CN203379210U - Portable multifunctional treatment equipment - Google Patents

Abstract

The utility model discloses portable multifunctional treatment equipment. The portable multifunctional treatment equipment comprises a first power module, a second power module, a first constant temperature control module, a second constant temperature control module, a display module, a laser output module, a signal control module, a voltage converting module and a power supply switching circuit, wherein the first power module is connected with the second power module through the power supply switching circuit, the second power module is connected with the first constant temperature control module, the second constant temperature control module, the signal control module, the laser output module and the voltage converting module, the signal control module is connected with the display module, the first constant temperature control module, the second constant temperature control module, the laser output module and the voltage converting module, the laser output module is connected with the second constant temperature control module, and the voltage converting module is connected with the display module. The portable multifunctional treatment equipment has the advantages that the power supplying methods are diversified and treatment can still be carried out on the occasion that no external power supply is connected to the portable multifunctional treatment equipment.

Description

The portable multi-function therapeutic equipment

Technical field

This utility model belongs to the treatment technology field, particularly a kind of portable multi-function therapeutic equipment.

Background technology

In clinical practice for the requirement of therapeutic equipment multipurpose, miniaturization increasingly.Multipurpose means more the output of wide region luminous power, and miniaturization requires that equipment volume is less, weight is lighter so that mobile and carry; The semiconductor laser treatment apparatus that in currently available technology, output is 15W can not be satisfied with in clinical practice the requirement for therapeutic equipment, and its power supply mode is single, the essential external power source that connects in i.e. use process, under the occasion for some without the external power source access, equipment just can't be used.

The utility model content

Technical problem to be solved in the utility model is to provide the variation of a kind of power supply mode and portable multi-function therapeutic equipment that still can the continual cure operation under the occasion without the external power source access.

For solving the problems of the technologies described above, this utility model provides a kind of portable multi-function therapeutic equipment, comprising: the first power module, second source module, the first thermostatic control module, the second thermostatic control module, display module, Laser output module, signal controlling module, voltage transformation module and power supply switch circuit; Described the first power module is connected with described second source module by described power supply switch circuit; Described second source module is connected with described the first thermostatic control module, described the second thermostatic control module, described signal controlling module, described Laser output module and described voltage conversion module respectively; Described signal controlling module is connected with described display module, described the first thermostatic control module, described the second thermostatic control module, described Laser output module and described voltage transformation module respectively; Described Laser output module is connected with described the second thermostatic control module; Described voltage transformation module is connected with described display module.

Further, described the first power module comprises: the AC-DC Switching Power Supply.

Further, described second source module comprises: at least one battery, charge-discharge control circuit and battery protecting circuit; Described battery is connected with described charge-discharge control circuit, described battery protecting circuit and described the first thermostatic control module respectively; Described charge-discharge control circuit is connected with described power supply switch circuit, described voltage transformation module, described signal controlling module, described the second thermostatic control module and described Laser output module respectively.

Further, described signal controlling module comprises: the first single-chip microcomputer, second singlechip; Described the first single-chip microcomputer is connected with described display module, described charge-discharge control circuit, described Laser output module and described voltage transformation module respectively; Described second singlechip is connected with described the second thermostatic control module, described voltage transformation module respectively; Described the first single-chip microcomputer is connected with described second singlechip.

Further, described Laser output module comprises: laser instrument, constant-flow driver and Laser Power Devices; Described laser instrument is connected with described constant-flow driver, described the second thermostatic control module respectively; Described constant-flow driver is connected with described Laser Power Devices, described the first single-chip microcomputer and described laser instrument respectively; Described Laser Power Devices are connected with described charge-discharge control circuit.

Further, described the first thermostatic control module comprises: the first constant temperature control circuit, the first semiconductor cooler, the first hygrosensor and the first heat-sink unit; Described the first constant temperature control circuit is connected with described second singlechip, described the first semiconductor cooler and described charge-discharge control circuit respectively; Described the first hygrosensor is connected with described second singlechip, described battery respectively; Described the first semiconductor cooler is placed in described battery bottom for refrigeration; Described the first heat-sink unit is connected with described charge-discharge control circuit, and is placed in described the first semiconductor cooler bottom for heat radiation.

Further, described the second thermostatic control module comprises: the second constant temperature control circuit, the second semiconductor cooler, the second hygrosensor and the second heat-sink unit; Described the second constant temperature control circuit is connected with described second singlechip, described the second semiconductor cooler and described charge-discharge control circuit respectively; Described the second hygrosensor is connected with described second singlechip, described laser instrument respectively; Described the second semiconductor cooler is placed in described laser instrument bottom for refrigeration; Described the second heat-sink unit is connected with described charge-discharge control circuit, and is placed in described the second semiconductor cooler bottom for heat radiation.

Further, also comprise alarm module; Described alarm module comprises: detecting unit, indicating member; Described detecting unit comprises: power sense circuit, safety interlocking testing circuit, light temperature sensing circuit, photoelectric current testing circuit and battery charging and discharging state detection circuit; Described the first single-chip microcomputer is connected and described battery charging and discharging state detection circuit with described power sense circuit, described safety interlocking testing circuit, described smooth temperature sensing circuit, described photoelectric current testing circuit respectively; Described indicating member is display lamp and/or speaker, and described the first single-chip microcomputer is connected with described display lamp, described speaker respectively; Described voltage transformation module comprises: electric pressure converter; Described display module is touch-screen display.

Further, described AC-DC Switching Power Supply is selected bright latitude medical treatment power supply MPS-200-12; Described Laser Power Devices are selected the PMC 8818TS of Ericsson; Described the first semiconductor cooler, described the second semiconductor cooler are selected the 9500/128/040B of Dahe Thermomagnetic Electronic Co., Ltd., Hangzhou; Described laser instrument is selected the K98DA4C-15.00W of Beijing Kai Pulin photoelectricity company limited; Described the first heat-sink unit, described the second heat-sink unit are radiator and electric fan; Described radiator is placed in described the first semiconductor cooler or described the second semiconductor cooler bottom; Described electric fan is placed in described radiator air passage end, and is connected with described charge-discharge control circuit.

A kind of portable multi-function therapeutic equipment that this utility model provides, in the actual job process, the first power module is connected with the second source module by power supply switch circuit; The second source module is connected with the first thermostatic control module, the second thermostatic control module, signal controlling module, Laser output module and voltage conversion module respectively; The signal controlling module is connected with display module, the first thermostatic control module, the second thermostatic control module, Laser output module and voltage transformation module respectively; The Laser output module is connected with the second thermostatic control module; Voltage transformation module is connected with display module; Realized when the first power module can be realized the power supply input, this equipment is charged by the first electric power source pair of module second source module, also by the normal operation of first this equipment of electric power source pair of module, powered simultaneously, when the first power module can't be realized the power supply input (as had a power failure), this equipment is realized continuing power supply by second source module discharge process, and then realizes the operation of therapeutic equipment continual cure.

The accompanying drawing explanation

In order to be illustrated more clearly in this utility model embodiment or technical scheme of the prior art, below will the accompanying drawing of required use in embodiment be briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The portable multi-function therapeutic equipment theory structure block diagram that Fig. 1 provides for this utility model embodiment mono-.

The portable multi-function therapeutic equipment theory structure block diagram that Fig. 2 provides for this utility model embodiment bis-.

The schematic diagram of safety interlocking testing circuit in the portable multi-function therapeutic equipment that Fig. 3 provides for this utility model embodiment mono-, embodiment bis-.

The structure principle chart of radiator in the portable multi-function therapeutic equipment that Fig. 4 provides for this utility model embodiment mono-, embodiment bis-.

The structural representation of safety interlock union joint in the portable multi-function therapeutic equipment that Fig. 5 provides for this utility model embodiment mono-, embodiment bis-.

The structural representation of safety interlock Connection Block in the portable multi-function therapeutic equipment that Fig. 6 provides for this utility model embodiment mono-, embodiment bis-.

The specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is only this utility model part embodiment, rather than whole embodiment.Embodiment based in this utility model, the every other embodiment that those of ordinary skills obtain, belong to the scope that this utility model is protected.

Embodiment mono-

Referring to Fig. 1, a kind of portable multi-function therapeutic equipment that this utility model embodiment provides comprises: the first power module, second source module, the first thermostatic control module, the second thermostatic control module, display module, Laser output module, signal controlling module, voltage transformation module 109 and power supply switch circuit 100.Wherein, the first power module is connected with the second source module by power supply switch circuit 100; The second source module is connected with the first thermostatic control module, the second thermostatic control module, signal controlling module, Laser output module and voltage conversion module 109 respectively; The signal controlling module is connected with display module, the first thermostatic control module, the second thermostatic control module, Laser output module and voltage transformation module 109 respectively; The Laser output module is connected with the second thermostatic control module; Voltage transformation module 109 is connected with described display module.

In the present embodiment one, the first power module comprises: AC-DC Switching Power Supply 101; Preferably, AC-DC Switching Power Supply 101 is selected the bright latitude medical treatment in Taiwan power supply MPS-200-12, the output of 12V single channel, and power is 200W, efficiency is 84%, is of a size of 177.8*107.2*35.5mm.

In the present embodiment one, the second source module comprises: at least one battery 201, charge-discharge control circuit 202 and battery protecting circuit 203.Wherein, battery 201 is connected with charge-discharge control circuit 202, battery protecting circuit 203 and the first thermostatic control module respectively; Charge-discharge control circuit 202 is connected with power supply switch circuit 100, voltage transformation module 901, signal controlling module, the second thermostatic control module and Laser output module respectively.Preferably, battery 201 is selected the 4 strings 3 ferric phosphate lithium cell group also that is nominally 3.2V, 3Ah, and the nominal value after its combination is 12.8V, 9Ah.

In the present embodiment one, the signal controlling module comprises: the first single-chip microcomputer 801(core control single chip computer), second singlechip 802(thermostatic control single-chip microcomputer).Wherein, the first single-chip microcomputer 801 is connected with display module, charge-discharge control circuit 202, Laser output module respectively and voltage transformation module 901 connections; Second singlechip 802 is connected with the second thermostatic control module, voltage transformation module 809 respectively.Simultaneously, the first single-chip microcomputer 801 is connected with second singlechip.

In the present embodiment one, the Laser output module comprises: laser instrument 601, constant-flow driver 602 and Laser Power Devices 603.Wherein, laser instrument 601 is connected with constant-flow driver 602, the second thermostatic control module respectively; Constant-flow driver 602 is connected with Laser Power Devices 603, the first single-chip microcomputer 801 and laser instrument 601 respectively; Laser Power Devices 603 are connected with charge-discharge control circuit 202.

In the present embodiment one, the first thermostatic control module comprises: the first constant temperature control circuit 302, the first semiconductor cooler 303, the first hygrosensor 301 and the first heat-sink unit.Wherein, the first constant temperature control circuit 302 is connected with second singlechip 802, the first semiconductor cooler 303 and charge-discharge control circuit 202 respectively; The first hygrosensor 301 is connected with second singlechip 802, battery 201 respectively; The first semiconductor cooler 303 is placed in battery 201 bottoms for refrigeration; The first heat-sink unit is connected with charge-discharge control circuit 202, and is placed in the first semiconductor cooler 303 bottoms for heat radiation.Preferably, the first heat-sink unit is radiator and electric fan, and radiator is placed in the first semiconductor cooler 303, and electric fan is placed in the radiator air passage end, and is connected with charge-discharge control circuit 202, for thermal current is blowed to outside air.

In the present embodiment one, the second thermostatic control module comprises: the second constant temperature control circuit 402, the second semiconductor cooler 403, the second hygrosensor 401 and the second heat-sink unit.Wherein, the second constant temperature control circuit 402 is connected with second singlechip 802, the second semiconductor cooler 403 and charge-discharge control circuit 202 respectively; The second hygrosensor 401 is connected with second singlechip 802, laser instrument 601 respectively; The second semiconductor cooler 403 is placed in laser instrument 601 bottoms for refrigeration; The second heat-sink unit is connected with charge-discharge control circuit 202, and is placed in the second semiconductor cooler 403 bottoms for heat radiation.Preferably, the second heat-sink unit is radiator and electric fan, and radiator is placed in the second semiconductor cooler 403, and electric fan is placed in the radiator air passage end, and is connected with charge-discharge control circuit 202, for thermal current is blowed to outside air.

In the present embodiment one, for improving the security performance of portable multi-function therapeutic equipment in the operation engineering, also comprise alarm module, wherein, alarm module comprises: detecting unit 701, indicating member 702.Simultaneously, detecting unit 701, indicating member 702 are connected with the first single-chip microcomputer 801 by the security alarm interface respectively.Preferably, detecting unit comprises: power sense circuit, battery charging and discharging state detection circuit, safety interlocking testing circuit, light temperature sensing circuit, photoelectric current testing circuit, foot switch connection detection circuit and optical fiber connection detection circuit.Wherein, the first single-chip microcomputer 801 is connected with each circuit in above-mentioned detecting unit respectively, with the signal of telecommunication of each testing circuit output of Real-time Obtaining, and delivers to indicating member and carry out safe indication after software or hardware handles.Indicating member is display lamp and/or speaker and the indication of other software operation information.The first single-chip microcomputer 801 also is connected with above-mentioned display lamp, speaker and the indication of other software operation information respectively.

In the present embodiment one, referring to Fig. 3, the safety interlocking testing circuit comprises: safety interlock S1, current-limiting resistance S3 and optical coupling sheet S, 2.Wherein, safety interlock S1 is connected with the first single-chip microcomputer 801 by optical coupling sheet S2 and realizes that security of system detects.Optical coupling sheet S2 is electrically connected to (safety interlock S1, optical coupling sheet S2 also are connected with ground wire respectively) by current-limiting resistance S3 with extraneous power supply.

The present embodiment one is in practical work process, second singlechip 802 gathers the magnitude of voltage on the first hygrosensor 301 and the second hygrosensor 401 by built-in ADC, and then obtain battery 201 and laser instrument 601 real time temperature numerical value, and obtained Temperature numerical is transferred to the first single-chip microcomputer 801, the first single-chip microcomputer 801 is by software program design temperature threshold value, when obtained Temperature numerical surpasses the design temperature threshold value, the first single-chip microcomputer 801 transfers to alarm module by alarm signal and realizes reporting to the police.Simultaneously, second singlechip 802 also by obtained Temperature numerical respectively correspondence transfer to the first constant temperature control circuit 302, the second constant temperature control circuit 402, and then by 302 pairs of the first semiconductor cooler 303 output refrigeration work consumptions of the first constant temperature control circuit, 402 pairs of the second semiconductor cooler 403 output refrigeration work consumptions of the second constant temperature control circuit, controlled respectively, finally laser instrument 601 and battery 201 operating temperatures are controlled, realized the stable battery 201 working environment safety and stability that reach of laser instrument 601 Output optical power.Simultaneously, the heat produced in battery 201 work process passes through by the first semiconductor cooler 303 heat produced in radiators, laser instrument 601 work process and passes through radiators by the second semiconductor cooler 403, and finally by the electric fan that is placed in the radiator air passage end, heat is blowed to external environment.

In the present embodiment one, display module is the touch-screen display 501 consisted of LCDs and touch screen (resistance-type); And be connected with the first single-chip microcomputer 801 by the touch screen display interface, realize the accurate control of operator to therapeutic equipment.

In the present embodiment one, voltage transformation module 901 comprises: electric pressure converter.Wherein, electric pressure converter is connected the conversion that realizes magnitude of voltage with charge-discharge control circuit.

The portable multi-function therapeutic equipment that the present embodiment one provides, in practical work process, AC-DC Switching Power Supply 101 is connected with charge-discharge control circuit 202 by power supply switch circuit 100, being connected in external power source (being AC power supplies) situation, can realize the charging of 101 pairs of batteries 201 of AC-DC Switching Power Supply and the power supply of whole therapeutic equipment; There is no, in external power source (being AC power supplies) situation, can to realize by the discharge process of battery 201 power supply of whole therapeutic equipment; Simultaneously, charge-discharge control circuit 202, by being connected with DC-DC translation interface in electric pressure converter, becomes system required voltage value (3.3V, 5V, 12V) by voltage transitions; Charge-discharge control circuit 202, by being connected with Laser Power Devices 603, provides laser instrument 601 required voltages and power; Charge-discharge control circuit 202, by being connected with the second constant temperature control circuit 402, provides the 12V power supply; Charge-discharge control circuit 202, by being connected with electric fan, provides the 12V power supply.And the first single-chip microcomputer 801 is connected with constant-flow driver 602, display module and alarm module respectively, and by built-in DA output, on the one hand for photoelectric current numerical value is set, and then laser optical power numerical value is set, control on the other hand touch-screen display 501 signals and receive and respond demonstration, and by each testing circuit, equipment connection is carried out to safety detection, finally realize the safe bright dipping of laser instrument 601.

Embodiment bis-

Referring to Fig. 2, the another kind of portable multi-function therapeutic equipment that this utility model embodiment provides, comprise: AC-DC Switching Power Supply 101, power supply switch circuit 100, at least one battery 201, charge-discharge control circuit 202, battery protecting circuit 203, the first single-chip microcomputer 801(core control single chip computer), second singlechip 802(thermostatic control single-chip microcomputer), laser instrument 601, constant-flow driver 602, Laser Power Devices 603, the first hygrosensor 301, the second constant temperature control circuit 402, the second semiconductor cooler 403, the second hygrosensor 401, the second heat-sink unit, detecting unit 701 and indicating member 702.

Wherein, AC-DC Switching Power Supply 101 is connected with charge-discharge control circuit 202 by power supply switch circuit 100, and battery 201 is connected with the first hygrosensor 301, battery protecting circuit 203 respectively, and the first hygrosensor 301 is connected with the first single-chip microcomputer 801; Other each circuit devcie annexations are all identical with embodiment mono-, repeat no more herein.

In the present embodiment two, be connected Real-time Collection battery 201 operating temperature numerical signals with the first single-chip microcomputer 801 by the first hygrosensor 301, and this signal is transferred to the first single-chip microcomputer 801, the first single-chip microcomputer 801 is by the design temperature threshold value, when the Temperature numerical of gathered battery 201 surpasses the temperature threshold of setting, the first single-chip microcomputer 801 is controlled charge-discharge control circuits 202 and is stopped charging, and then realizes battery 201 safety, stablizes operation.

In embodiment that this utility model provides mono-and embodiment bis-, for reaching the portable purposes such as the therapeutic equipment volume is little, lightweight, can select following device as this utility model installation component:

1, AC-DC Switching Power Supply 101 is selected the bright latitude medical treatment in Taiwan power supply MPS-200-12, the output of 12V single channel, and power is 200W, efficiency is 84%, is of a size of 177.8*107.2*35.5mm.

2, Laser Power Devices 603 select Ericsson PMC 8818TS(Sweden to manufacture), its input voltage range is 8.3-16Vdc, programmable Voltage-output, 0.75-5.5Vdc, 16A, conversion efficiency, up to 96%, is of a size of 33*10.92*8.52mm.Simultaneously, because of its Ultra-High Efficiency, it is upper that Laser Power Devices 603 can directly be mounted on PCB, adopts the air flow automatic heat radiation.

3, the first semiconductor cooler 303, the second semiconductor cooler 403 are selected Dahe Thermomagnetic Electronic Co., Ltd., Hangzhou's product, and its serial number is 9500/128/040B.

4, laser instrument 601(semiconductor laser, 980nm, 15W) select Beijing Kai Pulin photoelectricity company limited product, its product ID is K98DA4C-15.00W.

5, radiator is square aluminum air-cooled radiator (referring to Fig. 4), and its parameter is of a size of 92*110*67.

6, safety interlock is selected detection and the test instrunment special connector-lemo metal connector that model is TGG.1B.304.CLAD52Z; Wherein, referring to Fig. 5-6, the union joint of detection and test instrunment special connector-lemo metal connector partly passes through 1,2,3,4 pin-strappings, and be fixedly connected with the formation safety interlock with the Connection Block mechanical type.

7, the managing chip of charge-discharge control circuit is selected the linear(Linear) LTC4008 of company, its input voltage is 6-28V, and output voltage is 3-28V, and minimum pressure drop is 0.5V, and voltage accuracy is ± 0.8%, the charging current maximum can reach 4A.

The embodiment mono-that this utility model provides, embodiment bis-are by above-mentioned efficient device, making the portable multi-function therapeutic equipment volume after assembling is only 215 (W) * 245 (L) * 315 (H) mm, complete machine weight is only 4KG, its laser instrument 601 output power ranges can reach 1W-18W, and efficiency can provide the electric current output of 5.5V 16A up to 96% Laser Power Devices PMC8818TS, the power stage of enough drive laser 18W, above device architecture and performance have realized the characteristics of therapeutic equipment miniaturization, portable and Output optical power wide ranges.

It should be noted last that, the above specific embodiment is only unrestricted in order to the technical solution of the utility model to be described, although with reference to example, this utility model is had been described in detail, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model, and not breaking away from the spirit and scope of technical solutions of the utility model, it all should be encompassed in the middle of claim scope of the present utility model.

Claims (9)

1. a portable multi-function therapeutic equipment, it is characterized in that, comprising: the first power module, second source module, the first thermostatic control module, the second thermostatic control module, display module, Laser output module, signal controlling module, voltage transformation module and power supply switch circuit;

Described the first power module is connected with described second source module by described power supply switch circuit;

Described second source module is connected with described the first thermostatic control module, described the second thermostatic control module, described signal controlling module, described Laser output module and described voltage conversion module respectively;

Described signal controlling module is connected with described display module, described the first thermostatic control module, described the second thermostatic control module, described Laser output module and described voltage transformation module respectively;

Described Laser output module is connected with described the second thermostatic control module;

Described voltage transformation module is connected with described display module.

2. equipment according to claim 1, is characterized in that, described the first power module comprises: the AC-DC Switching Power Supply.

3. equipment according to claim 2, is characterized in that, described second source module comprises: at least one battery, charge-discharge control circuit and battery protecting circuit;

Described battery is connected with described charge-discharge control circuit, described battery protecting circuit and described the first thermostatic control module respectively;

Described charge-discharge control circuit is connected with described power supply switch circuit, described voltage transformation module, described signal controlling module, described the second thermostatic control module and described Laser output module respectively.

4. equipment according to claim 3, is characterized in that, described signal controlling module comprises: the first single-chip microcomputer, second singlechip;

Described the first single-chip microcomputer is connected with described display module, described charge-discharge control circuit, described Laser output module and described voltage transformation module respectively;

Described second singlechip is connected with described the second thermostatic control module, described voltage transformation module respectively;

Described the first single-chip microcomputer is connected with described second singlechip.

5. equipment according to claim 4, is characterized in that, described Laser output module comprises: laser instrument, constant-flow driver and Laser Power Devices;

Described laser instrument is connected with described constant-flow driver, described the second thermostatic control module respectively;

Described constant-flow driver is connected with described Laser Power Devices, described the first single-chip microcomputer and described laser instrument respectively;

Described Laser Power Devices are connected with described charge-discharge control circuit.

6. equipment according to claim 5, is characterized in that, described the first thermostatic control module comprises: the first constant temperature control circuit, the first semiconductor cooler, the first hygrosensor and the first heat-sink unit;

Described the first constant temperature control circuit is connected with described second singlechip, described the first semiconductor cooler and described charge-discharge control circuit respectively;

Described the first hygrosensor is connected with described second singlechip, described battery respectively;

Described the first semiconductor cooler is placed in described battery bottom for refrigeration;

Described the first heat-sink unit is connected with described charge-discharge control circuit, and is placed in described the first semiconductor cooler bottom for heat radiation.

7. equipment according to claim 6, is characterized in that, described the second thermostatic control module comprises: the second constant temperature control circuit, the second semiconductor cooler, the second hygrosensor and the second heat-sink unit;

Described the second constant temperature control circuit is connected with described second singlechip, described the second semiconductor cooler and described charge-discharge control circuit respectively;

Described the second hygrosensor is connected with described second singlechip, described laser instrument respectively;

Described the second semiconductor cooler is placed in described laser instrument bottom for refrigeration;

Described the second heat-sink unit is connected with described charge-discharge control circuit, and is placed in described the second semiconductor cooler bottom for heat radiation.

8. equipment according to claim 7, is characterized in that, also comprises alarm module;

Described alarm module comprises: detecting unit, indicating member;

Described detecting unit comprises: power sense circuit, safety interlocking testing circuit, light temperature sensing circuit, photoelectric current testing circuit and battery charging and discharging state detection circuit;

Described the first single-chip microcomputer is connected and described battery charging and discharging state detection circuit with described power sense circuit, described safety interlocking testing circuit, described smooth temperature sensing circuit, described photoelectric current testing circuit respectively;

Described indicating member is display lamp and/or speaker, and described the first single-chip microcomputer is connected with described display lamp, described speaker respectively;

Described voltage transformation module comprises: electric pressure converter;

Described display module is touch-screen display.

9. equipment according to claim 8 is characterized in that:

Described AC-DC Switching Power Supply is selected bright latitude medical treatment power supply MPS-200-12;

Described Laser Power Devices are selected the PMC 8818TS of Ericsson;

Described the first semiconductor cooler, described the second semiconductor cooler are selected the 9500/128/040B of Dahe Thermomagnetic Electronic Co., Ltd., Hangzhou;

Described laser instrument is selected the K98DA4C-15.00W of Beijing Kai Pulin photoelectricity company limited;

Described the first heat-sink unit, described the second heat-sink unit are radiator and electric fan;

Described radiator is placed in described the first semiconductor cooler or described the second semiconductor cooler bottom;

Described electric fan is placed in described radiator air passage end, and is connected with described charge-discharge control circuit.

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