CN106773896A - A kind of wireless remote monitering heating and ventilating equipment and its monitoring method - Google Patents

Abstract

A kind of wireless remote monitering heating and ventilating equipment and its monitoring method, comprising controller, output control unit, detection module and communication module；The controller sets corresponding output port connection output control unit；The communication module uses wireless communication mode or wire communication mode, is connected by corresponding communication interface and controller communication；The output of the detection module is connected with the corresponding pin of the controller.Avoid that intelligence degree in the prior art is relatively low with reference to its method, remote control cannot be carried out and monitor defect that inconvenience is brought to user.

Description

A kind of wireless remote monitering heating and ventilating equipment and its monitoring method

Technical field

The invention belongs to HVAC monitoring technology field, more particularly, to a kind of wireless remote monitering heating and ventilating equipment and its monitoring Method.

Background technology

At present, with the development of science and technology, intelligent home device can slowly allow more people to receive, and it can allow people According to the state of the hobby control housed device of oneself so that life style is more convenient, comfortable.

Heating and ventilating equipment is widely used in family and office space as a kind of universal heating system.But current heating and ventilating equipment Use and control mode and its tradition, intelligence degree is relatively low, it is impossible to carries out remote control and monitoring, brings all to user Inconvenience more.

The content of the invention

It is an object of the invention to provide a kind of wireless remote monitering heating and ventilating equipment and its monitoring method, it is to avoid in the prior art Intelligence degree is relatively low, cannot carry out remote control and monitor defect that inconvenience is brought to user.

In order to overcome deficiency of the prior art, the invention provides a kind of solution party of wireless remote monitering heating and ventilating equipment Case, it is specific as follows：

A kind of wireless remote monitering heating and ventilating equipment, comprising controller, output control unit, detection module and communication module；

The controller sets corresponding output port connection output control unit；

The communication module uses wireless communication mode or wire communication mode, by corresponding communication interface and controller Communication connection；

The output of the detection module is connected with the corresponding pin of the controller.

The controller is Core Microcontroller；The output control unit is control module；The detection module is temperature Degree detection module, the temperature detecting module includes defrosting sensor and temperature sensor, and the defrosting sensor and room temperature are passed The output of sensor connects the corresponding pin of Core Microcontroller by sensor interface module；The Core Microcontroller, control Module and temperature detecting module are powered by power module.

The heating and ventilating equipment is air-conditioning.

The monitoring method of the wireless remote monitering heating and ventilating equipment is the next data is activation of detection module collection to controller In, it is controlled by output control unit, and can be communicated by communication module.

So can be achieved with that controller is local and heating and ventilating equipment wire communication；Independently of the state of heating and ventilating equipment control system Detection and sensor detection, can be used in the running state analysis of heating and ventilating equipment；Independently of the defeated of heating and ventilating equipment control system Go out, for the auxiliary control of heating and ventilating equipment；Can also be positioned using GPS location, for equipment after-sale service；Wireless GPRS data are passed Defeated and Reverse Turning Control, area covering is wide, real-time monitoring and control.

Brief description of the drawings

Fig. 1 is wireless remote monitering heating and ventilating equipment integrated stand composition of the invention.

Fig. 2 is the external structure schematic diagram of control cabinet.

Fig. 3 is the partial structural diagram of control cabinet.

Fig. 4 is the structural representation of casing.

Fig. 5 is the part-structure schematic diagram of casing.

Fig. 6 is the connection circuit diagram of controller of the invention.

Fig. 7 is the connection circuit diagram of power module of the invention.

Fig. 8 is control relay circuit figure of the invention.

Fig. 9 is telecommunication circuit connection figure of the invention.

Figure 10 is interface circuit connection figure of the invention.

Figure 11 is sensor of the invention circuit connection diagram.

Figure 12 is switching value circuit connection diagram of the invention.

Specific embodiment

This patent is described in further detail with reference to embodiment.

As shown in Fig. 1-Figure 12, wireless remote monitering heating and ventilating equipment, comprising controller, output control unit, detection module And communication module；

The controller sets corresponding output port connection output control unit；

The communication module uses wireless communication mode or wire communication mode, by corresponding communication interface and controller Communication connection；

The output of the detection module is connected with the corresponding pin of the controller.

The controller is Core Microcontroller；The output control unit is control module；The detection module is temperature Degree detection module, the temperature detecting module includes defrosting sensor and temperature sensor, and the defrosting sensor and room temperature are passed The output of sensor connects the corresponding pin of Core Microcontroller by sensor interface module；The Core Microcontroller, control Module and temperature detecting module are powered by power module.

The heating and ventilating equipment is air-conditioning.

The Core Microcontroller is MC9S08AW60 processors, and the sensor interface module includes first interface socket CN1, second interface socket CN2, the 3rd interface socket CN3, the interface socket PING for BDM interfaces, the defrosting sensor Quantity be two, it is respectively the first defrosting sensor and the second defrosting sensor, and the temperature sensor quantity is four, It is respectively indoor temperature transmitter, outdoor temperature sensor, return water temperature sensor and leaving water temperature sensors, described first The number of pin of interface socket CN1 is four, and its pin is respectively first pin of first interface socket CN1, first interface and inserts 4th pin of second pin, the three-prong of first interface socket CN1 and first interface socket CN1 of seat CN1；Described second The number of pin of interface socket CN2 is four, and its pin is respectively first pin of second interface socket CN2, second interface and inserts 4th pin of second pin, the three-prong of second interface socket CN2 and second interface socket CN2 of seat CN2；Described 3rd The number of pin of interface socket CN3 is four, and its pin is respectively first pin of the 3rd interface socket CN3, the 3rd interface and inserts 4th pin of second pin, the three-prong of the 3rd interface socket CN3 and the 3rd interface socket CN3 of seat CN3, it is described to be used for The number of pin of the interface socket PING of BDM interfaces is four, and its pin is respectively the interface socket PING's for BDM interfaces First pin, for BDM interfaces interface socket PING the second pin, for BDM interfaces interface socket PING the 3rd 4th pin of pin and the interface socket PING for BDM interfaces；

The output of the indoor temperature transmitter and the output of outdoor temperature sensor are respectively with first interface socket CN1's First pin is connected with the three-prong of first interface socket CN1, second pin and first interface of first interface socket CN1 4th pin of socket CN1 is grounded；

First pin of the first interface socket CN1 is also with one end of first resistor R20, one end of second resistance R24 One end with the first electric capacity C20 is connected, and the other end of the first electric capacity C20 and one end of the second electric capacity C24 are grounded, institute The other end for stating the second electric capacity C24 is connected to form first input end AD1 with the other end of the second resistance R24, and described One input AD1 is connected with the PTB0/AD1P0 pins marked as 34 of the MC9S08AW60 processors, first electricity The other end for hindering R20 is connected with first voltage source VCC；

The three-prong of the first interface socket CN1 is also with one end of 3rd resistor R21, one end of the 4th resistance R25 One end with the 3rd electric capacity C21 is connected, and the other end of the 3rd electric capacity C21 and one end of the 4th electric capacity C25 are grounded, institute The other end for stating the 4th electric capacity C25 is connected to form the second input AD2 with the other end of the 4th resistance R25, and described Two input AD2 are connected with the PTB1/AD1P1 pins marked as 35 of the MC9S08AW60 processors, the 3rd electricity The other end for hindering R21 is connected with first voltage source VCC；

The output of the return water temperature sensor and the output of leaving water temperature sensors are respectively with second interface socket CN2's First pin is connected with the three-prong of second interface socket CN2, second pin and second interface of second interface socket CN2 4th pin of socket CN2 is grounded；

First pin of the second interface socket CN2 is also with one end, one end of the 6th resistance R26 of the 5th resistance R22 One end with the 5th electric capacity C22 is connected, and the other end of the 5th electric capacity C22 and one end of the 6th electric capacity C26 are grounded, institute The other end for stating the 6th electric capacity C26 is connected to form the 3rd input AD3 with the other end of the 6th resistance R26, and described Three input AD3 are connected with the PTB2/AD1P2 pins marked as 36 of the MC9S08AW60 processors, the 5th electricity The other end for hindering R22 is connected with first voltage source VCC；

The three-prong of the second interface socket CN2 is also with one end, one end of the 8th resistance R27 of the 7th resistance R23 One end with the 7th electric capacity C23 is connected, and the other end of the 7th electric capacity C23 and one end of the 8th electric capacity C27 are grounded, institute The other end for stating the 8th electric capacity C27 is connected to form the 4th input AD4 with the other end of the 8th resistance R27, and described Four input AD4 are connected with the PTB3/AD1P3 pins marked as 37 of the MC9S08AW60 processors, the 7th electricity The other end for hindering R23 is connected with first voltage source VCC；

The output of first defrosting sensor is connected with first pin of the 3rd interface socket CN3, and described First pin of three interface socket CN3 also with the 9th resistance R16 one end and a TLP181 couplers OPT1 marked as 2 Pin is connected, the one end and a TLP181 couplers OPT1 of the other end of the 9th resistance R16 with the tenth resistance R13 Pin marked as 1 is connected, and the other end of the tenth resistance R13 is connected with the second voltage source C5V, and described first Pin marked as 3 ground connection of TLP181 couplers OPT1, the pin marked as 4 of the TLP181 couplers OPT1 is same One end of 11st resistance R18 is connected, and the other end of the 11st resistance R18 is same described as the 5th input IN_D1 The PTD2/KBI1P5/AD1P10 pins marked as 46 of MC9S08AW60 processors are connected；

Second pin, three-prong and of the output of second defrosting sensor with the 3rd interface socket CN3 Four pins are connected, and second pin of the 3rd interface socket CN3, three-prong and the 4th pin are also with the 12nd resistance One end of R17 is connected with the pin marked as 2 of the 2nd TLP181 couplers OPT2, and the 12nd resistance R17's is another End is connected with one end of the 13rd resistance R14 with the pin marked as 1 of the 2nd TLP181 couplers OPT2, and the described 13rd The other end of resistance R14 is connected with the second voltage source C5V, the pin marked as 3 of the 2nd TLP181 couplers OPT2 Ground connection, the pin marked as 4 of the 2nd TLP181 couplers OPT2 is connected with one end of the 14th resistance R19, described The other end of the 14th resistance R19 is as the 6th input IN_D2 with the MC9S08AW60 processors marked as 47 PTD3/KBI1P6/AD1P11 pins are connected；

First pin of the interface socket PING for BDM interfaces is connected with the connection BKGD pins of BDM interfaces Connect, second pin of the interface socket PING for BDM interfaces is connected with the reset RST pins of BDM interfaces, the use In the 4th pin ground connection of the interface socket PING of BDM interfaces, first pin of the interface socket PING for BDM interfaces Also it is connected with the BKGD/MS pins marked as 56 of the MC9S08AW60 processors, the interface for BDM interfaces is inserted The three-prong of seat PING is connected with one end of first voltage source VCC and the 21st resistance R6, the 21st resistance The other end of R6 is connected shape with second pin of interface socket PING for BDM interfaces and one end of the 9th electric capacity C6 Into the 7th input, the 7th input is with the MC9S08AW60 processors marked as 3Pin is connected Connect, the other end ground connection of the 9th electric capacity C6；

The first voltage source VCC is connected with one end of the 22nd resistance R7, and the 22nd resistance R7's is another One end of IRQ pin and tenth electric capacity C7 of the one end with the MC9S08AW60 processors marked as 2 is connected, and the described tenth The other end ground connection of electric capacity C7；

The control module includes light emitting diode indicator drive control special circuit and the 6th interface socket CN6, the The number of pin of six interface socket CN6 is five, and it is respectively first pin of the 6th interface socket CN6, the 6th interface socket Second pin of CN6, the three-prong of the 6th interface socket CN6, the 4th pin of the 6th interface socket CN6 and the 6th interface are inserted 5th pin of seat CN6, the light emitting diode indicator drive control special circuit is TM1638 chips, the 6th interface The first pin ground connection of socket CN6, second pin of the 6th interface socket CN6 is connected with first voltage source VCC；It is described The three-prong of the 6th interface socket CN6 is connected with the STB pins marked as 28 of TM1638 chips, and the 6th interface is inserted The three-prong of seat CN6 is also connected with one end of the 15th resistance R10, and the other end of the 15th resistance R10 is with described The PTF6 pins marked as 12 of MC9S08AW60 processors are connected；4th pin of the 6th interface socket CN6 is same The CLK pins marked as 27 of TM1638 chips are connected, and the 4th pin of the 6th interface socket CN6 is also with the 16th electricity The one end for hindering R11 is connected, and the other end of the 16th resistance R11 is with the MC9S08AW60 processors marked as 11 PTF5/TPM2CH1 pins are connected；5th pin of the 6th interface socket CN6 is with TM1638 chips marked as 26 DIO pins are connected, and the 5th pin of the 6th interface socket CN6 is also connected with one end of the 17th resistance R12, described The other end of the 17th resistance R12 is connected with the PTF7 pins marked as 10 of the MC9S08AW60 processors；

The control module also positive pole pin including loudspeaker SPEAKER, the loudspeaker SPEAKER is with the of 12V Three voltage sources are connected, and the negative pin of the loudspeaker SPEAKER is connected with one end of the 18th resistance R47, and described the The other end of 18 resistance R47 is connected with the colelctor electrode of the first triode Q6, the grounded emitter of the first triode Q6, The base stage of the first triode Q6 is connected with one end of the 19th resistance R48, the other end of the 19th resistance R48 and One end of 20th resistance R49 is connected to form the first output end, the other end of the 20th resistance R49 ground connection, and described the One output end is connected with the PTD0/AD1P8 pins marked as 42 of the MC9S08AW60 processors；

And the first wire A is connected with one end of protective tube F1, the second wire B is connected with earphone socket PHONEJACK2 And be grounded, the other end of the protective tube F1 is with the tertiary voltage source of 12V, one end of the first inductance L1 and variable resistor ZNR One end is connected, the other end ground connection of the variable resistor ZNR, and the other end of the first inductance L1 is with polarized electric capacity E1's Positive pole, one end of the 11st electric capacity C1, the EN ends of Switching Power Supply MIC29302 are connected with the IN ends of Switching Power Supply MIC29302, Another pole ground connection of the polar capacitor E1, the GNE ends ground connection of the Switching Power Supply MIC29302, the 11st electric capacity C1's is another End ground connection, the OUT terminal of the Switching Power Supply MIC29302 with one end of the 23rd resistance R1, one end of the 12nd electric capacity C3, One end, one end of the 14th electric capacity C31, one end of the 15th electric capacity C32, the one of the 16th electric capacity C33 of the 13rd electric capacity C28 The source electrode of end, one end of the 17th electric capacity C34 and metal-oxide-semiconductor is connected to form first voltage source VCC, the 12nd electric capacity C3 The other end, the other end of the 13rd electric capacity C28, the other end of the 14th electric capacity C31, the other end of the 15th electric capacity C32, The other end of 16 electric capacity C33 and the other end ground connection of the 17th electric capacity C34, the ADJ ends of the Switching Power Supply MIC29302 It is connected with one end of the 18th electric capacity C2 with the other end of the 23rd resistance R1, one end of the 24th resistance R2, it is described The other end of the 24th resistance R2 and the other end ground connection of the 18th electric capacity C2, the grid of the metal-oxide-semiconductor is with the 25th electricity The one end for hindering R50 is connected, and the other end of the 25th resistance R50 is connected shape with one end of the 26th resistance R52 Into the 8th input CVMOS, the 8th input CVMOS draws with the PTA3 marked as 30 of the MC9S08AW60 processors Pin is connected, the other end ground connection of the 26th resistance R52, and the drain electrode of the metal-oxide-semiconductor is with the one of the 18th electric capacity C44 End, one end of the 19th electric capacity C5, one end of the 20th electric capacity C29, one end of the 21st electric capacity C4, the 22nd electric capacity One end of C16 is connected to form the 4th voltage source VBAT with the IN ends of AX1117 electric current voltage stabilizing chips, and the AX1117 electric currents are steady The OUT terminal of chip is pressed to be connected to form the 5th voltage with one end of the 24th electric capacity C30 with one end of the 23rd electric capacity C18 Source VGPS, the GND ends of the AX1117 electric currents voltage stabilizing chip, the other end of the 23rd electric capacity C18, the 24th electric capacity C30 The other end, the other end of the 18th electric capacity C44, the other end of the 19th electric capacity C5, the other end of the 20th electric capacity C29, The other end of 21 electric capacity C4 and the other end ground connection of the 22nd electric capacity C16；

Each row of other first double needle stand carries two contact pins, and the tertiary voltage source is with the of the first double needle stand A contact pin, one end of one end C35 and the 26th electric capacity C36 of the 25th electric capacity in one row are connected, and described second A contact pin in the second row of the other end C35, the other end of the 26th electric capacity C36 and the first double needle stand of 15 electric capacity Ground connection, another contact pin ground connection in the first row of the first double needle stand, in the second row of the first double needle stand Another contact pin is connected with the second voltage source C5V, and the second voltage source C5V is also with one end of the 27th electric capacity C37, the One end of 28 electric capacity C38 is connected with one end of the 29th electric capacity C39, the other end of the 27th electric capacity C37, The other end of the 28th electric capacity C38 and the other end ground connection of the 29th electric capacity C39；

The control module also includes the first relay RLY01, the second relay RLY02 and the 5th interface socket CN5, institute State the first relay RLY01 and include normally opened contact, the second relay RLY02 also includes normally opened contact, the described 5th The number of pin of interface socket CN5 is four, and its pin is respectively first pin of the 5th interface socket CN5, the 5th interface and inserts 4th pin of second pin, the three-prong of the 5th interface socket CN5 and the 5th interface socket CN5 of seat CN5；

The three-prong of the 5th interface socket CN5 and the 4th pin of the 5th interface socket CN5 set with HVAC respectively One end of the coil of the first standby magnetic valve is connected with a pole of the power supply of first magnetic valve, first magnetic valve The other end of coil is connected with another pole of the power supply of first magnetic valve, the 3rd pipe of the 5th interface socket CN5 Pin is also connected with one end of the normally opened contact of the first relay RLY01, and the 4th pin of the 5th interface socket CN5 is also same The other end of the normally opened contact of the first relay RLY01 is connected, and one end of the coil of the first relay RLY01 is with first The negative pole of diode D3 is connected with tertiary voltage source, the colelctor electrode of the same second triode Q1 of positive pole of the first diode D3 The other end with the coil of the first relay RLY01 is connected, and the emitter stage of the second triode Q1 is with the 27th One end of resistance R43 is connected and is grounded, one end of the same 28th resistance R45 of the other end of the 27th resistance R43 Base stage with the second triode Q1 is connected, and the other end of the 28th resistance R45 is same described as the second output end The PTC2/MCLK pins marked as 62 of MC9S08AW60 processors are connected；

First pin of the 5th interface socket CN5 and second pin of the 5th interface socket CN5 set with HVAC respectively One end of the coil of the second standby magnetic valve is connected with a pole of the power supply of second magnetic valve, second magnetic valve The other end of coil is connected with another pole of the power supply of second magnetic valve, first pipe of the 5th interface socket CN5 Pin is also connected with one end of the normally opened contact of the second relay RLY02, and second pin of the 5th interface socket CN5 is also same The other end of the normally opened contact of the second relay RLY02 is connected, and one end of the coil of the second relay RLY02 is with second The negative pole of diode D4 is connected with tertiary voltage source, the colelctor electrode of the same 3rd triode Q2 of positive pole of the second diode D3 The other end with the coil of the second relay RLY02 is connected, and the emitter stage of the 3rd triode Q2 is with the 29th One end of resistance R44 is connected and is grounded, the other end of the 29th resistance R44 with the 30th resistance R46 one end and The base stage of the 3rd triode Q2 is connected, and the other end of the 30th resistance R46 is as the 3rd output end with the MC9S08AW60 The PTC1/SDAL pins marked as 61 of processor are connected；

The communication module includes GSM antenna, gps antenna, the gsm module for supporting GPS business, SIM and RS485 moulds Block, and each row of the second double needle stand carries two contact pins, i.e., it has four contact pins, and the signal end of the GSM antenna is same Four contact pins of the second double needle stand are connected, and a contact pin of the first row of the second double needle stand is with described second One contact pin, the 30th electric capacity C40 of another contact pin of the first row of double needle stand, the second row of the second double needle stand One end be connected and be grounded with one end of the 31st electric capacity C41, one end of the 30th electric capacity C40 is with described second pair One end of another contact pin of the second row of row-needle receptacle and the second inductance L5 are connected, the other end of the second inductance L5 and The other end of 31 electric capacity C41 is connected to form the first signal end；The gsm module of the support GPS business includes MG2618 Chip, first signal end is connected with the RT_ANT pins marked as 16 of the MG2618 chips；

And each row of the 3rd double needle stand carries two contact pins, i.e., it has four contact pins, the signal of the gps antenna End is connected with four contact pins of the 3rd double needle stand, and a contact pin of the first row of the 3rd double needle stand is with described One contact pin, the 32nd of another contact pin of the first row of the 3rd double needle stand, the second row of the 3rd double needle stand One end of electric capacity C42 is connected and is grounded, one end and the 5th of the same 3rd inductance L6 of the other end of the 32nd electric capacity C42 Voltage source VGPS is connected, and the other end of the 3rd inductance L6 is with one end of the 33rd electric capacity C43 and described 3rd double Another contact pin of the second row of needle stand is connected, and the other end of the 33rd electric capacity C43 forms secondary signal end；Described second Signal end is connected with the GPS_ANT pins marked as 38 of the MG2618 chips；

The SIM includes 8 pins, wherein one end, the of the VCC contacts of the SIM with the 34th electric capacity C10 One end of 35 electric capacity C19, the VPP contacts of SIM, the K1 contacts of SIM, the drawing marked as 1 of a PSM712 chips One end of pin and the 31st resistance R5 are connected, and the RESET contacts of the SIM are with a PSM712 chips marked as 2 Pin and one end of the 36th electric capacity C11 be connected to form the 3rd signal end, the 3rd signal end is with the 4th inductance L4 One end be connected, the other end of the 4th inductance L4 with the MG2618 chips the SIM_RST pin phases marked as 24 Connection, one end of the pin and the 37th electric capacity C12 of the CLK contacts of the SIM with the 2nd PSM712 chips marked as 2 It is connected to form the 4th signal end, the 4th signal end is connected with one end of the 5th inductance L5, the 5th inductance L5's The other end is connected with the SIM_CLK pins marked as 23 of the MG2618 chips, and the GND contacts of the SIM are with the 3rd The other end of 14 electric capacity C10 and the other end of the 35th electric capacity C19 are connected and are grounded, and the 4th inductance L4's is another Hold the one end with the I O contacts of the SIM, the pin marked as 1 of the 2nd PSM712 chips and the 38th electric capacity C13 Be connected to form the 5th signal end, the 5th signal end with the MG2618 chips the SIM_DATA pin phases marked as 22 Connection, the other end of the 36th electric capacity C11, the other end of the 37th electric capacity C12, the 38th electric capacity C13 it is another The pin marked as 3 of one end, the pin marked as 3 of a PSM712 chips and the 2nd PSM712 chips is connected and connects Ground, the K2 contacts of the SIM are connected with the VREG_SIM pins marked as 21 of the MG2618 chips；

The GND pin marked as 18 of the MG2618 chips, the GND pin marked as 17 of the MG2618 chips, It is the GND pin marked as 15 of the MG2618 chips, the GND pin marked as 12 of the MG2618 chips, described The GND pin marked as 4 of MG2618 chips and the ground connection of the GND pin marked as 1 of the MG2618 chips；The MG2618 The VREG_MSME1 pins marked as 14 of chip are connected with the 6th voltage source VDDIO；

The SYSRST_N pins marked as 13 of the MG2618 chips are connected with the colelctor electrode of the 4th triode Q3, institute The emitter stage for stating the 4th triode Q3 is connected and is grounded with one end of the 32nd resistance R8, the 32nd resistance The other end of R8 is connected with one end of the 33rd resistance R28 with the base stage of the 4th triode Q3, and the described 33rd The other end of resistance R28 is connected with the PTA6 pins marked as 32 of the MC9S08AW60 processors；

The PWRKEY_N pins marked as 3 of the MG2618 chips are connected with the colelctor electrode of the 5th triode Q4, institute The emitter stage for stating the 5th triode Q4 is connected and is grounded with one end of the 34th resistance R9, the 34th resistance The other end of R9 is connected with one end of the 35th resistance R29 with the base stage of the 5th triode, the 35th resistance R29 The other end be connected with the PTA7 pins marked as 33 of the MC9S08AW60 processors；

The RSSI_LED pins marked as 2 of the MG2618 chips are connected with one end of the 36th resistance R51, institute The other end for stating the 36th resistance R51 is connected with the base stage of the 6th triode Q5, the emitter stage of the 6th triode Q5 Ground connection, one end of the colelctor electrode of the 6th triode Q5 is with one end of the 37th resistance R15 and described The PTA5 pins marked as 31 of MC9S08AW60 processors are connected, and the other end of the 37th resistance R15 is with first Voltage source VCC is connected；

The VBAT pins marked as 19 of the MG2618 chips are connected with the 4th voltage source VBAT, described The GND pin marked as 20 of MG2618 chips, the GND pin marked as 30 of the MG2618 chips, the MG2618 cores The GND pin marked as 36 of piece, the ground connection of the GND pin marked as 37 of the MG2618 chips, the MG2618 chips GND pin, the GND pin marked as 42 of the MG2618 chips, the MG2618 chips marked as 39 marked as 47 GND pin and the MG2618 chips the ground connection of the GND pin marked as 49, the MG2618 chips marked as 40 VGPS_MAIN pins are connected with the 5th voltage source VGPS；

The MG2618 chips marked as 25 /RTS pins with a NLSX5014 converters IO_VL4 pin phases Connection, the MG2618 chips marked as 26 /CTS pins with a NLSX5014 converters IO_VL3 pins be connected Connect, the MG2618 chips marked as 34 /DTR pins are connected with the IO_VL2 pins of a NLSX5014 converters, The RI pins marked as 33 of the MG2618 chips are connected with the IO_VL1 pins of a NLSX5014 converters；First The GND pin ground connection of NLSX5014 converters, the VL pins of a NLSX5014 converters, the 39th electric capacity C15 One end is connected with the EN pins of a NLSX5014 converters with the 6th voltage source VDDIO, the 39th electric capacity C15 The other end ground connection；The VCC pin of the first NLSX5014 converters is connected with first voltage source VCC；

The MG2618 chips marked as 32 /DSR pins with the 2nd NLSX5014 converters IO_VL4 pin phases Connection, the DCD pins marked as 31 of the MG2618 chips are connected with the IO_VL3 pins of the 2nd NLSX5014 converters, The RXD pins marked as 28 of the MG2618 chips are connected with the IO_VL2 pins of the 2nd NLSX5014 converters, described The TXD pins marked as 27 of MG2618 chips are connected with the IO_VL1 pins of the 2nd NLSX5014 converters；Second The GND pin ground connection of NLSX5014 converters, VL pins, the one of the 40th electric capacity C14 of the 2nd NLSX5014 converters End, one end of the 41st electric capacity C17 are connected with the EN pins of the 2nd NLSX5014 converters with the 6th voltage source VDDIO Connect, the other end of the 40th electric capacity C14 and the other end of the 41st electric capacity C17 are grounded；The 2nd NLSX5014 converters VCC pin be connected with first voltage source VCC；

The IO_VCC4 pins of the first NLSX5014 converters are with the MC9S08AW60 processors marked as 29 PTA3 pins are connected, the IO_VCC3 pins of a NLSX5014 converters with the MC9S08AW60 processors mark Number be connected for 28 PTA2 pins, the IO_VCC2 pins of a NLSX5014 converters with the MC9S08AW60 at The PTA1 pins marked as 27 for managing device are connected, and the IO_VCC1 pins of a NLSX5014 converters are with described The PTA0 pins marked as 26 of MC9S08AW60 processors are connected；

The IO_VCC4 pins of the 2nd NLSX5014 converters are with the MC9S08AW60 processors marked as 18 PTE5/MISO1 pins are connected, and the IO_VCC3 pins of the 2nd NLSX5014 converters are with the MC9S08AW60 treatment The PTE4/SS1 pins marked as 17 of device are connected, and the IO_VCC2 pins of the 2nd NLSX5014 converters are with described The PTE2/TPM1CH0 pins marked as 15 of MC9S08AW60 processors are connected, the 2nd NLSX5014 converters IO_VCC1 pins are connected with the PTE1/RxD1 pins marked as 14 of the MC9S08AW60 processors；

And the 4th interface socket CN4 includes four pins, its four pins are respectively first pipe of the 4th interface socket CN4 The of pin, second pin of the 4th interface socket CN4, the three-prong of the 4th interface socket CN4 and the 4th interface socket CN4 Four pins, the RS485 modules include the RS485A terminals and RS485B terminals that are connected with RS485 communication interfaces, institute The first pin for stating the 4th interface socket CN4 is connected with the second voltage source C5V, second pipe of the 4th interface socket CN4 Pin is grounded, and the three-prong of the 4th interface socket CN4 is connected with RS485A terminals, the 4th interface socket CN4 The 4th pin be connected with RS485B terminals；

The three-prong of the 4th interface socket CN4 is also connected with one end of the 38th resistance R38, and the described 3rd One end, one end of the 40th resistance R40, first bilateral diode of the same 39th resistance R42 of the other end of 18 resistance R38 One end of D5 is connected with the A pins of MAX3085 chips, and the 4th pin of the 4th interface socket CN4 is also with the 41st One end of resistance R39 is connected, the other end, the 4th of the same 39th resistance R42 of the other end of the 41st resistance R39 One end of 12 resistance R41, one end of the second bilateral diode D6 are connected with the B pins of MAX3085 chips, and the described 40th The other end of two resistance R41 is connected simultaneously with the other end of the first bilateral diode D5 and the other end of the second bilateral diode D6 Ground connection；The VCC pin of the MAX3085 chips is connected with the second voltage source C5V, and the GND pin of the MAX3085 chips connects Ground, one end of the same 43rd resistance R37 of D pins of the MAX3085 chips and the drawing marked as 5 of a TLP112 chips Pin is connected, the RE pins of the MAX3085 chips with the DE pins of the MAX3085 chips, TLP181 chips marked as 3 Pin and one end of the 44th resistance R36 be connected, the other end ground connection of the 44th resistance R36, the MAX3085 cores The R pins of piece are connected with the pin marked as 3 of the 2nd TLP112 chips, the other end of the 43rd resistance R37 and The pin marked as 6 of the first TLP112 chips is connected, the ground connection of the pin marked as 4 of a TLP112 chips, institute The pin marked as 4 for stating TLP181 chips is connected with the second voltage source C5V, the 2nd TLP112 chips marked as 1 Pin be connected with one end of the 45th resistance R35, the same the second voltage source of the other end of the 45th resistance R35 C5V is connected, one end and the 47th of the same 46th resistance R32 of the pin marked as 4 of a TLP112 chips One end of resistance R30 is connected, and the other end of the 47th resistance R30 is connected with first voltage source VCC；Described first The other end and the mark of the MC9S08AW60 processors of the same 46th resistance R32 of the pin marked as 3 of TLP112 chips Number it is connected for 63 PTC3/TxD2 pins；The pin marked as 1 of the TLP181 chips is with the 48th resistance R33's One end is connected with one end of the 49th resistance R31, and the other end of the 48th resistance R33 is with first voltage source VCC It is connected, pin with the TLP181 chips marked as 2 of the other end of the 49th resistance R31 and described The PTG4/KBI1P4 pins marked as 49 of MC9S08AW60 processors are connected；The 2nd TLP112 chips marked as 4 Pin ground connection, the one end and first voltage source of the pin marked as 6 of the 2nd TLP112 chips with the 50th resistance R34 VCC is connected, and the pin marked as 5 of the 2nd TLP112 chips is with the other end of the 50th resistance R34 and described The PTC5/RxD2 pins marked as 64 of MC9S08AW60 processors are connected.

So it is achieved that the communication connection of corresponding component of the invention.

The communication module includes GPRS communication module, and GPRS communication module receives gateway and is connected with described information, described Information receives gateway and is connected with the database server；Other information receives gateway and is often arranged in control cabinet, control cabinet Outdoor scene is often set up in, so there is problem, it is main particularly because the outer wall of control cabinet is metallic composite composition Control tank bracket is located at outdoor scene, if the work period for a long time often causes that the outer wall of control cabinet is etched and comes to harm, described The outer wall of control cabinet is etched and just tends to occur long and narrow through hole under conditions of coming to harm, and allows outside liquid by long and narrow Through hole be introduced into control cabinet the inside so that information in control cabinet receives the danger that gateway burns out.

And database server is often placed in casing, often generated heat when database server is performed, thus Its improper execution under the conditions of exceeding normal execution can be caused, therefore generally carry out heat extraction with through chamber road on casing, It is also very common in open-air atmosphere setting casing but site space is limited, so that the drop of the outside under open-air atmosphere will Invaded into casing by through chamber road, will so cause that the database server in casing is damaged, and existing obstruct drop Part cannot also realize completely intercept drop enter casing and intercept drop part each other combine inconvenience.

Described information receives gateway and is arranged in control cabinet；

And columnar hollow housing M1 is covered with the control cabinet, the upper surface of the columnar hollow housing M1 is provided with same column The lumen therethrough that the hollow inside of hollow housing M1 connects, and the lumen therethrough opened up on the upper surface of the columnar hollow housing M1 Covered in by upper panel M2, the upper panel M2 is separable structure with the columnar hollow housing M1；

On the lower wall of the upper panel M2 locating rod M21, the column are stretched towards columnar hollow housing M1 directions The cylindric positioning port M11 for allowing locating rod M21 to put in is provided with hollow housing M1, is provided with outside the columnar hollow housing M1 90 degree of locating sleeve M12 of angle, the tube chamber of the locating sleeve M12 are kept with the axis of the cylindric positioning port M11 M121 is connected with the cylindric positioning port M11, and the keeper M13 that can be bent and stretched passes through tube chamber M121 from one of tube chamber M121 Other end, the shape of the keeper M12 for bending and stretching is cylindric, and one of the keeper M13 for bending and stretching to lead Leader, the drawing head passes tube chamber M121 and is connected with handle M18, is provided with the wall upper process in the tube chamber M121 and allowed The first round body M14 that the keeper M13 for bending and stretching is passed through, the outer wall upper process of the keeper M13 for bending and stretching sets There are the second round body M15 on the one side for the close described cylindric positioning port M11 for being in the first round body M14, the first lap It is coupled glass bronze wire M16 between shape body M14 and the second round body M15；

The database server is arranged in casing；

A pair of cover plate P2 are connected with hinge on the casing P1, opens up horizontal more than the two on the cover plate P2 Through chamber road P21, carries the curved tabs that same level face is remained above 0 angle on the roof of the through chamber road P21 P22, is connected to barrier flaps P3, the barrier flaps P3 and contains same level face to be remained above 0 on the side at the back side of the cover plate P2 Angle and in face of positive first plates P31, the both sides towards positive plates P31 are connected to the second plates P32, the bottom side wall of the first plates P31 is connected to the cover plate P2 of the bottom side wall of the through chamber road P21 of bottom Back wall on, the second plates P32 is connected to the back wall of the cover plate P2 on the through chamber road P21 both sides On, insertion hole P11 is offered in the bottom wall of the cover plate P2, the supply fan P4 is connected to the base wall of the cover plate P2 On face and face the insertion hole P11；

Two of the bottom of the first plates P31 of the barrier flaps P3 is provided with shackle member P33, the shackle member P33 It is connected in the bottom side wall of the nethermost through chamber road P21 of cover plate P2；The top side wall upper band of the second plates P32 There is the scarf joint P34 for bending and stretching, interlocking mouth P23, the scarf joint are opened up on the cover plate P2 on the through chamber road P21 both sides P34 is embedded in the interlocking mouthful of the cover plate P2.

The insertion hole P11 is column or strip.

The operation principle of this structure is for generally, the locating rod M21 of the upper panel M2 puts in cylindric positioning Mouth M11, glass bronze wire M16 are former long status, and the clamping joint of the keeper M13 for bending and stretching is in card interface M211, by This has reached combination stabilization between the columnar hollow housing M1 and upper panel M2, it is to avoid made by the such problem of shake Upper panel is obtained with the separation between the columnar hollow housing M1, when crack occurs in the upper panel M2, upper side is replaced When plate M2, handle is dropped, glass bronze wire is extruded, the clamping joint of the keeper M13 for bending and stretching is from card interface M211 Separate, the locating rod M21 is just freed, and upper panel M2 is just separated with columnar hollow housing M1；Other top is changed After panel M2, the locating rod M21 of other upper panel is put in cylindric positioning port M11, and decontrol handle, in glass bronze wire Under M16 effects, the clamping joint of the keeper M13 for bending and stretching can be achieved with being tightly combined with card interface M211 phase clampings.This Invention addition of on traditional through chamber road framework prevents the drop of outside from being invaded into the group in casing by through chamber road Part, it includes the barrier flaps P3, and thus allowing can be blocked piece P3 and intercepted by the drop of the outside on through chamber road, this Sample just can drop down according to the first plates P31 by the through chamber road of the cover plate bottom.The supply fan P4 connections in addition In the bottom wall of the cover plate P2 and the insertion hole P11 is faced, can thus allow supply fan to air inlet in casing, with It is vented by by through chamber road P21, it becomes possible to improve the cooling velocity in casing.

The glass bronze wire M16 is helical form.

Two of the bottom of the first plates P31 of the barrier flaps P3 is provided with shackle member P33, the shackle member P33 It is connected in the bottom side wall of the nethermost through chamber road P21 of cover plate P2；The top side wall upper band of the second plates P32 There is the scarf joint P34 for bending and stretching, interlocking mouth P23, the scarf joint are opened up on the cover plate P2 on the through chamber road P21 both sides P34 is embedded in the interlocking mouthful of the cover plate P2.The barrier flaps P3 carries shackle member P33 and scarf joint P34, configuration and combination Also it is easy.

Such structural advantages are as follows：

1. so cause that control cabinet is protected；

2. upper panel M2 described in is separable structure with the columnar hollow housing M1, so allows upper panel with described Being decomposed between columnar hollow housing has guarantee；

3. locating rod M21, the post are stretched towards columnar hollow housing M1 directions on the lower wall of upper panel M2 described in The cylindric positioning port M11 for allowing locating rod M21 to put in is provided with shape hollow housing M1, so that being pushed up when being used so as to ensure that Lid is fixedly connected with casing；

4. the outer wall upper process of the keeper M13 that can be bent and stretched described in is provided with the close described circle for being in the first round body M14 It is coupled glass between second round the body M15, the first round body M14 on one side of column positioning port M11 and the second round body M15 Bronze wire M16, when the upper panel M2 is replaced, can drop handle so that the card of the keeper M13 for bending and stretching Joint departs from card interface, thus achieves separation, very convenient quick.

5th, be addition of on traditional through chamber road framework prevents the drop of outside from being invaded into casing by through chamber road In component, it includes the barrier flaps P3, thus to allow and can be blocked piece P3 institutes by the drop of the outside on through chamber road Intercept, thus can drop down by the through chamber road of the cover plate bottom according to the first plates P31, with this avoid droplets from through By in through chamber road intrusion casing, it is ensured that the stabilization of internal server.

6th, the supply fan P4 is connected in the bottom wall of the cover plate P2 and faces the insertion hole P11, so Can just allow supply fan to air inlet in casing, be then vented via through chamber road P21, it becomes possible to improve the cooling speed in casing Degree.

7th, the through chamber road P21 according to longitudinal equidistant arrangement on the cover plate P2, the highest point of the cover plate P2 Through chamber road P21 will be less than the barrier flaps P3 top.Such setting makes it possible to completely obscured firmly drop and enters Passage.

8th, two of the bottom of the first plates P31 of the barrier flaps P3 is provided with shackle member P33, the shackle member P33 is connected in the bottom side wall of the nethermost through chamber road P21 of cover plate P2；The top side wall of the second plates P32 It is upper to carry the scarf joint P34 for bending and stretching, open up interlocking mouth P23, the interlocking on the cover plate P2 on the through chamber road P21 both sides Head P34 is embedded in the interlocking mouthful of the cover plate P2.The barrier flaps P3 carries shackle member P33 and scarf joint P34, configuration and knot It is also easy to close.

The monitoring method of the wireless remote monitering heating and ventilating equipment is the next data is activation of detection module collection to controller In, it is controlled by output control unit, and can be communicated by communication module.

The switching value that first defrosting sensor can be used HVAC unit fault detect is substituted, and described second changes The switching value that white sensor can be used the detection of HVAC set state is substituted.

The above, is only presently preferred embodiments of the present invention, and any formal limitation is not made to the present invention, though So the present invention is disclosed above with preferred embodiment, but is not limited to the present invention, any to be familiar with this professional technology people Member, without departing from the scope of the present invention, when making a little change or modification using the technology contents of the disclosure above Be the Equivalent embodiments of equivalent variations, as long as be without departing from technical solution of the present invention content, according to technical spirit of the invention, Within the spirit and principles in the present invention, any simple modification, equivalent and improvement for being made to above example etc., still Belong within the protection domain of technical solution of the present invention.

Claims (10)

1. a kind of wireless remote monitering heating and ventilating equipment, it is characterised in that comprising controller, output control unit, detection module and Communication module；

The controller sets corresponding output port connection output control unit；

The communication module uses wireless communication mode or wire communication mode, by corresponding communication interface and controller communication Connection；

The output of the detection module is connected with the corresponding pin of the controller.

2. wireless remote monitering heating and ventilating equipment according to claim 1, it is characterised in that the controller is core micro-control Device processed；The output control unit is control module；The detection module is temperature detecting module, the temperature detecting module bag Defrosting sensor and temperature sensor are included, the output of the defrosting sensor and temperature sensor is connected by sensor interface module Connect the corresponding pin of Core Microcontroller；The Core Microcontroller, control module and temperature detecting module pass through power module Power supply.

3. wireless remote monitering heating and ventilating equipment according to claim 2, it is characterised in that the heating and ventilating equipment is air-conditioning.

4. wireless remote monitering heating and ventilating equipment according to claim 3, it is characterised in that the Core Microcontroller is MC9S08AW60 processors, the sensor interface module includes that first interface socket CN1, second interface socket CN2, the 3rd connect Mouth socket CN3, the interface socket PING for BDM interfaces, the quantity of the defrosting sensor is two, and it is respectively the first change White sensor and the second defrosting sensor, the temperature sensor quantity are four, and it is respectively indoor temperature transmitter, outdoor Temperature sensor, return water temperature sensor and leaving water temperature sensors, the number of pin of the first interface socket CN1 is four Individual, its pin is respectively first pin of first interface socket CN1, second pin of first interface socket CN1, first interface and inserts The three-prong and the 4th pin of first interface socket CN1 of seat CN1；The number of pin of the second interface socket CN2 is four Individual, its pin is respectively first pin of second interface socket CN2, second pin of second interface socket CN2, second interface and inserts The three-prong and the 4th pin of second interface socket CN2 of seat CN2；The number of pin of the 3rd interface socket CN3 is four Individual, its pin is respectively first pin of the 3rd interface socket CN3, second pin of the 3rd interface socket CN3, the 3rd interface and inserts The three-prong and the 4th pin of the 3rd interface socket CN3 of seat CN3, the pipe of the interface socket PING for BDM interfaces Pin quantity is four, and its pin is respectively first pin of the interface socket PING for BDM interfaces, connecing for BDM interfaces Second pin of mouthful socket PING, for BDM interfaces interface socket PING three-prong and insert for the interface of BDM interfaces 4th pin of seat PING；

The output of the indoor temperature transmitter and the output of outdoor temperature sensor are respectively with the first of first interface socket CN1 Pin is connected with the three-prong of first interface socket CN1, second pin and first interface socket of first interface socket CN1 4th pin of CN1 is grounded；

First pin of the first interface socket CN1 is also with one end of first resistor R20, one end of second resistance R24 and One end of one electric capacity C20 is connected, and the other end of the first electric capacity C20 and one end of the second electric capacity C24 are grounded, and described The other end of two electric capacity C24 is connected to form first input end AD1 with the other end of the second resistance R24, and described first is defeated Enter to hold AD1 to be connected with the PTB0/AD1P0 pins marked as 34 of the MC9S08AW60 processors, the first resistor R20 The other end be connected with first voltage source VCC；

The three-prong of the first interface socket CN1 is also with one end of 3rd resistor R21, one end of the 4th resistance R25 and One end of three electric capacity C21 is connected, and the other end of the 3rd electric capacity C21 and one end of the 4th electric capacity C25 are grounded, and described The other end of four electric capacity C25 is connected to form the second input AD2 with the other end of the 4th resistance R25, and described second is defeated Enter to hold AD2 to be connected with the PTB1/AD1P1 pins marked as 35 of the MC9S08AW60 processors, the 3rd resistor R21 The other end be connected with first voltage source VCC；

The output of the return water temperature sensor and the output of leaving water temperature sensors are respectively with the first of second interface socket CN2 Pin is connected with the three-prong of second interface socket CN2, second pin and second interface socket of second interface socket CN2 4th pin of CN2 is grounded；

First pin of the second interface socket CN2 is also with one end of the 5th resistance R22, one end of the 6th resistance R26 and the One end of five electric capacity C22 is connected, and the other end of the 5th electric capacity C22 and one end of the 6th electric capacity C26 are grounded, and described The other end of six electric capacity C26 is connected to form the 3rd input AD3 with the other end of the 6th resistance R26, and the described 3rd is defeated Enter to hold AD3 to be connected with the PTB2/AD1P2 pins marked as 36 of the MC9S08AW60 processors, the 5th resistance R22 The other end be connected with first voltage source VCC；

The three-prong of the second interface socket CN2 is also with one end of the 7th resistance R23, one end of the 8th resistance R27 and the One end of seven electric capacity C23 is connected, and the other end of the 7th electric capacity C23 and one end of the 8th electric capacity C27 are grounded, and described The other end of eight electric capacity C27 is connected to form the 4th input AD4 with the other end of the 8th resistance R27, and the described 4th is defeated Enter to hold AD4 to be connected with the PTB3/AD1P3 pins marked as 37 of the MC9S08AW60 processors, the 7th resistance R23 The other end be connected with first voltage source VCC；

The output of first defrosting sensor is connected with first pin of the 3rd interface socket CN3, and the described 3rd connects The one end and the pin marked as 2 of a TLP181 couplers OPT1 of first pin of mouth socket CN3 also with the 9th resistance R16 It is connected, the one end and the label of a TLP181 couplers OPT1 of the other end of the 9th resistance R16 with the tenth resistance R13 Pin for 1 is connected, and the other end of the tenth resistance R13 is connected with the second voltage source C5V, a TLP181 couplings Pin marked as 3 ground connection of clutch OPT1, the pin marked as 4 of the TLP181 couplers OPT1 is with the 11st electricity The one end for hindering R18 is connected, and the other end of the 11st resistance R18 is same described as the 5th input IN_D1 The PTD2/KBI1P5/AD1P10 pins marked as 46 of MC9S08AW60 processors are connected；

The output of second defrosting sensor is with second pin of the 3rd interface socket CN3, three-prong and the 4th pipe Pin is connected, and second pin of the 3rd interface socket CN3, three-prong and the 4th pin are also with the 12nd resistance R17's One end is connected with the pin marked as 2 of the 2nd TLP181 couplers OPT2, and the other end of the 12nd resistance R17 is with the One end of 13 resistance R14 is connected with the pin marked as 1 of the 2nd TLP181 couplers OPT2, the 13rd resistance The other end of R14 is connected with the second voltage source C5V, the ground connection of the pin marked as 3 of the 2nd TLP181 couplers OPT2, The pin marked as 4 of the 2nd TLP181 couplers OPT2 is connected with one end of the 14th resistance R19, and the described 14th The other end of resistance R19 as the 6th input IN_D2 with the MC9S08AW60 processors the PTD3/ marked as 47 KBI1P6/AD1P11 pins are connected；

First pin of the interface socket PING for BDM interfaces is connected with the connection BKGD pins of BDM interfaces, institute The second pin for stating the interface socket PING for BDM interfaces is connected with the reset RST pins of BDM interfaces, described for BDM The 4th pin ground connection of the interface socket PING of interface, first pin of the interface socket PING for BDM interfaces is also same The BKGD/MS pins marked as 56 of the MC9S08AW60 processors are connected, the interface socket for BDM interfaces The three-prong of PING is connected with one end of first voltage source VCC and the 21st resistance R6, the 21st resistance R6 The other end be connected to be formed with second pin of interface socket PING for BDM interfaces and one end of the 9th electric capacity C6 7th input, the 7th input is with the MC9S08AW60 processors marked as 3Pin is connected, The other end ground connection of the 9th electric capacity C6；

The first voltage source VCC is connected with one end of the 22nd resistance R7, the other end of the 22nd resistance R7 One end of IRQ pins and the tenth electric capacity C7 with the MC9S08AW60 processors marked as 2 is connected, the tenth electric capacity The other end ground connection of C7；

The control module includes light emitting diode indicator drive control special circuit and the 6th interface socket CN6, and the 6th connects The number of pin of mouthful socket CN6 is five, and it is respectively first pin of the 6th interface socket CN6, the 6th interface socket CN6 Second pin, the three-prong of the 6th interface socket CN6, the 4th pin and the 6th interface socket CN6 of the 6th interface socket CN6 The 5th pin, the light emitting diode indicator drive control special circuit be TM1638 chips, the 6th interface socket The first pin ground connection of CN6, second pin of the 6th interface socket CN6 is connected with first voltage source VCC；Described 6th The three-prong of interface socket CN6 is connected with the STB pins marked as 28 of TM1638 chips, the 6th interface socket The three-prong of CN6 is also connected with one end of the 15th resistance R10, and the other end of the 15th resistance R10 is with described The PTF6 pins marked as 12 of MC9S08AW60 processors are connected；4th pin of the 6th interface socket CN6 is same The CLK pins marked as 27 of TM1638 chips are connected, and the 4th pin of the 6th interface socket CN6 is also with the 16th electricity The one end for hindering R11 is connected, and the other end of the 16th resistance R11 is with the MC9S08AW60 processors marked as 11 PTF5/TPM2CH1 pins are connected；5th pin of the 6th interface socket CN6 is with TM1638 chips marked as 26 DIO pins are connected, and the 5th pin of the 6th interface socket CN6 is also connected with one end of the 17th resistance R12, described The other end of the 17th resistance R12 is connected with the PTF7 pins marked as 10 of the MC9S08AW60 processors；

The control module also includes the positive pole pin of loudspeaker SPEAKER, the loudspeaker SPEAKER with the 3rd electricity of 12V Potential source is connected, and the negative pin of the loudspeaker SPEAKER is connected with one end of the 18th resistance R47, and the described 18th The other end of resistance R47 is connected with the colelctor electrode of the first triode Q6, and the grounded emitter of the first triode Q6 is described The base stage of the first triode Q6 is connected with one end of the 19th resistance R48, the other end and second of the 19th resistance R48 One end of ten resistance R49 is connected to form the first output end, the other end ground connection of the 20th resistance R49, and described first is defeated Go out end to be connected with the PTD0/AD1P8 pins marked as 42 of the MC9S08AW60 processors；

And the first wire A is connected with one end of protective tube F1, the second wire B is connected and connects with earphone socket PHONEJACK2 Ground, the other end of the protective tube F1 with the tertiary voltage source, one end of the first inductance L1 and variable resistor ZNR of 12V one end Be connected, the other end of variable resistor ZNR ground connection, the other end of the first inductance L1 with polarized electric capacity E1 just Pole, one end of the 11st electric capacity C1, the EN ends of Switching Power Supply MIC29302 are connected with the IN ends of Switching Power Supply MIC29302, institute State another pole ground connection of polar capacitor E1, the GNE ends ground connection of the Switching Power Supply MIC29302, the other end of the 11st electric capacity C1 Ground connection, the OUT terminal of the Switching Power Supply MIC29302 is with one end of the 23rd resistance R1, one end of the 12nd electric capacity C3, the One end, one end of the 14th electric capacity C31, one end of the 15th electric capacity C32, the one of the 16th electric capacity C33 of 13 electric capacity C28 The source electrode of end, one end of the 17th electric capacity C34 and metal-oxide-semiconductor is connected to form first voltage source VCC, the 12nd electric capacity C3 The other end, the other end of the 13rd electric capacity C28, the other end of the 14th electric capacity C31, the other end of the 15th electric capacity C32, The other end of 16 electric capacity C33 and the other end ground connection of the 17th electric capacity C34, the ADJ ends of the Switching Power Supply MIC29302 It is connected with one end of the 18th electric capacity C2 with the other end of the 23rd resistance R1, one end of the 24th resistance R2, it is described The other end of the 24th resistance R2 and the other end ground connection of the 18th electric capacity C2, the grid of the metal-oxide-semiconductor is with the 25th electricity The one end for hindering R50 is connected, and the other end of the 25th resistance R50 is connected shape with one end of the 26th resistance R52 Into the 8th input CVMOS, the 8th input CVMOS draws with the PTA3 marked as 30 of the MC9S08AW60 processors Pin is connected, the other end ground connection of the 26th resistance R52, and the drain electrode of the metal-oxide-semiconductor is with the one of the 18th electric capacity C44 End, one end of the 19th electric capacity C5, one end of the 20th electric capacity C29, one end of the 21st electric capacity C4, the 22nd electric capacity One end of C16 is connected to form the 4th voltage source VBAT with the IN ends of AX1117 electric current voltage stabilizing chips, and the AX1117 electric currents are steady The OUT terminal of chip is pressed to be connected to form the 5th voltage with one end of the 24th electric capacity C30 with one end of the 23rd electric capacity C18 Source VGPS, the GND ends of the AX1117 electric currents voltage stabilizing chip, the other end of the 23rd electric capacity C18, the 24th electric capacity C30 The other end, the other end of the 18th electric capacity C44, the other end of the 19th electric capacity C5, the other end of the 20th electric capacity C29, The other end of 21 electric capacity C4 and the other end ground connection of the 22nd electric capacity C16；

Each row of other first double needle stand carries two contact pins, the first row of the same first double needle stand in the tertiary voltage source In a contact pin, one end of one end C35 and the 26th electric capacity C36 of the 25th electric capacity be connected, the described 25th A contact pin in the second row of the other end C35, the other end of the 26th electric capacity C36 and the first double needle stand of electric capacity connects Ground, another contact pin ground connection in the first row of the first double needle stand is another in the second row of the first double needle stand One contact pin is connected with the second voltage source C5V, and the second voltage source C5V is also with one end, second of the 27th electric capacity C37 One end of 18 electric capacity C38 is connected with one end of the 29th electric capacity C39, the other end of the 27th electric capacity C37, The other end of 28 electric capacity C38 and the other end ground connection of the 29th electric capacity C39；

The control module also includes the first relay RLY01, the second relay RLY02 and the 5th interface socket CN5, described the One relay RLY01 includes normally opened contact, and the second relay RLY02 also includes normally opened contact, the 5th interface The number of pin of socket CN5 is four, and its pin is respectively first pin of the 5th interface socket CN5, the 5th interface socket CN5 The second pin, the three-prong of the 5th interface socket CN5 and the 5th interface socket CN5 the 4th pin；

The three-prong of the 5th interface socket CN5 and the 4th pin of the 5th interface socket CN5 are respectively with heating and ventilating equipment One end of the coil of the first magnetic valve is connected with a pole of the power supply of first magnetic valve, the coil of first magnetic valve The other end be connected with another pole of the power supply of first magnetic valve, the three-prong of the 5th interface socket CN5 is also One end with the normally opened contact of the first relay RLY01 is connected, and the 4th pin of the 5th interface socket CN5 is also with first The other end of the normally opened contact of relay RLY01 is connected, and one end of the coil of the first relay RLY01 is with the one or two pole The negative pole of pipe D3 is connected with tertiary voltage source, the colelctor electrode and institute of the positive pole of the first diode D3 with the second triode Q1 The other end for stating the coil of the first relay RLY01 is connected, and the emitter stage of the second triode Q1 is with the 27th resistance One end of R43 is connected and is grounded, and the other end of the 27th resistance R43 is with one end of the 28th resistance R45 and the The base stage of two triode Q1 is connected, and the other end of the 28th resistance R45 is as the second output end with the MC9S08AW60 The PTC2/MCLK pins marked as 62 of processor are connected；

First pin of the 5th interface socket CN5 and second pin of the 5th interface socket CN5 are respectively with heating and ventilating equipment One end of the coil of the second magnetic valve is connected with a pole of the power supply of second magnetic valve, the coil of second magnetic valve The other end be connected with another pole of the power supply of second magnetic valve, first pin of the 5th interface socket CN5 is also One end with the normally opened contact of the second relay RLY02 is connected, and second pin of the 5th interface socket CN5 is also with second The other end of the normally opened contact of relay RLY02 is connected, and one end of the coil of the second relay RLY02 is with the two or two pole The negative pole of pipe D4 is connected with tertiary voltage source, the colelctor electrode and institute of the positive pole of the second diode D3 with the 3rd triode Q2 The other end for stating the coil of the second relay RLY02 is connected, and the emitter stage of the 3rd triode Q2 is with the 29th resistance One end of R44 is connected and is grounded, one end and the 3rd of the same 30th resistance R46 of the other end of the 29th resistance R44 The base stage of triode Q2 is connected, and the other end of the 30th resistance R46 is as the 3rd output end with the MC9S08AW60 treatment The PTC1/SDAL pins marked as 61 of device are connected；

The communication module includes GSM antenna, gps antenna, the gsm module for supporting GPS business, SIM and RS485 modules, and Each row of the second double needle stand carries two contact pins, i.e., it has four contact pins, and the signal end of the GSM antenna is with described the Four contact pins of two double needle stands are connected, and a contact pin of the first row of the second double needle stand is with second double-row needle Another contact pin, a contact pin, one end of the 30th electric capacity C40 of the second row of the second double needle stand of the first row of seat One end with the 31st electric capacity C41 is connected and is grounded, and one end of the 30th electric capacity C40 is with the described second double needle stand Another contact pin of second row and one end of the second inductance L5 be connected, the other end and the 31st of the second inductance L5 The other end of electric capacity C41 is connected to form the first signal end；The gsm module of the support GPS business includes MG2618 chips, institute The first signal end is stated to be connected with the RT_ANT pins marked as 16 of the MG2618 chips；

And each row of the 3rd double needle stand carries two contact pins, i.e., it has four contact pins, and the signal end of the gps antenna is same Four contact pins of the 3rd double needle stand are connected, and a contact pin of the first row of the 3rd double needle stand is with the described 3rd One contact pin, the 32nd electric capacity of another contact pin of the first row of double needle stand, the second row of the 3rd double needle stand One end of C42 is connected and is grounded, the one end and the 5th voltage of the other end of the 32nd electric capacity C42 with the 3rd inductance L6 Source VGPS is connected, the one end and the 3rd double needle stand of the other end of the 3rd inductance L6 with the 33rd electric capacity C43 Another contact pin of second row be connected, the other end of the 33rd electric capacity C43 forms secondary signal end；The secondary signal End is connected with the GPS_ANT pins marked as 38 of the MG2618 chips；

The SIM includes 8 pins, wherein one end, three ten of the VCC contacts of the SIM with the 34th electric capacity C10 One end of five electric capacity C19, the VPP contacts of SIM, the K1 contacts of SIM, the pin marked as 1 of a PSM712 chips and One end of 31st resistance R5 is connected, the drawing marked as 2 of the same PSM712 chips in RESET contacts of the SIM One end of pin and the 36th electric capacity C11 are connected to form the 3rd signal end, and the 3rd signal end is with the one of the 4th inductance L4 End is connected, and the other end of the 4th inductance L4 is connected with the SIM_RST pins marked as 24 of the MG2618 chips, One end of the pin and the 37th electric capacity C12 of the CLK contacts of the SIM with the 2nd PSM712 chips marked as 2 is connected Connect to form the 4th signal end, the 4th signal end is connected with one end of the 5th inductance L5, and the 5th inductance L5's is another End is connected with the SIM_CLK pins marked as 23 of the MG2618 chips, and the GND contacts of the SIM are with the 34th The other end of the other end of electric capacity C10 and the 35th electric capacity C19 is connected and is grounded, and the other end of the 4th inductance L4 is same One end of the I O contacts of the SIM, the pin marked as 1 of the 2nd PSM712 chips and the 38th electric capacity C13 is connected Connect to form the 5th signal end, the 5th signal end is connected with the SIM_DATA pins marked as 22 of the MG2618 chips Connect, the other end of the 36th electric capacity C11, the other end of the 37th electric capacity C12, the 38th electric capacity C13 it is another The pin marked as 3 at end, the pin marked as 3 of a PSM712 chips and the 2nd PSM712 chips is connected and is grounded, The K2 contacts of the SIM are connected with the VREG_SIM pins marked as 21 of the MG2618 chips；

It is the GND pin marked as 18 of the MG2618 chips, the GND pin marked as 17 of the MG2618 chips, described The GND pin marked as 15 of MG2618 chips, the GND pin marked as 12 of the MG2618 chips, the MG2618 cores The GND pin marked as 4 of piece and the ground connection of the GND pin marked as 1 of the MG2618 chips；The mark of the MG2618 chips Number it is connected with the 6th voltage source VDDIO for 14 VREG_MSME1 pins；

The SYSRST_N pins marked as 13 of the MG2618 chips are connected with the colelctor electrode of the 4th triode Q3, and described the The emitter stage of four triode Q3 is connected and is grounded with one end of the 32nd resistance R8, the 32nd resistance R8's The other end is connected with one end of the 33rd resistance R28 with the base stage of the 4th triode Q3, the 33rd resistance The other end of R28 is connected with the PTA6 pins marked as 32 of the MC9S08AW60 processors；

The PWRKEY_N pins marked as 3 of the MG2618 chips are connected with the colelctor electrode of the 5th triode Q4, and described the The emitter stage of five triode Q4 is connected and is grounded with one end of the 34th resistance R9, the 34th resistance R9's The other end is connected with one end of the 35th resistance R29 with the base stage of the 5th triode, and the 35th resistance R29's is another One end is connected with the PTA7 pins marked as 33 of the MC9S08AW60 processors；

The RSSI_LED pins marked as 2 of the MG2618 chips are connected with one end of the 36th resistance R51, and described the The other end of 36 resistance R51 is connected with the base stage of the 6th triode Q5, the grounded emitter of the 6th triode Q5, The one end and the MC9S08AW60 treatment of one end of the colelctor electrode of the 6th triode Q5 with the 37th resistance R15 The PTA5 pins marked as 31 of device are connected, and the other end of the 37th resistance R15 is connected with first voltage source VCC Connect；

The VBAT pins marked as 19 of the MG2618 chips are connected with the 4th voltage source VBAT, the MG2618 cores The GND pin marked as 20 of piece, the GND pin marked as 30 of the MG2618 chips, the label of the MG2618 chips For 36 GND pin, the MG2618 chips marked as 37 GND pin ground connection, the MG2618 chips marked as 39 GND pin, the GND pin marked as 42 of the MG2618 chips, the GND pin marked as 47 of the MG2618 chips The GND pin marked as 49 with the MG2618 chips is grounded, and the VGPS_MAIN marked as 40 of the MG2618 chips draws Pin is connected with the 5th voltage source VGPS；

The MG2618 chips marked as 25 /RTS pins are connected with the IO_VL4 pins of a NLSX5014 converters, The MG2618 chips marked as 26 /CTS pins are connected with the IO_VL3 pins of a NLSX5014 converters, described MG2618 chips marked as 34 /DTR pins are connected with the IO_VL2 pins of a NLSX5014 converters, described The RI pins marked as 33 of MG2618 chips are connected with the IO_VL1 pins of a NLSX5014 converters；First The GND pin ground connection of NLSX5014 converters, the VL pins of a NLSX5014 converters, the 39th electric capacity C15 One end is connected with the EN pins of a NLSX5014 converters with the 6th voltage source VDDIO, the 39th electric capacity C15 The other end ground connection；The VCC pin of the first NLSX5014 converters is connected with first voltage source VCC；

The MG2618 chips marked as 32 /DSR pins are connected with the IO_VL4 pins of the 2nd NLSX5014 converters, The DCD pins marked as 31 of the MG2618 chips are connected with the IO_VL3 pins of the 2nd NLSX5014 converters, described The RXD pins marked as 28 of MG2618 chips are connected with the IO_VL2 pins of the 2nd NLSX5014 converters, described The TXD pins marked as 27 of MG2618 chips are connected with the IO_VL1 pins of the 2nd NLSX5014 converters；Second The GND pin ground connection of NLSX5014 converters, VL pins, the one of the 40th electric capacity C14 of the 2nd NLSX5014 converters End, one end of the 41st electric capacity C17 are connected with the EN pins of the 2nd NLSX5014 converters with the 6th voltage source VDDIO Connect, the other end of the 40th electric capacity C14 and the other end of the 41st electric capacity C17 are grounded；The 2nd NLSX5014 converters VCC pin be connected with first voltage source VCC；

The IO_VCC4 pins of the first NLSX5014 converters with the MC9S08AW60 processors the PTA3 marked as 29 Pin is connected, the IO_VCC3 pins of a NLSX5014 converters with the MC9S08AW60 processors marked as 28 PTA2 pins are connected, and the IO_VCC2 pins of a NLSX5014 converters are with the MC9S08AW60 processors The PTA1 pins marked as 27 be connected, the IO_VCC1 pins of a NLSX5014 converters are with described The PTA0 pins marked as 26 of MC9S08AW60 processors are connected；

The IO_VCC4 pins of the 2nd NLSX5014 converters are with the MC9S08AW60 processors marked as 18 PTE5/MISO1 pins are connected, and the IO_VCC3 pins of the 2nd NLSX5014 converters are with the MC9S08AW60 treatment The PTE4/SS1 pins marked as 17 of device are connected, and the IO_VCC2 pins of the 2nd NLSX5014 converters are with described The PTE2/TPM1CH0 pins marked as 15 of MC9S08AW60 processors are connected, the 2nd NLSX5014 converters IO_VCC1 pins are connected with the PTE1/RxD1 pins marked as 14 of the MC9S08AW60 processors；

And the 4th interface socket CN4 include four pins, its four pins be respectively the 4th interface socket CN4 the first pin, The 4th of second pin of the 4th interface socket CN4, the three-prong of the 4th interface socket CN4 and the 4th interface socket CN4 Pin, the RS485 modules include the RS485A terminals and RS485B terminals that are connected with RS485 communication interfaces, described First pin of the 4th interface socket CN4 is connected with the second voltage source C5V, second pin of the 4th interface socket CN4 Ground connection, the three-prong of the 4th interface socket CN4 is connected with RS485A terminals, the 4th interface socket CN4's 4th pin is connected with RS485B terminals；

The three-prong of the 4th interface socket CN4 is also connected with one end of the 38th resistance R38, and the described 38th The other end of resistance R38 is with one end of the 39th resistance R42, one end of the 40th resistance R40, the first bilateral diode D5 One end is connected with the A pins of MAX3085 chips, and the 4th pin of the 4th interface socket CN4 is also with the 41st resistance One end of R39 is connected, the other end, the 42nd of the same 39th resistance R42 of the other end of the 41st resistance R39 One end of resistance R41, one end of the second bilateral diode D6 are connected with the B pins of MAX3085 chips, the 42nd electricity The other end for hindering R41 is connected and connects with the other end of the first bilateral diode D5 and the other end of the second bilateral diode D6 Ground；The VCC pin of the MAX3085 chips is connected with the second voltage source C5V, and the GND pin of the MAX3085 chips connects Ground, one end of the same 43rd resistance R37 of D pins of the MAX3085 chips and the drawing marked as 5 of a TLP112 chips Pin is connected, the RE pins of the MAX3085 chips with the DE pins of the MAX3085 chips, TLP181 chips marked as 3 Pin and one end of the 44th resistance R36 be connected, the other end ground connection of the 44th resistance R36, the MAX3085 cores The R pins of piece are connected with the pin marked as 3 of the 2nd TLP112 chips, the other end of the 43rd resistance R37 and The pin marked as 6 of the first TLP112 chips is connected, the ground connection of the pin marked as 4 of a TLP112 chips, institute The pin marked as 4 for stating TLP181 chips is connected with the second voltage source C5V, the 2nd TLP112 chips marked as 1 Pin be connected with one end of the 45th resistance R35, the same the second voltage source of the other end of the 45th resistance R35 C5V is connected, one end and the 47th of the same 46th resistance R32 of the pin marked as 4 of a TLP112 chips One end of resistance R30 is connected, and the other end of the 47th resistance R30 is connected with first voltage source VCC；Described first The other end and the mark of the MC9S08AW60 processors of the same 46th resistance R32 of the pin marked as 3 of TLP112 chips Number it is connected for 63 PTC3/TxD2 pins；The pin marked as 1 of the TLP181 chips is with the 48th resistance R33's One end is connected with one end of the 49th resistance R31, and the other end of the 48th resistance R33 is with first voltage source VCC It is connected, pin with the TLP181 chips marked as 2 of the other end of the 49th resistance R31 and described The PTG4/KBI1P4 pins marked as 49 of MC9S08AW60 processors are connected；The 2nd TLP112 chips marked as 4 Pin ground connection, the one end and first voltage source of the pin marked as 6 of the 2nd TLP112 chips with the 50th resistance R34 VCC is connected, and the pin marked as 5 of the 2nd TLP112 chips is with the other end of the 50th resistance R34 and described The PTC5/RxD2 pins marked as 64 of MC9S08AW60 processors are connected.

5. wireless remote monitering heating and ventilating equipment according to claim 4, it is characterised in that the communication module includes GPRS Communication module, GPRS communication module receives gateway and is connected with described information, and described information receives gateway and the database service Device is connected；Described information receives gateway and is arranged in control cabinet；

And columnar hollow housing is covered with the control cabinet, the upper surface of the columnar hollow housing is provided with same columnar hollow housing The lumen therethrough that connects of hollow inside, and the lumen therethrough opened up on the upper surface of the columnar hollow housing passes through upper panel Cover in, the upper panel is separable structure with the columnar hollow housing；

Locating rod is stretched towards columnar hollow housing direction on the lower wall of the upper panel, is opened on the columnar hollow housing There is the cylindric positioning port for allowing locating rod to put in, the axle with the cylindric positioning port is provided with the columnar hollow hull outside Line keeps 90 degree of locating sleeves of angle, the tube chamber of the locating sleeve to be connected with the cylindric positioning port, can bend and stretch Keeper from one of the tube chamber other end through tube chamber, the shape of the keeper for bending and stretching be it is cylindric, it is described can One of the keeper for bending and stretching is drawing head, and the drawing head passes tube chamber and is connected with handle, the wall in the tube chamber Upper process is provided with the first round body for allowing the keeper that can be bent and stretched to pass through, the outer wall upper process of the keeper for bending and stretching It is provided with the second round body on the one side for the close described cylindric positioning port for being in the first round body, the first round body and It is coupled glass bronze wire between two round bodies；

The database server is arranged in casing；

A pair of cover plates are connected with hinge on the casing, the horizontal through chamber more than the two is opened up on the cover plate Road, carries the curved tabs that same level face is remained above 0 angle on the roof on the through chamber road, the back side of the cover plate Barrier flaps are connected on side, the barrier flaps contain same level face and are remained above 0 angle and in face of positive first plates, The both sides towards positive plates are connected to the second plates, under the bottom side wall of first plates is connected to most On the back wall of the cover plate of the bottom side wall on the through chamber road of side, second plates are connected to the through chamber road On the back wall of the cover plate on both sides, insertion hole is offered in the bottom wall of the cover plate, the supply fan is connected to described In the bottom wall of cover plate and face the insertion hole；

Two of the bottom of the first plates of the barrier flaps is provided with shackle member, and it is bottom that the shackle member is connected in cover plate Through chamber road bottom side wall on；The top side wall upper band of second plates has the scarf joint for bending and stretching, the insertion Interlocking mouth is opened up on the cover plate on both sides of the road of formula chamber, the scarf joint is embedded in the interlocking mouthful of the cover plate.

6. wireless remote monitering heating and ventilating equipment according to claim 5, it is characterised in that the insertion hole is column or bar Shape.

7. wireless remote monitering heating and ventilating equipment according to claim 6, it is characterised in that the glass bronze wire is helical form.

8. wireless remote monitering heating and ventilating equipment according to claim 7, it is characterised in that the first sheet of the barrier flaps Two of the bottom of body is provided with shackle member, and the shackle member is connected in the bottom side wall on the nethermost through chamber road of cover plate On；The top side wall upper band of second plates has the scarf joint for bending and stretching, and is opened up on the cover plate on both sides of the road of the through chamber Interlocking mouth, the scarf joint is embedded in the interlocking mouthful of the cover plate；The barrier flaps P3 carries shackle member P33 and scarf joint P34。

9. the monitoring method of wireless remote monitering heating and ventilating equipment according to claim 3, it is characterised in that the radio remote During the monitoring method of range monitoring heating and ventilating equipment is for the next data is activation of detection module collection to controller, by output control unit To be controlled, and can be communicated by communication module.

10. the monitoring method of wireless remote monitering heating and ventilating equipment according to claim 3, it is characterised in that described first changes The switching value that white sensor can be used HVAC unit fault detect is substituted, and second defrosting sensor can be used The switching value of HVAC set state detection is substituted.