KR100970737B1 - Tool for testing air leakage - Google Patents

Abstract

The present invention relates to a gas leakage inspection tool, and according to an aspect of the present invention, in a gas leakage inspection tool used for inspecting whether gas is leaked from an intake or exhaust gas line of a vehicle engine part, a thick plate-shaped holding part and A body having a first through hole extending downward from the bottom of the grip part and having a circular cross-sectional shape, and a first through hole integrally penetrating the grip part and the coupling part in a vertical direction; And a coupler which is hermetically coupled to the through hole at the upper side of the gripping portion.

Intake, Exhaust, Gas Leakage Inspection

Description

Tool for testing air leakage

The present invention relates to a gas leakage inspection tool, and more particularly to a gas leakage inspection tool for checking the leakage of gas in the gas line associated with the engine unit of the vehicle and the defect of the gas line.

A turbocharger has a structure in which a turbine is rotated at high speed using energy (temperature and pressure) of exhaust gas discharged from an exhaust pipe, and a compressor is driven by the rotational force to send compressed air into the engine. A turbocharger can inhale and explode a mixer that exceeds the intake of the internal combustion engine, and gains an output that exceeds the displacement of the internal combustion engine.

In a naturally-aspirated engine, when the piston descends from the top dead center to the bottom dead center (suction stroke), the pressure is lowered below atmospheric pressure (vacuum state) due to the volume change inside the cylinder, and the mixture of air and fuel is naturally sucked into the cylinder. Since the amount of air and fuel mixture to be sucked increases the force to push the piston in the explosion stroke, the amount of air supplied to the combustion chamber and thus the amount of fuel is an important factor in determining the engine limit. The turbocharger has a structure in which a turbine and a gas compressor are connected to one shaft in a vessel, and the exhaust gas flowing from the exhaust manifold is sent to the turbine inlet to rotate the blades of the turbine. This rotational force operates the gas compressor, and the gas compressor compresses air and delivers it to the engine air intake. Compressed air is mixed with more fuel and delivered to the engine cylinders to increase engine efficiency.

The lower the temperature of the air, the denser the more air molecules of the same volume can be obtained. In the case of the turbocharger, since the exhaust air is heated at a high temperature, the density of the intake air is low. Thus, the intercooler is installed to lower the temperature and increase the density of the intake air, thereby securing more oxygen molecules. As such, the intake line is composed of a turbocharger, an intercooler, a series of connecting hoses, and the like.

As described above, if there is a defect or damage in the gas line that allows gas to be introduced into the engine from the outside, compressed air from the turbocharger may not be properly supplied to the engine and the efficiency may be reduced. Therefore, it is necessary to check whether the leakage of gas, etc. There is a limit in finding the defect by observing the appearance, there is a difficulty because there is no suitable device or tool used for gas leakage.

The present invention has been made to solve the problems described above, an embodiment of the present invention is to close the connection of the target to be checked on the gas line connected to the engine unit by measuring the pressure inside the gas easily It involves checking for leaks.

One preferred embodiment of the present invention is a gas leakage inspection tool used for inspecting gas leakage in gas intake or exhaust gas lines of a vehicle engine part, wherein a thick plate-shaped gripping portion extends downward from a lower side of the gripping portion. A body having a coupling part having a circular cross-sectional shape formed in a cross section, and a first through hole integrally penetrating through the holding part and the coupling part in a vertical direction; And a coupler that is hermetically coupled to the through hole at an upper side of the gripping portion.

According to an embodiment of the present invention as described above, first, by using a gas leakage inspection tool composed of a body coupled to the inspection object and a coupler coupled to the pressure gauge or compressor, it is easy to check whether the inspection object is damaged. can do.

Second, it is possible to expand the scope of use by allowing adapters of various sizes to fit the opening size of the object to be inspected.

Third, the adapter and the body to be screwed to facilitate the coupling, separation between the two.

1 (a) and 1 (b) is a perspective view showing a gas leakage inspection tool according to an embodiment of the present invention.

In the gas leakage inspection tool 1 according to the preferred embodiment of the present invention, the gas leakage inspection tool 1 is used for inspecting whether the gas leaks in the intake or exhaust gas line of the vehicle engine part. 110, the coupling part 120 extending downward from the bottom of the gripping part 110 and having a circular cross-sectional shape, the gripping part 110 and the coupling part 120 are integrally formed in the vertical direction. A body 100 having a first through hole 130 therethrough; And a coupler 200 which is hermetically coupled to the through hole at the grip part 110.

The body 100 is hermetically coupled to the opening of the inspection object 500, as shown in Figure 4 (b). As shown in FIG. 4 (a), the inspection object 500 may be a turbocharger, an intercooler, a connection hose, and the like on a gas line connected to the engine unit. Since the general inspection object 500 has an inlet and an exhaust port, the gas leakage inspection tool 1 according to the present invention may be used in pairs. When the engine efficiency is lowered because the air is not supplied to the vehicle engine smoothly, it can be seen that there is an error in the turbocharger or the series of intake lines which are the supercharger. The leakage of air charged by the turbocharger due to damage of a specific part on the gas line may be a factor, and the gas leakage inspection tool 1 of the present invention is for easily inspecting it.

The leak test tool of the present invention is coupled to the coupling part 120 to the inlet and exhaust ports of the inspection object 500. The coupling part 120 is inserted into and coupled to the inlet and exhaust ports of the inspection object 500 and is tightly coupled so that there is no gas leakage at the coupling part. Since the opening shape of the inspection object 500 is a circular shape, the cross-sectional shape of the coupling part 120 may be circular so that it may be more easily sealed. In addition, the coupling portion 120 is formed so that the diameter of the lower end is slightly larger than about 1 ~ 5mm compared to other parts to form a jaw. The jaw is such that the coupling with the inspection object 500 is not hindered by elastic deformation, and effectively prevents unintentional separation of the coupling portion 120 and the inspection object 500.

The gripper 110 is a part for the examiner to grip the present invention when coupled to the inspection object 500 and is located between the coupling portion 120 and the coupler 200. Although the gripping portion 110 is illustrated in a circular shape in the drawing, the shape of the edge may be formed in a polygon in consideration of ease of gripping when separating and combining.

The coupler 200 is installed when using an air tool and can be used conveniently when disconnecting and connecting a hose and a tool, and refers to a conventional coupler 200 that is also used when the hose and the hose are connected to each other, and the coupler 200 is generally used. The coupler socket and coupler plug are used to separate and couple in pairs. An automatic opening / closing valve is built in the coupler 200, and the valve is locked when the coupler 200 is separated, and the valve is opened when the coupler is coupled to communicate gas between the coupler socket and the coupler plug.

The coupler 200 constituting the present invention may be any one of a socket and a plug, but in the present invention, the coupler 200 is configured for convenience of description. The coupler 200 (coupler plug) is coupled to each of the compressor 600 and the pressure gauge 700 including a coupler socket 200 coupled thereto. In the state in which the compressor 600 is adjusted to generate a specific pressure from the compressor 600 coupled to one opening of the inspection object 500 and the pressure gauge 700 is coupled to the other side, the pressure appearing in the pressure gauge 700. If the pressure is lower than the pressure generated by the compressor 600, it can be easily seen that the inspection object 500 is damaged, that is, there is gas leakage. In this case, by narrowing the range of the inspection object 500 in question, it is possible to quickly find the gas leakage site by measuring the internal pressure in the same manner as described above.

2 (a) and 2 (b) is a perspective view showing a gas leakage inspection tool according to another embodiment of the present invention.

Gas leakage inspection tool 1 according to a preferred embodiment of the present invention is detachably coupled to the body 100 from the lower side of the coupling portion 120, formed on the extension line of the first through-hole 130 in the inside The second through hole 310 is provided, and further includes an adapter 300 having a circular cross-sectional shape.

The adapter 300 is an extended portion of the coupling part 120 and is coupled to the lower side of the coupling part 120. The adapter 300 is provided with a second through hole 310 penetrating the adapter 300 similarly to the body 100, and the second through hole 310 is formed of the first through hole 130. Is formed on the extension line is made so as not to interfere with the pressure measurement inside the inspection object (500).

The diameter of the cross section of the adapter 300 and the diameter of the cross section of the coupling part 120 are different from each other in length, and the body 100 and the adapter 300 are screwed together. Is formed.

The diameter of the cross section of the adapter 300 may be formed larger or smaller than the diameter of the cross section of the coupling portion (120). The size of the inlet / outlet of the inspection object 500 may be variously formed according to the type of the vehicle. If the coupling part 120 does not fit, the adapter 300 suitable for the size of the body 100 may be installed. It can be coupled to the wider range of utilization of the gas leakage inspection tool (1) of the present invention.

The body 100 and the adapter 300 may be formed to be screwed to each other, thereby easy separation and coupling between the two and prevent the leakage of gas into the gap between the coupling portion 120. As shown in FIG. 2, the male screw is formed at the center of the upper side of the adapter 300 and the female screw is formed at the center of the lower side of the coupling part 120.

The adapter 300 may also have a female screw formed at the lower center, and in this case, a series of adapters 300 having various sizes may be combined and stored, and the risk of loss may be reduced.

3 (a) and 3 (b) is a perspective view showing a gas leakage inspection tool according to another embodiment of the present invention.

Gas leakage inspection tool 1 according to a preferred embodiment of the present invention is formed with at least one coupling bone (120a) formed in the circumferential direction in the outer peripheral surface of each of the coupling portion 120 and the adapter 300 . In addition, the unevenness 110a may be formed along the outer circumferential surface of the gripper 110.

The coupling bone 120a is formed along the circumferential direction of the coupling portion 120 and the adapter 300 and is formed at least one. The coupling bone (120a) is easier to combine by reducing the continuous contact surface when the coupling with the test object 500, to be formed in a plurality of narrow width to the significant leakage of gas on the coupling portion 120 and frictional force Reduction can be prevented.

As described above, the gripping part 110 may prevent slipping by forming the unevenness 110a as a part of the inspector gripping when the gas leakage inspecting tool 1 of the present invention is separated and combined.

1 (a) and 1 (b) is a perspective view showing a gas leakage inspection tool according to an embodiment of the present invention,

2 (a) and 2 (b) is a perspective view showing a gas leakage inspection tool according to another embodiment of the present invention,

3 (a) and 3 (b) is a perspective view showing a gas leakage inspection tool according to another embodiment of the present invention,

4 (a) and 4 (b) is a state diagram showing the use of the engine gas line and gas leakage inspection tool according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: gas leakage inspection tool 100: body

110: grip portion 110a: irregularities

120: coupling portion 120a: coupling bone

130: first through hole 200: coupler

300: adapter 300a: coupling bone

310: second through hole 500: inspection object

600: compressor 700: pressure gauge

Claims (8)

delete In the gas leakage inspection tool used to inspect the leakage of gas in the gas line intake or exhaust of the vehicle engine, A body having a thick plate-shaped gripping portion, a coupling portion extending downward from a bottom of the gripping portion and having a circular cross-sectional shape, and a first through hole integrally passing through the gripping portion and the coupling portion vertically; A coupler that is hermetically coupled to the through hole at an upper side of the grip portion; And A second through hole formed on the extension line of the first through hole and detachably coupled to the body at the lower side of the coupling part, and further comprising an adapter having a circular cross-sectional shape in a cross section; Leak test tool. The method of claim 2, Gas leakage inspection tool, characterized in that the diameter of the cross-section of the adapter and the cross-section of the coupling portion different in length. The method of claim 2, The gas leakage inspection tool, characterized in that the body and the adapter are screwed together. The method of claim 2, Gas leakage inspection tool, characterized in that formed at least one engaging bone formed in the circumferential direction from the outer peripheral surface of the coupling portion. The method according to any one of claims 2 to 4, Gas leakage inspection tool, characterized in that formed at least one coupling bone formed in the circumferential direction in the outer peripheral surface of each of the coupling portion and the adapter. The method according to any one of claims 2 to 5, Gas leakage inspection tool, characterized in that irregularities are formed along the outer peripheral surface of the gripping portion. The method of claim 6, Gas leakage inspection tool, characterized in that irregularities are formed along the outer peripheral surface of the gripping portion.

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