CN107743334A - A kind of ozone UV ultraviolet lamp control systems - Google Patents

Abstract

The invention discloses a kind of ozone UV ultraviolet lamp control systems, mainly by transformer T, integrated stable voltage circuit, diode rectifier U, triode VT1, triode VT2, triode VT3, triode VT4, unidirectional thyristor VS, adjustable resistance R5, and P poles are connected with triode VT3 colelctor electrode, N poles and polar capacitor C4 negative pole are collectively forming the composition such as diode D2 of output end of IGCT overvoltage adjustment circuit.The present invention can suppress to the instant high-voltage of input voltage; and the present invention can also be adjusted to the high voltage of input; ensure the stability of output voltage and electric current; make the ozone UV ultraviolet lamps of ultraviolet lamp air deodorization clarifier not influenceed by the high voltage and electric current that input; so as to improve the effect of overvoltage adjustment of the invention, the protecting effect to ozone UV ultraviolet lamps can be effectively improved.

Description

A kind of ozone UV ultraviolet lamp control systems

Technical field

The present invention relates to a kind of control system, is a kind of ozone UV ultraviolet lamp control systems specifically.

Background technology

With the continuous progress of industrial automation and the continuous improvement of people's quality of life, people want to its living environment Ask and also improve constantly, and air quality is an important mark of environment quality, it directly influences the healthy living of people.

Air purifier has application in house, medical treatment, industrial circle, and house field is with the domestic air purification of unit class Device is the main product in market.Air purifier can remove the particulate matter in air, including anaphylactogen, indoor PM2.5 etc., together When can also solve due to interior, the underground space, in-car volatile organic matter air pollution caused by finishing or other reasonses Problem.Due to the release of the space Air Contamination thing of relative closure have persistence and it is uncertain the characteristics of, therefore using empty It is one of method of internationally recognized improvement IAQ that gas purifier, which purifies the air of a room,.Wherein, ultraviolet lamp air Deodorization purifier is then a kind of in numerous air deodorization clarifiers, and ultraviolet lamp air deodorization clarifier is to utilize high energy ozone UV Oxygen molecule generation free oxygen in light beam decomposition air caused by ultraviolet lamp, i.e. active oxygen, and ozone UV ultraviolet lamps pair The required precision of voltage and current is higher, and operating voltage is too high or too low all to damage ozone UV ultraviolet lamps, therefore ultraviolet Just over-pressed adjustment circuit is provided with the control system of line lamp air deodorization clarifier, for preventing ozone UV ultraviolet lamps because of work It is unstable and be damaged to make voltage and current.

However, existing ultraviolet lamp air deodorization clarifier control system output voltage stability be present and overvoltage adjusts The problem of effect difference, the ozone UV ultraviolet lamps of ultraviolet lamp air deodorization clarifier are caused often to be damaged by high voltage, serious Shorten the service life of ozone UV ultraviolet lamps.

Therefore it provides one kind can improve overvoltage protection effect, and can ensures that the ultraviolet lamp of the stable voltage of output is empty The control system of gas deodorization purifier is become for the task of top priority.

The content of the invention

It is an object of the invention to overcome existing ultraviolet lamp air deodorization clarifier control system output voltage to be present The defects of stability and over-pressed Adjustment effect difference, there is provided one kind can improve overvoltage protection effect, and can ensures that output is stable Ozone UV ultraviolet lamp control systems.

The present invention is achieved through the following technical solutions：A kind of ozone UV ultraviolet lamp control systems, mainly by transformation Device T, diode rectifier U, triode VT1, triode VT2, triode VT3, triode VT4, unidirectional thyristor VS, it is serially connected in Integrated stable voltage circuit between diode rectifier U cathode output end and unidirectional thyristor VS negative electrode, positive pole and diode The polarity electricity that rectifier U cathode output end is connected, negative pole is grounded after being connected with diode rectifier U cathode output end Hold C1, the thermistor that one end is connected with polar capacitor C1 positive pole, the other end is connected with unidirectional thyristor VS anode RT, the resistance R1 that one end is connected with polar capacitor C1 positive pole, the other end is connected with triode VT1 colelctor electrode, one end It is connected with triode VT1 emitter stage, the adjustable resistance that the other end is connected with diode rectifier U cathode output end R2, the polarity that positive pole is connected with triode VT1 base stage, negative pole is connected after resistance R3 with unidirectional thyristor VS negative electrode Electric capacity C2, positive pole is connected after resistance R4 with triode VT3 emitter stage, negative pole is connected with triode VT2 base stage Polar capacitor C3, one end is connected with triode VT3 colelctor electrode, the other end is connected with triode VT2 emitter stage can Adjust resistance R5, the resistance that one end is connected with unidirectional thyristor VS negative electrode, the other end is connected with triode VT2 colelctor electrode The voltage stabilizing two that R6, N pole are connected with adjustable resistance R5 adjustable side, P poles are connected after resistance R7 with triode VT4 base stage Pole pipe D1, positive pole is connected with voltage-regulator diode D1 P poles, emitter stage of the negative pole with triode VT4 after resistance R8 is connected Polar capacitor C4, the polarity that positive pole is connected with triode VT3 base stage, negative pole is connected with triode VT4 colelctor electrode Electric capacity C5, and P poles are connected with triode VT3 colelctor electrode, N poles and polar capacitor C4 negative pole are collectively forming IGCT mistake Press the diode D2 compositions of the output end of adjustment circuit；

The adjustable side of the unidirectional thyristor VS is connected with adjustable resistance R2 adjustable side；The polar capacitor C2's is negative Base stage of the pole also with triode VT2 is connected；Negative electrode of the negative pole of the polar capacitor C4 also with unidirectional thyristor VS is connected； Cathode output end of the emitter stage of the triode VT3 also with diode rectifier U is connected；The transformer T secondary inductances The Same Name of Ends of coil is connected with diode rectifier U one of input, the non-same polarity of its secondary inductance coil with Diode rectifier U another input is connected；The Same Name of Ends of the transformer T primary side inductance coils is total to non-same polarity With the input for forming IGCT overvoltage adjustment circuit.

The integrated stable voltage circuit is by voltage stabilizing chip U101, triode VT101, amplifier P, polar capacitor C101, one end It is connected with polar capacitor C101 negative pole, the resistance R101 of other end ground connection, one end is connected with triode VT101 emitter stages Connect, the resistance R102 that the other end is connected with voltage stabilizing chip U101 VC pins, positive pole is connected with triode VT101 base stage Connect, polar capacitor C102, the P pole that negative pole is connected with voltage stabilizing chip U101 VC pins is connected with polar capacitor C102 negative pole Connect, the diode D101 that N poles are connected with amplifier P output end, one end is connected, separately with triode VT101 colelctor electrode The inductance L101 that one end is connected with amplifier P negative electrode, one end are connected with voltage stabilizing chip U101 GND pins, are another The resistance R103 being connected with amplifier P positive electrode, and one end is held to be connected, separately with voltage stabilizing chip U101 OUT pins The adjustable resistance R104 compositions that one end is grounded after being connected with amplifier P positive electrode；The emitter stage of the triode VT101 with Diode rectifier U cathode output end is connected；GND pin of the output end of the amplifier P also with voltage stabilizing chip U101 It is connected, amplifier P positive pole is connected with adjustable resistance R104 adjustable side, its amplifier P negative pole and diode D101 N poles are connected；The OUT pins of the voltage stabilizing chip U101 are connected with unidirectional thyristor VS negative electrode.

To ensure the practical effect of the present invention, the unidirectional thyristor VS then preferentially employs KP1A/400V type lists Realized to IGCT；The transformer T then preferentially employs 10KVS9 series voltage stabilized transformer to realize simultaneously.

The present invention compared with prior art, has advantages below and beneficial effect：

(1) present invention can suppress to the instant high-voltage of input voltage, and the present invention can also be to the height electricity of input Pressure is adjusted, it is ensured that the stability of output voltage and electric current, makes the ozone UV ultraviolets of ultraviolet lamp air deodorization clarifier Lamp is not influenceed by the high voltage and electric current that input, so as to improve the effect of overvoltage adjustment of the invention, can effectively be improved pair The protecting effect of ozone UV ultraviolet lamps, effectively extend the service life of ozone UV ultraviolet lamps.

(2) integrated stable voltage circuit that the present invention is set can be handled pressure drop caused by voltage transmission, and the electricity Road is amplified by amplifier to the low-frequency voltage in voltage, makes the pulsewidth of voltage more steady, ensures that the present invention is defeated The voltage root gone out is stable.

Brief description of the drawings

Fig. 1 is the integrated circuit structural representation of the present invention.

Fig. 2 is the electrical block diagram of the integrated stable voltage circuit of the present invention.

Embodiment

The present invention is described in further detail with reference to embodiment and its accompanying drawing, but embodiments of the present invention are not It is limited to this.

As shown in figure 1, the present invention is mainly by transformer T, diode rectifier U, triode VT1, triode VT2, three poles Pipe VT3, triode VT4, integrated stable voltage circuit, unidirectional thyristor VS, thermistor RT, resistance R1, resistance R2, resistance R3, electricity Hinder R4, resistance R5, resistance R6, resistance R7, resistance R8, electric capacity C1, electric capacity C2, electric capacity C3, electric capacity C4, electric capacity C5, the pole of voltage stabilizing two Pipe D1, and diode D2 compositions.

To ensure the practical effect of the present invention, the unidirectional thyristor VS then preferentially employs KP1A/400V type lists Realized to IGCT；The transformer T then preferentially employs 10KVS9 series voltage stabilized transformer to realize simultaneously；Three pole Pipe VT1~4 are 3DG6 triodes；The diode rectifier U is that 4 1N4007 diodes form；The thermistor RT For 270k Ω overcurrent protection PTC thermistors；Resistance R1 resistance is 5.1k Ω, adjustable resistance R2 Standard resistance range for 3~ 5k Ω, resistance R3, resistance R4 and resistance R8 resistance are 10k Ω, and adjustable resistance R5 Standard resistance range is 1~3k Ω, resistance R6 and resistance R7 resistance are 20k Ω, and polar capacitor C1 capacitance is 50 μ F/16V electric capacity, and polar capacitor C2 capacitance is 3.3 μ F/16V electric capacity, polar capacitor C3 capacitance is 330 μ F/25V electric capacity, and polar capacitor C4 capacitance is 0.47 μ F/600V electricity Hold, polar capacitor C5 capacitance is 20 μ F/450V electric capacity；The voltage-regulator diode D1 is 2CW114 voltage-regulator diodes, diode D2 is 2CP6C diodes.

During connection, integrated stable voltage circuit is serially connected in diode rectifier U cathode output end and unidirectional thyristor VS the moon Between pole.Polar capacitor C1 positive pole is connected with diode rectifier U cathode output end, negative pole and diode rectifier U Cathode output end be connected after be grounded.Thermistor RT one end is connected with polar capacitor C1 positive pole, the other end and list It is connected to IGCT VS anode.Resistance R1 one end is connected with polar capacitor C1 positive pole, the other end and triode VT1 Colelctor electrode be connected.Adjustable resistance R2 one end is connected with triode VT1 emitter stage, the other end and diode rectifier U cathode output end is connected.

Wherein, polar capacitor C2 positive pole is connected with triode VT1 base stage, negative pole brilliant lock after resistance R3 and unidirectionally Pipe VS negative electrode is connected.Emitter stage of the polar capacitor C3 positive pole with triode VT3 after resistance R4 is connected, negative pole and three Pole pipe VT2 base stage is connected.Adjustable resistance R5 one end is connected with triode VT3 colelctor electrode, the other end and triode VT2 emitter stage is connected.Resistance R6 one end is connected with unidirectional thyristor VS negative electrode, and the other end is with triode VT2's Colelctor electrode is connected.

Meanwhile voltage-regulator diode D1 N poles are connected with adjustable resistance R5 adjustable side, P poles after resistance R7 with three poles Pipe VT4 base stage is connected.Polar capacitor C4 positive pole is connected with voltage-regulator diode D1 P poles, negative pole after resistance R8 with Triode VT4 emitter stage is connected.Polar capacitor C5 positive pole is connected with triode VT3 base stage, negative pole and triode VT4 colelctor electrode is connected.Diode D2 P poles are connected with triode VT3 colelctor electrode, and N poles are negative with polar capacitor C4's Pole is collectively forming the output end of IGCT overvoltage adjustment circuit and is connected with the power input of control system.

The adjustable side of the unidirectional thyristor VS is connected with adjustable resistance R2 adjustable side；The polar capacitor C2's is negative Base stage of the pole also with triode VT2 is connected；Negative electrode of the negative pole of the polar capacitor C4 also with unidirectional thyristor VS is connected； Cathode output end of the emitter stage of the triode VT3 also with diode rectifier U is connected；The transformer T secondary inductances The Same Name of Ends of coil is connected with diode rectifier U one of input, the non-same polarity of its secondary inductance coil with Diode rectifier U another input is connected；The Same Name of Ends of the transformer T primary side inductance coils is total to non-same polarity It is connected with the input for forming IGCT overvoltage adjustment circuit and with civil power.

As shown in Fig. 2 voltage stabilizing chip U101 of the integrated stable voltage circuit by model H7805, the three of model 3DG21 Pole pipe VT101, model OP064 amplifier P, capacitance are 47 μ F/25V polar capacitor C101, and capacitance is 120 μ F/25V's Polar capacitor C102, resistance be 10k Ω resistance R101 and resistance R102, resistance be 100k Ω resistance R103, adjustable value 0 ~200k Ω adjustable resistance R104, model 1N4017 diode D101, and the inductance L101 groups that influence value is 100 μ H Into.

During connection, resistance R101 one end is connected with polar capacitor C101 negative pole, other end ground connection.Resistance R102's One end is connected with triode VT101 emitter stages, and the other end is connected with voltage stabilizing chip U101 VC pins.Polar capacitor C102 Positive pole be connected with triode VT101 base stage, negative pole is connected with voltage stabilizing chip U101 VC pins.Diode D101's P poles are connected with polar capacitor C102 negative pole, and N poles are connected with amplifier P output end.

Wherein, inductance L101 one end is connected with triode VT101 colelctor electrode, the negative electricity of the other end and amplifier P Pole is connected.Resistance R103 one end is connected with voltage stabilizing chip U101 GND pins, the positive electrode of the other end and amplifier P It is connected.Adjustable resistance R104 one end is connected with voltage stabilizing chip U101 OUT pins, the positive electricity of the other end and amplifier P Pole is grounded after being connected.

The emitter stage of the triode VT101 is connected with diode rectifier U cathode output end；The amplifier P Output end be also connected with voltage stabilizing chip U101 GND pins, amplifier P positive pole and adjustable resistance R104 adjustable side It is connected, its amplifier P negative pole is connected with diode D101 N poles；The OUT pins of the voltage stabilizing chip U101 with it is unidirectional IGCT VS negative electrode is connected.

During the integrated stable voltage circuit operation, resistance R102 and polar capacitor C102 form the circuit that dams, the circuit that dams Can be constant to the voltage progress in triode VT101 base stage, the voltage of triode VT101 outputs is electrolysed through inductance L101 Processing, is eliminated the magnetic strength electric current in voltage, and its voltage stabilizing chip U101 and amplifier P is then carried out to the low-frequency voltage in voltage Adjustment, voltage is set to keep stable, and amplifier P then depends on resistance R102 and adjustable resistance R104 ratio to the magnifying power of voltage Value.Adjust adjustable resistance R104, you can regulation output voltage in certain limit, make output voltage more stable.It works as adjustable resistance During R104=0k Ω, output voltage is equal to voltage stabilizing chip U101 output voltages；When adjustable resistance R104 is incrementally increased, output Voltage also steps up therewith, and this just can better meet the needs of the ozone UV ultraviolet lamps of different capacity.

During work, the present invention can cut off load circuit, effectively prevent ozone when input direct voltage is higher than a certain value UV ultraviolet lamps are damaged by high pressure.Thermistor RT, unidirectional thyristor VS, resistance R1, triode VT1 and the adjustable electric of the invention Resistance R2 formed voltage conversion circuit, and polar capacitor C2, polar capacitor C3, resistance R3, resistance R4, adjustable resistance R5, resistance R6 Delay adjustment circuit, voltage-regulator diode D1 polar capacitors C4, polar capacitor C5, resistance R7, resistance R8 are formd with triode VT2 Mu balanced circuit is formd with diode D2.Meanwhile the present invention is also provided between diode rectifier U and unidirectional thyristor VS One independent integrated stable voltage circuit, the voltage that the electric current is exported to diode rectifier U negative output terminal are carried out at voltage stabilizing Reason, enables ozone UV ultraviolet lamps to obtain a stable cathode voltage.When input civil power is through transformer T and diode rectifier When the DC voltage for the decompression rectifier filter circuit output that U and polar capacitor C1 is formed is higher than 30V, the list of voltage conversion circuit is crossed It will be triggered conducting to IGCT VS, thermistor RT crosses resistance value and becomes big, and triode VT1 conductings, high voltage is through polar capacitor C2 carries out excessively stream, and the negative pole through polar capacitor C2 is transferred to delay circuit, triode VT2 conductings, resistance R3, resistance R4 adjustable electrics Hinder R5 and resistance R6 and form bridge-type current limiter, input voltage is circulated in bridge-type current limiter, make high-tension intensity with The loss of electric current is lowered, and as the benchmark job voltage 18V of high voltage drop to ozone UV ultraviolet lamps, triode VT2 disconnects, Adjustable end of the voltage through adjustable resistance R5 is transferred to the voltage-regulator diode D1 and resistance R7 and polar capacitor C4 of mu balanced circuit The voltage-stablizer of formation, the voltage-stablizer carry out voltage stabilizing output to input terminal voltage, and triode VT3 and triode VT4 must be conducted, opened Closing diode D2 must conduct, and now, the IGCT overvoltage adjustment circuit is the stable 18V of the offer of steady ozone UV ultraviolet lamps Quasi- operating voltage.

The present invention will not be powered off directly in high input voltage, but be adjusted by crossing voltage conversion circuit and delay Circuit and mu balanced circuit are combined, and high voltage can be adjusted, after current limliting and voltage stabilizing needed for output ozone UV ultraviolet lamps Reference voltage, so as to improve the effect of overvoltage adjustment of the invention, can effectively improve the protection to ozone UV ultraviolet lamps Effect, moreover it is possible to make ozone UV ultraviolet lamps keep stable working condition when input voltage is too high, while can effectively extend The service life of ozone UV ultraviolet lamps.

According to above-described embodiment, you can realize the present invention well.

Claims (4)

1. A kind of 1. ozone UV ultraviolet lamp control systems, it is characterised in that mainly by transformer T, diode rectifier U, three Pole pipe VT1, triode VT2, triode VT3, triode VT4, unidirectional thyristor VS, it is serially connected in diode rectifier U negative pole Integrated stable voltage circuit between output end and unidirectional thyristor VS negative electrode, the cathode output end of positive pole and diode rectifier U It is connected, the polar capacitor C1 that negative pole is grounded after being connected with diode rectifier U cathode output end, one end and polar capacitor The thermistor RT that C1 positive pole is connected, the other end is connected with unidirectional thyristor VS anode, one end and polar capacitor C1 Positive pole be connected, the resistance R1 that the other end is connected with triode VT1 colelctor electrode, one end and triode VT1 emitter stage It is connected, the adjustable resistance R2 that the other end is connected with diode rectifier U cathode output end, positive pole is with triode VT1's The polar capacitor C2 that base stage is connected, negative pole is connected after resistance R3 with unidirectional thyristor VS negative electrode, positive pole is through resistance R4 It is connected afterwards with triode VT3 emitter stage, the polar capacitor C3 that negative pole is connected with triode VT2 base stage, one end and three The adjustable resistance R5 that pole pipe VT3 colelctor electrode is connected, the other end is connected with triode VT2 emitter stage, one end with it is unidirectional Resistance R6, the N pole that IGCT VS negative electrode is connected, the other end is connected with triode VT2 colelctor electrode and adjustable resistance R5 Adjustable side be connected, the voltage-regulator diode D1 that P poles are connected after resistance R7 with triode VT4 base stage, positive pole and voltage stabilizing The polar capacitor C4 that diode D1 P poles are connected, negative pole is connected after resistance R8 with triode VT4 emitter stage, positive pole It is connected with triode VT3 base stage, the polar capacitor C5 that negative pole is connected with triode VT4 colelctor electrode, and P poles and three Pole pipe VT3 colelctor electrode is connected, N poles and polar capacitor C4 negative pole are collectively forming the output end of IGCT overvoltage adjustment circuit Diode D2 composition；

   The adjustable side of the unidirectional thyristor VS is connected with adjustable resistance R2 adjustable side；The negative pole of the polar capacitor C2 is also It is connected with triode VT2 base stage；Negative electrode of the negative pole of the polar capacitor C4 also with unidirectional thyristor VS is connected；It is described Cathode output end of the triode VT3 emitter stage also with diode rectifier U is connected；The transformer T secondary inductance coils Same Name of Ends be connected with diode rectifier U one of input, the non-same polarity of its secondary inductance coil and two poles Pipe rectifier U another input is connected；The Same Name of Ends of the transformer T primary side inductance coils and the common shape of non-same polarity Into the input of IGCT overvoltage adjustment circuit.
2. A kind of 2. ozone UV ultraviolet lamp control systems according to claim 1, it is characterised in that the integrated voltage-stabilized Circuit is by voltage stabilizing chip U101, triode VT101, amplifier P, polar capacitor C101, one end and polar capacitor C101 negative pole It is connected, the resistance R101 of other end ground connection, one end is connected with triode VT101 emitter stages, the other end and voltage stabilizing chip The resistance R102 that U101 VC pins are connected, positive pole is connected with triode VT101 base stage, negative pole and voltage stabilizing chip U101 Polar capacitor C102, the P pole that is connected of VC pins be connected with polar capacitor C102 negative pole, N poles and amplifier P output The diode D101 that is connected is held, one end is connected with triode VT101 colelctor electrode, the other end and amplifier P negative electrode The inductance L101 being connected, one end is connected with voltage stabilizing chip U101 GND pins, the other end and amplifier P positive electrode phase The resistance R103 of connection, and one end is connected with voltage stabilizing chip U101 OUT pins, the other end and amplifier P positive electrode The adjustable resistance R104 compositions being grounded after being connected；The negative pole of the emitter stage and diode rectifier U of the triode VT101 is defeated Go out end to be connected；The output end of the amplifier P is also connected with voltage stabilizing chip U101 GND pins, amplifier P positive pole It is connected with adjustable resistance R104 adjustable side, its amplifier P negative pole is connected with diode D101 N poles；The voltage stabilizing Chip U101 OUT pins are connected with unidirectional thyristor VS negative electrode.
3. A kind of 3. ozone UV ultraviolet lamp control systems according to claim 2, it is characterised in that the unidirectional brilliant lock Pipe VS is KP1A/400V types unidirectionally brilliant lock.
4. A kind of 4. ozone UV ultraviolet lamp control systems according to claim 3, it is characterised in that the transformer T For 10KVS9 series voltage stabilized transformers.