KR100853686B1 - Oil measurement device for hermetic compressor - Google Patents

Abstract

The present invention relates to an oil level measurement apparatus of a hermetic compressor. The oil level measurement apparatus of the hermetic compressor according to the present invention includes a plurality of sensors for detecting the internal space of the casing and the temperature of the oil, and at least one sensor for detecting the average temperature therebetween. It is possible to check the oil level in real time by determining whether the detected value approaches the temperature of the internal space or the oil temperature, so that the oil level can be checked in real time, and the compressor operation is controlled according to the checked oil level. In addition, performance can be prevented in advance.

Description

OIL MEASUREMENT DEVICE FOR HERMETIC COMPRESSOR}

1 is a cross-sectional view showing an example of the scroll compressor of the present invention,

2 is a schematic view showing the oil level measuring apparatus according to FIG. 1;

3 is a block diagram illustrating a method of measuring oil level according to FIG. 1;

4 is a schematic view showing another embodiment of the oil level measuring apparatus according to FIG. 1;

** Description of symbols for the main parts of the drawing **

10: casing 31: fixed scroll

32: turning scroll 40: oil level detection unit

41: first reference sensor 42: second reference sensor

43: average sensor T1: first reference value

T2: second reference value Tm: average value

OH: oil level

The present invention relates to a hermetic compressor, and more particularly, to an oil level measuring apparatus of a hermetic compressor.

In general, a compressor obtains a high pressure gas by applying mechanical energy to a gas to increase the mechanical energy of the gas and then converting the pressure into a pressure, and is mainly used in home appliances having a refrigeration cycle such as a refrigerator or an air conditioner.

The compressor is mainly known as an electric compressor for generating a driving force in the inner space of the hermetic casing and a hermetic compressor for compressing the gas by receiving the driving force of the electric mechanism. The hermetic compressor may be classified into a reciprocating type, a rotary type, a scroll type, and a vane type according to a gas compression method.

The casing of the hermetic compressor is filled with a certain amount of oil to lubricate or cool the power mechanism and the compressor mechanism, and part of this oil is adjusted to maintain a constant amount by circulating a refrigeration cycle by the compressor mechanism. . However, some of the oil spilled into the refrigeration cycle may not be recovered due to various factors, and this may cause damage to the hermetic compressor by operating in a bad condition. Therefore, it should be managed to maintain an appropriate amount of oil in the casing at all times. do.

However, in the conventional hermetic compressor, a visualization window is installed at one side of the casing to visually detect the oil amount inside the casing through the visualization window. Not only is it difficult to check, but there is a problem that the strength of the visualizing window is weak, which may be dangerous during operation of the compressor.

The present invention solves the problems of the conventional hermetic compressor as described above, it is possible to automatically check the oil level of the oil filled in the inner space of the casing in real time, it is possible to control the operation of the compressor according to the residual amount of the oil SUMMARY OF THE INVENTION An object of the present invention is to provide an oil level measuring apparatus for a hermetic compressor.

In order to achieve the object of the present invention, the casing is provided with the oil mechanism so that the transmission mechanism and the compression mechanism is installed in the sealed inner space and supplied to the transmission mechanism and the compression mechanism; And an oil amount detection unit installed inside the casing to measure the residual amount of the oil according to a temperature change, wherein the oil amount detection units are provided in plural with a height difference in the casing to provide an internal temperature of the casing. And a reference value temperature sensor for detecting the temperature of the oil and an average value temperature sensor for detecting a temperature change by providing at least one height difference between the reference value temperature sensor and the detected value of the reference value temperature sensor and the average value temperature sensor. The oil level measurement apparatus of the hermetic compressor is provided, which comprises a control unit for determining the oil level through.

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Hereinafter, the oil level measurement apparatus of the hermetic compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

1 and 2 are views showing an example of a scroll compressor to which the oil level measurement apparatus of the present invention is applied.

As shown in FIG. 1, the scroll compressor of the present invention includes a casing 10 having a closed space formed therein, a synchronizing mechanism 20 installed inside the casing 10 to generate a driving force, Compressor mechanism 30 coupled to the electric mechanism unit 20 to compress the refrigerant in the inner space of the casing 10, and the oil of the oil remaining in the inner space of the casing 10 is installed in the casing (10) Oil amount detection unit 40 for measuring the oil level.

The casing 10 is divided into a suction space 12, which is a low pressure part, and a discharge space 13, which is a high pressure part by a high and low pressure separating plate 11, and a suction space 12 of the casing 10. A suction pipe 14 for sucking refrigerant is installed, and a discharge pipe 15 is installed in the discharge space 13 of the casing 10.

The motor mechanism 20 includes a stator 21 fixed to an inner circumferential surface of the casing 10, a rotor 22 rotatably disposed inside the stator 21, and the rotor 22. It is composed of a drive shaft 23 coupled to the center to transmit the rotational force to the compression mechanism (30). The oil passage 23a penetrates the drive shaft 23 in the axial direction, and an oil pump 24 is installed at the lower end of the oil passage 23a to pump oil of the casing 10.

The compression mechanism 30 is provided with a fixed wrap (31a) of the involute shape is fixed to the fixed scroll 31 is installed on the main frame 16, and the fixed wrap (31a) of the fixed scroll 31 in the compression chamber An involute swing wrap 32a is formed to form (P) and is interposed between the swing scroll 32 on the main frame 16 and the main frame 16 and the swing scroll 32. It consists of an old dam ring 33 which prevents the rotation of the turning scroll 32.

The oil amount detection unit 40 is installed in the inner space of the casing 10 with a height difference in the vertical direction as shown in FIG. 2 to detect the internal temperature of the casing 10 and the temperature of the oil, respectively. A first reference temperature sensor (hereinafter referred to as a first reference sensor) 41 and a second reference temperature sensor (hereinafter referred to as a second reference sensor) 42, and the first reference sensor 41 and a second reference sensor 42. And at least one average value temperature sensor (hereinafter, referred to as an average sensor) 43 which detects an average value of the temperature change, and is installed with a height difference in the vertical direction between the reference sensors 41 and 42 and the average sensor 43. And a control unit (shown in FIG. 1) 45 for determining the oil level OH through the detected value of.

The first reference sensor 41 is disposed much higher than the normal height of the oil surface so as to detect the internal space temperature of the casing 10 that is not always in contact with the recovered oil, and the second reference sensor 42 is always recovered. The oil level is so much lower than the normal oil level that the oil is immersed in the oil, and the average sensor 43 may be arranged higher than the oil level while a part thereof is lower than the oil level.

The first reference sensor 41 and the second reference sensor 42 are independently connected to the control unit 45 through a sensor connection unit 44, and the average sensor 43 is connected through the sensor connection unit 44. The controller 45 may be connected in parallel. In addition, the reference sensors 41 and 42 and the average sensor 43 may be made of any one of a thermocouple, a platinum resistance temperature sensor, and a thermistor.

In addition, the average sensor 43 may be provided in singular as well as plural.

The control unit 45 may control the on / off of the power mechanism unit 20 according to the detection values of the reference sensors 41 and 42 and the average sensor 43. It is preferred to be electrically connected to 21).

In the figure, reference numeral 17 denotes a subframe.

The scroll compressor of the present invention as described above is operated as follows.

That is, when power is applied to the electric drive unit 20 and the drive shaft 23 rotates, the turning scroll 32 coupled to the drive shaft is moved from the upper surface of the main frame 16 by the old dam ring 33. A crescent shaped compression chamber is formed between the fixed wrap 31a and the turning wrap 32a while turning by an eccentric distance, and the compression chamber is continuously moved toward the center along the turning trajectory of the turning scroll 32. As the volume moves, the volume gradually decreases, and the refrigerant is continuously compressed and discharged into the discharge space 13.

Here, the oil pump 24 provided at the lower end of the drive shaft 23 pumps the oil filled in the lower half of the casing 10, and the oil is sucked up through the oil passage 23a of the drive shaft 23. As it is scattered, some are recovered and some are mixed with the refrigerant and flow out into the refrigeration cycle. The spilled oil is circulated through the refrigeration cycle and recovered to the inner space of the casing 10 again.

At this time, the oil amount detection unit 40 detects in real time the oil level of the oil remaining in the inner space of the casing 10 to check whether to maintain the proper amount of oil, if the inner space of the casing 10 When the remaining oil is less than the reference value, the electric mechanism unit 20 is stopped to prevent damage to the compression mechanism unit 30 and the like.

Looking at the oil amount detection process as described above in more detail as shown in FIG.

For example, while the first reference sensor 41 detects the internal temperature T1 of the casing 10, the second reference sensor 42 measures the temperature of oil recovered in the inner space of the casing 10. T2) is detected (S1).

Next, a plurality of average sensors 43 disposed with a height difference between the first reference sensor 41 and the second reference sensor 42 detect a current temperature in real time to calculate an average value Tm. (S2)

Next, whether the average value Tm is close to the first reference value (ie, internal temperature of the casing) T1 detected by the first reference sensor 41 or the second detected by the second reference sensor 42. The average value Tm calculated by the average sensor 43 is closer to the first reference value T1 when the average value Tm is closer to the reference value (ie, the temperature of the oil) T2. When Tm approaches the second reference value T2, it is determined that the oil level is high (S3).

Next, when the average value Tm calculated by the average sensor 43 coincides with the first reference value T1 or the second reference value T2, it is determined that the amount of oil is seriously reduced or excessively increased. ) To stop the compressor.

However, in some cases, the control unit 45 may change the set value so that the compressor can be stopped even when the average value approaches the first reference value T1 or the second reference value T2 within a predetermined range. .

On the other hand, the oil amount detection unit 40 is installed in the casing 10, as shown in Figure 4, one reference sensor 41 for detecting the internal temperature of the casing 10, and the reference sensor One or more average sensors (43) installed below the (41) for detecting a temperature change, and a control unit for determining the oil level (OH) through the detection values of the reference sensor 41 and the average sensor 43 ( 45). In this case, the reference sensor 41 is disposed much higher than the oil level of a conventional oil, and the average sensor 43 is preferably disposed between the reference sensor 41 at the minimum amount of oil level. However, when the average sensor 43 is one, it is preferable to be disposed at the minimum oil level of oil can prevent the lack of oil.

Since the operation and effect thereof are similar to those of the above-described embodiment, a detailed description thereof will be omitted. However, in the above-described embodiment, the average value Tm is compared with the first reference value T1 and the second reference value T2, whereas the present embodiment compares the average value Tm with only one reference value T1. There is a difference in what is done.

For reference, the above-described embodiments have been described using a scroll compressor as an example, but may be equally applicable to a rotary compressor or a reciprocating compressor.

The oil level measurement apparatus of the hermetic compressor according to the present invention is provided with a sensor for detecting the temperature of the inner space and a sensor for detecting the temperature of the oil inside the casing, and detecting the change of the oil level between the two sensors. By installing the sensor, it is possible to check the oil level in real time by judging whether the current oil level is appropriate according to whether the change of the oil level is close to the temperature of the internal space or the temperature of the oil. Accordingly, it is possible to control the operation of the compressor to prevent damage to the compressor or deterioration in performance.

Claims (11)

A casing in which the electric mechanism part and the compressor mechanism part are installed in the sealed inner space and the oil is filled to be supplied to the power mechanism part and the compressor mechanism part; And an oil amount detecting unit installed inside the casing to measure a residual amount of the oil according to a temperature change. The oil amount detection unit is provided with a plurality of height difference in the inside of the casing is a reference value temperature sensor for detecting the internal temperature of the casing and the temperature of the oil, respectively, at least one of the height difference between the reference value temperature sensor And an average value temperature sensor installed to detect a change in temperature, and a control unit configured to determine the oil level through detection values of the reference value temperature sensor and the average value temperature sensor. delete delete The method of claim 1, And a plurality of average temperature sensors connected in parallel to the control unit when the average temperature sensors are plural. The method of claim 1, The reference value temperature sensor and the average temperature sensor is any one of a thermocouple (thermocouple), platinum resistance temperature sensor or thermistor (Thermistor) characterized in that the oil level measuring device of the hermetic compressor. The method of claim 1, The control unit is the oil level measuring device of the hermetic compressor, characterized in that it is electrically connected to the power mechanism. The method of claim 1, The reference value temperature sensor and the average value temperature sensor is the oil level measuring device of the hermetic compressor, characterized in that connected to one sensor connection. delete delete delete delete

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