KR100351156B1 - Inspection method and inspection equipment for hermetic compressor - Google Patents

Abstract

The present invention relates to a test method and a test facility for the hermetic compressor. The inspection method of the hermetic compressor according to the present invention includes the steps of loading the hermetic compressor to be inspected at a predetermined inspection position; Setting a pressure condition such that a pressure equal to the pressure state after the actual load start is applied to the suction side and the discharge side of the hermetic compressor; Applying an initial pressure to the suction side and the discharge side of the hermetic compressor according to the set pressure condition; A start-up inspection step of starting the hermetic compressor to detect the operating current of the hermetic compressor, the pressure on the suction side and the discharge side, and compare it with a reference value; And a step-up test step of checking whether or not the discharge-side pressure of the hermetic compressor reaches the standard pressure within a predetermined time. As a result, the inspection can be performed under almost the same conditions as the load condition when the actual product is applied, thereby preventing the defective product from being put into the subsequent process in advance.

Description

Inspection Method and Inspection Equipment for Hermetic Compressor {INSPECTION METHOD AND INSPECTION EQUIPMENT FOR HERMETIC COMPRESSOR}

The present invention relates to an inspection method and an inspection facility for a hermetic compressor, and more particularly, to inspect the same in the same condition as the load condition when the actual product is applied to prevent the installation of the defective product in advance. The present invention relates to an inspection method and an inspection facility for a hermetic compressor.

In general, a hermetic compressor includes a casing for forming a closed space therein, a compression portion disposed inside the casing to compress and discharge the refrigerant sucked from the outside, and a compression force disposed in the casing to provide driving force to the compression portion. It is configured to include an electric motor to provide.

Usually, the casing is separated and manufactured into a plurality of parts coupled to each other along the up and down direction, and when the compression part and the electric motor part are respectively seated / combined, the separated casing part is joined by a method such as mutual welding to form a closed space inside. To form.

When the coupling is completed, the inspection process to finally inspect the performance and function through the painting process to the outside, and the inspection process to screen the good and defective products.

In the inspection process, while the suction side (suction tube) and discharge side (discharge tube) of the compression unit are maintained at atmospheric pressure or internal basic pressure, power is applied to the electric motor unit to drive the compression unit to measure the operating current and the like. A maneuver test will be conducted. When the start test is completed, the leak test on the suction side is performed while the driving is stopped.

By the way, in the conventional inspection method of the hermetic compressor, the driving unit such as the compression unit and the electric motor unit and the suction pipe and / or the casing are leaked mainly to inspect the product determined as good in the inspection process. In the case of mounting on an actual product, for example, an air conditioner or the like, a case where it is determined to be defective occurs. If it is determined that the defect is because of the nature of the hermetic compressor is not possible to repair and replace the part because it is necessary to replace the hermetic compressor itself there is a problem that takes a lot of time and effort according to the replacement.

Accordingly, it is an object of the present invention to provide an inspection method and an inspection facility for a hermetic compressor that can prevent inspection of a defective product into a subsequent process by performing the inspection at substantially the same conditions as the load condition when the actual product is applied.

1 is a schematic control block diagram of a test facility for a hermetic compressor according to an embodiment of the present invention;

2 is a view showing the pressure changes on the suction side and discharge side during the inspection of the inspection equipment of the hermetic compressor of FIG.

3 is a flowchart illustrating a method of inspecting a hermetic compressor according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11 casing 14 discharge tube

17: inlet pipe 21: suction side coupler

23 discharge side coupler 25 pressure generating unit

27: power supply unit 29: inspection condition setting unit

31: maneuver inspection unit 33: step-up inspection unit

35 control unit 37 noise inspection unit

39: vibration inspection unit 41: leakage inspection unit

43: display unit

The object is, according to the present invention, to load a hermetic compressor to be inspected at a predetermined inspection position; Setting a pressure condition such that a pressure equal to the pressure state after the actual load start is applied to the suction side and the discharge side of the hermetic compressor; Applying an initial pressure to the suction side and the discharge side of the hermetic compressor according to the set pressure condition; A start-up inspection step of starting the hermetic compressor to detect the operating current of the hermetic compressor, the pressure on the suction side and the discharge side, and compare it with a reference value; And a step-up test step of checking whether the discharge side pressure of the hermetic compressor reaches the standard pressure within a predetermined time.

Here, it is preferable to further include a noise test step of inspecting the noise in the state in which the hermetic compressor is driven so that the pressure on the discharge side maintains the standard pressure after the start test step.

Further, it is effective to further include a leak test step of checking the leakage of the fluid on the discharge side after the operation of the hermetic compressor.

On the other hand, according to another field of the present invention, the inspection condition setting unit for setting the inspection conditions including the pressure conditions to be applied to the suction side and the discharge side of the hermetic compressor to the same pressure state after the end of the actual load start; A suction side coupler and a discharge side coupler coupled to apply an initial pressure to the suction side and the discharge side of the hermetic compressor; A pressure generating unit for generating a pressure to apply an initial pressure to the suction side and the discharge side coupler according to the pressure condition set by the inspection condition setting unit; A start test unit which detects an operating current at the start of the hermetic compressor and performs a start test; A boosting inspection section for detecting pressure on the suction side and the discharge side of the hermetic compressor and checking whether the pressure on the discharge side reaches a standard pressure within a predetermined time, the inspection condition setting section, the pressure generating section, and the starting inspection section And a control unit for controlling the boost test unit.

Here, it is preferable to further include a noise inspection unit for inspecting the noise in the state in which the sealed compressor is driven so that the pressure on the discharge side of the hermetic compressor maintains the standard pressure.

Further, it is effective to further include a leak inspection unit for inspecting the leakage of the fluid on the discharge side after the shutdown of the hermetic compressor.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

1 is a schematic control block diagram of the inspection equipment of the hermetic compressor according to an embodiment of the present invention, Figure 2 is a view showing the pressure changes on the suction side and discharge side of the inspection equipment of the hermetic compressor of FIG. 3 is a flowchart illustrating a method of inspecting a hermetic compressor according to an embodiment of the present invention. As shown in these figures, the hermetic compressor 10 includes a casing 11 having an airtight space therein and having a suction pipe 13 and a discharge pipe 14 coupled thereto, an inlet pipe 17 and an outlet. On one side of the casing 11 with the tube 19 has an accumulator 15 to which the outlet tube 19 is communicatively coupled to the suction tube 13.

The inspection equipment 20 of the hermetic compressor is coupled to the inlet pipe 17 and the discharge pipe 14 of the accumulator 15, respectively, and the suction side coupler 21 and the discharge side coupler 23 which apply the same pressure as the actual load conditions. ), A pressure generating unit 25 for generating a predetermined pressure and providing the pressure to the suction-side coupler 21 and the discharge-side coupler 23, respectively, and pressure conditions and the like corresponding to the actual load conditions of the hermetic compressor 10. An inspection condition setting unit 29 for setting the inspection conditions, a start inspection unit 31 for detecting a current applied to the hermetic compressor 10 and performing a start inspection, and a suction side and a discharge tube of the hermetic compressor 10 ( A step-up inspection unit 33 for detecting whether the discharge side pressure reaches the standard pressure within a predetermined time by detecting the pressure of 14), and a control unit 35 having a built-in control program electrically connected to and controlling them; It is configured to include.

The control unit 35 includes a power supply unit 27 electrically connected to the hermetic compressor 10 to supply power, and a noise inspection unit 37 for inspecting noise and vibration in a state where the discharge pressure is driven to maintain a standard pressure. ), A vibration inspection unit 39, a leakage inspection unit 41 for inspecting the leakage of the fluid of the hermetic compressor 10, and a display unit 43 for allowing predetermined information to be displayed externally.

The inspection method using the inspection equipment of the hermetic compressor having such a mechanical characteristic will be described step by step. After the assembly is completed, the hermetic compressor 10 is loaded at a predetermined inspection position by a conveying means of the inspection facility, for example, a conveying conveyor, through a painting process (S10). When the hermetic compressor 10 to be inspected is loaded (S10), the suction side coupler 21 and the discharge side coupler 23 are respectively coupled to the inlet pipe 17 of the accumulator 15 and the discharge pipe 14 of the casing, The control unit 35 controls the pressure generating unit 25 so that the pressure set by the inspection condition setting unit 29 is applied to the suction pipe and the discharge pipe 14 of the hermetic compressor 10 (S20). For example, the hermetic compressor 10 is mounted on a real product such as an air conditioner so that a pressure of 10 kg / cm 2 is applied to the suction side and the discharge side, respectively, in the same manner as the pressure corresponding to the suction side and the discharge side after the start of the operation.

When the pressure is maintained on the suction side and the discharge side under the same conditions as when the start is finished, the power supply unit 27 is controlled to apply power to the electric motor of the hermetic compressor 10 to drive the compression unit (S30). When the compression section is driven, as shown in Fig. 3, the pressure on the suction side gradually decreases and the pressure on the discharge side rises. The control unit 35 controls the start test unit 31 to detect a current supplied to the electric motor unit so that a start test for checking whether the electric motor unit and the compression unit are normally driven is performed (S40). The controller 33 controls the pressure in the discharge tube 14 so that a boosting test is performed to check whether the discharge-side pressure reaches the standard pressure for a predetermined time (S50). Here, the control unit 35 controls the display unit 43 to display each detection result value and the inspection result in real time to the outside.

The noise inspection unit 37 and the state in which the discharge pressure of the discharge pipe 14 detected is maintained at a standard pressure (here, the pressure of the suction pipe becomes 5 kg / cm 2 when the discharge pressure reaches 18 kg / cm 2). The vibration inspection unit 39 is controlled to drive the hermetic compressor 10 to perform noise inspection and vibration inspection (S60).

After the noise test and the vibration test are completed, the driving of the hermetic compressor 10 is stopped by controlling the power supply unit 27, and the leakage inspection unit 41 is controlled to perform the leakage inspection of the hermetic compressor 10 (S70), When the leak test is completed, exhausting is performed so that the remaining pressure inside the casing 11 can be removed (S80), and the suction side coupler 21 and the discharge side coupler 23 are connected to the inlet pipe 17 of the accumulator 15 and Separate from the discharge pipe 14, respectively.

As described above, according to the present invention, the inspection method of the hermetic compressor can be prevented in advance that the defective product is mounted on the actual product by performing the start-up test and the step-up test, etc. under the condition that the hermetic compressor is almost the same as the actual use conditions, and Inspection equipment is provided.

In addition, according to the present invention, by inspecting the noise in the state of operating the hermetic compressor under the actual load conditions substantially the same as the actual use conditions, and inspection of noise and leakage defects by inspecting the leakage after driving in the same state as the actual use conditions Provided are a method and an inspection apparatus for a hermetic compressor that can improve the reliability of the compressor.

Claims (6)

Loading the hermetic compressor to be inspected at a predetermined inspection position; Setting a pressure condition such that a pressure equal to the pressure state after the actual load start is applied to the suction side and the discharge side of the hermetic compressor; Applying an initial pressure to the suction side and the discharge side of the hermetic compressor according to the set pressure condition; A start-up inspection step of starting the hermetic compressor to detect the operating current of the hermetic compressor, the pressure on the suction side and the discharge side, and compare it with a reference value; And a boosting step of checking whether or not the discharge-side pressure of the hermetic compressor reaches a standard pressure within a predetermined time period. The method of claim 1, And a noise inspection step of inspecting noise while driving the hermetic compressor so that the pressure on the discharge side maintains the standard pressure after the startup inspection step. The method according to claim 1 or 2, The inspection method of the hermetic compressor further comprises a leakage inspection step of inspecting the leakage of the fluid on the discharge side after the operation of the hermetic compressor. An inspection condition setting unit for setting inspection conditions including pressure conditions so that the same pressure as the pressure state after the actual load start is applied to the suction side and the discharge side of the hermetic compressor; A suction side coupler and a discharge side coupler coupled to apply an initial pressure to the suction side and the discharge side of the hermetic compressor; A pressure generating unit for generating a pressure to apply an initial pressure to the suction side and the discharge side coupler according to the pressure condition set by the inspection condition setting unit; A start test unit which detects an operating current at the start of the hermetic compressor and performs a start test; A boosting inspection section for detecting pressure on the suction side and the discharge side of the hermetic compressor and checking whether the pressure on the discharge side reaches a standard pressure within a predetermined time, the inspection condition setting section, the pressure generating section, and the starting inspection section And a control unit for controlling the boost test unit. The method of claim 4, wherein The inspection apparatus of the hermetic compressor further comprising a noise inspection unit for inspecting the noise in a state in which the hermetic compressor is driven so that the pressure on the discharge side of the hermetic compressor maintains the standard pressure. The method according to claim 4 or 5, The inspection apparatus of the hermetic compressor further comprises a leakage inspection unit for inspecting the leakage of the fluid on the discharge side after the operation of the hermetic compressor.