KR101619163B1 - Real-time monitoring system for the automatic transmission quality using cleaning oil from automatic transmission in the process line. and real=time monitoring method using thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a real-time automatic transmission quality monitoring system capable of real-time monitoring of automatic transmission quality with cleaning oil in an automatic transmission assembly line, and more particularly, If the parts status (burner, surface condition, etc.) of the automatic transmission is not good during the oil cleaning process to remove foreign matters, it affects the cleanliness of the oil. Therefore, it is monitored in real time to manage the quality of the automatic transmission A real-time automatic transmission quality monitoring system and a real-time automatic transmission quality monitoring method are provided to measure the cleanliness of the cleaning oil cleaned in the automatic transmission assembly line in the automatic transmission assembly process line and to monitor the quality of the automatic transmission in real time using the result do.

Description

TECHNICAL FIELD [0001] The present invention relates to a real-time automatic transmission quality monitoring system capable of real-time monitoring of automatic transmission quality with cleaning oil in an automatic transmission assembly line, and an automatic transmission quality monitoring method using the system automatic transmission in the process line. and real = time monitoring method using them}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a real-time automatic transmission quality monitoring system capable of real-time monitoring of automatic transmission quality with cleaning oil in an automatic transmission assembly line, and more particularly, If the parts status (burner, surface condition, etc.) of the automatic transmission is not good during the course of the oil cleaning process to remove the foreign matter, the quality of the automatic transmission is monitored by real- To a real-time automatic transmission quality monitoring system and a real-time automatic transmission quality monitoring method capable of real-time monitoring of automatic transmission quality with cleaning oil in an automatic transmission assembly line.

Generally, the complete automatic transmission consists of assembling many parts, cleaning and managing foreign parts. However, once the transmission assembly is finished, oil can be injected again to remove any remaining foreign matter. .

In the conventional cleaning process, oil is supplied only for a predetermined time, and when the cleaning process is completed, the next inspection line is taken over. Thus, the level of how much foreign substances are removed from the complicated transmission through the cleaning process is unknown.

Therefore, the residual foreign matter may cause quality problems of the automatic transmission such as control valve burning or temporary jamming of the transmission during operation of the vehicle, oil pump disconnection or performance deterioration, abnormal noise generation, etc. Therefore, It is necessary to plan for.

For this reason, the following techniques have been conventionally provided.

Japanese Patent Application No. 10-0331618 (Mar. 25, 2002) discloses an automatic transmission that includes: (a) sampling an automatic transmission and disassembling the automatic transmission by each component; (b) washing and dissolving the component; (c) filtering the washing liquid through a predetermined filter; (d) removing oil from the filter using a predetermined liquid; (e) measuring the actual weight of the foreign substance on the filter; (f) image analysis of the foreign object through a video device.

However, according to the conventional technology, any one of the automatic transmissions produced in the automatic transmission manufacturing line is sampled and decomposed to clean the respective components, and the automatic transmission is manufactured by the automatic transmission manufacturing line It is impossible not only to perform full inspection but also to real time.

Also, conventionally, after washing the filter with a filter, particle weight of the foreign substance filtered by the filter and image particle analysis were inspected. This is a very complicated inspection process, .

Therefore, the present invention monitors the cleanliness state of the automatic transmission oil discharged during the cleaning and functional test of the automatic transmission, and thus, it is possible to prevent the control valve from being separated or temporarily locked due to contaminants and quality remaining in the automatic transmission components, A real-time automatic transmission quality monitoring system that can monitor the quality of an automatic transmission in real-time with cleaning oil in an automatic transmission assembly line that prevents and prevents quality problems after a car shipment due to degradation or abnormal noise generation. Thereby providing an automatic transmission quality monitoring method.

The present invention also provides an online measuring particle counter and a real-time measurement technique by stabilizing the measured oil condition and removing the air (air bubbles) contained in the oil by using a vacuum pump, Provided is a real time automatic transmission quality monitoring system capable of monitoring the quality of an automatic transmission in real time with cleaning oil in an automatic transmission assembly line capable of checking the full speed of an automatic transmission and an automatic transmission quality monitoring method using the system.

In order to achieve the above object, a real-time automatic transmission quality monitoring system using cleaning oil measurement according to the present invention is a real-time automatic transmission quality monitoring system for real-time monitoring of automatic transmission quality by being coupled to an automatic transmission assembly line An oil receiving chamber connected to the automatic transmission and the inlet pipe for receiving the cleaned oil in the automatic transmission as the first valve provided in the inlet pipe opens; A vacuum pump connected to the oil accommodation chamber through a first flow path and for supplying a vacuum to the oil accommodation chamber for a designated time to remove air (air bubbles) contained in the oil accommodated in the oil accommodation chamber; A second valve provided in a second flow path connected to the oil accommodation chamber to provide atmospheric pressure to the oil accommodation chamber by selective opening and closing; A particle counter connected to the oil accommodating chamber through a measuring pipe, for drawing foreign particles removed from the air as the third valve provided in the measuring pipe is opened; A fourth valve disposed in the discharge pipe connected to the oil accommodation chamber to discharge the oil contained in the oil accommodation chamber by selective opening and closing; A regulator connected to the oil accommodation chamber by a third flow path and providing compressed air into the oil accommodation chamber as the fifth valve provided in the third flow path is opened; And a control unit connected to the first valve through the fifth valve through a communication cable to control opening and closing of the valves and connected to the particle counter through a communication cable to determine a cleaning failure state of the automatic transmission as a measured value measured through the particle counter Wherein the oil introduced into and received from the inlet pipe from the inlet pipe is supplied to the inside of the automatic transmission during the oil cleaning process for cleaning the interior of the automatic transmission in the automatic transmission assembling process line with oil or after completion of the oil cleaning process And is a sample of washed oil.

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In the real time automatic transmission quality monitoring system using cleaning oil measurement according to the present invention, the regulator may be configured to open the fifth valve when discharging the oil accommodated in the oil accommodating chamber by opening the fourth valve, It is desirable to provide compressed air.

In the real-time automatic transmission quality monitoring system using the cleaning oil measurement according to the present invention, it is preferable that the first to fifth valves are pneumatic automatic valves that are selectively opened and closed by the control unit.

In the real-time automatic transmission quality monitoring system using cleaning oil measurement according to the present invention, it is preferable that the particle counter simultaneously measures the number and size of foreign particles contained in the oil after the air removal.

In order to achieve the above object, the present invention provides a real-time automatic transmission quality monitoring method using cleaning oil measurement, comprising: real-time automatic transmission quality monitoring for monitoring quality of an automatic transmission completed in an automatic transmission assembly line; The method comprising the steps of: (a) opening the first valve provided in the inlet pipe to draw the oil, which has been cleaned in the interior of the automatic transmission, into the oil receiving chamber; (b) a first valve is closed when a predetermined amount of oil is received in the oil accommodation chamber, and a vacuum pump connected to the oil accommodation chamber and the first flow path maintains the atmosphere inside the oil accommodation chamber in a vacuum for a designated period of time Removing air (bubbles) contained in the oil by withdrawing air (bubbles) contained in the oil and the oil in the oil accommodation chamber to the outside; (c) opening the second valve provided in the second flow path to convert the atmosphere of the oil accommodation chamber to an atmospheric pressure state when air (air bubbles) contained in the oil is removed for a designated time; (d) closing the second valve when the atmosphere of the oil accommodation chamber is converted to the atmospheric pressure, opening the third valve provided in the measurement pipe to draw the oil contained in the oil accommodation chamber into the particle counter, Measuring the foreign particles; (e) determining the quality of the automatic transmission with the measured value measured through the particle counter; And (f) when the quality of the automatic transmission is determined, the third valve is closed and the fourth valve and the fifth valve provided respectively in the discharge pipe and the third flow passage are sequentially opened, and the compressed air generated by the regulator is discharged to the oil And a step of discharging the residual oil contained in the oil accommodating chamber while supplying the oil sample into the accommodating chamber, wherein in the step (a) of drawing the oil sample cleaned in the automatic transmission to the oil accommodating chamber and accommodating the oil sample, A sample of oil cleaned in the automatic transmission during an oil cleaning process for cleaning the inside of the automatic transmission in oil in a transmission assembly process line or after the completion of the oil cleaning process is received in the oil accommodating chamber and accommodated therein.

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In the real-time automatic transmission quality monitoring method using cleaning oil measurement according to the present invention, in the step (f) of discharging the residual oil contained in the oil accommodation chamber, the fourth valve is opened, And when the accommodated oil is discharged, it is preferable that the fifth valve is opened to supply the compressed air generated by the regulator to the oil accommodation chamber.

In the real-time automatic transmission quality monitoring method using the cleaning oil measurement according to the present invention, in the step of measuring the foreign particle contained in the oil, which is the step (d), the foreign matter contained in the oil It is preferable to simultaneously measure the number and size of the particles.

A real-time automatic transmission quality monitoring system that can monitor the quality of an automatic transmission with cleaning oil in real time in an automatic transmission assembling line according to the present invention and an automatic transmission quality monitoring method using the system have the following effects.

Removing the air (air bubbles) contained in the oil using a vacuum pump stabilizes the oil condition and improves the reliability of the particle count measurement result. .

The compressed air generated by the regulator is supplied to the oil accommodating chamber to rapidly discharge the residual oil accommodated in the oil accommodating chamber, thereby shortening the time for checking the automatic transmission quality in the automatic transmission assembly line, The transmission quality can be monitored in real time.

It also has the effect of monitoring real-time quality defects that can predict future quality defects that can not be detected in functional and performance tests, using the cleanliness of automatic transmission oil.

FIG. 1 is a diagram illustrating a configuration of a real-time automatic transmission quality monitoring system capable of real-time monitoring of automatic transmission quality with cleaning oil in an automatic transmission assembling process line according to the present invention.
FIG. 2 is a simplified block diagram of an automatic transmission quality monitoring method using a real-time monitoring system of automatic transmission quality as cleaning oil in an automatic transmission assembly line according to the present invention.
FIG. 3 is a graph showing an optimal measurement time for each measurement step of each step through the automatic transmission quality monitoring method using a real-time monitoring system of the automatic transmission quality as cleaning oil in the automatic transmission assembling line of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, at the time of the present application, It should be understood that variations can be made.

FIG. 1 is a view illustrating a configuration of a real-time automatic transmission quality monitoring system that can monitor the quality of an automatic transmission with cleaning oil in real time in an automatic transmission assembling line according to the present invention. FIG. FIG. 3 is a block diagram showing an automatic transmission quality monitoring method using a real-time monitoring system of automatic transmission quality as cleaning oil in a process line. It is shown in the graph that the optimal measurement time is derived for each measurement step through the implementation of the automatic transmission quality monitoring method using the surveillance system.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and a method for monitoring the quality of an automatic transmission in an oil cleaning process line of an automatic transmission continuously produced and more particularly to a system and method for monitoring the quality of an automatic transmission oil discharged during a cleaning and functional test of an automatic transmission , The degree of oil cleanliness to prevent and prevent quality problems after the car shipment due to contamination remaining in the automatic transmission parts and contamination of the control valve or temporary locking of the control valve due to defective cleaning, Time automatic transmission quality monitoring system using real-time automatic transmission quality monitoring, and real-time automatic transmission quality monitoring method using oil cleanliness measurement, which will be described in more detail with reference to FIG. 1 to FIG.

A real-time automatic transmission quality monitoring system that can monitor the quality of an automatic transmission with cleaning oil in real time in an automatic transmission assembling process line according to the present invention includes an oil receiving chamber 100, a vacuum pump 200, a particle counter 300, The oil storage chamber 100 shown in FIG. 1 is connected to the automatic transmission and the inlet pipe 110 and the first valve (not shown) provided in the inlet pipe 110, 10) is opened, the cleaned oil is taken in and accommodated in the automatic transmission.

The first valve 10 may be a pneumatic automatic valve that is selectively opened and closed by the controller 500.

A vacuum pump 200 is disposed at one side of the oil accommodating chamber 100. The vacuum pump 200 is connected to the oil accommodating chamber 100 through a first flow path 210, The air in the oil accommodating chamber 100 is exhausted to the outside and the air (air bubbles) contained in the oil accommodated in the oil accommodating chamber 100 is also removed (aka: Remove the air).

The oil storage chamber 100 is provided with a second flow path 120 communicating with the outside (atmosphere), and the second flow path 120 is provided with a second valve 20, Thereby providing an atmospheric pressure to the chamber 100.

The second valve 20 may be a pneumatic automatic valve that is selectively opened and closed by the control unit 500.

The particle counter 300 is connected to the oil accommodating chamber 100 through the measuring pipe 310 and the third valve 30 provided in the measuring pipe 310 is opened to open the oil accommodating chamber 100, The foreign particles contained in the oil are measured.

It is preferable that the measuring pipe 310 connected to the oil receiving chamber 100 is located below the oil receiving chamber 100 that does not exceed the level of the oil contained in the oil receiving chamber 100 in which the measuring pipe 310 is located .

The reason for the above is to increase the measurement accuracy of the particle counter 300 by preventing air (bubbles) from being contained in the oil passing through the measurement pipe 310.

The oil introduced into the particle counter 300 is introduced into the oil accommodating chamber 100 through the vacuum pump 200 to remove the air (air bubbles) and measure the foreign particles contained in the oil desirable.

Also, the third valve 30 may be a pneumatic automatic valve that is selectively opened and closed by the controller 500.

In addition, a discharge pipe 130 is connected to the lower end of the oil accommodation chamber 100 to discharge the measured residual oil to the outside.

A fourth valve 40 is provided in the discharge pipe 130 to discharge the oil contained in the oil accommodation chamber 100 by selectively opening and closing the fourth valve 40. The fourth valve 40 ) Is also preferably configured by a pneumatic automatic valve that is selectively opened and closed by the control unit 500. [

The regulator 400 is connected to the oil accommodating chamber 100 through the third flow path 140 and the fifth valve 50 provided in the third flow path 140 opens the oil accommodating chamber 100 To provide compressed air.

The compressed air provided at this time is provided when the fourth valve (40) is opened to discharge the oil contained in the oil accommodation chamber (100). The fifth valve 50 is also configured to be a pneumatic automatic valve that is selectively opened and closed by the control unit 500. The fourth valve 40 and the fifth valve 50 are controlled to be sequentially opened and closed.

The control unit 500 is connected to the first to fifth valves 10, 20, 30, 40 and 50 through a communication cable to control opening and closing of the valves, and is connected to the particle counter 300 through a communication cable The quality of the automatic transmission is determined by the measurement value measured through the particle counter (300).

The automatic transmission quality monitoring method using the real-time automatic transmission quality monitoring system capable of real-time monitoring of the automatic transmission quality with the cleaning oil in the automatic transmission assembling process line according to the present invention will be described below.

Referring to FIG. 2, step (a) includes providing a real-time automatic transmission quality monitoring system using oil cleanliness measurement (S100)

As shown in FIG. 1, in the oil cleaning process for removing foreign matters remaining in the automatic transmission completed in the automatic transmission assembling process line, the automatic transmission is connected to the automatic transmission and the inlet pipe 110, An oil accommodating chamber 100 for introducing and storing the cleaned oil in the automatic transmission as the first valve 10 is opened and a second oil passage connecting the oil accommodating chamber 100 and the first oil passage 210, A vacuum pump 200 for providing air to the oil accommodating chamber 100 for a predetermined time to remove air (air bubbles) contained in the oil accommodated in the oil accommodating chamber 100, A second valve 20 provided in the second flow path 120 connected to the second flow path 120 to provide an atmospheric pressure to the oil accommodation chamber 100 by selective opening and closing, And the third valve 30 provided in the measurement pipe 310 is opened A particle counter 300 for measuring the foreign particles contained in the oil by introducing the oil from which air (bubbles) have been removed, and an exhaust pipe 130 connected to the oil accommodating chamber 100, A fourth valve 40 for discharging the oil contained in the oil accommodating chamber 100 and a second valve 40 connected to the oil accommodating chamber 100 through a third flow path 140, A regulator 400 for supplying compressed air into the oil accommodating chamber 100 as the valve 50 is opened and a communication cable connected to the first to fifth valves 50 and 50 to control opening and closing of the valves And a control unit (500) connected to the particle counter (300) through a communication cable to determine the quality of the automatic transmission using measured values measured through the particle counter (300). The real - time automatic transmission quality Provides a surveillance system.

Referring to FIG. 2, step (b) is a step (S200) of drawing the oil sample into the oil receiving chamber 100 in the automatic transmission,

If the real-time automatic transmission quality monitoring system using the oil cleanliness measurement is performed in the oil cleaning process in step (a), the first valve 10 is opened and the inlet pipe 110 connected to the automatic transmission is opened The oil sample is received in the oil accommodating chamber 100 and accommodated in the automatic transmission in which the oil is cleaned or cleaned.

At this time, a level switch is provided in the oil accommodating chamber 100 to receive a predetermined amount of oil in the oil accommodating chamber 100.

Referring to FIG. 2, in step (c), air (bubbles) contained in the oil in the oil accommodating chamber 100 and air (bubbles) contained in the oil are taken out to remove air (bubbles)

The first valve 10 is closed and the vacuum pump 200 connected to the oil accommodating chamber 100 is opened when the oil sample is received in the oil accommodating chamber 100 in the automatic transmission by the step (b) So that the atmosphere inside the oil accommodation chamber 100 is maintained in the vacuum state for the designated time.

At this time, the air in the oil accommodation chamber 100 and the air (bubbles) contained in the oil are exhausted to the outside by the vacuum pump 200 by the vacuum atmosphere in the oil accommodation chamber 100, Is removed.

Referring to FIG. 2, step (d) includes opening the second valve 20 to convert the atmosphere of the oil accommodating chamber 100 into an atmospheric pressure state (S400)

When the air (bubbles) contained in the oil is removed for a predetermined time by the step (c) (S300), the driving of the vacuum pump 200 is stopped and the second valve 20 is opened, (100) into an atmospheric pressure state.

At this time, it is preferable that the second valve 20 is gradually opened according to the atmospheric pressure.

Referring to FIG. 2, step (e) includes closing the second valve 20 and opening the third valve 30 to draw the oil contained in the oil accommodation chamber 100 into the particle counter 300, In step S500 of measuring the foreign particles included,

When the atmosphere of the oil accommodation chamber 100 is converted into the atmospheric pressure state by the step (d) (S400), the second valve 20 is closed, and the oil accommodating chamber 100 and the particle counter 300 are closed, The third valve 30 of the measurement pipe 310 connecting the oil accommodating chamber 100 is opened to draw the oil contained in the oil accommodating chamber 100 into the particle counter 300 to measure foreign particles contained in the oil.

At this time, the third valve 30 is opened and closed for a predetermined time for cleaning the measurement pipe 310 to flow the oil into the measurement pipe 310 to clean the measurement pipe 310, The third valve 30 is opened at a designated number of times during the designated measurement time to draw the oil contained in the oil accommodating chamber 100 into the particle counter 300, The particles are measured.

The particle counter 300 generates a measurement value by the number of foreign particles selected by size.

Referring to FIG. 2, step (f) includes the step of determining the quality of the automatic transmission with the measurement value measured through the particle counter 300 (S600)

At this time, based on the measurement value measured in the step (e) (S500), the controller 500 determines the quality of the automatic transmission according to the presence or absence of foreign matter and the size and the number of the foreign object.

Referring to FIG. 2, step (g) includes discharging the residual oil contained in the oil receiving chamber (S700)

When the quality determination of the automatic transmission is completed in step (f) (S600), the third valve 30 is closed, the fourth valve 40 and the fifth valve 50 are sequentially opened, and the regulator 400 into the oil accommodation chamber 100 while discharging the residual oil contained in the oil accommodation chamber 100. [

When the discharge of the residual oil contained in the oil accommodating chamber 100 is completed, the fourth valve 40 and the fifth valve 50 are closed, and the automatic transmission quality monitoring is completed.

FIG. 3 is a flowchart illustrating an automatic transmission quality monitoring method using a real-time automatic transmission quality monitoring system capable of real-time monitoring of the quality of an automatic transmission with cleaning oil in an automatic transmission assembling line according to the present invention. The measurement time is shown in the graph.

turn() 4 탆 6 탆 14 탆 % Relative humidity One * 22 18 23 2 * 21 17 23 3 * 21 16 23 4 * 21 16 23

[Table 1] shows that the particle size class value is stable at 14 mu m as a result of the test of the particle size effective for the oil state inspection.

Therefore, in the present invention, a particle coefficient class value of 14 mu m or more is used for monitoring.

A real-time automatic transmission quality monitoring system that can monitor the quality of an automatic transmission with cleaning oil in real time in an automatic transmission assembling line according to the present invention, and an automatic transmission quality monitoring method using the system, (Air bubbles) are removed to stabilize the measured oil condition and improve the reliability of the particle count measurement results. It is possible to inspect and monitor the automatic transmission in full by the introduction of the particle counter in the inspection process line and the real time measurement technique through this.

Through the experiment, the particle count measurement value of 14 mu m or more is used for distinguishing the difference in the oil state, and the first to fifth valves can be used as the automatic valves to control the measurement process in real time, .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: first valve 20: second valve
30: third valve 40: fourth valve
50: fifth valve 100: oil receiving chamber
110: inlet pipe 120: second flow path
130: discharge pipe 140: third flow path
200: Vacuum pump 210:
300: Particle counter 310: Measurement piping
400: regulator 500: control unit

Claims (9)

1. A real-time automatic transmission quality monitoring system for monitoring an automatic transmission quality in real time by being coupled to an automatic transmission assembly line,
An oil receiving chamber connected to the automatic transmission and the inlet pipe for receiving the cleaned oil in the automatic transmission as the first valve provided in the inlet pipe is opened;
A vacuum pump connected to the oil accommodation chamber through a first flow path and for supplying a vacuum to the oil accommodation chamber for a designated time to remove air (air bubbles) contained in the oil accommodated in the oil accommodation chamber;
A second valve provided in a second flow path connected to the oil accommodation chamber to provide atmospheric pressure to the oil accommodation chamber by selective opening and closing;
A particle counter connected to the oil accommodating chamber through a measuring pipe, for drawing foreign particles removed from the air as the third valve provided in the measuring pipe is opened;
A fourth valve disposed in the discharge pipe connected to the oil accommodation chamber to discharge the oil contained in the oil accommodation chamber by selective opening and closing;
A regulator connected to the oil accommodation chamber by a third flow path and providing compressed air into the oil accommodation chamber as the fifth valve provided in the third flow path is opened; And
A control unit connected to the first valve through the fifth valve through a communication cable to control opening and closing of the valves and to determine a defective cleaning state of the automatic transmission by the measurement value measured through the particle counter, , ≪ / RTI &
The oil drawn into and received in the oil containing chamber from the inlet pipe flows into the automatic transmission during the oil cleaning process for cleaning the interior of the automatic transmission in the automatic transmission assembling process line or during the oil cleaning process, Real time automatic transmission quality monitoring system using cleaning oil measurement.
delete The method according to claim 1,
The regulator includes:
Wherein the fourth valve opens to provide the compressed air when the fourth valve is opened to discharge the oil contained in the oil accommodation chamber.
The method according to claim 1,
Wherein the first to fifth valves are pneumatic automatic valves that are selectively opened and closed by the control unit.
The method according to claim 1,
Wherein the particle counter comprises:
A real-time automatic transmission quality monitoring system using cleaning oil measurement, which simultaneously measures the number and size of foreign particles contained in the oil after air removal.
A real-time automatic transmission quality monitoring method for real-time monitoring of quality of an automatic transmission completed in an automatic transmission assembly line,
(a) opening the first valve provided in the inlet pipe to draw the oil, which has been cleaned inside the automatic transmission, into the oil accommodating chamber and accommodating the oil;
(b) a first valve is closed when a predetermined amount of oil is received in the oil accommodation chamber, and a vacuum pump connected to the oil accommodation chamber and the first flow path maintains the atmosphere inside the oil accommodation chamber in a vacuum for a designated period of time Removing air (bubbles) contained in the oil by withdrawing air (bubbles) contained in the oil and the oil in the oil accommodation chamber to the outside;
(c) opening the second valve provided in the second flow path to convert the atmosphere of the oil accommodation chamber to an atmospheric pressure state when air (air bubbles) contained in the oil is removed for a designated time;
(d) closing the second valve when the atmosphere of the oil accommodation chamber is converted to the atmospheric pressure, opening the third valve provided in the measurement pipe to draw the oil contained in the oil accommodation chamber into the particle counter, Measuring the foreign particles;
(e) determining the quality of the automatic transmission with the measured value measured through the particle counter; And
(f) When the quality of the automatic transmission is judged, the third valve is closed and the fourth valve and the fifth valve provided respectively in the discharge pipe and the third flow passage are sequentially opened, so that the compressed air generated by the regulator And discharging the residual oil contained in the oil receiving chamber while providing it into the chamber,
In the step (a) of loading the oil sample cleaned in the automatic transmission into the oil accommodation chamber and accommodating the oil sample in the automatic transmission, during the oil cleaning process for cleaning the interior of the automatic transmission in oil in the automatic transmission assembly line, A method for real-time automatic transmission quality monitoring using cleaning oil measurement, wherein a sample of oil cleaned inside the automatic transmission is received and accommodated in the oil accommodation chamber after completion of the process.
delete The method according to claim 6,
In the step (f) of discharging the residual oil contained in the oil accommodation chamber,
Wherein said fifth valve is opened to provide said compressed air generated by said regulator to said oil accommodation chamber when said fourth valve is opened to discharge oil contained in said oil accommodation chamber, Real time automatic transmission quality monitoring method.

The method according to claim 6,
In the step (d) of measuring the foreign particle contained in the oil,
A real-time automatic transmission quality monitoring method using a cleaning oil measurement that simultaneously measures the number and size of foreign particles contained in the oil after air (bubble) removal by a particle counter.

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