KR101125132B1 - Oil extraction device for leaves of the cypress - Google Patents

Abstract

The present invention relates to an essential oil extracting apparatus of cypress leaves, and more particularly, to an essential oil extracting apparatus of cypress leaves to extract a high quality cypress essential oil through a simple structure and the recycling of condensate.
The present invention, in the extraction device for extracting the essential oil of the cypress leaves, the lower side 10 is filled with distilled water in the state that the upper side is opened and the heater 11 is installed inside the lower side and ; A perforated plate 20 installed in the lower barrel 10 so as to be positioned above the heater 11 so that the cypress leaves are located; An upper cylinder 30 of the cylinder coupled to an upper side of the lower cylinder 10 to close an inner side of the lower cylinder 10; A funnel-shaped coolant reservoir (40) in which water vapor heated by the heater (11) in contact with the outer periphery is installed inside the upper cylinder (30); When the condensate of the water vapor condensed in contact with the outer periphery of the coolant reservoir 40 falls, it is installed to be located below the coolant reservoir 40 so as to receive the condensate has a size smaller than the coolant reservoir 40 A funnel-shaped recovery container 50 installed inside the upper cylinder 30 in a state; A refinery 60 connected with the recovery container 50 and the connection pipe 51 to collect condensate of water vapor dropped into the recovery container 50; Characterized in that it consists of a control unit 80 for controlling the temperature of the heater (11).

Description

OIL EXTRACTION DEVICE FOR LEAVES OF THE CYPRESS}

The present invention relates to an essential oil extracting apparatus of cypress leaves, and more particularly, to an essential oil extracting apparatus of cypress leaves to extract high quality cypress essential oil through a simple saturated steam cooling structure and a condensate recycling process. .

The cypress contains the most essential oils in summer, especially July and August. Cypresses contain a chemical called phytoncid, which is known to secrete itself in the forest environment to protect itself from various pathogens.

This phytoncide is known to have the effect of relieving stress and improving skin diseases such as sedation of fatigue and atopic dermatitis.

Various methods such as distillation method, organic solvent extraction method, supercritical extraction method have been selected to obtain beneficial essential oils having such various functions.

Among these methods, steam distillation is the most commonly used method for extracting essential oils. When the steam is blown to the extraction target, essential oils come out with water vapor, so it is a simple method of obtaining essential oils by cooling them. In particular, most components of essential oils are insoluble in water and are widely used because the components are not changed by the heat of steam because they are extracted at a temperature lower than the boiling point of the essential oil components (150 ° C. to 350 ° C.).

However, the conventional steam distillation method is inconvenient to use a coil-type cooling tube for cooling the saturated steam containing the essential oil and at the same time it is not economical because the extraction efficiency is low because there is no recirculation device of the condensate.

The present invention was devised in view of the above situation, and an object of the present invention is to make a saturated water vapor containing cypress essential oil contact with the lower side of a cooling water storage tank installed in an upper cylinder to form a condensate, and the formed condensate naturally recovers the recycling container. It is to be able to gather through the tablets.

In addition, to improve the essential oil components in the condensate collected in the refinery to provide a refining process of the cypress leaves to extract a high-quality cypress essential oil by undergoing a number of recirculation process.

The present invention for achieving the above object, in the extracting device for extracting the essential oil of the cypress leaves, the upper side is opened while the inside is empty, the distilled water is filled with the heater 11 is installed on the inner lower side The lower cylinder 10; A perforated plate 20 installed in the lower barrel 10 so as to be positioned above the heater 11 so that the cypress leaves are located; An upper cylinder 30 of the cylinder coupled to an upper side of the lower cylinder 10 to close an inner side of the lower cylinder 10; A funnel-shaped coolant reservoir (40) in which water vapor heated by the heater (11) in contact with the outer periphery is installed inside the upper cylinder (30); When the condensate of the water vapor condensed in contact with the outer periphery of the coolant reservoir 40 is dropped to be installed below the coolant reservoir 40 so that the condensate can be received, but having a smaller size than the coolant reservoir 40 A funnel-shaped recovery container 50 installed inside the upper cylinder 30 in a state; A refinery 60 connected with the recovery container 50 and the connection pipe 51 to collect condensate of water vapor dropped into the recovery container 50; Characterized in that it consists of a control unit 80 for controlling the temperature of the heater (11).

As described above, according to the present invention, the condensate is formed by contacting the saturated steam containing the cypress essential oil with the lower side of the cooling water storage tank installed in the upper cylinder, and the formed condensate naturally collects in the refinery through the recovery container.

In addition, it is possible to extract a high-quality cypress essential oil by going through a number of recirculation process to increase the essential oil component in the condensate collected in the refinery.

1 is a state diagram showing the essential oil extracting device of cypress leaves according to the present invention,
Figure 2 is an exploded perspective view showing a separation state of the essential oil extracting device of cypress leaves according to the present invention,
Figure 3 is a cross-sectional view showing a cross-sectional state of the essential oil extracting device of cypress leaves according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the essential oil extraction device of cypress leaves according to the present invention.

1 is a state diagram showing the essential oil extracting device of cypress leaves according to the present invention,

Figure 2 is an exploded perspective view showing a separation state of the essential oil extracting device of cypress leaves according to the present invention,

Figure 3 is a cross-sectional view showing a cross-sectional state of the essential oil extracting device of cypress leaves according to the present invention.

1 to 3, the essential oil extracting device of the cypress leaf according to the present invention is an extracting apparatus for extracting essential oil of the cypress leaf, the lower cylinder, the porous plate, the upper portion of the hollow cylinder inside It consists of a container, a storage container, a recovery container, a refinery container, and a control part.

The lower cylinder 10 is a cylinder having an upper side opened in an empty state, and a heater 11 is installed at an inner lower side thereof, and distilled water filled therein is heated in the heater 11.

Here, a plurality of rollers 15 are installed on the outer lower side surface of the lower cylinder 10 so that they can be pulled into or out of the body frame 1 of the frame shown in FIG. 1.

And, it is preferable that the heater 11 to maintain a temperature of 70 ~ 80 ℃ by the controller 80 to be described later.

The porous plate 20 is installed to be located above the heater 11 inside the lower cylinder 10 so that the cypress leaves are located.

In other words, the support plate 21 is formed in the porous plate 20 so as to extend in the downward direction, and the support plate 21 when the porous plate 20 is introduced into the lower cylinder 10. One end of the c) is installed to be located above the heater 11 by interfering with the inner lower side of the lower cylinder 10.

Here, the handle 25 is formed in the center portion of the porous plate 20 is extended to the upper side, it can be more easily introduced when the porous plate 20 is drawn into the inner side of the lower cylinder (10). Make sure

In addition, the upper cylinder 30 is coupled to the lower cylinder 10 by a cylinder having a lower side to close the inner side of the lower cylinder 10.

In other words, the lower cylinder 10 is introduced into the body frame 1 of the frame to combine the lower cylinder 10 and the upper cylinder 30. As a result, the upper cylinder 30 is connected to the lower cylinder. It is to close the inside of (10).

In addition, the coolant reservoir 40 has a funnel shape in which the water vapor heated by the heater 11 is in contact with the outer circumference of the upper cylinder 30.

In other words, the cooling water storage tube 40 is to store the cooling water introduced through the cooling water inlet pipe 43, the heating of the heater 11 in the state filled with cypress leaves and distilled water in the lower cylinder (10) Saturated water vapor generated by the above is moved to the upper side together with the insoluble cypress essential oil component to contact the outer periphery of the cooling water reservoir 40, the contacted saturated water vapor is formed as a condensate while the temperature is lowered.

Here, it is preferable that the temperature of the coolant filled in the coolant reservoir 40 is maintained at 20 to 25 ° C., and the coolant reservoir 40 is provided with a temperature sensor 41 for detecting the temperature of the filled coolant. .

That is, when the temperature of the coolant is increased by detecting the detection signal of the temperature sensor 41 by the controller 80 to be described later, the coolant whose temperature is increased is discharged through the coolant discharge pipe 45 and new coolant is introduced into the coolant. Through the pipe 43 is to be filled in the coolant reservoir (40).

In addition, the recovery container 50 is installed in a funnel shape to be located below the cooling water storage container 40 so as to receive the condensate when the condensate of water vapor condensed by contacting the outer circumference of the cooling water storage container 40 falls. But it is installed inside the upper cylinder 30 in a state having a smaller size than the coolant reservoir 40.

In other words, the condensate of the water vapor in contact with the outer periphery of the coolant reservoir 40 is dropped to the inner side of the recovery container 50, the condensate that is dropped is moved to the refiner 60 to be described later.

And, the refinery 60 is to be installed in the body frame 1 is connected to the recovery through 50 and the connection pipe 51 to collect the condensate of the water vapor dropped to the recovery (50). .

Here, one side of the connecting pipe 51 connected to the recovery container 50 may be located above the other side connected to the tablet container 60.

That is, the conduit 51 is formed at an angle so that the condensate collected in the recovery container 50 naturally flows into the purification container 60.

In addition, a circulation pipe 70 is installed to connect the refiner 60 and the lower cylinder 10 to recycle the condensate collected in the refiner 60, and firstly in the refiner 60. The collected condensate is a mixture of cypress essential oil and distilled water in a certain ratio, it is not possible to extract only high-quality essential protein essential oil.

Therefore, by repeatedly performing the process of collecting the evaporation and condensate several times, it is possible to extract a high-quality protein protein.

On the other hand, the control unit 80 is to control the temperature of the heater 11, is installed in the body frame (1).

Here, the control unit 80 not only controls the temperature of the heater 11, but also detects the detection signal of the temperature sensor 41 installed in the coolant reservoir 40 to facilitate the replacement time of the coolant. do.

Looking at the operation and effect of the present invention configured as described above, after filling the cypress leaves and distilled water in the lower barrel 10, and operates the heater 11 installed in the lower barrel 10 through the control unit.

The saturated water vapor generated by the heater 11 comes into contact with the outer periphery of the cooling water reservoir 40 installed inside the upper cylinder 30 in a state in which insoluble cypress essential oil is mixed.

At this time, the condensate is formed while the temperature of the water vapor decreases, and the formed condensate falls into the recovery container 50 installed below the cooling water storage tank, and is connected to the recovery container 50 and the connection pipe 51 through the purification container ( Flows into (60).

Thereafter, the condensate introduced into the refiner 60 is mixed with cypress essential oil and distilled water at a constant ratio, so that only high quality cypress essential oil can be extracted, and thus the evaporation and condensate are collected several times. Repeat.

This process can be repeated several times to extract only high-quality essential oil.

Although the present invention has been described in detail above, those skilled in the art will appreciate that various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined not only by the patent registration scope described later but by those equivalent to the claims.

1: body frame 10: lower cylinder 11: heater
15: roller 20: porous plate 21: support
25: handle 30: upper cylinder 40: coolant reservoir
41: temperature sensor 43: coolant inlet pipe 45: coolant discharge pipe
50: recovery container 51: connector 60: tablet container
70: circulation tube 80: control unit

Claims (2)

In the extracting device for extracting essential oil of cypress leaves,
A lower cylinder 10 having an upper side opened in an empty state and filled with distilled water in a state in which a heater 11 is installed at an inner lower side thereof;
A perforated plate 20 installed in the lower barrel 10 so as to be positioned above the heater 11 so that the cypress leaves are located;
An upper cylinder 30 of the cylinder coupled to an upper side of the lower cylinder 10 to close an inner side of the lower cylinder 10;
A funnel-shaped coolant reservoir (40) in which water vapor heated by the heater (11) in contact with the outer periphery is installed inside the upper cylinder (30);
When the condensate of the water vapor condensed in contact with the outer periphery of the coolant reservoir 40 is dropped to be installed below the coolant reservoir 40 so that the condensate can be received, but having a smaller size than the coolant reservoir 40 A funnel-shaped recovery container 50 installed inside the upper cylinder 30 in a state;
A refinery 60 connected with the recovery container 50 and the connection pipe 51 to collect condensate of water vapor dropped into the recovery container 50;
Essential oil extracting device of cypress leaves, characterized in that consisting of a control unit 80 for controlling the temperature of the heater (11).
The method of claim 1,
The inside of the coolant reservoir 40 is installed with a temperature sensor 41 for detecting the temperature of the filled coolant, and connected to the refiner 60 and the lower cylinder 10 collected in the refiner 60 Essential oil extracting device of cypress leaves, characterized in that it further comprises a circulation pipe (70) for recycling the condensate.

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