SU1219890A1 - Method of determining heat-power parameters of household refrigerator - Google Patents

Description

The invention relates to refrigeration engineering, and specifically to methods for determining the heat and energy parameters of a domestic refrigerator.

The purpose of the invention is to improve the accuracy of determining parameters and reduce operating costs.

The proposed method for determining the heat and power parameters of a domestic refrigerator, including a cooler, a refrigeration unit and a thermostat, provides for the measurement of the electrical energy consumption for a whole number of cycles and the air temperature in the refrigerator at the end of the control period, and comparing these values with permissible values, while thermostat contacts are bypassed, the duration of the composite cycle periods is constant, and the reference period and the time of expiration from the beginning of the period of the stand of the refrigeration unit. In addition, in order to provide a differentiated assessment of the quality of individual units of the refrigerator, the air temperature in the refrigerator is additionally measured at the end of the period of the stand of the last cycle and the measured value is compared with the allowable value.

The determination of the heat and power parameters of the refrigerator according to the proposed method is carried out as follows.

The assembled serial refrigerator is installed on the test conveyor, while a temperature sensor is placed in the geometric center of the refrigerator, and the thermostat knob is set to the position corresponding to the Smallest Cool mode, then the refrigerator is plugged in to the power grid using a process cord. The control of the refrigerator is here performed with a thermostat.

The inclusion of the refrigerator indicates the tightness of the thermostat's thermosensitivity system and the good electrical wiring.

After the first automatic shutdown of the refrigeration unit, the thermostat contacts are automatically bridged and the refrigerator is switched to operation with a constant duration of the composite periods of the cycle, parking, and operation of the refrigeration unit. The duty cycle starts from the parking period, while the readings of the electricity meter are recorded. The countdown of the time frame was made from the beginning of the period of the stand of the refrigeration unit. At the time of the end of the period, the stands of the last cycle measure the air temperature in the refrigerator and compare the measured value with the allowable value.

VNIIPI. Order 1313/48 Circulation 483 Subscription Branch of the PPP "Patent, Uzhgorod, ul. Project, 4

Example. In the specific case, the measurement of the power consumption over three full cycles is carried out with a duration of one cycle of 20 minutes.

At the end of the working period of the third cycle, the readings of the electricity meter and the air temperature in the cooling cabinet are re-recorded. Based on the difference in readings, the electricity meter calculates the power consumption. After

This control operation provides automatic switching of the refrigerator to control operation using a thermostat. At the selected position of the thermostat knob corresponding to the “Lowest cold” mode, the refrigerator should be turned off. The fact indicates that the thermostat complies with the requirements of the normative-technical documentation on the temperature of the shutdown and the reliability of the contact of the sensitive element with the surface of the evaporator.

0 Compare the parameters obtained in unsteady operation mode of the refrigerator with the limit, predetermined permissible values; determine whether the refrigerator has heat and power characteristics corresponding to

5 requirements of the current standard.

The inconsistency of the refrigerator to the established permissible norm on the temperature in the refrigerator, measured at the end of the stand of the last cycle, if at least one of the other two parameters (power consumption and temperature at the end of the control time) does not match, the refrigerator is defective due to dissatisfied thermal insulation

refrigeration cabinet properties. The inconsistency of the refrigerator with the established standards for the temperature in the refrigerator cabinet, measured at the end of the stand period of the last cycle, while complying with the other parameters, is not the basis

0 for rejecting the refrigerator. This parameter is auxiliary and serves to detect a defect in the thermal insulation of the refrigerator when sorting out defective refrigerators.

The proposed method makes it possible to reduce the error in controlling the power consumption to the magnitude of the error determined by the accuracy class of the electricity meter (2.5%), increase the warranty period of manufactured refrigerators, reduce the time of testing by 20-30 minutes, reduce operating costs per refrigerator about 0.05 rubles. provide a differentiated assessment of the quality of individual units of the refrigerator and automate the process of quality control and detection of refrigerators.

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Claims (2)

1. METHOD OF DEFINITION HOUSEHOLD REFRIGERATOR HEAT PARAMETERS, including a refrigerating cabinet, a refrigerating unit and a thermostat, providing for measuring in the control period the time of electric power consumption for a whole number of cycles and the air temperature in the refrigerator at the end of the control period of time and comparing these values with acceptable values, characterized in that , in order to increase the accuracy of determining the parameters and reduce operating costs, thermostat contacts are shunted, the duration of the composite periods Ikla provide constant, and controlling the count period of time to produce a start of the period of parking of the refrigeration unit. 2. The method according to π. 1, characterized in that, in order to provide a differentiated assessment of the quality of individual units of the refrigerator, the air temperature _c in the refrigerator is additionally measured at the end of the parking period of the last cycle and the measured value is compared with an acceptable value. >