KR20140034558A - Packing assembly for double pipe heat exchanger - Google Patents

Abstract

A double-pipe heat exchanger packing assembly according to the present invention comprises: a flange having a first through-hole along the central axis thereof and having a mounting groove at one side thereof; an inner pipe coupled to the first through-hole; an outer pipe of which one end is coupled to the other side of the cylindrical flange and the inner circumferential surface is separated from the outer circumferential surface of the inner pipe at a certain distance so that a heat exchange space can be formed between the inner circumferential surface of the outer pipe and the outer circumferential surface of the inner pipe; an anti-leakage part having a second through-hole along the central axis thereof, mounted in the mounting groove, and sealing the heat exchange space by coupling the inner pipe to the second through-hole; an airtight retention part having a third through-hole along the central axis thereof and having one side which presses the anti-leakage part in order to retain the sealing of the heat exchange space; and a fastening part coupling the airtight retention part to the flange, wherein the mounting groove is extended from the first through-hole outwards, and the third through-hole is coupled with the inner pipe. Therefore, a double-pipe heat exchanger packing assembly according to the present invention provides a high sealing performance even at a high temperature and high pressure, provides the high sealing performance even if used for a long time, and has a high chemical resistance to be applied to various fluids.

Description

PACKING ASSEMBLY FOR DOUBLE PIPE HEAT EXCHANGER}

The present invention relates to a double tube heat exchanger packing assembly. More specifically, it is a double tube heat exchanger packing assembly for preventing leakage of fluid in a pipe in a double tube heat exchanger having high temperature and high pressure.

Heat exchangers (heat exchanger) is a device for the exchange of thermal energy between the two materials, in the process is used to recover the input heat energy, to maintain the reaction temperature or to control the reaction.

That is, there is a difference in temperature and the heat exchange phenomenon between two fluids separated by solid walls can be found in many industrial applications. Such heat exchangers are widely used in various fields such as space heating, air conditioning refrigeration, power generation, and chemical processes.

The simplest type of heat exchanger is a double pipe heat exchanger. This is a concentric installation of two tubes of different diameters. One fluid flows through a small inner tube and another fluid flows through the heat exchange space between the inner and outer tubes.

The case where two fluids flow in the same direction is called parallel flow or cocurrent flow, and the case where two fluids flow in different directions is called countercurrent flow.

Conventionally, the inner tube and the outer tube are welded, or rubber (rubber) is used to prevent the leakage of fluid generated at the ends of the inner tube and the outer tube.

However, when a high temperature or high pressure is generated in the double tube heat exchanger, cracks may occur in the welded portion to prevent the leakage of the fluid, or deformation may occur in the rubber to leak the fluid flowing in the heat exchange space.

In addition, the Republic of Korea Patent No. 10-0641575 'durable structure according to the growth surface of the gasket portion of the heat exchanger tube channel and channel flange' in the "gasket portion to prevent leakage by coupling the tube sheet and the channel flange of the heat exchanger. It relates to a coupling structure of, in more detail forming a durable material and corrosion-resistant gasket growth surface on the corresponding surface of the tube sheet and the channel flange to which the cell portion and the channel portion of the heat exchanger are coupled to each other, By mounting the gasket between the surfaces, it prevents the gasket growth surface from being worn out and prevents leakage of the solution in the tank and also extends the service life of the heat exchanger tube sheet and the channel flange, which can extend the service life. The durability structure according to the growth surface of the gasket part of the present invention is disclosed.

However, the Republic of Korea Patent No. 10-0641575 'durable structure according to the growth surface of the tube sheet of the heat exchanger and the gasket portion of the channel flange' is not suitable for preventing the leakage of fluid when high temperature or high pressure occurs in the double tube heat exchanger. Has a problem.

The double tube heat exchanger packing assembly according to the present invention aims to solve the following problems.

First, to provide excellent sealing performance even at high temperature and high pressure.

Second, to provide excellent sealing performance even for long time use.

Third, it is intended to be used in a variety of fluids with excellent chemical resistance.

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

The double tube heat exchanger packing assembly according to the present invention preferably includes a flange having a first through hole formed along a central axis and a mounting groove extending outwardly from the first through one side thereof.

The double tube heat exchanger packing assembly according to the present invention preferably includes an inner tube coupled to the first through hole.

The double tube heat exchanger packing assembly according to the present invention preferably includes an outer tube whose one end is coupled to the other side of the cylindrical flange and whose inner circumferential surface forms a heat exchange space at regular intervals with the outer circumferential surface of the inner tube.

The double tube heat exchanger packing assembly according to the present invention preferably includes a leakage preventing portion for forming a second through hole along a central axis thereof and being mounted in a mounting groove, the inner tube being coupled to the second through hole to seal the heat exchange space.

The double tube heat exchanger packing assembly according to the present invention includes an airtight holding unit for coupling the inner tube to a third through hole formed along a central axis, and one side pressurizing the leakage preventing unit to maintain the sealing of the heat exchange space. desirable.

The double tube heat exchanger packing assembly according to the present invention preferably includes a fastening part for coupling the flange and the airtight holding part.

In the double tube heat exchanger packing assembly according to the present invention, the flange has a second inclined surface extending from the first inclined surface and the first inclined surface in the other direction, and one end of the outer tube is preferably coupled to the second inclined surface.

In the double tube heat exchanger packing assembly according to the present invention, the flange is formed on the other side of the connecting groove extending outward from the first through hole, the connecting groove is preferably the same as the inner diameter of the outer tube.

In the double tube heat exchanger packing assembly according to the present invention, the leakage preventing portion is preferably graphite or inconel inserted graphite material.

In the double tube heat exchanger packing assembly according to the present invention, it is preferable that the leakage preventing portion is divided into a plurality of pieces in the longitudinal direction along the central axis.

In the double tube heat exchanger packing assembly according to the present invention, it is preferable that the airtight holding part is inserted into the mounting groove to protrude the insertion part for pressing the leakage preventing part.

In the double tube heat exchanger packing assembly according to the present invention, it is preferable that the airtight holding part is formed in a plurality in the longitudinal direction along the central axis.

In the double tube heat exchanger packing assembly according to the present invention, the inner tube is coupled to the fourth through-hole formed along the central axis, one side of the airtight reinforcing portion to pressurize the airtight holding portion to reinforce the sealing of the heat exchange space; Preferably, the airtight reinforcement part is coupled to the flange by a fastening part.

In the double tube heat exchanger packing assembly according to the present invention, the fastening part includes a plurality of fastening rods formed with a thread and a plurality of nuts coupled to the fastening rods, and one side of the flange is preferably provided with a fastening groove for fastening the fastening rods. Do.

Since the double tube heat exchanger packing assembly according to the present invention is composed of a flange, an inner pipe, an outer pipe, a leakage preventing part, an airtight holding part, and an airtight reinforcing part, the following effects can be expected.

Excellent sealing performance even at high temperature and high pressure.

And it provides excellent sealing performance even for long time use.

In addition, it is excellent in chemical resistance and can be used for various types of fluids.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a perspective view of a double tube heat exchanger packing assembly according to one embodiment of the invention.
FIG. 2 is an exploded perspective view of the double tube heat exchanger packing assembly shown in FIG. 1. FIG.
3 is a cross-sectional view of the double tube heat exchanger packing assembly shown in FIG. 1.
4 is an exploded cross-sectional view of the double tube heat exchanger packing assembly shown in FIG. 1.

Hereinafter, a double tube heat exchanger packing assembly according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show a double tube heat exchanger packing assembly according to one embodiment of the invention.

The double tube heat exchanger packing assembly according to the present invention includes a flange (100) having a first through hole (110) formed along a central axis, and a mounting groove (120) extending outward from the first through hole (110) on one side thereof;

An inner tube 200 coupled to the first through hole 110;

An outer tube 300 having one end coupled to the other side of the cylindrical flange 100 and having an inner circumferential surface forming a heat exchange space 320 at regular intervals with an outer circumferential surface of the inner tube 200;

A second through hole 420 is formed along the central axis and is mounted to the mounting groove 120, and the inner tube 200 is coupled to the second through hole 420 to prevent leakage of the heat exchange space 320. Unit 400;

The inner tube 200 is coupled to the third through hole 520 formed along a central axis, and one side presses the leakage preventing part 400 to maintain an airtight portion 500 to maintain the sealing of the heat exchange space 320. );

The inner tube 200 is coupled to a fourth through hole 620 formed along a central axis, and one side presses the hermetic holding part 500 to reinforce the sealing of the heat exchange space 320. );

And a fastening part 700 that couples the airtight holding part 500 and the airtight reinforcing part 600 to the flange 100.

1 to 2 are a perspective view and an exploded perspective view of a double tube heat exchanger packing assembly according to an embodiment of the present invention, as shown in Figures 1 to 2, the flange 100 is an inner tube 200, outer tube 300, the leakage preventing part 400, the airtight holding part 500, the airtight reinforcing part 600 and the fastening part 700 are combined parts.

The flange 100 is cylindrical in shape and has a first through-hole 110 formed along the central axis in the longitudinal direction, and the inner tube 200 penetrates and fits into the first through-hole 110.

In addition, a mounting groove 120 is formed in one side of the flange 100 and is formed to extend outwardly of the central axis in the first through hole 110, and the leakage preventing part 400 is coupled to the mounting groove 120.

And the other side of the flange 100 is located in the connecting groove 130 is formed to extend out of the central axis in the first through hole 110, the diameter of the connecting groove 130 is the inner diameter of the outer tube 300 It is preferable to produce the same as.

The flange 100 may form a first inclined surface 150 and a second inclined surface 160 extending from the first inclined surface 150 in the other direction, wherein the other side of the flange 100 has a conical shape. One end of the outer tube 300 may be coupled to the second inclined surface 160 by welding or the like.

In this case, one end of the outer tube 300 coupled to the second inclined surface 160 has an inclined surface 340 to form a V-shaped groove with the second inclined surface 160, and welding is performed on the V-shaped groove. When the welding area is increased, the second inclined surface 160 and the outer tube 300 can be more firmly coupled.

That is, the inner tube 200 is coupled to the first through-hole 110 of the flange 100, the outer tube 300 is coupled to the other side of the flange 100, the inside of the outer tube 300 The inner tube 200 is located. Therefore, a heat exchange space 320 is formed between the inner tube 200 and the outer tube 300 to form a double tube.

In the inner tube 200 and the heat exchange space 320, the fluid at different temperatures are moved, and heat exchange is performed between the two fluids.

4 is an exploded cross-sectional view of a double tube heat exchanger packing assembly according to an embodiment of the present invention.

As shown in FIG. 4, the leakage preventing part 400 has a cylindrical shape and has a second through hole 420 formed therein along a central axis in a longitudinal direction, and an inner tube 200 penetrates through the second through hole 420. It is inserted into and coupled to each other to prevent the leakage of the fluid contained in the heat exchange space 320 by blocking the gap between the flange 100 and the inner tube (200).

In addition, the leakage preventing part 400 may be manufactured by using graphite or inconel insert graphite, and thus may be easily processed and have excellent flexibility and elasticity, thereby effectively maintaining a tight seal even during thermal expansion or contraction. .

In addition, the leakage preventing unit 400 may be divided into a plurality of longitudinally formed along the central axis to prevent the leakage of the fluid more effectively. In this case, both ends of the lengthwise direction of the leakage preventing part 400 may be made of an inconel-inserted graphite material, and the remaining parts may be made of graphite material, and each material may be manufactured by deforming to various arrangements and shapes as necessary. have.

The airtight holding part 500 has a disc shape and has a third through hole 520 formed therein along a central axis thereof, and the inner tube 200 is inserted through the third through hole 520 to be coupled to each other. On one side of the) is inserted into the mounting groove 120, the insertion portion 560 for pressing the leakage preventing portion 400 is formed protruding.

That is, the leakage preventing part 400 is coupled to the mounting groove 120 formed in the flange 100, and the insertion part 560 is fitted into the mounting groove 120 to press the leakage preventing part 400 to heat the heat exchanger. The space 320 may be sealed.

In addition, the airtight holding part 500 may be divided into a plurality of longitudinal directions along the central axis, in which case there is an advantage that the replacement operation can be easily performed even in a narrow space.

The airtight reinforcement part 600 has a disc shape, and has a fourth through hole 620 formed therein along a central axis thereof, and the inner tube 200 penetrates into the fourth through hole 620 to be coupled to each other. One side of the) may pressurize the hermetic holding part 500 from the other side of the hermetic holding part 500 to reinforce the sealing of the heat exchange space 320.

The fastening part 700 is to couple the airtight holding part 500 and the airtight reinforcing part 600 to the flange 100, and includes a fastening rod 720 and a nut 740. In addition to the nut 740, various coupling devices such as a clamp may be used.

The fastening rod 720 has a screw thread formed on an outer surface thereof, and a fastening groove 140 through which the fastening rod 720 is screwed is formed in the flange 100.

In addition, a first fastening hole 540 is formed in the hermetic holding part 500 and a second fastening hole 640 is formed in the hermetic reinforcing part 600 to allow the fastening rod 720 to pass therethrough.

At this time, the fastening groove 140, the first fastening hole 540 and the second fastening hole 640 are formed in a plurality at equal intervals so as to be arranged in an annular shape around the inner tube 200, the fastening rod 720 At least two nuts 740 may be fastened to prevent loosening.

Figure 3 is a cross-sectional view of a double tube heat exchanger packing assembly according to an embodiment of the present invention, it can be seen in Figure 3 the overall coupling state of the double tube heat exchanger packing assembly of the present invention.

The flange 100 is coupled around the inner tube 200, and one side of the flange 100 is disposed in the order of the leakage preventing part 400, the airtight holding part 500, and the airtight reinforcing part 600. It is coupled to the flange 100 by the part 700.

That is, the double tube heat exchanger packing assembly according to the present invention is generally coupled symmetrically on both sides with respect to the double tube formed by the inner tube 200 and the outer tube 300.

In addition, the outer tube 300 is coupled to the other side of the flange 100 to form the heat exchange space 320 with the inner tube 200, the leakage preventing unit 400, hermetic holding unit 500, By the hermetic reinforcement part 600 and the fastening part 700, the heat exchange space 320 is kept closed and prevents the leakage of the received fluid.

Therefore, the double tube heat exchanger packing assembly according to the present invention can provide excellent sealing performance even at high temperature and high pressure, can maintain excellent sealing performance even for long time use, and can be used for various kinds of fluids due to its excellent chemical resistance.

In addition, since the structure is simple, easy assembly and disassembly, there is an advantage that easy maintenance and repair.

What has been described above is only some embodiments for carrying out the double-tube heat exchanger packing assembly according to the present invention, the present invention is not limited to the above-described embodiment, the subject matter of the present invention as claimed in the following claims Without departing from the technical spirit of the present invention to the extent that any person skilled in the art to which the present invention pertains various modifications can be made.

100: flange 110: first through
120: mounting groove 130: connecting groove
140: fastening groove 150: the first slope
160: second slope 200: inner tube
300: outer tube 320: heat exchange space
340: slope 400: leakage prevention portion
420: second hole 500: confidentiality
520: the third through 540: the first fastening
560: inserting part 600: airtight reinforcing part
620: fourth through 640: second fastening
700: fastening part 720: fastening bar
740 nuts

Claims (9)

A flange having a first hole formed along a central axis and having a mounting groove extending outwardly from the first hole at one side thereof;
An inner tube coupled to the first through hole;
An outer tube having one end coupled to the other side of the cylindrical flange and having an inner circumferential surface forming a heat exchange space at regular intervals with an outer circumferential surface of the inner tube;
A second prevention hole formed along the central axis and mounted in the mounting groove, and the inner tube coupled to the second aperture to seal the heat exchange space;
An airtight holding unit coupled to the inner tube to a third through hole formed along a central axis, and one side of which pressurizes the leakage preventing unit to maintain the sealing of the heat exchange space; And
A fastening portion coupling the flange and the airtight holding portion;
Double tube heat exchanger packing assembly comprising a.
The method of claim 1,
The flange has a first inclined surface and a second inclined surface extending from the first inclined surface in the other direction,
One end of the outer tube is coupled to the second tube heat exchanger packing assembly, characterized in that the coupling.
3. The method according to claim 1 or 2,
Wherein the flange is formed on the other side connecting grooves extending outward from the first through hole, the connecting groove is a double pipe heat exchanger packing assembly, characterized in that the same as the inner diameter of the outer tube.
3. The method according to claim 1 or 2,
The leakage preventing part is a double tube heat exchanger packing assembly, characterized in that the graphite or inconel inserted graphite material.
5. The method of claim 4,
Double leakage heat exchanger packing assembly characterized in that the leakage preventing portion is divided into a plurality of longitudinally formed along the central axis.
3. The method according to claim 1 or 2,
The airtight holding part is inserted into the mounting groove is a double tube heat exchanger packing assembly, characterized in that the insertion portion protruding to press the leakage preventing portion.
The method according to claim 6,
The airtight holding unit is divided into a plurality of longitudinally formed heat exchanger packing assembly along the central axis.
3. The method according to claim 1 or 2,
And an airtight reinforcing part coupled to the fourth through hole formed along a central axis, and one side of the airtight holding part pressurizing the airtight holding part to reinforce the sealing of the heat exchange space.
The airtight reinforcing part is a double tube heat exchanger packing assembly, characterized in that coupled to the fastening portion.
3. The method according to claim 1 or 2,
The fastening part includes a plurality of fastening rods formed with threads and a plurality of nuts coupled to the fastening rods, and a coupling groove for screwing the fastening rods is formed at one side of the flange.

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