KR101936382B1 - Supporter for dual piping - Google Patents

Abstract

The present invention is characterized by comprising a first support member and a second support member, each of which is in contact with an inner pipe and supports an outer pipe of a larger diameter than the inner pipe and the inner pipe, Each of which includes a pair of engaging plate portions in line contact with the inner pipe, and at least one bending plate portion in a line contact with the inner pipe and bent in relation to a contact line in contact with the inner pipe, According to the present invention, it is possible to adjust the clearance that can be generated when a support body is provided between an inner pipe and an outer pipe in a double pipe, and to prevent the space between the inner pipe and the outer pipe from being closed due to the support, The contact with the piping is small, the heat transfer path is long, and the vibration generated in the piping can be minimized.

Description

SUPPORTER FOR DUAL PIPING < RTI ID = 0.0 >

The present invention relates to a dual piping support for inserting between a piping to support an inner pipe and an outer pipe of a dual pipe providing a path of a cryogenic fluid in which adiabatic characteristics are important.

Cryogenic fluids such as LNG, liquefied nitrogen, etc. are transferred through the piping from the storage tank to the storage tank or from the storage tank to the use place in a cryogenic liquid state or in a gas state at a certain temperature depending on the use environment.

Pipes in contact with such cryogenic fluids are of great importance for their thermal insulation properties. That is, since the cryogenic fluid such as LNG is very low in the liquefaction temperature, vaporization occurs when the temperature rises only slightly, and when the LNG is vaporized, the pressure in the piping rapidly increases, and there is a great risk of leakage, explosion and fire from the pipe .

Therefore, the piping for such a cryogenic fluid is generally composed of double piping, and the cryogenic fluid flows through the inner pipe and the outer appearance is separated from the inner pipe, thereby minimizing the influence of the outside air on the inner pipe, It is designed to be physically protected.

Further, in order to prevent heat insulation and vaporization, the space between the inner tube and the outer tube is filled with a heat insulating material or kept in a vacuum state.

In order to maintain the distance between the inner tube and the outer tube and prevent the inner tube from being deformed, a supporting means for supporting the inner tube and the outer tube is provided between the inner tube and the outer tube.

Figures 1 to 3 illustrate such a conventional support.

The support of Fig. 1 is constructed so that a plate or a metal plate made of a resin having a low thermal conductivity is processed into a triangular or square shape so as to surround the inner tube and contact with the outer surface.

2 is a view showing a state in which a metal support is processed into a bar shape and welded to an inner tube or a band clamp.

Next, as shown in Fig. 3, a structure in which the clamp is bent and fastened to the inner tube is also used.

However, there is a problem in that such a conventional support stand has a problem that a support member coupled to an inner pipe due to a work tolerance may cause a clearance with the outer appearance, and when such a gap is generated, .

In addition, in the case of the support structure shown in Fig. 1, a part of the space between the inner tube and the outer tube is blocked, so that the spatial flow path between the inner tube and the outer tube is blocked.

1 to 1, the heat transfer is relatively easy because the contact surface is wider due to the surface contact with the inner tube, and the heat transfer path is relatively short in both of the supports of Figs. 1 to 3. Therefore, To the inner tube to provide a direct heat transfer path.

On the other hand, since the cryogenic fluid passes through the piping by the filling pressure of the storage tank or the supply pressure of the pump installed on the piping line, the vibration due to the pump driving is transmitted to the piping to cause vibration and noise in the piping. Existing supports shown in the drawings may not sufficiently mitigate vibrations due to excessive contact between the inner tube and the outer tube, and the vibration may be doubled in some cases.

The matters described in the background art are intended to aid understanding of the background of the invention and may include matters which are not known to the person of ordinary skill in the art.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a double pipe capable of adjusting a clearance that can be generated when a support is installed between an inner pipe and an outer pipe, And it is an object of the present invention to provide a dual piping support which does not close the internal piping and the external piping, has a short heat transfer path, and minimizes the vibration generated in the piping.

The support for a dual pipe according to an aspect of the present invention includes a first support member and a second support member for contacting an inner pipe and supporting an outer pipe having a larger diameter than the inner pipe and the inner pipe, Each of the first supporting member and the second supporting member includes a pair of engaging plate portions that are in line contact with the inner pipe and a plurality of engaging portions which are in line contact with the inner pipe, And the bending plate portion.

The first engaging plate portion of the first supporting member and the first engaging plate portion of the second supporting member are engaged and the second engaging plate portion of the first supporting member is engaged with the second engaging plate portion of the second supporting member And is installed in the double pipe.

Here, the second engagement plate portion of the first support member and the second engagement plate portion of the second support member are hinge-coupled.

The first support member and the second support member may further include a flange portion bent and extended from the second engagement plate portion of the first support member and the second engagement plate portion of the second support member, And the flange portion of the pair is hingedly connected.

The coupling plate portion is in line contact with the inner pipe, and the coupling plate portion is not parallel to the plane including the contact line contacting the inner pipe while the coupling plate portion is in contact with the inner pipe.

Further, the first support member and the second support member may each further include a flange portion bent and extended from an engagement plate portion of the first support member and an engagement plate portion of the second support member, And the flange portion of the second support member is bolted to the flange portion of the second support member.

The first support member and the second support member may each further include a support plate portion connecting the two bent plate portions.

The repair line of the support plate portion passes through the center line of the inner pipe.

Alternatively, each of the first support member and the second support member may further include a support plate portion connecting the bending plate portion and the engagement plate portion.

The repair line of the support plate portion passes through the center line of the inner pipe.

In addition, the support plate portion may further include a support pin hole, a support pin passing through the support pin hole, and a support pin holder coupled to the support pin.

Wherein the support pin has a male screw portion having a threaded portion and a holder insert portion having a diameter larger than that of the screw portion, and the support pin holder has a diameter corresponding to the female screw portion into which the male screw portion of the support pin is inserted and the holder insertion portion And a support pin holding portion into which the holder insertion portion is inserted.

One end of the support pin holding part is connected to the female screw part and the other end is formed with an outer fixing part protruding radially, and a radially protruding inner side part protruding from the side surface of the support pin holder spaced from the outer fixing part And the support pin holder is engaged with the support plate portion by a groove formed by the outer fixed portion and the inner fixed portion.

And the support pin is in contact with the inner surface of the outer pipe.

Further, the heat transfer coefficient of the support pin is smaller than the heat transfer coefficient of the metal.

A support for a dual pipe according to another aspect of the present invention includes a first support member and a second support member for contacting an inner pipe and supporting an outer pipe having a larger diameter than the inner pipe and the inner pipe, Wherein each of the first supporting member and the second supporting member includes a pair of engaging plate portions that are in line contact with the inner pipe, a plurality of connecting plate portions that are in line contact with the inner pipe, And a support plate portion connecting the bending plate portion and the engagement plate portion.

Here, the repair line of the support plate portion passes through the center line of the inner pipe.

Furthermore, the support plate portion may further include a support pin hole, a support pin extending through the support pin hole, and a support pin holder coupled to the support pin.

Wherein the support pin has a male screw portion having a threaded portion and a holder insert portion having a diameter larger than that of the screw portion, and the support pin holder has a diameter corresponding to the female screw portion into which the male screw portion of the support pin is inserted and the holder insertion portion And a support pin holding portion into which the holder insertion portion is inserted.

One end of the support pin holding part is connected to the female screw part and the other end is formed with an outer fixing part protruding radially, and a radially protruding inner side part protruding from the side surface of the support pin holder spaced from the outer fixing part And the support pin holder is engaged with the support plate portion by a groove formed by the outer fixed portion and the inner fixed portion.

And the support pin is in contact with the inner surface of the outer pipe.

Further, the heat transfer coefficient of the support pin is smaller than the heat transfer coefficient of the metal.

On the other hand, the bent angle of the bending plate portion is not less than 100 ° and not more than 130 °.

The first support member and the second support member may further include a flange portion extending from the engagement plate portion, and the bending angle formed by the engagement plate portion and the flange portion may be 70 ° or more and 87 ° Or less.

According to another aspect of the present invention, there is provided a dual piping support comprising: a first support member and a second support member, each of which is in contact with a heat insulating material surrounding an inner pipe and supports an outer pipe having a larger diameter than the inner pipe and the inner pipe; Wherein each of the first supporting member and the second supporting member includes a pair of engaging plate portions that are in line contact with the inner pipe and a plurality of connecting plate portions that are in line contact with the inner pipe, And includes a bent plate portion having a bent shape.

The coupling plate portion is in line contact with the heat insulating material, and the coupling plate portion is not in parallel with the plane including the contact line contacting the heat insulating material while the coupling plate portion is in contact with the heat insulating material.

Each of the first support member and the second support member may further include a support plate portion connecting the bending plate portion and the engagement plate portion.

Here, the repair line of the support plate portion passes through the center line of the inner pipe.

Further, the support plate portion may further include a support pin hole formed therein, a support pin penetrating through the support pin hole, and a support pin holder coupled with the support pin, wherein the support pin contacts the inner surface of the outer pipe .

Wherein the support pin has a male screw portion having a threaded portion and a holder insert portion having a diameter larger than that of the screw portion, and the support pin holder has a diameter corresponding to the female screw portion into which the male screw portion of the support pin is inserted and the holder insertion portion And a support pin holding portion into which the holder insertion portion is inserted.

One end of the support pin holding part is connected to the female screw part and the other end is formed with an outer fixing part protruding radially, and a radially protruding inner side part protruding from the side surface of the support pin holder spaced from the outer fixing part And the support pin holder is engaged with the support plate portion by a groove formed by the outer fixed portion and the inner fixed portion.

The heat transfer coefficient of the support pin is smaller than the heat transfer coefficient of the metal.

On the other hand, the bent angle of the bending plate portion is not less than 100 ° and not more than 130 °.

The first support member and the second support member may each further include a flange portion that extends from the engagement plate portion and the bent angle formed by the engagement plate portion and the flange portion is 70 ° or more and 87 ° Or less.

The support of the double pipe of the present invention can be adjusted to the clearance generated when the pipe is installed between the inner pipe and the outer pipe by the support pin so that it can be more faithful to the basic function of the support.

And, since the support does not completely block the space between the inner tube and the outer tube, the exhaust operation is smooth through the exhaust port in the space between the support and the support.

In addition, since the contact point with the inner pipe is minimized, the heat transfer distance between the inner pipe and the outer pipe is long, and the contact area is small.

Likewise, the contact with the outer surface is also reduced by the support pin, so that the heat transfer can be reduced, and the contact pin can also minimize the heat transfer by using a material having a low heat transfer coefficient.

In addition, since the point of contact with the inner pipe is small, the transmission of vibration can be reduced, and by the M-shaped structure formed by the coupling plate portion, the support plate portion and the bending plate portion of the support member, vibration is absorbed or absorbed There is a number.

Figs. 1 to 3 show a conventional double piping support.
4 is a cross-sectional view of a dual pipe provided with a support for a double pipe according to an embodiment of the present invention.
5 is a cross-sectional view of a vacuum insulation pipe provided with a support for a double pipe according to another embodiment of the present invention.
6 shows a support pin and a support pin holder constituting a dual pipe support.
7 shows a clearance adjusting operation by the support pin and the support pin holder.
8 is a view for explaining the bending angle of the bending plate portion and the engaging plate portion of the support of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In describing the preferred embodiments of the present invention, a description of known or repeated descriptions that may unnecessarily obscure the gist of the present invention will be omitted or omitted.

FIG. 4 is a cross-sectional view of a double pipe provided with a support for a double pipe according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of a vacuum insulation pipe provided with a support for a double pipe according to another embodiment of the present invention. Respectively.

Hereinafter, a support for a dual pipe according to the present invention will be described with reference to FIGS. 4 and 5. FIG.

The support of the double pipe according to the present invention is installed between the inner pipe and the outer pipe of the double pipe having the double pipe structure of the inner pipe and the outer pipe for the transfer of the cryogenic fluid which is important to prevent the heat insulation and leakage, To support the piping.

In addition to physically supporting the internal piping and the external piping and preventing the leakage by the double structure, the heat of the external piping in contact with the external environment minimizes the transfer of the cryogenic fluid to the internal piping flowing therein, It is also important to absorb or cushion the force so that the transmission of physical forces such as vibration is not transmitted to the inner pipe.

The dual piping support according to the present invention solves these important problems. The dual piping support according to FIG. 4 is installed in a space between the inner piping P1 and the outer piping P2, P1) and the external pipe (P2) to support the double pipe.

To this end, the dual piping support is provided with a first support member 100 and a second support member 200, and the first support member 100 and the second support member 200 are arranged so as to be in contact with the inner pipe P1 Wrap the two members together and fix them.

The first supporting member 100 and the second supporting member 200 have a pair of coupling plate portions 110, 120, 210 and 220, respectively, for coupling with each other. The first and second supporting members are connected to each other by a first engaging plate 110 of the first supporting member, a second engaging plate 120 of the first supporting member, a first engaging plate 210 of the second supporting member, 220).

The coupling plate portions 110, 120, 210 and 220 may be coupled to each other without contacting the inner pipe P1 depending on whether the coupling plate portions 110, 120, 210 and 220 are joined to the inner pipe P1. ) Is in contact with the inner pipe (P1).

The coupling plate portion of the double piping support of the present invention and the other plate portions to be described later are plates having a predetermined length on the piping central axis in order to cover and support a certain portion in the longitudinal direction of the piping.

Therefore, the coupling plate portions 110, 120, 210 and 220 are configured to make line contact with the inner pipe P1, not in surface contact, and the surfaces other than the contacting lines 111, 121, 211 and 221 are separated from the inner pipe P1. This is a structure for minimizing the desired heat transfer of the present invention.

One or more bending plate portions 120, 220 are provided in line contact with the inner pipe P1. The bending plate portions 120 and 220 are also configured so as to be in line contact with the inner pipe P1 without surface contact and the surfaces other than the contact lines 131 and 231 that are in line contact with the inner pipe P1 are connected to the inner pipe P1 .

In order to satisfy the objects of the present invention, at least one bending plate portion is required on one support member, and two or more bending plate portions may be formed depending on the specifications and characteristics of the double pipe to be installed. The bending plates located in the first and second support members 100 and 200 are referred to as a bending plate 130 of the first support member and a bending plate 230 of the second support member, respectively.

In the case of two or more bent plate portions, the number of the bent plate portions between the two supporting members may be different.

In the example of the present invention, one support member has one bending plate portion as an example.

The bending plate portions 120 and 220 have a shape bent in both directions with reference to contact lines 131 and 231 that make line contact with the inner pipe P1 as shown in the figure.

Therefore, the support member basically includes one bending plate portion and two engagement plate portions.

Thus, it is possible that both ends of one bending plate portion come into contact with one end of the angle of the engaging plate portion, so that both ends of the bending plate portion contact with the external pipe P2.

The object of the present invention can also be achieved by such a configuration.

The support of the present invention further includes support plate portions 140 and 240 connecting the bending plate portions 130 and 230 and the coupling plate portions 110 and 120 and 220. The support of the external pipe P2 is supported by the support The configuration of the pin 310 is as follows.

The direction of the water line passing through the centers of the support plate portions 140 and 240 is the center line direction of the internal pipe P1, which can enhance the stability of the support member.

As described above, one support member of the present invention has a structure in which it contacts only the inner pipe P1 through the three-part contact line, and all the other surfaces are spaced apart from the inner pipe P1.

Since the thermal conductivity is proportional to the contact area, the present invention minimizes the heat transfer to the internal pipe P1 through such a construction.

In addition, the support member must be in contact with the outer pipe (P2) so that the spacing structure proposed by the present invention satisfies this requirement, while allowing the heat transfer path to be sufficiently long so that the heat conductivity inversely proportional to the heat transfer path can be reduced.

Next, a support pin hole is formed in the support plate portions 140 and 240 to support the outer pipe P2 in contact with the outer pipe P2, and a support pin 310 passing through the support pin hole is provided.

The support pin 310 is inserted from the side of the external pipe P2 with respect to the support plate portions 140 and 240 and the support pin holder 320 for engaging with the support pin 310 is inserted into the support plate portions 140 and 240 ) On the side of the inner pipe P1.

Fig. 6 shows a support pin and a support pin holder constituting a dual pipe support, and Fig. 7 shows a clearance adjustment operation by a support pin and a support pin holder.

The support pin 310 is composed of a head 311 having a larger diameter than the support pin holes of the support plate portions 140 and 240 and a holder insertion portion 312 and a male screw portion 313, The pin holder 320 includes a female screw portion 321 corresponding to the male screw portion 313, a support pin holding portion 322 for holding the holder inserting portion 312, and an outer fixing portion 323 and an inner fixing portion 324. [ . In other words, a female thread portion is formed at one side of the support pin holder 320 so as to be connected to the male thread portion, and an outer fixing portion radially protruding and extending radially is formed at the other side of the support pin holder 320, And the support pin holder 320 is supported by the groove formed by the outer fixing part 323 and the inner fixing part 324, And are joined together.

The support pin 310 and the support pin holder 320 are connected to each other by a screw pin engagement between the male screw portion 313 and the female screw portion 321. The support pin hold portion 322 The holder inserting portion 312 provides a more rigid connection in an interference fit manner.

The configuration of the support pin 310 and the support pin holder 320 according to the present invention serves as a configuration for coping with the clearance that is generated when the support body is installed in the double pipe.

That is, the height of the support pin 310 is adjusted by adjusting the degree of the screw connection between the support pin 310 and the support pin holder 320 in a different manner.

As shown in FIG. 7A, when a clearance is generated in a coupled state as shown in FIG. 7A, the head 311 of the support pin 310 is installed so as to be in contact with the external pipe P2 by unscrewing it by a distance d as shown in FIG. will be.

In order to enable this, it is necessary to stably fix the support pin holder 320.

The support pin holder 320 is fixed to the support plate portions 140 and 240 by the outer fixed portion 323 and the inner fixed portion 324. [

In other words, an outer fixing part 323 having a radially protruding shape is formed at the end of the supporting pin holding part 322, and an inner fixing part 324 spaced apart from the fixing part 323 is also provided in a radially protruding shape .

The width of the groove formed by the two fixing portions is equal to or slightly smaller than the thickness of the supporting plate portions 140 and 240 so that the supporting pin holder 320 can be tightly coupled to the supporting plate portions 140 and 240, Even if the height of the support pin 310 is adjusted to adjust the clearance, the height of the support pin holder 320 is fixed.

Further, the support pin 310 to be in contact with the inner surface of the outer pipe P2 may be made of a material having a heat transfer coefficient smaller than that of a metal material, not a metal material.

The present invention thus enables secondary transfer of heat to be minimized and allows the support pin 310 to be made of a resin such as PTFE (Polytetrafluoroethylene) or Bakelite.

Next, a specific example of the engaging plate portion which has not been described above will be described.

The support member includes a pair of coupling plate portions. The first support member 100 includes a first coupling plate portion 110 and a second coupling plate portion 120, 1 coupling plate portion 210 and a second coupling plate portion 220.

The first and second coupling plate portions of the two support members are engaged with each other, and the two support plate members are engaged with each other to be brought into close contact with the inner pipe P1.

The flange portions 112 and 122 extending from the coupling plate portions 110, 120, 210 and 220 instead of the direct coupling may be provided for minimizing the contact with the inner pipe P1 and adjusting the degree of coupling. , 212, 222).

The flange portions 112, 122, 212 and 222 are bent from the contact lines 111, 121, 211 and 221 of the coupling plate portions 110, 120, 210 and 220 so as to be opposed to the flange portions of the other supporting members.

The flange portion 112 extending from the first engagement plate portion 110 of the first support member 100 and the first engagement plate portion 210 of the second support member 200 The flange portion 212 can be coupled by a bolt coupling that is engaged by the bolt fastening B and includes a flange portion 122 extending from the second engagement plate portion 120 of the first support member 100, 2 flange portion 222 extending from the second engagement plate portion 220 of the support member 200 can be engaged by the hinge engagement H. [ The bolt-coupled flange may be referred to as a bolt flange portion or a hinge-flanged hinge flange portion.

The supporting member composed of the first supporting member 100 and the second supporting member 200 manufactured by the hinge coupling by such a coupling method is arranged around the inner pipe P1 and the other side is bolted So that the degree of engagement of the inner pipe P1 is also adjustable.

5A and 5B illustrate a vacuum insulation pipe. It is also possible to fasten both flange portions of the support member by bolt fastening B as shown in FIG. 5.

On the other hand, the coupling plate portions 110, 120, 210 and 220 are formed so as not to be parallel to the plane contacting the inner pipe P1 at the contact lines 111, 122, 211 and 222. [ That is, the inner pipe P1 has a predetermined inclination.

When the coupling plate portions 110, 120, 210, 220 are configured as described above, the entire support can be formed in a stable shape as shown in the figure.

Otherwise, the support on the left and right sides of the pipeline will not be stable.

As described above, the double piping support according to the present invention is characterized in that two support members are combined and each support member includes at least one bending plate portion and a coupling plate portion at each side, and between the bending plate portions or the bending plate portion And a support plate portion between the engagement plate portions.

As described, one support member is in contact with the inner pipe and the contact line at which the bending plate is bent, and comes into line contact with the respective coupling plates, while the other plate surface does not contact the inner pipe, .

8, the overall shape of the support member formed by one bending plate portion and two engagement plate portions (in this case, two support plate portions are formed) is an alphabet letter M And the shape can be stabilized by such a shape.

That is, since this structure generates the compressive force in the direction of the center of the double pipe, the fastening force with the inner pipe is strengthened.

In addition, the advantage of heat transfer area and distance has been described above, which results in a reduction of the heat transfer area by 20 to 50 times compared with the conventional surface contact.

Further, the heat transfer distance is increased by 40 to 50% or more in comparison with the conventional method.

In addition, due to the entire shape, the force such as vibration is buffered to weaken the transmission, which makes the support more stable.

If the bending plate portion is provided with two or more supporting members, the inclination of the coupling plate portion is larger than that of the example, and the overall shape should be a shape spreading more to the left and right than the city.

As a result, the bending angle? Of the bending plate portion for such a shape is preferably not less than 100 ° and not more than 130 °, and the bending angle? Formed by the engaging plate portion with the flange portion is preferably not less than 70 ° and not more than 87 ° .

When the bending plate portion is out of this range, a sufficient M-shaped structure is not realized and the structure becomes insufficient in cushioning and support. When the engaging plate portion is smaller than the above angle, it may be difficult to assemble bolts, hinges, The side support of the pipe can be weakened.

The support of the double pipe according to the present invention can be applied to the vacuum insulation pipe as shown in FIG.

The vacuum insulation pipe is a pipe in which a fluid flows in an inner pipe P1 and a vacuum is formed between the inner pipe P1 and the outer pipe P2 and a layer of the heat insulating material I is formed by surrounding the inner pipe P1.

The support according to the present invention applied to the vacuum insulation pipe has a structure in which the coupling plate portions 110 120, 210 and 220 and the bending plate portions 130 and 230 are in line contact with the layer of the heat insulating material I and do not directly contact the inner pipe Pl Do not.

Further, the support according to the present invention does not close the space between the inner pipe and the outer pipe even if it is provided between the inner pipe and the outer pipe.

That is, since the support does not block the entire installation space, the space A between the inner pipe P1 and the outer pipe P2 is not disconnected from the other space as shown in Fig.

Therefore, even if the exhaust port V is disposed between the supports, exhaust through the exhaust port is smooth.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: first support member 200: second support member
110, 210: a first engaging plate portion
111, 211: contact line
112,
120, 220: a second engaging plate portion
121, 221: contact line
122, 222:
130, 230: a bending plate portion
131, 231: contact line
140, 240: support plate portion
310: Support pin
311: head 312: holder insertion portion 313: male thread portion
320: Support pin holder
321: female screw portion 322: support pin holding portion
323: outer fixing portion 324: inner fixing portion

Claims (35)

And a first support member and a second support member for contacting the inner pipe and supporting an outer pipe having a larger diameter than the inner pipe and the inner pipe,
Wherein each of the first supporting member and the second supporting member comprises:
A first engaging plate and a second engaging plate of the first supporting member in line contact with the inner pipe, a first engaging plate and a second engaging plate of the second supporting member,
And a bending plate portion of the first support member and a bending plate of the second support member bent in a shape of a line in contact with the inner pipe and in contact with the inner pipe,
The first engaging plate portion of the first supporting member and the first engaging plate portion of the second supporting member are engaged and the second engaging plate portion of the first supporting member is engaged with the second engaging plate portion of the second supporting member It is installed in double pipe,
Wherein the first support member and the second support member include a hinge flange portion that is bent and extended from the second engagement plate portion of the first support member and the second engagement plate portion of the second support member,
A first engaging plate and a second engaging plate of the first supporting member in line contact with the inner pipe, a first engaging plate and a second engaging plate of the second supporting member,
Wherein the pipe is not parallel to the plane including the contact line in contact with the internal pipe at the line contact position,
Wherein the first support member and the second support member each include a bolt flange portion that is bent and extended from the first engagement plate portion of the first support member and the first engagement plate portion of the second support member,
A support plate portion of the first support member connecting the first engagement plate, the second engagement plate, and the bending plate portion of the first support member;
A supporting plate portion of the second supporting member connecting the first engaging plate, the second engaging plate, and the bending plate portion of the second supporting member;
The water line passing through the center of the support plate portion of the first support member and the center of the support plate of the second support member passes through the center line of the inner pipe,
A support pin hole is formed in the support plate portion of the first support member and the support plate of the second support member,
Further comprising: a support pin extending through the support pin hole; and a support pin holder coupled with the support pin,
Wherein the support pin is provided with a male screw portion having a thread and a holder insertion portion having a diameter larger than that of the male screw portion.
Support of double piping. delete delete delete delete delete delete delete delete delete delete delete The method according to claim 1,
A female threaded portion connected to the male threaded portion at one side of the support pin holder;
An inner fixing part formed radially outwardly from the other side of the support pin holder and extending radially outwardly from a side surface of the support pin holder spaced apart from the outer fixing part; Respectively,
Wherein the support pin holder is engaged with the support plate portion by a groove formed by the outer fixed portion and the inner fixed portion.
Support of double piping. 14. The method of claim 13,
Characterized in that the support pin is in contact with the inner surface of the outer pipe.
Support of double piping. 15. The method of claim 14,
Wherein the heat transfer coefficient of the support pin is less than the heat transfer coefficient of the metal.
Support of double piping. delete delete delete delete delete delete delete The method according to claim 1,
Wherein a bending angle of the bending plate portion is not less than 100 degrees and not more than 130 degrees.
Support of double piping.
delete delete delete delete delete delete delete delete delete delete delete delete

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