CN212246945U - Novel aromatic plant extraction of essential oil equipment - Google Patents

Abstract

A novel aromatic plant essential oil extraction equipment includes: the distillation retort, the condenser, the oil-water separator, the steam pipe, the temperature control proportional valve and the circulating pump, wherein a first stirring blade is arranged on a first stirring shaft, a hollow first shaft hole is arranged in the first stirring shaft, a second stirring shaft is arranged in the first shaft hole, the second stirring shaft is sealed with the first shaft hole and can be assembled in a circumferential rotating mode, two ends of the second stirring shaft respectively penetrate through the first stirring shaft, a second stirring blade is arranged at the bottom of the second stirring shaft, a second shaft gear is arranged at the top of the second stirring shaft, the top of the first stirring shaft penetrates through a tank cover and is sealed with the tank cover, the first stirring shaft can rotate circumferentially and can not move axially, the first shaft gear is sleeved and fixed at the top of the first stirring shaft, the first shaft gear and the second shaft gear are respectively in meshing transmission with a transfer gear and a second driving gear, the transfer gear is, one end of the output shaft is arranged in the motor.

Description

Novel aromatic plant extraction of essential oil equipment

Technical Field

The utility model relates to an aromatic plant extraction of essential oil equipment especially relates to a novel aromatic plant extraction of essential oil equipment.

Background

The production type aromatic plant essential oil extraction equipment is suitable for extracting essential oil (volatile oil) of flowers and plants, adopts a water-proof distillation mode of a steam distillation device, can effectively extract plant volatile oil components, and is remarkable in collection of various volatile fragrances of plants. The equipment is suitable for enterprises to set factories and produce near the original plant producing area. The production type aromatic plant essential oil extraction equipment adopts a steam distillation refining method, aromatic plants are placed in a distillation container, high-temperature steam is introduced into the distillation container (or spice and water are put together and boiled, at the moment, the essential oil containing aromatic components in the plants can be diffused into the steam to form an azeotrope of the oil and the water, then the azeotrope is cooled, the oil is not dissolved in water and is separated out through an oil-water separator, so that the essential oil required by people is formed, the equipment can be subjected to water-proof distillation or co-water distillation, the equipment is a novel, multifunctional and multipurpose plant essential oil extraction unit, and can efficiently collect effective components such as plant volatile oil, plant aromatic distillate, plant extract and the like.

The chinese utility model patent with publication number CN205188247U, entitled ultrasonic plant essential oil extraction equipment discloses the equipment of distilling raw materials in order to extract aromatic oil, and it can obtain better effect through the mode that sets up ultrasonic vibration, but when in actual use, because there is not the device that stirs the raw materials in the ultrasonic distillation jar, causes raw materials relative position to be fixed, therefore partial raw materials can float and cause extraction efficiency to be on the low side and the raw materials utilization rate is also low above the liquid level.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of the prior art, the utility model aims to solve the technical problem that a novel aromatic plant extraction of essential oil equipment is provided, it can carry out intensive mixing to the raw materials through setting up first stirring vane to increase the utilization ratio of extraction efficiency and raw materials.

In order to achieve the above object, the utility model provides a novel aromatic plant extraction of essential oil equipment, include:

the distillation retort is used for boiling the raw materials, so that the aromatic oil in the raw materials is excited and enters the condenser in a steam mode; the first stirring blade is arranged in the distillation tank and stirs the raw materials in the distillation tank through circumferential rotation;

the condenser is used for condensing the steam into liquid and then outputting the liquid to the oil-water separator;

the oil-water separator is used for separating the aromatic oil from the water and then outputting the aromatic oil;

the steam pipe is used for conveying the steam generated by the distillation retort to a condensation inlet pipe of the condenser;

the temperature control proportional valve is used for controlling the temperature of the liquid input to the circulating pump;

the circulating pump is used for circulating the liquid in the distillation retort, and an outlet of the circulating pump is communicated with a water inlet pipe of the distillation retort;

the first stirring blade is arranged on the first stirring shaft, the hollow first shaft hole is arranged in the first stirring shaft, the second stirring shaft is arranged in the first shaft hole, the second stirring shaft is sealed with the first shaft hole and can be assembled in a circumferential rotating mode, two ends of the second stirring shaft penetrate out of the first stirring shaft respectively, the second stirring blade is arranged at the bottom of the second stirring shaft, the second shaft gear is arranged at the top of the second stirring shaft, the top of the first stirring shaft penetrates out of the tank cover and is sealed with the tank cover, can be assembled in a circumferential rotating mode and cannot move axially, the first shaft gear is fixedly sleeved at the top of the first stirring shaft, the first shaft gear and the second shaft gear are respectively in meshing transmission with the transfer gear and the second drive gear, the transfer gear is in meshing transmission with the first drive gear, the first drive gear and the second drive gear are coaxially sleeved, but the suit of transfer gear circumferencial rotation ground is on the central rotating shaft, and the central rotating shaft is installed on the tank cap, and the motor is installed on the support, and the support is fixed on the tank cap.

Preferably, the system also comprises an electric control cabinet, wherein the electric control cabinet is used for installing a controller and communication module electric equipment, and the controller is used for receiving, transmitting and analyzing a control instruction, calculating parameters and running a program; the communication module is used for connecting the controller with external equipment in a communication mode.

Preferably, the steam pipe is connected with a butterfly valve in series, and the butterfly valve is used for controlling the on-off of the steam pipe.

Preferably, the temperature control proportional valve is provided with at least three inlets, wherein the first inlet is communicated with cold water, the second inlet is communicated with hot water with the temperature of 100 ℃, and the third inlet is communicated with a distillation tank water outlet pipe of the distillation tank.

Preferably, the control ends of the temperature-controlled proportional valve and the circulating pump are respectively in communication connection with the signal end of the controller.

Preferably, the oil-water separator separates out the aromatic oil, and then the aromatic oil is conveyed into a filter for filtering, and then the aromatic oil is conveyed into a storage tank for storage.

Preferably, the distillation tank is internally provided with a hollow inner tank, the top of the distillation tank is provided with a tank cover, and the tank cover is fixedly assembled with the tank body of the distillation tank through bolts; be provided with steam joint, throw the material hole on the cover, steam joint enters the pipe through the condensation of steam pipe access condenser after establishing ties with the butterfly valve, then the condenser exports the import to oil-water separator through the condensation exit tube after with steam condensation.

Preferably, the condenser is water-cooled, cold water used for heat exchange is pumped to the cold water inlet pipe through a variable frequency water pump and then enters the condenser, and the cold water subjected to heat exchange is discharged through a cold water outlet pipe; the condensation outlet pipe is also communicated with an air outlet pipe inside the detection cup through a detection branch pipe, the air outlet pipe is fixed at the bottom of the inner cup of the detection cup, and an air passage through which air flows passes is arranged inside the air outlet pipe; a fog-forming cover is arranged above the air outlet pipe and is made of transparent materials;

the lower part of the fog-forming cover is provided with an air blowing ring, the top of the air blowing ring is provided with a plurality of air blowing nozzles facing the bottom surface of the fog-forming cover, the interior of the air blowing ring is a hollow inner ring, and the inner ring is communicated with external hot air through a hot air pipe; a cooling cup is arranged at the top of the fogging cover, a hollow cooling cavity is arranged in the cooling cup, the cooling cavity is respectively communicated with one end of a first branch pipe and one end of a second branch pipe, and the other ends of the first branch pipe and the second branch pipe are respectively communicated with a cold water inlet pipe and a cold water outlet pipe;

and the two sides of the fogging cover are respectively provided with a transmitter and a receiver, the transmitter and the receiver form a photoelectric sensor, and the signal end of the receiver is connected into the controller.

Preferably, the edge of the fog-forming cover is provided with a mounting edge, and a screw passes through the detection cup and then is screwed with the mounting edge through threads so that the fog-forming cover is mounted in the inner cup.

Preferably, the inner wall of the inner tank is provided with a placing table, the placing table is attached to the edge of the top of the filter barrel, and the filter barrel is provided with countless through holes; the filter vat outside is installed and is shaken the head, thereby shakes the head and inserts the ultrasonic wave and take place high frequency vibration.

The utility model has the advantages that:

the utility model discloses simple structure, convenient to use can realize the liquid in the retort through setting up first stirring vane, second stirring vane and form the convection current to intensive mixing, mixed raw materials are in order to increase extraction efficiency and utilization ratio of raw materials. Additionally the utility model discloses a whether the fog-rising cover is hazed and is judged the condenser and whether can carry out abundant condensation to steam, and realize the automatically regulated of condenser condensation power through the variable frequency water pump to liberation is artifical, raises the efficiency.

The utility model is suitable for a water-proof distillation extraction process of conventional oil and aromatic oil in plant branches and leaves, flowers, grass and animal materials. Is very suitable for the laboratory research and development departments of colleges and universities, research institutes, enterprises and public institutions and the pharmaceutical factories to produce and use in small batches with various varieties.

Drawings

Fig. 1 is a schematic structural diagram of the first embodiment.

Fig. 2 is a schematic structural diagram of the second embodiment.

Fig. 3 is an enlarged view of a in fig. 2.

Fig. 4 is a schematic structural view of a motor according to a second embodiment.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example one

Referring to fig. 1, the novel aromatic plant essential oil extraction apparatus of the present embodiment includes:

a retort 110 for cooking the raw material so that the aromatic oil in the raw material is excited and enters the condenser by means of steam; referring to fig. 2, a first stirring blade 411 is installed in the distillation tank, and stirs the raw material in the distillation tank by a circumferential rotation.

A condenser 120 for condensing the vapor into a liquid and then outputting to the oil-water separator 130;

an oil-water separator 130 for separating the aromatic oil from the water and then outputting the aromatic oil;

the electric control cabinet 210 is used for installing electrical equipment such as a controller and a communication module, wherein the controller is used for receiving and sending analysis control instructions, calculating parameters and running programs, and an MCU, a PLC, an industrial personal computer and the like can be selected. The communication module of this embodiment is used for communicating controller and external device and is connected, can be wired network card, WIFI module, bluetooth module etc. and external device can be server, intelligent mobile terminal (smart mobile phone, panel computer, notebook etc.).

A steam pipe 310 for transferring the steam generated from the distillation tank to the condensate inlet pipe 121 of the condenser;

a butterfly valve 220 for controlling the on-off of the steam pipe 310;

the temperature control proportional valve 230 is used for controlling the temperature of the liquid input to the circulating pump 240, the principle is similar to that of an existing cold-hot water mixing valve, and the temperature control proportional valve is used for keeping the liquid input into the circulating pump 240 within a constant temperature range. Referring to fig. 2, the thermostatic proportional valve 230 has at least three inlets, a first inlet of which is communicated with cold water, a second inlet of which is communicated with hot water of 100 ℃, and a third inlet of which is communicated with a distillation tank water outlet pipe 342 of the distillation tank 110, so that the temperature of the output liquid is controlled by mixing the cold and hot water with the liquid in the distillation tank.

And a circulation pump 240 for circulating the liquid in the distillation tank 110, wherein an outlet of the circulation pump 240 is communicated with the distillation tank inlet pipe 341, so that the liquid in the distillation tank can be circulated and flowed by driving the circulation pump.

When in use, firstly, water is added into the distillation tank, and the water temperature is controlled to reach the preset value; then the raw materials are put into a distillation tank through a feeding hole 111, the raw materials are continuously cooked through hot water, so that the aromatic oil in the raw materials is volatilized and brought into a condenser through steam for condensation, and then the aromatic oil is output to an oil-water separator for separation and then is output for next treatment.

In this embodiment, the control ends of the medium temperature control proportional valve and the circulating pump are respectively in communication connection with the signal end of the controller, so that the working states of the medium temperature control proportional valve and the circulating pump can be controlled by the controller. Specifically, the circulating pump is driven by a circulating pump motor driver, and a control end of the circulating pump motor driver is in communication connection with a signal end of the controller.

Example two

Referring to fig. 2 to 4, the oil-water separator 130 separates the aromatic oil, and then inputs the aromatic oil into a filter 271 for filtering to reduce impurities in the aromatic oil, and then inputs the aromatic oil into a storage tank 272 for storage.

The distillation tank 110 is internally provided with a hollow inner tank 113, the top of the distillation tank 110 is provided with a detachable tank cover 112, and the tank cover 112 is fixedly assembled with the tank body of the distillation tank through a bolt 350; the feeding hole 111 is arranged on the tank cover 112, the tank cover 112 is also provided with a steam joint 115, the steam joint 115 is connected with a butterfly valve in series and then is connected into a condensation inlet pipe 121 of the condenser 120 through a steam pipe 310, and then the condenser condenses the steam and outputs the condensed steam to an inlet of the oil-water separator through a condensation outlet pipe 122;

the condenser 120 is water-cooled, and cold water used for heat exchange is pumped to the cold water inlet pipe 123 through the variable frequency water pump 260 and then enters the condenser, and the cold water after heat exchange is discharged through the cold water outlet pipe 124; the condensation outlet pipe 122 is also communicated with an outlet pipe 740 in the detection cup 710 through a detection branch pipe 1221, the outlet pipe 740 is fixed at the bottom of the inner cup 711 of the detection cup 710, and an air passage 741 through which air flows passes is arranged in the outlet pipe 740; a fog-forming cover 620 is arranged above the air outlet pipe 740, and the fog-forming cover 620 is made of transparent and high-heat-conducting material, such as quartz. The edge of the fogging cover 620 is provided with a mounting edge 621, and a screw 370 passes through the detection cup 710 and then is screwed with the mounting edge 621 so as to enable the fogging cover to be mounted in the inner cup 711;

the lower part of the mist-forming cover 620 is provided with a blowing ring 750, the top of the blowing ring 750 is provided with a plurality of blowing nozzles 755 facing the bottom surface of the mist-forming cover 620, the interior of the blowing ring 750 is a hollow inner ring 751, and the inner ring 751 is communicated with external hot air through a hot air pipe 753. In the initial state, the hot air pipe is not connected with hot air flow.

The top of the fogging cover 620 is provided with a cooling cup 730, a hollow cooling cavity 731 is arranged in the cooling cup 730, the cooling cavity 731 is respectively communicated with one end of the first branch pipe 331 and one end of the second branch pipe 332, and the other end of the first branch pipe 331 and the other end of the second branch pipe 332 are respectively communicated with the cold water inlet pipe 123 and the cold water outlet pipe 124. This design allows the cold water to branch into the cooling chamber 731 to cool the fogging shield, and the cooling cup 730 is held in the inner cup 711 by the brackets 732.

The two sides of the fogging cover 620 are respectively provided with a transmitter 761 and a receiver 762, the transmitter 761 and the receiver 762 form a photoelectric sensor, the signal end of the receiver is connected into the controller, the transmitter transmits a light beam to the receiver, the receiver receives the light beam to generate potential change, then the signal is input into the controller, and the controller judges that fogging does not occur.

In use, airflow in the detection branch pipe 122 enters the inner cup 711 and rushes to the fog-forming cover 620. In case when having a large amount of vapor in the air current, vapor can condense in fog-forming cover inboard to make the light beam of transmitter sheltered from, the receiver is not enough for condenser power to controller input signal this moment, controller judgement, then increases frequency conversion water pump power (the power supply power to frequency conversion water pump is adjusted to multiplicable converter), increases condenser condensation efficiency, hot gas pipe 753 gets into steam simultaneously, steam sweeps fog-forming cover make fog-forming cover resume transparent can.

The inner wall of the inner tank 113 is provided with a placing platform 114, the placing platform 114 is attached to the top edge of the filter barrel 140, countless through holes are formed in the filter barrel 140, and liquid enters the filter barrel through the through holes when the filter barrel is used. The vibration head 150 is arranged on the outer side of the filter barrel, and the vibration head 150 is connected with ultrasonic waves to generate high-frequency vibration;

the first stirring blade is arranged on the first stirring shaft 410, a hollow first shaft hole 411 is arranged in the first stirring shaft 410, a second stirring shaft 420 is arranged in the first shaft hole 411, the second stirring shaft 420 is sealed with the first shaft hole 411 and can be assembled in a circumferential rotating mode, two ends of the second stirring shaft 420 penetrate through the first stirring shaft 410 respectively, the bottom of the second stirring shaft 420 is provided with a second stirring blade 421, the top of the second stirring shaft is provided with a second shaft gear 512, the top of the first stirring shaft 410 penetrates through the tank cover 112 and is assembled with the tank cover 112 in a sealing mode, can rotate in a circumferential mode and cannot move in an axial direction, the top of the first stirring shaft 410 is fixedly sleeved with a first shaft gear 511, the first shaft gear 511 and the second shaft gear 512 are in meshed transmission with a transfer gear 521 and a second drive gear 532 respectively, the transfer gear 521 is in meshed transmission with the first drive gear 531, the first drive gear 531, one end of the output shaft 281 is installed in the motor 280, and the motor 280 can drive the output shaft 281 to rotate circumferentially after being electrified, the transfer gear 521 can be sleeved on the transfer shaft 520 in a circumferential rotation manner, the transfer shaft 520 is installed on the tank cover 112, the motor 280 is installed on the bracket 116, and the bracket 116 is fixed on the tank cover 112.

During the use, the motor starts the drive output shaft and rotates to drive first (mixing) shaft 410, second (mixing) shaft 420 to turn to respectively the circumferencial rotation with the phase reversal, thereby make first stirring vane 411, second stirring vane 421 respectively to the opposite direction stirring raw materials (during the use, the raw materials is put into the filter vat), thereby produce the convection current in order to obtain better stirring, mixing effect. This kind of mode makes the raw materials can release fragrant oil fast, and the raw materials is shuttled back and forth in liquid constantly to guarantee raw materials and liquid intensive mixing in order to increase the utilization ratio of raw materials.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. A novel fragrant plant extraction of essential oil equipment which characterized in that includes:

the distillation retort is used for boiling the raw materials, so that the aromatic oil in the raw materials is excited and enters the condenser in a steam mode; the first stirring blade is arranged in the distillation tank and stirs the raw materials in the distillation tank through circumferential rotation;

the condenser is used for condensing the steam into liquid and then outputting the liquid to the oil-water separator;

the oil-water separator is used for separating the aromatic oil from the water and then outputting the aromatic oil;

the steam pipe is used for conveying the steam generated by the distillation retort to a condensation inlet pipe of the condenser;

the temperature control proportional valve is used for controlling the temperature of the liquid input to the circulating pump;

the circulating pump is used for circulating the liquid in the distillation retort, and an outlet of the circulating pump is communicated with a water inlet pipe of the distillation retort;

the first stirring blade is arranged on the first stirring shaft, the hollow first shaft hole is arranged in the first stirring shaft, the second stirring shaft is arranged in the first shaft hole, the second stirring shaft is sealed with the first shaft hole and can be assembled in a circumferential rotating mode, two ends of the second stirring shaft penetrate out of the first stirring shaft respectively, the second stirring blade is arranged at the bottom of the second stirring shaft, the second shaft gear is arranged at the top of the second stirring shaft, the top of the first stirring shaft penetrates out of the tank cover and is sealed with the tank cover, can be assembled in a circumferential rotating mode and cannot move axially, the first shaft gear is fixedly sleeved at the top of the first stirring shaft, the first shaft gear and the second shaft gear are respectively in meshing transmission with the transfer gear and the second drive gear, the transfer gear is in meshing transmission with the first drive gear, the first drive gear and the second drive gear are coaxially sleeved, but the suit of transfer gear circumferencial rotation ground is on the central rotating shaft, and the central rotating shaft is installed on the tank cap, and the motor is installed on the support, and the support is fixed on the tank cap.

2. The novel aromatic plant essential oil extraction device as claimed in claim 1, further comprising an electric control cabinet, wherein the electric control cabinet is used for installing a controller and communication module electric equipment, and the controller is used for receiving and sending analysis control instructions, calculating parameters and running programs; the communication module is used for connecting the controller with external equipment in a communication mode.

3. The novel aromatic plant essential oil extraction device according to claim 1, further comprising a butterfly valve connected in series to the steam pipe for controlling the opening and closing of the steam pipe.

4. A novel aromatic plant essential oil extraction apparatus as claimed in claim 1, wherein the thermostatic proportional valve has at least three inlets, a first inlet communicating with cold water, a second inlet communicating with hot water at 100 ℃, and a third inlet communicating with a distillation tank outlet pipe of the distillation tank.

5. A novel aromatic plant essential oil extraction device as claimed in claim 2, wherein the control ends of the temperature-controlled proportional valve and the circulating pump are respectively connected with the signal end of the controller in communication.

6. The novel aromatic plant essential oil extraction apparatus as claimed in claim 1, wherein the oil-water separator separates the aromatic oil, filters the separated aromatic oil in a filter, and stores the filtered aromatic oil in a storage tank.

7. The novel aromatic plant essential oil extraction device as claimed in claim 1, wherein the distillation tank is a hollow inner tank, the top of the distillation tank is a tank cover, and the tank cover is fixedly assembled with the distillation tank body through bolts; be provided with steam joint, throw the material hole on the cover, steam joint enters the pipe through the condensation of steam pipe access condenser after establishing ties with the butterfly valve, then the condenser exports the import to oil-water separator through the condensation exit tube after with steam condensation.

8. The novel aromatic plant essential oil extraction equipment as claimed in claim 7, wherein the condenser is of a water-cooled type, cold water used for heat exchange is pumped into the cold water inlet pipe through a variable frequency water pump and then enters the condenser, and the cold water after heat exchange is discharged through a cold water outlet pipe; the condensation outlet pipe is also communicated with an air outlet pipe inside the detection cup through a detection branch pipe, the air outlet pipe is fixed at the bottom of the inner cup of the detection cup, and an air passage through which air flows passes is arranged inside the air outlet pipe; a fog-forming cover is arranged above the air outlet pipe and is made of transparent materials;

the lower part of the fog-forming cover is provided with an air blowing ring, the top of the air blowing ring is provided with a plurality of air blowing nozzles facing the bottom surface of the fog-forming cover, the interior of the air blowing ring is a hollow inner ring, and the inner ring is communicated with external hot air through a hot air pipe; a cooling cup is arranged at the top of the fogging cover, a hollow cooling cavity is arranged in the cooling cup, the cooling cavity is respectively communicated with one end of a first branch pipe and one end of a second branch pipe, and the other ends of the first branch pipe and the second branch pipe are respectively communicated with a cold water inlet pipe and a cold water outlet pipe;

and the two sides of the fogging cover are respectively provided with a transmitter and a receiver, the transmitter and the receiver form a photoelectric sensor, and the signal end of the receiver is connected into the controller.

9. The novel aromatic plant essential oil extraction device as claimed in claim 8, wherein the edge of the fogging cover is provided with a mounting edge, and a screw is screwed with the mounting edge after passing through the detection cup so as to enable the fogging cover to be mounted in the inner cup.

10. The novel aromatic plant essential oil extraction device as claimed in claim 8, wherein a placing table is arranged on the inner wall of the inner tank, the placing table is fitted with the top edge of the filter barrel, and the filter barrel is provided with a plurality of through holes; the filter vat outside is installed and is shaken the head, thereby shakes the head and inserts the ultrasonic wave and take place high frequency vibration.

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