KR102477664B1 - Support unit capable of adjusting the height - Google Patents

Abstract

Height-adjustable support to minimize the distance between the pipe and the support structure supporting the pipe, even if the device operating at high temperature or the pipe connected to the device and transporting the fluid is deformed in height due to thermal expansion or contraction. unit is provided. The height-adjustable support unit is installed on the floor and supports a connection structure extending from a facility operating at a temperature higher or lower than the ambient temperature, and is disposed below the connection structure to support the connection structure. It includes a member and a heat control unit that adjusts the temperature of the support member to expand and contract the support member.

Description

Support unit capable of adjusting the height

The present invention relates to a height-adjustable support unit, and more particularly, to a device operating at a high temperature or a pipe that is connected to the device and transports a fluid, even if the height of the pipe is deformed due to thermal expansion or contraction. It relates to a height-adjustable support unit for minimizing the distance between supporting structures.

In general, pipes are mainly used for transporting fluid (gas/liquid) or powder, and may be connected in plurality and supported by a support structure installed at a lower portion.

On the other hand, in the process of transporting the fluid flowing inside the pipe, vibration, shaking, and thermal expansion occur due to the temperature or pressure of the fluid, and various devices connected to the pipe are operated at higher temperature conditions than the surroundings, resulting in thermal expansion and contraction. deformations will occur. In addition, the pipe transmits vibration and deformation due to thermal expansion and contraction generated from the connected device, and the height of the connection part rises according to the height change due to the thermal expansion of the device.

Conventional support structures for supporting pipes cannot support the pipe in response to the changed height when the pipe and various devices are deformed due to thermal expansion and the height changes, leading to breakage as the load of the pipe and various devices is biased. A problem occurred.

Accordingly, there is a need for a support structure capable of responding to changes due to various internal and external forces even when vibration or deformation occurs due to thermal expansion or contraction from changes in the temperature and pressure of the internal fluid in pipes and various devices connected to the pipes.

Korea Utility Model Registration No. 20-0179433, (2000.02.10.)

The technical problem to be achieved by the present invention is to solve this problem, even if the height of a pipe that is connected to a device or a device that is operated at a high temperature and transports a fluid is deformed in height due to thermal expansion or contraction, etc., to support the pipe and the pipe. It relates to a height-adjustable support unit for minimizing the distance between support structures.

The technical problem of the present invention is not limited to the problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The height-adjustable support unit according to the technical problem of the present invention is installed on the floor and supports a connection structure extending from a facility operating at a temperature higher or lower than the ambient temperature, at the bottom of the connection structure. It includes a support member disposed to support the connection structure and a heat control unit that expands and contracts the support member by adjusting the temperature of the support member.

The heat control unit may include a heating wire installed on an inner or outer circumferential surface of the support member to heat the support member.

The support member may be made of a material having a higher coefficient of thermal expansion than the equipment.

The support member may be set in a state of contacting and supporting the connection structure when the facility and the connection structure are at room temperature.

A heat insulating member interposed between the connection structure and the support member to block heat conduction may be further included.

A sensor unit for measuring the temperature of the facility or the outside may be included, and the heat control unit may adjust the temperature of the support member in response to the temperature measured by the sensor unit.

In the height-adjustable support unit according to an embodiment of the present invention, the support structure for supporting the pipe is caused by vibration, shaking, thermal expansion and contraction, etc. due to the temperature or pressure of the pipe and the fluid of various devices connected to the pipe. Even if the shape is deformed or the height is changed, the pipe can be stably supported in response to the changed height. In particular, the height-adjustable support unit of the present invention can support the load of the pipe by changing the height of the pipe and the device according to the temperature change by changing the temperature so that the support structure generates the same thermal expansion as that of the device.

1 is a perspective view of a height-adjustable support unit according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of Figure 1;
3 and 4 are operation diagrams of FIG. 1 .

Advantages and features of the present invention and methods for achieving them will become clear with reference to the detailed description of the following embodiments in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments make the disclosure of the present invention complete and those skilled in the art in the art to which the present invention belongs It is provided to fully inform the person of the scope of the invention, and the invention is defined only by the claims. Like reference numerals designate like elements throughout the specification.

Hereinafter, a height-adjustable support unit according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4 .

The height-adjustable support unit 1 of the present invention is deformed in shape and height due to thermal expansion and contraction of the facility 20 operated under high temperature conditions and the connection structure 10 extending from the facility 20. Even if it is, the support member 30 supporting the connection structure 10 can stably support the connection structure 10 in response to the change in height of the connection structure 10. In particular, the support member 30 can flexibly respond to the change in height of the connection structure 10 by adjusting the temperature to form the same value as the thermal expansion value of the facility 20. For example, the length of the support member 30 can be adjusted according to the change in height of the connection structure 10 by adjusting the length as much as the length of the equipment increased by thermal expansion because the temperature can be changed by the thermal control unit 31. have.

Hereinafter, after a detailed description of the height-adjustable support unit of the present invention with reference to FIGS. 1 and 2, the operating process of the height-adjustable support unit will be described with reference to FIGS. 3 and 4.

1 is a perspective view of a height-adjustable support unit 1 according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of FIG. 1 .

1 and 2, the height-adjustable support unit 1 according to an embodiment of the present invention is installed on the floor and extends from a facility 20 operated at a temperature higher or lower than the ambient temperature. In the support unit 30 supporting the connected structure 10, the support member 30 disposed below the connection structure 10 to support the connection structure 10 and the temperature of the support member 30 It includes a thermal control unit 31 for expanding and contracting the support member 30 by adjusting the.

The present invention can support the facility 20 operated at high temperature and the connection structure 10 connected from the facility 20. In the height-adjustable support unit 1 of the present invention, even if the shape is deformed or the height changes due to thermal expansion and contraction caused by the movement and temperature of the fluid flowing inside the connection structure 10 and the equipment 20 , It includes a support member 30 and a thermal control unit 31 capable of stably supporting the connection structure 10 by flexibly responding to the changed height.

On the other hand, equipment 20 in this specification refers to various types of devices operated under high temperature conditions such as boilers. In addition, the connection structure 10 refers to a pipe that can transfer fluid by extending from various devices, and may be arranged such that one end is connected to the facility 20. The support member 30 is a kind of support structure that supports the connection structure 10, and may be disposed at the lower end of the connection structure 10, and the height of the facility 20 is changed by thermal expansion by the fluid flowing therein. In this case, the lower end of the connection structure 10 is stably supported by flexibly responding to the change in height of the facility 20 and the connection structure 10. Hereinafter, the support member 30 for supporting the connection structure 10 will be described in detail.

The support member 30 is a structure for supporting the connection structure 10 and may be disposed under the connection structure 10 . The support member 30 may be formed in a structure that can be closely arranged with the shoe 11 fixedly disposed at the lower end of the connection structure 10, for example, formed of a pipe in which plates are coupled to the upper and lower parts, or an H-shaped It may be formed in various shapes capable of supporting the connection structure 10 at the lower end of the connection structure 10, such as an H-beam. As shown in the drawings, the support member 30 of the present invention may be placed in close contact with the lower surface of the shoe 11 by installing the pipe with flat plates fixed at both ends vertically from the bottom surface. The support member 30 has one end and the other end that can be disposed on the bottom surface and the lower part of the connection structure, respectively, and is formed extending from the bottom surface to the lower surface of the shoe 11 and disposed in close contact with the shoe 11 to form a connection structure 10 ) can be stably supported. The support member 30 is set in a state of contacting and supporting the connection structure 10 when the facility 20 and the connection structure 10 are at room temperature, and a heat control unit 31 may be disposed on the inner or outer circumferential surface. In addition, it may be made of a metal material capable of receiving heat from the thermal control unit 31 and expanding.

The thermal control unit 31 is for controlling the temperature of the support member 30 and may be disposed on an inner or outer circumferential surface of the support member 30 . The heat control unit 31 may generate heat by being disposed to surround the outer circumferential surface of the support member 30 , and may stretch and contract the support member 30 by transferring heat to the support member 30 disposed in close contact with each other. More specifically, the thermal control unit 31 may be formed of various types and materials capable of generating heat, and for example, a heating wire, steam, hot water, etc. capable of generating heat through current It may include a heating coil that can flow and generate heat. In addition, the heat control unit 31 is formed in a thin coil shape and is not limited to a shape surrounding the support member 30, and is formed in a thin plate shape. It may include various heat transfer members capable of transferring heat to the support member 30, such as being formed in a form closely disposed on the outer or inner circumferential surface of the support member. The thermal control unit 31 is disposed in close contact to surround the inner or outer circumferential surface of the support member 30 and can adjust the temperature of the support member 30 itself by heating the support member 30 .

On the other hand, the thermal control unit 31 is not limited to increasing the temperature of the support member 30 by transferring heat to the support member 30, but may also lower the temperature of the support member 30. For example, the heat control unit 31 may flow cold water or coolant inside the coil to lower the temperature according to the fill, so that the support member 30 shrinks and the height of the support member 30 may be lowered.

The thermal control unit 31 may adjust the temperature of the support member 30 in response to a temperature value measured from the facility 20 or a sensor unit (not shown) that measures the external temperature. In other words, the thermal expansion value of the facility 20 can be measured through the temperature value measured by the sensor unit, and the thermal expansion value of the support member 30 can be predicted through the measured thermal expansion value of the facility 20. .

Through the shown correlation 1, the thermal expansion value of the facility 20 can be measured, and since the temperature of the fluid flowing into the facility 20 from the connection structure 10 is different, there may be a temperature deviation, so an accurate temperature value In order to measure, the sensor unit may be installed at the top and bottom of the facility 20. Through the correlation equation 1, the thermal expansion value of the equipment 20 is obtained, and the thermal expansion value of the support member 30 can be predicted.

In addition, the thermal control unit 31 heats the support member 30 so that the temperature of the support member 30 can rise to a temperature value of the support member 30 derived through correlation 2 shown. The height of the support member 30 may be adjusted according to temperature change by receiving heat from the heat controller 31 . In other words, the height of the connection structure 10 connected to the facility 20 may change according to the thermal expansion value of the facility 20, and the heat control unit 31 adjusts the temperature of the support member 30 so that the facility ( 20), it is possible to stably support the load of the connection structure 10 by generating a thermal expansion corresponding to that of the thermal expansion and changing the height.

Meanwhile, a heat insulating member 40 may be disposed between the support member 30 and the connection structure 10 .

The heat insulating member 40 is for blocking heat conducted between the connecting structure 10 and the support member 30 which are disposed in close contact with each other, and may be a kind of heat insulating material. The heat insulating member 40 may be made of a material having high thermal insulation or heat resistance, and is formed in a plate shape having a size similar to that of the lower surface of the shoe 11 or the upper surface of the support member 30, so that the connection structure 10 and the support member ( 30) may be interposed between them. The heat insulating member 40 can prevent a phenomenon in which the connection structure 10 is heated by the fluid flowing therein and heat is conducted to the support member 30 closely disposed therein. In particular, the heat insulating member 40 is formed of an elastic material and may act as a buffer between the connection structure 10 and the support member 30, and the height of the connection structure 10 rises due to thermal expansion and the support member 30 ) Is characterized by being able to alleviate the shock generated while in contact with the shoe 11 disposed on the top by being raised in height by the thermal control unit 31.

Hereinafter, with reference to FIGS. 3 and 4 , the operation process of the height-adjustable support unit according to an embodiment of the present invention will be described in detail.

First, referring to FIG. 3, a view in which the height of the connection structure 10 is increased is shown. The connection structure 10 and the facility 20 cause thermal expansion or contraction due to the movement of the fluid flowing along the inside and the temperature change. In FIG. 3 , the height and width of the facility 20 expand due to the temperature rise, and accordingly, the height of the connection part connected to the connection structure 10 also increases. In the connection structure 10, one end connected to the facility 20 rises according to the change in height of the facility 20, and thus, it is spaced apart from the support member 30 supporting the lower end of the shoe 11, and the support member 30 A phenomenon in which the load cannot be supported occurs. At this time, as described in detail above, the temperature of the facility 20 is measured through the sensor unit to obtain the thermal expansion value of the facility 20, and the thermal expansion value of the facility 20 is the same as the thermal expansion value of the support member 30. Under the assumption, the temperature of the support member 30 can be predicted. When the thermal control unit 31 heats the support member 30 so that the temperature of the support member 30 can rise by the predicted temperature, the support member 30 thermally expands and increases in height as shown in FIG. 4 . can do.

4 shows a view in which the height of the support member 30 is raised and disposed in close contact with the lower end of the shoe 11. Through correlation equation 1, the thermal expansion value of the facility 20 is measured, and the temperature of the support member 30 is predicted through correlation equation 2, and the heat control unit 31 heats the support member 30 by the predicted temperature. In the case of doing so, as shown in FIG. 4 , the support member 30 may expand and increase in height. As the height of the support member 30 rises, the heat insulating member 40 disposed on the upper surface may be disposed in close contact with the lower end of the shoe 11 . At this time, the heat insulating member 40 can respond to elasticity, so that the lower end of the inclined shoe 11 and the upper surface of the support member 30 can be placed in close contact with the upper and lower ends due to thermal expansion. In addition, in the present invention, the sensor unit measures the temperature of the facility 20 and adjusts the support member 30, so that it can flexibly cope with situations not considered during pipe analysis, and the heat installed in the existing support member 30 Costs can be minimized by utilizing the control unit 31 .

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains know that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. You will understand. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

1: Height-adjustable support unit
10: connection structure 11: shoe
20: equipment 30: support member
31: heat control unit 40: insulation member

Claims (6)

In the support unit installed on the floor and supporting a connection structure extending from equipment operating at a temperature higher or lower than the ambient temperature,
a support member closely disposed under the connection structure to support the connection structure;
A heat insulating member interposed between the connection structure and the support member to block heat conduction, and
Including a thermal control unit for adjusting the temperature of the support member to expand and contract the support member,
The support member is
When the facility and the connection structure are at room temperature, they are set in a state of contacting and supporting the connection structure, and when the temperature of the facility and the connection structure is varied, by the thermal control unit in a state of being separated from the connection structure. A height-adjustable support unit that is stretched and in contact with the connection structure again. According to claim 1,
The height-adjustable support unit comprising a heating wire installed on the inner or outer circumferential surface of the support member to heat the support member. According to claim 1,
Including a sensor unit for measuring the temperature of the facility or the outside,
The height-adjustable support unit for controlling the temperature of the support member in response to the temperature measured by the sensor unit. delete delete delete

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