CN213060838U - Reaction device of incense base - Google Patents

Abstract

The utility model relates to a reaction unit of fragrant base. The reaction device of the incense base comprises: the reaction tower comprises a tower body and a plurality of tower plates which are positioned in the tower body and are arranged in a staggered manner, the tower body is provided with a feed inlet and a discharge outlet, the feed inlet and the discharge outlet are respectively positioned at two opposite ends of the tower body, each tower plate is provided with peak parts and valley parts which are alternately arranged and inclined parts which extend between the adjacent peak parts and valley parts, the edges of the tower plates are connected with the side wall of the tower body, each tower plate is provided with a plurality of through holes which are arranged at intervals, and the diameters of the through holes on the tower plates are 3-8 mm; the circulating pump has inlet and liquid outlet, and the inlet communicates with the discharge gate, and the liquid outlet communicates with the feed inlet, and above-mentioned perfume base's reaction unit can improve the fragrance intensity of oily perfume base.

Description

Reaction device of incense base

Technical Field

The utility model relates to a fermentation technical field especially relates to a reaction unit of fragrant base.

Background

The essence base is used as the essence main body essence base, is the base for preparing the essence and is also called as a semi-finished product of the essence. The essence base can be mainly divided into water essence base and oil essence base, and the water essence base is generally applied to water cosmetics such as perfume, floral water, cosmetic water, toothpaste, etc. The oily essence base is mostly the base material of food essence, and can be directly applied to food, such as bread, cake, biscuit, etc. The oily essence base can also be emulsified to prepare an opacifier or can be microencapsulated to prepare powder essence for further application.

At present, in industrial production, the preparation method of the oily essence base mainly adopts a biological method based on the principles of enzymolysis and fermentation, and the oily essence base prepared according to the biological method has harmonious aroma and natural fit, and is popular with people. However, the aroma intensity of the oil-based aroma prepared by the current biological method is weak.

SUMMERY OF THE UTILITY MODEL

In view of this, there is a need for a fragrance-based reaction apparatus that can improve the intensity of fragrance.

A fragrance-based reaction device comprising:

the reaction tower comprises a tower body and a plurality of tower plates which are positioned in the tower body and are arranged in a staggered manner, wherein a feed inlet and a discharge outlet are formed in the tower body, the feed inlet and the discharge outlet are respectively positioned at two opposite ends of the tower body, each tower plate is provided with a peak part and a valley part which are alternately arranged and an inclined part which extends between the adjacent peak part and the valley part, the edge of each tower plate is connected with the side wall of the tower body, each tower plate is provided with a plurality of through holes which are arranged at intervals, and the diameter of each through hole in each tower plate is 3-8 mm; and

the circulating pump is provided with a liquid inlet and a liquid outlet, the liquid inlet is communicated with the discharge port, and the liquid outlet is communicated with the feed port.

The reaction device of the incense base comprises a reaction tower and a circulating pump, and the circulating pump is communicated with the reaction tower, so that the reaction materials in the reaction tower can circularly flow among the top of the reaction tower, a plurality of tower plates and the bottom of the reaction tower, the mutual contact of the reaction materials is increased, the reaction is accelerated, the insufficient reaction is avoided, the yield of the oily perfume base is improved, further improving the intensity of the fragrance of the oily fragrance base, and also providing the tray in the reaction tower with alternately arranged peak parts and valley parts and inclined parts extending between the adjacent peak parts and valley parts, and opening through holes for allowing the non-oil phase to flow through, the oily essence base generated by fermentation can be enriched on the column plate, so that the oily essence base is convenient to collect, the loss of an oil phase is reduced, the recovery rate of the oily essence base is improved, the yield of the oily essence base is improved, and the aroma intensity of the oily essence base is further improved.

In one embodiment, the included angle formed by the adjacent inclined parts is 90-160 degrees;

and/or the crest part is linear, the valley part is linear, and the distance from the crest part to the plane where the adjacent valley part is located is 4 cm-10 cm.

In one embodiment, the peak is provided with a plurality of through holes arranged at intervals;

and/or the valley part is provided with a plurality of through holes arranged at intervals;

and/or the inclined part is provided with a plurality of through holes arranged at intervals.

In one embodiment, the diameter of the through hole on the peak is 3 mm-6 mm;

and/or the diameter of the through holes on the valley part is 3-6 mm;

and/or the diameter of the through hole on the inclined part is 3 mm-6 mm.

In one embodiment, the aroma-based reaction apparatus further comprises a heating assembly for supplying heat to the trays.

In one embodiment, the heating assembly comprises a heating jacket, the heating jacket is located between the tower plates and the side wall of the tower body, a plurality of tower plates are sleeved in the heating jacket, and the edges of the tower plates penetrate through the heating jacket to be fixedly connected with the side wall of the tower body.

In one embodiment, the reaction device of the incense base further comprises a steam generator, wherein the steam generator is provided with a gas outlet, and the gas outlet is communicated with the feeding hole.

In one embodiment, the tower body comprises a cavity formed by sequentially and hermetically connecting a top cover, a middle cavity and a bottom cavity, the feeding hole is formed in the top cover, the discharging hole is formed in the bottom cavity, and the inner diameter of the bottom cavity is gradually reduced along the direction close to the discharging hole.

In one embodiment, the middle cavity is a hollow cylinder with two open ends, and the bottom cavity is a hollow hemisphere communicated with one open end of the middle cavity.

In one embodiment, each of the trays extends in a direction opposite to and perpendicular to the extension of the column.

Drawings

FIG. 1 is a schematic view of an embodiment of a fragrance-based reaction apparatus;

FIG. 2 is a schematic structural view of the staggered trays of the reaction apparatus shown in FIG. 1;

FIG. 3 is one of the staggered trays shown in FIG. 2;

FIG. 4 is a top view of the tray shown in FIG. 2.

Reference numerals:

10. a reaction device of the perfume base; 110. a reaction tower; 120. a circulation pump; 130. a heating assembly; 140. a steam generator; 111a, a top cover; 111c, a bottom cavity; 113. a column plate; 113a, a peak; 113b, a valley; 113c, an inclined portion; 113d, through holes.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Some embodiments of the invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1, one embodiment of the present invention provides a fragrance-based reaction apparatus 10, the fragrance-based reaction apparatus 10 including a reaction tower 110, a circulation pump 120, a heating assembly 130, and a steam generator 140.

Specifically, referring to fig. 2 to 4, the reaction tower 110 has a feed inlet (not shown) and a discharge outlet (not shown), the reaction tower 110 includes a tower body and a plurality of tower plates 113 disposed in the tower body and staggered, and the edges of the tower plates 113 are connected to the side wall of the tower body.

The tower body comprises a cavity formed by sequentially and hermetically connecting a top cover 111a, a middle cavity and a bottom cavity 111c, a feed inlet is positioned on the top cover 111a, and a discharge outlet is positioned on the bottom cavity 111 c. Specifically, the middle cavity is a hollow structure with two open ends, the two open ends of the middle cavity are respectively connected with the top cover 111a and the bottom cavity 111c in a sealing manner, the feed inlet is located on the top cover 111a and is far away from the connection position of the middle cavity and the bottom cover, and the discharge outlet is located on the bottom cavity 111c and is far away from the connection position of the middle cavity and the bottom cavity 111 c. Further, the inner diameter of the bottom chamber 111c is gradually reduced in a direction approaching the discharge port. The inner diameter of the bottom chamber 111c is set to be gradually reduced in a direction close to the discharge port, thereby facilitating the reaction material to flow out of the reaction tower 110. On the other hand, the arrangement of the tray 113 is also facilitated: when the inner diameter of the bottom cavity 111c is gradually reduced along the direction close to the discharge hole, the bottom cavity 111c can be directly used as the support of the tower plate 113, and the tower plate 113 is not required to be fixed on the middle cavity or the bottom cavity 111c, so that the preparation process of the reaction device 10 for the incense base is simplified, and the preparation cost is saved.

In an optional specific example, the top cover 111a is a hollow hemisphere with one opening, the feed inlet is far away from the opening of the top cover 111a, the middle cavity is a hollow cylinder with two open ends, the bottom cavity 111c is also a hollow hemisphere with one opening, the discharge outlet is far away from the opening of the bottom cavity 111c, the opening of the top cover 111a is communicated with the opening of the middle cavity, the opening of the bottom cavity 111c is communicated with the other opening of the middle cavity, and the two open ends of the middle cavity are respectively connected with the opening of the bottom cavity 111c and the opening of the top cover 111a in a sealing manner to form a cavity for reaction.

Of course, in other embodiments, the shape of the top cover 111a is not limited to a hemisphere, and may be other shapes matching with the middle cavity. Such as a hollow cone, a hollow rectangular pyramid, etc. It is understood that in other embodiments, the top cover 111a may have a plate shape. In other embodiments, the shape of the lumen is not limited to a hollow cylinder, but other hollow configurations are possible. Such as a hollow quadrangular prism, a hollow triangular prism, etc. The shape of the bottom cavity 111c is not limited to a hemisphere, and may be other shapes matching the middle cavity. Such as a hollow cone, a hollow rectangular pyramid, etc.

In an alternative embodiment, the top cover 111a further has a feeding port (not shown) for feeding the reaction tower 110. For example, when the reaction material is added to the reaction tower 110 before fermentation, the reaction material may be added to the reaction tower 110 through a feed port. For another example, when it is necessary to add other materials to the reaction tower 110 during the fermentation process, the materials can be added through a feeding port.

In one embodiment, a material distributor is further disposed at the feeding port on the top cover 111a, the inlet of the material distributor is communicated with the feeding port, and the outlet of the material distributor faces the tower plate 113. The material distributor serves to uniformly spray the reaction material flowing out of the feed port toward the tray 113. In an alternative specific example, the material distributor is a spray head.

Referring to fig. 2, each tray 113 has alternately arranged crests 113a and troughs 113b and slopes 113c extending between the adjacent crests 113a and troughs 113 b. Each tray 113 has a plurality of through holes 113d arranged at intervals. In the illustrated embodiment, a plurality of staggered trays 113 are positioned within the central cavity.

In one embodiment, the trays 113 are corrugated or serrated.

In one embodiment, the crest 113a and the trough 113b are both linear, the inclined portion 112c is in the form of a long strip, and the distance from the crest 113a to the plane of the adjacent trough 113b is 4cm to 10 cm. Further, the distance from the crest 113a to the plane where the adjacent trough 113b is located is 5cm to 8 cm.

In one embodiment, the spacing between adjacent valleys 113b is 8cm to 20 cm. Further, the interval between adjacent valley portions 113b is 10cm to 16 cm.

In one embodiment, the included angle formed by two adjacent inclined portions 113c is 90 ° to 160 °. Further, the included angle formed by two adjacent inclined portions 113c is 110 ° to 140 °.

In one embodiment, the distance from the peak 113a to the plane where the adjacent valley 113b is located is 4cm to 10cm, the interval between the adjacent valleys 113b is 8cm to 20cm, and the included angle formed by the two adjacent inclined portions 113c is 90 ° to 160 °. The distance from the peak part 113a to the plane where the adjacent valley part 113b is located is set to be 4 cm-10 cm, the interval between the adjacent valley parts 113b is set to be 4 cm-10 cm, and the included angle formed by the two adjacent inclined parts 113c is set to be 90-160 degrees, so that the distance between the tower plates is reasonable, and the circulation of reaction materials is facilitated.

In the illustrated embodiment, the peaks 113a of the trays 113 are all in the same plane, and the valleys 113b of the trays 113 are all in the same plane. The peaks 113a of the trays 113 are all in the same plane, and the valleys 113b of the trays 113 are all in the same plane, so that more trays 113 can be conveniently stacked in a limited height range, and the oil-based incense can be further conveniently enriched. It is understood that in some embodiments, the peaks 113a of the trays 113 can be in different planes; and/or the valleys 113b of the trays 113 may not be in the same plane.

Specifically, the diameter of the through-hole 113d in the tray 113 is 3mm to 8 mm. Further, the diameter of the through-hole 113d of the tray 113 is 3mm to 6 mm. The diameter of the through hole 113d on the tower plate 113 is set to be 3 mm-8 mm, which not only can satisfy the circulating flow of the reaction materials, but also can ensure that the oil phase base materials generated by fermentation can be enriched on the tower plate 113.

The through-hole 113d of the tray 113 may be provided at any position of the tray 113. Specifically, the through-holes 113d in the tray 113 are provided in at least one of the crests 113a, troughs 113b, and inclined portions 113 c. In one embodiment, the inclined portion 113c of the tray 113 has a plurality of through holes 113d spaced apart therefrom, and the through holes 113d of the inclined portion 113c are used for the non-oil phase to flow through.

Further, the inclined portion 113c has a strip-like sheet shape, the inclined portion 113c has a long side, the peak portion 113a and the valley portion 113b are adjacent to the long side of the inclined portion 113c, and the through holes 113d of the inclined portion 113c are provided at intervals in a direction parallel to the long side of the inclined portion 113 c. In an alternative specific example, the through holes 113d on the inclined portion 113c are provided in a plurality of rows in a direction parallel to the long side of the inclined portion 113c, and the through holes 113d of adjacent rows are staggered or on the same straight line with each other. In the illustrated embodiment, the through holes 113d in the inclined portion 113c are arranged in two rows in a direction parallel to the long side of the inclined portion 113c, and the through holes 113d in the two rows are aligned on the same straight line. Of course, in other examples, the through holes 113d on the inclined portion 113c may be provided only in one row in a direction parallel to the long side of the inclined portion 113 c.

In another embodiment, the peak 113a of the tray 113 has a plurality of through holes 113d arranged at intervals, and the through holes 113d of the peak 113a are used for the non-oil phase to flow through. In another embodiment, the trough portion 113b has a plurality of through holes 113d arranged at intervals, and the through holes 113d of the trough portion 113b are used for allowing the non-oil phase to flow through.

In the illustrated embodiment, each tray 113 extends in a direction perpendicular to the direction of extension of the column. Of course, in other embodiments, the extension direction of each tray 113 can also be arranged at an acute angle to the side wall of the tower.

In the illustrated embodiment, the peaks 113a of adjacent trays 113 are perpendicular to each other. Of course, it is understood that in other embodiments, the peaks 113a of adjacent trays 113 may not be perpendicular to each other.

In one implementation, the material of the tray 113 is 304 stainless steel, 316 stainless steel, or 430 stainless steel. Of course, in other embodiments, the material of the tray 113 is not limited to the above, but may be other materials.

The circulation pump 120 is in communication with the reaction tower 110 through a pipe. The circulation pump 120 is used for pumping the reaction material flowing out from the discharge hole of the reaction tower 110 into the reaction tower 110 through the feed hole of the reaction tower 110, so as to realize the circulation flow of the reaction material in the reaction tower 110 among the top, the middle and the bottom of the reaction tower 110. Specifically, the circulation pump 120 has a liquid inlet (not shown) and a liquid outlet (not shown), the liquid inlet of the circulation pump 120 is communicated with the discharge port of the reaction tower 110 through a pipeline, and the liquid outlet of the circulation pump 120 is communicated with the feed port of the reaction tower 110 through a pipeline.

In an alternative specific example, the pipe between the discharge port of the reaction tower 110 and the inlet port of the circulation pump 120 is a Y-shaped pipe, one end of the Y-shaped pipe is communicated with the discharge port, the other two ends of the Y-shaped pipe are respectively communicated with the collection container and the circulation pump 120, and valves are further disposed on both the pipe close to the inlet port of the circulation pump 120 and the pipe close to the collection container, so as to control the flow direction of the fluid in the fermentation tank. Specifically, when the reaction tower 110 is cleaned, the reaction tower 110 is sterilized, or a product after fermentation in the reaction tower 110 needs to be discharged, the valve on the pipe close to the liquid inlet of the circulation pump 120 is closed, the valve on the pipe close to the collection container is opened, and the fluid in the reaction tower 110 flows to the collection container. When the reaction material in the reaction tower 110 needs to be fermented, the valve on the pipeline close to the liquid inlet of the circulating pump 120 is opened, and the valve on the pipeline close to the collecting container is closed, so that the reaction material in the reaction tower 110 reaches the top of the reaction tower 110 again under the action of the circulating pump 120 after passing through the top, the middle and the bottom of the reaction tower 110, and enters the next circulation.

The heating assembly 130 is used to supply heat to the tray 113 to facilitate collection of the oily fragrance base enriched on the tray 113. In one embodiment, the heating assembly 130 comprises a heating jacket and a temperature control member, the heating jacket is located between the tower plates 113 and the side wall of the tower body, the plurality of tower plates 113 are all sleeved in the heating jacket, and the edges of the tower plates 113 penetrate through the heating jacket to be fixedly connected with the side wall of the reaction tower 110; the temperature control part is electrically connected with the heating jacket to control the temperature of the heating jacket. Further, the edge of the tray 113 is welded to the side wall of the reaction tower 110 through a heating jacket. Of course, when the inner diameter of the bottom cavity 111c of the tower body is gradually reduced in the direction close to the discharge port, the edge of the tray 113 may be contacted with only the side wall of the reaction tower 110 through the heating jacket. In an alternative embodiment, a portion of the edge of the tray 113 is fixedly connected to the sidewall of the reaction tower 110 through a heating jacket, and another portion of the edge of the tray 113 abuts the heating jacket.

In another embodiment, the heating assembly 130 includes a heat generating sheet. The heat generating sheet is positioned between the plurality of trays 113 and fixed to the trays 113. Of course, in other embodiments, the tray 113 can also be a tray 113 with a heat generating layer, in which case heat is supplied to the tray 113 through the heat generating layer on the tray 113.

Of course, in some embodiments, the heating assembly 130 may be omitted. When the heating unit 130 is omitted, the oily fragrance base accumulated on the tray 113 can be collected by other methods such as introducing a gas (e.g., steam) capable of improving the fluidity of the oily fragrance base after the aqueous phase in the reaction material is discharged, so that the oily fragrance base is dropped from the tray 113 and is collected. Of course, the gas introduced must not deteriorate the oily fragrance base. As another example, the tray 113 is removably connected to the column. After the fermentation is finished, the oily flavor base on the tray 113 is collected after the tray 113 is detached from the column body.

The steam generator 140 is in communication with the reaction tower 110 via a conduit for providing steam into the reaction tower 110 to facilitate sterilization of the fragrance-based reaction apparatus 10. Specifically, the steam generator 140 has a gas outlet, and the gas outlet of the steam generator 140 is communicated with the feed inlet of the reaction tower 110 through a pipe. In the illustrated embodiment, a valve is further provided on the pipe near the outlet of the steam generator 140 to control the flow direction of the steam in the steam generator 140: when steam needs to be supplied to the reaction tower 110, the valve is opened, and the steam in the steam generator 140 flows to the reaction tower 110; when it is not necessary to supply steam into the reaction tower 110, the valve is closed and the steam in the steam generator 140 stops flowing to the reaction tower 110.

Of course, in some embodiments, the steam generator 140 may be omitted. When the steam generator 140 is omitted, the fermenter may be sterilized in other ways. Such as chemical methods using chemical reagents or physical disinfection methods using ultraviolet rays.

The above-described perfume-based reaction apparatus 10 has at least the following advantages:

(1) the above-mentioned perfume-based reaction apparatus 10 comprises a reaction tower 110 and a circulation pump 120, by arranging the circulating pump 120 communicated with the reaction tower 110, the reaction materials in the reaction tower 110 can circularly flow among the top of the reaction tower 110, the plurality of tower plates 113 and the bottom of the reaction tower 110, the mutual contact of the reaction materials is increased, the reaction is accelerated and the insufficient reaction is avoided, further, the yield of the oily flavor base is improved, and by providing the tray 113 in the reaction column 110 with a tray 113 having alternately arranged crests 113a and troughs 113b and slopes 113c extending between the adjacent crests 113a and troughs 113b, and having through-holes 113d for the non-oil phase to flow through the tray 113, the oily essence base generated by fermentation can be enriched on the tower plate 113, so that the collection of the oily essence base is convenient, the loss of the oil phase is reduced, the recovery rate of the oily essence base is improved, and the yield of the oily essence base is further improved.

(2) By providing the heating assembly 130, when collecting the oily flavor base, the heating assembly 130 supplies heat to the tray 113 to raise the temperature of the tray 113, so that the oily flavor base sensitive to temperature can flow down from the tray 113, thereby facilitating the collection.

(3) The steam generator 140 is arranged, so that the fragrant reaction device 10 is convenient to disinfect in use; meanwhile, when the heating assembly 130 is not provided, the steam generator 140 may also provide a heat source for the tray 113 to facilitate the collection of the oily fragrance base.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A fragrance-based reaction device, comprising:

the reaction tower comprises a tower body and a plurality of tower plates which are positioned in the tower body and are arranged in a staggered manner, wherein a feed inlet and a discharge outlet are formed in the tower body, the feed inlet and the discharge outlet are respectively positioned at two opposite ends of the tower body, each tower plate is provided with a peak part and a valley part which are alternately arranged and an inclined part which extends between the adjacent peak part and the valley part, the edge of each tower plate is connected with the side wall of the tower body, each tower plate is provided with a plurality of through holes which are arranged at intervals, and the diameter of each through hole in each tower plate is 3-8 mm; and

the circulating pump is provided with a liquid inlet and a liquid outlet, the liquid inlet is communicated with the discharge port, and the liquid outlet is communicated with the feed port.

2. The scent-based reaction device of claim 1 wherein the angle formed by adjacent inclined portions is between 90 ° and 160 °;

and/or the crest part is linear, the valley part is linear, and the distance from the crest part to the plane where the adjacent valley part is located is 4 cm-10 cm.

3. The scent-based reaction device of claim 1 wherein the peak has a plurality of spaced apart through holes;

and/or the valley part is provided with a plurality of through holes arranged at intervals;

and/or the inclined part is provided with a plurality of through holes arranged at intervals.

4. The scent-based reaction device of claim 3 wherein the through holes in said peaks have a diameter of 3mm to 6 mm;

and/or the diameter of the through holes on the valley part is 3-6 mm;

and/or the diameter of the through hole on the inclined part is 3 mm-6 mm.

5. The fragrance-based reaction device according to any one of claims 1 to 4, further comprising a heating component for supplying heat to the trays.

6. The scent-based reactor apparatus of claim 5 wherein the heating assembly comprises a heating jacket, the heating jacket is located between the trays and the side wall of the tower body, a plurality of the trays are nested in the heating jacket, and the edges of the trays are fixedly connected to the side wall of the tower body through the heating jacket.

7. The fragrance-based reaction device according to any one of claims 1 to 4 and 6, further comprising a steam generator having an outlet port, wherein the outlet port is in communication with the feed port.

8. The incense base reaction device according to any one of claims 1 to 4 and 6, wherein the tower body comprises a cavity formed by sequentially and hermetically connecting a top cover, a middle cavity and a bottom cavity, the feed inlet is positioned on the top cover, the discharge outlet is positioned on the bottom cavity, and the inner diameter of the bottom cavity is gradually reduced along the direction close to the discharge outlet.

9. The scent-based reaction device according to claim 8, wherein the middle chamber is a hollow cylinder with two open ends, and the bottom chamber is a hollow hemisphere in communication with one of the open ends of the middle chamber.

10. The scent-based reaction device according to claim 1, wherein each of said trays extends in a direction that is counter-perpendicular to the extension of said column.

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