CN106801911A - A kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment - Google Patents

Abstract

The present invention relates to a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment, it is characterized in that, it includes being arranged at the temperature-detecting device of each collection point, humidity detector and control device, described temperature-detecting device, humidity detector is connected to described control device, described control device is also connected with being arranged at the electrical heating gas-fired infrared radiant heating system device and humidity control apparatus of collection point, described control device is also associated with wireless transceiver, described wireless transceiver is wirelessly communicated with remote control terminal, described remote control terminal is connected with control PC；Protective housing is provided with outside described control device, neutral-point grounding resistance cabinet is provided with outside described remote control terminal.

Description

A kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment

Technical field

The invention belongs to heating control technology field, specifically a kind of prison for electrical heating gas-fired infrared radiant heating system equipment Control system.

Background technology

Currently, the contradiction of China's energy scarcity, resource environment constraint and economic rapid growth, it has also become Science in Future in China economy The severe challenge of social development.Energy saving is not only the important measures alleviated energy constraint contradiction, ensure economic security of the country, And be the important means strengthened and improved macro-regulation, improve the quality of economic growth with benefit.

The gas-fired infrared radiant heating system equipment of electrical heating type is used in large-sized workshop of the prior art and plant, with Environment in factory building and plant is heated；But lack for the gas-fired infrared radiant heating system equipment of this electrical heating type Unified control, causes the waste of electric energy；This is the deficiencies in the prior art part.

Therefore, the gas-fired infrared radiant heating system equipment for electrical heating type of the prior art lacks and is uniformly controlled, and causes The defect of waste of energy, there is provided design a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment；It is existing to solve Drawbacks described above in technology is necessary very much.

The content of the invention

It is an object of the present invention to be directed to the defect that above-mentioned prior art is present, there is provided design is a kind of red for electrical heating The monitoring system of UV radiation heating equipment, to solve above-mentioned technical problem.

To achieve the above object, the present invention provides following technical scheme：

A kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment, it is characterised in that it includes being arranged at each collection Temperature-detecting device, humidity detector and the control device put, described temperature-detecting device, humidity detector connection To described control device, described control device be also connected with being arranged at collection point electrical heating gas-fired infrared radiant heating system device and Humidity control apparatus, described control device is also associated with wireless transceiver, described wireless transceiver wirelessly with Remote control terminal is communicated, and described remote control terminal is connected with control PC；

Protective housing is provided with outside described control device, neutral resistance is provided with outside described remote control terminal Cabinet；

The outer layer of the protective housing is provided with thermal insulation board, and the thermal insulation board is made up of the raw material of following parts by weight：

Base material 17-20 parts,

Asbestos 12-15 parts,

Aeroge 8-11 parts,

Glass putty 6-9 parts,

Polyurethane fiber 9-12 parts,

Nano silicon 6-8 parts,

Super glass wool 7-11 parts,

Binding agent 6-9 parts,

Foaming agent 7-9 parts；

The base material selects kaolin；

The binding agent is selected from Pioloform, polyvinyl acetal phenol-formaldehyde resin modified or dicyandiamide modified phenolic resin；

The foaming agent selects calcium bicarbonate；

The preparation method of the thermal insulation board is：

Above-mentioned base material, asbestos, aeroge and binding agent are added in batch mixer according to number and are mixed, during control mixing Between be 5 minutes；Then glass putty and polyurethane fiber are then added to be mixed in batch mixer according to number, control incorporation time It is 3 minutes；Nano silicon and super glass wool are added in batch mixer are again mixed, it is 2 minutes to control incorporation time；Most Foaming agent is added in batch mixer according to number is afterwards mixed, control incorporation time for 4.5 minutes, and spray volumetric concentration It is 80% ethanol, then mixture is dried in dryer；

The mixture that will be obtained is placed in mould, controls forming temperature for 150 DEG C, and briquetting pressure is 180kg/cm²Compacting 1.8 minutes；

Shaping thermal insulation board is sintered again, controls sintering temperature for 120 DEG C, sintering time is 8.5h；

The thermal insulation board that will be sintered is placed in and room temperature is cooled in steam ambient；

Intermediate course is provided with each side wall of the protective housing, coolant is filled with described intermediate course, it is described Semiconductor refrigeration chip is additionally provided with intermediate course；

Described neutral-point grounding resistance cabinet includes cabinet, and support is additionally provided with the cabinet, and ground connection is provided with support Resistance, described earth resistance is fixed on support by collets, and earth resistance is connected with ground wire, is set on ground wire There is current transformer, current transformer is connected with microprocessor, described microprocessor is by drive circuit and alarm and nothing Line communication module is connected；

Described earth resistance includes the first earth resistance group and the second earth resistance group, the first earth resistance group and the first ground connection Line is connected, and the second earth resistance group is connected with the second ground wire, and current transformer is arranged on the first ground wire；

Described microprocessor is also connected with control circuit, and control circuit controls the break-make of the second ground wire, described control electricity Road includes photoelectrical coupler U1, and 1 pin of photoelectrical coupler U1 is connected by 3rd resistor R3 with+VCC1, the 2 of photoelectrical coupler U1 Pin is connected with microprocessor, and 4 pin of photoelectrical coupler U1 are connected with+VCC2, and 3 pin of photoelectrical coupler U1 pass through first resistor R1 Base stage with a triode VT1 is connected, the grounded emitter of triode VT1, is gone here and there between the base stage and emitter stage of triode VT1 Second resistance R2 is met, the colelctor electrode of triode is connected by the first relay JI with+VCC3, the normally opened contact of the first relay JI J1-1 is connected between the second earth resistance group and the second ground wire；

Described drive circuit includes rectification circuit, and the output end of rectification circuit concatenates the 4th resistance R4, has and the described the 4th Resistance R4 connects, and the first described electrochemical capacitor C1 is in parallel with first diode D1, described microprocessor and second three The base stage connection of pole pipe VT2, the positive pole that second colelctor electrode of triode VT2 passes through the 5th resistance R5 and the first electrochemical capacitor C1 Connection, second emitter stage of triode VT2 is connected with the base stage of the 3rd triode VT3, second current collection of triode VT2 Pole is connected with the colelctor electrode of the 3rd triode VT3, the emitter stage of the 3rd triode VT3 and the negative pole of the first electrochemical capacitor C1 Connection, the negative pole ground connection of the first electrochemical capacitor C1, the 3rd colelctor electrode of triode VT3 passes through the 6th resistance R6 and the 4th three The base stage connection of pole pipe VT4, the positive pole that the 4th colelctor electrode of triode VT4 passes through the 7th resistance R7 and the first electrochemical capacitor C1 Connection, the 4th emitter stage of triode VT4 is grounded by the 8th resistance R8, the 4th emitter stage and the 5th of triode VT4 The emitter stage connection of individual triode VT5, the 4th colelctor electrode of triode VT4 passes through the 9th resistance R9 and the 5th triode The base stage connection of VT5, the second electric capacity C2 is in parallel with the 9th resistance R9, and the 5th base stage of triode VT5 passes through the tenth resistance R10 Ground connection, the 5th colelctor electrode of triode VT5 is connected by the 11st resistance R11 with the positive pole of the first electrochemical capacitor C1, and the 5th The colelctor electrode of individual triode VT5 passes through the 3rd electric capacity C3, second diode D2, the 4th electric capacity C4 and the 6th triode VT6 Base stage connection, second negative pole of diode D2 be connected by the 12nd resistance R12 with the positive pole of the first electrochemical capacitor C1, the Two positive poles of diode D2 are connected by the 13rd resistance R13 with the positive pole of the first electrochemical capacitor C1, the 6th triode VT6 Emitter stage be connected with the emitter stage of the 7th triode VT7, the 7th base stage of triode VT7 passes through the 14th resistance R14 is connected with the positive pole of the first electrochemical capacitor C1, and the 7th base stage of triode VT7 is grounded by the 15th resistance R15, and the 7th The emitter stage of individual triode VT7 is grounded by the 16th resistance R16, and the 6th base stage of triode VT6 passes through the 17th resistance R17 is connected with the positive pole of the first electrochemical capacitor C1, the 6th base collector of triode VT6 by the 18th resistance R18 with The positive pole connection of the first electrochemical capacitor C1, the 6th colelctor electrode of triode VT6 passes through the 19th resistance R19, the first voltage-stabiliser tube VD1 is connected with the base stage of the 8th triode VT8, and the 8th base stage of triode VT8 is grounded by the 20th resistance R20, 8th grounded emitter of triode VT8, the 8th colelctor electrode of triode VT8 is by the electrolysis of the second relay J2 and first The positive pole connection of electric capacity C1, has the 3rd diode D3 in parallel with the second relay J2, the normally opened contact J2- of the second relay J2 1 is connected with after wireless communication module series connection with power supply, and alarm is in parallel with wireless communication module.

Preferably, described thermal insulation board is made up of the raw material of following parts by weight：

17 parts of base material,

12 parts of asbestos,

8 parts of aeroge,

6 parts of glass putty,

9 parts of polyurethane fiber,

6 parts of nano silicon,

7 parts of super glass wool,

6 parts of binding agent,

7 parts of foaming agent.

Preferably, described thermal insulation board is made up of the raw material of following parts by weight：

20 parts of base material,

15 parts of asbestos,

11 parts of aeroge,

9 parts of glass putty,

12 parts of polyurethane fiber,

8 parts of nano silicon,

11 parts of super glass wool,

9 parts of binding agent,

9 parts of foaming agent.

Preferably, described thermal insulation board is made up of the raw material of following parts by weight：

19 parts of base material,

13 parts of asbestos,

10 parts of aeroge,

8 parts of glass putty,

11 parts of polyurethane fiber,

7 parts of nano silicon,

9 parts of super glass wool,

8 parts of binding agent,

8 parts of foaming agent.

Collection point in the technical program can be large-sized workshop or plant.

The beneficial effects of the present invention are by being arranged at the temperature-detecting device and humidity detector of collection point to adopting Temperature value and humidity value in collection point are acquired, and the temperature that will collect, humidity data are sent to control device, control Device sends data to remote control terminal by wireless transceiver, and the control PC of control terminal is according to the temperature for collecting Regulation and control instruction is made with humidity data, and is sent to control device, regulation and control instruction control of the control device according to remote control terminal Electrical heating gas-fired infrared radiant heating system device and humidity control apparatus in collection point processed, to realize to temperature and humidity in collection point Regulation and control；

Earth resistance is fixed on support by collets, thus is avoided that earth resistance is leaked electricity by support, and such support can It is solid firm to use metallic support, the effective dead earth resistance of energy, earth resistance is two groups, when current transformer is measured When electric current is excessive, microprocessor controls the second earth resistance group to access by controlling circuit, so carries out the shunting of electric current, it is to avoid The first earth resistance group is damaged；Control circuit uses photoelectrical coupler, so can effectively avoid interference；Work as Current Mutual Inductance When the electric current of device monitoring is excessive, microprocessor realizes the energization of alarm and wireless communication module, Jin Erbao by drive circuit Alert device sends alarm, and wireless communication module uses 3G or 4G wireless communication modules, current information can be fed back into superior platforms Or on the mobile phone of setting, remote alarms are realized, realize the ground protection of cabinet；

Semiconductor chilling plate freezes to the cooling water in intermediate course, so as to absorb the heat in housing, effectively reduces shell Internal temperature；

Irradiation of the sunshine to housing can be effectively blocked by setting thermal insulation board, using the formula in this programme and preparation side The thermal insulation board that method is made has stronger effect of heat insulation；

Asbestos can fully improve the effect of thermal insulation board with the mixing of aeroge, and the cooperation of glass putty and polyurethane fiber can be improved What the cooperation of the hardness of thermal insulation board, nano silicon and super glass wool can improve thermal insulation board puts ultraviolet effect.Additionally, Design principle reliability of the present invention, simple structure, with application prospect widely.

As can be seen here, the present invention compared with prior art, improves with prominent substantive distinguishing features and significantly, and it is implemented Beneficial effect be also obvious.

Brief description of the drawings

Fig. 1 is a kind of control principle of monitoring system for electrical heating gas-fired infrared radiant heating system equipment that the present invention is provided Figure.

Fig. 2 is protective housing in a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment that the present invention is provided Structural representation.

Fig. 3 be the present invention provide a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment in neutral point connect The structural representation of ground resistor box.

Fig. 4 be the present invention provide a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment in neutral point connect The electrical schematic diagram of ground resistor box.

Fig. 5 is the circuit theory diagrams of control circuit in Fig. 4.

Fig. 6 is the circuit theory diagrams of drive circuit in Fig. 4.

Wherein, 1- temperature-detecting devices, 2- humidity detectors, 3- control devices, 4- electrical heating gas-fired infrared radiant heating systems Device, 5- humidity control apparatus, 6- wireless transceivers, 7- remote control terminals, 8- control PCs, 9- protective housing, in 9.1- Between interlayer, 9.2- semiconductor refrigeration chips, 10- neutral-point grounding resistance cabinets, 11- thermal insulation boards, 10.1- cabinets, 10.2- supports, 10.3- the first earth resistance groups, 10.4- the second earth resistance groups, 10.5- collets.

Specific embodiment

The present invention will be described in detail below in conjunction with the accompanying drawings and by specific embodiment, and following examples are to the present invention Explanation, and the invention is not limited in implementation below.

As shown in figures 1 to 6, a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment that the present invention is provided, it Temperature-detecting device 1, humidity detector 2 and control device 3 including being arranged at each collection point, described temperature detection dress Put 1, humidity detector 2 and be connected to described control device 3, described control device 3 is also connected with being arranged at the electricity of collection point HEATING INFRARED beta radiation heating plant 4 and humidity control apparatus 5, described control device 3 are also associated with wireless transceiver 6, institute The wireless transceiver 6 stated wirelessly is communicated with remote control terminal 7, and described remote control terminal 7 is connected with control PC 8；

Protective housing 9 is provided with outside described control device 3, neutral ground electricity is provided with outside described remote control terminal 7 Resistance cabinet 10；

The outer layer of the protective housing 9 is provided with thermal insulation board 11, and the thermal insulation board 11 is made up of the raw material of following parts by weight：

19 parts of base material,

13 parts of asbestos,

10 parts of aeroge,

8 parts of glass putty,

11 parts of polyurethane fiber,

7 parts of nano silicon,

9 parts of super glass wool,

8 parts of binding agent,

8 parts of foaming agent；

The base material selects kaolin；

The binding agent is selected from Pioloform, polyvinyl acetal phenol-formaldehyde resin modified or dicyandiamide modified phenolic resin；

The foaming agent selects calcium bicarbonate；

The preparation method of the thermal insulation board is：

Above-mentioned base material, asbestos, aeroge and binding agent are added in batch mixer according to number and are mixed, during control mixing Between be 5 minutes；Then glass putty and polyurethane fiber are then added to be mixed in batch mixer according to number, control incorporation time It is 3 minutes；Nano silicon and super glass wool are added in batch mixer are again mixed, it is 2 minutes to control incorporation time；Most Foaming agent is added in batch mixer according to number is afterwards mixed, control incorporation time for 4.5 minutes, and spray volumetric concentration It is 80% ethanol, then mixture is dried in dryer；

The mixture that will be obtained is placed in mould, controls forming temperature for 150 DEG C, and briquetting pressure is 180kg/cm²Compacting 1.8 minutes；

Shaping thermal insulation board is sintered again, controls sintering temperature for 120 DEG C, sintering time is 8.5h；

The thermal insulation board that will be sintered is placed in and room temperature is cooled in steam ambient；

Intermediate course 9.1 is provided with each side wall of the protective housing 9, coolant, institute are filled with described intermediate course Semiconductor refrigeration chip 9.2 is additionally provided with the intermediate course 9.1 stated；

Described neutral-point grounding resistance cabinet 10 includes being additionally provided with support 10.2 in cabinet 10.1, the cabinet 10.1, in branch Earth resistance is provided with frame, described earth resistance is fixed on support by collets 10.5, earth resistance and ground wire Connection, is provided with current transformer on ground wire, and current transformer is connected with microprocessor, and described microprocessor is by driving Dynamic circuit is connected with alarm and wireless communication module；

Described earth resistance includes the first earth resistance group 10.3 and the second earth resistance group 10.4, the first earth resistance group 10.3 are connected with the first ground wire, and the second earth resistance group 10.4 is connected with the second ground wire, and current transformer is arranged on first On ground wire；

Described microprocessor is also connected with control circuit, and control circuit controls the break-make of the second ground wire, described control electricity Road includes photoelectrical coupler U1, and 1 pin of photoelectrical coupler U1 is connected by 3rd resistor R3 with+VCC1, the 2 of photoelectrical coupler U1 Pin is connected with microprocessor, and 4 pin of photoelectrical coupler U1 are connected with+VCC2, and 3 pin of photoelectrical coupler U1 pass through first resistor R1 Base stage with a triode VT1 is connected, the grounded emitter of triode VT1, is gone here and there between the base stage and emitter stage of triode VT1 Second resistance R2 is met, the colelctor electrode of triode is connected by the first relay JI with+VCC3, the normally opened contact of the first relay JI J1-1 is connected between the second earth resistance group and the second ground wire；

Described drive circuit includes rectification circuit, and the output end of rectification circuit concatenates the 4th resistance R4, has and the described the 4th Resistance R4 connects, and the first described electrochemical capacitor C1 is in parallel with first diode D1, described microprocessor and second three The base stage connection of pole pipe VT2, the positive pole that second colelctor electrode of triode VT2 passes through the 5th resistance R5 and the first electrochemical capacitor C1 Connection, second emitter stage of triode VT2 is connected with the base stage of the 3rd triode VT3, second current collection of triode VT2 Pole is connected with the colelctor electrode of the 3rd triode VT3, the emitter stage of the 3rd triode VT3 and the negative pole of the first electrochemical capacitor C1 Connection, the negative pole ground connection of the first electrochemical capacitor C1, the 3rd colelctor electrode of triode VT3 passes through the 6th resistance R6 and the 4th three The base stage connection of pole pipe VT4, the positive pole that the 4th colelctor electrode of triode VT4 passes through the 7th resistance R7 and the first electrochemical capacitor C1 Connection, the 4th emitter stage of triode VT4 is grounded by the 8th resistance R8, the 4th emitter stage and the 5th of triode VT4 The emitter stage connection of individual triode VT5, the 4th colelctor electrode of triode VT4 passes through the 9th resistance R9 and the 5th triode The base stage connection of VT5, the second electric capacity C2 is in parallel with the 9th resistance R9, and the 5th base stage of triode VT5 passes through the tenth resistance R10 Ground connection, the 5th colelctor electrode of triode VT5 is connected by the 11st resistance R11 with the positive pole of the first electrochemical capacitor C1, and the 5th The colelctor electrode of individual triode VT5 passes through the 3rd electric capacity C3, second diode D2, the 4th electric capacity C4 and the 6th triode VT6 Base stage connection, second negative pole of diode D2 be connected by the 12nd resistance R12 with the positive pole of the first electrochemical capacitor C1, the Two positive poles of diode D2 are connected by the 13rd resistance R13 with the positive pole of the first electrochemical capacitor C1, the 6th triode VT6 Emitter stage be connected with the emitter stage of the 7th triode VT7, the 7th base stage of triode VT7 passes through the 14th resistance R14 is connected with the positive pole of the first electrochemical capacitor C1, and the 7th base stage of triode VT7 is grounded by the 15th resistance R15, and the 7th The emitter stage of individual triode VT7 is grounded by the 16th resistance R16, and the 6th base stage of triode VT6 passes through the 17th resistance R17 is connected with the positive pole of the first electrochemical capacitor C1, the 6th base collector of triode VT6 by the 18th resistance R18 with The positive pole connection of the first electrochemical capacitor C1, the 6th colelctor electrode of triode VT6 passes through the 19th resistance R19, the first voltage-stabiliser tube VD1 is connected with the base stage of the 8th triode VT8, and the 8th base stage of triode VT8 is grounded by the 20th resistance R20, 8th grounded emitter of triode VT8, the 8th colelctor electrode of triode VT8 is by the electrolysis of the second relay J2 and first The positive pole connection of electric capacity C1, has the 3rd diode D3 in parallel with the second relay J2, the normally opened contact J2- of the second relay J2 1 is connected with after wireless communication module series connection with power supply, and alarm is in parallel with wireless communication module.

In other embodiments, described thermal insulation board is made up of the raw material of following parts by weight：

17 parts of base material,

12 parts of asbestos,

8 parts of aeroge,

6 parts of glass putty,

9 parts of polyurethane fiber,

6 parts of nano silicon,

7 parts of super glass wool,

6 parts of binding agent,

7 parts of foaming agent.

In other embodiments, described thermal insulation board is made up of the raw material of following parts by weight：

20 parts of base material,

15 parts of asbestos,

11 parts of aeroge,

9 parts of glass putty,

12 parts of polyurethane fiber,

8 parts of nano silicon,

11 parts of super glass wool,

9 parts of binding agent,

9 parts of foaming agent.

Disclosed above is only the preferred embodiment of the present invention, but the present invention is not limited to this, any this area What technical staff can think does not have creative change, and some improvement made without departing from the principles of the present invention and Retouching, should all be within the scope of the present invention.

Claims (4)

1. a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment, it is characterised in that it includes being arranged at respectively adopting Collect temperature-detecting device, humidity detector and the control device of point, described temperature-detecting device, humidity detector company Described control device is connected to, described control device is also connected with being arranged at the electrical heating gas-fired infrared radiant heating system device of collection point And humidity control apparatus, described control device is also associated with wireless transceiver, and described wireless transceiver is wirelessly Communicated with remote control terminal, described remote control terminal is connected with control PC；

Protective housing is provided with outside described control device, neutral resistance is provided with outside described remote control terminal Cabinet；

The outer layer of the protective housing is provided with thermal insulation board, and the thermal insulation board is made up of the raw material of following parts by weight：

Base material 17-20 parts,

Asbestos 12-15 parts,

Aeroge 8-11 parts,

Glass putty 6-9 parts,

Polyurethane fiber 9-12 parts,

Nano silicon 6-8 parts,

Super glass wool 7-11 parts,

Binding agent 6-9 parts,

Foaming agent 7-9 parts；

The base material selects kaolin；

The binding agent is selected from Pioloform, polyvinyl acetal phenol-formaldehyde resin modified or dicyandiamide modified phenolic resin；

The foaming agent selects calcium bicarbonate；

The preparation method of the thermal insulation board is：

Above-mentioned base material, asbestos, aeroge and binding agent are added in batch mixer according to number and are mixed, during control mixing Between be 5 minutes；Then glass putty and polyurethane fiber are then added to be mixed in batch mixer according to number, control incorporation time It is 3 minutes；Nano silicon and super glass wool are added in batch mixer are again mixed, it is 2 minutes to control incorporation time；Most Foaming agent is added in batch mixer according to number is afterwards mixed, control incorporation time for 4.5 minutes, and spray volumetric concentration It is 80% ethanol, then mixture is dried in dryer；

The mixture that will be obtained is placed in mould, controls forming temperature for 150 DEG C, and briquetting pressure is 180kg/cm²Compacting 1.8 minutes；

Shaping thermal insulation board is sintered again, controls sintering temperature for 120 DEG C, sintering time is 8.5h；

The thermal insulation board that will be sintered is placed in and room temperature is cooled in steam ambient；

Intermediate course is provided with each side wall of the protective housing, coolant is filled with described intermediate course, it is described Semiconductor refrigeration chip is additionally provided with intermediate course；

Described neutral-point grounding resistance cabinet includes cabinet, and support is additionally provided with the cabinet, and ground connection is provided with support Resistance, described earth resistance is fixed on support by collets, and earth resistance is connected with ground wire, is set on ground wire There is current transformer, current transformer is connected with microprocessor, described microprocessor is by drive circuit and alarm and nothing Line communication module is connected；

Described earth resistance includes the first earth resistance group and the second earth resistance group, the first earth resistance group and the first ground connection Line is connected, and the second earth resistance group is connected with the second ground wire, and current transformer is arranged on the first ground wire；

Described microprocessor is also connected with control circuit, and control circuit controls the break-make of the second ground wire, described control electricity Road includes photoelectrical coupler U1, and 1 pin of photoelectrical coupler U1 is connected by 3rd resistor R3 with+VCC1, the 2 of photoelectrical coupler U1 Pin is connected with microprocessor, and 4 pin of photoelectrical coupler U1 are connected with+VCC2, and 3 pin of photoelectrical coupler U1 pass through first resistor R1 Base stage with a triode VT1 is connected, the grounded emitter of triode VT1, is gone here and there between the base stage and emitter stage of triode VT1 Second resistance R2 is met, the colelctor electrode of triode is connected by the first relay JI with+VCC3, the normally opened contact of the first relay JI J1-1 is connected between the second earth resistance group and the second ground wire；

Described drive circuit includes rectification circuit, and the output end of rectification circuit concatenates the 4th resistance R4, has and the described the 4th Resistance R4 connects, and the first described electrochemical capacitor C1 is in parallel with first diode D1, described microprocessor and second three The base stage connection of pole pipe VT2, the positive pole that second colelctor electrode of triode VT2 passes through the 5th resistance R5 and the first electrochemical capacitor C1 Connection, second emitter stage of triode VT2 is connected with the base stage of the 3rd triode VT3, second current collection of triode VT2 Pole is connected with the colelctor electrode of the 3rd triode VT3, the emitter stage of the 3rd triode VT3 and the negative pole of the first electrochemical capacitor C1 Connection, the negative pole ground connection of the first electrochemical capacitor C1, the 3rd colelctor electrode of triode VT3 passes through the 6th resistance R6 and the 4th three The base stage connection of pole pipe VT4, the positive pole that the 4th colelctor electrode of triode VT4 passes through the 7th resistance R7 and the first electrochemical capacitor C1 Connection, the 4th emitter stage of triode VT4 is grounded by the 8th resistance R8, the 4th emitter stage and the 5th of triode VT4 The emitter stage connection of individual triode VT5, the 4th colelctor electrode of triode VT4 passes through the 9th resistance R9 and the 5th triode The base stage connection of VT5, the second electric capacity C2 is in parallel with the 9th resistance R9, and the 5th base stage of triode VT5 passes through the tenth resistance R10 Ground connection, the 5th colelctor electrode of triode VT5 is connected by the 11st resistance R11 with the positive pole of the first electrochemical capacitor C1, and the 5th The colelctor electrode of individual triode VT5 passes through the 3rd electric capacity C3, second diode D2, the 4th electric capacity C4 and the 6th triode VT6 Base stage connection, second negative pole of diode D2 be connected by the 12nd resistance R12 with the positive pole of the first electrochemical capacitor C1, the Two positive poles of diode D2 are connected by the 13rd resistance R13 with the positive pole of the first electrochemical capacitor C1, the 6th triode VT6 Emitter stage be connected with the emitter stage of the 7th triode VT7, the 7th base stage of triode VT7 passes through the 14th resistance R14 is connected with the positive pole of the first electrochemical capacitor C1, and the 7th base stage of triode VT7 is grounded by the 15th resistance R15, and the 7th The emitter stage of individual triode VT7 is grounded by the 16th resistance R16, and the 6th base stage of triode VT6 passes through the 17th resistance R17 is connected with the positive pole of the first electrochemical capacitor C1, the 6th base collector of triode VT6 by the 18th resistance R18 with The positive pole connection of the first electrochemical capacitor C1, the 6th colelctor electrode of triode VT6 passes through the 19th resistance R19, the first voltage-stabiliser tube VD1 is connected with the base stage of the 8th triode VT8, and the 8th base stage of triode VT8 is grounded by the 20th resistance R20, 8th grounded emitter of triode VT8, the 8th colelctor electrode of triode VT8 is by the electrolysis of the second relay J2 and first The positive pole connection of electric capacity C1, has the 3rd diode D3 in parallel with the second relay J2, the normally opened contact J2- of the second relay J2 1 is connected with after wireless communication module series connection with power supply, and alarm is in parallel with wireless communication module.

2. a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment according to claim 1, its feature exists In：Described thermal insulation board is made up of the raw material of following parts by weight：

17 parts of base material,

12 parts of asbestos,

8 parts of aeroge,

6 parts of glass putty,

9 parts of polyurethane fiber,

6 parts of nano silicon,

7 parts of super glass wool,

6 parts of binding agent,

7 parts of foaming agent.

3. a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment according to claim 1, its feature exists In：Described thermal insulation board is made up of the raw material of following parts by weight：

20 parts of base material,

15 parts of asbestos,

11 parts of aeroge,

9 parts of glass putty,

12 parts of polyurethane fiber,

8 parts of nano silicon,

11 parts of super glass wool,

9 parts of binding agent,

9 parts of foaming agent.

4. a kind of monitoring system for electrical heating gas-fired infrared radiant heating system equipment according to claim 1, its feature exists In：Described thermal insulation board is made up of the raw material of following parts by weight：

19 parts of base material,

13 parts of asbestos,

10 parts of aeroge,

8 parts of glass putty,

11 parts of polyurethane fiber,

7 parts of nano silicon,

9 parts of super glass wool,

8 parts of binding agent,

8 parts of foaming agent.