CN214371351U - High-efficient roxburgh rose drying device - Google Patents

High-efficient roxburgh rose drying device Download PDF

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Publication number
CN214371351U
CN214371351U CN202022823731.XU CN202022823731U CN214371351U CN 214371351 U CN214371351 U CN 214371351U CN 202022823731 U CN202022823731 U CN 202022823731U CN 214371351 U CN214371351 U CN 214371351U
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drying
roxburgh rose
trays
hot air
cylinder body
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CN202022823731.XU
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谢泽华
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Guizhou Province Longli County Zeyang Ecological Technology Planting And Breeding Co ltd
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Guizhou Province Longli County Zeyang Ecological Technology Planting And Breeding Co ltd
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Abstract

The utility model discloses a high-efficiency roxburgh rose drying device, which comprises a cylindrical drying cylinder body, wherein the drying cylinder body is provided with a sealed drying cavity; the drying cylinder body comprises side coamings, a top cover and a bottom plate, wherein the top cover is positioned at the tops of the side coamings, and the bottom plate is positioned at the bottoms of the side coamings; the top cover is provided with a dry hot air outlet which is communicated with the drying cylinder body; the bottom plate is provided with a dry hot air inlet which is communicated with the drying cylinder body; a plurality of disc-shaped trays are arranged in the drying cavity, and grooves for placing roxburgh roses are formed in the trays; the trays are stacked in the vertical direction, the distance between every two adjacent trays is the same, and a specified distance is reserved between the edge of each tray and the inner wall of the side wall plate; the spiral guide plates are arranged on the inner wall of the side enclosing plate, and the number of turns of the guide plates is equal to that of the trays. The utility model discloses can be quick dry into the roxburgh rose with roxburgh rose, do not receive weather, environmental impact to simple structure, convenient to use, low price.

Description

High-efficient roxburgh rose drying device
Technical Field
The utility model relates to a high-efficient roxburgh rose drying device belongs to roxburgh rose processing equipment technical field.
Background
The roxburgh rose has high nutritive value and medicinal value, the content of vitamin C in the pulp of the roxburgh rose is higher than that of the fruits, the content of vitamin C in every 100 g of the pulp is 2054-2725 mg, and the content of vitamin C is 500 times higher than that of apples and pears, 100 times higher than that of oranges and 100 times higher than that of kiwi fruits, and 9 times higher than that of kiwi fruits; the content of vitamin P is extremely high, and every 100 g of pulp contains 5980-12895 mg of vitamin P, which is 120 times higher than that of oranges and 150 times higher than that of vegetables. The fruit king is called "Wei C Huang". It is also rich in vitamin B1, B2, E, K1 and other 16 trace elements, and has 46 times higher function than wild jujube and 2.4 times higher total flavone content than ginkgo leaf. Rosa roxburghii is also known as a green rare fruit with long life and cancer prevention, contains anti-cancer substances and SOD anti-aging substances, and also has the effects of strengthening spleen, promoting digestion, removing food stagnation, invigorating qi, and strengthening kidney. Therefore, the wild fruit tree with great development value is particularly emphasized in Japan and America since the research, development and utilization of the roxburgh rose once brought high tide in China and recently taken abroad. The rosa roxburghii tratt has a wide development prospect and should be protected and paid attention to. The dried roxburgh rose is fresh and sweet in taste and high in nutritive value, but is generally made in a drying mode at present and is greatly influenced by weather.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-efficient Rosa roxburghii drying device, can be quick dry into Rosa roxburghii, do not receive weather, environmental impact to simple structure, convenient to use, low price.
In order to solve the technical problem, the utility model discloses a following technical scheme:
a high-efficiency Rosa roxburghii drying device comprises a moisture extraction cylinder and a moisture filter; the dehumidifying cylinder comprises a cylindrical drying cylinder body, and the drying cylinder body is provided with a sealed drying cavity; the drying cylinder body comprises side coamings, a top cover and a bottom plate, wherein the top cover is positioned at the tops of the side coamings, and the bottom plate is positioned at the bottoms of the side coamings; the top cover is provided with a dry hot air outlet which is communicated with the drying cylinder body; the bottom plate is provided with a dry hot air inlet which is communicated with the drying cylinder body; a plurality of disc-shaped trays are arranged in the drying cavity, and grooves for placing roxburgh roses are formed in the trays; the trays are stacked in the vertical direction, the distance between every two adjacent trays is the same, and a specified distance is reserved between the edge of each tray and the inner wall of the side wall plate; spiral guide plates are arranged on the inner wall of the side enclosing plate, and the number of turns of the guide plates is equal to that of the trays; the wet filter comprises a shell, a heating resistance wire is arranged in the shell, a plurality of slots are formed in the shell, wet filter plates are arranged in the slots, a dry hot air inlet is communicated with an air outlet of the wet filter, and a dry hot air outlet (5) is communicated with an air inlet of the wet filter through an air pump.
In the efficient roxburgh rose drying device, the section of the guide plate is wedge-shaped, and the tip of the wedge-shaped guide plate faces the tray.
In the efficient roxburgh rose drying device, the bottom surface of the guide plate is obliquely arranged, and the lower end of the bottom surface of the guide plate is connected with the side coaming.
In the efficient roxburgh rose drying device, the distance between the edge of the tray and the inner wall of the side wall plate is equal to D, the width of the guide plate is equal to D, and D is more than or equal to 0.5D and more than or equal to 0.3D.
In the efficient roxburgh rose drying device, at least three support rods are arranged in the drying cavity, support blocks are fixed on the support rods, and the tray is placed on the support blocks.
In the efficient roxburgh rose drying device, the bottom plate is provided with the supporting seat, and the supporting rod is detachably arranged on the supporting seat.
In the efficient roxburgh rose drying device, the bottom of the tray is in a screen shape.
Compared with the prior art, the utility model discloses can be quick dry into the roxburgh rose with roxburgh rose, do not receive weather, environmental impact to simple structure, convenient to use, low price. The moisture filter is capable of generating heat and absorbing moisture. The moisture filter and the dehumidifying cylinder are communicated and form a loop, the air pump provides power for the flow of air between the moisture filter and the dehumidifying cylinder, and moisture in the dehumidifying cylinder is separated in the air flowing process. The dry hot air enters the drying cavity from the dry hot air inlet and is discharged from the dry hot air outlet, and the roxburgh rose is heated and the moisture in the roxburgh rose is volatilized in the process. Through addding the guide plate, can make in the hot dry wind blows the space between two trays, make more rosa roxburghii tratt can effectual contact hot dry wind to promote drying efficiency. And the bottom of the tray is in a screen mesh shape, which is beneficial to the rosa roxburghii tratt at the bottom of the tray to contact with the dry hot air, thereby ensuring that the drying effect is more uniform.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention;
figure 2 is a schematic diagram of an embodiment of a moisture extraction cartridge.
Reference numerals: 1-side coaming, 2-guide plate, 3-drying cylinder body, 4-top cover, 5-dry hot air outlet, 6-tray, 7-support rod, 8-bottom plate, 9-support seat, 10-moisture extraction cylinder, 11-dry hot air inlet, 12-moisture filter, 13-moisture filter, 14-slot and 15-air pump.
The present invention will be further described with reference to the accompanying drawings and the detailed description.
Detailed Description
Embodiment 1 of the utility model: a high-efficiency Rosa roxburghii drying device comprises a moisture extraction cylinder and a moisture filter; the dehumidifying cylinder comprises a cylindrical drying cylinder body 3, and the drying cylinder body 3 is provided with a sealed drying cavity; the drying cylinder body 3 comprises side enclosing plates 1, a top cover 4 and a bottom plate 8, wherein the top cover 4 is positioned at the tops of the side enclosing plates 1, and the bottom plate 8 is positioned at the bottoms of the side enclosing plates 1; the top cover 4 is provided with a dry hot air outlet 5, and the dry hot air outlet 5 is communicated with the drying cylinder body 3; a dry hot air inlet is arranged on the bottom plate 8 and is communicated with the drying cylinder body 3; a plurality of disc-shaped trays 6 are arranged in the drying cavity, and a groove body for placing the roxburgh rose is arranged on each tray 6; the trays 6 are stacked in the vertical direction, the distance between every two adjacent trays 6 is the same, and a specified distance is reserved between the edge of each tray 6 and the inner wall of each side enclosing plate 1; the inner wall of the side enclosing plate 1 is provided with spiral guide plates 2, and the number of turns of the guide plates 2 is equal to that of the trays 6; the moisture filter 12 comprises a shell, a heating resistance wire is arranged in the shell, a plurality of slots 14 are formed in the shell, moisture filtering plates 13 are arranged in the slots 14, a dry hot air inlet 11 is communicated with an air outlet of the moisture filter 12, and a dry hot air outlet 5 is communicated with an air inlet of the moisture filter 12 through an air pump 15.
Example 2: a high-efficiency Rosa roxburghii drying device comprises a moisture extraction cylinder and a moisture filter; the dehumidifying cylinder comprises a cylindrical drying cylinder body 3, and the drying cylinder body 3 is provided with a sealed drying cavity; the drying cylinder body 3 comprises side enclosing plates 1, a top cover 4 and a bottom plate 8, wherein the top cover 4 is positioned at the tops of the side enclosing plates 1, and the bottom plate 8 is positioned at the bottoms of the side enclosing plates 1; the top cover 4 is provided with a dry hot air outlet 5, and the dry hot air outlet 5 is communicated with the drying cylinder body 3; a dry hot air inlet is arranged on the bottom plate 8 and is communicated with the drying cylinder body 3; a plurality of disc-shaped trays 6 are arranged in the drying cavity, and a groove body for placing the roxburgh rose is arranged on each tray 6; the trays 6 are stacked in the vertical direction, the distance between every two adjacent trays 6 is the same, and a specified distance is reserved between the edge of each tray 6 and the inner wall of the side wall plate 1; the inner wall of the side enclosing plate 1 is provided with spiral guide plates 2, and the number of turns of the guide plates 2 is equal to that of the trays 6; the moisture filter 12 comprises a shell, a heating resistance wire is arranged in the shell, a plurality of slots 14 are formed in the shell, moisture filtering plates 13 are arranged in the slots 14, a dry hot air inlet 11 is communicated with an air outlet of the moisture filter 12, and a dry hot air outlet 5 is communicated with an air inlet of the moisture filter 12 through an air pump 15.
The cross-section of the baffle 2 is wedge-shaped with the tip of the wedge facing the tray 6. The bottom surface of the guide plate 2 is obliquely arranged, and the lower end of the bottom surface of the guide plate 2 is connected with the side wall plate 1. The distance between the edge of the tray 6 and the inner wall of the side wall plate 1 is equal to D, the width of the guide plate 2 is equal to D, and D is more than or equal to 0.5D and more than or equal to 0.3D.
Example 3: a high-efficiency Rosa roxburghii drying device comprises a moisture extraction cylinder and a moisture filter; the dehumidifying cylinder comprises a cylindrical drying cylinder body 3, and the drying cylinder body 3 is provided with a sealed drying cavity; the drying cylinder body 3 comprises side enclosing plates 1, a top cover 4 and a bottom plate 8, wherein the top cover 4 is positioned at the tops of the side enclosing plates 1, and the bottom plate 8 is positioned at the bottoms of the side enclosing plates 1; the top cover 4 is provided with a dry hot air outlet 5, and the dry hot air outlet 5 is communicated with the drying cylinder body 3; a dry hot air inlet is arranged on the bottom plate 8 and is communicated with the drying cylinder body 3; a plurality of disc-shaped trays 6 are arranged in the drying cavity, and a groove body for placing the roxburgh rose is arranged on each tray 6; the trays 6 are stacked in the vertical direction, the distance between every two adjacent trays 6 is the same, and a specified distance is reserved between the edge of each tray 6 and the inner wall of the side wall plate 1; the inner wall of the side enclosing plate 1 is provided with spiral guide plates 2, and the number of turns of the guide plates 2 is equal to that of the trays 6; the moisture filter 12 comprises a shell, a heating resistance wire is arranged in the shell, a plurality of slots 14 are formed in the shell, moisture filtering plates 13 are arranged in the slots 14, a dry hot air inlet 11 is communicated with an air outlet of the moisture filter 12, and a dry hot air outlet 5 is communicated with an air inlet of the moisture filter 12 through an air pump 15.
The cross-section of the baffle 2 is wedge-shaped with the tip of the wedge facing the tray 6. The bottom surface of the guide plate 2 is obliquely arranged, and the lower end of the bottom surface of the guide plate 2 is connected with the side wall plate 1. The distance between the edge of the tray 6 and the inner wall of the side wall plate 1 is equal to D, the width of the guide plate 2 is equal to D, and D is more than or equal to 0.5D and more than or equal to 0.3D.
At least three supporting rods 7 are arranged in the drying cavity, supporting blocks are fixed on the supporting rods 7, and the tray 6 is placed on the supporting blocks. The bottom plate 8 is provided with a supporting seat 9, and the supporting rod 7 is detachably arranged on the supporting seat 9. The bottom of the tray 6 is in a screen mesh shape.
The utility model discloses a theory of operation of embodiment: the moisture filter 12 is capable of generating heat and absorbing moisture. The moisture filter 12 and the dehumidifying cartridge 10 are communicated and form a loop, and the air pump 12 is used for supplying power to the air flow between the two, so that the moisture in the dehumidifying cartridge 10 is separated during the air flow. The dry hot air enters the drying cavity from the dry hot air inlet and is discharged from the dry hot air outlet 5, and the roxburgh rose is heated and the moisture in the roxburgh rose is volatilized in the process. Through addding the guide plate, can make in the hot dry wind blows the space between two trays 6, make more rosa roxburghii tratt can effectual contact hot dry wind to promote drying efficiency. And the bottom of the tray 6 is in a screen mesh shape, which is beneficial to the rosa roxburghii tratt at the bottom of the tray 6 to contact with the dry hot air, thereby ensuring that the drying effect is more uniform.

Claims (6)

1. A high-efficiency roxburgh rose drying device is characterized by comprising a moisture extraction cylinder and a moisture filter; the dehumidifying drum comprises a cylindrical drying drum body (3), and the drying drum body (3) is provided with a sealed drying cavity; the drying cylinder body (3) comprises side enclosing plates (1), a top cover (4) and a bottom plate (8), the top cover (4) is positioned at the top of the side enclosing plates (1), and the bottom plate (8) is positioned at the bottom of the side enclosing plates (1); the top cover (4) is provided with a dry hot air outlet (5), and the dry hot air outlet (5) is communicated with the drying cylinder body (3); a dry hot air inlet is arranged on the bottom plate (8) and is communicated with the drying cylinder body (3); a plurality of disc-shaped trays (6) are arranged in the drying cavity, and a groove body for placing the roxburgh rose is arranged on each tray (6); the trays (6) are stacked in the vertical direction, the distance between every two adjacent trays (6) is the same, and a specified distance is reserved between the edge of each tray (6) and the inner wall of each side enclosing plate (1); spiral guide plates (2) are arranged on the inner wall of the side enclosing plate (1), and the number of turns of the guide plates (2) is equal to that of the trays (6); the wet filter (12) comprises a shell, a heating resistance wire is arranged in the shell, a plurality of slots (14) are formed in the shell, wet filter plates (13) are arranged in the slots (14), a dry hot air inlet (11) is communicated with an air outlet of the wet filter (12), and a dry hot air outlet (5) is communicated with an air inlet of the wet filter (12) through an air pump (15).
2. A high efficiency drying apparatus for roxburgh rose according to claim 1, characterized in that the cross section of the deflector (2) is wedge-shaped, and the tip of the wedge is towards the tray (6).
3. The efficient roxburgh rose drying device according to claim 2, characterized in that the bottom surface of the guide plate (2) is arranged obliquely, and the lower end of the bottom surface of the guide plate (2) is connected with the side coaming (1).
4. A high-efficiency roxburgh rose drying device according to claim 3, characterized in that the distance between the edge of the tray (6) and the inner wall of the side coaming (1) is equal to D, the width of the guide plate (2) is equal to D, and 0.5D is more than or equal to D and more than or equal to 0.3D.
5. The efficient roxburgh rose drying device according to claim 4, wherein the drying cavity is internally provided with at least three support rods (7), support blocks are fixed on the support rods (7), and the tray (6) is placed on the support blocks.
6. The efficient roxburgh rose drying device according to claim 5, characterized in that the bottom plate (8) is provided with a support seat (9), and the support rod (7) is detachably arranged on the support seat (9).
CN202022823731.XU 2020-11-29 2020-11-29 High-efficient roxburgh rose drying device Active CN214371351U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022823731.XU CN214371351U (en) 2020-11-29 2020-11-29 High-efficient roxburgh rose drying device

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Application Number Priority Date Filing Date Title
CN202022823731.XU CN214371351U (en) 2020-11-29 2020-11-29 High-efficient roxburgh rose drying device

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CN214371351U true CN214371351U (en) 2021-10-08

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114440568A (en) * 2022-01-29 2022-05-06 上海塑研自动化科技有限公司 High-efficient drying cabinet

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114440568A (en) * 2022-01-29 2022-05-06 上海塑研自动化科技有限公司 High-efficient drying cabinet

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