuit 8 is exclusively in figure The control circuit power supply on lower road, does not interfere with each other independently of each other.

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, one of ordinary skill in the art should Understand：It can still modify to the technical scheme 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 scheme of type.

Claims (10)

1. A kind of 1. sensing lamp, it is characterised in that including：On-off circuit, the first rectification circuit, voltage-current converter circuit, switch Detect circuit, sensing detection circuit, sensor and LED illuminating circuit；

   One end of the on-off circuit connects the power supply of the sensing lamp, the other end connection of the on-off circuit described the One end of one rectification circuit, the other end of first rectification circuit connect one end of the voltage-current converter circuit and described One end of switch detection circuit, the other end of the voltage-current converter circuit connect the LED illuminating circuits, the switch inspection The other end connection sensing detection circuit of slowdown monitoring circuit, the sensor connection sensing detection circuit；

   The switch detection circuit is used for the state for detecting the on-off circuit, when the on-off circuit is in first state, The sensing detection circuit controls the voltage-current converter circuit to the LED illuminating circuits continued power, when the switch When circuit is in the second state, it is described sensing detection circuit controlled in the first preset time the voltage-current converter circuit to The LED illuminating circuits power supply.
2. 2. sensing lamp according to claim 1, it is characterised in that

   First rectification circuit can use for the mains electricity that the sensing lamp accesses to be converted into the sensing lamp Direct current；

   The voltage-current converter circuit is used to direct current being converted to low-voltage DC current voltage, the low-voltage DC piezoelectricity Flow for being powered for the LED illuminating circuits；

   The switch detection circuit is used for the state for detecting the on-off circuit, and the state of the on-off circuit is sent to institute State sensing detection circuit；

   The sensor is used to detect the action message of extraneous people and object or the monochrome information of light.
3. 3. sensing lamp according to claim 1, it is characterised in that

   When the on-off circuit is in the first state, the switch detection circuit detects that the on-off circuit is in institute First state is stated, the switch detection circuit sends the status information of the on-off circuit to the sensing detection circuit, described The signal of sensor described in sensing detection circuits mask simultaneously controls the voltage-current converter circuit to be held for the LED illuminating circuits Continuous power supply；

   When the on-off circuit is in second state, the switch detection circuit detects that the on-off circuit is in institute The second state is stated, the switch detection circuit sends the status information of the on-off circuit to the sensing detection circuit, described Sensing detection circuit receives the signal of the sensor, the sensor detection it is outside whether someone or object movement or brightness Whether certain brightness is less than, if then the sensor sends drive signal to the sensing detection circuit so that the sense Circuit, which should be detected, controls the voltage-current converter circuit to be powered to the LED illuminating circuits, and after preset time period, it is described Sensing detection circuit controls the voltage-current converter circuit to stop powering to the LED illuminating circuits, and continues to described The signal that sensor is sent.
4. 4. sensing lamp according to claim 1, it is characterised in that the switch detection circuit includes：First resistor, second Resistance, 3rd resistor, the 4th resistance, FET and the first electric capacity；

   The first end of the first resistor connects first rectification circuit and the voltage-current converter circuit, first electricity Second end of resistance connects first end, the first end of first electric capacity and the grid of the FET of the 3rd resistor, The first end of the second resistance connects first rectification circuit and the voltage-current converter circuit, the second resistance Second end connects the drain electrode of the FET and the sensing detection circuit, the drain electrode connection the described 4th of the FET The first end of resistance and the sensing detection circuit, the second end of the 3rd resistor, the second end, described of first electric capacity Second end of the 4th resistance and the source ground of the FET；

   Wherein, the switch detection circuit determines the state of on-off circuit by detecting the drain electrode level state of FET, when When the drain electrode level of the FET is low level, it is on-state to determine the on-off circuit, when the FET When the level that drains is high level, it is off state to determine the on-off circuit.
5. 5. sensing lamp according to claim 4, it is characterised in that the on-off circuit includes：First switch, described first Switch is serially connected on the power supply live wire；

   Or the first switch is serially connected on the power supply zero line.
6. 6. sensing lamp according to claim 5, it is characterised in that the first state is：The first switch is first It is repeatedly switched in preset time and turns off n times, the N is the integer more than 0；

   Second state is：The first switch is repeatedly switched on and turned off M times in the second preset time, and the M is more than 0 Integer.
7. 7. sensing lamp according to claim 6, it is characterised in that when the M is equal with the N, pass through described first Switch is repeatedly switched in preset time and turns off identical number to realize following for the first state and second state Ring repeats to switch；When the M is not equal to the N, it is repeatedly switched on and is switched in preset time by the first switch Number is come to distinguish and determine to need the state that switches be the first state or second state.
8. 8. sensing lamp according to claim 4, it is characterised in that the sensing detection circuit includes the second electric capacity, described The first end connection sensing detection circuit of second electric capacity and the first end of the second resistance, the second of second electric capacity End ground connection, the second electric capacity are used to detect circuit power supply when on-off circuit is opened and turned off for the sensing.
9. 9. according to the sensing lamp described in claim any one of 1-8, it is characterised in that the sensor is comprised at least with next Kind：Infrared sensor, microwave remote sensor, sound transducer or infrared and optical sensor.
10. 10. sensing lamp according to claim 1, it is characterised in that also include：Second rectification circuit；

    One end of second rectification circuit connects the on-off circuit, is opened described in the other end connection of second rectification circuit Close detection circuit；

    Second rectification circuit is used to mains electricity being converted to direct current, is the switch detection circuit, sensing detection Circuit and sensor power supply.