KR20160107694A - Gasket test apparatus - Google Patents

Abstract

The present invention relates to a gasket test apparatus. The gasket test apparatus according to the present invention comprises: a housing; a gasket disposition structure which is installed on the upper surface of the housing, and accommodates and disposes a gasket while coming in contact with both surfaces of the gasket which is a test target; a heating unit which heats the gasket and the gasket disposition structure coming in contact with the gasket; a fluid circulation unit which passes through a central opening area of the gasket disposed in the gasket disposition structure and circulates a fluid; a temperature measurement unit which measures the current temperature of the gasket disposition structure; a pressure measurement unit which measures the current pressure based on the fluid circulated through the gasket; and a control unit which controls operations of the heating unit and the fluid circulation unit, and controls the current temperature received from the temperature measurement unit and the current pressure received from the pressure measurement unit to be displayed. According to the present invention, there is an effect of providing a gasket test apparatus which can effectively and precisely test whether the gasket satisfies durability standards such as API 6FB.

Description

[0001] GASKET TEST APPARATUS [0002]

The present invention relates to a gasket testing apparatus. More particularly, the present invention relates to a gasket testing apparatus capable of effectively and precisely testing whether or not a gasket meets durability standards such as API 6FB, prior to installation of the gasket on an industrial site.

BACKGROUND ART Various devices such as vessels, automobiles, and semiconductor manufacturing facilities as well as industrial plant sites where petrochemical facilities, crude oil drilling facilities, desalination facilities, and the like are installed are provided with many pipes through which fluids such as liquids or gases flow . These pipes are connected through a flange to form a pipeline. Airtightness and watertightness of the flange connection must be secured to maintain the function of the industrial plant.

To this end, the part mounted on the flange connection is a gasket.

Normally, the gasket absorbs the irregularities in the tolerance range inevitably present on the joint surfaces of both connected machine elements by deformation of the gasket to secure the airtightness and the watertightness of the joint portion, and the pressure resistance, heat resistance and corrosion resistance Of course, a moderate degree of compressibility is required.

1 is a view schematically showing a conventional gasket and a pair of flanges on which the gasket is installed.

Referring to Fig. 1, a pair of flanges 1, 2 are formed at the end of a tube through which fluid flows, and these flanges 1, 2 are joined together by bolts 4 and nuts 5.

At this time, a gasket 3 for sealing is provided between the flanges 1 and 2. These gaskets 3 are sealed between the flanges 1 and 2 while being deformed according to the pressure and temperature applied to the flanges 1 and 2.

Since these gaskets are installed at the point where the fluid passes, they are affected by the temperature of the fluid and the pressure due to the fluid, and therefore the durability is deteriorated with time, so they must be replaced after a certain period of time.

Therefore, in the field, the gasket having durability corresponding to the temperature condition and the pressure condition of the fluid is selected and used, and the inspection period and the gasket usable time are determined in consideration of the fluid temperature, the pressure condition, and the durability of the used gasket. In addition, the field operator checks the flange connection according to the determined inspection period, and maintains the function of the facility by replacing the gasket that has passed the usable time.

 Gasket manufacturers provide durability information in accordance with the conditions of use of the gasket, and this information is used as an indispensable material for maintenance at the site of use of the gasket.

In particular, gasket manufacturers are working to meet API specifications from the American Petroleum Institute (API). As the API standard for the gasket, there is API 6FB which is a durability standard according to the temperature of the gasket. API 6FB requires that the performance of the gasket mounted flange connection be maintained for 30 minutes in a flame condition and 60 minutes in a cool down condition.

Considering these considerations, prior to installing the gasket on the industrial site, a device is required to test whether the gasket meets durability standards such as API 6FB, but no related technology has been introduced to date.

Korean Utility Model Registration No. 20-0255028 (registered on November 09, 2001, name: gasket) Korean Patent Laid-Open Publication No. 10-2005-0007513 (filed on Jan. 19, 2005, entitled: Gasket for Grip Piping)

It is a technical object of the present invention to provide a gasket testing device capable of effectively and precisely testing whether or not a gasket meets a durability standard such as API 6FB, before installing the gasket on an industrial site.

It is another object of the present invention to provide a gasket testing apparatus capable of testing the performance of a gasket in a similar condition to a case where a fire occurs.

According to an aspect of the present invention, there is provided a gasket testing apparatus comprising: a housing; a gasket arrangement structure installed on an upper surface of the housing to receive and arrange the gasket in contact with both surfaces of the gasket to be tested; A fluid circulation unit for circulating the fluid through the central opening area of the gasket disposed in the gasket arrangement structure, a temperature measurement unit for measuring a current temperature of the gasket arrangement structure, A pressure measuring unit for measuring a current pressure due to the fluid circulated through the gasket and a control unit for controlling operation of the heating unit and the fluid circulating unit, And a control unit for controlling the display unit.

In the gasket testing apparatus according to the present invention, the controller compares the current temperature received from the temperature measuring unit with a target temperature, and determines whether the temperature of the gasket arrangement structure is equal to the target temperature within the first error range, And controls the fluid circulation unit so that the pressure due to the fluid becomes equal to the target pressure within the second error range by comparing the current pressure received from the pressure measurement unit with the target pressure.

The gasket testing apparatus receives the target temperature and the target pressure and receives the temperature information measured by the temperature measuring unit and the pressure information measured by the pressure measuring unit according to the control of the controller, And a worker panel unit for performing a work function.

In the gasket testing apparatus according to the present invention, the gasket arrangement structure may include a first flange portion having an inner surface in close contact with one surface of the gasket, a second flange portion having an inner surface in close contact with the other surface of the gasket, And a flange fastening portion for fastening the flange portion and the second flange portion.

In the gasket testing apparatus according to the present invention, the outer diameters of the first flange portion and the second flange portion are larger than the outer diameter of the gasket.

The gasket testing apparatus according to the present invention is characterized in that the heating section includes a first burner installed to face one side of the gasket arrangement structure and a second burner disposed to face the other side opposite to the one side of the gasket arrangement structure do.

The gasket testing apparatus according to the present invention includes a first sliding rail installed on the upper surface of the housing along the longitudinal direction of the gasket arrangement structure, a first sliding rail coupled to the first sliding rail via the first sliding rail, A second sliding rail provided on the upper surface of the housing along the longitudinal direction of the gasket arrangement structure, and a second burner mount coupled to be slidable through the second sliding rail and provided with the second burner, And the gasket arrangement structure is disposed between the first sliding rail and the second sliding rail.

In the gasket testing apparatus according to the present invention, the temperature measuring unit may include a first temperature measuring unit that contacts the first flange unit and measures a temperature of the first flange unit, and a second temperature measuring unit that contacts the second flange unit, And a second temperature measuring unit for measuring the temperature of the supporting unit.

In the gasket testing apparatus according to the present invention, the first temperature measuring portion is in contact with an outer surface which is an opposite surface of the inner surface of the first flange portion, and the second temperature measuring portion is an outer surface Is contacted.

In the gasket testing apparatus according to the present invention, the first temperature measuring unit may include a first upper temperature measuring unit contacting the upper point of the outer surface of the first flange unit and a second upper temperature measuring unit contacting the lower point of the outer surface of the first flange unit. The second temperature measuring unit includes a second upper temperature measuring unit contacting the upper point of the outer surface of the second flange and a second lower temperature measuring unit contacting the lower point of the outer surface of the second flange, And a temperature measuring unit.

In the gasket testing apparatus according to the present invention, the fluid circulating unit may include a fluid storage unit for storing the fluid, a circulation pump for circulating the fluid stored in the fluid storage unit, and a circulation pump for introducing the fluid into the first flange unit, And a circulation path portion that provides a circulation path of the fluid passing through the opening region and flowing out through the second flange portion.

In the gasket testing apparatus according to the present invention, the fluid circulation unit may further include a cooling unit for cooling the fluid flowing through the second flange unit and supplying the fluid to the fluid storage unit.

In the gasket testing apparatus according to the present invention, the pressure measuring unit may include an inflow pressure measuring unit that measures pressure due to the fluid flowing into the first flange unit, and a pressure measuring unit that measures pressure due to the fluid flowing through the second flange unit And an outlet pressure measuring unit.

According to the present invention, there is provided an apparatus for testing a gasket capable of effectively and precisely testing whether or not a gasket meets a durability standard such as API 6FB before installing the gasket on an industrial site.

In addition, the present invention is effective in providing a gasket testing apparatus capable of testing the performance of a gasket under conditions similar to those in the case of a fire.

1 is a view schematically showing a conventional gasket and a pair of flanges on which the gasket is installed.
2 is a functional block diagram of a gasket testing apparatus according to an embodiment of the present invention.
3 is a view for explaining an example of a specific operation of the gasket testing apparatus according to an embodiment of the present invention.
4 is a plan view of a gasket testing apparatus according to an embodiment of the present invention.
5 is a front view of a gasket testing apparatus according to an embodiment of the present invention.
6 is a left side view of a gasket testing apparatus according to an embodiment of the present invention.
7 is an assembled perspective view of a gasket deployment structure included in one embodiment of the present invention.
8 is an exploded perspective view of a gasket deployment structure included in an embodiment of the present invention.
9 is a view showing the outer surface of the first flange portion included in the gasket arrangement structure.
10 is a view showing the outer surface of the second flange portion included in the gasket arrangement structure.

Hereinafter, a gasket testing apparatus according to an embodiment of the present invention will be described in detail, and its specific structure will be described.

2 is a functional block diagram of a gasket testing apparatus according to an embodiment of the present invention.

2, a gasket testing apparatus according to an embodiment of the present invention includes a gasket arrangement structure 20, a heating unit 30, a fluid circulating unit 40, a temperature measuring unit 50, a pressure measuring unit 60 A control unit 70, and a worker panel unit 80. [

The gasket arrangement structure 20 is installed on the upper surface of the housing 10 shown in Figs. 3 to 5 and functions to accommodate and place the gasket 200 in contact with both surfaces of the gasket 200 to be tested .

The heating section 30 functions to heat the gasket 200 and the gasket arrangement structure 20 in contact with the gasket 200.

The fluid circulating unit 40 functions to circulate the fluid through the central opening area of the gasket 200 disposed in the gasket arrangement structure 20. [

The temperature measuring unit 50 performs a function of measuring the current temperature of the gasket arrangement 20.

The pressure measuring unit 60 measures a current pressure due to the fluid circulated through the gasket 200.

The control unit 70 controls the operations of the heating unit 30 and the fluid circulation unit 40 and controls the current temperature received from the temperature measurement unit 50 and the current pressure received from the pressure measurement unit 60 to be displayed .

For example, the control unit 70 compares the current temperature received from the temperature measuring unit 50 with the target temperature so that the temperature of the gasket arrangement 20 becomes equal to the target temperature within the first error range, Lt; RTI ID = 0.0 > 30 < / RTI > The control unit 70 compares the current pressure received from the pressure measuring unit 60 with the target pressure so that the pressure of the fluid is equal to the target pressure within the second error range. ). ≪ / RTI >

The operator panel unit 80 receives a target temperature and a target pressure from a worker or the like and receives the temperature information measured by the temperature measurement unit 50 and the temperature information measured by the pressure measurement unit 60 under the control of the control unit 70 And receives the pressure information and displays it to an operator or the like.

3 is a view for explaining an example of a specific operation of the gasket testing apparatus according to an embodiment of the present invention.

3, in step S10, an operator performs a process of setting a target temperature and a target pressure through the operator panel unit 80. [

In step S20, the control unit 70 controls the heating unit 30 and the fluid circulation unit 40 to start the operation according to the operation start command inputted through the operator panel unit 80. [

In step S30, a process of measuring the current temperature of the gasket arrangement structure 20 is performed by the temperature measuring unit 50. [

In step S40, the control unit 70 receives the current temperature of the gasket arrangement 20 from the temperature measuring unit 50, and compares the current temperature with the set target temperature. As a result of the comparison in step S40, if the difference between the current temperature and the target temperature is within the first error range? T, the process proceeds to step S90, and if not, the process proceeds to step S50.

In step S50, the control unit 70 performs the process of adjusting the output of the heating unit 30. [ That is, when the present temperature is higher than the first error range ΔT, the control unit 70 decreases the output of the heating unit 30. Further, when the present temperature is lower than the first error range (DELTA T) as compared with the target temperature, the control unit 70 increases the output of the heating unit 30. [

In step S60, the process of measuring the current pressure due to the fluid circulated through the gasket 200 by the pressure measuring unit 60 is performed. Steps S60 and S40 may be performed simultaneously in parallel.

In step S70, the control unit 70 receives the current pressure from the pressure measuring unit 60, and compares the current pressure with the set target pressure. If the difference between the current pressure and the target pressure is within the second error range? P as a result of the comparison in step S70, the process proceeds to step S90, and if not, the process proceeds to step S80.

In step S80, the control unit 70 performs the process of adjusting the output of the fluid circulating unit 40. [ That is, when the current pressure is higher than the second error range ΔP, the control unit 70 reduces the output of the fluid circulating unit 40. Further, when the present pressure is lower than the second error range? P in comparison with the target pressure, the control unit 70 increases the output of the fluid circulating unit 40.

In step S90, a process of determining whether the set time inputted through the operator panel unit 80 has passed or not is performed. As a result of the determination in step S90, if the set time has elapsed, the operation of the gasket testing apparatus is ended, and if not, the flow proceeds to step S30.

Meanwhile, in an embodiment of the present invention, in order to more accurately estimate the temperature of the gasket 200, the temperature measuring unit 50 may include a plurality of temperature sensors for measuring temperatures at different points . In this case, the current temperature to be compared with the target temperature may be an average value of the current temperatures measured by the temperature sensors or any one selected by the operator through the operator panel unit 80.

Further, in an embodiment of the present invention, in order to obtain a more accurate analogy to the pressure due to the fluid passing through the gasket 200, the pressure measuring part 60 may be provided in the fluid circulating part 4, And a plurality of pressure sensors for measuring the pressure of the point. In this case, the current pressure to be compared with the target pressure may be an average value of the current pressures measured by the pressure sensors or any one selected by the operator through the operator panel unit 80.

Hereinafter, the overall structure of the gasket testing apparatus according to an embodiment of the present invention will be described with additional reference to FIGS. 4 to 8. FIG.

4 is a plan view of a gasket testing apparatus according to an embodiment of the present invention, FIG. 5 is a front view, FIG. 6 is a left side view, and FIG. 7 is a side view of a gasket placing structure 20 And FIG. 8 is an exploded perspective view thereof. For purposes of the present invention, the first burner 310, the first sliding rail 312, and the first burner mount 314 are not shown in Fig.

4 to 8, a gasket testing apparatus according to an embodiment of the present invention includes a housing 10, a gasket arranging structure 20, a heating unit 30, a fluid circulating unit 40, A controller 50, a pressure measuring unit 60, a controller 70, and a worker panel unit 80. The control unit 70 and the operator panel unit 80 are components that are not related to the structure of the present invention, and a description thereof will be omitted.

The housing 10 is a means for installing or receiving the components constituting the gasket testing apparatus.

The gasket arrangement structure 20 may include a first flange portion 210, a second flange portion 220, and a flange coupling portion 230.

The inner surface of the first flange portion 210 is in contact with one surface of the gasket 200 in close contact with the inner surface of the second flange portion 220 in contact with the other surface of the gasket 200, The first flange portion 210 and the second flange portion 220 are fastened by a flange coupling portion 230 such as a bolt and a nut.

The outer diameters of the first flange portion 210 and the second flange portion 220 are preferably larger than the outer diameter of the gasket 200 in order to mount the gasket 200 having various sizes.

The heating unit 30 may include a first burner 310 and a second burner 320.

The first burner 310 is disposed to face one side of the gasket arrangement structure 20 and the second burner 320 is disposed to face the other side opposite to the one side of the gasket arrangement structure 20. According to such an installation structure, the gasket 200 and the first flange portion 210 and the second flange portion 220 on which the gasket 200 is mounted are heated in both directions, so that the gasket 200 is uniformly heated as a whole.

An example of a mounting structure of the first burner 310 and the second burner 320 will be described in more detail as follows.

A first sliding rail 312 is provided on one side of the upper surface of the housing 10 along the longitudinal direction of the gasket arrangement structure 20 and a first burner mounting base 314 provided with the first burner 310 is connected to the first sliding And is coupled to be slidable via a rail 312. A second sliding rail 322 is provided on the other side of the upper surface of the housing 10 along the longitudinal direction of the gasket arrangement structure 20 in parallel to the first sliding rail 312, And the second burner mounting base 324 is slidably coupled through the second sliding rail 322. According to this installation structure, the gasket arrangement structure 20 is disposed between the first sliding rail 312 and the second sliding rail 322.

The fluid circulation unit 40 may include a fluid storage unit 410, a circulation pump 420, a circulation path unit 430, and a cooling unit 440.

The fluid reservoir 410 functions to store the fluid.

The circulation pump 420 functions to forcibly circulate the fluid stored in the fluid reservoir 410.

The circulation path portion 430 functions to provide a circulation path of the fluid that flows into the first flange portion 210, passes through the central opening region of the cask kit, and flows out through the second flange portion 220. Among the paths through which the fluid flows, the circulation path unit 430 is pipes arranged in all the paths except for the cooling unit 440.

The cooling unit 440 functions to cool the fluid flowing through the second flange unit 220 and supply the fluid to the fluid storage unit 410.

The temperature measuring unit 50 may include a first temperature measuring unit 510 and a second temperature measuring unit 520.

The first temperature measuring unit 510 is in contact with an outer surface of the first flange 210 opposite to the inner surface of the first flange 210 to measure the temperature of the first flange 210.

For example, the first temperature measuring unit 510 may include a first upper temperature measuring unit 512 and a first lower temperature measuring unit 514.

9, the first upper temperature measuring portion 512 is configured to contact the upper point A of the outer surface of the first flange portion 210, and the first lower temperature measuring portion 514 is configured to contact the upper portion (B) of the outer surface of the flange portion (210).

The second temperature measuring part 520 contacts the outer surface of the second flange part 220, which is the opposite surface of the inner surface of the second flange part 220, to measure the temperature of the second flange part 220.

For example, the second temperature measuring unit 520 may include a second upper temperature measuring unit 522 and a second lower temperature measuring unit 524.

10, the second upper temperature measuring portion 522 is configured to contact the upper point C of the outer surface of the second flange portion 220, and the second lower temperature measuring portion 524 is configured to contact the upper point C of the second flange portion 220, (D) of the outer surface of the flange portion (220).

Although not shown in the drawing, the pressure measuring unit 60 includes an inflow pressure measuring unit for measuring a pressure due to the fluid flowing into the first flange unit 210, and an inflow pressure measuring unit for measuring the pressure due to the fluid flowing through the second flange unit 220 And an outlet pressure measuring unit for measuring the pressure. Since the inflow pressure measuring unit is a means for measuring the pressure due to the fluid before entering the first flange portion 210, the mounting position is located at the front end of the first flange portion 210 The circulation path unit 430 may be any point in the circulation path unit 430 that is connected to the circulation path unit 430. Since the outlet pressure measuring unit is a means for measuring the pressure due to the fluid flowing out through the second flange unit 220, the installation position is located at the rear end of the second flange unit 220 The circulation path unit 430 may be any point in the circulation path unit 430 that is connected to the circulation path unit 430. It is preferable that the inflow pressure measuring unit is installed as close as possible to the first flange unit 210 and that the inflow pressure measuring unit is installed as close as possible to the second flange unit 220.

As described above in detail, according to the present invention, it is possible to provide a gasket testing apparatus capable of effectively and precisely testing whether or not a gasket meets durability standards such as API 6FB before installing the gasket on an industrial site have.

In addition, there is an effect that a gasket testing apparatus capable of testing the performance of the gasket under the condition similar to the case where a fire occurs is provided.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: Housing
20: Gasket arrangement structure
30:
40: fluid circulation part
50: Temperature measuring unit
60: pressure measuring unit
70:
80: Worker panel section
200: gasket
210: first flange portion
220: second flange portion
230: flange fastening portion
310: First burner
320: second burner
312: first sliding rail
314: First burner mounting board
322: second sliding rail
324: a second burner mount
410: fluid storage part
420: circulation pump
430: circulation path portion
440:
510: first temperature measuring unit
520: second temperature measuring unit
512: first upper temperature measuring section
514: first lower temperature measuring unit
522: second upper temperature measuring unit
524: second bottom temperature measuring unit

Claims (13)

housing;
A gasket arrangement structure installed on an upper surface of the housing and accommodating and arranging the gasket in contact with both surfaces of the gasket to be tested;
A heating unit for heating the gasket and the gasket arrangement structure in contact with the gasket;
A fluid circulation unit for circulating the fluid through the central opening area of the gasket disposed in the gasket arrangement structure;
A temperature measurement unit for measuring a current temperature of the gasket arrangement structure;
A pressure measuring unit for measuring a current pressure due to the fluid circulated through the gasket; And
And a control unit for controlling the operation of the heating unit and the fluid circulation unit and controlling the current temperature received from the temperature measurement unit and the current pressure transmitted from the pressure measurement unit to be displayed. The method according to claim 1,
The control unit
And controls the heating unit so that the temperature of the gasket arrangement structure becomes equal to the target temperature within the first error range by comparing the current temperature received from the temperature measurement unit with the target temperature, And controls the fluid circulation unit so that the pressure due to the fluid becomes equal to the target pressure within the second error range. The method according to claim 1,
And a worker panel unit receiving the target temperature and the target pressure and receiving and displaying temperature information measured by the temperature measuring unit and pressure information measured by the pressure measuring unit under the control of the controller Characterized by a gasket testing device. The method according to claim 1,
The gasket arrangement structure
A first flange portion having an inner surface in close contact with one surface of the gasket;
A second flange portion having an inner surface in close contact with the other surface of the gasket; And
And a flange fastening portion for fastening the first flange portion and the second flange portion to each other. 5. The method of claim 4,
Wherein the outer diameter of the first flange portion and the outer diameter of the second flange portion is larger than the outer diameter of the gasket. The method according to claim 1,
The heating unit
A first burner disposed to face one side of the gasket arrangement structure; And
And a second burner provided to face the other side opposite to the one side of the gasket arrangement structure. The method according to claim 6,
A first sliding rail installed on the upper surface of the housing along the longitudinal direction of the gasket arrangement structure;
A first burner mount coupled to the first sliding rail to be slidable and having the first burner installed therein;
A second sliding rail installed on the upper surface of the housing along the longitudinal direction of the gasket arrangement structure; And
Further comprising a second burner mount coupled to be slidable through the second sliding rail and provided with the second burner,
Wherein the gasket arrangement structure is provided between the first sliding rail and the second sliding rail. 5. The method of claim 4,
The temperature measuring unit
A first temperature measuring unit in contact with the first flange to measure a temperature of the first flange; And
And a second temperature measuring unit for measuring a temperature of the second flange portion in contact with the second flange portion. 9. The method of claim 8,
Wherein the first temperature measuring portion is in contact with an outer surface which is an opposite surface of the inner surface of the first flange portion,
And the second temperature measuring portion is in contact with an outer surface which is an opposite surface of the inner surface of the second flange. 10. The method of claim 9,
Wherein the first temperature measuring unit includes a first upper temperature measuring unit contacting the upper point of the outer surface of the first flange and a first lower temperature measuring unit contacting the lower point of the outer surface of the first flange,
The second temperature measuring unit includes a second upper temperature measuring unit contacting the upper point of the outer surface of the second flange unit and a second lower temperature measuring unit contacting the lower point of the outer surface of the second flange unit. Gasket testing device. The method according to claim 1,
The fluid circulation unit
A fluid storage portion in which the fluid is stored;
A circulation pump circulating the fluid stored in the fluid reservoir; And
And a circulation path portion that flows into the first flange portion and provides a circulation path of the fluid passing through the central opening region of the cask kit and flowing out through the second flange portion. 12. The method of claim 11,
The fluid circulation unit
Further comprising a cooling unit for cooling the fluid flowing through the second flange unit and supplying the fluid to the fluid storage unit. The method according to claim 1,
The pressure measuring unit
An inflow pressure measuring unit for measuring a pressure due to the fluid flowing into the first flange portion; And
And an outlet pressure measuring unit for measuring a pressure due to the fluid flowing out through the second flange portion.

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