CN209103136U - A kind of universal electric autocontrol system - Google Patents

Abstract

The utility model discloses a kind of universal electric autocontrol systems, including host computer, microcomputer raspberry pie, I/O component, quick plug, quick socket, controlled circuit；Wherein, host computer connects I/O component by conducting wire by network connection microcomputer raspberry pie, the I/O port of microcomputer raspberry pie, and I/O component connects quick plug by conducting wire, quick plug connects quick socket by inserting mode, and quick socket connects controlled circuit by conducting wire；The microcomputer raspberry pie runs the corresponding program of controlled circuit, realizes the control of circuit and the acquisition of circuit information as controller, while being used as server again, and monitoring website is deployed in, and monitoring website backstage is docked with the program of operation.After universal electric autocontrol system described in the utility model is docked with traditional electric control circuit, so that it may the shortcomings that realizing upgrading, allowing it to realize electric automatization, overcome traditional electric control system.

Description

A kind of universal electric autocontrol system

Technical field

The utility model relates to electric autocontrol field, in particular to a kind of universal electric autocontrol system.

Background technique

Traditional electric control system is usually by relay, various switches, timer, various protection components etc. according to control Logic wiring processed is constituted.Traditional electric control system has the shortcomings that obvious: wiring is complicated, equipment volume is big, reliability is low, Trouble shoot is difficult, maintenance is inconvenient, can not achieve automation and intelligentification control etc..

The automation and intelligentification of electric control system is main flow direction at present, and traditional electric control system is often adopted With the mode of upgrading, it is allowed to realize electric automatization.It is generally counted using programmable controller PLC, directly in escalation process Word controller DDC etc. is used as core, acquires information and control equipment operation, and host computer generallys use industrial computer, industry touching Screen etc. is touched, and an image, intuitive man-machine interface are provided using configuration software, is also realized using Internet technology long-range Monitoring, thus the shortcomings that forming the electric control system of an automation and intelligentification, overcoming traditional electric control system, and And performance is promoted with crossing over property.

But escalation process is more complicated, needs to reinstall original equipment, rewiring, and the period of implementation is longer, changes Make higher cost.In addition PLC, DDC, industrial computer used by escalation process, graphic control panel, configuration software etc., hardware It is also higher with software cost.

The utility model is exactly to solve the problems, such as brought by the above conventional electrical control system and upgrading Problem.

Utility model content

The shortcomings that the main purpose of the utility model is to overcome the prior arts and insufficient, provide it is a kind of it is universal it is electrical from Control system.

The purpose of this utility model is realized by the following technical solution:

A kind of universal electric autocontrol system, including host computer, microcomputer raspberry pie, I/O component, quick plug, quickly Socket, controlled circuit；Wherein, host computer is passed through by network connection microcomputer raspberry pie, the I/O port of microcomputer raspberry pie Conducting wire connects I/O component, and I/O component connects quick plug by conducting wire, and quick plug connects quick socket by inserting mode, fastly Fast socket connects controlled circuit by conducting wire；

The microcomputer raspberry pie runs the corresponding program of controlled circuit as controller, realize circuit control and The acquisition of circuit information, while it being used as server again, monitoring website is deployed in, the program pair on monitoring website backstage and operation It connects；

After the host computer is by network connection microcomputer raspberry pie, the website of its deployment is accessed with browser, is entered Monitor state.

The host computer is personal computer or smart phone.

The microcomputer raspberry pie, I/O component, quick plug are mounted in special distribution box.

The I/O component includes relay module, connecting terminal, resistance R1~R5, temperature sensor, wherein

Terminal IN1, IN2, IN3, IN4, IN5, IN6, IN7, IN8 of relay module pass through conducting wire respectively and connect micro electric The I/O port terminal 21,23,27,29,31,33,35,37 of brain raspberry pie；Terminal DC+, DC- of relay module pass through conducting wire respectively Connect I/O port terminal 5V, GND of microcomputer raspberry pie；Terminal NO1, COM1 of relay module, NO2, COM2, NO3, COM3, NO4, COM4, NO5, COM5, NO6, COM6, NO7, COM7, NO8, COM8 connect the end of quick plug by conducting wire respectively Sub- B1, B2, B3, B4, B5, B6, B7, B8, B9, B10, B11, B12, B13, B14, B15, B16；

Connecting terminal terminal A1 conducting wire connection microcomputer raspberry pie I/O port terminal 3.3V, resistance R1 first terminal, The first terminal of resistance R2, the first terminal of resistance R3, the first terminal of resistance R4, the first terminal of resistance R5, temperature sensing The terminal 3 of device；Terminal A2 conducting wire connects microcomputer raspberry pie I/O port terminal 4, the Second terminal of resistance R5, temperature sensor Terminal 2；Terminal A3 conducting wire connects the terminal 1 of microcomputer raspberry pie I/O port terminal GND, temperature sensor；Terminal A4 conducting wire connects Meet microcomputer raspberry pie I/O port terminal GND, quick plug terminal B17；Terminal A5 conducting wire connects microcomputer raspberry pie I/O port Terminal 11, the Second terminal of resistance R1, quick plug terminal B18；Terminal A6 conducting wire connects microcomputer raspberry pie I/O port terminal 13, the Second terminal of resistance R2, quick plug terminal B19；Terminal A7 conducting wire connects microcomputer raspberry pie I/O port terminal 15, electricity Hinder Second terminal, the quick plug terminal B20 of R3；Terminal A8 conducting wire connects microcomputer raspberry pie I/O port terminal 19, resistance R4 Second terminal, quick plug terminal B21.

The resistance value of described resistance R1, R2, R3, R4 are 10 kilo-ohms, and the resistance value of resistance R5 is 4.7 kilo-ohms.

The model DS18B20 of the temperature sensor.

The controlled circuit is partial circuit (the actually universal electric autocontrol system of the utility model of refrigeration equipment Controlled circuit is not limited solely to refrigeration equipment, is only illustrated by taking refrigeration equipment as an example herein, the general technology of this field Personnel can clearly know when reading the technical solution of the utility model when controlled circuit is other circuits, how real Now it is electrically connected/electrically connects), the controlled circuit includes normally opened point driving switch SB1, SB3, SB5, SB7, normally closed point driving switch SB2, SB4, SB6, SB8, further include cooling blower relay KM1, cooling pump relay KM2, freezing pump relay KM3, compressor after Electric appliance KM4；Wherein

Terminal C1, C2 of the quick socket, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12, C13, C14, C15, C16 respectively by conducting wire connect the normally opened point driving switch SB1 first terminal of controlled circuit, normally opened point driving switch SB1 Second terminal, Normally closed point driving switch SB2 Second terminal, the coil first terminal of cooling blower relay KM1, normally opened point driving switch SB3 first end Sub, normally opened point driving switch SB3 Second terminal, normally closed point driving switch SB4 Second terminal, the coil first for cooling down pump relay KM2 Terminal, normally opened point driving switch SB5 first terminal, normally opened point driving switch SB5 Second terminal, normally closed point driving switch SB6 Second terminal, Freeze coil first terminal, the normally opened point driving switch SB7 first terminal, normally opened point driving switch SB7 second end of pump relay KM3 The coil first terminal of sub, normally closed point driving switch SB8 Second terminal, compressor relay KM4；The terminal of the quick socket C17 be separately connected the first normally opened contact first terminal of cooling blower relay KM1, cooling pump relay KM2 it is first normally opened The first of contact first end is sub, freezes pump relay KM3 the first normally opened contact first terminal, compressor relay KM4 is normally opened Contact first end；The terminal C18 of the quick socket connects the first of controlled circuit cooling blower relay KM1 by conducting wire Normally opened contact Second terminal, the terminal C19 of the quick socket connect the of the cooling pump relay KM2 of controlled circuit by conducting wire One normally opened contact Second terminal, the terminal C20 of the quick socket connect controlled circuit by conducting wire and freeze pump relay KM3's The terminal C21 of first normally opened contact Second terminal, the quick socket connects controlled circuit compressor relay KM4 by conducting wire The first normally opened contact Second terminal.

A kind of universal electric autocontrol system, the course of work are as follows:

The control principle of system is to control in controlled circuit for the coil of cooling blower relay KM1:

Cooling blower start button, the journey on website backstage and the operation of microcomputer raspberry pie are clicked on the webpage of host computer Sequence interaction, for program to 21 output order of I/O port terminal of microcomputer raspberry pie, which is conveyed to the relay mould of I/O component Block terminal IN1 is disconnected to control after relay module terminal NO1 and COM1 is connected 1 second, and the switching information is by quickly inserting Joint terminal B1, B2, quick socket terminal C1, C2 are conveyed to controlled circuit, and the coil of cooling blower relay KM1 is enabled to be powered 1 second, Its normally opened contact is also closed 1 second, and control loop composition is self-locking, and the coil of cooling blower relay KM1 continues to remain powered on state；

Cooling blower stop button, the journey on website backstage and the operation of microcomputer raspberry pie are clicked on the webpage of host computer Sequence interaction, program are conveyed to the relay module of I/O component to 23 output order of microcomputer raspberry pie I/O port terminal, the instruction Terminal IN2 is connected to control after relay module terminal NC2 and COM2 is disconnected 1 second, which passes through quick plug Terminal B3, B4, quick socket terminal C3, C4 are conveyed to controlled circuit, enable the coil blackout of cooling blower relay KM1 1 second, Normally opened contact also disconnects 1 second, and the self-locking of control loop is revoked, and the coil of cooling blower relay KM1 continues to remain powered off shape State；

Coil, the compressor relay KM4 of the coil of cooling pump relay KM2, freezing pump relay KM3 in controlled circuit Coil control it is similar with the control of coil of cooling blower relay KM1；

The acquisition information principle of system is to acquire the first normally opened contact information of cooling blower relay KM1 in controlled circuit For:

The first normally opened contact on-off information of cooling blower relay KM1 is conveyed to quick socket in controlled circuit Terminal C17, C18, then it is conveyed to through quick plug terminal B17, B18 terminal A4, A5 of the connecting terminal of I/O component, finally convey To microcomputer raspberry pie I/O port terminal 11, GND, microcomputer raspberry pie operation program read the information after, by with net It stands interactive from the background, the information is shown on webpage；

The first normally opened touching of cooling pump relay KM2, freezing pump relay KM3, compressor relay KM4 in controlled circuit Point information collection is similar with the first normally opened contact information collection of cooling blower relay KM1；

Temperature sensor DS18B20 detects the temperature of refrigeration equipment, and is passed temperature value by the terminal A2 of connecting terminal To microcomputer raspberry pie I/O port terminal 4, after the sequential operation of microcomputer raspberry pie operation, then by with website backstage Interaction, shows the temperature value on webpage.

The utility model compared with prior art, is had the following advantages and beneficial effects:

After universal electric autocontrol system described in the utility model is docked with traditional electric control circuit, so that it may realize and rise The shortcomings that grade is regenerated, and is allowed it to realize electric automatization, is overcome traditional electric control system.

Traditional electric control system is upgraded using universal electric autocontrol system described in the utility model, specifically have with Lower advantage:

(1) universal electric autocontrol system is simply docked with controlled circuit, and by monitoring interface, background program and is controlled electricity Road is mapped, so that it may achieve the purpose that upgrading, without original equipment is reinstalled, also without rewiring, only need Simply increase some auxiliary lines, substantially reduces the transformation period, also reduce improvement cost.

(2) it uses microcomputer raspberry pie substitution PLC or DDC as electrical system control device, while substituting computer conduct Website server reduces hardware cost, also saves place space, can also reduce power consumption.

(3) subtracted using personal computer or smart phone substitution industrial computer, graphic control panel as monitoring host computer The hardware cost of host computer is exempted from.Smart phone can generally be carried as people's daily life articles, be used for electric-controlled The monitoring of system processed is very convenient, without fixed position, only need within the scope of microcomputer raspberry pie WiFi signal, and Can more mobile phone multiple spots monitor simultaneously, solve the problems, such as graphic control panel cannot arbitrarily move, can only single-point monitoring.

(4) personal computer or smart phone need not install computer configuration software or cell phone application, need to only pass through and browse webpage Form achieve that the monitoring function of electric control system, reduced or remitted the purchase cost of the monitoring softwares such as configuration.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of universal electric autocontrol system described in the utility model.

Fig. 2 is the circuit diagram that I/O component described in the utility model is connect with the I/O port of microcomputer raspberry pie, quick plug.

Fig. 3 is the circuit diagram that quick socket described in the utility model is connect with controlled circuit.

Wherein, appended drawing reference meaning is as follows:

The first normally opened contact, the 103- of the coil of 101- cooling blower relay KM1,102- cooling blower relay KM1 The second normally opened contact of cooling blower relay KM1；The cooling pump relay of coil, 202- of the cooling pump relay KM2 of 201- The second normally opened contact of the cooling pump relay KM2 of the first normally opened contact, 203- of KM2；

301- freezes the coil of pump relay KM3, the first normally opened contact of 302- freezing pump relay KM3,303- freezing The second normally opened contact of pump relay KM3；

The coil of 401- compressor relay KM4, the first normally opened contact of 402- compressor relay KM4,403- compression The second normally opened contact of machine relay KM4.

Specific embodiment

The present invention will be further described in detail with reference to the embodiments and the accompanying drawings, but the implementation of the utility model Mode is without being limited thereto.

Universal electric autocontrol system as shown in Figure 1, by host computer, microcomputer raspberry pie, I/O component, quick plug, Quick socket, controlled circuit composition.Host computer is passed through by network connection microcomputer raspberry pie, microcomputer raspberry pie I/O port Conducting wire connects I/O component, and I/O component connects quick plug by conducting wire, and quick plug connects quick socket by inserting mode, fastly Fast socket connects controlled circuit by conducting wire.

Host computer is personal computer or smart phone.

Microcomputer raspberry pie, I/O component, quick plug are mounted in special distribution box.

I/O component internal structure and connect with microcomputer raspberry pie I/O port, quick plug as shown in Fig. 2, I/O component by Relay module, connecting terminal, resistance, temperature sensor DS18B20 composition.

Relay module terminal IN1 conducting wire connection microcomputer raspberry pie I/O port terminal 21, the connection of terminal IN2 conducting wire are miniature Computer raspberry pie I/O port terminal 23, terminal IN3 conducting wire connection microcomputer raspberry pie I/O port terminal 27, the connection of terminal IN4 conducting wire Microcomputer raspberry pie I/O port terminal 29, terminal IN5 conducting wire connect microcomputer raspberry pie I/O port terminal 31, terminal IN6 conducting wire Connect microcomputer raspberry pie I/O port terminal 33, terminal IN7 conducting wire connects microcomputer raspberry pie I/O port terminal 35, terminal IN8 Conducting wire connects microcomputer raspberry pie I/O port terminal 37, terminal DC+ conducting wire connects microcomputer raspberry pie I/O port terminal 5V, terminal DC- conducting wire connection microcomputer raspberry pie I/O port terminal GND, terminal NO1 conducting wire connection quick plug terminal B1, terminal COM1 are led Line connects quick plug terminal B2, terminal NC2 conducting wire connection quick plug terminal B3, terminal COM2 conducting wire and connects quick plug end Sub- B4, terminal NO3 conducting wire connection quick plug terminal B, terminal COM3 conducting wire connect quick plug terminal B6, terminal NC4 conducting wire It connects quick plug terminal B7, terminal COM4 conducting wire connection quick plug terminal B8, terminal NO5 conducting wire and connects quick plug terminal B9, terminal COM5 conducting wire connection quick plug terminal B10, terminal NC6 conducting wire connection quick plug terminal B11, terminal COM6 are led Line connects quick plug terminal B12, terminal NO7 conducting wire connection quick plug terminal B13, terminal COM7 conducting wire and connects quick plug Terminal B14, terminal NC8 conducting wire connection quick plug terminal B15, terminal COM8 conducting wire connect quick plug terminal B16.

Connecting terminal terminal A1 conducting wire connection microcomputer raspberry pie I/O port terminal 3.3V, resistance R1 first terminal, The first terminal of resistance R2, the first terminal of resistance R3, the first terminal of resistance R4, the first terminal of resistance R5, temperature sensing The terminal 3 of device DS18B20；Terminal A2 conducting wire connects microcomputer raspberry pie I/O port terminal 4, the Second terminal of resistance R5, temperature The terminal 2 of sensor DS18B20；Terminal A3 conducting wire connects microcomputer raspberry pie I/O port terminal GND, temperature sensor The terminal 1 of DS18B20；Terminal A4 conducting wire connects microcomputer raspberry pie I/O port terminal GND, quick plug terminal B17；Terminal A5 Conducting wire connects microcomputer raspberry pie I/O port terminal 11, the Second terminal of resistance R1, quick plug terminal B18；Terminal A6 conducting wire Connect microcomputer raspberry pie I/O port terminal 13, the Second terminal of resistance R2, quick plug terminal B19；The connection of terminal A7 conducting wire Microcomputer raspberry pie I/O port terminal 15, the Second terminal of resistance R3, quick plug terminal B20；The connection of terminal A8 conducting wire is miniature Computer raspberry pie I/O port terminal 19, the Second terminal of resistance R4, quick plug terminal B21.

Resistance R1, R2, R3, R4 are 10 kilo-ohms, and R5 is 4.7 kilo-ohms.

Quick socket is connect with controlled circuit as shown in figure 3, controlled circuit is by taking refrigeration equipment partial circuit as an example.

Quick socket terminal C1 conducting wire connects the normally opened point driving switch SB1 first terminal of controlled circuit, the connection of terminal C2 conducting wire The normally opened point driving switch SB1 Second terminal of controlled circuit, terminal C3 conducting wire connect the normally closed point driving switch SB2 second end of controlled circuit Son, the coil first terminal of terminal C4 conducting wire connection controlled circuit cooling blower relay KM1, the controlled electricity of terminal C5 conducting wire connection The normally opened point driving switch SB3 first terminal in road, the normally opened point driving switch SB3 Second terminal of terminal C6 conducting wire connection controlled circuit, terminal C7 conducting wire connects the normally closed point driving switch SB4 Second terminal of controlled circuit, the cooling pump relay of terminal C8 conducting wire connection controlled circuit Coil first terminal, the normally opened point driving switch SB5 first terminal of terminal C9 conducting wire connection controlled circuit, the terminal C10 conducting wire of KM2 connects Connect the normally opened point driving switch SB5 Second terminal of controlled circuit, the terminal C11 conducting wire connection normally closed point driving switch SB6 second of controlled circuit Terminal, the coil first terminal of terminal C12 conducting wire connection controlled circuit freezing pump relay KM3, the connection of terminal C13 conducting wire are controlled The normally opened point driving switch SB7 first terminal of circuit, the normally opened point driving switch SB7 Second terminal of terminal C14 conducting wire connection controlled circuit, end The normally closed point driving switch SB8 Second terminal of sub- C15 conducting wire connection controlled circuit, terminal C16 conducting wire connection controlled circuit compressor after Coil first terminal, the terminal C17 conducting wire of electric appliance KM4 connect the first normally opened contact of controlled circuit cooling blower relay KM1 First terminal, the first normally opened contact first terminal for cooling down pump relay KM2, the first normally opened contact for freezing pump relay KM3 First terminal, the first normally opened contact first terminal of compressor relay KM4, terminal C18 conducting wire connect controlled circuit cooling wind The of the first normally opened contact Second terminal of machine relay KM1, the cooling pump relay KM2 of terminal C19 conducting wire connection controlled circuit First normally opened contact second end of one normally opened contact Second terminal, terminal C20 conducting wire connection controlled circuit freezing pump relay KM3 First normally opened contact Second terminal of son, terminal C21 conducting wire connection controlled circuit compressor relay KM4.

The working principle of universal electric autocontrol system is as follows:

Microcomputer raspberry pie runs the corresponding program of controlled circuit, realizes control and the circuit of circuit as controller The acquisition of information, while it being used as server again, monitoring website is deployed in, monitoring website backstage is docked with the program of operation. After host computer is by network connection microcomputer raspberry pie, the website of its deployment is accessed with browser, so that it may enter monitoring shape State.

The control principle of system is to control in controlled circuit for the coil of cooling blower relay KM1:

The click cooling blower start button on webpage, the program interaction on website backstage and the operation of microcomputer raspberry pie, Program is conveyed to the relay module terminal IN1 of I/O component to 21 output order of microcomputer raspberry pie I/O port terminal, the instruction, To control relay module terminal NO1 and COM1 connect 1 second after disconnect, the switching information pass through quick plug terminal B1, B2, quick socket terminal C1, C2 are conveyed to controlled circuit, enable the coil of cooling blower relay KM1 be powered 1 second, normally opened touching Point is also closed 1 second, and control loop composition is self-locking, and the coil of cooling blower relay KM1 continues to remain powered on state.

The click cooling blower stop button on webpage, the program interaction on website backstage and the operation of microcomputer raspberry pie, Program is conveyed to the relay module terminal IN2 of I/O component to 23 output order of microcomputer raspberry pie I/O port terminal, the instruction, It is connected to control after relay module terminal NC2 and COM2 is disconnected 1 second, this breaks, communication breath passes through quick plug terminal B3, B4, quick socket terminal C3, C4 are conveyed to controlled circuit, enable the coil blackout of cooling blower relay KM1 1 second, normally opened touching Point also disconnects 1 second, and the self-locking of control loop is revoked, and the coil of cooling blower relay KM1 continues to remain powered off state.

Coil, the compressor relay KM4 of the coil of cooling pump relay KM2, freezing pump relay KM3 in controlled circuit Coil control and the coil of cooling blower relay KM1 control it is similar.

The acquisition information principle of system is to acquire the first normally opened contact information of cooling blower relay KM1 in controlled circuit For:

The first normally opened contact on-off information of cooling blower relay KM1 is conveyed to quick socket in controlled circuit Terminal C17, C18, then it is conveyed to through quick plug terminal B17, B18 terminal A4, A5 of the connecting terminal of I/O component, finally convey To microcomputer raspberry pie I/O port terminal 11, GND, microcomputer raspberry pie operation program read the information after, by with net It stands interactive from the background, the information is shown on webpage.

The first normally opened touching of cooling pump relay KM2, freezing pump relay KM3, compressor relay KM4 in controlled circuit Point information collection and the first normally opened contact information collection of cooling blower relay KM1 are similar.

Temperature sensor DS18B20 detects the temperature of refrigeration equipment, and is passed temperature value by the terminal A2 of connecting terminal To microcomputer raspberry pie I/O port terminal 4, after the sequential operation of microcomputer raspberry pie operation, then by with website backstage Interaction, shows the temperature value on webpage.

The use of universal electric autocontrol system is as follows:

Computer or smart phone is used to use browser by being connected to the network microcomputer raspberry pie as monitoring host computer The website of its On-premise is accessed, the laggard networking station owner page of successful access needs after user logs in due to safety concerns Controlled circuit could be monitored.User's login is carried out in homepage, the monitoring page can be entered after logining successfully.

Can remotely be controlled on the monitoring page cooling blower relay KM1 in controlled circuit, cooling pump relay KM2, The switching electricity of the coil of pump relay KM3, compressor relay KM4 is freezed, controlled circuit can also press circuit in a manual mode In point driving switch control cooling blower, cooling pump, refrigerating water pump, compressor relay coil.

Monitoring cooling blower relay KM1, the cooling pump relay that the page can also be checked remotely in controlled circuit The first normally opened contact information of KM2, freezing pump relay KM3, compressor relay KM4, the page are indicated in the form of animation In addition these information states can also check the temperature value of refrigeration equipment.

Such as Fig. 3, for cooling blower relay KM1, cooling pump relay KM2, freezing pump relay KM3, compressor after The both ends of the second normally opened contact of electric appliance KM4 are separately connected the both ends of normally opened point driving switch SB1, SB3, SB5, SB7.

Above-described embodiment is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above-mentioned The limitation of embodiment, it is made under other any spiritual essence and principles without departing from the utility model to change, modify, replacing In generation, simplifies combination, should be equivalent substitute mode, is included within the protection scope of the utility model.

Claims (7)

1. a kind of universal electric autocontrol system, it is characterised in that: including host computer, microcomputer raspberry pie, I/O component, quickly Plug, quick socket, controlled circuit；Wherein, host computer passes through network connection microcomputer raspberry pie, microcomputer raspberry pie I/O port connects I/O component by conducting wire, and I/O component connects quick plug by conducting wire, and quick plug is connected fast by inserting mode Fast socket, quick socket connect controlled circuit by conducting wire；

The microcomputer raspberry pie runs the corresponding program of controlled circuit, realizes control and the circuit of circuit as controller The acquisition of information, while it being used as server again, monitoring website is deployed in, monitoring website backstage is docked with the program of operation；

After the host computer is by network connection microcomputer raspberry pie, the website of its deployment is accessed with browser, into monitoring State.

2. universal electric autocontrol system according to claim 1, it is characterised in that: the host computer be personal computer or Smart phone.

3. universal electric autocontrol system according to claim 1, it is characterised in that: the microcomputer raspberry pie, IO group Part, quick plug are mounted in special distribution box.

4. universal electric autocontrol system according to claim 1, it is characterised in that: the I/O component includes relay mould Block, connecting terminal, resistance R1~R5, temperature sensor, wherein

Terminal IN1, IN2, IN3, IN4, IN5, IN6, IN7, IN8 of relay module connect microcomputer tree by conducting wire respectively The I/O port terminal 21,23,27,29,31,33,35,37 of certain kind of berries group；Terminal DC+, DC- of relay module are connected by conducting wire respectively I/O port terminal 5V, GND of microcomputer raspberry pie；Terminal NO1, COM1 of relay module, NO2, COM2, NO3, COM3, NO4, COM4, NO5, COM5, NO6, COM6, NO7, COM7, NO8, COM8 respectively by conducting wire connect quick plug terminal B1, B2,B3,B4,B5,B6,B7,B8,B9,B10,B11,B12,B13,B14,B15,B16；

The terminal A1 conducting wire of connecting terminal connects microcomputer raspberry pie I/O port terminal 3.3V, the first terminal of resistance R1, resistance The first terminal of R2, the first terminal of resistance R3, the first terminal of resistance R4, the first terminal of resistance R5, temperature sensor Terminal 3；Terminal A2 conducting wire connects the terminal of microcomputer raspberry pie I/O port terminal 4, the Second terminal of resistance R5, temperature sensor 2；Terminal A3 conducting wire connects the terminal 1 of microcomputer raspberry pie I/O port terminal GND, temperature sensor；The connection of terminal A4 conducting wire is micro- Type computer raspberry pie I/O port terminal GND, quick plug terminal B17；Terminal A5 conducting wire connects microcomputer raspberry pie I/O port terminal 11, the Second terminal of resistance R1, quick plug terminal B18；Terminal A6 conducting wire connects microcomputer raspberry pie I/O port terminal 13, electricity Hinder Second terminal, the quick plug terminal B19 of R2；Terminal A7 conducting wire connects microcomputer raspberry pie I/O port terminal 15, resistance R3 Second terminal, quick plug terminal B20；Terminal A8 conducting wire connect microcomputer raspberry pie I/O port terminal 19, resistance R4 the Two-terminal, quick plug terminal B21.

5. universal electric autocontrol system according to claim 4, it is characterised in that: the resistance of described resistance R1, R2, R3, R4 Value is 10 kilo-ohms, and the resistance value of resistance R5 is 4.7 kilo-ohms.

6. universal electric autocontrol system according to claim 4, it is characterised in that: the model of the temperature sensor DS18B20。

7. universal electric autocontrol system according to claim 1, it is characterised in that: the controlled circuit is refrigeration equipment Partial circuit, the controlled circuit include normally opened point driving switch SB1, SB3, SB5, SB7, normally closed point driving switch SB2, SB4, SB6, SB8 further includes cooling blower relay KM1, cooling pump relay KM2, freezing pump relay KM3, compressor relay KM4； Wherein

Terminal C1, C2, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12, C13, C14, C15, C16 of the quick socket The normally opened point driving switch SB1 first terminal of controlled circuit, normally opened point driving switch SB1 Second terminal, often are connected by conducting wire respectively Close point driving switch SB2 Second terminal, the coil first terminal of cooling blower relay KM1, normally opened point driving switch SB3 first end Sub, normally opened point driving switch SB3 Second terminal, normally closed point driving switch SB4 Second terminal, the coil first for cooling down pump relay KM2 Terminal, normally opened point driving switch SB5 first terminal, normally opened point driving switch SB5 Second terminal, normally closed point driving switch SB6 Second terminal, Freeze coil first terminal, the normally opened point driving switch SB7 first terminal, normally opened point driving switch SB7 second end of pump relay KM3 The coil first terminal of sub, normally closed point driving switch SB8 Second terminal, compressor relay KM4；The terminal of the quick socket C17 be separately connected the first normally opened contact first terminal of cooling blower relay KM1, cooling pump relay KM2 it is first normally opened The first of contact first end is sub, freezes pump relay KM3 the first normally opened contact first terminal, compressor relay KM4 is normally opened Contact first end；The terminal C18 of the quick socket connects the first of controlled circuit cooling blower relay KM1 by conducting wire Normally opened contact Second terminal, the terminal C19 of the quick socket connect the of the cooling pump relay KM2 of controlled circuit by conducting wire One normally opened contact Second terminal, the terminal C20 of the quick socket connect controlled circuit by conducting wire and freeze pump relay KM3's The terminal C21 of first normally opened contact Second terminal, the quick socket connects controlled circuit compressor relay KM4 by conducting wire The first normally opened contact Second terminal.