KR20230122798A - Heat exchanger with compact structure - Google Patents

Abstract

The present invention relates to a heat exchanger in which heat is exchanged between a heat absorbing medium and a heat supplying medium, and more particularly, has a compact structure and is convenient to store, transport, and install, and the heat exchange module is disposed inside a single pipe and is not exposed, thereby transporting or installing a process. It relates to a heat exchanger in which damage is prevented.
A heat exchanger having a compact structure according to the present invention includes a casing provided with an inlet through which a heat absorbing medium is introduced and an outlet through which a heat absorbing medium is discharged; A single pipe coupled to the casing and equipped with an inlet through which the heat supply medium is introduced and an outlet through which the heat supply medium is discharged; In the heat exchanger including a heat exchange module for exchanging heat between the heat absorbing medium and the heat supply medium, the casing has an inner tube having one end connected to the outlet and the other end connected to the discharge passage of the heat exchange module, and one end connected to the inlet. and the other end includes an outer tube covering a heat absorbing flow path formed on one side of the heat exchange module, and the end tube includes an inner pipe having the inlet at one end and accommodating the heat exchange module therein, and the outlet. It is characterized in that it comprises an outer pipe accommodating the other side of the inner pipe.

Description

Heat exchanger with compact structure}

The present invention relates to a heat exchanger in which heat is exchanged between a heat absorbing medium and a heat supplying medium, and more particularly, has a compact structure and is convenient to store, transport, and install, and the heat exchange module is disposed inside a single pipe and is not exposed, thereby transporting or installing a process. It relates to a heat exchanger in which damage is prevented.

A heat exchanger is a device used for heat exchange between a low-temperature heat absorbing medium and a high-temperature heat supply medium.

Heat exchangers are used in various fields such as refrigerators, heating facilities, and air conditioning facilities.

1 shows a registered patent 10-1759110 "double tube heat exchanger", an exterior 200 and a first flow path 110 are formed therein, and the outer diameter is smaller than the inner diameter of the exterior 200, and the It is configured to include an inner tube 100 that is inserted into the exterior 200 and forms a second flow path 210 between the exterior 200 and the exterior 200 .

The Registered Patent No. 10-1759110 "double tube heat exchanger" has a long straight structure, so there are many difficulties in storage, transportation, and installation.

And, in the Patent Registration No. 10-1759110 "double tube heat exchanger", the first flow path 110 is straight, and the heat absorbing medium (or heat supply medium) quickly passes through the first flow path 110 with a short residence time, and the second flow path 210 is a spiral, and the heat supplying medium (or heat absorbing medium) slowly passes through the second flow passage 210 with a long residence time.

From the point of view of the linear first flow path 110, the area where the first flow path 110 and the second flow path 210 are adjacent to each other is small and the length is short. Therefore, the heat supplying medium passing through the second passage 210 cannot sufficiently transfer its own heat to the heat absorbing medium passing through the first passage 110, resulting in a decrease in heat exchange efficiency.

The present invention has been made to solve the problems of the heat exchanger according to the prior art, and has a compact structure as a whole, so that the main pipe, transportation, and installation are convenient, and the heat exchange module is disposed inside the single pipe and is not exposed, so transportation or installation It is another object of the present invention to provide a heat exchanger capable of preventing damage due to impact during the process and having excellent heat exchange efficiency.

A heat exchanger of a compact structure according to the present invention for achieving the above object is

a casing provided with an inlet through which the heat absorbing medium is introduced and an outlet through which the heat absorbing medium is discharged;

A single pipe coupled to the casing and equipped with an inlet through which the heat supply medium is introduced and an outlet through which the heat supply medium is discharged;

In the heat exchanger including a heat exchange module that allows heat exchange between the heat absorbing medium and the heat supply medium,

The casing includes an inner tube having one end connected to the outlet and the other end connected to the discharge passage of the heat exchange module, and an outer tube having one end connected to the inlet and the other end covering the heat absorption passage formed on one side of the heat exchange module. do,

The single pipe is characterized in that it includes an inner pipe having the inlet at one end and accommodating the heat exchange module therein, and an outer pipe having the outlet and accommodating the other side of the inner pipe therein.

The other end of the heat exchange module is disposed inside the inner pipe and is not exposed.

The heat exchanger with a compact structure according to the present invention has a structure in which the casing and the single tube have a double tube structure and the heat exchange module is built in the single tube to have a compact structure as a whole, and the heat exchange module is not exposed to the outside and is thus prevented from being damaged by impact. As a product, it is a very useful invention for industrial development.

1 is a view showing the structure of a heat exchanger according to the prior art.
2 is a perspective view of a heat exchanger having a compact structure according to the present invention;
Figure 3 is a cross-sectional view of Figure 2;
Figure 4 is an exploded cross-sectional view of Figure 3;

Hereinafter, a heat exchanger of a compact structure according to the present invention will be described in more detail with reference to the drawings.

Prior to a more detailed description of the compact structure heat exchanger according to the present invention,

Since the present invention can have various changes and various forms, the implementation examples (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

In each drawing, the same reference numeral, in particular, the same number of tens and ones digits, or the same reference numerals having the same tens digit, ones digit, and alphabet indicate members having the same or similar functions, and unless otherwise specified, each of the drawings Members indicated by reference numerals may be understood as members conforming to these standards.

In addition, the components in each drawing are expressed in exaggeratedly large (or thick) small (or thin) or simplified expressions in size or thickness in consideration of convenience of understanding, etc., but the scope of protection of the present invention is thereby limited. It shouldn't be.

Terms used in this specification are only used to describe a specific embodiment (aspect, aspect, aspect) (or embodiment), and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as ~comprising~ or ~consisting of are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, 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 the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

As shown in FIGS. 2 to 4 , the heat exchanger having a compact structure according to the present invention can be roughly divided into components of a casing 10 , a single pipe 20 , and a heat exchange module 30 .

The casing 10 is provided with an inlet 11 through which a low-temperature heat absorbing medium (or a high-temperature heat supplying medium) flows in and an outlet 12 through which it is discharged.

The inlet 11 is provided on one side of the casing 10, and the outlet 12 is provided on the side of the casing 10.

The inlet 11 is provided with a first flange 111 to which a conduit for supplying heat absorbing medium is coupled, and the other end of the casing 10 is provided with a second flange 221 coupled to the fourth flange 221 of the short pipe 20. A flange 121 is provided.

The casing 10 has one end connected to the outlet 12 and the other end connected to an inner tube 13 connected to the discharge passage 33 of the heat exchange module 30, and one end connected to the inlet 11, The other end has a double tube structure of the outer tube 14 covering the heat absorption inlet 312 formed on one side of the heat exchange module 30.

The single pipe 20 is coupled to the casing 10 and has an inlet 21 through which a high-temperature heat supplying medium (or low-temperature heat absorbing medium) is introduced and an outlet 22 through which it is discharged.

The inlet 21 is provided on one side of the single pipe 20, and the outlet 22 is provided on the side of the single pipe 20.

The inlet 21 is provided with a third flange 211 coupled to a conduit for supplying heat supply medium, and a fourth flange 211 coupled to the second flange 121 of the casing 10 is provided at the other end of the short pipe 20. A flange 221 is provided.

The single pipe 20 is provided with the inlet 21 at one end, an inner pipe 23 in which the heat exchange module 30 is accommodated closely, and the outlet 22 on the side, and the inner pipe 23 is provided therein. The inner side of the pipe 23 is accommodated with a spaced space, and the outer pipe 24 having the fourth flange 221 is provided in a double pipe structure.

The heat exchange module 30 is built into the single pipe 20 and allows heat exchange between a heat absorbing medium and a heat supplying medium.

The heat exchange module 30 may be made of ceramic or carbon with excellent durability and excellent heat transfer rate.

The heat exchange module 30 is formed with hollow flow passage columns 31 spirally turning on the outside.

The inside of the passage pillars 31 has a hollow structure to become a heat absorption passage 311 through which a heat absorbing medium flows, and a spaced space between the passage columns 31 becomes a heat supply passage 313 through which a heat supply medium flows.

A heat absorption inlet 312 connected to the heat absorption passage 311 is formed on one side of the heat exchange module 30, and a heat supply inlet 314 connected to the heat supply passage 313 is formed on the other side.

Referring to FIG. 3, the heat absorbing medium introduced into the inlet 11 of the casing 10 passes through the outer tube 14 and flows into the heat absorbing inlet 312 formed on one side of the heat exchange module 30, and then absorbs heat. It flows to the other side while turning spirally along the flow path 311, flows into the discharge flow path 33 from the other side, flows along the discharge flow path 33, passes through the inner pipe 13, and flows out to the outlet 12.

The heat supply medium introduced into the inlet 21 of the short pipe 20 flows into the heat supply inlet 314 formed on the other side of the heat exchange module 30, and then flows along the heat supply passage 313 while turning in a spiral shape. When it leaves the other side of (23), it passes through the external pipe (24) and is discharged to the outlet (22).

As such, the heat absorption passage 311 and the heat supply passage 313 are alternately arranged by the spirally turning passage columns 31, and their adjacent areas are widened and their adjacent lengths are increased, so that the heat absorption medium and The heat exchange efficiency between the heat supply media is increased.

Inside the heat exchange module 30, a discharge passage 33 is formed in the longitudinal direction. The discharge passage 33 is connected to the heat absorption passage 311 at the other side so that the heat absorbing medium flows in, and at one side it is connected to the casing 10 and the inner tube 13 so that the heat absorption medium is discharged through the outlet 12. .

Between the second flange 121 of the casing 10 and the fourth flange 221 of the single pipe 20, a coupling plate 41 for firmly coupling them and a gasket 43 for sealing the gap between them is provided

In the above description of the present invention, a heat exchanger of a compact structure having a specific shape and structure has been described with reference to the accompanying drawings, but the present invention is capable of various modifications and changes by those skilled in the art, and these modifications and changes are the present invention. should be construed as belonging to the scope of protection of

10: casing 11: inlet
12: outlet 13: inner pipe
14: outer tube
20: single pipe 21: inlet
22: outlet 23: inner pipe
24: external pipe
30: heat exchange module 31: flow column
311: heat absorbing oil 313: heat supply oil
33: discharge passage

Claims (2)

a casing provided with an inlet through which the heat absorbing medium is introduced and an outlet through which the heat absorbing medium is discharged;
A single pipe coupled to the casing and equipped with an inlet through which the heat supply medium is introduced and an outlet through which the heat supply medium is discharged;
In the heat exchanger including a heat exchange module that allows heat exchange between the heat absorbing medium and the heat supply medium,

The casing includes an inner tube having one end connected to the outlet and the other end connected to the discharge passage of the heat exchange module, and an outer tube having one end connected to the inlet and the other end covering the heat absorption passage formed on one side of the heat exchange module. do,
The single pipe has a compact structure, characterized in that it includes an inner pipe having the inlet at one end and accommodating the heat exchange module therein, and an outer pipe having the outlet and accommodating the other side of the inner pipe therein. heat exchanger. According to claim 1,
The heat exchanger of the compact structure, characterized in that the other end of the heat exchange module is disposed inside the inner pipe and is not exposed.

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