KR101525415B1 - leak testing apparatus - Google Patents

Abstract

The present invention relates to a leak testing apparatus which comprises: a base support (10) supporting a workpiece (200); a workpiece support (20) supporting an end of the workpiece (200); a sealing pad (30) covering and sealing an inlet (201) of the workpiece (200); a sealing plate (40) attached to an air sealing clamp (50); the air sealing clamp (50) driven for the sealing pad (30) to cover and seal the inlet (201) of the workpiece (200); a pneumatic supply unit (60) measuring and displaying supply pressure; a nozzle unit (70) sealing an outlet (202) of the workpiece (200) while being inserted; a nozzle clamp (80) sealing the outlet (202) of the workpiece (200); and an output pressure measurement unit (90) measuring and displaying air pressure which is discharged. According to the present invention, a structure of a sealing pad of a leak testing apparatus is changed and an air sealing clamp is applied, thereby enabling pressure not to be discharged during a leak test to perform an accurate leak test.

Description

Leak testing apparatus

The present invention relates to a leak tester, and more particularly, to a leakage tester, in which a pressure applied to an inlet end portion of a measured object and a pneumatic pressure P1 applied to a protruding vane of a sealing pad face each other By applying a sealing pad that acts as a pushing pressure, even if a strong pressure is generated in a small leak test device, it is possible to perform accurate test by preventing the pressure from leaking. By reducing the volume of the leak test device, To a leak tester capable of minimizing the leak tester.

The existing leak test method is a method of confirming leakage by applying pressure to the inside of the object to be measured, and the sealing method of the object to be measured is the rubber plate close sealing method. Such a rubber plate close sealing method adopts a method of inspecting a leak test by pushing a sealing plate having a rubber plate attached to a measured object with a pressure equal to or higher than a pressure generated in the measured object.

In order to do this, it is necessary to have a mechanism that can withstand the force not less than the pressure of the object to be measured, so that the pressure does not leak out during the leak test, and the mechanism must have a structure capable of withstanding the force applied to the device.

Therefore, the construction cost and the apparatus cost of the leak test apparatus are increased and the volume and the installation area of the leak test apparatus are increased.

A representative example of such a leak test apparatus is disclosed in Korean Utility Model Registration No. 20-0401828, in which a predetermined leak condition can be inspected by measuring the change in air pressure using a sensor while a predetermined air pressure is applied while the product is pressed and fixed An "air leak test apparatus" has been proposed as shown in Fig.

1 is a front view of an air leak test apparatus according to a conventional technique.

An inner plate 6 having a plurality of piercing pins 6a provided on the base frame 5 so as to face the product A according to the prior art and having a packing member 6b coupled to the upper surface thereof, A sealing means 9 for sealing the opening formed in the product A, a clamping means 8 for pressing and fixing the product, marking means 9a for inspecting the surface of the product A, An air supply pipe 6c piped to the air hole 5b formed in the seat 6 so as to inject compressed air into the inside of the seat 6, a water tank 5a provided so as to be able to receive the base frame 5, The watertight test apparatus 1 includes a control section 1a for controlling each component member so as to supply compressed air to the inside of the product A through an air supply pipe A pressure sensor 6e for sensing the air pressure in the air hole 5b and a pressure sensor 6e for detecting the pressure of the air in the air hole 5b, The display portion 1b and the notch means 1c which are electrically connected to the body 6d can be additionally provided so that the air leakage state of the product A can be precisely inspected.

Reference numeral 2 denotes a support, 3 denotes a support frame, 4 denotes a support, 7a denotes a cylinder, 9 denotes a steel plate, 9b denotes a marking tip, and 9c denotes a pressing means.

This air leak test apparatus according to the prior art also causes an increase in the structural cost and the apparatus cost of the apparatus and the increase in the volume and the installation area of the air leak test apparatus by pressing the product A by the pressurizing means 9c.

Korean Registered Utility Model No. 20-0401828 (registered on November 22, 2005) Korean Registered Patent No. 10-0470264 (registered on Jan. 27, 2005)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a leak test apparatus and a leak test method, in which leakage test is carried out by applying a leak- Which minimizes the volume of the apparatus, minimizes the installation area, and provides a leak tester capable of reducing the manufacturing cost of the leak test apparatus.

It is a further object of the present invention to provide a sealing pad which is formed with a protruding vane and acts on a protruding vane by a force generated by a pneumatic pressure P1 so that a pressure applied to the inlet end of the object to be measured and a pressure And the leak tester is capable of performing an accurate leak test by improving the airtightness by sealing the inlet end of the object to be measured.

According to an aspect of the present invention, there is provided a leak tester comprising: a base support for supporting a measured object; A measurement object support installed on the base support and supporting one end of the object to be measured; A sealing pad covering and sealing the inlet of the object to be measured; A sealing plate supporting the sealing pad and attached to the air sealing clamp; An air sealing clamp for moving the sealing plate forward or backward so as to cover the inlet port of the object to be measured, A pneumatic supply unit for supplying the air pressure to the object to be measured and measuring and indicating the supply pressure; A nozzle unit which is inserted while sealing an outlet of the object to be measured; A nozzle clamp for raising and lowering the nozzle unit to seal an outlet of the object to be measured; And an output pressure measuring unit connected to the nozzle unit and measuring and outputting the air pressure flowing out of the nozzle unit.

The sealing pad according to an embodiment of the present invention is formed of a synthetic resin material and is in the form of a circular plate having circular grooves formed therein in two stages. The lower circular groove is formed to have a larger diameter while being inserted therein, And protruding blades are formed between the circular grooves.

The air sealing clamp according to an embodiment of the present invention includes an actuator; A hinge link connected to the piston rod of the actuator and hinged to the clamp support by a hinge shaft; A clamp lever connected to the hinge link to move the sealing plate forward or backward to thereby cause the sealing pad to cover the inlet port of the object to be measured; A lever support for slidably supporting the clamp lever on the lever support; And a clamp supporter installed on the base supporter for supporting the actuator and the lever supporter.

An inlet port of the object to be measured is inserted into the upper circular groove when the sealing pad covers and closes the inlet port of the object to be measured according to an embodiment of the present invention and the end of the inlet port is closely attached to the protruding vane .

The actuator of the air-sealing clamp according to the embodiment of the present invention acts on the inlet-end of the measured object with the pressure -F1 and the air pressure P1 applied to the protruding vane of the sealing pad, And the protruding vanes of the end portion and the sealing pad are closely contacted with each other by the two forces.

The nozzle clamp according to an embodiment of the present invention includes a nozzle clamp support mounted on the base support; A hinge link connected to the nozzle clamp support by a link hinge axis; A nozzle clamp lever connected to the hinge link for raising or lowering the nozzle unit; And a knob for driving the hinge link by raising or lowering the hinge link so that the nozzle portion is inserted into the outlet of the object to be measured,

The hinge link according to an embodiment of the present invention is formed in a rectangular shape, and the piston rod and the clamp lever of the actuator are connected to the diagonally opposite corners of the hinge axis about the hinge axis of the hinge link, (Rotation radius) between the clamp lever and the hinge shaft is longer than the connection length (rotation radius) between the clamp lever and the hinge shaft. Therefore, when the piston rod of the actuator is advanced, the rotation moment Is larger than the moment.

Since the hinge link of the nozzle clamp according to the embodiment of the present invention is formed in a rectangular shape and the handle and the nozzle clamp lever are connected to opposite edges of the same side about the hinge axis of the hinge link, The hinge axis of the nozzle clamp lever and the hinge link are positioned on a vertical line, but the hinge axis of the handle and the hinge link is further tilted in a counterclockwise direction at an angle larger than 0 DEG, so that the nozzle clamp lever and the nozzle And does not fall due to the weight of the part.

The leakage tester according to the present invention as described above is configured such that the force by the pneumatic pressure P1 is applied to the protruding vane of the sealing pad to add a force for sealing the inlet end portion of the object to be measured thereby pushing the sealing pad with the air sealing clamp, It is possible to improve the airtightness by sealing the inlet end portion of the object to be measured with a force that is double the pneumatic pressure P1 compared with the case of sealing with only the pressure F1 to be applied to the pressure chamber.

1 is a front view of an air leak test apparatus according to a conventional technique,
FIG. 2A is a front view showing a state in which a measured object is placed on a leak tester according to the present invention,
FIG. 2B is a front view showing a state in which a measured object is separated from the leak tester according to the present invention, FIG.
FIGS. 3A and 3B are left side views each showing a state in which a nozzle clamp is lowered and raised by a leak tester according to an embodiment of the present invention,
4A to 4C are a plan view, a side view, and a cross-sectional view taken along a vertical line passing through the center of the sealing pad according to the present invention,
5 is a longitudinal sectional view of a measured object, a sealing pad and a sealing plate placed on a seating support of a leak tester according to the present invention,
FIG. 6 is a partial cross-sectional view showing a state in which an object to be measured is placed on a seating support of a leak tester according to the present invention and the sealing pad and the sealing plate are advanced to seal them,
FIG. 7 is an enlarged view of "A" in FIG. 6 showing a state in which the object to be measured is seated on the leak tester according to the present invention and airtightness is applied to the protruding vane with the sealing pad sealed.

Hereinafter, a leak tester according to the present invention will be described in detail with reference to embodiments shown in the drawings.

FIG. 2A is a perspective view showing a state in which a leak measuring object according to the present invention is seated, FIG. 2B is a front view showing a state in which a leak detecting object according to the present invention is separated, 3b show a left side view showing a state in which the nozzle clamp of the leak tester according to the present invention is lowered and raised so as to insert and separate the nozzle portion into and out of the outlet of the measured object.

The leak tester 100 according to the present invention includes a base support 10 supported on a work table 300 and the like and supporting a measured object 200 such as an automobile shock absorber case from below; A measurement object support 20 installed on the base support 10 and supporting one end of the measurement object 200; A sealing pad 30 covering and sealing the inlet 201 of the object to be measured 200; A sealing plate (40) supporting the sealing pad (30) and attached to the air sealing clamp (50); An air sealing clamp 50 for advancing or retracting the sealing plate 40 to move the inlet 201 of the object 200 to be covered with the sealing pad 30 so as to be bumped; A pneumatic supply unit 60 for supplying air pressure to the inlet 201 of the object to be measured 200 through the sealing plate 40 and the sealing pad 30 and for measuring and displaying the supply pressure; A nozzle unit 70 which is inserted while sealing the outlet 202 of the object to be measured 200; A nozzle clamp 80 for raising and lowering the nozzle unit 70 to seal the outlet 202 of the measured object 200; And an output pressure measuring unit 90 connected to the nozzle unit 70 to measure and display the air pressure flowing out of the nozzle unit 70.

The base support 10 according to the present invention is fixedly supported on a work table 300 and supported by a nozzle 200 and a nozzle clamp 80 such as a shock absorber case and an air sealing clamp 50 ).

The measuring object support 20 according to the present invention is installed on the base support 10 and is provided on the opposite side of the air sealing clamp 50 to support the measured object (Not shown).

4A to 4C are a plan view, a side view, and a cross-sectional view taken along a vertical line passing through the center of the sealing pad according to the present invention.

The sealing pad 30 according to the present invention is made of a synthetic resin such as urethane and has a circular plate shape having two circular grooves formed therein. The lower circular grooves 35 are formed to have a larger diameter, A protruding blade 32 having a conical cross section is formed between the upper circular groove 34 and the lower circular groove 35.

An inlet 201 of the object to be measured 200 is inserted into the upper circular groove 34 when the inlet 201 of the object to be measured 200 is closed and the end of the inlet 201 is connected to a protruding blade (32).

A pneumatic supply hole 31 connected to the pneumatic supply pipe 61 is formed to supply the air pressure supplied from the pneumatic supply unit 60 to the inlet 201 of the measured object 200, ) To the sealing plate 40 by means of bolts, screws or the like.

The sealing plate 40 according to the present invention supports the sealing pad 30 and is attached to the air sealing clamp 50 to apply a pressing force F1 to the sealing pad 30 in the air sealing clamp 50. [

The air sealing clamp 50 according to the present invention includes an actuator 51 such as a pneumatic cylinder, a hydraulic cylinder, and a solenoid; A hinge link 52 connected to the piston rod 51a of the actuator 51 and hinged to the clamp support 55 by a hinge shaft 52a; And a clamp lever 53 connected to the hinge link 52 for moving the sealing plate 40 forward or backward so as to cover the inlet 201 of the measured object 200 by the sealing pad 30 )Wow; A lever support 54 slidably supporting the clamp lever 53 on the lever support 54; And a clamp supporter 55 installed on the base supporter 10 to support the actuator 51 and the lever supporter 54.

The air sealing clamp 50 according to the present invention drives the piston rod 51a of the actuator 51 forward by applying pneumatic pressure or hydraulic pressure so as to move the sealing plate 40 to the inlet 201 of the measured object 200 ).

The hinge link 52 is formed in a rectangular shape and the piston rod 51a and the clamp lever 53 of the actuator 51 are arranged in a diagonal direction with respect to the hinge axis 52a of the hinge link 52 And the connection length (rotation radius) between the piston rod 51a and the hinge shaft 52a is longer than the connection length (rotation radius) between the clamp lever 53 and the hinge shaft 52a So that the rotational moment (forwarding force) at the time of advancing the piston rod 51a of the actuator 51 is larger than the rotational moment at the time of backward movement.

The sealing plate 40 is brought into close contact with the inlet port 51 of the measured object 200 so that the inlet 201 of the measured object 200 is sealed by the sealing pad 30 and the pneumatic pressure is supplied from the pneumatic supply unit 60 And the piston rod 51a is moved backward after the test of the measured object 200 is completed so that the sealing pad 30 is pressed against the surface of the measured object 200, Away from the inlet (201).

The pneumatic supply unit 60 according to the present invention is connected to a pneumatic pump (not shown) and supplies pneumatic pressure to the inlet 201 of the measured object 200 through the sealing plate 40 and the sealing pad 30 And a pneumatic display unit 65 for measuring and displaying the pneumatic pressure supplied to the inlet pipe 61 and the inlet port of the measured object 200 to display the pneumatic pressure supplied to the inlet 201 of the measured object 200 .

The nozzle unit 70 according to the present invention includes a nozzle 71 inserted while sealing the outlet 202 of the measured object 200 and the nozzle 71 is connected to the outlet of the measured object 200 through the nozzle 71. [ And the outlet 202 is connected to the output pressure measuring unit 90 so that the internal pneumatic pressure of the measured object 200 can be measured and displayed.

The nozzle clamp 80 according to the present invention includes a nozzle clamp support 83 mounted on and supported on the base support 10; A hinge link 82 connected to the nozzle clamp support 83 by a link hinge shaft 82a; A nozzle clamp lever 84 connected to the hinge link 82 to raise or lower the nozzle unit 70; And a handle 81 for driving the hinge link 82 by raising or lowering the nozzle unit 70 so that the nozzle unit 70 is inserted into the outlet port 202 of the object to be measured 200.

Here, the handle 81 can be replaced with an actuator such as a pneumatic cylinder, a hydraulic cylinder, a solenoid, or the like as the actuator 51 of the air sealing clamp 50 described above. The handle 81 and the nozzle clamp lever 84 are connected to opposite edges of the hinge link 82 on the same side with respect to the hinge axis 82a of the hinge link 82, The nozzle clamp lever 84 and the hinge shaft 82a of the hinge link 82 are positioned on a vertical line when the knob 81 is rotated counterclockwise upward, The hinge axis 82a of the nozzle clamp lever 82 is further turned counterclockwise at an angle larger than 0 DEG and is not lowered by the weight of the nozzle clamp lever 84 and the nozzle unit 70. [

An operator holds the handle 81 of the nozzle clamp 80 and moves the nozzle unit 70 down to insert the nozzle 71 into the outlet 202 of the measured object 200 while sealing the nozzle 71, 200 can be measured.

The output pressure measuring unit 90 according to the present invention is applied to the outlet of the measured object 200 through the output pressure connecting pipe 91 connected to the nozzle unit 70 and the output pressure connecting pipe 91 And an output pressure display unit 92 for measuring and displaying the air pressure to be supplied.

The operator compares the supply air pressure and the output air pressure displayed on the output pressure display section 92 of the output pressure measuring section 90 and the pneumatic pressure display section 65 of the pneumatic supply section 60 to determine whether the air pressure You can see if it is leaked.

FIG. 5 is a cross-sectional view of the leak tester according to the present invention, in which the object to be measured is placed on a seating support and the object to be measured, the sealing pad and the sealing plate are cut in the longitudinal direction, Sectional view showing a state in which the object to be measured is seated and the sealing pad and the sealing plate are advanced and sealed.

The nozzle clamp 80 of the leak tester 100 according to the present invention is raised so that the nozzle unit 70 is raised to the starting position and the air sealing clamp 50 is retracted to move the sealing pad 30 and the sealing plate 40 As shown in FIG. 5, the subject 200 is placed on the seating support 11 and the support 20 to prepare for testing the leakage.

The inlet 201 of the object to be measured 200 is directed to the sealing pad 30 and the outlet 202 of the object 200 is connected to the seat support 11 of the leak tester 100 according to the present invention and the measuring object support 20, The object to be measured 200 is seated by aligning it with the nozzle 71 of the nozzle 70.

At this time, the protrusion 203 formed on the upper surface of the measured object 200 is inserted into the measurement object support hole 21 of the measurement object support 20, so that the inlet 201 of the measured object 200, together with the support stand 11, So as to maintain the posture toward the sealing pad 30.

When the piston rod 51a of the actuator 51 is advanced by the application of pneumatic pressure or hydraulic pressure or the like, the hermetic seal 50 of the air sealing clamp 50 according to the present invention causes the hinge link 52 to swing about the hinge axis 52a The clamp lever 53 is advanced to push the sealing plate 40 to the inlet 201 of the measured object 200 with a force F1.

When the sealing plate 40 is brought into close contact with the inlet 201 of the measurement object 200 by the force F1, the inlet 201 of the measurement object 200 is sealed by the sealing pad 30, The pneumatic pressure P1 is supplied to the interior of the object to be measured 200 through the pneumatic supply pipe 61 of the pipe 60.

The pneumatic pressure P1 supplied to the inside of the measured object 200 through the pneumatic supply pipe 61 is uniformly applied to the inside of the measured object 200 and the inside of the sealing pad 30 at the same intensity as indicated by a plurality of arrows All.

Fig. 7 shows an enlarged view of "A" in Fig. 6 showing a state in which the object to be measured is placed on the leak tester according to the present invention and airtightness is applied to the protruding vane with the sealing pad sealed.

 The pressure -F1 applied to the end of the inlet 201 of the measured object 200 and the pneumatic pressure P1 applied to the protruding vane 32 of the sealing pad 30 face each other when the actuator 51 of the air- So that the end of the inlet 201 of the measured object 200 and the protruding vanes 32 of the sealing pad 30 are brought into close contact with each other by the two forces so that the airtightness is maintained.

Therefore, according to the present invention, the force of the air pressure P1 is applied to the protruding vane 32 of the sealing pad 30 to add a force to seal the end of the inlet 201 of the measured object 200, The end portion of the inlet 201 of the object to be measured 200 is sealed with a force that is twice the pneumatic pressure P1 as compared with sealing the sealing pad 30 with only the pressure F1 applied to the end of the inlet 201 of the measured object 200, Thereby improving the airtightness and performing an accurate leak test.

The embodiments described above and shown in the drawings are only one embodiment for carrying out the present invention and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the following claims, and the embodiments improved and changed without departing from the gist of the present invention are obvious to those having ordinary skill in the art to which the present invention belongs Are within the scope of protection of the present invention.

10: base support 11: seat support
20: Measuring object support 21: Measuring object supporting hole
30: sealing pad 31: pneumatic supply hole
32: protruding blade 33: bolt hole
34: upper circular groove 35: lower circular groove
40: sealing plate 50: air sealing clamp
51: Actuator 51a: Piston rod
52: Hinge link 53: Clamp lever
54: lever support 55: clamp support
60: pneumatic supply part 61: pneumatic supply pipe
65: pneumatic display part 70: nozzle part
71: nozzle 80: nozzle clamp
81: handle 82: hinge link
83: Nozzle clamp support 84: Nozzle clamp lever
90: Output pressure measuring part 91: Output pressure connector
92: Output pressure display section
100: Leak Tester

Claims (8)

A base support for supporting the object to be measured;
A measurement object support installed on the base support and supporting one end of the object to be measured;
Wherein a protruding blade having a conical cross section is formed between the upper circular groove and the lower circular groove so as to cover the inlet of the object to be measured and to seal the upper circular groove and the lower circular groove, A sealing pad formed with a pneumatic supply hole connected to the pneumatic supply pipe of the pneumatic supply unit so that the inlet of the object to be measured is inserted and the end of the inlet is closely attached to the protruding vane;
A sealing plate supporting the sealing pad and attached to the air sealing clamp;
An air sealing clamp for moving the sealing plate forward or backward to cover the inlet of the object to be covered by the sealing pad;
A pneumatic supply unit for supplying air pressure to the measured object through a pneumatic supply pipe connected to the pneumatic supply hole of the sealing plate and the sealing pad, and measuring and indicating the supply pressure;
A nozzle unit which is inserted while sealing an outlet of the object to be measured;
A nozzle clamp for raising and lowering the nozzle unit to seal an outlet of the object to be measured;
And an output pressure measuring unit connected to the nozzle unit to measure and display an air pressure flowing out of the nozzle unit,
Wherein the nozzle clamp comprises: a nozzle clamp support mounted on the base support; A hinge link connected to the nozzle clamp support by a link hinge axis; A nozzle clamp lever connected to the hinge link for raising or lowering the nozzle unit; And a handle that moves the hinge link upward or downward to thereby insert the nozzle unit into an outlet of the object to be measured and seal the object. delete The method according to claim 1,
Wherein the air sealing clamp comprises: an actuator; A hinge link connected to the piston rod of the actuator and hinged to the clamp support by a hinge shaft; A clamp lever connected to the hinge link to move the sealing plate forward or backward to thereby cause the sealing pad to cover the inlet port of the object to be measured; A lever support for slidably supporting the clamp lever on the lever support; And a clamp supporter installed on the base supporter for supporting the actuator and the lever supporter. The method according to claim 1,
Wherein an inlet port of the object to be measured is inserted into the upper circular groove when the sealing pad covers and closes the inlet port of the object to be measured, and the end of the inlet port is closely attached to the protruding vane. delete delete The method of claim 3,
The piston rod and the clamp lever of the actuator are connected to corners in diagonal directions with respect to a hinge axis of the hinge link, and a connection length (rotation radius) between the piston rod and the hinge shaft Is configured to be longer than a connection length (rotation radius) between the clamp lever and the hinge shaft, the rotation moment (forwarding force) is greater than the rotation moment when the piston rod of the actuator is advanced The leak tester is characterized by. The method according to claim 1,
The hinge link of the nozzle clamp is formed in a rectangular shape and the handle and the nozzle clamp lever are connected to opposite edges of the same side about the hinge axis of the hinge link so that the handle is rotated counterclockwise upwardly The hinge axis of the nozzle clamp lever and the hinge link are positioned on a vertical line but the hinge axis of the handle and the hinge link is further tilted counterclockwise at an angle larger than 0 ° so that the nozzle clamp lever is not lowered due to the weight of the nozzle clamp lever The leakage tester being characterized in that:

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