KR100658020B1 - Heat exchanger of the pasteurization device - Google Patents

Abstract

A heat exchanger of a pasteurization device is provided to improve a heat exchange efficiency by preventing crack and damage of a main body, a hot water supply pipe, and cover connected parts by expansion of the exchanger due to a temperature variation of the hot water. The heat exchanger of a pasteurization device includes: a master body(100) having a hot water supply pipe(80) connected to a hot water tank, plural pipes(300), and a first connecting pipe(40); sub bodies(200) formed in a multi-stage arrangement structure that the most top thereof is coupled to the first connecting pipe through a second connecting pipe(50) and the bottoms thereof are sequentially coupled to the second connecting pipe through a third connecting pipe(60); a cover(70) respectively connected by welding to the front and rear end of the master body and sub bodies; and a tension member(400) connected between the hot water supply pipe, the first and the second connecting pipe, and the second and the third connecting pipe, respectively.

Description

Heat exchanger of the pasteurization device

1 is a schematic flow diagram of a general milk stock sterilizer.

Figure 2 is a cross-sectional view showing the structure of a heat exchanger applied to the conventional milk stock sterilizer.

Figure 3 is a cross-sectional view showing the structure of the heat exchanger in one embodiment of the present invention.

Figure 4 is an enlarged view of the corrugated pipe structure in one embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

21,22,23,24; 1,2,3,4 main body 80; Hot water supply pipe

40,50,60; 1,2,3 connector 70; cover

81,82; First and second hot water supply pipes 100; Master body

200; Subbody 300; pipe

400; Tension member

The present invention relates to a heat exchanger that is applied to a milk sterilizer, and more particularly, to prevent breakage or cracking of the coupling portion between the front and rear ends of the heat exchanger and the coupling portion of the hot water supply pipe from the temperature generated during the operation of the heat exchanger for milk sterilization. It relates to a heat exchanger of the sterilizer to make it possible.

As is well known, milk stock fed from cows is used to remove harmful microorganisms through a sterilizer, and the method of sterilization is preheated to 55-60 ° C. to disperse steam after homogenization or hot water (eg, 63-65 ° C.). Low temperature sterilization for 30 minutes by heat sterilization, high temperature sterilization for 15 to 20 seconds at a temperature of about 72 to 75 ° C using a heat exchanger, and a short time (about 0.5 to a temperature of 130 to 150 ° C using a thermal bridge). Ultra-high sterilization method for sterilization for 5 seconds).

In addition, the apparatus for sterilizing the milk stock solution as described above is typically, as shown in Figure 1, the feed tank (1), feed pump (Feed Pump) (2), rotary pump (Rotary Pump) (3), multi-stage Heat exchanger (4), back pressure valve (5), expansion tank (6), and supply passage (7) and return passage (8), as well as 3-way valve (9) for sanitary inspection It includes.

At this time, the heat exchanger (4) is divided into a plate-like or pipe type provided with a flow path, the heat exchanger of the plate-shaped or pipe type as described above has a multi-stage arrangement structure through a connecting pipe for providing a flow path of hot water.

That is, the heat exchanger is a multi-stage array structure, the main body 12 (12 ', 12 ") of the heat exchanger having a multi-stage array structure as described above is a pipe 11 through which milk stock solution flows as shown in FIG. While being provided in plural, the hot water supply pipe 13 is connected to the hot water supply pipe 13 for supplying hot water and the main body 12, 12 'and 12 " Connection pipes 14 for guiding the flow of the heated hot water to the main body 12, 12 ', 12 "of the multistage are provided, respectively.

At this time, hot water is supplied to the main body 12 of the first stage through the hot water supply pipe 13, and the supplied hot water is introduced into the main body 12 ′ of the second stage through the connecting pipe 14 again. The hot water again flows into the main body 12 'of the third stage through another connecting pipe 14, through the pipe 11 of the multistage body 12, 12', 12 ". It will be able to sterilize the flowing milk stock solution.

At this time, the front and rear ends of the main body 12, 12 'and 12 "having the multi-stage arrangement structure, respectively, the cover 15 is coupled, the cover 15 is the main body 12, 12' (12) O-ring 16 is coupled to increase the sealability of the " ", and the O-ring 16 enables the front and rear flow of the cover 15 so that the thermal expansion index increases when the thermal expansion index in the main body 12 rises due to hot water supply. To respond.

However, a conventional heat exchanger having the above-described structure includes a connection pipe for connecting the main bodies 12, 12 'and 12 "in order to arrange the main bodies 12, 12' and 12" in multiple stages. In the heat exchanger main body 12 (12 ') 12 "having a multi-stage arrangement structure through the hot water supply pipe 13 and the connection pipe 14 in relation to fixing 14 by welding, When introduced, the temperature change of the hot water causes expansion of the heat exchanger bodies 12, 12 ′, 12 ″, and at this time connects each heat exchanger body 12, 12 ′, 12 ″. The cracks occurred in the welded portion of the connecting pipe 14, resulting in a problem of lowering the heat exchange efficiency. In severe cases, the entire heat exchanger main body 12, 12 ', 12', which constitutes a multi-stage structure, is damaged. There is this.

In addition, in the related art, in consideration of the expansion of the heat exchanger bodies 12, 12 ′, 12 ″ according to the temperature change amount of the hot water, the cover 15 was continued to flow back and forth through the O-ring 16. This inevitably caused wear of the O-ring 16 from repeated back and forth flow of the cover 15, which caused the sealing of the heat exchanger bodies 12, 12 ', 12 "by the cover 15. As the state worsens, this also had a structural disadvantage that the heat exchange efficiency is greatly reduced.

Therefore, the present invention has been made in order to solve the above-mentioned conventional problems, the present invention, as well as the hot water supply pipe connecting the multi-stage heat exchanger body, as well as the tension member respectively at the front and rear ends of the heat exchanger body to which the cover is coupled. This prevents cracking and breakage of the heat exchanger body and the hot water supply pipe, as well as the cover coupling part by the expansion of the heat exchanger body from the temperature change of the hot water, thereby improving the heat exchange efficiency of the heat exchanger intended for sterilization of the milk stock solution. In addition, it is an object of the present invention to provide a heat exchanger of the sterilization apparatus to more efficiently proceed the sterilization process for milk stock solution.

Heat exchanger of the sterilization apparatus of the present invention for achieving the above object,

The master body of the heat exchanger is provided with a hot water supply pipe connected to the hot water tank, as well as a plurality of pipes and a first connection pipe for providing a flow path of the milk stock solution;

The upper end is connected to the first connector of the master body through the second connector, as well as the rear end of the multi-stage arrangement structure is configured through the second, third connection pipe, providing the flow path of the master body milk stock solution Sub body of the heat exchanger is provided with a plurality of pipes;

A cover welded to the front and rear ends of the master body and the sub-body of the multi-stage arrangement; And,

A tension member coupled between the hot water tank and the master main body, and a hot water supply pipe connecting the master main body and the sub main body and the sub main bodies of the multi-stage structure, and the first and second connection pipes; It is characterized by the configuration.

According to another aspect, the master body,

Divided into a first body and a second body to which the cover is coupled;

The first and second main body is characterized in that the coupling configuration with the tension member.

According to yet another aspect, the sub-body,

Divided into a third body to which the cover is coupled and a fourth body to which the second and third connectors are coupled,

The third and fourth main body is characterized in that the coupling configuration of the tension member.

According to yet another aspect, the hot water supply pipe,

Divided into a first hot water supply pipe coupled to the first body and a second hot water supply tube coupled to the hot water tank,

The first and second hot water supply pipes are characterized in that the coupling constituted by a tension member.

According to yet another aspect, the tension member is characterized in that the corrugated pipe.

According to yet another aspect, the corrugated pipe is characterized in that the stainless steel.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a cross-sectional view illustrating a structure of a heat exchanger as an embodiment of the present invention, and FIG. 4 is an enlarged view of a corrugated pipe structure as an embodiment of the present invention.

As shown in Figure 3 and 4, the heat exchanger of the sterilization apparatus according to an embodiment of the present invention, the master body 100 and the sub main body 200 of the multi-stage arrangement structure, the master body 100 and the sub-body ( And a plurality of pipes 300 and tension members 400 arranged in 200.

The master main body 100 is divided into first and second main bodies 21 and 22, and the first main body 21 has a structure in which the hot water supply pipe 80 and the first connection pipe 40 are welded and coupled to each other. Achieve.

The sub main body 200 is a multi-stage structure and is divided into third and fourth main bodies 23 and 24, and the fourth main body 24 is welded to the second and third connecting pipes 50 and 60. To form a combined structure.

In addition, the first and second main bodies 21 and 22 and the third and fourth main bodies 23 and 24 are configured to form a structure in which a cover 70 for improving the sealing property is welded.

The tension member 400 is a corrugated pipe made of stainless material, which is the fourth body 24 constituting the first connection tube 40 and the sub-body 200 of the first body 21 constituting the master body 100. Is configured to connect the second connector 50 of the.

Here, the first hot water supply pipe 81 is coupled to a second hot water supply pipe 82 coupled to a hot water tank (not shown), wherein the first and second hot water supply pipes 81 and 82 are coupled to each other. The connection is made through the tension member 400 of the corrugated pipe shape made of the stainless material.

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Then, the hot water at a predetermined temperature is supplied into the master body 100 including the first and second main bodies 21 and 22 through the first and second hot water supply pipes 81 and 82, and the hot water is supplied again. Sub body 200 composed of third and fourth bodies 23 and 24 as a multi-stage structure through the first and second connecting pipes 40 and 50 as well as the second and third connecting pipes 50 and 60. When supplied to the, it is possible to appropriately correspond to the expansion index according to the temperature change amount of the hot water.

That is, in the state where the milk stock solution is guided through the pipe 300 in the master body 100 and the sub-body 200, hot water is supplied to the master body 100 and the sub-body 200 to sterilize the milk stock solution. When is supplied, the master body 100 and the sub-body 200 is caused by the deformation of the expansion in accordance with the temperature change amount of the hot water supplied in the closed state by the cover 70.

At this time, the first and second main bodies 21 and 22 forming the master body 100 and the first and second hot water supply pipes 81 and 82 providing a flow path of hot water, as well as the first and second connection pipes. The tension members 400 provided in the 40 and 50 and the second and third connecting pipes 50 and 60, that is, the corrugated pipe made of stainless steel, exhibit elasticity.

Then, the first and second hot water supply pipes 81 and 82 connecting the hot water tank and the master body 100 through the elasticity of the tension member 400, as well as the master body 100 and the sub-body 200. The deformation amount of the first, second, and third connection pipes 40, 50, 60 connecting the bar is absorbed,

The coupling portion of the cover 70 coupled to the front and rear ends of the master body 100 and the sub-body 200 constituting the heat exchanger, as well as the master body 100 and the sub-body 200 and the sub-stage of the multi-stage arrangement structure In the first, second, and third connection pipes 40, 50, 60 connecting the main bodies 200, cracking and breakage may be prevented due to the elasticity of the tension member 400.

As described above, the present invention constitutes a tension member at the front and rear ends of the heat exchanger body to which the hot water supply pipe and the cover are coupled to connect the multi-stage heat exchanger main body, and the heat exchanger is expanded by the expansion of the heat exchanger body from the temperature change of the hot water. It prevents cracking and breakage in the main body and hot water supply pipe as well as the cover coupling part to increase heat exchange efficiency of the heat exchanger for sterilization of milk stock, and on the other hand, to sterilize milk stock more efficiently. It works.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (5)

The master body of the heat exchanger is provided with a hot water supply pipe connected to the hot water tank, as well as a plurality of pipes and a first connection pipe for providing a flow path of the milk stock solution; The upper end is connected to the first connector of the master body through the second connector, as well as the rear end of the multi-stage arrangement structure is configured through the second, third connection pipe, providing the flow path of the master body milk stock solution Sub body of the heat exchanger is provided with a plurality of pipes; A cover welded to the front and rear ends of the master body and the sub-body of the multi-stage arrangement; And, A tension member coupled between the hot water tank and the master main body, and a hot water supply pipe connecting the master main body and the sub main body and the sub main bodies of the multi-stage structure, and the first and second connection pipes; Heat exchanger of the sterilizer, characterized in that comprising a. The method of claim 1, wherein the master body, The first body is connected to the hot water supply pipe connected to the hot water tank and the second connection pipe coupled to the sub-body is coupled to the first body, and the cover is coupled to the second body coupled to the first body, 2 The heat exchanger of the sterilizing apparatus, characterized in that the main body is composed of a coupling member. The method of claim 2, wherein the sub-body, The third body is coupled to the cover, and the second connector connected to the first connector of the master body and the third connector is connected to the second connector coupled to the sub-body sequentially coupled to the rear end is coupled The heat exchanger of the sterilization apparatus, characterized in that divided into a fourth body, wherein the third, fourth body is coupled to the tension member. According to claim 3, The hot water supply pipe, The heat exchanger of the sterilization apparatus, characterized in that divided into a first hot water supply pipe coupled to the first body, and a second hot water supply pipe coupled to the hot water tank, wherein the first and second hot water supply pipes are coupled to the tension member. The method of claim 4, wherein The tension member is a heat exchanger of the sterilization device, characterized in that the corrugated pipe made of stainless steel.

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