KR20230155118A - Low-Temperature Extracting Apparatus Having Nutrient Destruction Prevention Structure - Google Patents

Abstract

A low-temperature extraction decoction device including a structure to prevent nutrient destruction is disclosed. A low-temperature extraction herbal decoction device according to an embodiment of the present invention forms a storage space of a predetermined volume therein, stores a medicine storage pouch and water inside the storage space, and includes a storage body having a cylindrical structure with an open top; An internal circulation unit mounted on one side of the storage main unit and sucking the liquid substance stored inside the storage space from the lower part of the storage main unit and then dropping it to the upper part of the storage space to impact the medicine storage pouch; It is mounted in a structure that seals the upper open structure of the storage body, has a hollow cone structure whose width narrows upward, and has a gas inlet formed at the top by collecting gas evaporated from the liquid material stored inside the storage body upward. An evaporative gas receiving portion that flows to the outside through a; and a condensate storage unit mounted on one side of the storage body and storing the gas discharged from the gas inlet of the evaporation gas storage unit after liquefying it therein.
According to the present invention, it is possible to prevent extraction of substances that develop a bitter taste during the process of extracting nutrients from medicinal materials, prevent the extracted nutrients from being destroyed by the influence of high temperature during the nutrient extraction process, and prevent the extracted nutrients from being destroyed by the influence of high temperature during the nutrient extraction process. It is possible to provide a low-temperature extraction decoction device that includes a structure that can stably concentrate liquid substances and significantly shorten the time required for the extraction process.

Description

Low-Temperature Extracting Apparatus Having Nutrient Destruction Prevention Structure}

The present invention relates to a low-temperature extraction decoction device, and more specifically, to a low-temperature extraction decoction device that includes a structure that prevents extraction of substances that develop a bitter taste without destroying nutrients when extracting nutrients from medicinal materials.

In the case of a herbal medicine boiler according to the prior art, as shown in Figure 1, the structure is to store medicine and water inside and then extract nutrients from the medicine by applying heat.

Specifically, the herbal medicine boiler shown in FIG. 1 has a heater 12 mounted at the center of the upper surface 11 of the base box 10, and an external cylinder 20 is mounted on the upper surface 12 of the base box 10. , the top of the inner cylinder 30 is hung on the top of the outer cylinder 20, the inner cylinder 30 is placed inside the outer cylinder 20, and the outer cylinder 20 and the inner cylinder 30 are kept airtight by the lid 40. It is a structure that is maintained simultaneously.

In the case of the medicinal water boiler shown in Figure 1 as well as the conventional medicine water boiler, the heating and dehydration processes must be repeated multiple times to prevent the medicinal ingredients from rising to the surface of the water during the boiling process and the medicinal ingredients of the medicinal ingredients not being properly extracted. However, the structure of the device has complex problems.

In addition, in the case of a herbal medicine boiler according to the prior art, nutrients are extracted from the medicinal ingredients through a process of heating the medicinal ingredients and water at high temperature. However, among numerous nutrients, there are nutrients that are destroyed in a high-temperature environment, and there is a problem in that the corresponding nutrients do not exist in liquid substances extracted in a high-temperature environment according to the prior art.

In addition, in the case of a medicinal boiler according to the prior art, nutrients are extracted by boiling medicinal ingredients in a high temperature and high pressure environment, so there is a problem in that unwanted components that cause a bitter taste are extracted.

A low-temperature extraction decoction machine was developed to solve the various problems mentioned above, but it has the problem that the time required for the herbal extract extraction process is significantly longer than that of a high-temperature extraction decoction device that performs extraction in a high-temperature environment, and the extraction efficiency is also significantly low. There is a problem.

Therefore, there is a need for a technology that can solve the problems caused by the prior art mentioned above.

Korean Patent Publication No. 10-12613477 (Registration date: April 30, 2013)

The purpose of the present invention is to prevent the extraction of substances that develop a bitter taste during the process of extracting nutrients from medicinal materials, to prevent the extracted nutrients from being destroyed by the influence of high temperature during the nutrient extraction process, and to prevent the extracted nutrients from being destroyed by the influence of high temperature during the extraction process. The aim is to provide a low-temperature extraction decoction device that includes a structure that can stably concentrate the liquid substance and significantly shorten the time required for the extraction process.

In order to achieve this purpose, the low-temperature extraction herbal decoction device according to one aspect of the present invention forms a storage space of a predetermined volume inside, stores the medicine storage pouch and water inside the storage space, and has a cylindrical structure with an open top. main body; An internal circulation unit mounted on one side of the storage main unit and sucking the liquid substance stored inside the storage space from the lower part of the storage main unit and then dropping it to the upper part of the storage space to impact the medicine storage pouch; It is mounted in a structure that seals the upper open structure of the storage body, has a hollow cone structure whose width narrows upward, and has a gas inlet formed at the top by collecting gas evaporated from the liquid material stored inside the storage body upward. An evaporative gas receiving portion that flows to the outside through a; and a condensate storage unit mounted on one side of the storage main unit, which liquefies the gas discharged from the gas inlet of the evaporation gas receiving unit and then stores it therein, thereby promoting gas removal through gas circulation and separation of moisture containing the low-molecular-weight extract; It may be a configuration that includes.

In one embodiment of the present invention, the storage main unit is mounted adjacent to the lower surface of the storage space, and maintains a low temperature state to maintain the temperature of the liquid material stored inside the storage space within the range of 50 to 60 degrees Celsius. wealth; A liquid substance discharge unit mounted on one lower side of the storage main unit, has a piping structure communicating with the lower space of the storage space, and is equipped with an open/close valve; and a gas discharge unit mounted on one upper side of the storage main unit, having a piping structure in communication with the upper space of the storage space, and equipped with an open/close valve.

In one embodiment of the present invention, the internal circulation unit includes a circulation suction pipe of a piping structure mounted to communicate with the bottom surface of the storage space of the storage main unit; a first circulation pump mounted on one end of the circulation suction pipe to suck liquid substances inside the storage space through the circulation suction pipe and flow them into the circulation discharge pipe; and a circulation discharge pipe of a piping structure that is mounted on the first circulation pump and extends to allow the liquid material delivered from the first circulation pump to fall to the upper part of the storage space of the storage body.

In this case, the internal circulation unit includes a second circulation pump that is installed in communication with the circulation discharge pipe and sucks in a portion of the liquid material flowing through the circulation discharge pipe and transfers it to the auxiliary circulation pipe; an auxiliary circulation pipe mounted on the second circulation pump and delivering the liquid material delivered from the first circulation pump to the vortex forming nozzle; And it is mounted on the inner surface of the storage space of the storage main unit, and is installed in plural numbers spaced apart at a certain angle along the inner peripheral surface of the storage space, and rotates the liquid material stored inside the storage space by spraying the liquid material delivered through the auxiliary circulation pipe. It may be configured to include a vortex forming nozzle.

In one embodiment of the present invention, the vortex forming nozzle is mounted on the inner circumferential surface of the storage space of the storage body with a height variable structure so that the position can be changed in the up and down height direction, and the ring structure having a width of a predetermined length is formed. A nozzle body portion that has a structure that extends as much as possible, has a flow space inside which liquid material can flow is formed in a continuous ring-shaped structure, and has an airfoil structure in the longitudinal cross-section; A receiving nozzle mounted on one side of the nozzle body and connected in a structure that communicates with one end of the auxiliary circulation pipe to deliver the liquid substance delivered through the auxiliary circulation pipe to the flow space formed inside the nozzle body; and a liquid discharge port formed continuously along a ring shape at one end of the nozzle body and spraying the liquid material delivered along the internal flow space of the nozzle body along the curved surface of the inner surface of the nozzle body of the ring structure. It can be.

In one embodiment of the present invention, the condensate storage unit includes a storage main unit having a storage space sealed from the outside; A first negative pressure forming unit which is mounted on the upper part of the storage main unit, has a structure that communicates with the upper part of the storage space inside the storage main unit, and forms a negative pressure in the storage space inside the storage main unit; And a piping structure that communicates with the gas inlet of the evaporation gas receiving unit, and an evaporation gas flow pipe that extends a predetermined length and is installed to extend to a position adjacent to the lower surface of the storage space inside the storage main unit. .

In one embodiment of the present invention, the receiving body portion has a hollow conical structure and has a bottom surface having the same circular structure as the upper surface structure of the upper open structure of the receiving body portion; A sealing seating portion that is mounted on the lower end of the receiving body, has a structure capable of seating and receiving the upper surface of the upper open structure of the receiving body, and is made of a material having an elastic restoring force of a predetermined size; A negative pressure forming pipe mounted on one lower side of the receiving main body and having a piping structure in communication with the internal hollow structure of the receiving main body; and a second negative pressure forming unit mounted on one side of the storage main unit and sucking air through the negative pressure forming pipe to form negative pressure in the internal storage space of the storage main unit.

In this case, the evaporation gas receiving unit may be configured to further include a thermal insulation member layer mounted inside the receiving main body and made of a material that insulates the temperature of air floating in the internal hollow structure of the receiving main body.

In one embodiment of the present invention, the storage body portion is mounted on the upper outer side of the storage body portion of the cylindrical structure forming the storage space, and is in communication with the internal space of the storage body portion and at the same time in communication with the first negative pressure forming portion. It has a piping structure, and injects the air sucked through the first negative pressure forming part in a tangential direction on the inner peripheral surface of the storage main part at a flow rate of a predetermined size, and forms a rotating vortex in the upper space inside the storage main part; It may be a configuration that includes.

In this case, the cyclone forming part is mounted on the upper outer side of the storage body of the cylindrical structure forming the storage space, and a flow path structure is formed that faces the inner peripheral surface of the storage body in a tangential direction in a plan view, and the inner peripheral surface of the storage body in a plan view. A plurality of injection nozzles are installed and spaced apart at a certain angle along the line; a reducer connection part that is in communication with the injection nozzle and has a cross-sectional area that gradually increases in the direction of the injection nozzle to reduce the flow rate of gas delivered from the delivery pipe; And a piping structure that communicates with the first negative pressure forming part, and a delivery pipe installed in a structure that communicates with the reducer connection part to deliver the gas delivered through the first negative pressure forming part to the reducer connection part. .

As described above, according to the low-temperature extraction herbal decoction device of the present invention, it is provided with a storage body portion, an internal circulation portion, an evaporated gas receiving portion, and a condensate storage portion of a specific structure, so that bitter taste is expressed in the process of extracting nutrients from medicinal materials. It can prevent the extraction of substances, prevent the extracted nutrients from being destroyed by the influence of high temperature during the nutrient extraction process, stably concentrate the extracted liquid substances, and significantly reduce the time required for the extraction process. A low-temperature extraction decoction device including a structure that can be shortened can be provided.

In addition, according to the low-temperature extraction herbal decoction device of the present invention, by providing an internal circulation part, a first negative pressure forming part, a second negative pressure forming part, a low temperature state maintaining part, and a heat insulation member layer of a specific structure, in the process of extracting nutrients from the medicinal material, The generation of evaporative gas can be promoted from the liquid material stored inside the storage body, and this can gradually increase the concentration of the liquid material circulating through the internal circulation section, making it possible to effectively extract nutrients from medicinal materials in a low-temperature environment. In addition, by creating a temperature environment in the range of 50 to 60 degrees Celsius throughout the nutrient extraction process, a low-temperature extraction boiler can be provided that can fundamentally prevent nutrient destruction due to high temperature.

In addition, according to the low-temperature extraction herbal decoction device of the present invention, by providing a cyclone forming part, a first negative pressure forming part, and a second negative pressure forming part of a specific structure, in the process of extracting nutrients from the medicinal material, the liquid material stored inside the storage body is extracted. It can promote the generation of evaporative gas and quickly flow the generated evaporative gas, gradually increasing the concentration of liquid substances circulating through the internal circulation, thereby effectively extracting nutrients from medicinal materials in a low-temperature environment. An extraction boiler can be provided.

Figure 1 is a perspective view showing a medicinal bath according to the prior art.
Figure 2 is a front perspective view showing a low-temperature extraction herbal medicine boiler according to an embodiment of the present invention.
Figure 3 is a front perspective view showing the medicine storage pouch and water stored in the internal storage space of the storage body after removing the evaporated gas receiving portion of the low-temperature extraction herbal medicine boiler shown in Figure 2 from the internal circulation portion.
Figure 4 is a front perspective view showing the process of extracting nutrients from the medicine by storing the medicine storage pouch and water in the internal storage space of the storage body of the low-temperature extraction medicine boiler shown in Figure 2 and then operating the internal circulation unit.
Figure 5 is a front perspective view showing a low-temperature extraction herbal medicine bath including a first negative pressure forming unit according to another embodiment of the present invention.
Figure 6 is a front perspective view showing a low-temperature extraction herbal decoction device including a first negative pressure forming unit and a second negative pressure forming unit according to another embodiment of the present invention.
Figure 7 is a cross-sectional view and a partially enlarged view showing the evaporated gas receiving portion of the low-temperature extraction herbal medicine boiler shown in Figure 6.
Figure 8 is a front perspective view showing a low-temperature extraction herbal medicine boiler according to another embodiment of the present invention.
FIG. 9 is a transverse cross-sectional view showing the storage body and the injection nozzle of the low-temperature extraction decoction boiler shown in FIG. 8.
Figure 10 is a front perspective view showing a low-temperature extraction herbal medicine boiler including a second circulation pump, an auxiliary circulation pipe, and a vortex forming nozzle according to another embodiment of the present invention.
Figure 11 is a partial enlarged view showing the vortex forming nozzle shown in Figure 10.
Figure 12 shows the flow direction of the liquid material formed by the vortex forming nozzle according to the present embodiment and the air flow direction formed by the cyclone forming portion being controlled to oppose each other, thereby inducing water molecules to evaporate more actively from the water surface of the liquid material. This is a schematic diagram showing the appearance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. Prior to this, terms and words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, but should be construed with meanings and concepts consistent with the technical idea of the present invention.

Throughout this specification, when a member is said to be located “on” another member, this includes not only cases where a member is in contact with another member, but also cases where another member exists between the two members. Throughout this specification, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

Figure 2 shows a front perspective view showing a low-temperature extraction herbal medicine boiler according to an embodiment of the present invention.

Referring to FIG. 2, the low-temperature extraction herbal medicine boiler 100 according to this embodiment includes a storage body portion 110, an internal circulation portion 120, an evaporated gas receiving portion 130, and a condensate storage portion 140 of a specific structure. By providing a , it is possible to prevent extraction of substances that develop a bitter taste during the process of extracting nutrients from medicinal materials, prevent the extracted nutrients from being destroyed by the influence of high temperature during the nutrient extraction process, and extract the extracted liquid. A low-temperature extraction decoction device including a structure capable of stably concentrating a substance can be provided.

Hereinafter, each component constituting the low-temperature extraction herbal medicine boiler 100 according to this embodiment will be described in detail with reference to the drawings.

Figure 3 is a front perspective view showing the storage of the medicine storage pouch and water in the storage space inside the storage body after removing the evaporated gas receiving part of the low-temperature extraction herbal medicine boiler shown in Figure 2 from the internal circulation part, and Figure 4 There is a front perspective view showing the process of extracting nutrients from the medicine by storing the medicine storage pouch and water in the internal storage space of the storage body of the low-temperature extraction medicine boiler shown in FIG. 2 and then operating the internal circulation unit.

Referring to Figures 2 to 4, the storage body portion 110 of the low-temperature extraction herbal medicine boiler 100 according to this embodiment is configured to form a storage space of a predetermined volume therein, and includes a medicine storage pouch and a medicine storage pouch inside the storage space. It contains water and is a cylindrical structure with an open top.

Specifically, the storage body 110 may be configured to include a low-temperature state maintenance unit (not shown), a liquid material discharge unit 111, and a gas discharge unit 112 of a specific structure. The low-temperature state maintenance unit (not shown) is a component mounted adjacent to the lower surface of the storage space and can maintain the temperature of the liquid substance stored inside the storage space within the range of 50 to 60 degrees Celsius. The liquid material discharge unit 111 is a component mounted on one lower side of the storage body 110, has a piping structure that communicates with the lower space of the storage space, and is equipped with an open/close valve. In addition, the gas discharge unit 112 is a component mounted on one upper side of the storage body 110, has a piping structure that communicates with the upper space of the storage space, and is equipped with an open/close valve.

The internal circulation unit 120 of the low-temperature extraction decoction boiler 100 according to this embodiment is a component mounted on one side of the storage main unit 110, and the liquid stored inside the storage space from the lower part of the storage main unit 110 It is a structure that promotes the extraction of nutrients from the medicine by inhaling the substance and then dropping it to the top of the storage space to impact the medicine storage pouch.

Specifically, the internal circulation unit 120 may be configured to include a circulation suction pipe 123, a first circulation pump 121, and a circulation discharge pipe 124 of a specific structure. The circulation suction pipe 123 is a piping structure installed to communicate with the bottom surface of the storage space of the storage main unit. The first circulation pump 121 is mounted on one end of the circulation suction pipe 123 and can suck the liquid substance inside the storage space through the circulation suction pipe 123 and flow it into the circulation discharge pipe 124. In addition, the circulation discharge pipe 124 is a piping structure that is mounted on the first circulation pump 121 and extends to allow the liquid material delivered from the first circulation pump 121 to fall to the upper part of the storage space of the storage main unit.

The evaporation gas receiving portion 130 of the low-temperature extraction decoction boiler 100 according to this embodiment is a configuration mounted in a structure that seals the upper open structure of the storage main portion 110, and is a hollow cone whose width narrows upward. This structure collects the gas evaporated from the liquid material stored inside the storage body 110 upward and flows it to the outside through the gas inlet 131 formed at the top.

The condensate storage unit 140 of the low-temperature extraction water boiler 100 according to this embodiment is mounted on one side of the storage body 110, and is discharged from the gas inlet 131 of the evaporation gas receiving unit 130. It is a structure that promotes gas removal through gas circulation and separation of moisture containing low-molecular-weight extracts by containing gas inside, liquefying it, and then storing it.

Specifically, the condensate storage unit 140 quickly processes gas evaporated from the liquid material by creating negative pressure through a negative pressure generator, and stores the low-molecular-weight extract contained in the removed gas inside the condensate storage unit 140. You can. After storing the low-molecular-weight extract inside the condensate storage unit 140, the gas can be returned to the inside of the storage body 110 to promote evaporation of the liquid material through gas circulation. That is, the condensate storage unit 140 according to this embodiment can separate low molecular substances contained in the boil-off gas. Hereinafter, each component constituting the condensate storage unit 140 will be described in detail with reference to the drawings.

Figure 5 shows a front perspective view showing a low-temperature extraction herbal medicine bath including a first negative pressure forming unit according to another embodiment of the present invention, and Figure 6 shows a first negative pressure forming unit and a first negative pressure forming unit according to another embodiment of the present invention. 2. A front perspective view showing a low-temperature extraction herbal medicine boiler including a negative pressure forming unit is shown, and Figure 7 shows a cross-sectional view and a partial enlarged view showing the evaporated gas receiving portion of the low-temperature extraction herbal medicine boiler shown in Figure 6.

First, referring to FIG. 5, the condensate storage unit 140 according to the present embodiment includes a storage body unit 141 of a specific structure, a first negative pressure forming unit 142, and an boil-off gas flow pipe 143. It can be.

Specifically, the storage body portion 141 of the condensate storage portion 140 is structured to include a storage space sealed from the outside. The first negative pressure forming unit 142 is a component mounted on the upper part of the storage main unit 141, and has a structure that communicates with the upper part of the internal storage space of the storage main unit 141, and is located in the internal storage space of the storage main unit 141. It is a structure that creates negative pressure. In addition, the boil-off gas flow pipe 143 is a piping structure that communicates with the gas inlet 131 of the boil-off gas receiving portion 130, and is extended by a predetermined length and adjacent to the lower surface of the storage space inside the storage main portion 141. It is a structure that extends to the location and is installed.

Meanwhile, as shown in Figures 6 and 7, the boil-off gas receiving part 130 according to this embodiment includes a receiving body part 132, a sealing seating part 133, and a negative pressure forming pipe 134 of a specific structure. and a second negative pressure forming unit 135.

Specifically, the receiving body portion 132 of the evaporative gas receiving portion 130 is a hollow cone structure having a circular bottom surface that is the same as the top surface structure of the upper open structure of the receiving main body portion 110. The sealing seat portion 133 is a component mounted on the bottom surface of the receiving body portion 132, and has a structure that can seat and accommodate the upper surface of the upper open structure of the receiving body portion 110, and has an elasticity of a predetermined size. It is made of a material with resilience. The negative pressure forming pipe 134 is a component mounted on the lower part of one side of the receiving body 132 and is a piping structure that communicates with the internal hollow structure of the receiving body 132. In addition, the second negative pressure forming unit 135 is a component mounted on one side of the storage body 110, and sucks air through the negative pressure forming pipe 134 to create a negative pressure in the internal storage space of the storage body 110. can be formed. In some cases, as shown in FIG. 7, inside the evaporation gas receiving part 130, a thermal insulation member layer 136 made of a material that insulates the temperature of the air floating in the internal hollow structure of the receiving main body 132 ) can be installed.

In this case, according to this embodiment, it is provided with an internal circulation part 120, a first negative pressure forming part 142, a second negative pressure forming part 135, a low temperature state maintaining part, and a heat insulation member layer 136 of a specific structure. By doing so, it is possible to promote the generation of evaporative gas from the liquid substance stored inside the storage body 110 in the process of extracting nutrients from the medicinal material, thereby lowering the concentration of the liquid substance circulating by the internal circulation unit 120. A low-temperature extraction herbal decoyer that can gradually increase the nutrients from medicinal ingredients in a low-temperature environment and can fundamentally block the destruction of nutrients by high temperatures by creating a temperature environment in the range of 50 to 60 degrees Celsius throughout the nutrient extraction process. can be provided.

Figure 8 is a front perspective view showing a low-temperature extraction medicine boiler according to another embodiment of the present invention, and Figure 9 is a transverse cross-sectional view showing the storage body and the injection nozzle of the low-temperature extraction medicine boiler shown in Figure 8. .

Referring to these drawings, the storage body portion 110 according to this embodiment may further include a cyclone forming portion 150 of a specific structure.

Specifically, the cyclone forming part 150 according to the present embodiment is a component mounted on the upper outer side of the storage body 110 of a cylindrical structure forming a storage space, and is configured to form the internal space of the storage body 110 and It is a piping structure that is in communication with the first negative pressure forming part 142 at the same time, and the air sucked through the first negative pressure forming part 142 has a flow rate of a predetermined size in the tangential direction on the plane with the inner peripheral surface of the storage body part 110. By injecting it, a rotating vortex can be formed in the inner upper space of the storage body 110.

The cyclone forming part 150 according to this embodiment may be configured to include an injection nozzle 151, a reducer connection part 152, and a delivery pipe 153 of a specific structure.

Specifically, the injection nozzle 151 of the cyclone forming part 150 is a component mounted on the upper outer side of the storage body 110 of a cylindrical structure forming the storage space, and is connected to the inner peripheral surface of the storage body 110. A flow path structure facing a tangential direction is formed in a plan view, and a plurality of channels are mounted spaced apart at a certain angle along the inner peripheral surface of the storage body portion 110 in a plan view. The reducer connection part 152 is a structure in communication with the injection nozzle 151, and has a structure in which the cross-sectional area gradually increases in the direction of the injection nozzle 151 to reduce the flow rate of the gas delivered from the delivery pipe 153. In addition, the transmission pipe 153 is a piping structure in communication with the first negative pressure forming part 142, and is a reducer connection part to transmit the gas delivered through the first negative pressure forming part 142 to the reducer connection part 152. It is a structure installed in communication with (152).

Figure 10 shows a front perspective view showing a low-temperature extraction decoction device including a second circulation pump, an auxiliary circulation pipe, and a vortex forming nozzle according to another embodiment of the present invention, and Figure 11 shows a vortex forming nozzle shown in Figure 10. A partial enlarged view showing is shown. In addition, in Figure 12, the flow direction of the liquid material formed by the vortex forming nozzle according to this embodiment and the air flow direction formed by the cyclone forming part are controlled to oppose each other so that water molecules evaporate more actively from the water surface of the liquid material. A schematic diagram showing the induction is shown.

Referring to these drawings, the internal circulation unit 120 according to this embodiment may be configured to further include a second circulation pump 122, an auxiliary circulation pipe 125, and a vortex forming nozzle 126 of a specific structure. .

Specifically, the second circulation pump 122 of the internal circulation unit 120 is configured to be installed in communication with the circulation discharge pipe 124, and sucks some of the liquid material flowing through the circulation discharge pipe 124 into the auxiliary circulation pipe. This structure is transmitted to (125). The auxiliary circulation pipe 125 is mounted on the second circulation pump 122 and has a structure that delivers the liquid material delivered from the first circulation pump 121 to the vortex forming nozzle 126. In addition, the vortex forming nozzle 126 is a component mounted on the inner surface of the storage space of the storage main unit. A plurality of vortex forming nozzles are installed spaced apart at a certain angle along the inner peripheral surface of the storage space, and the liquid material delivered through the auxiliary circulation pipe 125 is It is a structure that rotates the liquid substance stored inside the storage space by spraying it.

As shown in FIG. 11, the vortex forming nozzle 126 according to the present embodiment is mounted on the inner peripheral surface of the storage space of the storage body 110 by a height variable structure 126d of a specific structure, and has a height variable structure ( The vertical height of the vortex forming nozzle 126 can be changed using 126d).

Specifically, the vortex forming nozzle 126 may be configured to include a nozzle body portion 126a, a receiving nozzle 126b, and a liquid discharge port 126c of a specific structure. The nozzle body portion 126a is a structure in which a ring structure having a width of a predetermined length is extended by a predetermined length, and the flow space within which the liquid material can flow is formed in a continuous structure in the form of a ring, and the air in the longitudinal section is formed in a continuous structure. It has a foil structure. The receiving nozzle 126b is a component mounted on one side of the nozzle main body 126a, and is connected in a structure that communicates with one end of the auxiliary circulation pipe 125, so that the liquid substance delivered through the auxiliary circulation pipe 125 It is a structure that transmits to the flow space formed inside the nozzle body portion (126a). The liquid discharge port 126c is continuously formed along a ring shape at one end of the nozzle body 126a, and discharges the liquid material delivered along the internal flow space of the nozzle body 126a into the nozzle body having a ring structure. It is a structure that sprays spray along the curved surface of the inner surface of the part 126a.

In this case, according to the present embodiment, by providing a cyclone forming part 150, a first negative pressure forming part 142, a second negative pressure forming part 135, and a vortex forming nozzle 126 of a specific structure, nutrients from the medicine In the process of extracting, the generation of evaporative gas can be promoted from the liquid material stored inside the storage body 110, and the generated evaporative gas can be quickly flowed, so that it is circulated by the internal circulation unit 120. By gradually increasing the concentration of the liquid substance, it is possible to provide a low-temperature extraction herbal medicine bath that can effectively extract nutrients from medicinal materials in a low-temperature environment.

In the above detailed description of the present invention, only special embodiments thereof have been described. However, it should be understood that the present invention is not limited to the particular form mentioned in the detailed description, but rather is understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It has to be.

That is, the present invention is not limited to the specific embodiments and descriptions described above, and various modifications may be made by anyone skilled in the art without departing from the gist of the present invention as claimed in the claims. is possible, and such modifications fall within the scope of protection of the present invention.

10: Medicine storage pouch
100: Low-temperature extraction medicine boiler
110: Storage main body
111: Liquid material discharge unit
112: gas outlet
120: Internal circulation unit
121: First circulation pump
122: Second circulation pump
123: Circulating suction pipe
124: Circulation discharge pipe
125: Auxiliary circulation pipe
126: Vortex forming nozzle
126a: Nozzle body part
126b: Receiving nozzle
126c: Liquid discharge port
126d: Height variable structure
130: Evaporation gas receiving part
131: Gas inlet
132: Receiving main body
133: Sealing seating part
134: Negative pressure forming pipe
135: Second negative pressure forming part
136: Insulating member layer
140: Condensate storage unit
141: Storage main unit
142: First negative pressure forming part
143: Evaporation gas flow pipe
150: Cyclone formation part
151: Injection nozzle
152: Reducer connection part
153: Delivery piping

Claims (8)

A storage body 110 that forms a storage space of a predetermined volume inside, stores medicine storage pouches and water inside the storage space, and has a cylindrical structure with an open top;
An internal circulation unit ( 120);
It is mounted in a structure that seals the upper open structure of the storage body 110, has a hollow cone structure whose width narrows upward, and allows gas evaporated from the liquid material stored inside the storage body 110 to flow upward. An evaporated gas receiving unit 130 that collects and flows to the outside through a gas inlet 131 formed at the top; and
It is mounted on one side of the storage body 110, and contains the gas discharged from the gas inlet 131 of the evaporation gas receiving portion 130, liquefies it, and then stores it, thereby removing gas through gas circulation and extracting small molecules. A condensate storage unit 140 that promotes moisture separation containing;
A low-temperature extraction herbal medicine device comprising a.
According to paragraph 1,
The storage body 110 is,
a low-temperature state maintenance unit mounted adjacent to the lower surface of the storage space and maintaining the temperature of the liquid material stored inside the storage space within a range of 50 to 60 degrees Celsius;
A liquid material discharge unit 111 mounted on a lower side of the storage main unit 110, has a piping structure communicating with the lower space of the storage space, and is equipped with an open/close valve; and
A gas discharge unit 112 mounted on one upper side of the storage body 110, has a piping structure communicating with the upper space of the storage space, and is equipped with an open/close valve;
A low-temperature extraction decoction device comprising a.
According to paragraph 1,
The internal circulation unit,
A circulation suction pipe 123 having a piping structure mounted to communicate with the bottom surface of the storage space of the storage main unit;
A first circulation pump (121) mounted on one end of the circulation suction pipe (123) to suck the liquid material inside the storage space through the circulation suction pipe (123) and flow it into the circulation discharge pipe (124); and
A circulation discharge pipe 124 that is mounted on the first circulation pump 121 and has a piping structure extending to allow the liquid material delivered from the first circulation pump 121 to fall to the upper part of the storage space of the storage main unit;
A low-temperature extraction decoction device comprising a.
According to paragraph 3,
The internal circulation unit,
A second circulation pump (122) installed to communicate with the circulation discharge pipe (124) and sucking in a portion of the liquid material flowing through the circulation discharge pipe (124) and transferring it to the auxiliary circulation pipe (125);
An auxiliary circulation pipe (125) mounted on the second circulation pump (122) and delivering the liquid material delivered from the first circulation pump (121) to the vortex forming nozzle (126); and
It is mounted on the inner surface of the storage space of the storage main unit, and is installed in plural numbers spaced apart at a certain angle along the inner peripheral surface of the storage space. The liquid material delivered through the auxiliary circulation pipe 125 is sprayed to remove the liquid material stored inside the storage space. A rotating vortex forming nozzle (126);
A low-temperature extraction herbal medicine device comprising a.
According to paragraph 4,
The vortex forming nozzle 126 is,
It is mounted on the inner peripheral surface of the storage space of the storage body by a height variable structure (126d) so that the position can be changed in the vertical direction,
A ring structure with a width of a predetermined length is extended by a predetermined length, and the flow space inside which the liquid material can flow is formed in a continuous ring-shaped structure, and the nozzle body portion ( 126a);
It is mounted on one side of the nozzle body portion 126a and is bound in a structure that communicates with one end of the auxiliary circulation pipe 125, so that the liquid material delivered through the auxiliary circulation pipe 125 is transferred to the nozzle body portion 126a. A receiving nozzle (126b) delivering to the flow space formed inside; and
It is continuously formed along a ring shape at one end of the nozzle body 126a, and the liquid material delivered along the internal flow space of the nozzle body 126a is directed to the inner curved surface of the nozzle body 126a having a ring structure. A liquid discharge port (126c) for spraying along;
A low-temperature extraction decoction device comprising a.
According to paragraph 1,
The condensate storage unit 140,
A storage main unit 141 having a storage space sealed from the outside;
A first negative pressure forming unit ( 142); and
It is a piping structure that communicates with the gas inlet 131 of the boil-off gas receiving portion 130, and is extended by a predetermined length to a position adjacent to the lower surface of the internal storage space of the storage body portion 141. The boil-off gas flow is installed. piping (143);
A low-temperature extraction herbal medicine device comprising a.
According to clause 6,
The evaporation gas receiving part 130,
a receiving body portion 132 having a hollow cone structure and a bottom surface having the same circular structure as the top surface structure of the upper open structure of the receiving body portion 110;
The sealing seat is mounted on the lower surface of the receiving main body 132, has a structure capable of seating and receiving the upper surface of the upper open structure of the receiving main body 110, and is made of a material having an elastic restoring force of a predetermined size. (133);
A negative pressure forming pipe 134 mounted on one lower side of the receiving body 132 and having a piping structure in communication with the internal hollow structure of the receiving body 132; and
A second negative pressure forming unit 135 that is mounted on one side of the storage body 110 and sucks air through the negative pressure forming pipe 134 to form negative pressure in the internal storage space of the storage body 110;
A thermal insulation member layer 136 mounted inside the receiving main body 132 and made of a material that insulates the temperature of air floating in the internal hollow structure of the receiving main body 132;
A low-temperature extraction decoction device comprising a.
According to clause 6,
The storage body 110 is,
It is mounted on the upper outer side of the storage body 110 of the cylindrical structure forming the storage space, and is in communication with the internal space of the storage body 110 and at the same time is a piping structure that communicates with the first negative pressure forming portion 142. , the air sucked through the first negative pressure forming unit 142 is injected at a flow rate of a predetermined size in a direction tangential to the inner peripheral surface of the storage body 110 on a plane, creating a rotating vortex in the inner upper space of the storage body 110. A cyclone forming portion 150 forming a;
It further includes,
The cyclone forming part 150,
It is mounted on the upper outer side of the storage body portion 110 of a cylindrical structure forming the storage space, and a flow path structure is formed that faces the inner peripheral surface of the storage body portion 110 in a tangential direction on a plane, and the storage body portion on a plane ( A plurality of injection nozzles 151 are installed at a certain angle and spaced apart from each other along the inner peripheral surface of 110);
a reducer connection portion 152 that is in communication with the injection nozzle 151 and has a cross-sectional area that gradually increases in the direction of the injection nozzle 151 to reduce the flow rate of gas delivered from the delivery pipe 153; and
It is a piping structure in communication with the first negative pressure forming part 142, and has a structure in communication with the reducer connection part 152 to transmit the gas delivered through the first negative pressure forming part 142 to the reducer connection part 152. A transmission pipe (153) is installed;
A low-temperature extraction herbal medicine device comprising a.