KR20130045312A - Performance tester and the methods of spring hanger - Google Patents

Abstract

PURPOSE: A frame support type performance inspecting device of a spring hanger and a method for the same are provided to improve the economic efficiency, the stability, and the reliability of a plant using the spring hanger as a safety grade is increased in measuring. CONSTITUTION: A frame support type performance inspecting device of a spring hanger comprises a hydraulic cylinder and a support member(40). The hydraulic cylinder includes a piston shaft(20), a pressing member(10), and a cylinder(30). The pressing member is arranged in a free end of the piston shaft. The support member is interposed between a hanger casing(50) and the cylinder. The pressing member is placed on a spring pressing plate(80) pressing one end of a spring(60) of the spring hanger so that the pressing member pressurizes the hydraulic cylinder. [Reference numerals] (10) Pressing member; (20) Piston axis; (30) Cylinder; (40) Support member; (50) Hanger casing; (60) Spring; (70) Hanger rod; (80) Spring pressing plate; (AA) Building framework

Description

Performance Tester and the Methods of Spring Hanger}

The present invention relates to a performance test apparatus and a method of a support apparatus installed in the field. More specifically, it relates to an apparatus and a method for testing the working load and performance of a spring hanger installed in the field.

The background art of the present invention is an apparatus and method for the performance test of the frame-supported spring support disclosed in the Republic of Korea Patent Publication No. 10-1238584 (February 22, 3013) "method and device performance test method of the spring support" Is disclosed.

As a device and a method shown in the background art, as illustrated in (1) of FIG. The load applied to the spring does not act in parallel with the hanger rod, but the component force in the horizontal direction acts, thereby reducing the reliability of the measurement result. As illustrated in (2) of FIG. It requires time and manpower, and there is a possibility of falling as shown in FIG. Therefore, in the present invention, it is intended to reduce the time for installing and dismantling the measuring device in the spring hanger, to be safer, and to increase the measuring accuracy more.

To this end, in the present invention, by using the support member 40 to prevent the rotation of the hydraulic cylinder to prevent the measuring device from rotating during the test to increase the precision of the measurement result value, the shape of the support member 40 to the H-shaped parts The number was simplified to simplify the previous complex measuring device and eliminated the possibility of component fall when mounted and dismantled using the spacing member 90.

As described above, the measuring device of the spring hanger is simplified, the measuring accuracy is high, and the safety during the measurement is increased, so that the economy, safety and reliability of the plant using the spring hanger can be further improved.

1 is an embodiment of a frame-supported performance test apparatus of the spring hanger according to the present invention
Figure 2 is an embodiment of a frame-supported performance test apparatus of the spring hanger according to the present invention
Figure 3 is an embodiment of a support member according to the present invention
Figure 4 is an embodiment of the installation of the support member according to the present invention
Figure 5 is an embodiment of a frame-supported performance test apparatus of the conventional spring hanger according to the present invention

Definition of Terms

Support (支持 臺): It is called a support or a hanger in the present invention is to support the industrial equipment, such as the piping of the power generation equipment suspended from the top to the bottom or to support the ones from the top to the bottom.

Spring Hanger: Usually refers to supporting the object suspended from the top to the bottom using a spring, but the present invention further includes everything using the support mass spring in addition to this conventional expression. Therefore, in the present invention, Spring Support and Constant Hanger are also subject to the present invention.

Construction frame (骨 組): Refers to the main structural material of pillars and beams that form the skeleton of a building, and refers to industrial structural materials such as reinforced concrete, H-Beam, or building materials. In the present invention, since the spring hanger is used to refer to the place where it is supported by the building frame, the building part on which the spring hanger is supported is a more obvious expression. Therefore, in the present invention, the construction frame and the frame are mixed in the same sense.

Supported object: Refers to an object supported by a spring hanger, and is specifically referred to as a supported object including, for example, power generation piping, industrial piping, and mechanical equipment. The spring hanger is holding or hanging.

Performance test of spring hanger: A test to measure the working load and modulus of elasticity of spring hanger. In particular, in the present invention, this test is performed on a spring hanger installed in the field.

The present invention can only be seen by a person skilled in the art having knowledge of the background art and the basic technology related to the spring hanger, the installation of the spring hanger, the load relation to the supported object, and the like. Since this invention is possible, it does not describe this basic technique. If the skilled person or ordinary person who does not have this basic technology to implement the present invention should first learn the above-described technology.

The present invention is to test the performance of the spring hanger in the state in which the spring hanger is supported on the construction frame to support the supporting body, as illustrated in FIG. 1, the piston shaft 20, attached to the free end of the piston shaft A U-shaped member fitted between the pressing member 10, the hanger casing 50 and the cylinder, the support member 40 is symmetrical with respect to the hanger rod 70 and supports the cylinder to the outside of the piston shaft. Frame-supported performance of the spring hanger, characterized in that the pressing member is placed on the spring holding plate 80 holding one end of the spring 60 of the spring hanger installed in the field to be in contact with each other, and pressurizes the hydraulic cylinder. It relates to a test apparatus.

The test apparatus further includes a spacing member 90 for maintaining a horizontal spacing of the support members facing each other.

In addition, the present invention is to test the spring hanger with a frame-supported performance test device, the step of fixing the support to the frame, the step of placing the pressing member of the hydraulic cylinder on the spring holding plate of the spring hanger, between the hanger casing and the cylinder And inserting a support member, and measuring a load-displacement relationship while pressurizing the hydraulic cylinder.

The test method further includes the step of further installing a spacing member on the upper end of the facing hydraulic cylinder.

The pressing member 10 is shaped like an L on the upper end of the piston shaft 20 of the hydraulic cylinder as illustrated in FIG. 1. In particular, in the present invention, it should be able to insert the spacing member as shown in FIG. It is convenient for the pressing member to be fastened to a free end, which is the upper end of the piston shaft, by screws or pins and holes, bolt nuts and holes.

The hydraulic cylinder is a conventional hydraulic cylinder as illustrated in FIG. 2, but in order to operate it, a hydraulic hose, a pressure gauge, a hydraulic jack, and the like are additionally required, but are not described any more because they correspond to the prior recognition technical requirements of the present invention. The cylinder includes the addition of a cylinder side plate as illustrated in Fig. 2 (1). The cylinder side plate is a plate for contacting the support member as shown in FIG. 2 by integrating a flat plate out of a cylindrical cylinder.

The support member 40 is a U-shaped or H-shaped structure as shown in Figure 3 or H-shaped hanger rods 70 in the center and installed in a symmetrical shape. This support member should support the symmetrically installed cylinder, centered on the hanger rod, fixed out of the hanger casing 50, and extended further to the outside of the hydraulic cylinder installed on the outside of the hanger casing. The supporting member has a structure in which both ends of the cylinder are in contact with each other between the hanger casing and the cylinder, as shown in FIG. 2, so that the support member comes into contact with one end of the cylinder in the piston axis direction of the cylinder supporting the piston shaft installed symmetrically out of the hanger casing. If the equipment is to be made small, at least the piston shaft of the cylinder must be in contact. The case of supporting up to the piston shaft is the same principle as supporting the cylinder side plate, as illustrated in Fig. 4 (2). The supporting member shall be manufactured as shown in FIG. 3 and installed to support the cylinder at a distance of at least SPT as illustrated in FIG. In the present invention, the support member is a core member that serves to eliminate the cylinder rotation of the prior art as shown in (1) of FIG. 5, so that the object of the present invention can be implemented only by following the description of the present invention in the implementation of the support member. have. One side of the square of the support member can be assembled such that the hanger rod is positioned at the center of the square shape only to be able to be assembled by bolts or pins as shown in FIG. Therefore, this support member should be shaped such that one end of the U-shaped member is fastened by bolts or pins. 4 (1) is an example in which the support member according to the present invention supports the cylinder 30, and FIG. 4 (2) illustrates an example in which the cylinder side plate is supported.

The gap retaining member 90 is inserted into the hole of the above-mentioned pressing member by using a U-shaped member as shown in FIG. 2 (2) in order to maintain the horizontal gap of the support member facing each other. As the cylinder is pressurized, it prevents the pressing member from opening or shrinking. In addition, when the hydraulic cylinder is assembled to the spring hanger when the test apparatus is installed or dismantled, the pressing member is slightly caught on the spring pressing plate. When the end is inserted and the end is locked, the hydraulic cylinder can no longer fall. As shown in (2) of FIG. 2, the structure may be connected to the left and right pressing members even if the shape is not necessarily a c-shape, and may be disposed inside the hanger casing.

In addition, in testing the spring hanger installed in the field by the frame-supported performance test apparatus, the step of fixing the support to the frame, placing the pressing member of the hydraulic cylinder on the spring pressing plate of the spring hanger, Inserting a support member between the hanger casing and the cylinder, measuring the load-displacement relationship while pressurizing the hydraulic cylinder, and further installing a spacing member on the top of the facing hydraulic cylinder. The frame-supported performance test method of the spring hanger is as follows.

(1) The pipe supported by the spring hanger is supported by H-Beam using chain block or turnbuckle and adjusted so that the pipe does not sag during the test.

(2) The piston shaft of the hydraulic cylinder coupled to the pressing member at one end is disposed symmetrically on the spring pressing plate.

(3) A spacing member is provided to prevent the piston shaft from detaching and maintain the distance between the shafts.

(4) Insert H type support member at the bottom of hanger casing and cylinder top of hydraulic cylinder, pressurize it so that hanger rod is located at the center of H type support member and test equipment is installed symmetrically.

(5) Connect the length measuring arm to the free end of the spring and to the frame or hanger casing.

(6) Obtain pressure-length diagram by measuring pressure and length change while pressurizing hydraulic cylinder.

Here, a hanger rod means a hanger rod. The test procedure described above will be described in more detail. (1) Adjusting the pipe supported by the spring hanger to the H-Beam by using a chain block or turnbuckle and adjusting the pipe so that the pipe does not sag during the test is to frame the spring hanger. In testing with a supported performance test device, the supporting object is fixed to the frame, and (2) the symmetrical arrangement of the piston shaft of the hydraulic cylinder with the pressing member coupled at one end on the spring pressing plate is applied to the spring pressing plate of the spring hanger. (3) Installing the spacing member to prevent separation of the piston shaft and to maintain the distance between the shafts is the step of installing the spacing member on the upper end of the hydraulic cylinder facing each other. (4) Insert the H type support member at the bottom of the hanger casing and the cylinder top of the hydraulic cylinder and pressurize it so that the hanger rod is located at the center of the H type support member and the test apparatus is installed symmetrically between the hanger casing and the cylinder. (5) connecting the length measuring arm to the free end of the spring and the frame or hanger casing, and (6) measuring the pressure and length change while pressing the hydraulic cylinder to obtain the load-length diagram. This step is to measure the load-displacement relationship while pressing the cylinder.

If there is no problem in the safety of the installation work, it can be carried out by omitting the above (3) as follows.

(1) The pipe supported by the spring hanger is supported by H-Beam using chain block or turnbuckle and adjusted so that the pipe does not sag during the test.

(2) The piston shaft of the hydraulic cylinder coupled to the pressing member at one end is disposed symmetrically on the spring pressing plate.

(3) Insert H type support member at the bottom of hanger casing and cylinder top of hydraulic cylinder and pressurize it so that hanger rod is located at the center of H type support member.

(4) Connect the length measuring arm to the free end of the spring and to the frame or hanger casing.

(5) Obtain the load-length diagram by measuring the pressure and length change while pressurizing the hydraulic cylinder.

This test method is for the hanging spring hanger, but in the case of the spring support, it supports the supporting object such as the pipe up, except that the hanger rod is raised to the sky, and the rest is the same supporting structure. In this case, since it is difficult to directly install the supporting member in the lower part of the hanger casing, the only difference is between the cylinders and the construction frame, such as H-Beam, which is in contact with the lower end of the hanger casing.

10: pressing member
20: piston shaft
30: cylinder
30A: Cylinder Side Plate
40: Support member
50: hanger casing
60: spring
70: hanger rod
80: spring press plate
90: spacing member
100: spherical support member

Claims (4)

In testing the performance of the spring hanger while the spring hanger is supported by the construction frame to support the support,

Piston shaft 20; A pressing member 10 attached to the free end of the piston shaft; A hydraulic cylinder including a cylinder;
A U-shaped member fitted between the hanger casing 50 and the cylinder, the support member 40 being symmetrical with respect to the hanger rod 70 and supporting the cylinder to the outside of the piston shaft;

Frame-supported performance of the spring hanger, characterized in that the pressing member is placed on the spring holding plate 80 holding one end of the spring 60 of the spring hanger installed in the field to be in contact with each other, and pressurizes the hydraulic cylinder. tester The method of claim 1, further comprising:

A spacing member 90 for maintaining a horizontal spacing of the support members facing each other;

Frame-supported performance test device of the spring hanger further comprising In testing a spring hanger with a frame-supported performance test device,

Securing the support to the building frame;
Placing the pressing member of the hydraulic cylinder on the spring pressing plate of the spring hanger;
Inserting a support member between the hanger casing and the cylinder;
Measuring a load-displacement relationship while pressurizing the hydraulic cylinder;

Frame-supported performance test method of the spring hanger comprising 4. The method of claim 3, further comprising:

Installing a spacing member on an upper end of the hydraulic cylinder facing each other;

Frame-supported performance test method of the spring hanger further comprising

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