CN219223053U - Preparation facilities of fresh flower pure dew - Google Patents

Abstract

The application provides a preparation facilities of fresh flower truffle, include: the cold trap is internally provided with a refrigeration compressor, a plurality of collectors are arranged above the refrigeration compressor, a collecting bottle and a coolant are arranged in the collectors, one end, far away from the drying box, of the cold trap is provided with a vacuum pump, the vacuum pump pumps water vapor generated by the drying box into the collectors, the water vapor with fragrance in the drying box is quickly condensed to be liquid through the cold trap, and fresh flower hydrolat with special fragrance is formed through the collection of the collectors. The fresh flower drying technology includes the steps that water vapor containing volatile fragrant gas generated in the drying process of fresh flowers is pumped into a collector through the air suction effect of a vacuum pump under the drying effect of a drying box body, the water vapor with the fragrance in the drying box body is quickly condensed to be liquid through the condensation effect of a refrigeration compressor in a cold trap, and the water vapor is collected through the collector to form fresh flower pure dew with special fragrance.

Description

Preparation facilities of fresh flower pure dew

Technical Field

The utility model relates to the technical field of fresh flower drying, in particular to a preparation device of fresh flower hydrolat.

Background

In order to facilitate storage, transportation and use of materials, the materials need to be dried, and common drying processes are mainly realized by methods of convection drying, conduction drying, radiation drying and the like, but for some materials which are sensitive to heat, easy to decompose and easy to oxidize, the materials are not suitable for the atmospheric environment, so that the materials need to be dried under reduced pressure.

The patent document of application number 202121990821.6 discloses a vacuum drying oven, which comprises a box body, a vacuum tube, a vacuum valve and a vacuum pump, wherein the vacuum valve and the vacuum pump are arranged on the vacuum tube, a drying cavity is arranged in the box body and communicated with the vacuum tube, the vacuum pump is arranged on the vacuum tube and further comprises a ventilation assembly for exhausting evaporated moisture in the drying cavity, the ventilation assembly comprises a gas generator for preparing inert gas, a connecting tube and a first valve arranged on the connecting tube, and the gas generator is communicated with the drying cavity through the connecting tube.

For the related technology, as the fresh flower contains a plurality of aroma substances, the substances are easy to volatilize in the vacuum drying process due to low boiling point, and various volatile gases with fragrance are generated, if the volatile gases are condensed, a kind of fragrant water with special fragrance, also called hydrolat, can be formed, and in the prior art, the volatile gases are discharged into the atmosphere and are not effectively collected, so that the reasonable utilization of resources is greatly affected.

Disclosure of Invention

In order to overcome the existing problems, the embodiment of the application provides a preparation device of fresh flower hydrolat, the vapor containing volatile fragrant gas generated in the drying process of fresh flowers is pumped into a collector through the air suction effect of a vacuum pump under the drying effect of a drying box body, and then the vapor containing fragrance in the drying box body is quickly condensed to be liquid through the condensation effect of a refrigeration compressor in a cold trap under the condensation effect of a refrigeration compressor, so that the fresh flower hydrolat with special fragrance is formed through the collection of the collector.

The technical scheme adopted by the embodiment of the application for solving the technical problems is as follows:

a preparation device of fresh flower hydrolat, comprising: the drying box body is used for drying; the cold trap is arranged at one side of the drying box body and used for condensing water vapor generated by drying;

the cold trap is internally provided with a refrigeration compressor, a plurality of collectors are arranged above the refrigeration compressor, a collecting bottle and a coolant are arranged inside the collectors, one end, far away from a drying box body, of the cold trap is provided with a vacuum pump, the vacuum pump pumps water vapor generated by the drying box body into the collectors, the water vapor with fragrance in the drying box body is quickly condensed into a liquid state through the cold trap, the water vapor with fragrance substances is collected through the collectors, pumped out by the vacuum pump, pumped into the collectors through the pumping action of the vacuum pump, and then quickly condensed into the liquid state through the condensing action of the refrigeration compressor in the cold trap, so that the fresh flower hydrolat with special fragrance is formed.

Preferably, the side wall of the intersection of the drying box body and the connecting pipe is provided with a connecting flange, the drying box body and the inner side of the cold trap are provided with connecting pipes, the drying box body is connected with the cold trap through the connecting pipes, the inner sides of the cold trap and the vacuum pump are provided with connecting pipes, the cold trap is connected with the vacuum pump through the connecting pipes, the drying box body is connected with a collector in the cold trap through the connecting pipes, and then the collector in the cold trap is connected with the vacuum pump through the connecting pipes, so that the water vapor generated by the drying box body can be absorbed into the cold trap when the vacuum pump operates.

Preferably, the drying box comprises a box door, an observation window is embedded in the box door, a handle is arranged on one side of the observation window, a foot pad is arranged at each of four corners of the bottom end of the drying box, the box door is opened through the handle, then materials such as fresh flowers to be dried are placed in a drying cavity, a designated drying temperature is set through a temperature controller, and then the box door is closed after being heated by an internal heating pipe.

Preferably, one side that the chamber door is close to the handle is equipped with controls the subassembly, and it includes the temperature control appearance, through the setting of temperature control appearance, can adjust the temperature variation of drying cabinet, the top of temperature control appearance is equipped with the vacuum gauge, and the vacuum gauge can real-time vacuum degree of showing drying cabinet inside, the bottom of temperature control appearance is equipped with adjust knob.

Preferably, the intersection of drying cabinet body and chamber door is equipped with the heat insulating strip, the inside of drying cabinet body is equipped with the dry chamber, the inside in dry chamber is equipped with the stoving frame, one side of stoving frame is equipped with the thermometer, the inside in dry chamber is equipped with the heating pipe, and the heating pipe in the dry chamber begins to work, and cold trap and vacuum pump also begin to work thereupon, and along with the rising of temperature, the vacuum in the dry chamber descends, and the low aromatic substance of boiling point begins to volatilize in the material, along with the evaporation of vapor in a large number, the vapor that has aromatic substance is taken by the vacuum pump.

The embodiment of the application has the advantages that:

according to the utility model, the water vapor containing volatile fragrance gas generated in the drying process of the fresh flowers is pumped into the collector through the air suction effect of the vacuum pump under the drying effect of the drying box body, and then the water vapor with fragrance in the drying box body is quickly condensed into a liquid state through the condensation effect of the refrigeration compressor in the cold trap, and is collected through the collector, so that the fresh flower pure dew with special fragrance is formed.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of a connection structure of a drying oven and a cold trap;

FIG. 2 is a schematic diagram of the front structure of the drying cabinet of the present utility model;

FIG. 3 is a schematic view of the internal structure of the drying cabinet of the present utility model;

fig. 4 is a schematic side view of the drying cabinet according to the present utility model.

The main reference numerals illustrate:

1. foot pads; 2. an adjustment knob; 3. a temperature controller; 4. a vacuum gauge; 5. a drying chamber; 6. a temperature device; 7. a drying rack; 8. heating pipes; 9. a door; 10. an observation window; 11. a handle; 12. a heat insulating strip; 13. a drying box body; 14. a connecting flange; 15. a connecting pipe; 16. a collector; 17. a cold trap; 18. a vacuum pump; 19. a cooling agent; 20. a refrigeration compressor.

Detailed Description

The technical scheme in the embodiment of the application aims to solve the problems, and the overall thought is as follows:

example 1:

the embodiment provides a specific structure of a preparation device of fresh flower hydrolat, as shown in fig. 1-4, comprising: a drying box 13 for drying; a cold trap 17 provided at one side of the drying cabinet 13 for condensing the water vapor generated by the drying; the cold trap 17 is internally provided with a refrigeration compressor 20, a plurality of collectors 16 are arranged above the refrigeration compressor 20, a collecting bottle and a coolant 19 are arranged inside the collectors 16, one end, far away from the drying box 13, of the cold trap 17 is provided with a vacuum pump 18, the vacuum pump 18 pumps water vapor generated by the drying box 13 into the collectors 16, and the water vapor with fragrance in the drying box 13 is quickly condensed to be in a liquid state through the cold trap 17 and collected through the collectors 16.

The side wall of the intersection of the drying box 13 and the connecting pipe 15 is provided with a connecting flange 14, the inner sides of the drying box 13 and the cold trap 17 are provided with the connecting pipe 15, the drying box 13 is connected with the cold trap 17 through the connecting pipe 15, the inner sides of the cold trap 17 and the vacuum pump 18 are provided with the connecting pipe 15, the cold trap 17 is connected with the vacuum pump 18 through the connecting pipe 15, the drying box 13 is connected with the collector 16 inside the cold trap 17 through the connecting pipe 15, and then the collector 16 inside the cold trap 17 is connected with the vacuum pump 18 through the connecting pipe 15, so that the water vapor generated by the drying box 13 can be absorbed into the cold trap 17 when the vacuum pump 18 operates.

By adopting the technical scheme:

the vapor with the fragrance substances is pumped by a vacuum pump 18, pumped into a collector 16 by the pumping action of the vacuum pump 18, and then condensed into a liquid state by the condensation action of a refrigeration compressor 20 in a cold trap 17, and collected by the collector 16, thereby forming the fresh flower pure dew with special fragrance.

Example 2:

the embodiment provides a specific structure of a preparation device for fresh flower hydrolat, as shown in fig. 1-4, the embodiment records that a drying box 13 comprises a box door 9, an observation window 10 is embedded in the box door 9, a handle 11 is arranged on one side of the observation window 10, a foot pad 1 is arranged at four corners of the bottom end of the drying box 13, the box door 9 is opened through the handle 11, then materials such as fresh flowers to be dried are placed into a drying cavity 5, a designated drying temperature is set through a temperature controller 3, and then an internal heating pipe 8 is heated, and then the box door 9 is closed.

One side that chamber door 9 is close to handle 11 is equipped with controls the subassembly, and it includes temperature controller 3, through the setting of temperature controller 3, can adjust the temperature variation of drying cabinet 13, and the top of temperature controller 3 is equipped with vacuum table 4, and vacuum table 4 can real-time display drying cabinet 13 inside vacuum, and the bottom of temperature controller 3 is equipped with adjust knob 2.

The intersection department of drying cabinet 13 and chamber door 9 is equipped with insulating strip 12, and the inside of drying cabinet 13 is equipped with drying chamber 5, and drying chamber 5's inside is equipped with dries by fire frame 7, and one side of drying frame 7 is equipped with thermometer 6.

By adopting the technical scheme:

the heating pipe 8 is arranged in the drying cavity 5, the heating pipe 8 in the drying cavity 5 starts to work, the cold trap 17 and the vacuum pump 18 also start to work along with the increase of temperature, the vacuum degree in the drying cavity 5 is reduced along with the increase of temperature, the aromatic substances with low boiling points in the materials start to volatilize, and the vapor with the aromatic substances is pumped out by the vacuum pump 18 along with the massive evaporation of the vapor.

Working principle: the door 9 is opened by the handle 11, then the materials such as flowers to be dried are placed in the drying cavity 5, a designated drying temperature is set by the temperature controller 3, the heating pipe 8 in the drying cavity is heated, then the door 9 is closed, the drying box 13 is connected with the collector 16 in the cold trap 17 by the connecting pipe 15, and the collector 16 in the cold trap 17 is connected with the vacuum pump 18 by the connecting pipe 15.

When the drying box 13 is started, the heating pipe 8 in the drying cavity 5 starts to work, the cold trap 17 and the vacuum pump 18 also start to work, the vacuum degree in the drying cavity 5 is reduced along with the temperature rise, the aroma substances with low boiling points in the materials start to volatilize, the water vapor with the aroma substances is pumped out by the vacuum pump 18 along with the evaporation of a large amount of water vapor, the water vapor with the aroma substances is pumped into the collector 16 through the pumping action of the vacuum pump 18, and then the water vapor with the aroma in the drying box 13 is quickly condensed into a liquid state through the condensation action of the refrigeration compressor 20 in the cold trap 17 and is collected by the collector 16, so that the flower hydrolat with special aroma is formed.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (8)

1. The utility model provides a preparation facilities of flower truffle which characterized in that includes:

a drying box (13) for drying;

a cold trap (17) which is provided on one side of the drying box (13) and condenses the water vapor generated by the drying;

the cold trap (17) is internally provided with a refrigerating compressor (20), a plurality of collectors (16) are arranged above the refrigerating compressor (20), collecting bottles and cooling agents (19) are arranged inside the collectors (16), one end, far away from the drying box body (13), of the cold trap (17) is provided with a vacuum pump (18), the vacuum pump (18) pumps water vapor generated by the drying box body (13) into the collectors (16), and the water vapor with fragrance in the drying box body (13) is rapidly condensed into a liquid state through the cold trap (17) and collected through the collectors (16).

2. The preparation device of fresh flower hydrolat according to claim 1, characterized in that a connecting pipe (15) is arranged at the inner side of the drying box body (13) and the cold trap (17), and the drying box body (13) is connected with the cold trap (17) through the connecting pipe (15).

3. A preparation device of fresh flower hydrolat as claimed in claim 1, characterized in that the inner sides of the cold trap (17) and the vacuum pump (18) are provided with a connecting pipe (15), and the cold trap (17) is connected with the vacuum pump (18) through the connecting pipe (15).

4. The preparation device of fresh flower hydrolat according to claim 1, wherein the drying box body (13) comprises a box door (9), an observation window (10) is embedded in the box door (9), a handle (11) is arranged on one side of the observation window (10), and a foot pad (1) is arranged at four corners of the bottom end of the drying box body (13).

5. The preparation device of fresh flower hydrolat according to claim 4, wherein one side of the box door (9) close to the handle (11) is provided with a control component, and the device comprises a temperature controller (3), a vacuum gauge (4) is arranged above the temperature controller (3), and an adjusting knob (2) is arranged at the bottom end of the temperature controller (3).

6. A preparation device of fresh flower hydrolat as claimed in claim 4, characterized in that the intersection of the drying cabinet (13) and the cabinet door (9) is provided with a heat insulation strip (12).

7. The preparation device of fresh flower hydrolat according to claim 1, characterized in that the inside of drying cabinet (13) is equipped with dry chamber (5), the inside of dry chamber (5) is equipped with dries by fire frame (7), one side of drying frame (7) is equipped with thermometer (6), the inside of dry chamber (5) is equipped with heating pipe (8).

8. A preparation device of fresh flower hydrolat as claimed in claim 1, characterized in that the side wall of the intersection of the drying cabinet (13) and the connecting pipe (15) is provided with a connecting flange (14).

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