CN201252671Y - Infrared remote-control computer detecting emergency lighting device - Google Patents

Abstract

An infrared remote-control computer detecting emergency lighting device comprises a casing, at least one lighting lamp arranged on the casing, a rechargeable battery voltage detecting circuit and a main control circuit, wherein the rechargeable battery voltage detecting circuit is formed by an analog-digital A/D conversion chip (U1) and peripheral elements thereof, the main control circuit is formed by a main control chip (U2) and peripheral elements thereof, the analog-digital A/D conversion chip (U1) converses voltage of a rechargeable battery to digital signals and provides to the main control chip (U2), and the main control chip (U2) controls a normal voltage indicating lamp (LED4) or a low voltage indicating lamp (LED3) to turn on and turn off. The infrared remote-control computer detecting emergency lighting device can monitor whether the voltage of the rechargeable battery is normal or not in real time, and can timely charge for the rechargeable battery. The infrared remote-control computer detecting emergency lighting device can monitor the working state of a lighting lamp in real time, and has the advantages of remotely controlling and detecting the working states of emergency lighting devices.

Description

The infrared remote control computer detects emergency lighting device

Technical field

The present invention relates to a kind of emergency lighting device, especially a kind of illuminating lamp that comprises, the infrared remote control computer of power supply and control circuit detects emergency lighting device.

Background technology

Emergency lighting device now has been widely used in commerce, industry and general civil buildings, and is the essential device of the building.Chinese patent by retrieval, find to exist some to disclose the patent documentation of this type of emergency lighting device, as the disclosed a kind of multifunctional emergency illuminating lamp of Chinese patent literature CN201007466, it includes a shell, this housing is provided with sensing element and illumination group, and this illumination group connection is extended with control circuit, and this illumination group is provided with a light-emitting device, this control circuit is connected with rechargeable battery and sound-producing device, and control circuit is provided with inductive switch.This kind device can throw light on when having a power failure automatically, and still, there is following several problem in this emergency light, and the one, whether the voltage that can not monitor rechargeable battery in real time is normal, can not charge to rechargeable battery in time; The 2nd, can not monitor in real time the operating state of illuminating lamp; The 3rd, can not remote control detect the operating state of emergency lighting device; The 4th, can not network with computer, carry out problems such as computer monitoring in real time.

Summary of the invention

The objective of the invention is to overcome the problems referred to above, provide a kind of voltage that can monitor rechargeable battery in real time whether normal, and can be in time detect emergency lighting device to the infrared remote control computer of rechargeable battery charging to society.

Another purpose of the utility model is: can monitor in real time the operating state of illuminating lamp.

The 3rd purpose of the utility model is: the energy remote control detects the operating state of emergency lighting device.

The 3rd purpose of the utility model is: can network with computer, carry out computer and monitor in real time.

Technical scheme of the present invention is: design a kind of infrared remote control computer and detect emergency lighting device, comprise shell, rechargeable battery in the enclosure is set, charging circuit, the illuminating lamp drive circuit, charged battery voltage testing circuit and main control circuit, and be arranged at least one piece of illuminating lamp on the shell, the input termination civil power of described charging circuit, the input of its output termination rechargeable battery, the output of the input termination rechargeable battery of described drive circuit, the input of its output termination illuminating lamp, described charged battery voltage testing circuit is made up of modulus A/D conversion chip U1 and peripheral cell thereof, described main control circuit is made up of master control chip U2 and peripheral cell thereof, described modulus A/D conversion chip U1 becomes digital signal to offer master control chip U2 the voltage transitions of rechargeable battery, and master control chip U2 control normal voltage indicator light LED4 or low pressure indicator light LED3 open or close.

The utility model also comprises the charged state control circuit, and described charged state control circuit comprises the second triode Q2, and the described second triode Q2 connects the charging circuit input anode, its grounded emitter, and its base stage connects the P1 pin of master control chip.

As to improvement of the present utility model, the utility model also comprises the illuminating lamp failure detector circuit, described illuminating lamp failure detector circuit comprises the two or four footlights lotus root and fault display lamp LED6,2, the 4 pin ground connection of described smooth lotus root, 1 pin of described smooth lotus root connects the collector electrode of the 4th triode Q4 of illuminating lamp drive circuit and the common port of fluorescent tube LAMP1 one end, and joins with the P3 pin of master control chip U2; The 4th pin of described smooth lotus root connects the positive pole of rechargeable battery and the positive pole of fault display lamp LED6, the minus earth of fault display lamp LED6.

As to further improvement of the utility model, the utility model also comprises master control infrared emission receiving circuit and hand-held remote control infrared emission receiving circuit, described master control infrared emission receiving circuit comprises the first infrared receiving tube CON1, the 3rd triode Q3 and master control infrared transmitting tube IRLED, the described first infrared receiving tube CON1 the 1st pin ground connection, the 2nd pin connects the P5 pin of master control chip U2, the 3rd pin connects 5V positive electricity and joins with the emitter of the 3rd triode Q3, the 3rd triode Q3 collector electrode connects the positive pole of master control infrared transmitting tube IRLED, the minus earth of master control infrared transmitting tube IRLED, the base stage of the 3rd triode Q3 connect the P6 pin of master control chip U2; Hand-held remote control infrared emission receiving circuit comprises the second infrared receiving tube CON2, the 6th triode Q6, hand-held remote control infrared transmitting tube TXLED and hand-held remote control control chip U4, the described second infrared receiving tube CON2 the 1st pin ground connection, the 2nd pin catcher is held the DI pin of remote control control chip U4, the 3rd pin catcher is held the anodal of remote control infrared transmitting tube TXLED and is connect positive source, the collector electrode that the negative pole of described hand-held remote control infrared transmitting tube TXLED meets the 6th triode Q6 joins, the 6th triode Q6 base stage catcher is held the data output pin DATA OUT of remote control control chip U4, its grounded emitter.

On described hand-held remote control control chip U4, also be connected to LCDs LCD DISPLAY.

As further improving to of the present utility model, the utility model also comprises the bus imput output circuit, described bus imput output circuit comprises serial port of single chip computer and the 3rd chip U3, the 3rd chip U3 is connected with master control chip U2 by serial port of single chip computer, U2 carries out exchanges data with the master control chip, described the 3rd chip U3 is connected with computer, carries out exchanges data with computer.

The utility model has the advantages that and adopt charged battery voltage testing circuit, charged state control circuit and the main control circuit structure that combines, the voltage that can realize monitoring in real time rechargeable battery is also normal, and can be in time to the purpose of rechargeable battery charging; Adopt illuminating lamp failure detector circuit and main control circuit to combine, can monitor in real time the operating state of illuminating lamp; Adopt master control infrared emission receiving circuit and hand-held remote control infrared emission receiving circuit, the energy remote control detects the operating state of emergency lighting device; Adopt the bus imput output circuit can with computer networking work.

Description of drawings

Fig. 1 is the planar structure schematic diagram of a kind of embodiment of the present utility model.

Fig. 2 is a main control circuit theory structure schematic diagram of the present utility model.

Fig. 3 is the utility model illuminating lamp testing circuit and illumination driving circuit principle schematic.

Fig. 4 is the principle schematic of hand-held remote control infrared emission receiving circuit.

Embodiment

See also Fig. 1, Fig. 1 is the planar structure schematic diagram of a kind of embodiment of the present utility model.It is that a kind of infrared remote control computer detects emergency lighting device, comprise shell 1, be arranged on rechargeable battery 2 in the shell 1, and circuit board 4, on described circuit board 4, be provided with charging circuit, illuminating lamp drive circuit, circuit such as charged battery voltage testing circuit and main control circuit, physical circuit will be described in detail in conjunction with following accompanying drawing, and is arranged on two pieces of illuminating lamps 3 on the shell 1, certainly, illuminating lamp 3 also can be located at shell 1 inside, emits beam by transparent shell header board.On the front surface of described shell 1, be provided with many status indicator lamps 5.

See also Fig. 2, Fig. 2 is a main control circuit theory structure schematic diagram of the present utility model.It comprises charging circuit 100, charged battery voltage testing circuit 140 and main control circuit 200.Described charging circuit comprises transformer TI, the rectifier bridge that constitutes by four diodes, the first triode Q1 and peripheral cell thereof are formed, its input termination civil power, the input of its output termination rechargeable battery 2, described charged battery voltage testing circuit 140 is made up of modulus A/D conversion chip U1 and peripheral cell thereof, described main control circuit 200 is made up of master control chip U2 and peripheral cell thereof, described modulus A/D conversion chip U1 becomes digital signal to offer master control chip U2 the voltage transitions of rechargeable battery 2, and master control chip U2 control normal voltage indicator light LED4 or low pressure indicator light LED3 open or close.The input (VIN) of described modulus A/D conversion chip (U1) connects the rechargeable battery positive pole, and the D0 pin of modulus A/D conversion chip (U1), CLK pin and CS pin connect DO pin, CLK pin and the CS pin of master control chip (U2) respectively; The positive pole of normal voltage indicator light (LED4) and low pressure indicator light (LED3) connects the output of power supply chip (U5), and the negative pole of normal voltage indicator light (LED4) and low pressure indicator light (LED3) connects P16 pin and the P17 pin that connects master control chip (U2) respectively; The input of the input termination charging circuit of power supply chip (U5); When the voltage of coming from modulus A/D conversion chip U1 just often, then master control chip U2 normal voltage indicator light LED4 lights, when voltage is in low pressure, then low pressure indicator light LED3 lights, the chip of master control simultaneously U2 gives rechargeable battery 2 chargings by the second triode Q2 conducting of its P1 foot control system charged state control circuit 110.Charged state control circuit 110 among the figure comprises the second triode Q2, and the described second triode Q2 connects the charging circuit input anode, its grounded emitter, and its base stage connects the P1 pin of master control chip.Chip U5 is used for to normal voltage indicator light LED4 and 5 volts of voltages of low pressure indicator light LED3 output.Also comprise bus imput output circuit 130 among the figure, described bus imput output circuit 130 comprises serial port of single chip computer and the 3rd chip U3, the 3rd chip U3 is connected with master control chip U2 by serial port of single chip computer, U2 carries out exchanges data with the master control chip, output pin A, the B of described the 3rd chip U3 can be connected with computer, carry out exchanges data with computer.

See also Fig. 3, illuminating lamp drive circuit 160 comprises the 4th triode Q4 and the 5th triode Q5 and peripheral cell among the figure, with driving illuminating lamp 3 (LAMP1, LAMP2), its input POWER connects the output of rechargeable battery respectively for they, the input of its output termination illuminating lamp.Illuminating lamp failure detector circuit 150 among the figure, comprise the circuit that two nested structures are identical, wherein the illuminating lamp failure detector circuit to the first illuminating lamp LAMP1 comprises the two or four footlights lotus root PC2 and fault display lamp LED6,2, the 4 pin ground connection of described smooth lotus root, 1 pin of described smooth lotus root connects the collector electrode of the 4th triode Q4 of illuminating lamp drive circuit and the common port of fluorescent tube LAMP1 one end, and joins with the P3 pin of master control chip U2; The 4th pin of described smooth lotus root connects the positive pole of rechargeable battery and the positive pole of fault display lamp LED6, the minus earth of fault display lamp LED6; Under the normal condition, the voltage of the output POWERB of battery is provided by rechargeable battery 2, when one of them illuminating lamp (is the example explanation with fluorescent tube LAMP1) fault, the 4th triode Q4 ends, voltage transfers to start the circuit turn-on that the light lotus root connects fault display lamp LED6, makes fault display lamp LED6 shinny, simultaneously, fluorescent tube LAMP1 operating state also is transferred to master control chip U2 by the P3 pin of master control chip U2 with fault message, further passes to computer then.Detection principle for fluorescent tube LAMP2 is identical with fluorescent tube LAMP1 detection principle, similar, and this paper does not remake deployment analysis here.Test circuit 170 among the figure comprises Test Switchboard SW-PB, the first smooth lotus root PC1 and test indicator light LED5, during test, Test Switchboard SW-PB conducting, the first smooth lotus root PC1 conducting, the 4th triode Q4 in the illuminating lamp drive circuit 160 and the 5th triode Q5 conducting, it is luminous that illuminating lamp 3 also should be, meanwhile, the test indicator light LED5 of test circuit 170 is luminous, and passes through the relevant information of the negative pole of test indicator light LED5 to the input test of the P2 of control chip U2 pin.

POWER B pin on the positive pole of the rechargeable battery 2 among the POWER B pin that second smooth lotus root among Fig. 3 and the 1st pin of the 3rd smooth lotus root are joined and Fig. 2 connects; POWER A pin on the rectifier bridge negative pole among the POWER A pin that the 1st pin of the first smooth lotus root among Fig. 3 is joined and Fig. 2 connects; P2 pin, P3 pin, the P4 pin of master control chip U2 among MCUP2 pin among Fig. 3, MCUP3 pin, MCUP4 pin and Fig. 2 connect.

See also Fig. 4 and Fig. 2, the utility model also comprises master control infrared emission receiving circuit 120 (see figure 2)s and hand-held remote control infrared emission receiving circuit 180, described master control infrared emission receiving circuit 120 comprises the first infrared receiving tube CON1, the 3rd triode Q3 and master control infrared transmitting tube IRLED, the described first infrared receiving tube CON1 the 1st pin ground connection, the 2nd pin connects the P5 pin of master control chip U2, the 3rd pin connects 5V positive electricity and joins with the emitter of the 3rd triode Q3, the 3rd triode Q3 collector electrode connects the positive pole of master control infrared transmitting tube IRLED, the minus earth of master control infrared transmitting tube IRLED, the base stage of the 3rd triode Q3 connect the P6 pin of master control chip U2; Hand-held remote control infrared emission receiving circuit 180 comprises the second infrared receiving tube CON2, the 6th triode Q6, hand-held remote control infrared transmitting tube TXLED and hand-held remote control control chip U4, the described second infrared receiving tube CON2 the 1st pin ground connection, the 2nd pin catcher is held the DI pin of remote control control chip U4, the 3rd pin catcher is held the anodal of remote control infrared transmitting tube TXLED and is connect positive source, the collector electrode that the negative pole of described hand-held remote control infrared transmitting tube TXLED meets the 6th triode Q6 joins, the 6th triode Q6 base stage catcher is held the data output pin DATA OUT of remote control control chip U4, its grounded emitter.On described hand-held remote control control chip U4, also be connected to LCDs LCD DISPLAY.

The testing staff is when detecting infrared remote control computer detection emergency lighting device, except that can from computer is normal understand, also can carry out remote control at the scene and take out related data with hand-held remote control infrared emission receiving circuit 180, when being located at eminence to exempt hot outer remote-control computer detection emergency lighting device, the hardship of staff's climbing.

Claims (5)

1, a kind of infrared remote control computer detects emergency lighting device, comprise shell, rechargeable battery in the enclosure is set, charging circuit, the illuminating lamp drive circuit, and be arranged at least one piece of illuminating lamp on the shell, the input termination civil power of described charging circuit, the input of its output termination rechargeable battery, the output of the input termination rechargeable battery of described drive circuit, the input of its output termination illuminating lamp, it is characterized in that: also comprise the charged battery voltage testing circuit, charged state control circuit and main control circuit, described charged battery voltage testing circuit is made up of modulus A/D conversion chip (U1) power supply chip (U5) and peripheral cell thereof, described main control circuit is made up of master control chip (U2) and peripheral cell thereof, the input (VIN) of described modulus A/D conversion chip (U1) connects the rechargeable battery positive pole, the D0 pin of modulus A/D conversion chip (U1), CLK pin and CS pin connect the D0 pin of master control chip (U2) respectively, CLK pin and CS pin; The positive pole of normal voltage indicator light (LED4) and low pressure indicator light (LED3) connects the output of power supply chip (U5), and the negative pole of normal voltage indicator light (LED4) and low pressure indicator light (LED3) connects P16 pin and the P17 pin that connects master control chip (U2) respectively; The input of the input termination charging circuit of power supply chip (U5); Described charged state control circuit comprises second triode (Q2), and the collector electrode of described second triode (Q2) connects the charging circuit input anode, its grounded emitter, and its base stage connects the P1 pin of master control chip (U2).

2, infrared remote control computer according to claim 1 detects emergency lighting device, it is characterized in that: also comprise the illuminating lamp failure detector circuit, described illuminating lamp failure detector circuit comprises the two or four footlights lotus root and fault display lamp (LED6), 2, the 4 pin ground connection of described smooth lotus root, 1 pin of described smooth lotus root connects the collector electrode of the 4th triode (Q4) of illuminating lamp drive circuit and the common port of fluorescent tube (LAMP1) end, and joins with the P3 pin of master control chip (U2); The 4th pin of described smooth lotus root connects the positive pole of rechargeable battery and the positive pole of fault display lamp (LED6), the minus earth of fault display lamp (LED6).

3, infrared remote control computer according to claim 2 detects emergency lighting device, it is characterized in that: also comprise master control infrared emission receiving circuit and hand-held remote control infrared emission receiving circuit, described master control infrared emission receiving circuit comprises first infrared receiving tube (CON1), the 3rd triode (Q3) and master control infrared transmitting tube (IRLED), described first infrared receiving tube (CON1) the 1st pin ground connection, the 2nd pin connects the P5 pin of master control chip (U2), the 3rd pin connects 5V positive electricity and joins with the emitter of the 3rd triode (Q3), the 3rd triode (Q3) collector electrode connects the positive pole of master control infrared transmitting tube (IRLED), the minus earth of master control infrared transmitting tube (IRLED), the base stage of the 3rd triode (Q3) connects the P6 pin of master control chip (U2); Hand-held remote control infrared emission receiving circuit comprises second infrared receiving tube (CON2), the 6th triode (Q6), hand-held remote control infrared transmitting tube (TXLED) and hand-held remote control control chip (U4), described second infrared receiving tube (CON2) the 1st pin ground connection, the 2nd pin catcher is held the DI pin of remote control control chip (U4), the 3rd pin catcher is held the anodal of remote control infrared transmitting tube (TXLED) and is connect positive source, the collector electrode that the negative pole of described hand-held remote control infrared transmitting tube (TXLED) connects the 6th triode (Q6) joins, the 6th triode (Q6) base stage catcher is held the data output pin (DATA OUT) of remote control control chip (U4), its grounded emitter.

4, infrared remote control computer according to claim 3 detects emergency lighting device, it is characterized in that: also be connected to LCDs (LCD DISPLAY) on described hand-held remote control control chip (U4).

5, infrared remote control computer according to claim 4 detects emergency lighting device, it is characterized in that: also comprise the bus imput output circuit, described bus imput output circuit comprises serial port of single chip computer and the 3rd chip (U3), the 3rd chip (U3) is connected with master control chip (U2) by serial port of single chip computer, (U2) carries out exchanges data with the master control chip, described the 3rd chip (U3) is connected with computer, carries out exchanges data with computer.

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