KR20080099478A - Concentrate apparatus using steam - Google Patents

Abstract

The present invention is formed with an empty space inside, the outer inlet is formed in the inlet and the outlet of the contents outflow, the outer chamber is formed with a steam supply inlet to supply steam from the steam supply to the inside; An inner chamber in which an empty space is formed and an upper portion thereof is opened and positioned to rotate inside the outer chamber; A ring-shaped edge portion connected to an upper end of an inner circumference of the inner chamber and stacked in multiple layers in a lower direction; One side is connected to the inlet of the outer chamber, the other side is located on the outside of the rim portion injection tube for injecting the contents to the upper surface of the rim; And a concentrated liquid outlet tube extending vertically from the inside of each of the edge portions to the outlet so that the contents located at the edge portion of the outer chamber are discharged to the outlet of the outer chamber by the injection tube. An empty space is formed and provided with one or more openings which open in the direction of the inner chamber, and steam supplied from the steam supplying portion is supplied to the inside of the edge portion through the opening portion of the edge portion and heats the edge, thereby It relates to a rotary evaporation concentrator using steam, characterized in that configured to evaporate the water of the contents injected into the upper surface.

The rotary evaporation concentrator using steam according to the present invention is heated to a boiling temperature in a few seconds from the upper surface of the rim, so that the heating in a short time, so as not to destroy the components or nutrients of the contents, medicinal effects or nutrients There is an effect that does not lower the.

Description

Rotary Evaporative Concentrator with Steam {Concentrate Apparatus Using Steam}

1 is a three-dimensional view showing a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention.

Figure 2 is a three-dimensional view showing the rim of the rotary evaporation concentrator using steam according to a preferred embodiment of the present invention.

3 is a cross-sectional view showing a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention.

Figure 4 is a schematic overall configuration diagram showing a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

2: raw material storage tank 3: raw material pump

4: control valve 5: steam supply

6: steam supply valve 8: connector

10: outer chamber 12: inlet

14: outlet 16: steam supply port

18: steam outlet 20: inner chamber

22: supply hole 24: supply pipe

26: discharge pipe 30: the edge portion

32: opening part 34: hollow part

40: injection tube 42: injection nozzle

50: concentrated liquid outlet pipe 60: discharge pump

65: concentration sensor 70: cooling tube

75: storage tank 80: concentrate

90: condensation tube 92: centrifuge

94: compression pump 96: vacuum pump

The present invention relates to a rotary evaporation concentrator using steam, and more particularly, to a rotary evaporation concentrator using steam that allows the contents to be heated to a boiling temperature in a few seconds, so that the components or nutrients of the contents cannot be destroyed. will be.

In general, a rotary concentrator extracts a component by removing steam using a centrifugal force from a liquid sample to be concentrated, and may use a rotary force of the concentrator to discharge an incompressible gas through rapid evaporation of a solvent.

In view of the principle of such a conventional thickening device, as disclosed in the Republic of Korea Utility Model Publication (Registration No. 20-0326765), steam heated by the steam heated on the outer periphery of the tank having a closed chamber containing the material therein A heating furnace having a supply pipe is installed along the circumference, and upper and lower surfaces of the tank are respectively provided with an inlet port through which the material is introduced into the chamber and an outlet port through which the material in the chamber is discharged to the outside. The stirring member is arranged and coupled to the outer periphery of the stirring shaft which is rotatably disposed and the stirring shaft is configured to be rotated by a motor, and an upper portion of the chamber is provided with a steam outlet for discharging the wet steam generated by heating of the material to the outside. In the lower part of the heating furnace, the steam supply pipe heats the tank to heat the condensate, Is discharged by the condensate discharge port is formed is configured.

However, the conventional steam heating stirring concentrator such that the material stays in the chamber for a long time, the internal temperature is maintained at a high temperature by the amount of heat applied to the chamber, the ingredients of the ingredients and other food nutrients are destroyed, There is a problem of lowering the nutritional content.

In order to solve the problems of the prior art as described above, an object of the present invention is to heat to a boiling temperature in a few seconds, to heat in a short time, so as not to destroy the components or nutrients of the contents, and lower the drug or nutrient It is to provide a rotary evaporation concentrator using steam that can be avoided.

In order to achieve the above object, the present invention has an empty space formed inside, an inlet through which contents are introduced and an outlet through which contents are discharged, and a steam supply hole formed at a lower portion so that steam is supplied from the steam supply unit to the inside. Outer chamber; An inner chamber in which an empty space is formed and an upper portion thereof is opened and positioned to rotate inside the outer chamber; A ring-shaped edge portion connected to an upper end of an inner circumference of the inner chamber and stacked in multiple layers in a lower direction; One side is connected to the inlet of the outer chamber, the other side is located on the outside of the rim portion injection tube for injecting the contents to the upper surface of the rim; And a concentrated liquid outlet tube extending vertically from the inside of each of the edge portions to the outlet so that the contents located at the edge portion of the outer chamber are discharged to the outlet of the outer chamber by the injection tube. An empty space is formed and provided with one or more openings which open in the direction of the inner chamber, and steam supplied from the steam supplying portion is supplied to the inside of the edge portion through the opening portion of the edge portion and heats the edge, thereby It provides a rotary evaporation concentrator using steam, characterized in that configured to evaporate the water of the contents injected into the upper surface.

In addition, the edge portion located at the top of the edge portion laminated in a multi-layer is connected to the upper end of the inner chamber, the edge portion located at the bottom end is spaced apart from the lower end of the inner chamber, between the inner chamber and the edge portion It provides a rotary evaporation concentrator using steam characterized in that the spaced apart position so that the hollow portion is formed.

In addition, the outer end portion of the rim portion is formed to be inclined in the upper direction, when the inner chamber is rotated, the rotary evaporation concentration using steam, characterized in that the contents introduced to the upper surface of the rim portion is configured to be not separated to the outside Provide the device.

In addition, the upper portion of the outlet of the outer chamber provides a rotary evaporation concentrator using steam, characterized in that the discharge pump is provided so that the contents are discharged through the concentrate outlet pipe.

In addition, between the outlet and the discharge pump provides a rotary evaporation concentrator using steam, characterized in that the concentration sensor for indicating the concentration of the contents flowing out from the concentrate outlet pipe.

In addition, the rotary evaporation concentrator using steam further comprises a cooling tube for cooling the contents flowing out of the outlet of the outer chamber and a connecting tube connecting the outlet and the cooling tube of the outer chamber. To provide.

In addition, the upper side of the outer chamber provides a rotary evaporation concentrator using steam, characterized in that the steam outlet is formed so that the wet steam generated while the contents introduced into the edge portion is heated to the outside.

In addition, a condensation plate for cooling the wet steam discharged from the steam outlet; A connecting pipe connecting the steam outlet and the male plate; And it provides a rotary evaporation concentrator using steam, characterized in that further comprising a centrifugal separator for separating the water and condensate by centrifuging the wet steam cooled in the response plate.

Hereinafter, a rotary evaporation concentrating apparatus using steam according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

1 is a three-dimensional view showing a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention.

Referring to Figure 1, the rotary evaporation concentrator using steam according to a preferred embodiment of the present invention, the outer chamber 10, the inner chamber 20, the rim 30, the injection tube 40, and the concentrated liquid outlet pipe It consists of 50.

The outer chamber 10 has an empty space formed therein, and an inlet 12 serving as an inlet to allow the contents to be concentrated to be introduced therein, and an outlet 14 serving as an outlet to allow the concentrated contents to flow out. The steam supply port 16 is formed at a lower portion thereof such that steam generated from the steam supply unit 5 (see FIG. 4) to be described later is supplied to the inside of the outer chamber 10.

The inner chamber 20 is rotated inside the outer chamber 10, and is formed in a cylindrical shape having an empty space therein, and an upper portion thereof is opened. In addition, a supply hole is provided at a position corresponding to the steam supply port 16 at the bottom of the inner chamber 20 such that steam supplied through the steam supply port 16 of the outer chamber 10 is moved into the inner chamber 20. 22 is formed, and the supply pipe 24 is integrally penetrated through the steam supply port 16 of the outer chamber 10 and the supply hole 22 of the inner chamber 20. Meanwhile, in order to discharge the steam supplied to the inside of the inner chamber 20 back to the outside, one side is positioned inside the inner chamber 20 and the other side is positioned outside the outer chamber 10 through the supply hole 22. A discharge pipe 26 is provided.

The edge portion 30, the injection tube 40 and the concentrate outlet tube 50 will be described in Figures 2 and 3 below.

Figure 2 is a three-dimensional view showing the edge of the rotary evaporation concentrator using steam according to a preferred embodiment of the present invention, Figure 3 shows a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention. It is a cross section.

2 and 3, the edge portion 30 is formed to protrude in a ring shape horizontally with the bottom surface along the inner circumference of the inner chamber 20, and a plurality of such edge portions 30 are formed in the inner chamber 20. It is formed and arranged to form several layers on the inner circumference. And the outer end of the edge portion 30 is formed to be inclined in the upper direction, even if the inner chamber 20 rotates, the contents injected into the upper surface of the edge portion 30 by the injection tube 40 to be described later to the outside It is configured not to be released. In addition, the edge portion 30 positioned at the top of the edge portion 30 stacked in multiple layers is connected to the upper end of the inner chamber 20, and the edge portion 30 positioned at the bottom thereof is the inner chamber 20. Is spaced apart from the lower end of the inner chamber 20 and the rim portion 30 is spaced apart from each other to form a hollow portion 34.

An interior of the edge portion 30 is formed with an empty space, and the one or more openings 32 are provided in the empty space to open in the direction of the inner chamber 20. Thus, when steam generated from the steam supply unit 5 (shown in FIG. 4) is supplied into the inner chamber 20 through the supply pipe 24 passing through the outer chamber 10 and the inner chamber 20, the inner chamber 20 ) And the hollow part 34 formed between the edge part 30. The steam moved to the hollow portion 34 is supplied to the empty space of the edge portion 30 through the open portion 32 of the edge portion 30, thereby increasing the outer surface temperature of the edge portion 30.

Injection tube 40 is a tube for introducing the contents flowing into the inlet 12 of the outer chamber 10 from the raw material storage tank 75 to each of the edge portion 30, one side of the inlet of the outer chamber 10 It is connected to (12), the other side is spaced apart from the outside of the plurality of edges (30). And the injection tube 40 is formed at a position corresponding to the upper surface of each of the edge portion 30 on the other side of the injection tube 40, the contents flowing into the inlet 12 of the outer chamber 10 is the injection tube 40 and It is configured to flow into the upper surface of the rim portion 30 while being sequentially introduced into the injection nozzle (42).

The contents flowing into the upper surface of the edge portion 30 is spread on the upper surface of the edge portion 30 in a thin film shape by the centrifugal force of the inner chamber 20 that is rotated at a high speed, at this time, the upper surface of the edge portion 30 Since the heated state by the steam, the contents located on the upper surface of the edge portion 30 is heated to a boiling temperature within a few seconds, to evaporate the water vapor contained in the contents so that the concentrate 80 is formed. As such, the rotary evaporation concentrator using steam of the present invention is heated to a boiling temperature in a few seconds from the upper surface of the edge portion 30, so that the components or nutrients of the contents are not destroyed, and the drug or nutrients are not degraded. There is an advantage.

Concentrate outlet pipe 50 is to allow the concentrated liquid 80 located on the upper surface of the edge portion 30 to be discharged to the outside through the outlet 14 of the outer chamber 10, of each of the edge portion 30 It is configured to extend vertically in the direction of the outlet 14 from the inside. Thus, when the concentrated liquid 80 formed on the upper surface of the edge portion 30 due to the centrifugal force of the edge portion 30 by the rotation of the inner chamber 20 is moved to the inside of the edge portion 60, each edge portion ( It is configured to flow out of the outer chamber 10 by the concentrated liquid outlet pipe 50 provided inside the 60.

Figure 4 is a schematic overall configuration diagram showing a rotary evaporation concentrator using steam according to a preferred embodiment of the present invention. Referring to the drawings, a raw material storage tank 75 is located at the inlet 12 of the outer chamber 10, and a steam supply unit 5 is provided at a supply pipe 24 passing through the outer chamber 10 and the inner chamber 20. Is positioned, the discharge pump 60 and the cooling pipe 70 is located in the outlet pipe of the outer chamber (10).

The raw material storage tank 75 is a place where contents to be concentrated are stored, and is spaced apart from the inlet 12 of the outer chamber 10, and the raw material storage tank 75 and the inlet ( 12) are configured to be interconnected.

Then, the contents stored in the raw material storage tank 75 are pumped by the raw material pump 3 between the raw material storage tank 75 and the inlet 12 of the outer chamber 10 to the inlet 12 of the outer chamber 10. In this case, a control valve 4 may be installed between the raw material pump 3 and the inlet 12 of the outer chamber 10 so as to adjust the amount of movement of the contents.

As such, when the contents stored in the raw material storage tank 75 are moved to the inlet 12 of the outer chamber 10, the contents are introduced into the upper surface of the edge portion 30 through the injection tube 40 and the injection nozzle 42. The contents flowing into the upper surface of the edge portion 30 are spread by a thin film by the centrifugal force of the edge portion 30 which is rotated at a high speed by the rotation of the inner chamber 20. The contents spread by the thin film are heated within a few seconds by the surface heat of the edge portion 30, so that the water vapor contained in the contents is evaporated and the concentrate 80 is formed.

The steam supply unit 5 generates high temperature steam, and the surface of the edge portion 30 is maintained at a high temperature due to the high temperature steam generated therein. The steam supply unit 5 is connected to the supply pipe 24 to supply steam to the interior of the inner chamber 20 and the inside of the edge portion 30. Meanwhile, a steam supply valve 6 may be provided between the steam supply unit 5 and the supply pipe 24 to adjust the amount of steam supplied from the steam supply unit 5.

The discharge pump 60 is provided in the upper portion of the outlet 14 of the outer chamber 10 so that the concentrated liquid 80 is discharged through the concentrated liquid outlet pipe 50, and the outlet 14 of the outer chamber 10 and A concentration sensor 65 is provided between the discharge pumps 60 so as to inform the degree of concentration of the concentrate 80 flowing out from the concentrate outlet pipe 50.

When the concentration of the concentrate 80 sensed by the concentration sensor 65 is arbitrarily adjusted, the concentrate 80 flowing from the injection nozzle 42 to the top of the edge 30 is the top of the edge 30. By adjusting the time to stay in, it is configured to adjust the concentration of the concentrate (80).

The cooling pipe 70 is to cool the concentrated liquid 80 flowing out through the outlet pipe of the outer chamber 10, and is configured to cool the cooling pipe 70 by the cooling water supplied from the outside. The concentrate 80 inside the tube 70 is configured such that the temperature of the concentrate 80 is lowered. The concentrated liquid 80 passing through the cooling tube 70 is stored in the storage tank 75.

On the other hand, when the contents are heated on the upper surface of the edge portion 30, the moisture contained in the contents become wet steam, and is discharged to the outside through the steam outlet 18 of the outer chamber 10, the water vapor In addition, some of the components that should be used as the concentrate 80 are included. Therefore, in order to collect these components separately, the condensation tube 90 and the centrifuge 92 are provided at the upper part of the steam outlet 18 of the outer chamber 10.

The condensation tube 90 is made of a liquid by condensing the wet steam discharged to the outside through the steam outlet 18 of the outer chamber 10, for this purpose by receiving cold water from the outside to lower the temperature of the condensation tube 90 In the steam outlet 18, the wet steam, which is transferred to the condensation tube 90 through the connecting pipe 8, is made into condensation and liquid. And the centrifuge 92 is centrifuged to separate the liquid made by cooling in the condensation tube 90 to the water and the concentrate 80, the separated concentrate 80 is collected separately by the compression pump 94. And water is discharged to the outside by the vacuum pump (96).

As described so far, the rotary evaporation concentrator using steam of the present invention is heated to a boiling temperature in a few seconds from the upper surface of the rim, so that it is heated in a short time, so as not to destroy the components or nutrients of the contents In addition, there is an advantage that does not lower the drug efficacy or nutritional ingredients.

While the invention has been described in detail in the foregoing embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

As described above, the rotary evaporation concentrator using steam according to the present invention is heated to a boiling temperature in a few seconds from the upper surface of the rim, so that the heating in a short time, so as not to destroy the components or nutrients of the contents It is effective not to lower the efficacy and nutritional ingredients.

Claims (8)

An outer chamber in which an empty space is formed, an inlet through which contents are introduced and an outlet through which contents are discharged, and a steam supply hole formed at a lower portion so that steam is supplied from the steam supply portion to the inside; An inner chamber in which an empty space is formed and an upper portion thereof is opened and positioned to rotate inside the outer chamber; A ring-shaped edge portion connected to an upper end of an inner circumference of the inner chamber and stacked in multiple layers in a lower direction; One side is connected to the inlet of the outer chamber, the other side is located on the outside of the rim portion injection tube for injecting the contents to the upper surface of the rim; And A condensate outlet tube extending vertically from the inside of each of the edge portions to the outlet so that the contents located at the edge portion of the outer chamber are discharged to the outlet of the outer chamber by the injection tube; Including, The edge portion is formed with an empty space therein is provided with one or more openings that open in the direction of the inner chamber, The steam supplied from the steam supply unit is supplied to the inside of the rim through the opening of the rim and heating the rim, so that the moisture of the contents injected into the upper surface of the rim is configured to evaporate Rotary Evaporation Concentrator. The method of claim 1, The edge portion positioned at the top of the edge portion stacked in multiple layers is connected to the upper end of the inner chamber, and the edge portion positioned at the bottom is spaced apart from the bottom of the inner chamber, and a hollow portion is disposed between the inner chamber and the edge portion. Rotary evaporation concentrator using steam, characterized in that spaced apart from each other to form. The method of claim 1, The outer end portion of the rim portion is formed to be inclined in the upper direction, when the inner chamber is rotated, the rotary evaporation concentrator using steam, characterized in that the contents introduced to the upper surface of the rim portion is configured to be not separated to the outside. The method of claim 1, The upper portion of the outlet of the outer chamber is a rotary evaporation concentrator using steam, characterized in that the discharge pump is provided so that the contents flow through the concentrate outlet pipe. The method of claim 4, wherein Rotary evaporation concentrator using steam, characterized in that between the outlet and the discharge pump is provided with a concentration sensor for indicating the degree of concentration of the contents flowing out from the concentrate outlet pipe. The method of claim 1, And a cooling tube for cooling the contents flowing out of the outlet of the outer chamber and a connection tube connecting the outlet and the cooling tube of the outer chamber. The method of claim 1, The upper portion of the outer chamber is a rotary evaporation concentrator using steam, characterized in that the steam outlet is formed so that the wet steam generated while the contents introduced into the edge portion is heated to the outside. The method of claim 7, wherein A condensation plate for cooling the wet steam discharged from the steam outlet; A connecting pipe connecting the steam outlet and the male plate; And A centrifuge for separating the wet steam cooled by the condensing plate into water and a condensate; Rotary evaporation concentrator using steam further comprising a.

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