KR20050114467A - Apparatus for examining a compressor in a refrigerator - Google Patents

Abstract

Compressor inspection apparatus according to the present invention is a pipe connection connector that can be connected to the discharge port of the compressor, a storage tank for collecting the refrigerant discharged from the discharge port of the compressor, a pressure sensor for measuring the pressure of the refrigerant collected in the storage tank, pressure A / D converter for converting the sensing value provided by the sensor into a digital signal, and a control unit for determining the good or bad of the compressor by comparing the digital signal value and a predetermined value, the display unit for displaying the good and bad information determined by the control unit It further includes.

As described above, the present invention collects the refrigerant discharged from the compressor and measures the pressure, and then displays the condition of the compressor and displays it to the operator. The compressor inspection process can be precisely and quickly processed to increase the inspection efficiency. It has an effect.

Description

Compressor inspection device {APPARATUS FOR EXAMINING A COMPRESSOR IN A REFRIGERATOR}

The present invention relates to a compressor, and more particularly, to a compressor inspection apparatus and method that can check the failure of the compressor.

The compressor is installed in a device that requires a coolant such as a refrigerator or an air conditioner to supply a coolant.

For example, a refrigerator includes a main body having a pair of cooling chambers (one of which is relatively low temperature is referred to as a freezing chamber and the other of which is called a refrigerating chamber) partitioned from side to side by an intermediate partition not shown, and an opening surface of each cooling chamber. It has a door that opens and closes. In each cooling chamber, the several shelf is horizontally arrange | positioned at predetermined intervals along the up-down direction, and many food accommodation spaces are formed between them.

The door on the side of the refrigerating compartment communicates with the inside and outside of the refrigerating compartment so that an open and closed food entrance is formed in a square shape so as to accommodate or withdraw food in the refrigerating compartment without opening the refrigerating compartment door. It is installed to open and close up and down toward the front of the home bar door.

In such a refrigerator, a circulating refrigerant cycle unit including a compressor, an evaporator, a fan motor, and the like is installed at the rear of the cooling chamber in order to generate cold air in the cooling chamber. Is circulated through the circulation passage while the cold air is generated by the fan motor installed in the evaporator.

Such a compressor is manufactured by a predetermined working process, and after completion of manufacturing, the operator operates the compressor to check for failure.

Hereinafter, a conventional compressor failure checking method will be described with reference to the accompanying drawings.

2 is a view for explaining a method for checking the presence of a compressor failure according to the prior art.

As shown therein, the compressor 10 has a discharge port 10a for discharging the refrigerant generated by operating in accordance with an external supply voltage to a circulation flow path, and an operator may supply power to the compressor 10 manufactured in a predetermined process. 20). Accordingly, the compressor 10 generates a refrigerant by driving an internal motor, and the generated refrigerant is discharged to the discharge port 10a.

At this time, the operator checks the failure of the compressor 10 by touching the discharge port 10a to determine whether the refrigerant is discharged.

However, the conventional compressor failure check method has a problem that it is not possible to quantitatively measure the amount of refrigerant discharged from the compressor 10 because it determines only the discharge of the refrigerant from the operator's sense.

In addition, the conventional compressor failure check method has a problem in that the reliability and efficiency of the test is inferior because the operator checks the failure of the compressor 10 based on an arbitrary criterion.

An object of the present invention is to solve the problems of the prior art, by collecting the refrigerant discharged from the compressor to measure the pressure and based on this to check the status of the compressor and display it to the operator, the compressor inspection process is accurate It is intended to provide a compressor inspection apparatus that can be quickly processed to increase the inspection efficiency.

In order to achieve the above object, the present invention provides a compressor inspection apparatus, a pipe connection connector connectable to the discharge port of the compressor, a storage tank for collecting the refrigerant discharged from the discharge port of the compressor, and the storage tank A pressure sensor for measuring the pressure of the collected refrigerant, an A / D converter for converting the sensing value provided from the pressure sensor into a digital signal, and the good value of the compressor is determined by comparing the digital signal value with a preset value It includes a control unit.

An apparatus for inspecting a compressor according to the present invention as described above is a display unit for displaying the status of the compressor to notify the operator and for discharging the refrigerant collected in the storage tank opened or closed under the control of the control unit to discharge to the outside. A valve, a shielding valve that is opened or closed under the control of the controller to control the flow of the refrigerant discharged from the compressor, and the timer is driven for a predetermined time as the compressor is driven.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a compressor inspection apparatus according to the present invention.

Referring to FIG. 1, the compressor inspection apparatus is connected to a compressor 100 including a connector 100a that can be connected to a power source and a discharge port 100b through which a refrigerant is discharged, and a discharge port 100b to pipe the refrigerant of the compressor 100. Piping connection connector 102 to be discharged to the storage tank 104, the refrigerant in which the refrigerant of the compressor 100 is stored, the refrigerant installed in the pipe between the compressor 100 and the storage tank 104 discharged from the compressor 100 Pressure gauge 106 for indicating the pressure of the pressure, pressure sensor 108 for measuring the pressure of the refrigerant collected in the storage tank 104, A / D for converting the sensing value measured by the pressure sensor 108 into a digital signal The control unit 112 and the storage tank 104 to determine the good or bad of the compressor 100 and display it on the display unit 114 by comparing the digital signal output from the converter 110 and the A / D converter 110 with a preset reference value. Is discharged to the outside of the refrigerant collected in the storage tank 104 is connected to one end of the Is connected to the other end of the discharge valve 116, a storage tank (104) for shielding comprises a valve 118 for controlling the flow of refrigerant.

In this case, the control unit 112 includes a timer 120 driven as power is connected to the connector 100a of the compressor 100, and a control signal for controlling the shielding valve 118 and the discharge valve 110. Send the. In particular, the control unit 112 applies a control signal to the shielding valve 118 as the power is connected to the connector 100a of the compressor 100 to open the storage tank, and stores the refrigerant generated according to the driving of the compressor 100. The timer 120 is driven in addition to being captured at 104. That is, the control unit 112 controls and opens the shielding valve 118 during the driving time of the timer 120 to collect the refrigerant in the storage tank 104, and when the driving of the timer 120 is terminated, the shielding valve 118. Closed to prevent the refrigerant from flowing into the storage tank 104 anymore.

In addition, the control unit 112 displays the non-consumption of the compressor 100 on the display unit 114 and then controls and opens the discharge valve 116. Accordingly, the refrigerant collected in the storage tank 106 is discharged to the outside. .

The process of determining the state of the compressor by the compressor inspection device having the above configuration is as follows.

First, the operator connects the discharge port 100b of the compressor 100 to the pipe connection connector 102 and then connects the connector 100a to a power source. Accordingly, the compressor 100 is driven to drive the refrigerant to the discharge port 100b. Discharge through.

At this time, the controller 112 drives the timer 120 and opens the shielding valve 118 so that the refrigerant discharged from the compressor 100 flows into the storage tank 104, and the driving of the timer 120 ends. In this case, the shielding valve 118 is closed so that the refrigerant of the compressor 100 does not flow into the storage tank 104.

Thereafter, the pressure sensor 108 senses the pressure of the refrigerant collected in the storage tank 106 and provides it to the A / D converter 110, and the A / D converter 110 converts the sensed value into a digital signal. It provides to the control part 112.

The controller 112 compares the digital signal value with a preset value to determine whether the compressor 100 is in good condition and then displays it on the display unit 114 to inform the operator and discharge the refrigerant collected in the storage tank 104. In order to control the discharge valve 116 to open.

As the discharge valve 116 is opened, the refrigerant collected in the storage tank 104 is discharged to the outside.

According to the present invention, by connecting the compressor 100 by providing a device that can determine the state of the good or bad of the compressor 100, the operator can accurately determine the state of the compressor 100 only through the connection of the compressor (100).

As described above, the present invention captures the refrigerant discharged from the compressor to measure the pressure and then display the condition of the compressor and display it to the operator based on the pressure, the compressor inspection process is accurate and can be quickly processed to improve the inspection efficiency It can increase the effect.

As mentioned above, although this invention was concretely demonstrated based on the Example, this invention is not limited to this Example, Of course, various changes are possible within the range which does not deviate from the summary.

1 is a block diagram showing a compressor inspection apparatus according to the present invention,

2 is a view for explaining a compressor inspection process according to the prior art.

<Description of the code | symbol about the principal part of drawing>

100: compressor 100a: connector

100b: discharge port 102: pipe connection connector

104: storage tank 106: pressure gauge

108: pressure sensor 110: A / D converter

112: control unit 114: display unit

116: discharge valve 118: shielding valve

120: timer

Claims (3)

As the inspection device of the compressor, A pipe connection connector connectable to the discharge port of the compressor; A storage tank for collecting the refrigerant discharged from the discharge port of the compressor; A pressure sensor for measuring the pressure of the refrigerant collected in the storage tank; An A / D converter converting the sensing value provided from the pressure sensor into a digital signal; Control unit for determining the good or bad of the compressor by comparing the digital signal value and a predetermined value Compressor inspection device comprising a. The method of claim 1, The compressor inspection device, Compressor inspection device further comprises a display unit for displaying the status of the compressor of the compressor to inform the operator. The method of claim 1, The compressor inspection device, A discharge valve which is opened or closed under the control of the controller to discharge the refrigerant collected in the storage tank to the outside; A shielding valve opened or closed under the control of the controller to control the flow of the refrigerant discharged from the compressor; And a timer that is driven for a preset time as the compressor is driven.