CN106684710B - The anion generator that a kind of large space uses - Google Patents

Abstract

The anion generator that a kind of large space uses, it is made up of bridge rectifier input circuit, voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit, generator shell and body fuselage, connect and be arranged on inside generator shell by wire between bridge rectifier input circuit, voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit, generator shell is arranged on inside body fuselage.The present invention produces through voltage stabilizing integral control circuit, high frequency transformer, the interaction of optocoupler voltage control circuit and stablizes lasting high-frequency impulse, anion penetration range caused by subsequent conditioning circuit is significantly increased under interlock circuit effect, operating power is big, anion burst size is big, anion casts half path length, energy sustained release high concentration small particle anion, it can meet that big regional space uses.

Description

The anion generator that a kind of large space uses

Technical field

The present invention relates to electrical equipment, energy sustained release high concentration small particle anion when particularly one kind works, Operating power is big, anion burst size is big, anion casts half path length, can meet that the big region in space uses that (for example unit is done Public room, classroom) a kind of anion generator that uses of large space.

Background technology

At present, existing small-sized anion generator, typically discharged by being limited by its construction, during work big particle diameter bear from Son, power is small, and anion burst size is small, and anion projectile radius is short, and being mainly used in the small place in the spaces such as family, automobile makes With in the big region in space, (such as classroom, unit orderly room) is unable to normal use, it is impossible to which the region big to space provides enough The anion of amount；Existing high-power anion generator, pulse current, Ran Hou are produced as core component using controllable silicon Anion is discharged to space under subsequent conditioning circuit effect, it is work frequency that controllable silicon produces pulse current maximum deficiency as core component Rate is low, thus when causing the subsequent conditioning circuit to discharge anion, anion emission distance is near, and penetration range is short, and easy at work High temperature is produced, causes anion burst size to decline to a great extent.

The content of the invention

In order to overcome existing small-sized anion generator, discharged by being limited by its construction, during work big particle diameter bear from Son, power is small, and anion burst size is small, and anion projectile radius is short, and in space, big region is unable to normal use, it is impossible to sky Between big region the anion of sufficient amount is provided；And existing high-power anion generator, because using controllable silicon as core Center portion part produces pulse current, and controllable silicon is low as core component generation pulse current working frequency, causes subsequent conditioning circuit to discharge During anion, anion emission distance is near, and penetration range is short, is also easy to produce high temperature at work, causes anion burst size significantly The drawbacks of decline, the invention provides one kind to use voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit phase Interaction, high-frequency impulse is produced, anion penetration range caused by subsequent conditioning circuit is significantly increased under interlock circuit effect, work The rate of doing work is big, anion burst size is big, anion casts half path length, energy sustained release high concentration small particle anion, can meet The big region in space uses the anion generator that a kind of large space in (such as unit orderly room, classroom) uses.

The technical solution adopted for the present invention to solve the technical problems is：

The anion generator that a kind of large space uses, it is characterised in that by bridge rectifier input circuit, the integrated control of voltage stabilizing Circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit, generator shell and machine processed Body case is formed, and bridge rectifier input circuit power input is connected with 220V AC powers by wire, bridge rectifier input Circuit anode power output end and voltage stabilizing integral control circuit cathode power supply input, high frequency transformer armature winding one end pass through Wire is connected, and voltage stabilizing integral control circuit power output end is connected with the high frequency transformer armature winding other end by wire, high First, second output end of frequency power transformer secondary windings is led to two control power inputs of optocoupler voltage control circuit respectively Wire connection is crossed, first output end of high frequency transformer secondary windings and the more times of power inputs of rectification circuit first pass through wire Connection, second output end of high frequency transformer secondary windings are connected with more times of rectification circuit second source inputs by wire, The 3rd, the 4th output end of high frequency transformer secondary windings inputs both ends by leading with optocoupler voltage control circuit signal respectively Line is connected, and optocoupler voltage control circuit signal output part and voltage stabilizing integral control circuit feedback signal input terminal are connected by wire Connect, more times of rectification circuit power output ends are connected with anion releasing unit one end by wire, and bridge rectifier input circuit is born Pole power output end and voltage stabilizing integral control circuit negative power supply input, the 4th output end of high frequency transformer secondary windings, Optocoupler voltage control circuit negative power supply input by wired earth, bridge rectifier input circuit, voltage stabilizing integral control circuit, High frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit are arranged on inside generator shell, Generator shell is arranged on inside body fuselage.

Described bridge rectifier input circuit is made up of silicon rectifier diode and fuse, electrochemical capacitor, the pole of silicon rectifier two Only, fuse one end and first silicon rectifier diode negative pole, second silicon rectifier diode positive pole are connected Guan Yousi by wire Connect, the 3rd silicon rectifier diode negative pole and the 4th silicon rectifier diode positive pole are connected by wire, second silicon rectifier two Pole pipe negative pole and the 4th silicon rectifier diode negative pole, electrochemical capacitor positive pole are connected by wire, first silicon rectifier diode Positive pole and the 3rd silicon rectifier diode positive pole, electrochemical capacitor negative pole pass through wired earth.

Described voltage stabilizing integral control circuit by AC-DC conversion switch circuits, electrochemical capacitor, transition diode, resistance and Ceramic disc capacitor forms voltage stabilizing integral control circuit, and AC-DC change-over switch casts number are TOP223YN, resistance one end and ceramic disc capacitor One end is connected by wire, and the resistance other end is connected with transition diode cathode, the ceramic disc capacitor other end by wire, transition two Pole pipe positive pole is connected with the pin of AC-DC change-over switch pipe A1 output ends 3 by wire, the pin of control terminal 2 of AC-DC change-over switch pipes and Electrochemical capacitor positive pole is connected by wire, second ceramics electricity of the pin of input 1 and electrochemical capacitor negative pole of AC-DC change-over switch pipes Hold one end to connect by wire by wired earth, second ceramic disc capacitor other end and the 3rd ceramic disc capacitor one end, the 3rd The ceramic disc capacitor other end passes through wired earth.

Described optocoupler voltage control circuit is by silicon rectifier diode, ceramic disc capacitor, resistance, optocoupler and the pole of three-terminal voltage-stabilizing two Pipe forms, and ceramic disc capacitor and silicon rectifier diode respectively have two, and resistance has three, first silicon rectifier diode negative pole and first The built-in phototriode pipe collector of resistance one end, first ceramic disc capacitor one end, optocoupler is connected by wire, first electricity The resistance other end light emitting diode positive pole built-in with optocoupler is connected by wire, and the anode and optocoupler of three-terminal voltage-stabilizing diode are built-in Light emitting diode negative pole connected by wire, the negative electrode of first ceramic disc capacitor other end and three-terminal voltage-stabilizing diode, second Ceramic disc capacitor one end, the 3rd resistance one end, second silicon rectifier diode positive pole are another by wired earth, the 3rd resistance One end and second ceramic disc capacitor other end, second resistance one end, the reference voltage input terminal of three-terminal voltage-stabilizing diode pass through Wire connects.

More times of described rectified current routing capacitances and silicon rectifier diode composition, electric capacity is CBB high frequency capacitances, and electric capacity has ten Only, silicon rectifier diode has nine, and first electric capacity one end is connected with first silicon rectifier diode negative pole by wire, and first The electric capacity other end and second electric capacity one end are connected by wire, second electric capacity other end and second silicon rectifier diode Positive pole, the 3rd pole negative pole of silicon rectifier two, the 3rd electric capacity one end are connected by wire, the 3rd electric capacity other end and the 4th Silicon rectifier diode positive pole, the 5th silicon rectifier diode negative pole, the 4th electric capacity one end are connected by wire, the 4th electric capacity The other end and the 6th silicon rectifier diode positive pole, the 7th silicon rectifier diode negative pole, the 5th electric capacity one end pass through wire Connection, the 5th electric capacity other end and the 8th silicon rectifier diode positive pole, the 9th silicon rectifier diode negative pole pass through wire Connection, the 6th electric capacity one end and first silicon rectifier diode positive pole, second silicon rectifier diode negative pole, the 7th electric capacity One end is connected by wire, and the 7th electric capacity one end and the 3rd silicon rectifier diode positive pole, the 4th silicon rectifier diode are born Pole, the 8th electric capacity one end are connected by wire, the 8th electric capacity other end and the 5th silicon rectifier diode positive pole, the 6th Silicon rectifier diode negative pole, the 9th electric capacity one end are connected by wire, the 9th electric capacity other end and the 7th silicon rectifier two Pole pipe positive pole, the 8th silicon rectifier diode negative pole, the tenth electric capacity one end are connected by wire, the tenth electric capacity other end and 9th silicon rectifier diode positive pole is connected by wire.

Described anion releasing unit is made up of filter resistance and fullerene negative ion release electrode, filter resistance one end Connected respectively with fullerene negative ion release electrode one end by wire.

Present invention has the advantages that：During work, 220V AC powers are converted to direct current through bridge rectifier input circuit rectification After power supply, through the voltage stabilizing of voltage stabilizing integral control circuit, be converted to AC power and enter high frequency transformer armature winding, high frequency transformer The voltage signal of secondary windings output feeds back to voltage stabilizing integral control circuit, the integrated control electricity of voltage stabilizing through optocoupler voltage control circuit The synchronous adjustment output voltage in real time in road, make the voltage stabilizing of voltage stabilizing integral control circuit, be converted to rear AC power and enter high frequency transformer During armature winding, in stable state, ensure subsequent conditioning circuit even running, it is ensured that the stabilization of whole operating circuit is effective.It is high After voltage stabilizing integral control circuit to be inputted to frequency power transformer stable AC power boosting, input at most times rectification circuit, more times whole The power supply of input is carried out nine times of rectifier boosts by current circuit, and the high pressure of output is discharged into space through anion releasing unit, is big Area of space provides enough anions.The present invention is through voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit Interaction, which produces, stablizes lasting high-frequency impulse, makes anion penetration range caused by subsequent conditioning circuit under interlock circuit effect It is significantly increased, operating power is big, anion burst size is big, anion casts half path length, and energy sustained release high concentration small particle is born Ion, it can meet that big regional space uses；Existing small-sized anion generator is overcome, by being limited by its construction, work As when discharge big particle diameter anion, power is small, and anion burst size is small, anion cast radius it is short, in the big region in space not Energy normal use, it is impossible to which the region big to space provides the high concentration small particle anion of sufficient amount, and existing high-power Anion generator, because producing pulse current as core component using controllable silicon, then to space under subsequent conditioning circuit effect Anion is discharged, controllable silicon is low as core component generation pulse current working frequency, when causing subsequent conditioning circuit release anion, Anion emission distance is near, and penetration range is short, it is impossible to which the high concentration small particle that the regional space big to space provides sufficient amount is born Ion, and be also easy to produce high temperature at work, the drawbacks of causing anion burst size to decline to a great extent.More than being based on, the present invention has Good application prospect.

Brief description of the drawings

The present invention is described further with reference to the accompanying drawings and examples.

Fig. 1 is workflow block diagram of the present invention.

Fig. 2 is schematic structural view of the invention.

Fig. 3 is circuit diagram of the present invention.

Embodiment

Shown in Fig. 1, Fig. 2, anion generator that a kind of large space uses, by bridge rectifier input circuit 1, voltage stabilizing Integral control circuit 2, high frequency transformer 3, optocoupler voltage control circuit 4, more times of rectification circuits 5, anion releasing unit 6, hair Raw device shell 7 and body fuselage 8 are formed, and the power input of bridge rectifier input circuit 1 and 220V AC powers are connected by wire Connect, the cathode power supply output end of bridge rectifier input circuit 1 and the cathode power supply input of voltage stabilizing integral control circuit 2, high frequency transformation The armature winding one end of device 3 is connected by wire, the power output end of voltage stabilizing integral control circuit 2 and the armature winding of high frequency transformer 3 The other end is connected by wire, and 3 secondary windings of high frequency transformer, first, second output end controls electricity with optocoupler voltage respectively 4 two, road control power input is connected by wire, first output end of high frequency transformer secondary windings and more times of rectified currents Road is connected by wire, and 3 secondary windings of high frequency transformer, second output end and the more times of second source inputs of rectification circuit 5 lead to Cross wire connection, the 3rd, the 4th output end of the secondary windings of high frequency transformer 3 respectively with the signal of optocoupler voltage control circuit 4 Input both ends are connected by wire, and the signal output part of optocoupler voltage control circuit 4 and the feedback signal of voltage stabilizing integral control circuit 2 are defeated Enter end to connect by wire, the more times of power output ends of rectification circuit 5 are connected with the one end of anion releasing unit 6 by wire, bridge The negative power supply output end of formula rectification input circuit 1 and the negative power supply input of voltage stabilizing integral control circuit 2, high frequency transformer 3 times The 4th output end of level winding, the negative power supply input of optocoupler voltage control circuit 4 pass through wired earth, bridge rectifier input electricity Road 1, voltage stabilizing integral control circuit 2, high frequency transformer 3, optocoupler voltage control circuit 4, more times of rectification circuits 5, anion release Unit 6 is arranged on inside generator shell 7, and generator shell 7 is arranged on inside body fuselage 8.9 be power line, and 10 be power supply Switch.The present invention can be installed using ceiling mode and can also installed using wall-mounted mode.

Shown in Fig. 1, Fig. 2, during work, 220V AC powers are converted to direct current through the rectification of bridge rectifier input circuit 1 Source, and input to voltage stabilizing integral control circuit 2, through the voltage stabilizing of voltage stabilizing integral control circuit 2, AC power is converted into high frequency change The armature winding of depressor 3, the voltage signal of the secondary windings of high frequency transformer 3 output feed back to voltage stabilizing through optocoupler voltage control circuit 4 Integral control circuit 2, the synchronous adjustment output voltage in real time of voltage stabilizing integral control circuit 2, make the voltage stabilizing of voltage stabilizing integral control circuit 2, When being converted to rear AC power and entering 3 armature winding of high frequency transformer, in stable state, ensure that subsequent conditioning circuit is steadily transported OK, it is ensured that the stabilization of whole operating circuit is effective.High frequency transformer 3 inputs voltage stabilizing integral control circuit 2 in stable alternating current After the boosting of source, the power supply of input is carried out nine times of rectifier boosts by input at most times rectification circuit 5, more times of rectification circuits 5, output High pressure is discharged into space through anion releasing unit 6, and enough anions are provided for large space region.The present invention integrates through voltage stabilizing Control circuit 2, high frequency transformer 3, the interaction of optocoupler voltage control circuit 4 produce and stablize lasting high-frequency impulse, in correlation It is significantly increased anion penetration range caused by subsequent conditioning circuit under circuit function, operating power is big, anion burst size is big, negative Ion casts half path length, energy sustained release high concentration small particle anion, can meet that big regional space uses；Overcome existing Small-sized anion generator, discharge big particle diameter anion by being limited by its construction, during work, power is small, anion release Measure small, anion casts that radius is short, and big region is unable to normal use in space, it is impossible to which the regional space big to space provides foot The high concentration small particle anion enough measured, and existing high-power anion generator, because using controllable silicon as core Part produces pulse current, then discharges anion to space under subsequent conditioning circuit effect, and controllable silicon produces arteries and veins as core component It is low to rush current operating frequency, when causing subsequent conditioning circuit release anion, anion emission distance is near, and penetration range is short, it is impossible to gives The big regional space in space provides the high concentration small particle anion of sufficient amount, and is also easy to produce high temperature at work, causes to bear The drawbacks of ion release declines to a great extent.

In Fig. 3, by silicon rectifier diode VD1, VD2, VD3, VD4 and fuse FU, electrochemical capacitor C1 composition bridge rectifiers Input circuit, silicon rectifier diode have four, fuse FU one end and first silicon rectifier diode VD1 negative pole, second silicon Commutation diode VD2 positive poles are connected by wire, the 3rd silicon rectifier diode VD3 negative pole and the 4th silicon rectifier diode VD4 positive poles are connected by wire, second silicon rectifier diode VD2 negative pole and the 4th silicon rectifier diode VD4 negative pole, electrolysis Electric capacity C1 positive poles are connected by wire, first silicon rectifier diode VD1 positive pole and the 3rd silicon rectifier diode VD3 positive pole, Electrochemical capacitor C1 negative poles pass through wired earth.By AC-DC conversion switch circuit A1, electrochemical capacitor C7, transition diode VZ1, electricity R1 and ceramic disc capacitor C2 composition voltage stabilizing integral control circuits are hindered, AC-DC change-over switch pipe A1 models are TOP223YN, resistance R1 mono- End is connected with ceramic disc capacitor C2 one end by wire, and the resistance R1 other ends and transition diode VZ1 negative poles, ceramic disc capacitor C2 are another End is connected by wire, and transition diode VZ1 positive poles are connected with the pin of AC-DC change-over switch pipe A1 output ends 3 by wire, AC- The DC change-over switch pipes A1 pin of control terminal 2 is connected with electrochemical capacitor C7 positive poles by wire, AC-DC change-over switch pipes A1 input 1 pin and electrochemical capacitor C7 negative poles, second ceramic disc capacitor C5 one end is held to pass through wired earth, second ceramic disc capacitor C5 other end Connected with the 3rd ceramic disc capacitor C6 one end by wire, the 3rd ceramic disc capacitor C6 other end passes through wired earth.It is whole by silicon Flow diode VD5, ceramic disc capacitor C4, C17, resistance R2, R3, R4, optocoupler GO and three-terminal voltage-stabilizing diode A2 composition optocoupler voltages Control circuit, ceramic disc capacitor and silicon rectifier diode respectively have two, and resistance has three, first silicon rectifier diode VD6 negative pole Pass through wire with first resistance R3 one end, first built-in phototriode pipe collector of ceramic disc capacitor C4 one end, optocoupler GO Connection, first resistance R3 other end light emitting diode positive pole built-in with optocoupler GO are connected by wire, the pole of three-terminal voltage-stabilizing two The pipe A2 anode light emitting diode negative pole built-in with optocoupler GO is connected by wire, first ceramic disc capacitor C4 other end and three End voltage-regulator diode A2 negative electrode, second ceramic disc capacitor C17 one end, the 3rd resistance R4 one end, second silicon rectifier two level Pipe VD5 positive poles pass through wired earth, the 3rd resistance R4 other end and second ceramic disc capacitor C17 other end, second resistance R2 one end, three-terminal voltage-stabilizing diode A2 reference voltage input terminal are connected by wire.By electric capacity C3, C13, C14, C15, C16, C8, C9, C10, C11, C12 and silicon rectifier diode VD7, VD8, VD9, VD10, VD11, VD12, VD13, VD14, VD15 composition More times of rectification circuits, electric capacity are CBB high frequency capacitances, and electric capacity has ten, and silicon rectifier diode has nine, first electric capacity C3 one end Connected with first silicon rectifier diode VD7 negative pole by wire, first electric capacity C3 other end and second electric capacity C13 one end Connected by wire, second electric capacity C13 other end and second silicon rectifier diode VD8 positive pole, the 3rd pole of silicon rectifier two Pipe VD9 negative poles, the 3rd electric capacity C14 one end are connected by wire, the 3rd electric capacity C14 other end and the 4th pole of silicon rectifier two Pipe VD10 positive poles, the 5th silicon rectifier diode VD11 negative pole, the 4th electric capacity C15 one end are connected by wire, the 4th electricity Hold the C15 other ends and the 6th silicon rectifier diode VD12 positive pole, the 7th silicon rectifier diode VD13 negative pole, the 5th electric capacity C16 one end is connected by wire, the 5th electric capacity C16 other end and the 8th silicon rectifier diode VD14 positive pole, the 9th silicon Commutation diode VD15 negative poles are connected by wire, the 6th electric capacity C8 one end and first silicon rectifier diode VD7 positive pole, Two silicon rectifier diode VD8 negative poles, the 7th electric capacity C9 one end are connected by wire, the 7th electric capacity C9 other end and the 3rd Silicon rectifier diode VD9 positive poles, the 4th silicon rectifier diode VD10 negative pole, the 8th electric capacity C10 one end are connected by wire Connect, the 8th electric capacity C10 other end and the 5th silicon rectifier diode VD11 positive pole, the 6th silicon rectifier diode VD12 are born Pole, the 9th electric capacity C11 one end are connected by wire, and the 9th electric capacity C11 one end and the 7th silicon rectifier diode VD13 are just Pole, the 8th silicon rectifier diode VD14 negative pole, the tenth electric capacity C12 one end are connected by wire, and the tenth electric capacity C12 is another End is connected with the 9th silicon rectifier diode VD15 positive pole by wire.By filter resistance R5, R6, R7, R8 and fullerene bear from Son release electrode DJ1, DJ2, DJ3, DJ4 composition anion releasing unit, filter resistance R5, R6, R7, R8 one end is respectively and fowler Alkene anion release electrode DJ1, DJ2, DJ3, DJ4 one end is connected by wire.

Shown in Fig. 3, the bridge rectifier input circuit power input fuse FU other ends, silicon rectifier diode VD3 are born Pole is connected with 220V AC powers by wire.Bridge rectifier input circuit cathode power supply output end electrochemical capacitor C1 positive poles and steady Pressure integral control circuit cathode power supply input pickup resistance R1 one end, high frequency transformer T armature windings one end are connected by wire.Surely Pressure integral control circuit power output end AC-DC change-over switch pipes A1 3 pin and the high frequency transformer T armature winding other ends pass through Wire connects.First, second output end of high frequency transformer T secondary windings respectively with the control of optocoupler voltage control circuit two Power input silicon rectifier diode VD5 negative poles, the resistance R2 other ends are connected by wire.High frequency transformer T secondary windings One output end is connected with more times of rectification circuit the first power input electrochemical capacitor C8 one end by wire.High frequency transformer T Second output end of secondary windings is connected with more times of rectification circuit second source input end capacitor C13 one end by wire.High frequency The 3rd, the 4th output end of transformer T secondary windings inputs both ends silicon rectifier two with optocoupler voltage control circuit signal respectively Pole pipe VD6 positive poles, the ceramic disc capacitor C4 other ends are connected by wire.Optocoupler voltage control circuit signal output part optocoupler GO is built-in Phototriode emitter stage and voltage stabilizing integral control circuit feedback signal input terminal AC-DC change-over switch pipes A1 2 pin pass through Wire connects.The more times of rectification circuit power output end electric capacity C12 other ends and anion releasing unit one end filter resistance R5, R6, R7, R8 other end are connected by wire.Bridge rectifier input circuit negative power supply output end electrochemical capacitor C1 negative poles and voltage stabilizing Integral control circuit negative power supply input AC-DC change-over switch pipes A1 1 pin, high frequency transformer T secondary windings the 4th is defeated Go out end, the optocoupler voltage control circuit negative power supply input ceramic disc capacitor C4 other ends pass through wired earth.Bridge rectifier inputs Circuit, voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit Inside generator shell, generator shell is arranged on inside body fuselage.

Shown in Fig. 3, during work, 220V AC powers through bridge rectifier input circuit silicon rectifier diode VD1, VD2, Dc source, which is converted to, after VD3, VD4 rectification, electrochemical capacitor C1 filtering enters voltage stabilizing integral control circuit.The integrated control electricity of voltage stabilizing After rood electricity work, AC-DC change-over switch pipe A1 are in peripheral component resistance R1, ceramic disc capacitor C2, C5, C6, transition diode VZ1 Dc source is converted into AC power under collective effect and enters high frequency transformer T armature windings, high frequency transformer T secondary windings The voltage signal of output enters optocoupler GO voltage control circuits through silicon rectifier diode VD5, and optocoupler GO is in its peripheral cell resistance R3, R2, R4, under ceramic disc capacitor C4, C7 and three end shunt regulator diode A2 collective effects, and the photoelectricity three that optocoupler GO is built-in Under pole pipe effect, real-time output feedback signal inputs to voltage stabilizing integral control circuit AC-DC change-over switch pipes A1 feedback signal 2 pin are held, the synchronous adjustment output voltages in real time of voltage stabilizing integral control circuit AC-DC change-over switch pipes A, make voltage stabilizing integral control circuit Voltage stabilizing, when being converted to rear AC power and entering high frequency transformer T armature windings, in stable state, ensure that subsequent conditioning circuit is put down Steady operation, it is ensured that the stabilization of whole operating circuit is effective.High frequency transformer T inputs voltage stabilizing integral control circuit stable exchange After power boost, input at most times rectification circuit, by electric capacity C3, C13, C14, C15, C16, C8, C9, C10, C11, C12 and silicon More times of rectification circuits of commutation diode VD7, VD8, VD9, VD10, VD11, VD12, VD13, VD14, VD15 composition are by input Power supply carries out nine times of rectifier boosts, and the high pressure of output enters filter resistance R5, R6, R7, R8 one end of anion releasing unit, so Enter fullerene negative ion release electrode DJ1, DJ2, DJ3, DJ4, fullerene negative ion release electrode by R5, R6, R7, R8 DJ1, DJ2, DJ3, DJ discharge enough high concentration small particle anions to big regional space, meet the anion of big regional space Use demand.The present invention produces high frequency through voltage stabilizing integral control circuit, high frequency transformer, the interaction of optocoupler voltage control circuit Pulse, anion penetration range caused by subsequent conditioning circuit is significantly increased under interlock circuit effect, operating power is big, anion Burst size is big, anion casts half path length, energy sustained release high concentration small particle anion, can meet that big regional space makes With.

Fig. 3, in bridge rectifier input circuit：Silicon rectifier diode VD1, VD2, VD3, VD4 model is 1N4007；Electrolysis electricity It is 47 μ F/400V to hold C1 models.In voltage stabilizing integral control circuit：Electrochemical capacitor C13 models are 47 μ F/25V；Transition diode VZ1 is pressure-resistant 600V, operating current 1A；Resistance R1 resistances are that 100K, power are 1W；Ceramic disc capacitor C2 specifications are 1n；C5, C6 specification It is 2.2n.In optocoupler voltage control circuit：Silicon rectifier diode VD5 models are UF4007；Ceramic disc capacitor C4 models are 0.01 μ F/ 300V；C7 models are 47 μ F；Resistance R2, R3, R4 resistance are 1M, 10K, 5.1K respectively；Optocoupler GO models are 4N25；Three ends are in parallel Voltage-regulator diode A2 models are TL431.In more times of rectification circuits：Electric capacity C3, C13, C14, C15, C16, C8, C9, C10, C11, C12 models are 0.047 μ F/3000V；Silicon rectifier diode VD7, VD8, VD9, VD10, VD11, VD12, VD13, VD14 model is UF4007.Filter resistance R5, R6, R7, R8 specification of anion releasing unit is 100M Ω.

The present embodiment is preferred embodiments of the present invention, is not intended to limit the invention, all to be done in the present embodiment spirit Any modification, equivalent substitution and improvements etc., should be included in the scope of the protection.

Claims (5)

1. the anion generator that a kind of large space uses, it is characterised in that by bridge rectifier input circuit, the integrated control of voltage stabilizing Circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anion releasing unit, generator shell and body Shell is formed, and bridge rectifier input circuit power input is connected with 220V AC powers by wire, bridge rectifier input electricity Road cathode power supply output end and voltage stabilizing integral control circuit cathode power supply input, high frequency transformer armature winding one end are by leading Line is connected, and voltage stabilizing integral control circuit power output end is connected with the high frequency transformer armature winding other end by wire, high frequency First output end of transformer secondary output winding is connected with the more times of power inputs of rectification circuit first by wire, high frequency transformer Second output end of secondary windings is connected with more times of rectification circuit second source inputs by wire, optocoupler voltage control circuit Signal output part is connected with voltage stabilizing integral control circuit feedback signal input terminal by wire, more times of rectification circuit power output ends Connected with anion releasing unit one end by wire, bridge rectifier input circuit negative power supply output end and the integrated control of voltage stabilizing Circuit negative power supply input by wired earth, optocoupler voltage control circuit by silicon rectifier diode, ceramic disc capacitor, resistance, Optocoupler and three-terminal voltage-stabilizing diode composition, ceramic disc capacitor and silicon rectifier diode respectively have two, and resistance has three, and first silicon is whole Stream diode cathode and the built-in phototriode pipe collector of first resistance one end, optocoupler, first ceramic disc capacitor one end lead to Wire connection is crossed, the 3rd output end of first silicon rectifier diode positive pole and high frequency transformer secondary windings is connected by wire Connect, first resistance other end light emitting diode positive pole built-in with optocoupler is connected by wire, the sun of three-terminal voltage-stabilizing diode The pole light emitting diode negative pole built-in with optocoupler is connected by wire, first ceramic disc capacitor other end and three-terminal voltage-stabilizing diode Negative electrode, second ceramic disc capacitor one end, the 3rd resistance one end, second silicon rectifier diode positive pole, high frequency transformer time Level the 4th output end of winding is by wired earth, the 3rd resistance other end and second ceramic disc capacitor other end, second Resistance one end, the reference voltage input terminal of three-terminal voltage-stabilizing diode are connected by wire, high frequency transformer secondary windings first, Second output end is connected with second silicon rectifier diode negative pole, second resistance other end by wire respectively, and bridge-type is whole Stream input circuit, voltage stabilizing integral control circuit, high frequency transformer, optocoupler voltage control circuit, more times of rectification circuits, anions are released Unit is put inside generator shell, generator shell is arranged on inside body fuselage.

2. the anion generator that a kind of large space according to claim 1 uses, it is characterised in that bridge rectifier inputs Circuit is made up of silicon rectifier diode and fuse, electrochemical capacitor, and silicon rectifier diode has four, fuse one end and first Silicon rectifier diode negative pole, second silicon rectifier diode positive pole are connected by wire, the 3rd silicon rectifier diode negative pole and 4th silicon rectifier diode positive pole is connected by wire, second silicon rectifier diode negative pole and the 4th silicon rectifier diode Negative pole, electrochemical capacitor positive pole are connected by wire, first silicon rectifier diode positive pole and the 3rd silicon rectifier diode positive pole, Electrochemical capacitor negative pole passes through wired earth.

3. the anion generator that a kind of large space according to claim 1 uses, it is characterised in that the integrated control of voltage stabilizing Circuit forms the integrated control electricity of voltage stabilizing by AC-DC conversion switch circuits, electrochemical capacitor, transition diode, resistance and ceramic disc capacitor Road, AC-DC change-over switch casts number are TOP223YN, and resistance one end is connected with ceramic disc capacitor one end by wire, and resistance is another End is connected with transition diode cathode, the ceramic disc capacitor other end by wire, transition diode cathode and AC-DC change-over switch pipes The pin of A1 output ends 3 is connected by wire, and the pin of control terminal 2 of AC-DC change-over switch pipes is connected with electrochemical capacitor positive pole by wire, The pin of input 1 and electrochemical capacitor negative pole of AC-DC change-over switch pipes, second ceramic disc capacitor one end are by wired earth, and second The ceramic disc capacitor other end and the 3rd ceramic disc capacitor one end are connected by wire, and the 3rd ceramic disc capacitor other end passes through wire Ground connection.

4. the anion generator that a kind of large space according to claim 1 uses, it is characterised in that more times of rectification circuits It is made up of electric capacity and silicon rectifier diode, electric capacity is CBB high frequency capacitances, and electric capacity has ten, and silicon rectifier diode has nine, first Electric capacity one end is connected with first silicon rectifier diode negative pole by wire, first electric capacity other end and second electric capacity one End by wire connection, second electric capacity other end and second silicon rectifier diode positive pole, the 3rd pole negative pole of silicon rectifier two, 3rd electric capacity one end is connected by wire, the 3rd electric capacity other end and the 4th silicon rectifier diode positive pole, the 5th silicon Commutation diode negative pole, the 4th electric capacity one end are connected by wire, the 4th electric capacity other end and the 6th pole of silicon rectifier two Pipe positive pole, the 7th silicon rectifier diode negative pole, the 5th electric capacity one end are connected by wire, the 5th electric capacity other end and Eight silicon rectifier diode positive poles, the 9th silicon rectifier diode negative pole are connected by wire, the 6th electric capacity one end and first Silicon rectifier diode positive pole, second silicon rectifier diode negative pole, the 7th electric capacity one end are connected by wire, the 7th electricity Hold one end and the 3rd silicon rectifier diode positive pole, the 4th silicon rectifier diode negative pole, the 8th electric capacity one end pass through wire Connection, the 8th electric capacity other end and the 5th silicon rectifier diode positive pole, the 6th silicon rectifier diode negative pole, the 9th electricity Hold one end to connect by wire, the 9th electric capacity other end and the 7th silicon rectifier diode positive pole, the 8th pole of silicon rectifier two Pipe negative pole, the tenth electric capacity one end are connected by wire, and the tenth electric capacity other end and the 9th silicon rectifier diode positive pole lead to Cross wire connection.

5. the anion generator that a kind of large space according to claim 1 uses, it is characterised in that anion release is single Member is made up of filter resistance and fullerene negative ion release electrode, and filter resistance one end discharges electrode with fullerene negative ion respectively One end is connected by wire.