KR101459107B1 - Constant load supporter - Google Patents

Abstract

A constant load supporting device disclosed herein includes an elastic body that can be contracted or extended in one direction; an accommodating container that accommodates the elastic body; an elastic body supporting unit that is arranged in the accommodating container and can be moved in response to the contraction or extension of the elastic body; a first load transmission member that is coupled with the elastic body supporting unit and can be moved in response to the movement of the elastic body supporting unit; a movement guide that is coupled with the accommodating container; a first load transmission shaft that is coupled with the first load transmission member and passes through the movement guide; a displacement limiting member that is coupled with the movement guide and passes through the first load transmission member; a second load transmission member that is coupled with the first load transmission shaft and can move in response to the movement of the first load transmission member; a second load transmission shaft that passes through the second load transmission member; and a third load transmission member that is coupled with the second load transmission shaft and can rotate in response to the second load transmission member.

Description

{CONSTANT LOAD SUPPORTER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a supporting apparatus, and more particularly, to a static load supporting apparatus for buffering a load body or supporting a load body.

In general, piping of industrial equipment such as a power plant is transported at a high temperature, high pressure fluid and gas, and is long. Accordingly, the pipe is elongated due to high temperature, high pressure and vibration, and the pipe is contracted when the generator is stopped. In this process, the displacement of the pipe occurs, and therefore the durability of the pipe may deteriorate.

For this reason, the piping requires a separate supporting device, and a constant load supporting device, which provides a static load using an elastic body such as a spring, may be used for securing reliability.

An object of the present invention is to provide a static load supporting device which is easy to assemble and disassemble, and which is simple in construction and highly reliable.

A static load supporting apparatus according to the present invention is a static load supporting apparatus comprising: an elastic body capable of being contracted or tensioned in one direction; a storage container for storing the elastic body; an elastic body supporting portion disposed in the storage container and movable along with contraction or tension of the elastic body; A first load transfer member coupled to the support portion and movable along with movement of the elastic body support portion, a movement guide coupled to the storage container, a first load transfer member coupled to the first load transfer member, And a second load transmission member coupled to the movement guide and engaged with the first load transmission member, the second load transmission member being engaged with the first load transmission shaft and being movable along the movement of the first load transmission member, A second load transmission shaft passing through the second load transmission member and the second load transmission shaft, And a third load transmitting member capable of rotational movement in accordance with the movement of the lunar member.

In one embodiment, the elastic body comprises at least one spring.

In one embodiment, the first load transmission member has a first guide groove into which the displacement limiting member is inserted, and the first guide groove has a shape extending along the moving direction of the first load transmission member.

In one embodiment, the static load supporting device further includes a fixed wall coupled to the storage container, and the third load transfer member is rotatable about a fixed shaft coupled to the fixed wall.

In one embodiment, the static load supporting device further includes a load transmitting member passing through the first load transmitting member, the second load transmitting member, and the fixed wall.

In one embodiment, the load fixing member includes a serrated fixing portion, and the wall has a guide groove into which the load fixing member is inserted and which permits movement of the load fixing member, And a fixing member having a saw-tooth shape so as to be able to be moved.

In one embodiment, the third load transmission member has a guide groove into which the second load transmission shaft is inserted and which allows movement of the second load transmission shaft in one direction, and in the guide groove, a second load And a load adjustment device capable of adjusting the position of the transmission shaft.

In one embodiment, the first load transmission shaft passes through the first load transmission member, the movement guide, and the second load transmission member.

The static load supporting device according to the present invention has a simple load transferring structure, so that the reliability and durability of the static load supporting device can be improved.

1 is a perspective view illustrating a static load supporting apparatus according to an embodiment of the present invention.
FIGS. 2 and 3 are perspective views showing a section of the static load supporting device of FIG. 1. FIG.

Hereinafter, a static load supporting apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the dimensions of the structures are enlarged to illustrate the present invention in order to clarify the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a part or a combination thereof is described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

FIG. 1 is a perspective view illustrating a static load supporting apparatus according to an embodiment of the present invention, and FIGS. 2 and 3 are perspective views illustrating a section of the static load supporting apparatus of FIG. 1. Fig. 2 and Fig. 3 show cross sections in different directions.

1 to 3, the static load supporting device includes an elastic body contracted or tensioned in the first direction and a storage container for housing the elastic body. In this embodiment, the elastic body includes a spring, and specifically includes a first spring 21 and a second spring 22 surrounding the first spring. The storage container includes a cylinder (12) surrounding a side surface of the spring and a cover (14) covering one end of the spring. The cover (14) is fixedly coupled to the cylinder (12). In this embodiment, the elastic body includes two springs, but in other embodiments, it may include a single spring or three or more springs.

Inside the cylinder (12), an elastic body supporting part (24) which is in contact with the other end of the spring is disposed. The elastic support portion 24 is movable in the cylinder 12 in one direction, for example, in the direction of contraction or tension of the spring. The compression amount of the elastic body is determined according to the position of the elastic body support portion 24, and thus the magnitude of the load provided by the elastic body is changed. The elastic support portion 24 may have a plate shape parallel to the direction perpendicular to the shrinking or tensile direction of the spring.

The elastic support portion 24 is engaged with a first load transmission member 28 passing through the elastic body. For example, the elastic support portion 24 may be fixed to the first load transmission member 28 by a first engagement member 26 such as a lock nut. Therefore, one end of the first load transmission member 28 is engaged with the first engagement member 26. [

The first load transmission member 28 is movable in one direction, for example, along the contraction or tension direction of the spring, and has a shape elongated in the direction.

The static load supporting device includes a first movement guide (16) coupled to the storage container. Specifically, the first movement guide 16 may be coupled to the cover 14 and extend in a direction passing through the elastic body. The first movement guide (16) has a displacement limiting member (18) passing through the first load transmission member (28). The displacement limiting member 18 is inserted into the first guide groove 29 of the first load transmission member 28 and the first guide groove 29 is formed in the moving direction of the first load transmission member 28 As shown in Fig. The first load transfer member 28 may have a plate shape extending along the contraction or tension direction of the spring. The first movement guide 16 may be formed on both sides of the first load transfer member 28 A pair of opposite sides can be arranged.

Since the position of the displacement limiting member 18 is fixed to the storage container, the moving distance of the first load transmission member 28 is limited.

The first load transmission member 28 is connected to a first load transmission shaft 32 passing through the first movement guide 16. The first load transmission shaft 32 is fixed to the first load transmission member 28 and is movable in one direction along the second guide groove 17 formed in the first movement guide 16, The first load transmission member 28 can move along the moving direction of the first load transmission member 28.

The first load transmission shaft 32 is connected to the second load transmission member 36. The first load transmission shaft passes through the first load transmission member, the movement guide, and the second load transmission member. For example, the first load transmission shaft 32 passes through one end of the second load transmission member 36. Accordingly, as the first load transmission shaft 32 moves, the second load transmission member 36 is movable. In addition, the second load transmission member 36 is rotatable about the first load transmission shaft 32.

The second load transmission member 36 may have a plate shape extending along the contraction or tensile direction of the spring, and a pair of the second load transmission member 36 may be disposed. For example, a pair of first movement guides 16 and a first load transmission member 28 may be disposed between the pair of second load transmission members 36. [

The cover 14 has an opening, and the first load transmission member 28 and the second load transmission member 36 pass through the opening.

The other end of the second load transmission member (36) is connected to the second load transmission shaft (38). The second load transmission shaft 38 is engaged with the third load transmission member 42. The third load transmission member 42 is rotatable about the fixed shaft. Therefore, the third load transmission member 42 can perform the rotational behavior in accordance with the movement of the second load transmission member 36. Specifically, the third load transmission member 42 is rotatable with respect to the fixed shaft 48 coupled to the fixed wall body 72 fixed to the cover 14.

The third load transfer member 42 includes a third load transfer shaft 52 and a fourth load transfer member 54 rotatable about the third load transfer shaft 52 is coupled. Therefore, the fourth load transmission member 54 is movable in accordance with the rotational behavior of the third load transmission member 42. The fourth load transmission member 54 transmits a load to a load body, for example, a pipe supported by the static load supporting device. For example, the fourth load transfer member 54 includes a second engaging member 56 coupled to the yoke bolt 58, the yoke bolt 58 having a turnbuckle 62 connected to the load body, Can be combined.

Therefore, a load generated by the elastic body is transmitted to the first load transmission member 28, the first load transmission shaft 32, the second load transmission member 36, 2 load transfer shaft 38, the third load transfer member 42, the third load transfer shaft 52 and the fourth load transfer member 54. In this way, The storage container is fixed to the ground, the inner wall of the building, or the like.

The first load transmission member 28 passes through the cover 14 and the other end of the first load transmission member 28 is connected to the load fixing member 34. The load fixing member 34 is movable in one direction, for example, along the moving direction of the first load transmission member 28, in accordance with the transmitted load. Further, the load fixing member 34 is engaged with the second load transmission member 36. Therefore, the load fixing member 34 is fixed to the first load transmission member 28, and the load fixing member 34 serves as a link for transmitting a load to the second load transmission member 36 You may.

The second load transmission member 36 is formed with a groove through which the load fixing member 34 passes, and the groove has a shape extending in the direction perpendicular to the moving direction of the first load transmission member 28 Lt; / RTI > Accordingly, the second load transmission member 36 is rotatable about the first load transmission shaft 32 in a state where the second load transmission member 36 is connected to the load fixing member 34.

Since the position of the load fixing member 34 is fixed to the first load transmission member 28, the compression load of the elastic member 34 can be externally displayed. For example, the load fixing member 34 may penetrate the fixed wall body 72, and a third guide groove 73 into which the load fixing member 34 is inserted may be formed in the fixed wall body 72 . Therefore, the load fixing member 34 penetrates the first load transmission member 28, the second load transmission member 36, and the fixed wall member 72. [ The third guide groove 73 has a shape elongated in one direction so that the load fixing member 34 can move while the fixing member 34 passes through the fixed wall body 72.

A toothed fixing portion 35 may be coupled to one end of the load fixing member 34. [ A fixing member 74 is coupled to the outer surface of the fixed wall body 72 so as to engage with the fixed portion 35 and fix the position of the fixed portion 35 to the fixed wall body 72. By setting the position of the fixing portion 35 after applying the load to the static load supporting device, a preload can be set. For example, the fixing portion 35 may have a saw-tooth shape, and the fixing member 74 may have a saw-tooth shape that can be engaged with the teeth of the fixing portion 35.

The second load transmission shaft 38 is engaged with the load control device. The load control device includes a connection part 44 for coupling with the second load transmission shaft 38 and a control part 46 for adjusting the position of the connection part 44. The adjusting portion 46 can adjust the position of the connecting portion 44 with respect to the third load transmitting member 42 by using a screw or the like. The second load transmission shaft 38 passes through the third load transmission member 42 and the fourth guide groove 43 into which the second load transmission shaft 38 is inserted is inserted in one direction, And has a shape extending in the longitudinal direction of the regulating part 46. [ Therefore, the position of the second load transmission shaft 38 relative to the third load transmission member 42 can be changed according to the movement of the connection portion 44. The connecting portion 44 may be disposed between the pair of second load transmission members 36. [

When the position of the second load transmission shaft 38 changes, the path from the first load transmission member 28 to the load body changes, and the pressure transmitted to the load body can be adjusted.

The static load supporting device according to the present invention has a simple load transferring structure, so that the reliability and durability of the static load supporting device can be improved.

 It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims. It can be understood that it is possible.

The static load supporting device according to the present invention can be used for supporting a structure susceptible to vibration such as piping of a power plant or the like.

12: Cylinder
14: cover
16: Moving Guide
17: first guide groove
18: Displacement limiting member
21, 22: spring
24:
26: first coupling member
28: first load transmitting member
29: first guide groove
32: first load transmission shaft
34: Load fixing member
36: second load transmitting member
38: second load transmission shaft
42: third load transmitting member
43: fourth guide groove
44: Connection
46:
48: Fixed shaft
52: Third load transmission shaft
54: fourth load transmitting member
56: second coupling member
72: fixed wall
73: Third guide groove
74: Fixing member

Claims (8)

An elastic body capable of shrinking or stretching in one direction;
A storage container for storing the elastic body;
An elastic body supporting part disposed in the accommodating container and movable along with contraction or tension of the elastic body;
A first load transmission member coupled to the elastic support portion and movable along with movement of the elastic support portion;
A movement guide coupled to the storage container;
A first load transmission shaft coupled with the first load transmission member and passing through the movement guide;
A displacement restricting member coupled to the movement guide and passing through the first load transmission member;
A second load transmission member coupled to the first load transmission shaft and movable along with movement of the first load transmission member;
A second load transmission shaft passing through the second load transmission member;
A third load transmission member coupled to the second load transmission shaft and capable of rotating in response to movement of the second load transmission member;
A fixed wall coupled to the storage container; And
And a load fixing member passing through the first load transmission member, the second load transmission member, and the fixed wall,
Wherein the third load transmission member is rotatable about a fixed shaft coupled to the fixed wall. 2. The static load supporting device according to claim 1, wherein the elastic body comprises at least one spring. 3. The apparatus according to claim 2, wherein the first load transmission member has a first guide groove into which the displacement limiting member is inserted, and the first guide groove has a shape extending along the moving direction of the first load transmission member Wherein the fixed load supporting device is a fixed load supporting device. delete delete 2. The apparatus according to claim 1, wherein the load fixing member includes a serrated fixing portion, the fixing fixing member has a guide groove into which the load fixing member is inserted and which permits movement of the load fixing member, And a fixing member having a saw-tooth shape so as to be able to engage with the fixed load member. The apparatus according to claim 6, wherein the third load transmission member has a guide groove into which the second load transmission shaft is inserted and which permits movement of the second load transmission shaft in one direction, and in the guide groove, And a load adjusting device capable of adjusting the position of the load transmission shaft. 3. The static load supporting device according to claim 2, wherein the first load transmission shaft passes through the first load transmission member, the movement guide, and the second load transmission member.

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