RU2480686C2 - Method for determining technical state of domestic refrigerating equipment - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: method for determining the technical state of domestic refrigerating equipment is described, which involves measurement of temperatures in its compartments, measurement of time of the compressor operation, in which the technical state of domestic refrigerating equipment is evaluated as per the speed of temperature decrease in its compartments at the specified time interval of the compressor operation or as per the time interval from actuation till the specified temperature value is achieved in compartments.

EFFECT: providing independent process for determination of the technical state of domestic refrigerating equipment; improving evaluation reliability.

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Description

The invention relates to refrigeration, and in particular to means and methods for determining the technical condition of household refrigeration appliances (BHP). The invention can find application in assessing the technical condition of BHP before repair or after repair, as well as in diagnosing and assessing its compliance with technical requirements or standards.

The inventive method for determining the technical condition of BHP can find application in the modernization and comparative testing of the same type of household refrigeration appliances, mainly compression type.

Known methods and devices for determining the technical condition and diagnosis of BHP.

For example, a method for determining the technical condition of a domestic refrigeration appliance by determining its cooling capacity on stands having heat-insulated chambers and a calorimeter [Test bench for a sealed refrigeration unit. A.S. SU No. 1315762, 07/07/1987. I.V.Bolgov, V.V. Levkin, A.V. Kozhemyachenko, S.N. Alyokhin, S.V. Minakov] / 1 /. The essence of this method is to measure the cooling capacity of a working refrigeration unit under constant external conditions.

The method for determining the cooling capacity in a heat-insulated chamber is carried out by manually adjusting the power of the colorimeter heater, located in the same heat-insulated tank with the evaporator of the tested operating unit. At the same time, they achieve thermal equilibrium (heat balance) of the generated cold and compensating heat. The obtained value of the power of the heating element at the thermal equilibrium established characterizes the cooling capacity of the unit. The actual cooling capacity obtained by the tests is compared with the expected, obtained by calculation or with the cooling capacity of the reference (model) BHP of the same type. By the convergence or difference of these indicators, the technical condition of the studied BHP is evaluated.

This method is also applicable to assess the condition (or test) of any subsystem of BCP, for example a condenser or evaporator.

The subsystem is evaluated by comparing the actual and reference refrigerating capacities of the refrigeration unit.

The disadvantage of the considered method for assessing the technical condition of a household refrigeration appliance on calorimetric stands and in a thermally insulated chamber is the bulkiness of the stand, the duration of the tests, manual control of the measurement process by rotating the valves, reading indicators on scale pressure gauges, and the fact that the measurements have a relatively high error.

There is also a known method and diagnostic system for household electrical appliances, which consists in placing in the refrigerator several sensors for measuring the voltage of various components of a household refrigeration appliance [Application No. 2005121143/28 of 02/02/2003. Diagnostic system for household electrical appliances] / 2 /. By the difference between the measured voltage readings from the reference, they judge the technical condition of the household refrigeration appliance and its main elements.

The disadvantage of this method is the limited diagnosis of temperature conditions and not taking measurements to determine the coefficient of working time (RTC) - which is an integral indicator of the status of all subsystems of BHP. With this method, the cooling capacity is not determined and the influence of the ambient temperature is not taken into account.

There is also a method for determining the technical condition of BHP, using special stands. For example, the method implemented on a portable stand "CX-2" [Lepaev D.A. Repair of household refrigerators. M .: Legprombytizdat, 1989, p. 255-258] / 3 /. When using this stand, the voltage value of the consumed current is determined, the insulation for breakdown is checked, the active resistance of the windings, the insulation resistance are measured; the coefficient of working time is determined, the temperature is measured at three points of the refrigerated compartment. It is essential to measure the operating time of the motor compressor and the time it was in the off state on this stand, which allows us to calculate the working time coefficient (RTC) of a household refrigeration appliance. KVV indirectly characterizes the performance of the unit as a whole and the tightness of the refrigerator. The device allows you to implement a method of measuring temperatures in the refrigerating and freezing compartments of BHP. The conclusion about the technical condition of the household refrigeration appliance, with this method, is made on the basis of comparing the RCC of the investigated refrigeration appliance with the RCC of the reference refrigeration appliance or with indicators of a known good BHP of the same type.

The disadvantage of this method is that when determining the technical condition using the above-mentioned stand does not take into account the influence of ambient temperature, which affects the value of the ETC. The described method gives an indicative assessment of the technical condition of BHP.

As a prototype of the invention, we accept the above-described method for determining the technical condition of BHP, implemented at the stand "CX-2". The disadvantage of the prototype method is the need for the participation of the performer in the measurement, the need for "manual" processing of the measurement results of the computational RCC, i.e. the measurement process and assessment of the technical condition of domestic refrigeration appliances is not automated.

Another disadvantage of the prototype method is the effect on the indicator of the technical state of the RCC - ambient temperature.

The compressor operating time, from turning it on to off, is affected by the ambient temperature, which determines the thermal control valve used to evaluate the technical condition of BHP.

The objective of the invention is to remedy these disadvantages, namely, ensuring the autonomy of the process of determining the technical condition of a household refrigeration appliance, increasing the reliability of assessing its technical condition and simplifying the method.

The problem is solved in that the technical condition of the BHP is estimated by the rate of temperature decrease in the compartments of the household refrigeration appliance, for a specified period of time or for the period of time the compressor runs from switching on until the set temperature value is reached in the compartment (s). In this case, the cooling rate of the studied BHP is compared with the cooling rate of the reference (obviously working) BHP. The discrepancy between the cooling rates is used to judge the technical condition of the studied BHP.

The cooling rate in the studied BHP compartment can be compared with the calculated value of the cooling rate under idealized conditions.

The method involves the operation of placing temperature sensors in the studied BHP departments, as well as the placement of an ambient temperature sensor, connecting a compressor for monitoring the compressor’s operating time and using an interface to collect and process information, a measurement process, a calculation process, and an indication of the technical state of the BHP.

In this case, temperature sensors can be removable or mounted in subsystems of BHP. The device for recording the compressor operating time from on to off can be made in the form of an electronic meter controlled by a temperature relay.

The invention is illustrated by graphs of the cooling process shown in figure 1 and 2.

The basis of the claimed method for determining the technical state of BHP is the result of studies of the cooling rate of BHP at various ambient temperatures, provided that cooling begins with a temperature inside the compartment to be cooled equal to the temperature of the external environment. Studies have found that over a certain range of temperature changes in the refrigerated compartment, the cooling rate can be described by a linear function.

Figure 1 shows graphs of the dependence of temperatures in the cooled compartment BHP on the compressor operating time at various ambient temperatures. Figure 2 - graphs of the temperature in the refrigerated compartment for the reference and studied BHP on the compressor operating time for a certain period of time. Figure 3 shows graphs of the temperature changes of the reference and studied BHP, while ensuring a given temperature in the refrigerated compartment.

As can be seen in the graphs (Fig. 1), the dependences of temperature on compressor operating time at various ambient temperatures over a certain temperature range are linear, and the cooling rate (line angle) is the same at different ambient temperatures. Thus, by measuring the cooling rate at any ambient temperature, we can judge the technical condition of the household refrigeration appliance. The cooling rate determines the cooling capacity of the refrigeration unit, the capacity of the refrigerated compartment, the volume of the refrigerated product and the technical condition of all BHP subsystems.

When diagnosing or determining the technical condition of BHP, the department is not loaded with products. Thus, for each volume of the refrigerated compartment of a new (reference) and tested household refrigeration appliance, the cooling rate characterizes the technical condition of all its subsystems in aggregate, and its deviation from the actual (measured) cooling rate from the reference (measurements on a new or reference BHP of the same type) is estimated technical condition.

Modifications of this method allow testing various BHP subsystems - a refrigeration unit, a sealed motor-compressor, a filter dryer and other elements of a subsystem of a household refrigeration device.

In each case, the conclusion about the technical condition of the investigated subsystem of the household refrigeration appliance is its integral assessment - according to the correspondence between the actual and reference cooling rates.

The cooling rate (figure 2) is determined by the expression

where ΔT is the temperature range from the initial value (equal to the ambient temperature) to the final one, measured after the compressor’s set operating time τ.

, для испытываемого БХП скорость охлаждения равна

отклонение скорости охлаждения в испытываемом БХП от скорости охлаждения в эталонном БХП равноFor a reference domestic refrigerator, the cooling rate is

, for the tested BHP, the cooling rate is

the deviation of the cooling rate in the tested BHP from the cooling rate in the reference BHP is

The magnitude of this deviation is determined by the technical condition of the investigated household refrigeration appliance.

Indirectly, the cooling rate can be determined (Fig. 3) for the same temperature range (ΔT _e = ΔT _and ) the compressor operating time spent to cool the refrigerator compartment to a predetermined (T _cool ) temperature value, i.e. measuring τ _e and τ _u, a technical condition BHP thus determined quantity Δτ = τ _{OHL and} -τ _e.

Also, the cooling rate can be indirectly determined (figure 2) by setting the same period of compressor operation for the reference and for the tested BHP, i.e. when τ _e = τ _and = τ, then the technical state of BHP is determined by ΔT = ΔT _e -ΔT _and - by the difference in time spent on cooling the compared BHP.

The main distinguishing feature of the claimed method for determining the technical state of BHP is the use in the method of "cooling rate".

Another hallmark is the "cooling rate comparison." Comparison of cooling rates can be performed based on:

- information on the cooling rates (without loading products) of the new BHP before the start of its operation and after a certain period of operation;

- information about the cooling rate in the same type of BHP - standard, known and investigated;

- information on the expected cooling rate based on heat engineering calculations;

- information obtained using similarity criteria.

Measurement of the cooling rate can be carried out during the cycle or after defrosting and turning on the compressor in the cycle.

Measurement of the cooling rate gives the best result when the temperature in the refrigerated compartment (before turning on the compressor) is close to the ambient temperature, for example during “thawing” and “defrosting”.

The proposed method allows to simplify the measurement process and to exclude the presence of the operator when taking characteristics of a household refrigeration appliance.

In analogs and prototypes, the operator controls the control devices and visually monitors the process parameters according to the pressure gauges, while errors and errors are allowed.

In the proposed method, the influence of the human factor on the diagnosis result is excluded. In addition, the proposed method simplifies the process of determining the technical condition of BHP, because there is no need to control valves and monitor instrument performance.

By the degree of discrepancy between the measured and reference indicators, the degree of defectiveness of BHP and the feasibility of its repair can be determined.

The proposed method eliminates the need to use special calorimetric stands for assessing the technical condition of BHP, while excluding the influence of the ambient temperature on the estimate.

The proposed method is relatively easy to automate and use for operational diagnostics of BHP.

The proposed method can be applied in the study of BCP, for example, in the study of various refrigerants, evaporator designs, condenser designs, to assess the insulation of the refrigerator, as well as for the operational diagnosis of BCP at its place of use using portable personal computers. The method can be implemented in self-diagnosis blocks BHP.

Used sources

1. Test bench for sealed refrigeration unit. A.S. SU No. 1315762. I.V.Bolgov, V.V. Levkin, A.V. Kozhemyachenko, S.N. Alyokhin, S.V. Minakov.

2. Application No. 2005121143/28 of 26.0120. Diagnostic system for household electrical appliances.

3. Lepaev D.A. Repair of household refrigerators. M .: Legprombytizdat, 1989, p. 255-258.

Claims (1)

A method for determining the technical condition of a domestic refrigeration appliance, including measuring temperatures in its compartments, compressor operating time, characterized in that the technical condition is evaluated by the rate of temperature decrease in the compartments of the refrigeration appliance for a set period of time for compressor operation or for a period of time for compressor operation from switching it on to achievement in the compartment (s) of the set air temperature.

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