CN219409658U - Gardenia essential oil extraction device with high extractant utilization rate - Google Patents

Abstract

The utility model provides a gardenia essential oil extraction device with high extractant utilization rate, which relates to the technical field of gardenia extraction equipment and comprises a raw material tower, a fusion tower and a cooler, wherein a fixing frame is clamped outside the raw material tower, one end of the top of the raw material tower is provided with a liquid inlet, gardenia raw material is placed in the raw material tower, the bottom of the raw material tower is provided with a raw material heating base, the bottom of the raw material tower is provided with a stirring motor, the bottom of the stirring motor is in transmission connection with a stirring shaft, and the outside of the stirring shaft is provided with stirring blades.

Description

Gardenia essential oil extraction device with high extractant utilization rate

Technical Field

The utility model relates to the technical field of gardenia extraction equipment, in particular to a gardenia essential oil extraction device with high utilization rate of an extractant.

Background

The gardenia flower has evergreen leaf color, aromatic and elegant flower, green leaf and white flower, is especially fresh and lovely, is suitable for being arranged in front of the steps, at the pool side and at the roadside, can be used for ornamental purposes in hedges and potted plants, can be used for ornamental purposes in addition to flower arrangement, fruit, leaf and root, has the effects of purging pathogenic fire, relieving restlessness, clearing heat, promoting urination, cooling blood and detoxifying, is mainly distributed in Guizhou, sichuan, jiangsu and other places, is urban flower in Yuyang, and can be prepared into essential oil.

The gardenia essential oil has the unsaturated fatty acid content of more than 80%, wherein 54% of the essential oil is linoleic acid, can effectively dissolve cholesterol, and has the effects of reducing blood fat, removing sediment on the inner wall of a blood vessel and reducing blood pressure.

The method for most of the gardenia essential oil in the extraction process is a distillation method, the essential oil obtained by the distillation method does not need to consume excessive time to filter impurities, a corresponding extractant is usually added in the distillation and extraction process, and the existing equipment can extract the gardenia, but the following problems still exist in the use process: 1. the existing equipment can not sample gardenia raw materials rapidly and can not obtain the optimal dosage of the required extractant; 2. meanwhile, the existing equipment cannot automatically and reasonably control the extractant, if the usage amount is large, the utilization rate is low, and the method is simply very wasteful, so that the gardenia essential oil extraction device with high utilization rate of the extractant is needed to solve the problems.

Disclosure of Invention

The utility model aims to solve the problem that the existing equipment cannot sample gardenia raw materials rapidly and cannot obtain the optimal dosage of required extractant, and provides a gardenia essential oil extraction device with high utilization rate of the extractant.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a gardenia essential oil extraction device of extractant high utilization ratio, includes raw materials tower, fuses tower and cooler, the outside joint of raw materials tower has the mount, the one end at raw materials tower top is equipped with the inlet, placed gardenia raw materials in the raw materials tower, the bottom of raw materials tower is equipped with raw materials heating base, agitator motor is installed to the bottom of raw materials tower, agitator motor's bottom transmission is connected with the (mixing) shaft, the outside of (mixing) shaft is equipped with stirring flabellum.

Preferably, a sampling suction pump is installed on one side of the raw material tower, one end of the sampling suction pump is connected with a sampling suction pipe, and one end of the sampling suction pipe penetrates through the inside of the raw material tower.

Preferably, one end of the sampling suction pump is connected with a sampling container, and the capacity in the sampling container is 500 milliliters.

Preferably, the top of the sampling container is penetrated with a concentration detection end, the top of the concentration detection end is electrically connected with a concentration detector, and the front of the concentration detector is electrically connected with a data transmitter.

Preferably, a fusion tower is arranged on one side of the raw material tower, and a heating ring is arranged at the bottom of the fusion tower.

Preferably, the middle part of fusion tower bottom is equipped with the pipette, the outside top of pipette is equipped with electronic stop valve, the outside bottom of pipette is equipped with electronic meter current ware, electronic meter current ware and electronic stop valve electric connection, the one end electric connection of electronic meter current ware has data receiver, data receiver and data transmitter mutually support, the suction pump is installed to the bottom of pipette.

Preferably, a cooler is arranged on one side of the fusion tower, and a collecting cylinder is arranged at the bottom of the cooler.

Advantageous effects

In the utility model, the sampling suction pump sucks gas and liquid in the raw material tower through the sampling suction pipe, the sucked gas and liquid can directly enter the sampling container, the concentration detector is the existing equipment and is mainly used for detecting the content of a certain substance of an object, the content of aromatic substances in gardenia gas and liquid is mainly detected in the utility model, the gas and liquid in the sampling container is directly contacted with the concentration detection end during detection, and the corresponding required extractant dosage can be automatically generated after the concentration detector obtains a result.

According to the utility model, the electric stop valve and the electric flow meter are mutually matched for use in the utility model, when the data receiver receives the data of the required dosage of the extractant, the data can be directly fed back to the electric flow meter, the electric flow meter can meter the extractant entering the fusion tower from the liquid suction pipe, when the metering reaches the required value, the electric flow meter can transmit a signal to the electric stop valve, and the electric stop valve can immediately stop the extractant from entering the fusion tower after receiving the signal, so that the accurate dosage control of the extractant is finished, the waste is not caused, and the utilization rate of the extractant is further improved.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a diagram of a raw materials tower structure of the present utility model;

FIG. 3 is a diagram of the internal structure of the feed tower of the present utility model;

FIG. 4 is a diagram of a fusion tower according to the present utility model;

fig. 5 is a flow chart of the operation of the present utility model.

Legend description:

1. a raw material tower; 2. a raw material heating base; 3. a fixing frame; 4. a liquid inlet; 5. a stirring motor; 6. a stirring shaft; 7. stirring fan blades; 8. a sampling pipette; 9. a sampling suction pump; 10. a sampling container; 11. a concentration detection end; 12. a concentration detector; 13. a data transmitter; 14. a fusion tower; 15. a heating ring; 16. a pipette; 17. an electric shut-off valve; 18. an electric current meter; 19. a liquid suction pump; 20. a data receiver; 21. a cooler; 22. and a collection cylinder.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present utility model are obtained, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the utility model.

Specific embodiments of the present utility model are described below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Referring to fig. 1-5, a gardenia essential oil extraction device with high extractant utilization rate comprises a raw material tower 1, a fusion tower 14 and a cooler 21, wherein a fixing frame 3 is clamped on the outer part of the raw material tower 1, a liquid inlet 4 is formed in one end of the top of the raw material tower 1, gardenia raw material is placed in the raw material tower 1, a raw material heating base 2 is arranged at the bottom of the raw material tower 1, a stirring motor 5 is arranged at the bottom end of the raw material tower 1, a stirring shaft 6 is connected to the bottom end of the stirring motor 5 in a transmission manner, stirring blades 7 are arranged on the outer part of the stirring shaft 6, during extraction, the raw material tower 1 is firstly opened to put gardenia into the raw material tower 1, then quantitative water is input from the liquid inlet 4, then the stirring motor 5 is started, the stirring shaft 6 is started to rotate, the stirring shaft 6 rotates to sufficiently stir the water and the gardenia raw material through the external stirring blades 7, and simultaneously the raw material heating base 2 is electrified, and after the raw material heating base 2 is heated and stirred, a lot of steam can be generated in the raw material tower 1, and the steam can directly enter the fusion tower 14 from a pipeline.

The one side of raw materials tower 1 installs sample suction pump 9, the one end of sample suction pump 9 is connected with sample straw 8, the inside of raw materials tower 1 is run through to the one end of sample straw 8, the one end of sample suction pump 9 is connected with sample container 10, the capacity in the sample container 10 is 500 ml, the top of sample container 10 runs through there is concentration detection end 11, the top electric connection of concentration detection end 11 has concentration detector 12, the positive electric connection of concentration detector 12 has data transmitter 13, the gas-liquid in the raw materials tower 1 is sucked through sample straw 8 to sample suction pump 9, the gas-liquid of sucking can directly enter into sample container 10, concentration detector 12 is current equipment, mainly be used for detecting the content of some kind of material of object, mainly detect in the utility model is that the content of aromatic substance in the gardenia gas-liquid is detected, through the direct gas-liquid contact in the sample container 10 of concentration detection end 11, the corresponding required extractant quantity can be automatically generated after concentration detector 12 obtains the result, the specific proportioning mode that needs to be explained here needs to set up according to actual needs, the volume value of the extraction that can be given through the direct data transmission of data receiver 20 to the extraction quantity value that can be generated by concentration detector 12.

The amount of extractant used in the device is calculated according to the ratio, and after the concentration of the required substance is obtained, the calculation is performed according to the ratio of 1:5 of the extractant to the raw gas-liquid, i.e. for example, the raw gas-liquid is 500 milliliters, so that 100 milliliters of extractant needs to be added, and the amount of extractant cannot be too much or too little.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Referring to fig. 1 to 5, a fusion tower 14 is provided at one side of the raw material tower 1, a heating ring 15 is installed at the bottom of the fusion tower 14, and the fusion tower 14 is a device for fusing the gas-liquid of the flowed gardenia and the extractant, which is also an existing extraction means.

The middle part of fusion tower 14 bottom is equipped with pipette 16, the outside top of pipette 16 is equipped with electronic stop valve 17, the outside bottom of pipette 16 is equipped with electronic meter flow ware 18, electronic meter flow ware 18 and electronic stop valve 17 electric connection, the one end electric connection of electronic meter flow ware 18 has data receiver 20, data receiver 20 and data transmitter 13 looks adaptation each other, the suction pump 19 can be through pipeline suction extractant, and directly send the extractant into fusion tower 14 through pipette 16, can directly heat fusion tower 14 after the heating collar 15 circular telegram, electronic meter flow ware 18 belongs to current subassembly, the main effect is the flow of real-time calculation fluid, electronic stop valve 17 is mainly used for the shutoff, in the utility model, electronic stop valve 17 and electronic meter flow ware 18 are mutually supporting and use, can directly feed back to electronic meter flow ware 18 when data of required extractant quantity are received to electronic meter flow ware 18, electronic meter flow ware 18 can be to the extractant that gets into in the fusion tower 14 from pipette 16, when the measurement reaches required value, can directly send the electric meter flow ware 17 to the electric meter flow ware 17, can not get into the accurate stop valve 17, the extraction rate of accuracy control is accomplished in this way, the extraction is not wasted to the extraction agent has been done to the accuracy rate of fusion tower 14.

A cooler 21 is provided on one side of the fusion tower 14, and a collection tube 22 is provided at the bottom of the cooler 21.

To sum up:

the sampling suction pump 9 sucks the gas-liquid in the raw material tower 1 through the sampling suction pipe 8, the sucked gas-liquid can directly enter into the sampling container 10, the concentration detector 12 is the existing equipment and mainly used for detecting the content of a certain substance of an object, the main detection in the utility model is the content of aromatic substances in gardenia gas-liquid, the concentration detector 12 can automatically generate the corresponding required extractant dosage after the result is obtained by directly contacting the gas-liquid in the sampling container 10 through the concentration detection end 11 during detection.

The suction pump 19 can suck the extractant through the pipeline to directly send the extractant into the fusion tower 14 through the pipette 16, can directly heat the fusion tower 14 after the heating collar 15 is electrified, the electric flow meter 18 belongs to current subassembly, and the main effect is the real-time flow of calculating fluid, and electric stop valve 17 is mainly used for the shutoff, in the utility model, electric stop valve 17 and electric flow meter 18 are mutually supported and use, can directly feed back to electric flow meter 18 when data receiver 20 received the data of required extractant quantity, and electric flow meter 18 can meter the extractant that gets into in the fusion tower 14 from the pipette 16, and when the measurement reaches required value, electric flow meter 18 can be to electric stop valve 17 transmission signal, can stop the extractant entering fusion tower 14 immediately after electric stop valve 17 received the signal, just so accomplished the accurate accuse volume to the extractant, can not cause the waste, further improved extractant utilization ratio.

Claims (7)

1. The utility model provides a gardenia essential oil extraction device of extractant high utilization ratio, includes raw materials tower (1), fuses tower (14) and cooler (21), its characterized in that: the novel gardenia stirrer is characterized in that a fixing frame (3) is clamped outside the raw material tower (1), a liquid inlet (4) is formed in one end of the top of the raw material tower (1), gardenia raw materials are placed in the raw material tower (1), a raw material heating base (2) is arranged at the bottom of the raw material tower (1), a stirring motor (5) is installed at the bottom of the raw material tower (1), a stirring shaft (6) is connected to the bottom of the stirring motor (5) in a transmission mode, and stirring blades (7) are arranged outside the stirring shaft (6).

2. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 1, which is characterized in that: one side of the raw material tower (1) is provided with a sampling suction pump (9), one end of the sampling suction pump (9) is connected with a sampling suction pipe (8), and one end of the sampling suction pipe (8) penetrates through the inside of the raw material tower (1).

3. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 2, which is characterized in that: one end of the sampling suction pump (9) is connected with a sampling container (10), and the capacity in the sampling container (10) is 500 milliliters.

4. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 3, wherein the extraction device is characterized in that: the top of sampling container (10) runs through and has concentration detection end (11), the top electric connection of concentration detection end (11) has concentration detector (12), the front electric connection of concentration detector (12) has data transmission ware (13).

5. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 1, which is characterized in that: one side of the raw material tower (1) is provided with a fusion tower (14), and a heating ring (15) is arranged at the bottom of the fusion tower (14).

6. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 1, which is characterized in that: the middle part of fusion tower (14) bottom is equipped with pipette (16), the top of the outside of pipette (16) is equipped with electronic stop valve (17), the bottom of pipette (16) outside is equipped with electronic meter class ware (18), electronic meter class ware (18) and electronic stop valve (17) electric connection, the one end electric connection of electronic meter class ware (18) has data receiver (20), data receiver (20) and data transmitter (13) mutually support, suction pump (19) are installed to the bottom of pipette (16).

7. The extraction device for gardenia essential oil with high extractant utilization rate according to claim 1, which is characterized in that: one side of the fusion tower (14) is provided with a cooler (21), and the bottom of the cooler (21) is provided with a collecting cylinder (22).