CN204543292U - Hand-held cold light source near-infrared cytothesis instrument - Google Patents

Abstract

This utility model discloses a kind of hand-held cold light source near-infrared cytothesis instrument, and described skin repair instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, gauge tap, knob, housing; Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing, and gauge tap, knob are arranged at outside housing; Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical; Described control circuit connects cold light source near-infrared LED lamp, gauge tap, knob, laser positioning mechanism respectively.The hand-held cold light source near-infrared cytothesis instrument that the utility model proposes, adopt cold light source near-infrared LED lamp, can closely repair, penetration capacity is strong, and irritation cell is movable better, improves cytothesis effect.

Description

Hand-held cold light source near-infrared cytothesis instrument

Technical field

This utility model belongs to technical field of medical equipment, relates to a kind of cytothesis instrument, particularly relates to a kind of hand-held cold light source near-infrared cytothesis instrument.

Background technology

Existing skin repair instrument has multiple, but adopt infrared light supply be substantially infrared thermal source, temperature is higher, instrument can not from skin too close to, repairing effect is not good enough.

In addition, the usual complex structure of existing skin repair equipment, bulky, price is high, and inconvenience is movement arbitrarily.

In view of this, nowadays in the urgent need to designing a kind of new cytothesis equipment, to overcome the above-mentioned defect of existing prosthetic appliance.

Utility model content

Technical problem to be solved in the utility model is: provide a kind of hand-held cold light source near-infrared cytothesis instrument, can closely repair, and penetration capacity is strong, and irritation cell is movable better, improves cytothesis effect.

For solving the problems of the technologies described above, this utility model adopts following technical scheme:

A kind of hand-held cold light source near-infrared cytothesis instrument, described cytothesis instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, flushing machine, gauge tap, knob, housing;

Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing, and gauge tap, knob are arranged at outside housing;

Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical;

Described control circuit connects cold light source near-infrared LED lamp, flushing machine, gauge tap, knob, laser positioning mechanism respectively;

Described flushing control circuit connects flushing machine, controls flushing machine and rinses corresponding position;

Described control circuit comprises controller, reset circuit, key control circuit, laser positioning circuit, infrared output control circuit, rinses control circuit, display circuit, indicating circuit, dimmer circuit;

Described controller connects reset circuit, key control circuit, display circuit, laser positioning circuit, infrared output control circuit respectively, rinses control circuit, indicating circuit, dimmer circuit;

Described reset circuit comprises the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the first resistance R1, the second resistance R2, the first crystal oscillator X1, reset switch; The first end of described 3rd electric capacity C3 connect the first end of the first resistance R1, the first end of the second resistance R2, the 4th pin RESET of controller, the second resistance R2 the second end connect the first end of reset switch, the second end of reset switch connects voltage VCC; The second end ground connection of the first resistance R1, the first end ground connection of the first electric capacity C1, the first end ground connection of the second electric capacity C2; The 3rd pin X1 that second end of the second electric capacity C2 connects the first end of the first crystal oscillator X1, second end of the second pin X2 of controller, the first electric capacity C1 connects second end of the first crystal oscillator X1, controller;

Described key control circuit comprises some buttons, the first end ground connection of each button, a pin of the second end difference connection control device;

Described display circuit comprises control chip U1, at least one LED group, and LED group is by each pin of resistance connection control chip U1 in parallel;

Described laser positioning circuit comprises the first audion, the first diode, the first relay, the 4th resistance; The grounded collector of described first audion, the base stage of the first audion connects the 4th resistance, and the emitter stage of the first audion connects the positive pole of the first diode, first end to relay; The negative pole of the first diode connects voltage VCC, and the second end of the first relay connects voltage VCC;

Described infrared output control circuit comprises the second audion, the second diode, the second relay, the 5th resistance; The grounded collector of described second audion, the base stage of the second audion connects the 5th resistance, and the emitter stage of the second audion connects the positive pole of the second diode, first end to relay; The negative pole of the second diode connects voltage VCC, and the second end of the second relay connects voltage VCC; Knob connects infrared output control circuit, and infrared output control circuit connects cold light source near-infrared LED lamp, and knob is in order to control cold light source near-infrared LED lamp luminous power;

Described flushing control circuit comprises the 3rd audion, the 3rd diode, the 3rd relay, the 6th resistance; The grounded collector of described 3rd audion, the base stage of the 3rd audion connects the 6th resistance, and the emitter stage of the 3rd audion connects the positive pole of the 3rd diode, the first end to relay; The negative pole of the 3rd diode connects voltage VCC, and the second end of the 3rd relay connects voltage VCC;

Described dimmer circuit comprises electronic potentiometer, the 4th audion, control end, control end comprises at least two intensity control switches, the 4th electric capacity, the 5th electric capacity, the 4th resistance, the 5th resistance, one end ground connection of intensity control switches, the other end connects electronic potentiometer; One end of 4th electric capacity connects electronic potentiometer, and the two ends of the 5th electric capacity connect electronic potentiometer respectively; One end of 5th resistance connects electronic potentiometer, and the other end connects the base stage of the 4th audion, and the colelctor electrode of the 4th audion connects the second end of cold light source near-infrared LED lamp, the second end of the 4th resistance, the grounded emitter of the 4th audion; The first end of cold light source near-infrared LED lamp, the first end of the 4th resistance connect power supply.

A kind of hand-held cold light source near-infrared cytothesis instrument, described cytothesis instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, housing;

Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing; Described control circuit connects cold light source near-infrared LED lamp, laser positioning mechanism respectively;

Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical.

As a kind of preferred version of the present utility model, described control circuit comprises controller, reset circuit, key control circuit, laser positioning circuit, infrared output control circuit, rinses control circuit, display circuit, indicating circuit, dimmer circuit;

Described controller connects reset circuit, key control circuit, display circuit, laser positioning circuit, infrared output control circuit respectively, rinses control circuit, indicating circuit, dimmer circuit.

As a kind of preferred version of the present utility model, described reset circuit comprises the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the first resistance R1, the second resistance R2, the first crystal oscillator X1, reset switch; The first end of described 3rd electric capacity C3 connect the first end of the first resistance R1, the first end of the second resistance R2, the 4th pin RESET of controller, the second resistance R2 the second end connect the first end of reset switch, the second end of reset switch connects voltage VCC; The second end ground connection of the first resistance R1, the first end ground connection of the first electric capacity C1, the first end ground connection of the second electric capacity C2; The 3rd pin X1 that second end of the second electric capacity C2 connects the first end of the first crystal oscillator X1, second end of the second pin X2 of controller, the first electric capacity C1 connects second end of the first crystal oscillator X1, controller.

As a kind of preferred version of the present utility model, described key control circuit comprises some buttons, the first end ground connection of each button, a pin of the second end difference connection control device;

Described display circuit comprises control chip U1, at least one LED group, and LED group is by each pin of resistance connection control chip U1 in parallel.

As a kind of preferred version of the present utility model, described laser positioning circuit comprises the first audion, the first diode, the first relay, the 4th resistance; The grounded collector of described first audion, the base stage of the first audion connects the 4th resistance, and the emitter stage of the first audion connects the positive pole of the first diode, first end to relay; The negative pole of the first diode connects voltage VCC, and the second end of the first relay connects voltage VCC.

As a kind of preferred version of the present utility model, described infrared output control circuit comprises the second audion, the second diode, the second relay, the 5th resistance; The grounded collector of described second audion, the base stage of the second audion connects the 5th resistance, and the emitter stage of the second audion connects the positive pole of the second diode, first end to relay; The negative pole of the second diode connects voltage VCC, and the second end of the second relay connects voltage VCC.

As a kind of preferred version of the present utility model, described flushing control circuit comprises the 3rd audion, the 3rd diode, the 3rd relay, the 6th resistance; The grounded collector of described 3rd audion, the base stage of the 3rd audion connects the 6th resistance, and the emitter stage of the 3rd audion connects the positive pole of the 3rd diode, the first end to relay; The negative pole of the 3rd diode connects voltage VCC, and the second end of the 3rd relay connects voltage VCC.

As a kind of preferred version of the present utility model, described instrument for repairing also comprises gauge tap, knob, and gauge tap, knob are arranged at outside housing, and gauge tap, knob be connection control circuit respectively.

As a kind of preferred version of the present utility model, described knob connects an infrared output control circuit, and infrared output control circuit connects cold light source near-infrared LED lamp, and knob is in order to control cold light source near-infrared LED lamp luminous power.

As a kind of preferred version of the present utility model, described dimmer circuit comprises electronic potentiometer, the 4th audion, control end, control end comprises at least two intensity control switches, the 4th electric capacity, the 5th electric capacity, the 4th resistance, the 5th resistance, one end ground connection of intensity control switches, the other end connects electronic potentiometer; One end of 4th electric capacity connects electronic potentiometer, and the two ends of the 5th electric capacity connect electronic potentiometer respectively; One end of 5th resistance connects electronic potentiometer, and the other end connects the base stage of the 4th audion, and the colelctor electrode of the 4th audion connects the second end of cold light source near-infrared LED lamp, the second end of the 4th resistance, the grounded emitter of the 4th audion; The first end of cold light source near-infrared LED lamp, the first end of the 4th resistance connect power supply.

The beneficial effects of the utility model are: the hand-held cold light source near-infrared cytothesis instrument that the utility model proposes, and adopt cold light source near-infrared LED lamp, can closely repair, penetration capacity is strong, and irritation cell is movable better, improves cytothesis effect.

Accompanying drawing explanation

Fig. 1 is the composition schematic diagram of this utility model hand-held cold light source near-infrared cytothesis instrument.

Fig. 2 is the circuit diagram of the control circuit of this utility model cytothesis instrument.

Fig. 3 is the circuit diagram of the dimmer circuit of this utility model cytothesis instrument.

Detailed description of the invention

Preferred embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.

Embodiment one

Refer to Fig. 1, this utility model discloses a kind of hand-held cold light source near-infrared cytothesis instrument, and described skin repair instrument comprises: control circuit 1, cold light source near-infrared LED lamp 2, focusing unit 3, laser positioning mechanism 4, flushing machine, gauge tap 5, knob 6, housing.

Described control circuit 1, cold light source near-infrared LED lamp 2, focusing unit 3, laser positioning mechanism 4 are arranged in housing, and gauge tap 5, knob 6 are arranged at outside housing;

Described focusing unit 3 is arranged near cold light source near-infrared LED lamp 2, and the light that sent by cold light source near-infrared LED lamp 2 focuses on, and makes cold light source near-infrared LED lamp 2, light direction that laser positioning mechanism 4 sends is identical.

Described control circuit 1 connects cold light source near-infrared LED lamp 2, flushing machine, gauge tap 5, knob 6, laser positioning mechanism 4 respectively.Described flushing control circuit connects flushing machine, controls flushing machine and rinses corresponding position.

Described control circuit comprises controller, reset circuit, key control circuit, laser positioning circuit, infrared output control circuit, rinses control circuit, display circuit, indicating circuit, dimmer circuit.Described controller connects reset circuit, key control circuit, display circuit, laser positioning circuit, infrared output control circuit respectively, rinses control circuit, indicating circuit, dimmer circuit.

Refer to Fig. 2, described reset circuit comprises the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the first resistance R1, the second resistance R2, the first crystal oscillator X1, reset switch; The first end of described 3rd electric capacity C3 connect the first end of the first resistance R1, the first end of the second resistance R2, the 4th pin RESET of controller, the second resistance R2 the second end connect the first end of reset switch, the second end of reset switch connects voltage VCC; The second end ground connection of the first resistance R1, the first end ground connection of the first electric capacity C1, the first end ground connection of the second electric capacity C2; The 3rd pin X1 that second end of the second electric capacity C2 connects the first end of the first crystal oscillator X1, second end of the second pin X2 of controller, the first electric capacity C1 connects second end of the first crystal oscillator X1, controller.

Described key control circuit comprises some buttons, the first end ground connection of each button, a pin of the second end difference connection control device.

Described display circuit comprises control chip U1, at least one LED group, and LED group is by each pin of resistance connection control chip U1 in parallel.

Described laser positioning circuit comprises the first audion, the first diode, the first relay, the 4th resistance; The grounded collector of described first audion, the base stage of the first audion connects the 4th resistance, and the emitter stage of the first audion connects the positive pole of the first diode, first end to relay; The negative pole of the first diode connects voltage VCC, and the second end of the first relay connects voltage VCC.

Described infrared output control circuit comprises the second audion, the second diode, the second relay, the 5th resistance; The grounded collector of described second audion, the base stage of the second audion connects the 5th resistance, and the emitter stage of the second audion connects the positive pole of the second diode, first end to relay; The negative pole of the second diode connects voltage VCC, and the second end of the second relay connects voltage VCC; Knob connects infrared output control circuit, and infrared output control circuit connects cold light source near-infrared LED lamp, and knob is in order to control cold light source near-infrared LED lamp luminous power.

Described flushing control circuit comprises the 3rd audion, the 3rd diode, the 3rd relay, the 6th resistance; The grounded collector of described 3rd audion, the base stage of the 3rd audion connects the 6th resistance, and the emitter stage of the 3rd audion connects the positive pole of the 3rd diode, the first end to relay; The negative pole of the 3rd diode connects voltage VCC, and the second end of the 3rd relay connects voltage VCC.

Refer to Fig. 3, described dimmer circuit comprises electronic potentiometer, the 4th audion, control end, control end comprises at least two intensity control switches, the 4th electric capacity, the 5th electric capacity, the 4th resistance, the 5th resistance, one end ground connection of intensity control switches, and the other end connects electronic potentiometer; One end of 4th electric capacity connects electronic potentiometer, and the two ends of the 5th electric capacity connect electronic potentiometer respectively; One end of 5th resistance connects electronic potentiometer, and the other end connects the base stage of the 4th audion, and the colelctor electrode of the 4th audion connects the second end of cold light source near-infrared LED lamp, the second end of the 4th resistance, the grounded emitter of the 4th audion; The first end of cold light source near-infrared LED lamp, the first end of the 4th resistance connect power supply.

Embodiment two

A kind of hand-held cold light source near-infrared cytothesis instrument, described cytothesis instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, housing;

Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing; Described control circuit connects cold light source near-infrared LED lamp, laser positioning mechanism respectively;

Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical.

In sum, the hand-held cold light source near-infrared cytothesis instrument that the utility model proposes, adopt cold light source near-infrared LED lamp, can closely repair, penetration capacity is strong, and irritation cell is movable better, improves cytothesis effect.

Here description of the present utility model and application is illustrative, not wants by scope restriction of the present utility model in the above-described embodiments.Distortion and the change of embodiment disclosed are here possible, are known for the replacement of embodiment those those of ordinary skill in the art and the various parts of equivalence.Those skilled in the art are noted that when not departing from spirit of the present utility model or substitutive characteristics, this utility model can in other forms, structure, layout, ratio, and to realize with other assembly, material and parts.When not departing from this utility model scope and spirit, can other distortion be carried out here to disclosed embodiment and change.

Claims (10)

1. a hand-held cold light source near-infrared cytothesis instrument, is characterized in that, described cytothesis instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, flushing machine, gauge tap, knob, housing;

Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing, and gauge tap, knob are arranged at outside housing;

Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical;

Described control circuit connects cold light source near-infrared LED lamp, flushing machine, gauge tap, knob, laser positioning mechanism respectively;

Described flushing control circuit connects flushing machine, controls flushing machine and rinses corresponding position;

Described control circuit comprises controller, reset circuit, key control circuit, laser positioning circuit, infrared output control circuit, rinses control circuit, display circuit, indicating circuit, dimmer circuit;

Described controller connects reset circuit, key control circuit, display circuit, laser positioning circuit, infrared output control circuit respectively, rinses control circuit, indicating circuit, dimmer circuit;

Described reset circuit comprises the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the first resistance R1, the second resistance R2, the first crystal oscillator X1, reset switch; The first end of described 3rd electric capacity C3 connect the first end of the first resistance R1, the first end of the second resistance R2, the 4th pin RESET of controller, the second resistance R2 the second end connect the first end of reset switch, the second end of reset switch connects voltage VCC; The second end ground connection of the first resistance R1, the first end ground connection of the first electric capacity C1, the first end ground connection of the second electric capacity C2; The 3rd pin X1 that second end of the second electric capacity C2 connects the first end of the first crystal oscillator X1, second end of the second pin X2 of controller, the first electric capacity C1 connects second end of the first crystal oscillator X1, controller;

Described key control circuit comprises some buttons, the first end ground connection of each button, a pin of the second end difference connection control device;

Described display circuit comprises control chip U1, at least one LED group, and LED group is by each pin of resistance connection control chip U1 in parallel;

Described laser positioning circuit comprises the first audion, the first diode, the first relay, the 4th resistance; The grounded collector of described first audion, the base stage of the first audion connects the 4th resistance, and the emitter stage of the first audion connects the positive pole of the first diode, first end to relay; The negative pole of the first diode connects voltage VCC, and the second end of the first relay connects voltage VCC;

Described infrared output control circuit comprises the second audion, the second diode, the second relay, the 5th resistance; The grounded collector of described second audion, the base stage of the second audion connects the 5th resistance, and the emitter stage of the second audion connects the positive pole of the second diode, first end to relay; The negative pole of the second diode connects voltage VCC, and the second end of the second relay connects voltage VCC; Knob connects infrared output control circuit, and infrared output control circuit connects cold light source near-infrared LED lamp, and knob is in order to control cold light source near-infrared LED lamp luminous power;

Described flushing control circuit comprises the 3rd audion, the 3rd diode, the 3rd relay, the 6th resistance; The grounded collector of described 3rd audion, the base stage of the 3rd audion connects the 6th resistance, and the emitter stage of the 3rd audion connects the positive pole of the 3rd diode, the first end to relay; The negative pole of the 3rd diode connects voltage VCC, and the second end of the 3rd relay connects voltage VCC;

Described dimmer circuit comprises electronic potentiometer, the 4th audion, control end, control end comprises at least two intensity control switches, the 4th electric capacity, the 5th electric capacity, the 4th resistance, the 5th resistance, one end ground connection of intensity control switches, the other end connects electronic potentiometer; One end of 4th electric capacity connects electronic potentiometer, and the two ends of the 5th electric capacity connect electronic potentiometer respectively; One end of 5th resistance connects electronic potentiometer, and the other end connects the base stage of the 4th audion, and the colelctor electrode of the 4th audion connects the second end of cold light source near-infrared LED lamp, the second end of the 4th resistance, the grounded emitter of the 4th audion; The first end of cold light source near-infrared LED lamp, the first end of the 4th resistance connect power supply.

2. a hand-held cold light source near-infrared cytothesis instrument, is characterized in that, described cytothesis instrument comprises: control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning mechanism, housing;

Described control circuit, cold light source near-infrared LED lamp, focusing unit, laser positioning organization establishes are in housing; Described control circuit connects cold light source near-infrared LED lamp, laser positioning mechanism respectively;

Described focusing unit is arranged near cold light source near-infrared LED lamp, and the light that sent by cold light source near-infrared LED lamp focuses on, and makes cold light source near-infrared LED lamp, light direction that laser positioning mechanism sends is identical.

3. hand-held cold light source near-infrared cytothesis instrument according to claim 2, is characterized in that:

Described control circuit comprises controller, reset circuit, key control circuit, laser positioning circuit, infrared output control circuit, rinses control circuit, display circuit, indicating circuit, dimmer circuit;

Described controller connects reset circuit, key control circuit, display circuit, laser positioning circuit, infrared output control circuit respectively, rinses control circuit, indicating circuit, dimmer circuit.

4. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described reset circuit comprises the first electric capacity C1, the second electric capacity C2, the 3rd electric capacity C3, the first resistance R1, the second resistance R2, the first crystal oscillator X1, reset switch; The first end of described 3rd electric capacity C3 connect the first end of the first resistance R1, the first end of the second resistance R2, the 4th pin RESET of controller, the second resistance R2 the second end connect the first end of reset switch, the second end of reset switch connects voltage VCC; The second end ground connection of the first resistance R1, the first end ground connection of the first electric capacity C1, the first end ground connection of the second electric capacity C2; The 3rd pin X1 that second end of the second electric capacity C2 connects the first end of the first crystal oscillator X1, second end of the second pin X2 of controller, the first electric capacity C1 connects second end of the first crystal oscillator X1, controller.

5. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described key control circuit comprises some buttons, the first end ground connection of each button, a pin of the second end difference connection control device;

Described display circuit comprises control chip U1, at least one LED group, and LED group is by each pin of resistance connection control chip U1 in parallel.

6. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described laser positioning circuit comprises the first audion, the first diode, the first relay, the 4th resistance; The grounded collector of described first audion, the base stage of the first audion connects the 4th resistance, and the emitter stage of the first audion connects the positive pole of the first diode, first end to relay; The negative pole of the first diode connects voltage VCC, and the second end of the first relay connects voltage VCC.

7. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described infrared output control circuit comprises the second audion, the second diode, the second relay, the 5th resistance; The grounded collector of described second audion, the base stage of the second audion connects the 5th resistance, and the emitter stage of the second audion connects the positive pole of the second diode, first end to relay; The negative pole of the second diode connects voltage VCC, and the second end of the second relay connects voltage VCC.

8. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described flushing control circuit comprises the 3rd audion, the 3rd diode, the 3rd relay, the 6th resistance; The grounded collector of described 3rd audion, the base stage of the 3rd audion connects the 6th resistance, and the emitter stage of the 3rd audion connects the positive pole of the 3rd diode, the first end to relay; The negative pole of the 3rd diode connects voltage VCC, and the second end of the 3rd relay connects voltage VCC.

9. hand-held cold light source near-infrared cytothesis instrument according to claim 2, is characterized in that:

Described instrument for repairing also comprises gauge tap, knob, and gauge tap, knob are arranged at outside housing, and gauge tap, knob be connection control circuit respectively;

Described knob connects an infrared output control circuit, and infrared output control circuit connects cold light source near-infrared LED lamp, and knob is in order to control cold light source near-infrared LED lamp luminous power.

10. hand-held cold light source near-infrared cytothesis instrument according to claim 3, is characterized in that:

Described dimmer circuit comprises electronic potentiometer, the 4th audion, control end, control end comprises at least two intensity control switches, the 4th electric capacity, the 5th electric capacity, the 4th resistance, the 5th resistance, one end ground connection of intensity control switches, the other end connects electronic potentiometer; One end of 4th electric capacity connects electronic potentiometer, and the two ends of the 5th electric capacity connect electronic potentiometer respectively; One end of 5th resistance connects electronic potentiometer, and the other end connects the base stage of the 4th audion, and the colelctor electrode of the 4th audion connects the second end of cold light source near-infrared LED lamp, the second end of the 4th resistance, the grounded emitter of the 4th audion; The first end of cold light source near-infrared LED lamp, the first end of the 4th resistance connect power supply.