CN102819279A

CN102819279A - Infrared dynamic data collection box

Info

Publication number: CN102819279A
Application number: CN2012102632933A
Authority: CN
Inventors: 孟凡民; 刘健; 刘晓汉; 李立顺; 霍奎; 李兴华
Original assignee: JIANGSU ZHONGKE JUNDA ELECTRONIC TECHNOLOGY Co Ltd
Current assignee: JIANGSU ZHONGKE JUNDA ELECTRONIC TECHNOLOGY Co Ltd
Priority date: 2012-07-27
Filing date: 2012-07-27
Publication date: 2012-12-12

Abstract

The invention discloses an infrared dynamic data collection box comprising a main board, a temperature collection module, a power collection module, a relay board, a signal lamp and an infrared board. The main board is respectively connected with the temperature collection module, the power collection module, the relay board, the signal lamp and the infrared board. According to a computer instruction, the collection box can automatically electrify and test a refrigerator, data is collected and stored every certain period, and data at an exit position is transmitted to a computer through infrared, therefore, the artificial test participation can be reduced, high automation and information can be realized, and the production efficiency and management level can be greatly improved.

Description

Infrared Dynamic Data Acquiring case

Technical field

The present invention relates to refrigerator performance dynamic collect system, be specifically related to the infrared Dynamic Data Acquiring case in the acquisition system.

Background technology

Use very extensive to refrigerator performance detection dynamic collect system at the refrigerator production field at present; Develop rapidly along with computing technique; The informationization of production run, automaticity are also increasingly high; Therefore press for increasingly automated, the informationalized refrigerator performance data collection of cover system, realize collection, judgement the refrigerator performance data.

Summary of the invention

The present invention is directed to the problem in the background technology, designed a kind of infrared Dynamic Data Acquiring case, purpose is: improve robotization, the informationization of refrigerator performance data collection, enhance productivity and management level.

Technical solution of the present invention: infrared Dynamic Data Acquiring case; It is characterized in that: said vasculum comprises mainboard, temperature collect module, power collection module, relay board, signal lamp and infrared panel, and said mainboard is connected with temperature collect module, power collection module, relay board, signal lamp and infrared panel respectively.

The communication modes of said mainboard and infrared panel is the TTL communication modes.

The single-chip microcomputer of said mainboard is STC12C5A60S2, and storer is FRAM 25256.

Said temperature collect module is 8 passages, and precision does +0.5 ℃, resolution is 0.1 ℃; The sensor that connects is DS18B20, and temperature collect module and sensor communication mode are the unibus mode, and power supply is direct current 9-12V.

The communication mode of said temperature collect module and mainboard is 485 buses.

Said power collection module is the binary channels module, and supply voltage is direct current 9-12V, with the mainboard communication mode be 485 buses.

4 relays are arranged above the said relay board, control the Live line Zero line of 110V, 220V respectively, it links to each other with mainboard through 5 faller gill lines.

Said infrared panel is made up of infrared probe and its coding-decoding circuit, is the TTL mode with communicating by letter between mainboard, and the infrared communication distance of infrared panel is 3m to the maximum, and angle does +15 °.

Said infrared panel adopts infrared communication transceiver photoelectric tube TF4100, and coding chip adopts CP2120.

Said relay board control circuit and signal lamp control circuit adopt big current drives chip PL2003.

Beneficial effect of the present invention: this vasculum can power on to refrigerator and opens survey according to computer instruction automatically; Every separated some cycles image data is also preserved data; The exit is given computing machine through infrared with data transmission with data; Reduce artificial survey and participated in, realized the robotization and the informationization of height, improved production efficiency and management level greatly.

Description of drawings

Fig. 1 is mainboard control circuit figure of the present invention.

Fig. 2 is a thermal module circuit diagram of the present invention.

Fig. 3 is a power module circuit synoptic diagram of the present invention.

Fig. 4 is a relay board synoptic diagram of the present invention.

Fig. 5 is a program flow diagram of the present invention.

Embodiment

Specifically describe the present invention below in conjunction with accompanying drawing and embodiment.

As shown in Figure 1; Infrared Dynamic Data Acquiring case comprises mainboard, temperature collect module, power collection module, relay board, signal lamp and infrared panel, and said mainboard is connected with temperature collect module, power collection module, relay board, signal lamp and infrared panel respectively.Said infrared panel is made up of infrared probe and its coding-decoding circuit, is the TTL mode with communicating by letter between mainboard, and the infrared communication distance of infrared panel is 3m to the maximum, and angle does +15 °.

As shown in Figure 2, thermal module INT1-INT8 connects 8 road DS18B20 sensors among the figure, and the sensor temperature-measuring range is-50 ℃-125 ℃, and resolution is 0.1 ℃; " 485 " port connects the mainboard PORT COM, and they are through 485 communications; VCC connects the 9-12V direct supply, supplies power to thermal module.

As shown in Figure 3, IN1L, INT1N connect 110V live wire and zero line respectively among the figure, and IN2L, INT2N connect 220V live wire and zero line respectively, and 485 interfaces connect the mainboard communication interface, pass through 485 communications with mainboard, and VCC connects the 9-12V direct supply.

As shown in Figure 4; 4 relays are arranged above the relay board, and " connecing mainboard " interface is connected the folding of mainboard pilot relay through winding displacement with the driving circuit of mainboard; 110L/110N, 220L/220N connect live wire and the zero line of 110V and 220V respectively, and it links to each other with mainboard through 5 faller gill lines.

Concrete workflow: as shown in Figure 5, in refrigerator detection line porch, computing machine sends sign on through infrared communication and gives the dynamic acquisition case; After vasculum receives instruction, open the 110V/220V relay, begin image data according to collection period and test duration; And data are preserved according to each cycle; If the excessive and certain time of electric current of gathering is then judged refrigerator overcurrent this moment, relay then breaks; And the flicker of control signal lamp, inform that test is unusual, must inspection.After time to be tested accomplished, then signal lamp indication test was accomplished, and this moment is if vasculum moves to the test exit with streamline, then with the compunication in exit, all data transmission that record to computing machine, was accomplished one time collecting work.

Claims

1. infrared Dynamic Data Acquiring case; It is characterized in that: said vasculum comprises mainboard, temperature collect module, power collection module, relay board, signal lamp and infrared panel, and said mainboard is connected with temperature collect module, power collection module, relay board, signal lamp and infrared panel respectively.

2. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: the communication modes of said mainboard and infrared panel is the TTL communication modes.

3. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: the single-chip microcomputer of said mainboard is STC12C5A60S2, and storer is FRAM 25256.

4. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: said temperature collect module is 8 passages, and precision does +0.5 ℃, resolution is 0.1 ℃; The sensor that connects is DS18B20, and temperature collect module and sensor communication mode are the unibus mode, and power supply is direct current 9-12V.

5. like claim 1 or 4 described infrared Dynamic Data Acquiring casees, it is characterized in that: the communication mode of said temperature collect module and mainboard is 485 buses.

6. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: said power collection module is the binary channels module, and supply voltage is direct current 9-12V, with the mainboard communication mode be 485 buses.

7. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: four relays are arranged above the said relay board, control the Live line Zero line of 110V, 220V respectively, it links to each other with mainboard through 5 faller gill lines.

8. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: said infrared panel is made up of infrared probe and its coding-decoding circuit, is the TTL mode with communicating by letter between mainboard, and the infrared communication distance of infrared panel is 3m to the maximum, and angle does +15 °.

9. like claim 1 or 8 described infrared Dynamic Data Acquiring casees, it is characterized in that: said infrared panel adopts infrared communication transceiver photoelectric tube TF4100, and coding chip adopts CP2120.

10. infrared Dynamic Data Acquiring case as claimed in claim 1 is characterized in that: said relay board control circuit and signal lamp control circuit adopt big current drives chip PL2003.