RU92519U1 - REFRIGERATION TEST SYSTEM - Google Patents

Abstract

A system for testing refrigeration appliances in terms of heat and energy parameters, containing information collection and primary processing devices installed on the conveyor together with refrigeration appliances, including a temperature sensor, power consumption sensor, through which the refrigeration device is connected to the conveyor power source, energy consumption meter, wireless transceiver, display ; a starting device, an information pickup device associated with a control computer complex having a display, characterized in that it also includes a programmable microcontroller having RS-232 channels, channels for measuring electrical quantities and channels of discrete input / output, and to each collecting device and At least one temperature sensor, a barcode scanner, a starting device, an indicating device, and a contacting device were additionally introduced for primary processing of information on heat and energy parameters and an uninterruptible power supply, while a multifunctional energy meter connected to the first RS-232 channel of the programmable microcontroller was selected as a power consumption meter and a power consumption sensor, and a barcode scanner connected to the second RS-232 channel of the programmable was selected as the starting device microcontroller, and the wireless transceiver has a radio wave communication channel, with the input of uninterruptible power supply connected to the power source of the conveyor, and Exit - to the contacting device, each inputted sensor is connected to electrical lead channels meters

Description

The utility model relates to the field of refrigeration technology and is designed to measure the heat and power parameters of refrigeration appliances (refrigerators, freezers, compression-type refrigerators and compressors of all models).

A known test bench for refrigeration units containing a control unit, a drive unit and grips. The control unit is made in the form of a block program controller, and the drive unit is in the form of three pneumatic cylinders equipped with sensors, and three pneumatic control valves with electric control. In this case, the control of the pneumatic cylinders is carried out by supplying them with control signals from the software controller and control signals from the sensors of the pneumatic cylinders to the controller. Moreover, the pneumatic valves are connected to the pneumatic cylinders by pipelines (patent for a utility model of the Russian Federation No. 56605, class G01M 1/04. Publish. September 10, 2006).

A disadvantage of the known stand is the impossibility of measuring the heat and power parameters of refrigeration units.

It is also known a device for measuring the parameters of a home refrigerator, containing temperature sensors installed in the chamber of a refrigerator moving along the conveyor, and an electric meter for measuring the consumption of electricity. An electronic recording equipment is connected to the sensors and the electric meter. An automatic circuit of the device includes a synchronization unit having an induction sensor, an amplifier with transistors and an output relay. In order to automatically register the number of the tested refrigerator, a code device was used (USSR author's certificate No. 254528, class F25b. Publish. 10/17/1969 Bull. No. 32).

However, this device is too bulky and unreliable. In addition, it does not have the possibility of archiving and statistical analysis of measurement data.

Closest to the proposed utility model in its technical essence is a system for testing household refrigerators by heat and energy parameters, containing devices for collecting and primary processing of information on heat and energy parameters installed on the conveyor together with refrigerators, each of which has a temperature sensor installed in the chamber of the corresponding refrigerator and connected to a temperature meter, meters of consumed energy and the number of turns on, connected to a power supply x the refrigerator. The system further comprises a stationary starting device installed, which interacts with information collection and processing devices, connected to the latest information collection device with a control computer complex having a display, and a sorting device connected to this complex. The device for collecting and primary processing of information further comprises a transceiver, timer, generator, counter and multiplexer connected at the input to all meters: the control input to the counter, and the output to the information input of the transceiver, the output of which, in turn, is connected to the display. In this case, the timer output is connected to the permissions for operation of the meters of consumed energy and the number of turns on, the data reset receiver is connected to the installation inputs of all meters, the timer, counter and transceiver, and the generator output is connected to the inputs of the timer, counter and transceiver (USSR copyright certificate No. 1270505 , CL F25B 49/00, publ. 11/15/1986 Bull. No. 42).

But this system does not objectively evaluate the parameters of refrigeration appliances and does not have the ability to identify a refrigeration appliance. And the fact that it consists of separately executed units makes it impossible to quickly rebuild the test system when changing the methods of checking refrigeration appliances.

The task to which the claimed utility model is directed is to increase the objectivity of evaluating the parameters of refrigeration appliances and their identification, the speed of restructuring the algorithm of the system when changing the methodology for checking refrigeration appliances.

The technical result consists in increasing the reliability of the evaluation of the parameters of refrigeration appliances.

The problem is solved in that in a system for testing refrigeration appliances according to heat and energy parameters, containing information collection and primary processing devices installed on the conveyor together with refrigeration appliances, including a temperature sensor, power consumption sensor, through which the refrigeration device is connected to the conveyor power source, a meter power consumption, wireless transceiver, display; a starting device, an information pickup device associated with a control computer complex having a display, an additional programmable microcontroller having RS-232 channels, channels for measuring electrical quantities and channels of discrete input / output, and each device for collecting and primary processing of information on heat and power parameters is additionally introduced at least one temperature sensor, a barcode scanner, a starting device, an indicating device, a contacting device and a source of non-interruption are additionally introduced Foot power. At the same time, a multifunctional energy meter connected to the first RS-232 channel was selected as a power consumption meter and a power consumption sensor, a barcode scanner connected to the second RS-232 channel was selected as the starting device, and the wireless transceiver has a radio wave communication channel. Moreover, the input of the uninterruptible power supply is connected to the power source of the conveyor, and the output to the contacting device, each temperature sensor entered is connected to the channels of the meters of electrical values of the programmable microcontroller, the indicating device is connected to the channels of discrete input / output of the programmable microcontroller. And the control computer complex is made with the possibility of receiving and visual displaying information of measured readings on the display through a device for acquiring information by connecting via a radio wave channel to a device for collecting and processing information.

The introduction of a programmable microcontroller with RS-232 channels, channels for measuring electrical quantities, channels of discrete input / output, helps to reduce the size of the system and makes it possible to quickly rebuild the system when changing the method of checking refrigeration appliances or adding a new refrigeration appliance.

And the introduction into each device of the collection and primary processing of information about the heat and power parameters of the starting device and at least one temperature sensor increases the objectivity of evaluating the parameters of refrigeration appliances and their identification by measuring the temperature in refrigerators and freezers, the surface temperature of the refrigeration appliance, ambient temperature, temperature at the inlet and outlet of the motor-compressor and the pipeline, and also allows the device for collecting and primary processing of information to work autonomously but without the computer system.

The choice of a multifunctional energy meter, which is connected to the first RS-232 channel of a programmable microcontroller as an energy meter and a power meter that detects the active and reactive power, allows measurements of instantaneous values of active, reactive and apparent power, current, voltage, frequency, cos φ, angles between phase voltages and monitor power quality indicators.

And the choice of a barcode scanner as a starter device connected to the second RS-232 channel of a programmable microcontroller makes it possible to identify refrigeration units by their barcode.

Providing a wireless transceiver with a radio wave communication channel makes it possible to place the computer complex in any convenient place on the conveyor.

The introduction of an uninterruptible power supply, the input of which is connected to the conveyor’s power source, and the output to the contacting device, allows maintaining the operability of the device for collecting and primary processing of information during short-term unauthorized power outages on the conveyor.

And the introduction of an indicating device connected to discrete I / O channels makes it possible to display the test result of a refrigeration device on a one-year basis without using a computer system, which allows you to use the information collection and primary processing device autonomously.

Figure 1 shows the structural diagram of the proposed system for testing refrigeration appliances, and figure 2 is a structural diagram of a device for collecting and processing information.

The system for testing refrigeration appliances contains a computing system 1, having a display 2 and a data pickup 3 and installed on the conveyor 4 in conjunction with refrigeration appliances 5, information collection and processing devices 6, including temperature sensors 7 connected to measuring channels of electrical quantities 8 of the programmable microcontroller 9, a barcode scanner 10 connected to the first channel 11 of the RS-232 programmable microcontroller 9, a multifunctional electricity meter 12 connected to the second channel scrap 13 RS-232 of programmable microcontroller 9 and contacting device 14, uninterruptible power supply 15 connected to the channel of discrete input / output 16 of programmable microcontroller 9, contacting device 14 and connected to power supply (not specified) of conveyor 4, contacting device 14 connected to the channels of discrete input / output 16 of the programmable microcontroller 9, the indicating device 17 connected to the channels of discrete input / output 16 of the programmable microcontroller 9.

Programmable microcontroller 9 is an ARM microcontroller, for example, AT91SAM7 and contains digital input / output channels (not shown), which are analog-to-digital converters, channels (not shown) for measuring electrical quantities, and channels 11 and 13 RS-232 microcontroller 9.

The contacting device 14 is a switching unit through which the power is connected to the refrigeration device 5 and the information collection and processing device 6. When the refrigeration device 5 is connected, the contacting device 14 connects power to the information collection and processing device 6, and after receiving the corresponding command from channels of discrete input / output 16 of the programmable microcontroller 9, connects power to the refrigeration appliance 5.

The indicating device 17 is a yellow light (indicating, for example, the "work" mode), red (indicating, for example, the criterion of "marriage") and green (indicating, for example, the criterion of "good") bulbs, through which messages are displayed to the operator about the work and system status.

The system for testing refrigeration equipment for heat and power parameters works as follows.

At the beginning of the conveyor 4, a refrigeration device 5 is installed on it and connected to a contacting device 14 of the information collection and processing unit 6. After connecting the refrigeration device 5, the uninterruptible power supply 15 is turned on, and the programmable microcontroller 9 is set to standby mode.

The operator places the temperature sensors 7 on the refrigeration appliance 5, and using the scanner 10 through the second channel 13 RS-232 of the programmable microcontroller 9 reads the barcode of the refrigeration appliance 5. After that, the programmable microcontroller 9 connects power to the refrigeration appliance 5 through the contacting device 14, and the measurement process begins.

The reading of temperature values from temperature sensors 7 through channels for measuring electrical quantities 8, values of power consumption, voltage and current from a multifunctional electricity meter 12 through the first channel 11 of the RS-232 programmable microcontroller 9 occurs at certain intervals and is stored in the memory of the programmable microcontroller 9. Duration of intervals and the measurement process can be installed programmatically.

At the end of the measurement, the programmable microcontroller 9 performs mathematical processing of the measured data and decides on the criteria for the suitability of the refrigeration appliance 5. The decision is displayed on the indicating device 17. The measured data is also transmitted via the radio wave communication channel through the information pickup device 3 to computer complex 1. Computer complex 1 prepares and prints the test reports of refrigeration appliances 5, saves the measured data in the archive and visualizes the measured data on the screen ispleya 2 in the form of graphs and tables.

At the end of the conveyor 4, the refrigeration device 4 is disconnected from the contacting device 14, while the programmable microcontroller 9 disconnects the uninterruptible power supply 15, after which the refrigeration device 5 is removed from the conveyor 4.

Claims (1)

A system for testing refrigeration appliances in terms of heat and energy parameters, containing information collection and primary processing devices installed on the conveyor together with refrigeration appliances, including a temperature sensor, power consumption sensor, through which the refrigeration device is connected to the conveyor power source, energy consumption meter, wireless transceiver, display ; a starting device, an information pickup device associated with a control computer complex having a display, characterized in that it also includes a programmable microcontroller having RS-232 channels, channels for measuring electrical quantities and channels of discrete input / output, and to each collecting device and At least one temperature sensor, a barcode scanner, a starting device, an indicating device, and a contacting device were additionally introduced for primary processing of information on heat and energy parameters and an uninterruptible power supply, while a multifunctional electricity meter connected to the first RS-232 channel of the programmable microcontroller was selected as a power consumption meter and a power consumption sensor, a barcode scanner connected to the second RS-232 channel of the programmable was selected as the starting device microcontroller, and the wireless transceiver has a radio wave communication channel, with the input of uninterruptible power supply connected to the power source of the conveyor, and the output is to the contacting device, each temperature sensor entered is connected to the channels of the meters of electrical values of the programmable microcontroller, the indicating device is connected to the channels of discrete input / output of the programmable microcontroller, and the control computing complex is configured to receive and visually display information on the measured values through the device for information retrieval by connecting via a radio wave channel with a device for collecting and primary processing of information formations.