KR100931128B1 - Leak Measurement Apparatus and Method of Cylinder Block Oil Line - Google Patents

Abstract

The present invention relates to a leak measuring apparatus and method of a cylinder block oil line, and more particularly, by calculating the leak correction amount from the temperature detected by the temperature sensor inside the cylinder block oil line reflected in the leak determination criteria, according to the seasonal test The present invention relates to a leak measuring apparatus and method of a cylinder block oil line that can flexibly respond to changes in temperature of an environment, calculate a leak correction amount, and reflect the leak determination criteria to automatically adjust a final reference value.

To this end, the present invention by installing a temperature sensor in the cylinder block oil line to detect the temperature inside the oil line, calculates the leak correction amount using the detected temperature and then reflects the amount of the leak correction amount when determining defective products for leak detection An apparatus and method for measuring a leak of a line is provided.

Leak, Cylinder Block, Temperature Sensor, Control Unit, Oil Line, Correction Amount

Description

Leak test apparatus and method of cylinder block oil line

The present invention relates to a leak measuring apparatus and method of a cylinder block oil line, and more particularly, by calculating the leak correction amount from the temperature detected by the temperature sensor inside the cylinder block oil line reflected in the leak determination criteria, according to the seasonal test The present invention relates to a leak measuring apparatus and method of a cylinder block oil line that can flexibly respond to changes in temperature of an environment, calculate a leak correction amount, and reflect the leak determination criteria to automatically adjust a final reference value.

In general, leak refers to leakage of fluids (water, oil, air, gas, etc.) from castings, pinholes, welds, joints, and cracks. At this time, a product that requires functional airtightness has a required level of performance. As a method of confirming whether or not there is a leak, a leak test for measuring whether or not a leak is performed is performed.

In such a leak test apparatus, there is a problem in that a pressure change occurs when the temperature of the air inside the test workpiece changes during the leak detection, thereby causing a large factor in the error of the leak detection.

At this time, the change in the temperature of the air inside the workpiece is mainly caused by a change in heat insulation due to pressure and a temperature gradient due to heat conduction.

Therefore, even when the temperature of the air and the master atmosphere is all constant at the time of initial injection, as shown in FIG. 1, the average temperature of the workpiece and the air inside the workpiece is changed.

In particular, as shown in Figure 2, when looking at the leakage amount according to the temperature of the cylinder block oil line, it can be seen that the leakage amount increases as the temperature inside the test work (cylinder block) increases.

As a result, the test work to be determined to be in good condition is judged to be a defective product for leak leakage, thereby deteriorating the reliability of the leak test.

In addition, the test time is increased to correct the difference in the leak detection amount caused by the temperature change, and thus the accuracy of the test is lowered, and the cycle time of the mass production line is increased, thereby degrading the productivity of the workpiece under test.

For reference, FIG. 1 is a graph showing a change in average temperature of the air inside the workpiece, and FIG. 2 is a graph showing the leak detection amount according to the cylinder block internal temperature.

The present invention has been made in view of the above point, by installing a temperature sensor in the cylinder block oil line to detect the temperature inside the oil line, calculate the leak correction amount using the detected temperature and then defective product for leak detection By reflecting the leakage correction amount when judging, the cylinder block oil can adjust the final reference value automatically by programing the process of flexibly responding to the temperature change of the test environment according to the season, calculating the leakage correction amount and reflecting it in the leak determination criteria. It is an object of the present invention to provide an apparatus and method for measuring leakage of lines.

The present invention for achieving the above object

Oil supply means for injecting oil for leak measurement of the cylinder block oil line; A sealing pad sealing a space in which the cylinder block is exposed to the outside; A master walk through which air is injected together with the cylinder block; In the leak measuring device of the cylinder block oil line comprising:

A temperature sensor installed at one side of the oil line to sense a temperature inside the oil line;

A control unit connected to the temperature sensor and correcting the leak detection amount according to the temperature detected by the temperature sensor;

Characterized in that further comprises.

In addition, the temperature sensor is penetrated through the sealing pad, one side is located inside the oil line, the other side is characterized in that the protruding to the outside of the sealing pad is connected to the control unit.

In one preferred embodiment,

(a) masking an external exposure port of the cylinder block loaded at the measurement position with a cylinder pad and then injecting air into the oil line and the master work of the cylinder block using an air supply means;

(b) a temperature sensor detecting a temperature inside the oil line and transferring the temperature to the controller, wherein the controller calculates a leak correction amount according to the transferred temperature;

(c) comparing the leak detection amount of the cylinder block oil line with the reference value obtained by adding the leak correction amount to the already set determination reference value to determine whether the cylinder block is leaky or not;

Characterized in that comprises a.

In addition, the leakage correction amount in the step (b) is characterized in that it is calculated by a constant equation.

As described above, the leak measuring apparatus and method of the cylinder block oil line according to the present invention provide the following effects.

First, the temperature sensor is installed inside the oil line of the cylinder block, and the leak correction amount is calculated from the temperature detected by the temperature sensor and reflected in the leak determination criteria, thereby flexibly responding to the temperature change of the test environment according to the season.

Program the process of calculating the leak correction amount and reflecting it on the leak judgment standard and automatically adjusting the final reference value.

This reduces the error that the good cylinder block against the leak is judged to be defective and does not need to increase the detection time, thereby preventing the cycle time from increasing.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. A singular expression includes a plural expression unless the context clearly indicates otherwise. In this application, the terms “comprises” or “having” are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and one or more other It is to be understood that the present invention does not exclude the possibility of the presence or the addition of features, numbers, steps, operations, components, parts, or a combination thereof.

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

3 is a view illustrating a leak measuring device of a cylinder block oil line according to the present invention.

According to the present invention, a temperature sensor is installed in a cylinder block oil line to detect a temperature inside the oil line, calculate a leak correction amount using the detected temperature, and reflect the leak correction amount when determining a defective product for leak detection. Provided are a leak measuring apparatus and method for a cylinder block oil line to increase reliability.

As shown in Figure 3, looking at the configuration of the leak measuring device of the cylinder block oil line according to the present invention, the temperature sensor 130 on one side of the oil line 110 of the cylinder block 100 loaded on the conventional leak measuring device ), And the temperature sensor 130 is connected to the control unit 30.

In addition, the cylinder block 100 loaded for the leak measurement is sealed by the sealing pad 120 except for the exposure port through which the oil line 110 communicates, and the sealing pad 120 is not exposed. The sphere is connected to the air supply means 10, the cylinder block 100 is supplied with air to the oil line 110 when the cylinder pad 100 is completely sealed by the sealing pad 120.

In addition, the air supply means 10 is connected to the master work 20 and injects air in the same manner as the air injected into the cylinder block 100, so that the leak detection amount of the master work 20 measured at this time is a cylinder block ( 100) It is a standard for determining the leakage amount.

Here, the temperature sensor 130 is formed through the sealing pad 120 for sealing the exposure port of the oil line 110, as shown in the enlarged view of Figure 3, specifically, of the temperature sensor 130 One side (the sensor unit for sensing the temperature) is located inside the oil line 110 to detect the temperature inside the oil line 110, the other side (outside of the cylinder block 100) of the sealing pad 120 It is formed to protrude outside.

In addition, the temperature sensor 130 is connected to the other side is connected to the control unit 30 transmits the detected internal temperature of the oil line 110 to the control unit 30, the control unit 30 is the interior of the received oil line 110 By calculating the leak correction amount from the temperature and reflecting it in the predetermined criterion, the leak detection amount is compared with the final reference value in which the leak correction amount is reflected.

On the other hand, it is determined whether the leak detection is appropriate using the internal temperature of the oil line 110 sensed by the temperature sensor 130, with reference to the accompanying drawings to look at the leak measuring method of the cylinder block oil line. do.

4 is a flowchart illustrating a method of measuring a leak in a cylinder block oil line according to the present invention.

As shown in FIG. 4, in the conventional leak test method, when the cylinder block 100 is loaded to the test position, the exposed port formed at the end of the oil line 110 is sealed with the sealing pad 120, and the air supply means is provided. By injecting air into the cylinder block 100 and the master work 20 using 10, the oil line 110 and the master work 20 of the cylinder block 100 are in equilibrium.

Thereafter, as a step differentiating from the conventional leak test method, the air leakage correction amount is calculated and reflected in the reference value through the temperature sensed by the temperature sensor 130 inside the oil line 110.

Hereinafter, a process of calculating the air leak correction amount will be described with reference to Equations 1 to 3 below.

ΔP = Δt (1.03 + P) × 10 μs / (273 + t)

V _E = V _W + V _T + K (1.03 + P)

Q _L = V _E * (△ P / 1.03 * 10 ⁴ ) * (60 / T ₃ )

For reference, Δt: temperature difference during the detection time, t: internal temperature of the oil line 110 after the detection time elapses, V _E : equivalent content, V _W : content of the cylinder block 100 (including piping), V _T : Test content, K: Intrinsic coefficient of the test work (cylinder block 100 is 2cc / Kg / Cm ² ), P: Pressure inside oil line 110 after the detection time has elapsed, Q _L : Air leak correction amount ( cc / min), ΔP: pressure difference in the oil line 110 during the detection time, T ₃ : detection time.

Here, ΔP is calculated by applying the test pressure P, the temperature difference Δt during the detection time, and the internal temperature of the oil line 110 as the pressure difference in the oil line 110 to Equation 1. _E is calculated by applying the cylinder block 100 content (V _W ), test content (V _T ), DPS intrinsic coefficient (K), and test pressure (P) to Equation 2 as equivalent contents.

At this time, the cylinder block content is the sum of the volume of the oil line and the volume of the pipe communicating with the oil line and the control unit, the test content is the volume value of the pipe inside the control unit, the equivalent content is such cylinder block content, test It is the value determined considering the internal pressure of the oil line.

The final air leakage correction amount Q _L is calculated by applying ΔP, V _E and the detection time T ₃ calculated through Equations 1 and 2 to Equation 3.

Explaining the process of calculating the air leakage correction through a specific example, when applied to the equation (1) when the value measured through the test P = 1kg / ㎠, t = 20 ℃, when △ t rises by 1 ℃ △ P is about It will rise by 7 kgf / cm 2.

In addition, when the equivalent content is 1,000 cm ₃ and T ₃ is 5 seconds, the air leak correction amount is calculated to be about 8.155 cc / min through Equation 3.

Therefore, when the detection time is constant, it can be seen that the air leak correction amount is proportional to the pressure difference inside the oil line 110 during the detection time.

Next, the air leakage correction amount (about 8.155 cc / min) calculated in the above process is added to a predetermined determination criterion (180 cc / min based on 20 ° C) to calculate a final reference value, and then the cylinder block 100 oil line ( By comparing the air leak detection amount of 110 with the final reference value, it is determined whether the cylinder block 100 is defective with respect to the air leak.

As a result, by adding the air leakage correction amount to the predetermined determination standard and increasing the final reference value, the range in which the cylinder block 100 in which the air leak detection amount increases as the temperature rises is determined to be good for the leak is increased.

In addition, by programming the process of calculating the air leakage correction amount from the internal temperature of the oil line 110 to reflect the determination criteria, the final reference value can be automatically adjusted according to the temperature of the test environment.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be carried out without departing from the spirit.

1 is a graph of the average temperature change of the air inside the workpiece,

2 is a graph showing a leak detection amount according to an internal temperature of a cylinder block;

3 is a view illustrating a leak measuring device of a cylinder block oil line according to the present invention;

Figure 4 is a flow chart of a leak measuring method of the cylinder block oil line according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: cylinder block 110: oil line

120: sealing pad 130: temperature sensor

Claims (4)

Cylinder block including air supply means for injecting air for the leakage measurement of the cylinder block oil line, a sealing pad for sealing the exposure opening of the cylinder block oil line, and a master work in which air is injected together with the cylinder block In the leak measuring device of the oil line, A temperature sensor installed at one side of the oil line to sense a temperature inside the oil line; A control unit connected to the temperature sensor and correcting an air leak detection amount according to a temperature detected by the temperature sensor; Leak measurement apparatus of the cylinder block oil line, characterized in that further comprises. The leak of the cylinder block oil line of claim 1, wherein the temperature sensor penetrates the sealing pad, one side of which is located inside the oil line, and the other side of which protrudes outside of the sealing pad and is connected to the controller. Measuring device. (a) sealing the external exposure opening of the cylinder block loaded at the measurement position with a cylinder pad and then injecting air into the oil line and the master work of the cylinder block using air supply means; (b) a temperature sensor detecting a temperature inside the oil line and transferring the temperature to the controller, wherein the controller calculates an air leak correction amount according to the transferred temperature; (c) comparing the air leakage detection amount of the cylinder block oil line with the reference value obtained by adding the air leakage correction amount to the already determined determination reference value to determine whether the air leak is poor in the cylinder block; Leak measurement method of the cylinder block oil line, characterized in that comprising a. The method of claim 3, wherein the air leak correction amount in the step (b) is calculated by the following equation. ΔP = Δt (1.03 + P) × 10 μs / (273 + t) V _E = V _W + V _T + K (1.03 + P) Q _L = V _E * (△ P / 1.03 * 10 ⁴ ) * (60 / T ₃ ) Δt: Temperature difference during detection time, t: Internal temperature of oil line after detection time elapses, V _E : Equivalent content, V _W : Cylinder block content (including piping), V _T : Test content, K: Test Intrinsic coefficient of workpiece, P: Pressure inside the oil line after the detection time elapses, Q _L : Air leak correction amount (cc / min), ΔP: Pressure difference inside the oil line during the detection time, T ₃ : Detection time

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