CN112401032A

CN112401032A - Rotary chrysanthemum heating and water-removing device

Info

Publication number: CN112401032A
Application number: CN202011197730.7A
Authority: CN
Inventors: 廖言
Original assignee: Individual
Current assignee: Xiushan County Jiawo Agricultural Development Co ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2021-02-26
Anticipated expiration: 2040-10-30
Also published as: CN112401032B

Abstract

The invention relates to a chrysanthemum processing device, in particular to a rotary chrysanthemum heating and water-removing device. Comprises a supporting underframe, a supporting plate, a heating rotating mechanism, a water-removing rotating mechanism, a limiting mechanism and the like; the supporting plate is fixedly arranged at one end of the supporting bottom frame, the heating rotating mechanism is arranged on the supporting bottom frame and the supporting plate, the water-removing rotating mechanism is arranged on the supporting bottom frame and the heating rotating mechanism, and the limiting mechanism is arranged on the water-removing rotating mechanism. According to the chrysanthemum enzyme deactivating device, the heating rotating mechanism and the enzyme deactivating rotating mechanism are matched to comprehensively and uniformly heat and deactivate a large amount of chrysanthemum, so that the chrysanthemum enzyme deactivating efficiency can be effectively improved, and the quality of the chrysanthemum after enzyme deactivation can be improved; the chrysanthemum can be limited by matching the bottom rail frame with the movable limiting frame, and the chrysanthemum is prevented from being scattered randomly in the heating frame body in the rotating process.

Description

Rotary chrysanthemum heating and water-removing device

Technical Field

The invention relates to a chrysanthemum processing device, in particular to a rotary chrysanthemum heating and water-removing device.

Background

Before drying and processing fresh chrysanthemum, the chrysanthemum is generally heated and de-enzymed, the de-enzyming of the chrysanthemum aims to break the activity of oxidase in the chrysanthemum through high temperature, so that the chrysanthemum is prevented from discoloring in the subsequent drying process, meanwhile, the nutrient components in the chrysanthemum can be prevented from losing in the drying process, and the chrysanthemum is de-enzymed firstly to evaporate some moisture in the chrysanthemum, thereby being beneficial to saving the drying time and cost of the subsequent chrysanthemum. The patent publication numbers are: CN 2-9711361U's patent discloses an air current collision formula chrysanthemum machine of completing, and aim at solves the problem that traditional chrysanthemum machine of completing leads to the chrysanthemum to complete excessively easily to and lead to a large amount of waste of steam material easily. The device mainly conveys steam to the chrysanthemum through the steam pipe which is divided into two parts, and the steam at two ends can collide in a relatively sealed area, so that steam materials required by chrysanthemum enzyme deactivation can be saved, and the maturity of the chrysanthemum enzyme deactivation can be better mastered.

But above-mentioned chrysanthemum machine of completing can't make the chrysanthemum upset at the in-process that heats the chrysanthemum, consequently can only carry the one side of chrysanthemum with steam to it is inhomogeneous to lead to the chrysanthemum to be heated very easily, and this chrysanthemum machine of completing can't carry out the operation of completing to a large amount of chrysanthemums simultaneously, leads to the efficiency of completing of chrysanthemum to be lower.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the rotary chrysanthemum heating and enzyme deactivating device which can simultaneously carry out comprehensive enzyme deactivating processing on a large number of chrysanthemums, can ensure that the large number of chrysanthemums can be heated more uniformly in the enzyme deactivating process, can improve the enzyme deactivating efficiency of the chrysanthemums and can also improve the enzyme deactivating quality of the chrysanthemums.

The technical scheme is as follows: the utility model provides a rotation type chrysanthemum heating device that completes, is including supporting chassis, layer board, heating rotary mechanism, the rotary mechanism and the limiting mechanism that completes, and the layer board is fixed to be located the one end of supporting the chassis, and heating rotary mechanism locates on supporting chassis and layer board, and the rotary mechanism that completes locates on supporting chassis and the heating rotary mechanism, and the limiting mechanism is located the rotary mechanism that completes.

Preferably, the heating rotary mechanism comprises a motor, a power shaft, a transmission shaft, a rotating shaft, bevel gears, rotating gears, a heating frame body and a heating outer gear ring, the motor is fixedly arranged on the upper side of the supporting plate, the power shaft is arranged on the supporting underframe through a bearing, one end of the power shaft is fixedly connected with an output shaft of the motor, the transmission shaft is arranged on one side of the supporting underframe through a bearing, the rotating shaft is arranged on the supporting underframe through a bearing, the power shaft, the bevel gears are fixedly arranged on the transmission shaft and the rotating shaft, two adjacent bevel gears are mutually meshed, the rotating gears are fixedly arranged on the rotating shaft, the heating frame body is rotatably arranged on the supporting underframe, and the heating outer gear ring.

Preferably, the fixing rotary mechanism is arranged on the supporting bottom frame and the power shaft, the fixing rotary mechanism comprises a transmission gear, a fixed rod, a rotating disc, a fixing outer gear ring, a rotating plate, a sliding block, a moving rod, a sliding rod and a bottom rail frame, the transmission gear is fixedly arranged on the power shaft, the fixed rod is fixedly arranged at one end, close to the motor, of the supporting bottom frame, the rotating disc is rotatably arranged on the fixed rod, the other end of the heating frame body is in contact with the rotating disc, the fixing outer gear ring is fixedly arranged on the outer ring of the rotating disc and is meshed with the transmission gear, two parallel rotating plates are fixedly arranged on one side of the rotating disc, the sliding block is slidably arranged on one side of the rotating plate, the moving rod is fixedly arranged on one side of the sliding block, a clamping groove is formed in the moving rod.

Preferably, the limiting mechanism is arranged on the two moving rods and comprises a movable limiting frame, a poking rod, a clamping ball and a compression spring, the movable limiting frame is rotatably arranged at one end of the two moving rods and is in contact with the bottom rail frame, the poking rod is arranged at the other end of the movable limiting frame in a sliding mode and is symmetrical to the movable limiting frame, the clamping ball is fixedly arranged at one end of the poking rod and is in contact with a clamping groove in the moving rods, and the compression spring is arranged between the clamping ball and the movable limiting frame and penetrates through the compression spring.

Preferably, the heating frame further comprises an opening and closing mechanism, the opening and closing mechanism is arranged at one end of the supporting underframe, the opening and closing mechanism comprises a movable rod, a left sealing door and a right sealing door, the movable rod is fixedly arranged at one end of the supporting underframe, the movable rod is rotatably provided with the left sealing door and the right sealing door, the left sealing door is in contact with the right sealing door, and the left sealing door and the right sealing door are in contact with one end of the heating frame body.

Preferably, the automatic shifting device further comprises a shifting mechanism, the shifting mechanism is arranged on the fixed rod and the two sliding blocks and comprises a shifting wheel, a convex disc and a tension spring, the shifting wheel is rotatably arranged at one end of one of the movable rods, the convex disc is fixedly arranged at one end of the fixed rod, the shifting wheel can be in contact with the convex disc, and the tension springs are respectively arranged between one ends of the two sliding blocks and one ends of the two rotating plates.

Preferably, the guardrail device further comprises limiting blocks, and a plurality of rows of limiting blocks are uniformly distributed on the upper side of the bottom rail frame.

The beneficial effects are that: according to the chrysanthemum enzyme deactivating device, the heating rotating mechanism and the enzyme deactivating rotating mechanism are matched to comprehensively and uniformly heat and deactivate a large amount of chrysanthemum, so that the chrysanthemum enzyme deactivating efficiency can be effectively improved, and the quality of the chrysanthemum after enzyme deactivation can be improved; the bottom rail frame is matched with the movable limiting frame, so that the chrysanthemum can be limited, and the chrysanthemum is prevented from being scattered in the heating frame body randomly in the rotating process; the left sealing door and the right sealing door are matched to enhance the sealing performance of the heating frame body in the heating process, so that the temperature in the heating frame body is more stable, and the requirement of chrysanthemum enzyme deactivation is met; the bottom rail frame can drive the chrysanthemum to move left and right in the rotating process through the matching of the poking wheel and the convex disc, so that the chrysanthemum stacked together in the turning process can be dispersed.

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 schematic partial perspective view of a first embodiment of the present invention.

Fig. 4 is a schematic partial perspective view of the water-removing rotating mechanism of the present invention.

Fig. 5 is an enlarged perspective view of the present invention at a.

Fig. 6 is a second partial perspective view of the present invention.

Fig. 7 is a schematic view of a partially separated three-dimensional structure according to the present invention.

Description of reference numerals: 1_ supporting underframe, 2_ supporting plate, 3_ heating rotating mechanism, 3-1_ motor, 3-2_ power shaft, 3-3_ transmission shaft, 3-4_ rotating shaft, 3-5_ bevel gear, 3-6_ rotating gear, 3-7_ heating frame body, 3-8_ heating outer gear ring, 4_ de-enzyming rotating mechanism, 4-1_ transmission gear, 4-2_ fixed rod, 4-3_ rotating disc, 4-4_ de-enzyming outer gear ring, 4-5_ rotating plate, 4-6_ sliding block, 4-7_ moving rod, 4-8_ sliding rod, 4-9_ bottom rail frame, 5_ limiting mechanism, 5-1_ movable limiting frame, 5-2_ poking rod, 5-3_ clamping ball, 5-4_ compression spring, 6_ opening and closing mechanism, 6-1_ movable rod, 6-2_ left closed door, 6-3_ right closed door, 7_ toggle mechanism, 7-1_ toggle wheel, 7-2_ convex disc, 7-3_ tension spring and 8_ limiting block.

Detailed Description

Any feature disclosed in this specification (including any accompanying claims, abstract) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Example 1

A rotary heating and water-removing device for chrysanthemum is shown in figures 1-7 and comprises a supporting bottom frame 1, a supporting plate 2, a heating rotating mechanism 3, a water-removing rotating mechanism 4 and a limiting mechanism 5, wherein the supporting plate 2 is fixedly arranged at one end of the supporting bottom frame 1, the heating rotating mechanism 3 is arranged on the supporting bottom frame 1 and the supporting plate 2, the water-removing rotating mechanism 4 is arranged on the supporting bottom frame 1 and the heating rotating mechanism 3, the heating rotating mechanism 3 and the water-removing rotating mechanism 4 are matched to comprehensively and uniformly heat and remove water of a large number of chrysanthemum, and the limiting mechanism 5 is arranged on the water-removing rotating mechanism 4.

Specifically, the heating and rotating mechanism 3 comprises a motor 3-1, a power shaft 3-2, a transmission shaft 3-3, a rotating shaft 3-4, bevel gears 3-5, rotating gears 3-6, a heating frame 3-7 and a heating outer gear ring 3-8, wherein the motor 3-1 is fixedly arranged on the upper side of the supporting plate 2, the power shaft 3-2 is arranged on the supporting underframe 1 through a bearing, one end of the power shaft 3-2 is fixedly connected with an output shaft of the motor 3-1, the transmission shaft 3-3 is arranged on one side of the supporting underframe 1 through a bearing, the rotating shaft 3-4 is arranged on the supporting underframe 1 through a bearing, the bevel gears 3-5 are fixedly arranged on the power shaft 3-2, the transmission shaft 3-3 and the rotating shaft 3-4, two adjacent bevel gears 3-5 are mutually meshed, the rotating gears 3-6 are fixedly arranged on the rotating, the heating frame bodies 3-7 are rotatably arranged on the supporting underframe 1, the heating frame bodies 3-7 can provide required heat for chrysanthemum enzyme deactivating processing, the heating outer gear rings 3-8 are fixedly arranged on the heating frame bodies 3-7 and meshed with the rotating gears 3-6, and the rotating shafts 3-4 can drive the heating frame bodies 3-7 to rotate through the rotating gears 3-6 and the heating outer gear rings 3-8.

Specifically, the green removing rotating mechanism 4 is arranged on a supporting bottom frame 1 and a power shaft 3-2, the green removing rotating mechanism 4 comprises a transmission gear 4-1, a fixed rod 4-2, a rotating disc 4-3, a green removing outer gear ring 4-4, a rotating plate 4-5, a sliding block 4-6, a moving rod 4-7, a sliding rod 4-8 and a bottom rail frame 4-9, the transmission gear 4-1 is fixedly arranged on the power shaft 3-2, the fixed rod 4-2 is fixedly arranged at one end of the supporting bottom frame 1 close to a motor 3-1, the rotating disc 4-3 is rotatably arranged on the fixed rod 4-2, the other end of a heating frame body 3-7 is contacted with the rotating disc 4-3, the green removing outer gear ring 4-4 is fixedly arranged on the outer ring of the rotating disc 4-3 and is meshed with the transmission gear 4-1, two parallel rotating plates 4-5 are fixedly arranged on one side of the rotating disc 4-3, the two rotating plates 4-5 are both positioned in the heating frame body 3-7, a sliding block 4-6 is slidably arranged on one side of the rotating plate 4-5, a moving rod 4-7 is fixedly arranged on one side of the sliding block 4-6, a clamping groove is formed in the moving rod 4-7, a sliding rod 4-8 is slidably arranged on the moving rod 4-7, a bottom rail frame 4-9 is fixedly arranged between the two sliding rods 4-8, and the bottom rail frame 4-9 is used for placing chrysanthemum needing to be subjected to green removing operation.

Specifically, the limiting mechanism 5 is arranged on two moving rods 4-7, the limiting mechanism 5 comprises a movable limiting frame 5-1, a poking rod 5-2, a clamping ball 5-3 and a compression spring 5-4, the movable limiting frame 5-1 is rotatably arranged at one end, close to the rotating disc 4-3, of the two moving rods 4-7, the movable limiting frame 5-1 is in contact with a bottom rail frame 4-9, the movable limiting frame 5-1 is used for being matched with the bottom rail frame 4-9 and can prevent chrysanthemum on the bottom rail frame 4-9 from falling off in the rotating process, the other end of the movable limiting frame 5-1 is slidably provided with two symmetrical poking rods 5-2, one end of the poking rod 5-2 is fixedly provided with the clamping ball 5-3, and the clamping ball 5-3 is in contact with a clamping groove on the moving rod 4-7, the clamping ball 5-3 is matched with the poke rod 5-2 to limit the movement limiting frame 5-1, a compression spring 5-4 is arranged between the clamping ball 5-3 and the movement limiting frame 5-1, and the poke rod 5-2 penetrates through the compression spring 5-4.

Workers need to pull the bottom rail frames 4-9 out of the heating frame bodies 3-7 and place fresh chrysanthemum on the bottom rail frames 4-9, the workers can pull the two sliding blocks 4-6 to move leftwards, the two sliding blocks 4-6 can drive the bottom rail frames 4-9 and the limiting mechanism 5 to move leftwards through the two moving rods 4-7 and the two sliding rods 4-8, and therefore the bottom rail frames 4-9 can be pulled out of the left parts of the heating frame bodies 3-7; then the worker pulls the two poke rods 5-2 to move inwards to separate the clamping balls 5-3 from the clamping grooves on the moving rod 4-7, and turns the movable limiting frame 5-1 upwards, and then the worker uniformly places chrysanthemum on the bottom frame 4-9. After the chrysanthemum is placed, a worker turns the movable limiting frame 5-1 downwards and clamps the clamping balls 5-3 into the clamping grooves, the clamping balls 5-3 are matched with the poking rod 5-2 to limit the movable limiting frame 5-1, then the worker pushes the two sliding blocks 4-6 to move rightwards to reset, at the moment, the two moving rods 4-7 and the two sliding rods 4-8 drive the bottom rail frames 4-9 and the limiting mechanism 5 to move rightwards to reset into the heating frame bodies 3-7, and the movable limiting frame 5-1 is matched with the bottom rail frames 4-9 to prevent the chrysanthemum from falling in the turning process.

After all preparation work is done, a worker starts the motor 3-1 to rotate anticlockwise and energizes the heating frame body 3-7, the motor 3-1 can drive the power shaft 3-2 to rotate anticlockwise, the power shaft 3-2 can drive the rotating shaft 3-4 and the rotating gear 3-6 to rotate clockwise through three mutually meshed bevel gears 3-5, and the rotating gear 3-6 can drive the heating frame body 3-7 to rotate anticlockwise through the heating outer gear ring 3-8. The power shaft 3-2 can drive the outer de-enzyming gear ring 4-4 and the rotating disc 4-3 to rotate clockwise through the transmission gear 4-1, the rotating disc 4-3 can drive the sliding block 4-6, the moving rod 4-7, the sliding rod 4-8, the bottom rail frame 4-9 and the limiting mechanism 5 to rotate clockwise through the rotating plate 4-5, and the heating frame body 3-7 can comprehensively heat and de-enzyme chrysanthemum on the bottom rail frame 4-9 due to the fact that the bottom rail frame 4-9 and the heating frame body 3-7 rotate clockwise and counter-clockwise.

Example 2

On the basis of the embodiment 1, as shown in fig. 2, the heating device further comprises an opening and closing mechanism 6 for enhancing the sealing performance of the heating frame body 3-7, the opening and closing mechanism 6 is arranged at one end of the supporting underframe 1, the opening and closing mechanism 6 comprises a movable rod 6-1, a left closing door 6-2 and a right closing door 6-3, the movable rod 6-1 is fixedly arranged at one end of the supporting underframe 1, the movable rod 6-1 is rotatably provided with the left closing door 6-2 and the right closing door 6-3, the left closing door 6-2 is in contact with the right closing door 6-3, and the left closing door 6-2 and the right closing door 6-3 are in contact with one end of the heating frame body 3-7.

Workers need to rotate the left closing door 6-2 and the right closing door 6-3 to be separated from the heating frame body 3-7 before placing chrysanthemum in the bottom hurdle 4-9, the bottom hurdle 4-9 can be conveniently pulled out from the left part of the heating frame body 3-7, then the workers need to close the left closing door 6-2 and the right closing door 6-3 in time after the chrysanthemum is placed, the left closing door 6-2 and the right closing door 6-3 can enhance the sealing performance of the heating frame body 3-7, and heat inside the heating frame body 3-7 is prevented from leaking outwards, so that the temperature inside the heating frame body 3-7 can meet the requirement of heating and enzyme deactivation of the chrysanthemum.

As shown in the figure 7, the guardrail moving device further comprises a toggle mechanism 7 for driving the bottom guardrail frame 4-9 to move left and right, the toggle mechanism 7 is arranged on the fixed rod 4-2 and the two sliding blocks 4-6, the toggle mechanism 7 comprises a toggle wheel 7-1, a convex disc 7-2 and a tension spring 7-3, the toggle wheel 7-1 is rotatably arranged at one end of one of the moving rods 4-7, the convex disc 7-2 is fixedly arranged at one end of the fixed rod 4-2, the toggle wheel 7-1 can be contacted with the convex disc 7-2, the toggle wheel 7-1 and the convex disc 7-2 are matched to enable the bottom guardrail frame 4-9 to move left and right in the rotating process, and the tension spring 7-3 is respectively arranged between one end of the two sliding blocks 4-6 and one end of the two rotating plates 4-5.

One of the moving rods 4-7 can drive the poking wheel 7-1 to rotate clockwise, the poking wheel 7-1 can be contacted with the convex disc 7-2 in the clockwise rotation process, when the poking wheel 7-1 is contacted with the convex disc 7-2, the two moving rods 4-7 can drive the bottom hurdle frame 4-9 to move leftwards through the two sliding rods 4-8, when the poking wheel 7-1 is not contacted with the convex disc 7-2, the tension spring 7-3 can drive the moving rods 4-7 to move rightwards to reset, and the moving rods 4-7 can drive the bottom hurdle frame 4-9 to move rightwards to reset through the sliding rods 4-8. Therefore, the bottom rail frames 4-9 can be moved left and right in the rotating process, the bottom rail frames 4-9 can drive the chrysanthemum to move left and right, the chrysanthemum stacked together in the overturning process can be dispersed, the chrysanthemum is heated more uniformly, and the chrysanthemum enzyme deactivating quality can be improved. After the chrysanthemum is heated and de-enzymed, a worker firstly turns off the motor 3-1, and cuts off the power of the heating frame body 3-7, and then takes down the chrysanthemum from the bottom rail frame 4-9.

Referring to fig. 7, the chrysanthemum turnover device further comprises limiting blocks 8 for limiting the chrysanthemum in the turnover process, and three rows of limiting blocks 8 are uniformly distributed on the upper sides of the bottom rail frames 4-9.

The limiting block 8 is used for preventing the chrysanthemum flowers on the bottom rail frames 4-9 from being stacked at one position in the rotating process, and the situation that the water-removing processing cannot be completed quickly due to the fact that the chrysanthemum flowers are stacked together is avoided.

The above embodiments are merely provided for full disclosure and not for limitation, and any replacement of equivalent technical features based on the creative work of the invention should be regarded as the scope of the disclosure of the present application. The terms of orientation such as "right", "left", "upper" and "lower" used herein are used for describing the orientation of the claimed subject matter in a specific viewing angle for convenience of describing the structural position relationship, and when the viewing angle of the claimed subject matter is changed, the above-mentioned terms of orientation also change correspondingly, but the structural features do not substantially change, and the above-mentioned terms of orientation are not used to limit the scope of the present invention.

Claims

1. The utility model provides a rotation type chrysanthemum heating device that completes, its characterized in that is including supporting chassis, layer board, heating rotary mechanism, the rotary mechanism and the limiting mechanism that completes, and the layer board is fixed to be located the one end of supporting the chassis, and heating rotary mechanism locates on supporting chassis and layer board, and the rotary mechanism that completes locates on supporting chassis and the heating rotary mechanism, and limiting mechanism locates on the rotary mechanism that completes.

2. The rotary heating and green-removing device for chrysanthemum according to claim 1, wherein the heating and rotating mechanism comprises a motor, a power shaft, a transmission shaft, a rotating shaft, a bevel gear, a rotating gear, a heating frame and a heating outer gear ring, the motor is fixedly arranged on the upper side of the supporting plate, the power shaft is arranged on the supporting chassis through a bearing, one end of the power shaft is fixedly connected with the output shaft of the motor, the transmission shaft is arranged on one side of the supporting chassis through a bearing, the rotating shaft is arranged on the supporting chassis through a bearing, the power shaft, the transmission shaft and the rotating shaft are all fixedly provided with the bevel gear, two adjacent bevel gears are mutually engaged, the rotating gear is fixedly arranged on the rotating shaft, the heating frame is rotatably arranged on the supporting chassis, and the heating outer gear ring.

3. The rotary chrysanthemum heating and water-removing device as claimed in claim 2, wherein the water-removing rotating mechanism is disposed on the supporting base frame and the power shaft, the water-removing rotating mechanism comprises a transmission gear, a fixed rod, a rotating disc and a water-removing outer gear ring, the rotor plate, the sliding block, the carriage release lever, slide bar and bottom rail frame, drive gear is fixed to be located on the power shaft, the fixed one end of supporting chassis and motor and being close of locating of dead lever, the dead lever rotary type is located on the dead lever and the other end and the rolling disc contact of heating frame body, the outer ring gear that completes is fixed to be located the rolling disc outer lane and meshes with drive gear, one side of rolling disc is fixed and is equipped with the rotor plate of two parallels, one side slidingtype of rotor plate is equipped with the sliding block, the draw-in groove has been seted up on one side of sliding block is fixed and is equipped with the carriage release lever and the carriage release lever, the slide type is equipped with.

4. The rotary heating and green-removing device for chrysanthemum according to claim 3, wherein the restriction mechanism is disposed on the two moving rods, the restriction mechanism comprises a movable restriction frame, a shifting rod, a ball and a compression spring, the movable restriction frame is rotatably disposed at one end of the two moving rods and contacts with the bottom rail frame, two symmetrical shifting rods are slidably disposed at the other end of the movable restriction frame, the ball is fixedly disposed at one end of the shifting rod and contacts with the clamping groove of the moving rod, the compression spring is disposed between the ball and the movable restriction frame and passes through the compression spring.

5. The rotary heating chrysanthemum enzyme deactivating device as claimed in claim 4, further comprising one opening and closing mechanism set in one end of the support frame, the opening and closing mechanism includes one movable rod fixed to one end of the support frame, one left closing door and one right closing door contacting the heating frame.

6. The rotary heating chrysanthemum enzyme deactivating device as set forth in claim 5, further comprising one toggle mechanism set on the fixed rod and two sliding blocks, the toggle mechanism includes one toggle wheel, one raised disc and one tension spring, the toggle wheel is set in one end of one of the movable rods, the raised disc is fixed on one end of the fixed rod and the toggle wheel can contact the raised disc, and the tension springs are set between the ends of the two sliding blocks and the rotating plates.

7. The rotary chrysanthemum heating and water-removing device as claimed in claim 3, further comprising a plurality of rows of limiting blocks evenly distributed on the upper side of the bottom rail frame.