KR101569523B1

KR101569523B1 - Temperature control of stirred tank

Info

Publication number: KR101569523B1
Application number: KR1020140141763A
Authority: KR
Inventors: 김봉준
Original assignee: 주식회사 윈테크
Priority date: 2014-10-20
Filing date: 2014-10-20
Publication date: 2015-11-16

Abstract

The present invention relates to a stirring tank for controlling temperature, which comprises: a container formed with a space for storing a substance mixed inside; a stirring pipe with the opened upper part and the closed lower part; an inflow pipe separately positioning the outer circumferential surface to be separated from the inner circumferential surface of the stirring pipe; a plurality of fixing plates formed with a plurality of flow holes inside; a first heat conductive pipe having a long pipe form penetrated through the inside; a second heat conductive pipe positioned to be symmetrical to the stirring pipe; a first pulley formed on the stirring pipe; a driving motor for providing rotation force; a second pulley for rotating by receiving the rotation force form the driving motor; a connection belt for inducing the stirring pipe to be rotated by supplying the rotation force provided from the driving motor to the first pulley; a mechanical seal for fixing the position of the stirring pipe; and a first temperature control means for inserting a cooling medium or a heating medium to the inflow pipe, and for collecting the inserted cooling medium or the heating medium through the stirring pipe. According to the present invention, the stirring tank for controlling temperature has an efficient reaction by evenly cooling or heating the substance stored in the container.

Description

Temperature control of stirred tank -

The present invention relates to a stirring tank for temperature control, and more particularly, to a stirring tank for temperature control, in which a refrigerant or a heat is circulated through a heat conduction pipe positioned inside a container through a first temperature control means, The time required for uniformly cooling or heating the material contained in the container is drastically reduced in comparison with the conventional stirring tank, so that the time required for completing the reaction of the material is drastically reduced. In addition, The present invention relates to a stirring tank for temperature control in which the material to be accommodated can be cooled or heated evenly so that a highly efficient reaction can be expected.

Generally, a stirring tank used in various chemical equipments is widely used for stirring two or more materials through an impeller disposed therein.

Such a stirring tank is provided with a heating device and a cooling device capable of heating or cooling the stirring tank to an appropriate temperature so that two or more substances can react effectively.

However, in the conventional stirring tank, only the outside of the stirring tank is heated and cooled due to the structure in which the heating device and the cooling device are provided outside the stirring tank, so that only a substance adjacent to the inner peripheral surface of the stirring tank is induced to smoothly perform an efficient reaction There was a problem that was difficult to expect.

Further, the conventional stirring tank is too slow in heat exchange rate with the material accommodated in the stirring tank due to the structure of the heating device and the cooling device installed outside, so that it takes too much time to heat or cool the material contained in the stirring tank as a whole So that too much time is wasted to complete the reaction of the material.

The object of the present invention is to provide a heat conduction pipe which is disposed inside a container through a first temperature control means to circulate a refrigerant or a heat and to store a substance contained in the container and a refrigerant, The time required for the material to be cooled or heated uniformly is reduced compared with the conventional stirring tank by guiding the heat to be directly exchanged with heat through the heat conduction pipe and the time required to complete the reaction of the material is also greatly reduced In addition, it is an object of the present invention to provide a stirring tank for temperature control, in which substances contained in a container can be cooled or heated evenly so that highly efficient reactions can be expected.

Further, the present invention provides a stirring tank for temperature control that can rapidly and effectively cool or heat the material contained in the container through the second temperature control means, thereby enabling a quicker and more efficient reaction to be expected.

According to an aspect of the present invention, there is provided a stirring tank for temperature control, comprising: a container having a space therein capable of receiving a material to be mixed therein; A stirring pipe having a space formed therein and an upper portion being opened and a lower portion being closed; an elongated tube having an elongated length, the elongated tube being positioned at an inner center of the stir pipe and passing through the inside thereof, A plurality of fixed plates positioned between the stirring pipe and the inlet pipe to close between the stirring pipe and the inlet pipe and having a plurality of through holes formed therein; And one end is connected to the lower portion of the stirring pipe and the other end is connected to the stirring pipe A first heat conduction pipe communicating with the upper portion of the stirring pipe; a first heat conduction pipe communicating with the upper portion of the stirring pipe; A first pulley formed on the stirring pipe exposed to an upper portion of the container, a driving motor for providing a rotating force, and a driving motor for driving the driving motor, And a second pulley connected to the first pulley and connected to the first pulley and connected to the first pulley and connected to the first pulley, A mechanical seal disposed at an upper portion of the container to fix the position of the stirring pipe, And a first temperature control means located at an upper portion of the apparatus for introducing the refrigerant or the heat into the inlet pipe and recovering the introduced refrigerant or the heat through the stirring pipe,

When the refrigerant or the heat is supplied to the inflow pipe through the first temperature control means, the introduced refrigerant or the heat falls down on the inflow pipe and is discharged to the lower portion of the stirring pipe, Circulates the heat conduction pipe communicated with the lower portion of the heat conduction pipe, exchanges heat with the material contained in the stirring tank, and then flows into the stirring pipe connected to the other end of the heat conduction pipe to be returned to the outside,
The first temperature control means is located at an upper portion of the inflow pipe. The first temperature control means includes a first pipe through which the coolant or the coolant flows, a first inlet formed at one end thereof, and a first pipe connected to the inflow pipe at the other end. And a second pipe which is located at an upper portion of the stirring pipe and which has an inside and a first outlet through which refrigerant or heat is discharged and whose other end is connected to the stirring pipe, A rotary joint for interconnecting the second pipe and the stirring pipe, a storage tank in which a refrigerant or a heat is received, and a second pipe connected to the storage tank and the first pipe so as to be connected to the storage tank A third pipe for guiding the received refrigerant or the heat into the first pipe, and a second pipe for connecting the storage tank and the second pipe in communication with each other, A fourth pipe for guiding the refrigerant or the fruit circulated in the second pipe to be returned to the storage tank, and a second pipe connected to the first pipe through the third pipe, And a first pump for forced transfer

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And a second temperature control unit located on an outer surface of the container to lower or raise the temperature of the container,

The second temperature control means forms a closed space inside the container by enclosing the outer surface of the container, a second inlet through which the refrigerant or the heat is introduced is formed in the lower portion, and a second inlet through which the refrigerant or the fruit A fifth pipe connected to the storage tank and the second inlet so as to communicate with each other to guide the refrigerant or the heat received in the storage tank into the second inlet, A sixth pipe connected to the storage tank and the second outlet to communicate with each other to guide the refrigerant or the heat discharged to the second outlet to be returned to the storage tank, A second pump for forcibly transferring the refrigerant or the heat to the second inlet through the fifth pipe; and a second pump formed inside the water receiving chamber, Is formed while the flow wrap spins the outer peripheral surface of the container or fruit refrigerant flowing into the second inlet to the spiral is configured to include a guide plate for guiding the exhaust to the second outlet,

And the temperature of the material contained in the container is controlled by lowering or raising the temperature of the surface of the container through the coolant or the heat that flows into the water tank.

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As described above, according to the stirring tank for temperature control according to the present invention, the refrigerant or the heat is circulated through the heat conduction pipe located inside the container through the first temperature control means, The time required for uniformly cooling or heating the material contained in the container is drastically reduced in comparison with the conventional stirring tank, so that the time required for completing the reaction of the material is drastically reduced. In addition, There is an effect that a very efficient reaction can be expected by cooling or heating the contained material evenly.

Further, the material accommodated in the container can be cooled or heated more quickly and effectively through the second temperature control means, so that a quicker and more efficient reaction can be expected.

1 is a cross-sectional view of a stirring tank for temperature control according to an embodiment of the present invention;
Fig. 2 is a partially cutaway perspective view of the stirring tank for temperature control shown in Fig.
Fig. 3 is a view showing the state of use of the stirring tank for temperature control shown in Fig.

A stirring tank for temperature control according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 to 3 show a stirring tank for temperature control according to an embodiment of the present invention. Fig. 1 is a sectional view of a stirring tank for temperature control according to an embodiment of the present invention, Fig. 2 is a cross- Fig. 3 is a view showing the state of use of the stirring tank for temperature control shown in Fig. 1. Fig. 3 is a partially cutaway perspective view of the stirring tank. Fig.

As shown in the drawings, the stirring tank 100 for temperature control according to the embodiment of the present invention includes a container 10, a stirring pipe 20, an inlet pipe 30, a fixing plate 40, A first thermal conduction pipe 50, a second heat conduction pipe 60, a first pulley 70, a drive motor 80, a second pulley 90, a connecting belt 110, a mechanical seal 120), and a first temperature control means (130).

As shown in FIGS. 1 and 2, the container 10 is configured to have a space therein for easily accommodating the substance 1 to be mixed therein.

1, the stirring pipe 20 is vertically penetrated into the container 10 from the upper part of the container 10, and a space is formed therein. The upper part is opened and the lower part is closed .

3C, the inside of the stirring pipe 20 is used as a passage through which the refrigerant or the heat supplied from the first temperature control unit 130 to be hounded is returned, and the upper part of the stirring pipe 20 Is exposed to the outside of the vessel (10) and rotated by the rotational force of the drive motor (80) to be trailed.

As shown in FIG. 1, the inlet pipe 30 has a long length and is positioned at the center of the inside of the stirring pipe 20, the inside of the inlet pipe 30 is spaced apart from the inner peripheral surface of the stirring pipe 20 Respectively.

Here, as shown in FIG. 3A, the refrigerant or the heat supplied from the first temperature control unit 130 flows into the inlet pipe 30 and is discharged to the lower portion of the stirring pipe 20.

On the other hand, the inlet pipe 30 is firmly fixed by the fixing plate 40 which is to be coupled to the stirring pipe 20.

1, the fixing plate 40 is positioned between the stirring pipe 20 and the inlet pipe 30 to close the gap between the stirring pipe 20 and the inlet pipe 30, And a plurality of flow-through holes 41 are formed therein.

Here, the refrigerant or the heat that flows through the stirring pipe 20 and ascends and descends continuously passes through the flow hole 41 of the fixing plate 40.

As shown in FIG. 1, the first heat conduction pipe 50 has a shape of a long pipe passing through the inside thereof, is located inside the container 10, and has one end communicating with the lower part of the stirring pipe 20 And the other end is connected to the upper portion of the stirring pipe 20 so as to be communicatively connected.

3B, the refrigerant or the heat discharged to the lower portion of the stirring pipe 20 through the inflow pipe 30 flows into the first heat conductive pipe 50, The material 1 accommodated in the container 10 and in direct contact with the first heat conduction pipe 50 is efficiently cooled or heated.

At this time, in order to efficiently exchange heat between the first heat conduction pipe 50 and the second heat conduction pipe 60 to be hermetically sealed and the material 1 accommodated in the container 10, the heat conduction pipes 50, 1) in a large area so as to be heat-exchanged easily, but it is needless to say that the structure is limited to such a structure.

As shown in FIG. 3D, the heat conduction pipes 50 and 60 are coupled with the stirring pipe 20 to receive the rotational force of the driving motor 80, (1) contained in the container (10) by continuously transferring between the materials (1) accommodated in the container (10) while performing an impeller function of stirring the substance (1) So that the entire material is evenly heated or cooled.

As shown in FIG. 1, the second heat conduction pipe 60 is symmetrically positioned with respect to the stirring pipe 20, and has a shape of a long pipe passing through the inside thereof. One end of the second heat conducting pipe 60 is connected to the stirring pipe 20 And the other end is connected to the upper portion of the stirring pipe 20 so as to be communicatively connected.

Here, the structure and function of the second heat conduction pipe 60 are the same as those of the first heat conduction pipe 50 described above, and a detailed description thereof will be omitted.

1, the first pulley 70 is formed on the stirring pipe 20 exposed to the upper portion of the vessel 10 and is rotated together with the stirring pipe 20.

As shown in FIG. 1, the driving motor 80 provides a rotating force to guide the stirring pipe 20 to rotate.

As shown in FIG. 1, the second pulley 90 is connected to the driving motor 80 and is rotated by the rotational force from the driving motor 80.

1, the connecting belt 110 interconnects the first pulley 70 and the second pulley 90 to transmit rotational force from the driving motor 80 to the first pulley 70 So that the stirring pipe 20 is rotated together with the first pulley 70.

3D, the rotational force provided by the driving motor 80 is transmitted to the stirring pipe 20 through the pulleys 70 and 90 and the connecting belt 110 so that the stirring pipe 20, At this time, the heat conduction pipes 50 and 60 coupled with the stirring pipe 20 rotate together to stir the substance 1 contained in the container 10.

As shown in FIG. 1, the mechanical seal 120 is positioned above the container 10 to fix the position of the stirring pipe 20.

As shown in FIG. 1, the first temperature control means 130 is located above the vessel 10 to introduce refrigerant or heat into the inlet pipe 30, By recycling through the pipe 20,

The first inlet 131a is connected to the inlet pipe 30 and the other end of the first inlet 131a is connected to the inlet pipe 30. The first inlet 131a is connected to the inlet pipe 30, 1 pipe 131 and an upper portion of the stirring pipe 20 and has a first outlet 132a through which the refrigerant or the heat is discharged and the other end is connected to the stirring pipe 20 A rotary joint 133 for interconnecting the first pipe 131 and the inflow pipe 30, the second pipe 132 and the stirring pipe 20, A storage tank 134 in which a refrigerant or a heat is received therein and a refrigerant or a heat absorbing material which is connected to the storage tank 134 and the first pipe 131 so as to communicate with each other, A third pipe 135 for guiding the first pipe 131 to flow into the first pipe 131, A fourth pipe 136 connecting the second pipe 132 to communicate with the second pipe 132 to guide the refrigerant or the water flowing into the second pipe 132 to return to the storage tank 134, And a first pump 137 formed on the first pipe 135 for forcibly transferring the refrigerant or the heat received in the storage tank 134 to the first pipe 131 through the third pipe 135 .

That is, as shown in FIG. 3A, when the first pump 137 is operated, the refrigerant or the heat received in the storage tank 134 flows through the third pipe 135 to the first pipe 131, The refrigerant or the heat that has flowed into the first pipe 131 flows into the inflow pipe 30 and is discharged to the lower portion of the stirring pipe 20, The refrigerant or the heat discharged into the lower part of the heat pipe 50 flows into the heat conduction pipe 50 and flows into the upper part of the stirring pipe 20, The material 1 that is in direct contact with the heat conduction pipes 50 and 60 is heat-exchanged with the heat conduction pipes 50 and 60 to rapidly cool or heat the heat conduction pipes 50 and 60. [ do.

3C, the refrigerant or the heat flowing into the stirring pipe 20 through the heat conduction pipes 50 and 60 flows into the second pipe 132 communicating with the stirring pipe 20, And the refrigerant or the heat introduced into the second pipe 132 is forcibly returned to the storage tank 134 through the fourth pipe 136 to be continuously circulated.

1, the first heat conduction pipe 50 and the stirring pipe 20 are connected to each other so that the refrigerant or the heat flowing to the stirring pipe 20 flows into the first heat conduction pipe 50 so as to induce efficient heat exchange between the first heat conduction pipe 50 and the material 1 contained in the container 10 and to firmly support the position of the first heat conduction pipe 50 And a second heat conduction pipe connected to the second heat conduction pipe and the stirring pipe so as to communicate with the second heat conduction pipe, The second heat conduction pipe 60 is guided into the pipe 60 to induce effective heat exchange between the second heat conduction pipe 60 and the material 1 contained in the container 10, One or more second reinforcing ribs Further it includes a profile (160).

3B, the refrigerant or the heat discharged to the lower portion of the stirring pipe 20 through the inlet pipe 30 flows into the heat conduction pipes 50 and 60 to be circulated. However, The refrigerant or the heat that ascends and descends with the stirring pipe 20 flows into the heat conduction pipes 50 and 60 through the reinforcing pipes 150 and 160 so that the heat conduction pipes 50 and 60 And reinforcement pipes 150 and 160. [0033] FIG.

And a second temperature control unit 140 disposed on an outer surface of the container 10 to lower or raise the temperature of the container 10,

As shown in FIGS. 1 and 2, the second temperature control unit 140 is configured to enclose the outer surface of the container 10 to form a closed space therein, And a second outlet 141b through which the refrigerant or the heat discharged into the second inlet 141a is formed are formed in an upper portion of the first inlet 141a, A fifth pipe 142 connecting the second inlet 141a to communicate with the second inlet 141a to guide the refrigerant or the heat received in the storage tank 134 into the second inlet 141a, A sixth pipe 143 connected to the second outlet 141b to guide the refrigerant or the heat discharged to the second outlet 141b to return to the storage tank, And the refrigerant or the heat absorbed in the storage tank 134 flows through the fifth pipe 142, A second pump 144 for forcibly transferring the water to the second inlet 141a and a second pump 144 formed inside the water receiving chamber 141 and spirally surrounding the outer circumferential surface of the container 10, And a guide plate 145 for guiding the refrigerant or the introduced refrigerant to flow through the outer circumferential surface of the container 10 in a spiral shape and to be discharged to the second outlet 141b.

3E, the refrigerant or the heat absorbed in the storage tank 134 is discharged through the fifth pipe 142 to the second inlet 141 of the water receiving chamber 141 by the operation of the second pump 144, And the refrigerant or the heat introduced into the water receiving chamber 141 is guided by the guide plate 145 so as to ascend and descend while contacting the surface of the container 10 in a spiral manner, The refrigerant or the heat guided and guided by the guide plate 145 is discharged to the second outlet 141b and is discharged to the sixth pipe 143 to the storage tank 134 for continuous circulation.

The stirring tank 100 for temperature control according to the present invention having the above-described components is connected to the heat conduction pipes 50 and 60 located inside the container 10 through the first temperature control means 130, The material 1 accommodated in the container 10 and the refrigerant or the heat are guided to be directly heat-exchanged through the heat conduction pipes 50 and 60 so that the materials 1 contained in the container 10 are uniformly distributed The time required for cooling or heating is significantly reduced in comparison with the conventional stirring tank, so that the time required for completing the reaction of the substance 1 is also drastically reduced, and the material 1 contained in the container 10 It is possible to expect a highly efficient reaction by cooling or heating evenly.

Further, the substance 1 contained in the container 10 can be cooled or heated more quickly and effectively through the second temperature control means 140, so that a quicker and more efficient reaction can be expected.

The stirring tank 100 for temperature control according to the embodiment of the present invention having the above-described structure mixes the substances by stirring as follows.

First, as shown in FIG. 3A, when the substance 1 to be stirred is accommodated in the container 10, the first pump 137 of the first temperature control stage 130 is operated so as to be accommodated in the storage tank 134 The refrigerant or the fruit is forcibly circulated to the first pipe 131 through the third pipe 135 and the refrigerant or the refrigerant circulated to the first pipe 131 flows into the inflow pipe 30, To be discharged to the lower portion of the apparatus.

3B, the refrigerant or the heat discharged to the lower portion of the stirring pipe 20 flows into the heat conduction pipes 50 and 60 and flows into the upper portion of the stirring pipe 20 (returns) The heat conduction pipes 50 and 60 are cooled or heated by the refrigerant or the heat flowing through the heat conduction pipes 50 and 60 so that the material 1 which is in direct contact with the heat conduction pipes 50 and 60, Exchanged with the pipes 50 and 60, and quickly cooled or heated to perform an efficient reaction.

At this time, the refrigerant or the fruit ascending and descending through the stirring pipe 20 flows into the heat conduction pipes 50 and 60 through the reinforcing pipes 150 and 160 and flows through the heat conduction pipes 50 and 60 and the reinforcing pipes 150 and 160 More efficient heat exchange is induced.

3c, the refrigerant or the heat that flows into the stirring pipe 20 through the heat conduction pipes 50 and 60 flows into the second pipe 132 communicating with the stirring pipe 20 And the refrigerant or the heat introduced into the second pipe 132 is forcibly returned to the storage tank 134 through the fourth pipe 136 and is continuously circulated.

As shown in FIG. 3D, the heat conduction pipes 50 and 60 are coupled with the stirring pipe 20 to receive the rotational force of the driving motor 80, (1) accommodated in the container (10) while continuously rotating the material (1) accommodated in the container (10) while stirring the substance (1) Thereby heating or cooling the entire material 1 uniformly.

3E, the temperature of the surface of the container 10 is lowered or elevated through the refrigerant or the heat that flows into the receiving chamber 141 of the second temperature control means 140, The temperature of the substance 1 to be accommodated can be controlled so that the temperature of the substance 1 contained in the container 10 can be controlled more quickly and efficiently.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Substance
10. Container 20. Stirring pipe
30. Inflow pipe 40. Fixing plate
41. Distribution hole 50. First heat conduction pipe
60. Second heat conduction pipe 70. First pulley
80. Driving motor 90. Second pulley
110. Connecting belt 120. Mechanical seal
130. First temperature control means 131. First pipe
131a. First inlet 132. Second pipe
132a. First outlet 133. Rotary joint
134. Storage tank 135. Third pipe
136. Fourth pipe 137. First pump
140. Second temperature control means 141. Receiving room
141a. The second inlet 141b. The second outlet
142. Fifth pipe 143. Sixth pipe
144. Second pump 145. Guide plate
150. First reinforcement pipe 160. Second reinforcement pipe
100. Stirring tank for temperature control

Claims

In a stirring tank for stirring two or more substances,
A container 10 in which a space for accommodating the substance 1 to be mixed therein is formed;
A stirring pipe (20) vertically penetrating into the container (10) at an upper portion of the container (10), the space being formed therein, the upper portion being open and the lower portion being closed;
An inlet pipe (30) having a long length and positioned at an inner center of the stirring pipe (20), the inside of which penetrates and whose outer circumferential surface is positioned apart from the inner circumferential surface of the stirring pipe (20);
A plurality of fixed plates (41) which are positioned between the stirring pipe (20) and the inflow pipe (30) to close the gap between the stirring pipe (20) and the inflow pipe 40);
And the other end is connected to the upper part of the stirring pipe 20 so as to be connected to the lower part of the stirring pipe 20, A first heat conduction pipe (50) connected thereto;
The stirring pipe 20 is symmetrically disposed with respect to the stirring pipe 20. The stirring pipe 20 has a shape of a long pipe having an inner portion penetrated therein and has one end connected to the lower portion of the stirring pipe 20, A second heat conduction pipe (60) communicably connected to an upper portion of the second heat conduction pipe (60);
A first pulley (70) formed on the stirring pipe (20) exposed to the top of the vessel (10);
A drive motor (80) for providing a rotational force;
A second pulley (90) connected to the drive motor (80) and rotated by receiving a rotational force from the drive motor (80);
The first pulley 70 and the second pulley 90 are connected to each other so that the rotational force provided from the driving motor 80 is supplied to the first pulley 70, A connecting belt 110 for guiding the pipe 20 to rotate;
A mechanical seal 120 positioned above the vessel 10 to fix the position of the stirring pipe 20; And
A first temperature control means 130 located at an upper portion of the vessel 10 for introducing refrigerant or heat into the inlet pipe 30 and recovering the introduced refrigerant or the heat through the stirring pipe 20; Comprising:
When the refrigerant or the heat is input to the inflow pipe 30 through the first temperature control means 130, the introduced refrigerant or the heat flows down through the inflow pipe 30 and is discharged to the lower portion of the stirring pipe 20 And the discharged refrigerant or heat is exchanged with the material (1) contained in the container (10) while flowing the heat conduction pipe (50,60) connected to the lower part of the stirring pipe (20) Flows into the stirring pipe (20) connected to the other end of the heat conduction pipe (50,60), flows back to the outside,
The first temperature control means 130 is located at an upper portion of the inflow pipe 30. The first temperature control means 130 has a first inlet 131a through which the refrigerant or the heat is introduced, A first pipe 131 communicating with the pipe 30 and a first outlet 132a through which the refrigerant or the heat is discharged at one end, which is located at an upper portion of the stirring pipe 20, And the other end is connected to the stirring pipe 20 so as to communicate with the first pipe 131. The first pipe 131 and the inlet pipe 30, the second pipe 132, and the stirring pipe 20 The storage tank 134 is connected to the first pipe 131 so as to communicate with the storage tank 134. The storage tank 134 is connected to the storage tank 134 through the rotary joint 133, (13) for guiding the refrigerant or the heat received in the first pipe (134) to flow into the first pipe (131) And a second pipe 132 connected to the storage tank 134 and the second pipe 132 so as to guide the refrigerant or the coolant flowing through the second pipe 132 to the storage tank 134 4 pipe 136 and a refrigerant or a heat generated on the third pipe 135 and stored in the storage tank 134 is forcibly transferred to the first pipe 131 through the third pipe 135 And a first pump (137).

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The method according to claim 1,
And a second temperature control unit (140) located on an outer surface of the container (10) to lower or raise the temperature of the container (10)
The second temperature control means (140)
A second inlet 141a for introducing a refrigerant or a heat is formed in a lower portion of the container 10, and a lower portion of the second inlet 141a is connected to the upper portion of the second inlet 141a, Or a second outlet 141b through which the fruit is discharged,
A fifth pipe 142 connecting the storage tank 134 and the second inlet 141a so as to communicate with each other to guide the refrigerant or the heat received in the storage tank 134 into the second inlet 141a, Wow,
A sixth pipe 143 connecting the storage tank 134 and the second outlet 141b to communicate with each other to guide the refrigerant or the heat discharged to the second outlet 141b to return to the storage tank;
A second pump 144 formed on the fifth pipe 142 for forcibly transferring the refrigerant or the heat received in the storage tank 134 to the second inlet 141a through the fifth pipe 142, ,
The second inlet 141a is formed in the water receiving chamber 141 so as to spirally surround the outer circumferential surface of the container 10 so that the refrigerant or the heat flowing into the second inlet 141a spirally flows around the outer circumferential surface of the container 10 And a guide plate 145 for guiding the liquid to be discharged to the second outlet 141b,
And controls the temperature of the material accommodated in the container (10) by lowering or raising the temperature of the surface of the container (10) through the refrigerant or the heat that flows into the water receiving chamber (141) .

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