A flavor processing apparatus having a flavor moisture treatment

By introducing an air extraction and absorption mechanism into the spice drying device, the problem of aroma cross-contamination during the spice drying process is solved, and the effects of uniform drying and moisture absorption of spices are achieved.

CN116294485BActive Publication Date: 2026-07-03JIANGXI SIPAISI PERFUME CHEM

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
JIANGXI SIPAISI PERFUME CHEM
Filing Date
2022-12-08
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing spice drying equipment lacks moisture absorption components, which makes it easy for the aroma of spices to cross-contaminate during the drying process.

Method used

A fragrance processing device with a suction mechanism and an absorption mechanism was designed. Moisture is extracted through a suction pipe and an air pump, and the remaining moisture is absorbed by a sponge plate. The combination of a stirring mechanism and a squeezing mechanism ensures that the fragrance is dried evenly and that moisture is absorbed.

Benefits of technology

It effectively absorbs moisture during the drying process, prevents the aroma of spices from mixing, and ensures that the spices are dried evenly and without being affected.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention relates to the field of incense making, and more particularly to a fragrance processing apparatus with a fragrance moisture treatment function. The invention provides a fragrance processing apparatus with a fragrance moisture treatment function capable of absorbing moisture from fragrances. The apparatus includes a housing, a mounting frame, a placement plate, and a dryer. The housing is connected to the top of the mounting frame, the placement plate is slidably connected within the housing, and the dryer is installed in the lower part of the housing. It also includes a suction mechanism and an absorption mechanism. The suction mechanism on the housing is used to extract moisture, and the absorption mechanism inside the housing is used to absorb remaining moisture. This invention uses an electric slide rail to move a slider, causing the sponge plate to move. During the movement of the sponge plate, the moisture generated during the drying of the fragrance is absorbed, thereby achieving the effect of moisture absorption and preventing the fragrance aroma from mixing with other flavors.
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Description

Technical Field

[0001] This invention relates to the field of incense making, and more particularly to an incense processing apparatus with an incense moisture treatment function. Background Technology

[0002] During the processing of spices, they need to be dried to remove the moisture. However, existing drying equipment lacks components that can absorb moisture, causing aromatic moisture to adhere to other spices during the drying process, affecting their aroma and making it difficult to meet people's drying requirements. Therefore, a new processing device needs to be designed.

[0003] Patent application CN210242284U discloses a fragrance drying device. A tray is placed on a rack, and a rotating shaft is inserted into a drive hole at the top of the drying chamber. The shaft passes through the drive hole and is inserted into a rotating hole on the tray, making it vertically fixed inside the drying chamber. Magnetic components on the end wall of a pusher plate are then inserted into a fixing groove on the rotating shaft. The pusher plate is installed by the mutual attraction between the magnetic components and the adsorption components. A drive rod drives the rotating shaft to rotate within the rotating hole. The pushing teeth at the bottom of the pusher plate turn over the material in the tray. This device dries the fragrance by turning over the fragrance through the pushing teeth. However, during the drying process, there is a lack of components to absorb moisture, which can easily cause the fragrance aroma to cross-contaminate.

[0004] We have designed a fragrance processing device that can absorb moisture from fragrances, thereby overcoming the lack of moisture-absorbing components in existing drying devices. Summary of the Invention

[0005] To address the shortcomings of existing technologies, this invention provides a fragrance processing apparatus capable of absorbing moisture from fragrances, thereby overcoming the drawback of existing drying apparatuses lacking components for absorbing moisture.

[0006] To achieve the above objectives, the present invention is implemented through the following solution: a fragrance processing device with fragrance moisture treatment, comprising a box, a mounting frame, a placement plate and a dryer, wherein the box is connected to the top of the mounting frame, the placement plate is uniformly slidably connected inside the box, and the dryer is installed between the lower part of the box and the mounting frame, and further comprising an air extraction mechanism and an absorption mechanism, wherein the air extraction mechanism is provided on the box for extracting water vapor, and the absorption mechanism is provided inside the box for absorbing residual water vapor.

[0007] As an improvement to the above solution, the air extraction mechanism includes an air extraction pipe, an air transfer frame, and an air pump. The air transfer frame is connected to the rear of the housing, and air extraction pipes are evenly connected inside the housing. The air extraction pipes pass through the housing and communicate with the air transfer frame. An air pump is installed at the rear of the air transfer frame.

[0008] As an improvement to the above solution, the absorption mechanism includes a sponge board, an electric slide rail, and a slider. The electric slide rail is evenly installed inside the box, and a slider is installed on each of the electric slide rails. Each slider is connected to a sponge board for absorbing water vapor.

[0009] As an improvement to the above solution, an agitation mechanism for stirring the spices is also included. The agitation mechanism includes a connecting shaft, a stirring rod, a contact block, a fixed column, a torsion spring, a push rod, a tension spring, and a telescopic rod. A fixed column is connected to the middle of the upper part of the placement plate. A connecting shaft is rotatably connected to each fixed column. A contact block is connected to the rear side of each connecting shaft. A stirring rod is connected to the front side of each connecting shaft. A torsion spring is connected between each fixed column and the rotating connecting shaft. The torsion spring is wound around the fixed column. A telescopic rod is connected to the right side of each slider on the left side. A push rod is connected to the lower side of each telescopic rod. A tension spring is connected between each slider on the left side and the telescopic rod. The tension spring is wound around the telescopic rod. When the slider on the left side moves outward, it causes the telescopic rod and the push rod to move to the left. The contact block, the connecting shaft, and the stirring rod rotate counterclockwise to stir the spices. The torsion spring twists and deforms. After the push rod moves to the left away from the contact block, the torsion spring returns to its original position, causing the contact block, the connecting shaft, and the stirring rod to rotate clockwise to stir the spices.

[0010] As an improvement to the above solution, it also includes an extrusion mechanism for extruding the sponge board. The extrusion mechanism includes a fixed frame and a rotating wheel. Fixed frames are evenly connected to both the left and right sides of the box, and rotating wheels are rotatably connected to each fixed frame.

[0011] As an improvement to the above solution, sponges are connected to the outer side of the rotating wheel to absorb moisture from the sponge plate.

[0012] As an improvement to the above solution, a rinsing mechanism for rinsing the placement plate is also included. The rinsing mechanism includes a perforated plate, a water inlet, and a nozzle. The perforated plates are connected to the left and right sides of the front of the placement plate, the nozzles are connected to the rear of the perforated plates, and the water inlets are connected to the front of the perforated plates.

[0013] As an improvement to the above solution, a scraping mechanism for scraping impurities on the placement plate is also included. The scraping mechanism includes a support plate, a handle and grid blocks. Each placement plate is equipped with a support plate, a handle is connected to the top center of each support plate, and grid blocks are evenly connected to the bottom of each support plate.

[0014] The advantages of this invention are: 1. This invention uses an electric slide rail to drive the slider to move, which causes the sponge board to move. During the movement of the sponge board, the moisture generated during the drying of the spices is absorbed, thereby achieving the effect of absorbing moisture and avoiding cross-contamination of the aroma of the spices.

[0015] 2. By moving the slider to the left, the telescopic rod moves to the left, causing the push rod to move to the left. This causes the contact block, stirring rod, and connecting shaft to rotate counterclockwise to agitate the spices. Then, the contact block, stirring rod, and connecting shaft rotate clockwise to agitate the spices, thus achieving the agitation effect and ensuring that the spices are dried evenly.

[0016] 3. By connecting the water pipe to the water inlet, water flows through the inlet into the nozzle, and the nozzle sprays water onto the placement plate, thus rinsing the plate and preventing the fragrance on the placement plate from affecting the perfume. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0018] Figure 2 This is a three-dimensional structural diagram of the spice processing apparatus of the present invention.

[0019] Figure 3 This is a three-dimensional structural diagram of the air extraction mechanism of the present invention.

[0020] Figure 4 This is a cross-sectional three-dimensional structural diagram of the air extraction mechanism of the present invention.

[0021] Figure 5 This is a first-view three-dimensional structural diagram of the absorption mechanism of the present invention.

[0022] Figure 6 This is a two-dimensional structural diagram of the absorption mechanism of the present invention from a second perspective.

[0023] Figure 7 This is a three-dimensional structural diagram of the stirring mechanism of the present invention.

[0024] Figure 8 This is a cross-sectional perspective view of the stirring mechanism of the present invention.

[0025] Figure 9 This is an enlarged three-dimensional structural diagram of the stirring mechanism of the present invention.

[0026] Figure 10 This is a three-dimensional structural diagram of the extrusion mechanism of the present invention.

[0027] Figure 11 This is a cross-sectional perspective view of the extrusion mechanism of the present invention.

[0028] Figure 12 This is an enlarged three-dimensional structural diagram of the extrusion mechanism of the present invention.

[0029] Figure 13 This is a three-dimensional structural diagram of the rinsing mechanism of the present invention.

[0030] Figure 14This is a cross-sectional perspective view of the rinsing mechanism of the present invention.

[0031] Figure 15 This is a three-dimensional structural diagram of the scraping mechanism of the present invention.

[0032] Figure 16 This is an enlarged three-dimensional structural diagram of the scraping mechanism of the present invention.

[0033] The meanings of the reference numerals in the attached diagram are as follows: 1. Box body; 11. Mounting rack; 12. Placement plate; 13. Dryer; 2. Air extraction mechanism; 21. Air extraction pipe; 22. Air rotating frame; 23. Air pump; 3. Absorption mechanism; 31. Sponge board; 32. Electric slide rail; 33. Slider; 4. Agitation mechanism; 41. Connecting shaft; 42. Agitating rod; 43. Contact block; 44. Fixed column; 45. Torsion spring; 46. Push rod; 47. Tension spring; 48. Telescopic rod; 5. Extrusion mechanism; 51. Fixed frame; 52. Rotary wheel; 6. Washing mechanism; 61. Perforated plate; 62. Water inlet; 63. Nozzle; 7. Scraping mechanism; 71. Support plate; 72. Handle; 73. Grid block. Detailed Implementation

[0034] The present invention will now be further described with reference to the accompanying drawings and specific embodiments:

[0035] Example 1

[0036] A fragrance processing apparatus with fragrance moisture treatment, now referenced Figure 1 and Figure 2 It includes a box body 1, a mounting frame 11, a placement plate 12, a dryer 13, an exhaust mechanism 2, and an absorption mechanism 3. The box body 1 is welded to the top of the mounting frame 11. Three placement plates 12 are evenly and slidably connected inside the box body 1. The dryer 13 is installed between the lower part of the box body 1 and the mounting frame 11. The exhaust mechanism 2 is provided on the box body 1, and the absorption mechanism 3 is provided inside the box body 1.

[0037] For reference Figure 1 , Figure 3 and Figure 4 The air extraction mechanism 2 includes an air extraction pipe 21, an air transfer frame 22, and an air pump 23. The air transfer frame 22 is welded to the rear of the housing 1. Three air extraction pipes 21 are evenly connected inside the housing 1. The air extraction pipes 21 pass through the housing 1 and communicate with the air transfer frame 22. The air pump 23 is installed at the rear of the air transfer frame 22.

[0038] For reference Figure 1 , Figure 5 and Figure 6The absorption mechanism 3 includes a sponge plate 31, an electric slide rail 32, and a slider 33. Three electric slide rails 32 are evenly fixed inside the housing 1 by bolts. Two sliders 33 are installed on each electric slide rail 32. There are six sliders 33. Each slider 33 is connected to a sponge plate 31. There are six sponge plates 31.

[0039] When spices need to be dried, this spice processing device with spice moisture treatment can be used. First, the chamber 1 is opened, and then the spices are laid on the placement plate 12. After placement, the chamber 1 is closed, and the dryer 13, air pump 23, and electric slide rail 32 are started. The dryer 13 dries the spices on the placement plate 12. After the air pump 23 is started, the water vapor generated during drying is extracted through the air extraction pipe 21 and the air rotating frame 22. The electric slide rail 32 drives the slider 33 to move outward, causing the sponge plate 31 to move outward. When the slider 33 moves to the appropriate position, the electric slide rail 32 is controlled to drive the slider 33 to move inward, causing the sponge plate 31 to move inward. Through the left and right movement of the sponge plate 31, the remaining water vapor in the chamber comes into contact with the sponge plate 31, and the sponge plate 31 absorbs the water vapor. This achieves the absorption effect, preventing the fragrant moisture from flowing upwards and causing the aroma of the spices to cross-contaminate. After the spices are dried, the dryer 13 and the air pump 23 are turned off. When it is no longer necessary to absorb moisture, the sponge board 31 moves outwards to the appropriate position for the last time, and the moisture absorbed inside the sponge board 31 is squeezed out, so that the sponge board 31 is squeezed dry. When the sponge board 31 moves inwards to the appropriate position again, the electric slide rail 32 is turned off. Then, the box 1 is opened, and the placement plate 12 is moved forward manually, so that the dried spices are pulled out. When the placement plate 12 moves forward away from the box 1, the dried spices are collected. After collection, the placement plate 12 is brought into contact with the box 1, and the placement plate 12 is moved backwards manually. When the placement plate 12 moves backwards to the appropriate position, the box 1 is closed.

[0040] Example 2

[0041] Based on Example 1, now refer to Figure 1 , Figure 7 , Figure 8 and Figure 9It also includes a stirring mechanism 4, which includes a connecting shaft 41, stirring rods 42, contact blocks 43, fixed posts 44, torsion springs 45, push rods 46, tension springs 47, and telescopic rods 48. Fixed posts 44 are connected to the upper middle part of the placement plate 12. There are three fixed posts 44, and each fixed post 44 is rotatably connected to a connecting shaft 41. Contact blocks 43 are connected to the rear side of each connecting shaft 41. There are three contact blocks 43. Stirring rods 42 are connected to the front side of each connecting shaft 41. Fixed posts 44 are rotatably connected to each fixed post 44. Torsion springs 45 are connected between the column 44 and the connecting shaft 41 that rotates on it. The torsion springs 45 are wound around the fixed column 44. There are three torsion springs 45. Telescopic rods 48 are connected to the right side of the slider 33 on the left. There are three telescopic rods 48. Push rods 46 are welded to the lower side of each telescopic rod 48. The push rods 46 are in contact with the contact block 43. There are three push rods 46. Tension springs 47 are connected between the slider 33 on the left and the telescopic rods 48. There are three tension springs 47. The tension springs 47 are wound around the telescopic rods 48.

[0042] For reference Figure 1 , Figure 10 , Figure 11 and Figure 12 It also includes a squeezing mechanism 5, which includes a fixed frame 51 and a rotating wheel 52. Three sets of fixed frames 51 are evenly welded on both sides of the box body 1. Each set consists of two fixed frames 51, and there are twelve fixed frames 51. Each fixed frame 51 is rotatably connected to two sets of rotating wheels 52, and each set consists of two rotating wheels 52. After the sponge board 31 moves, it comes into contact with the rotating wheel 52. The outer side of the rotating wheel 52 is connected to a sponge for absorbing water vapor on the sponge board 31.

[0043] For reference Figure 1 , Figure 13 and Figure 14 It also includes a rinsing mechanism 6, which includes a perforated plate 61, a water inlet 62, and a nozzle 63. The left and right sides of the front of the placement plate 12 are welded with perforated plates 61, and there are six perforated plates 61. The rear side of the perforated plates 61 is connected to a nozzle 63, and there are six nozzles 63. The front side of the perforated plates 61 is connected to a water inlet 62, and there are six water inlets 62.

[0044] For reference Figure 1 , Figure 15 and Figure 16 It also includes a scraping mechanism 7, which includes a support plate 71, a handle 72 and a grid block 73. Each of the three support plates 71 is placed on the placement plate 12. Each of the three support plates 71 has a handle 72 welded to the top center of each support plate 71. Each of the three support plates 71 has a grid block 73 welded evenly to the bottom of each support plate 71. The grid block 73 is in contact with the placement plate 12.

[0045] The left slider 33 moves outward, causing the telescopic rod 48 to move to the left, which in turn causes the push rod 46 to move to the left. This causes the contact block 43 and the connecting shaft 41 to rotate counterclockwise, which in turn causes the stirring rod 42 to rotate counterclockwise. The torsion spring 45 is torsional and deformed. When the push rod 46 moves to the left away from the contact block 43, the torsion spring 45 returns to its original position, causing the connecting shaft 41 to rotate clockwise. This causes the stirring rod 42 and the contact block 43 to rotate clockwise. The rotation of the stirring rod 42 agitates the spices, making them dry evenly. The left slider 33 moves inward, causing the telescopic rod 48 to move to the right, which in turn causes the push rod 46 to move to the right. When the push rod 46 moves to the right and contacts the contact block 43, it moves upward adaptively during its rightward movement. The telescopic rod 48 shortens, and the tension spring 47 is compressed. When the push rod 46 moves to the right away from the contact block 43, the tension spring 47 returns to its original position, causing the telescopic rod 48 to extend, which in turn causes the push rod 46 to move downward.

[0046] When the sponge board 31 moves outward and comes into contact with the rotating wheel 52, the rotating wheel 52 rotates, and the sponge on the rotating wheel 52 absorbs the water vapor absorbed inside the sponge board 31, causing the sponge board 31 to be squeezed dry. The sponge board 31 moves inward and drives the rotating wheel 52 to rotate in the opposite direction, thereby achieving a continuous squeezing effect and making the sponge board 31 absorb water vapor better.

[0047] After the dried spices are collected, the water pipe is connected to the water inlet 62, so that water flows through the water inlet 62 and the perforated plate 61 into the nozzle 63. The nozzle 63 sprays water onto the placement plate 12, thus rinsing the placement plate 12 and preventing the fragrance on the placement plate 12 from affecting the drying effect of the spices. After rinsing, the water pipe is pulled out from the water inlet 62, and then the placement plate 12 is placed into the box 1 according to the above steps.

[0048] During the rinsing process of the placement plate 12, the handle 72 can be manually moved to the right, causing the support plate 71 and grid 73 to move to the right. Once the grid 73 has moved to the right to the appropriate position, the handle 72 can be manually moved upwards, causing the support plate 71 and grid 73 to move upwards. When the grid 73 moves upwards away from the placement plate 12, the grid 73 can be inserted into the right side of the placement plate 12. Then, the handle 72 can be moved to the right again, causing the support plate 71 and grid 73 to move to the right. During the movement of the grid 73 to the right, the residual impurities on the placement plate 12 are scraped off, thus achieving the scraping effect. Once the grid 73 has moved to the appropriate position, the handle 72 can be moved upwards as described above. When the grid 73 moves upwards away from the placement plate 12, the grid 73 can be inserted into the initial position.

[0049] For those skilled in the art, various other corresponding changes and modifications can be made based on the technical solutions and concepts described above, and all such changes and modifications should fall within the protection scope of the claims of this invention.

Claims

1. A fragrance processing apparatus with fragrance moisture treatment, comprising a housing (1), a mounting frame (11), a placement plate (12), and a dryer (13), wherein the housing (1) is connected to the top of the mounting frame (11), the placement plate (12) is uniformly slidably connected inside the housing (1), and the dryer (13) is installed between the lower part of the housing (1) and the mounting frame (11), characterized in that, It also includes a vacuuming mechanism (2) and an absorption mechanism (3). The box (1) is equipped with a vacuuming mechanism (2) for extracting water vapor, and the box (1) is equipped with an absorption mechanism (3) for absorbing the remaining water vapor. The absorption mechanism (3) includes a sponge board (31), an electric slide rail (32) and a slider (33). An electric slide rail (32) is evenly installed above each layer of the placement board (12) in the box (1). A slider (33) is installed on each electric slide rail (32), and a sponge board (31) for absorbing water vapor is connected to each slider (33). It also includes a stirring mechanism (4) for stirring spices. The stirring mechanism (4) includes a connecting shaft (41), a stirring rod (42), a contact block (43), a fixed column (44), a torsion spring (45), a push rod (46), a tension spring (47), and a telescopic rod (48). A fixed column (44) is connected to the middle of the upper part of the placement plate (12). A connecting shaft (41) is rotatably connected to each fixed column (44). A contact block (43) is connected to the rear side of each connecting shaft (41). A stirring rod (42) is connected to the front side of each connecting shaft (41). A torsion spring (45) is connected between the fixed column (44) and the connecting shaft (41) rotating on it. The torsion spring (45) is wound around the fixed column (44). The slider (33) on the left side is on the right side. Telescopic rods (48) are connected to both sides, and push rods (46) are connected to the lower side of each telescopic rod (48). The push rods (46) contact the contact block (43). A tension spring (47) is connected between the slider (33) on the left side and the telescopic rod (48). The tension spring (47) is wrapped around the telescopic rod (48). When the slider (33) on the left side moves outward, it drives the telescopic rod (48) and the push rod (46) to move to the left. The contact block (43), the connecting shaft (41), and the stirring rod (42) rotate counterclockwise to stir the spices. The torsion spring (45) twists and deforms. After the push rod (46) moves to the left away from the contact block (43), the torsion spring (45) resets and drives the contact block (43), the connecting shaft (41), and the stirring rod (42) to rotate clockwise to stir the spices. It also includes a pressing mechanism (5) for pressing the sponge board (31). The pressing mechanism (5) includes a fixed frame (51) and a rotating wheel (52). The fixed frame (51) is evenly connected to both sides of the box (1). The rotating wheel (52) is rotatably connected to the inner side of the fixed frame (51). Sponges are connected to the outer side of the rotating wheel (52) to absorb water vapor on the sponge plate (31); The air extraction mechanism (2) includes an air extraction pipe (21), an air transfer frame (22) and an air pump (23). The air transfer frame (22) is connected to the rear of the box (1). The air extraction pipe (21) is evenly connected above the periphery of each layer of the placement plate (12) inside the box (1). The air extraction pipe (21) passes through the box (1) and communicates with the air transfer frame (22). The air pump (23) is installed at the rear of the air transfer frame (22).

2. A fragrance processing apparatus with fragrance moisture treatment according to claim 1, characterized in that, It also includes a rinsing mechanism (6) for rinsing the placement plate (12). The rinsing mechanism (6) includes a perforated plate (61), a water inlet (62) and a nozzle (63). The perforated plate (61) is connected to the left and right sides of the front part of the placement plate (12). The nozzle (63) is connected to the rear side of the perforated plate (61). The water inlet (62) is connected to the front side of the perforated plate (61).

3. A fragrance processing apparatus with fragrance moisture treatment according to claim 2, characterized in that, It also includes a scraping mechanism (7) for scraping impurities on the placement plate (12). The scraping mechanism (7) includes a support plate (71), a handle (72) and grid blocks (73). Support plates (71) are placed on the placement plate (12). A handle (72) is connected to the middle of the top of each support plate (71). Grid blocks (73) are evenly connected to the bottom of each support plate (71).