CN112460953A

CN112460953A - Chrysanthemum production is with spiral stir-fry moisture removal device that completes

Info

Publication number: CN112460953A
Application number: CN202011361800.8A
Authority: CN
Inventors: 廖言
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-28
Filing date: 2020-11-28
Publication date: 2021-03-09

Abstract

The invention relates to a chrysanthemum processing device, in particular to a spiral stir-frying water removing and enzyme deactivating device for chrysanthemum production, which comprises a supporting base and the like; the layer board is fixed to be located one side that supports the base, and the feeder hopper is fixed to be located the one end that supports the base, and the upside that supports the base is fixed to be located to the mount pad, and outer slewing mechanism locates on supporting base and the mount pad, and inner slewing mechanism locates on supporting the base and be connected with outer slewing mechanism. The chrysanthemum deactivation device can perform deactivation operation on chrysanthemum in the chrysanthemum conveying process, can remove moisture carried in the chrysanthemum more quickly, can suck vapor generated in deactivation to the outside of the device in time, and can continuously stir chrysanthemum with different sizes to heat the chrysanthemum more uniformly.

Description

Chrysanthemum production is with spiral stir-fry moisture removal device that completes

Technical Field

The invention relates to a chrysanthemum processing device, in particular to a spiral stir-frying moisture removing and enzyme deactivating device for chrysanthemum production.

Background

The chrysanthemum is subjected to enzyme deactivation, which is a pretreatment procedure before chrysanthemum drying operation, the color of the chrysanthemum subjected to enzyme deactivation can be kept unchanged in the subsequent drying process, and the fragrance contained in the chrysanthemum can be better retained. The common water removing mode of chrysanthemum in the prior art comprises the following steps: the microwave enzyme deactivation, high-temperature cooking and enzyme deactivation machine has the advantages that although the microwave enzyme deactivation speed is high, the enzyme deactivation quality of the chrysanthemum can be improved to a certain extent, the microwave enzyme deactivation needs higher equipment purchase cost, and can bring greater burden to small and medium chrysanthemum processing plants; the high-temperature cooking mode needs to consume more time, so that the yield of the chrysanthemum finished product is difficult to improve; the existing enzyme deactivating machine mainly utilizes the high-temperature cooking principle to perform enzyme deactivating operation on the chrysanthemum.

But current de-enzyming equipment can't be outside the timely discharge equipment of vapor that the in-process produced that completes in to the chrysanthemum when de-enzyming, can drip on the chrysanthemum after the vapor liquefaction, still contain more moisture in the chrysanthemum that leads to completing, unfavorable stoving time that shortens the chrysanthemum later stage, and current de-enzyming machine can't control a large amount of chrysanthemums and get into the equipment simultaneously and heat the de-enzyming, lead to the same batch of chrysanthemum to appear being heated the condition that the time length is inconsistent that completes, consequently, the chrysanthemum quality after leading to completing is uneven easily.

Disclosure of Invention

Based on this, it is necessary to provide one kind and to carry out the operation that completes to the chrysanthemum in chrysanthemum transfer process, and the moisture that enables to carry in the chrysanthemum gets rid of the ground more fast to can in time absorb the device with the vapor that produces when completing outside, can constantly stir the chrysanthemum of equidimension not simultaneously, make the chrysanthemum production that the chrysanthemum is heated more even turn over stir-fry moisture with spiral and get the device that completes.

The technical scheme of the invention is as follows: the utility model provides a chrysanthemum production is with spiral stir-fry moisture removal device that completes, is including supporting base, layer board, feeder hopper, mount pad, outer slewing mechanism and internal rotation mechanism, and the layer board is fixed to be located one side that supports the base, and the feeder hopper is fixed to be located the one end that supports the base, and the mount pad is fixed to be located the upside that supports the base, and outer slewing mechanism locates on supporting base and the mount pad, and internal rotation mechanism locates on the support base and be connected with outer slewing mechanism.

As a preferred technical scheme of the invention, the external rotating mechanism comprises a motor, a power shaft, external rotating gears, an external rotating heating cylinder and external rotating gear rings, the motor is fixedly arranged on the upper side of the supporting plate, the power shaft is arranged on the supporting base through a bearing, one end of the power shaft is fixedly connected with an output shaft of the motor, the power shaft is fixedly provided with two external rotating gears, the external rotating heating cylinder is rotatably arranged on the supporting base and the mounting base and is rotatably connected with the feeding hopper, the external rotating heating cylinder is fixedly provided with two external rotating gear rings, and the two external rotating gear rings are respectively meshed with the two external rotating gears.

As a preferred technical scheme of the invention, the inner rotating mechanism comprises a power gear, a first transmission shaft, a first transmission gear, a hollow rotating shaft, a rotating gear, conveying spiral racks and a pushing block, wherein the power gear is fixedly arranged at one end of the power shaft, the first transmission shaft is arranged at one end of the supporting base through a bearing, the first transmission gear is fixedly arranged on the first transmission shaft and is meshed with the power gear, the hollow rotating shaft is arranged on the supporting base through a bearing and penetrates through the feeding hopper and the outer rotating heating cylinder, the rotating gear is fixedly arranged at one end of the hollow rotating shaft and is meshed with the first transmission gear, the hollow rotating shaft is fixedly provided with two conveying spiral racks, and the pushing block is fixedly arranged on each of the two conveying.

As a preferred technical scheme, the feeding device further comprises a closing mechanism, the closing mechanism is arranged on the feeding hopper, the rotating rods, the central disc, the closing plates and the torsion springs are arranged on the feeding hopper in a rotating mode, the rotating rods are arranged on the feeding hopper in a rotating mode, the central disc is arranged at one end of each rotating rod in a rotating mode, the closing plates are fixedly arranged on the rotating rods, two adjacent closing plates are in contact, the torsion springs are arranged between the other ends of the rotating rods and the outer side of the feeding hopper, and the rotating rods penetrate through the.

The invention also comprises an absorbing mechanism which is arranged on the supporting base and the mounting base, wherein the absorbing mechanism comprises a second transmission shaft, a second transmission gear, an absorbing shell, a cross frame, a rotating shaft, bevel gears and rotating fan blades, the second transmission shaft is arranged on the supporting base through bearings, the second transmission gear is fixedly arranged on the second transmission shaft and is meshed with one of the outer rotating gear rings, the absorbing shell is fixedly arranged on the mounting base and is communicated with the outer rotating heating cylinder, the cross frame is fixedly arranged on the upper side of the absorbing shell, the second transmission shaft penetrates through the cross frame, the rotating shaft is arranged on the cross frame through bearings, one bevel gear is fixedly arranged at one end of the second transmission shaft, the other bevel gear is fixedly arranged at the upper end of the rotating shaft, the two bevel gears are mutually meshed, the rotating fan blades are fixedly arranged at the lower end of the rotating.

The invention further comprises a stretching adjusting mechanism, the stretching adjusting mechanism is arranged on the hollow rotating shaft and comprises a screw rod, a handle, moving blocks, fixing rings and a connecting rod, the screw rod is rotatably arranged in the hollow rotating shaft, the handle is fixedly arranged at one end of the screw rod, the plurality of moving blocks are slidably arranged on the screw rod, the screw rod is fixedly provided with the two fixing rings, one fixing ring is fixedly connected with the moving block at the rightmost end of the screw rod, the other fixing ring is fixedly connected with one moving block at the middle part of the screw rod, the plurality of moving blocks are fixedly provided with the connecting rods, and the two adjacent connecting rods are rotatably connected.

Compared with the prior art, the invention has the following advantages: according to the chrysanthemum enzyme deactivating device, the feeding hole of the feeding hopper is controlled through the closing mechanism, so that a large number of chrysanthemums can enter the feeding hopper at one time, the condition that the heated enzyme deactivating time of the chrysanthemums is inconsistent due to the fact that the chrysanthemums enter the feeding hopper intermittently is avoided, and adverse effects on the enzyme deactivating effect of the chrysanthemums are avoided; the chrysanthemum in the feeding hopper can be conveyed to the external rotating heating cylinder through the two conveying spiral frames for heating and water-removing operation, and the conveying spiral frames can also drive the chrysanthemum to turn over, so that the chrysanthemum is prevented from being stacked together in the external rotating heating cylinder, the external rotating heating cylinder can conveniently convey heat to a large amount of chrysanthemum, and moisture carried in the chrysanthemum can be removed more quickly; the absorbing mechanism can absorb the vapor generated in the chrysanthemum green removing process from the outer rotary heating cylinder in time, so that the condition that the vapor is detained in the outer rotary heating cylinder and is liquefied is prevented, and the moisture removed can be effectively prevented from falling back onto the chrysanthemum.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic cross-sectional view of a first embodiment of the present invention.

Fig. 5 is a schematic cross-sectional view of the present invention at a.

Fig. 6 is a schematic cross-sectional view of a second embodiment of the present invention.

FIG. 7 is a third cross-sectional structural view of the present invention.

Wherein the figures include the following reference numerals: 1. the device comprises a supporting base, 2 parts of a supporting plate, 3 parts of a feeding hopper, 4 parts of a mounting seat, 5 parts of an outer rotating mechanism, 5-1 parts of a motor, 5-2 parts of a power shaft, 5-3 parts of an outer rotating gear, 5-4 parts of an outer rotating heating cylinder, 5-5 parts of an outer rotating gear ring, 6-inner rotating mechanism, 6-1 parts of a power gear, 6-2 parts of a first transmission shaft, 6-3 parts of a first transmission gear, 6-4 parts of a first transmission gear, a hollow rotating shaft, 6-5 parts of a rotating gear, 6-6 parts of a conveying spiral rack, 6-7 parts of a pushing block, 7 parts of a closing mechanism, 7-1 parts of a rotating rod, 7-2 parts of a central disk, 7-3 parts of a closing plate, 7-4 parts of a torsion spring, 8 parts of a suction mechanism, 8-1 parts of a second transmission, The device comprises a suction shell, 8-4 parts of a transverse frame, 8-5 parts of a rotating shaft, 8-6 parts of a bevel gear, 8-7 parts of a rotating fan blade, 9 parts of a stretching adjusting mechanism, 9-1 parts of a screw rod, 9-2 parts of a handle, 9-3 parts of a moving block, 9-4 parts of a fixing ring, 9-5 parts of a connecting rod.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Example 1

The utility model provides a chrysanthemum production is with spiral stir-fry moisture removal device that completes, as shown in fig. 1-7, including supporting base 1, layer board 2, feeder hopper 3, mount pad 4, outer slewing mechanism 5 and internal rotation mechanism 6, layer board 2 is fixed to be located one side of supporting base 1, feeder hopper 3 is fixed to be located the one end that is close with layer board 2 on supporting base 1, mount pad 4 is fixed to be located the upside of supporting base 1, outer slewing mechanism 5 is located on supporting base 1 and mount pad 4, internal rotation mechanism 6 is located and is supported on base 1 and be connected with outer slewing mechanism 5, outer slewing mechanism 5 can carry out the fast operation that completes to a large amount of chrysanthemums with the cooperation of internal rotation mechanism 6.

The external rotating mechanism 5 comprises a motor 5-1, a power shaft 5-2, an external rotating gear 5-3, an external rotating heating cylinder 5-4 and an external rotating gear ring 5-5, the motor 5-1 is fixedly arranged at the upper side of the supporting plate 2, the power shaft 5-2 is arranged on the supporting base 1 through a bearing, one end of the power shaft 5-2 is fixedly connected with an output shaft of the motor 5-1, two external rotating gears 5-3 are fixedly arranged on the power shaft 5-2, the external rotating heating cylinder 5-4 is rotatably arranged on the supporting base 1 and the mounting seat 4, the external rotating heating cylinder 5-4 is rotatably connected with a feed hopper 3, the feed hopper 3 can guide a large amount of chrysanthemum into the external rotating heating cylinder 5-4, the external rotating heating cylinder 5-4 can heat and de-enzyme a large amount of chrysanthemum, the external rotating heating cylinder 5-4 is fixedly provided with two external rotating gear rings 5-5, the two external rotating gear rings 5-5 are respectively meshed with the two external rotating gears 5-3, and the power shaft 5-2 can drive the external rotating heating cylinder 5-4 to rotate through the external rotating gear 5-3 and the external rotating gear rings 5-5, so that the external rotating heating cylinder 5-4 can transfer heat to a large number of chrysanthemum flowers.

The internal rotating mechanism 6 comprises a power gear 6-1, a transmission shaft I6-2, a transmission gear I6-3, a hollow rotating shaft 6-4, a rotating gear 6-5, a conveying spiral frame 6-6 and a pushing block 6-7, wherein the power gear 6-1 is fixedly arranged at one end of the power shaft 5-2 close to the motor 5-1, the transmission shaft I6-2 is arranged at one end of the supporting base 1 through a bearing and is positioned above the power shaft 5-2, the transmission gear I6-3 is fixedly arranged on the transmission shaft I6-2 and is meshed with the power gear 6-1, the hollow rotating shaft 6-4 is arranged on the supporting base 1 through a bearing, the hollow rotating shaft 6-4 penetrates through the feeding hopper 3 and the external rotating heating cylinder 5-4, the rotating gear 6-5 is fixedly arranged at one end of the hollow rotating shaft 6-4 and is meshed with the transmission gear I6, two conveying spiral frames 6-6 are fixedly arranged on the hollow rotating shaft 6-4, the two conveying spiral frames 6-6 can convey the chrysanthemum and can drive the chrysanthemum to turn over in the conveying process, and pushing blocks 6-7 are fixedly arranged on the two conveying spiral frames 6-6.

The automatic feeding device is characterized by further comprising a closing mechanism 7, the closing mechanism 7 is arranged on the feeding hopper 3, a rotating rod 7-1, a central disc 7-2, closing plates 7-3 and a torsion spring 7-4 are arranged on the feeding hopper 3, eight rotating rods 7-1 are arranged on the feeding hopper 3 in a rotating mode, the central disc 7-2 is arranged at one end of each of the eight rotating rods 7-1 in a rotating mode, the central disc 7-2 is located in the feeding hopper 3, the closing plates 7-3 are fixedly arranged on the rotating rods 7-1 and are in contact with the two adjacent closing plates 7-3, the closing plates 7-3 can be opened and closed automatically according to the stress, the torsion spring 7-4 is arranged between the other end of each rotating rod 7-1 and the outer side of the feeding hopper 3.

The application mode is as follows: workers firstly pour a large amount of chrysanthemum into the feed hopper 3, when the large amount of chrysanthemum falls onto the closed plates 7-3, the closed plates 7-3 swing downwards due to the large gravity, the two adjacent closed plates 7-3 are separated, and at the moment, a large amount of chrysanthemum can enter the feed hopper 3; when all the chrysanthemum enters the feed hopper 3, the rotating rod 7-1 can drive the closing plate 7-3 to swing and reset under the assistance of the torsion spring 7-4, so that the feed inlet of the feed hopper 3 can be blocked. Because the closing plate 7-3 can swing downwards only under the action of larger gravity, the closing plate 7-3 cannot be opened when a small amount of chrysanthemum falls onto the closing plate 7-3, and the condition that the chrysanthemum enzyme deactivation duration is inconsistent because the chrysanthemum enters the feed hopper 3 intermittently can be avoided.

A worker starts the motor 5-1 to rotate forwards, the outer rotating heating cylinder 5-4 is electrified, and then the worker places a collecting frame at the right end of the outer rotating heating cylinder 5-4. The motor 5-1 can drive the two external rotating gears 5-3 and the power gear 6-1 to rotate forward through the power shaft 5-2, and the two external rotating gears 5-3 can drive the external rotating heating cylinder 5-4 to rotate backward through the two external rotating gear rings 5-5; the power gear 6-1 can drive the rotating gear 6-5 and the hollow rotating shaft 6-4 to rotate positively through the first transmission gear 6-3, the hollow rotating shaft 6-4 can drive the two conveying spiral frames 6-6 to rotate positively, at the moment, the conveying spiral frames 6-6 between the feeding hopper 3 and the outer rotating heating cylinder 5-4 can convey the chrysanthemum flowers in the feeding hopper 3 into the outer rotating heating cylinder 5-4, and the outer rotating heating cylinder 5-4 can heat and de-enzym the chrysanthemum flowers when the chrysanthemum flowers enter the outer rotating heating cylinder 5-4. Because the two conveying spiral frames 6-6 can drive the chrysanthemum to rotate reversely in the process of conveying the chrysanthemum, the chrysanthemum can be continuously overturned in the external rotating heating cylinder 5-4 and is contacted with the external rotating heating cylinder 5-4, and the moisture carried in the chrysanthemum can be removed more quickly. After the chrysanthemum is subjected to water-removing operation, the conveying spiral frame 6-6 positioned at the right part of the hollow rotating shaft 6-4 can convey the chrysanthemum into the collecting frame for collection.

Example 2

On the basis of the embodiment 1, as shown in fig. 1-3 and fig. 6, the steam-absorbing device further comprises an absorbing mechanism 8 capable of absorbing steam in the external rotary heating cylinder 5-4 in time, the absorbing mechanism 8 is arranged on the supporting base 1 and the mounting base 4, the absorbing mechanism 8 comprises a transmission shaft II 8-1, a transmission gear II 8-2, an absorbing shell 8-3, a cross frame 8-4, a rotating shaft 8-5, a bevel gear 8-6 and a rotating fan blade 8-7, the transmission shaft II 8-1 is arranged on the supporting base 1 through a bearing and is positioned above the external rotary heating cylinder 5-4, the transmission gear II 8-2 is fixedly arranged on the transmission shaft II 8-1 and is meshed with one of the external rotary gear rings 5-5, the absorbing shell 8-3 is fixedly arranged on the mounting base 4 and is communicated with the external rotary heating cylinder 5-4, the transverse frame 8-4 is fixedly arranged on the upper side of the suction shell 8-3, the transmission shaft II 8-1 penetrates through the transverse frame 8-4, the rotating shaft 8-5 is arranged on the transverse frame 8-4 through a bearing, one bevel gear 8-6 is fixedly arranged at one end, close to the transverse frame 8-4, of the transmission shaft II 8-1, the other bevel gear 8-6 is fixedly arranged at the upper end of the rotating shaft 8-5, the two bevel gears 8-6 are mutually meshed, the rotating fan blade 8-7 is fixedly arranged at the lower end of the rotating shaft 8-5, the rotating fan blade 8-7 is positioned in the suction shell 8-3, the rotating fan blade 8-7 can suck out steam generated during enzyme deactivation from the outer rotating heating cylinder 5-4 in the rotating process, and the steam is prevented from being liquefied and then dropping on chrysanthemum flowers.

One of the external rotating gear rings 5-5 drives the transmission shaft II 8-1 to rotate forward through the transmission gear II 8-2, and the transmission shaft II 8-1 drives the rotating shaft 8-5 and the rotating fan blades 8-7 to rotate backward through the two mutually meshed bevel gears 8-6. Because some moisture carried by the chrysanthemum in the water-removing process of the chrysanthemum can be changed into steam after being heated, the steam can be taken out of the outer rotary heating cylinder 5-4 by the rotation of the rotary fan blades 8-7, the steam in the rotary heating cylinder is prevented from being liquefied and then dropping on the chrysanthemum, and the adverse effect of the steam on the chrysanthemum in the water-removing process can be avoided.

As shown in fig. 1-3 and 7, the chrysanthemum tea machine further comprises a stretching adjusting mechanism 9 capable of stirring chrysanthemum flowers with different sizes in an external rotating heating cylinder 5-4, the stretching adjusting mechanism 9 is arranged on a hollow rotating shaft 6-4, the stretching adjusting mechanism 9 comprises a screw rod 9-1, a handle 9-2, a moving block 9-3, a fixed ring 9-4 and a connecting rod 9-5, the screw rod 9-1 is arranged in the hollow rotating shaft 6-4 in a rotating manner, the handle 9-2 is fixedly arranged at one end of the screw rod 9-1, the handle 9-2 is used for assisting workers to rotate the screw rod 9-1, the screw rod 9-1 is provided with ten moving blocks 9-3 in a sliding manner, the screw rod 9-1 is fixedly provided with two fixed rings 9-4, one of the fixed rings 9-4 is fixedly connected with the moving block 9-3 at the rightmost end, the other fixed ring 9-4 is fixedly connected with a moving block 9-3 in the middle of the screw rod 9-1, the ten moving blocks 9-3 are fixedly provided with connecting rods 9-5, two adjacent connecting rods 9-5 are rotatably connected, and the distance between the two adjacent connecting rods 9-5 can be adjusted by rotating the screw rod 9-1.

The hollow rotating shaft 6-4 can also drive the stretching adjusting mechanism 9 to rotate positively, and the chrysanthemum in the heating cylinder 5-4 can be stirred by rotating the connecting rod 9-5, so that the chrysanthemum can be heated more uniformly in the enzyme deactivating process. As the sizes of different chrysanthemum flowers are different, in order that the connecting rods 9-5 can stir the chrysanthemum flowers with different sizes, before the chrysanthemum flowers are subjected to enzyme deactivation, workers can adjust the distance between every two adjacent connecting rods 9-5 by rotating the handle 9-2 and the screw 9-1. When some smaller chrysanthemum flowers need to be subjected to enzyme deactivation, a worker can rotate the handle 9-2 anticlockwise, the handle 9-2 can drive the screw rod 9-1 to rotate anticlockwise, at the moment, the moving block 9-3 can drive the connecting rod 9-5 to move leftwards, the distance between every two adjacent connecting rods 9-5 can be reduced, and therefore the connecting rods 9-5 can play a better stirring role in externally rotating a large number of small chrysanthemum flowers in the heating cylinder 5-4. After the chrysanthemum is heated and de-enzymed, a worker turns off the motor 5-1 and cuts off the power of the external rotary heating cylinder 5-4.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. The utility model provides a chrysanthemum production is with spiral stir-fry moisture removal device that completes which characterized in that: including supporting base (1), layer board (2), feeder hopper (3), mount pad (4), outer slewing mechanism (5) and internal rotation mechanism (6), layer board (2) are fixed to be located one side that supports base (1), feeder hopper (3) are fixed to be located the one end that supports base (1), the upside that supports base (1) is fixed to be located mount pad (4), outer slewing mechanism (5) are located and are supported on base (1) and mount pad (4), internal rotation mechanism (6) are located and are supported on base (1) and are connected with outer slewing mechanism (5).

2. The chrysanthemum production spiral stir-frying moisture removing and enzyme deactivating device as claimed in claim 1, wherein: the external rotating mechanism (5) comprises a motor (5-1), a power shaft (5-2), an external rotating gear (5-3), an external rotating heating cylinder (5-4) and an external rotating gear ring (5-5), the motor (5-1) is fixedly arranged on the upper side of the supporting plate (2), the power shaft (5-2) is arranged on the supporting base (1) through a bearing, one end of the power shaft (5-2) is fixedly connected with an output shaft of the motor (5-1), the power shaft (5-2) is fixedly provided with two external rotating gears (5-3), the external rotating heating cylinder (5-4) is rotatably arranged on the supporting base (1) and the mounting seat (4), the external rotating heating cylinder (5-4) is rotatably connected with the feeding hopper (3), the external rotating heating cylinder (5-4) is fixedly provided with two external rotating gear rings (5-5), the two external rotating gear rings (5-5) are respectively meshed with the two external rotating gears (5-3).

3. The chrysanthemum production spiral stir-frying moisture removing and enzyme deactivating device as claimed in claim 2, wherein: the internal rotation mechanism (6) comprises a power gear (6-1), a transmission shaft I (6-2), a transmission gear I (6-3), a hollow rotating shaft (6-4), a rotating gear (6-5), a conveying spiral rack (6-6) and a pushing block (6-7), the power gear (6-1) is fixedly arranged at one end of the power shaft (5-2), the transmission shaft I (6-2) is arranged at one end of the supporting base (1) through a bearing, the transmission gear I (6-3) is fixedly arranged on the transmission shaft I (6-2) and is meshed with the power gear (6-1), the hollow rotating shaft (6-4) is arranged on the supporting base (1) through a bearing, the hollow rotating shaft (6-4) penetrates through the feeding hopper (3) and the external rotation heating cylinder (5-4), and the rotating gear (6-5) is fixedly arranged at one end of the hollow rotating shaft (6-4) and is meshed with the transmission gear The first gear (6-3) is engaged, the hollow rotating shaft (6-4) is fixedly provided with two conveying spiral frames (6-6), and the two conveying spiral frames (6-6) are both fixedly provided with pushing blocks (6-7).

4. The chrysanthemum production spiral stir-frying moisture removing and enzyme deactivating device as claimed in claim 1, wherein: the automatic feeding device is characterized by further comprising a closing mechanism (7), the closing mechanism (7) is arranged on the feeding hopper (3), a plurality of rotating rods (7-1), a central disc (7-2), closing plates (7-3) and a torque spring (7-4) are rotatably arranged on the feeding hopper (3), the central disc (7-2) is rotatably arranged at one end of each rotating rod (7-1), the closing plates (7-3) are fixedly arranged on the rotating rods (7-1) and are in contact with the two adjacent closing plates (7-3), the torque spring (7-4) is arranged between the other end of each rotating rod (7-1) and the outer side of the feeding hopper (3), and the torque spring (7-4) penetrates through the corresponding rotating rod (7-1).

5. The chrysanthemum production spiral stir-frying moisture removing and enzyme deactivating device as claimed in claim 2, wherein: the device is characterized by further comprising an absorbing mechanism (8), wherein the absorbing mechanism (8) is arranged on the supporting base (1) and the mounting base (4), the absorbing mechanism (8) comprises a transmission shaft II (8-1), a transmission gear II (8-2), an absorbing shell (8-3), a cross frame (8-4), a rotating shaft (8-5), a bevel gear (8-6) and a rotating fan blade (8-7), the transmission shaft II (8-1) is arranged on the supporting base (1) through a bearing, the transmission gear II (8-2) is fixedly arranged on the transmission shaft II (8-1) and is meshed with one of the external rotating gear rings (5-5), the absorbing shell (8-3) is fixedly arranged on the mounting base (4) and is communicated with the external rotating heating cylinder (5-4), the cross frame (8-4) is fixedly arranged on the upper side of the absorbing shell (8-3), and the transmission shaft II (8-1) penetrates through the cross frame (8) 4) The rotating shaft (8-5) is arranged on the cross frame (8-4) through a bearing, one bevel gear (8-6) is fixedly arranged at one end of the second transmission shaft (8-1), the other bevel gear (8-6) is fixedly arranged at the upper end of the rotating shaft (8-5), the two bevel gears (8-6) are mutually meshed, the rotating fan blades (8-7) are fixedly arranged at the lower end of the rotating shaft (8-5), and the rotating fan blades (8-7) are positioned in the suction shell (8-3).

6. The chrysanthemum production spiral stir-frying moisture removing and enzyme deactivating device as claimed in claim 3, wherein: the device is characterized by further comprising a stretching adjusting mechanism (9), the stretching adjusting mechanism (9) is arranged on the hollow rotating shaft (6-4), the stretching adjusting mechanism (9) comprises a screw rod (9-1), a handle (9-2), a moving block (9-3), fixing rings (9-4) and a connecting rod (9-5), the screw rod (9-1) is arranged in the hollow rotating shaft (6-4) in a rotating mode, the handle (9-2) is fixedly arranged at one end of the screw rod (9-1), a plurality of moving blocks (9-3) are arranged on the screw rod (9-1) in a sliding mode, two fixing rings (9-4) are fixedly arranged on the screw rod (9-1), one fixing ring (9-4) is fixedly connected with the moving block (9-3) located at the rightmost end of the screw rod (9-1), and the other fixing ring (9-4) is fixedly connected with one moving block (9-3) The moving blocks (9-3) are all fixedly provided with connecting rods (9-5), and two adjacent connecting rods (9-5) are rotatably connected.