CN110934202A

CN110934202A - Multi-temperature-section adjustable tea frying machine

Info

Publication number: CN110934202A
Application number: CN201911328618.XA
Authority: CN
Inventors: 陈白祥
Original assignee: ANHUI LANXIANGYUAN TEA Co Ltd
Current assignee: ANHUI LANXIANGYUAN TEA Co Ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-03-31

Abstract

The invention discloses a multi-temperature-section adjustable tea frying machine which comprises a base, a discharging seat, a frame and a barrel, wherein the discharging seat is positioned on one side of the base, a driving motor is fixedly installed at the top of the base, two movable assemblies positioned on the top of the base are installed on one side of the driving motor, the frame is installed at the tops of the two movable assemblies, and a transmission rod of the driving motor is connected with one of the movable assemblies through a synchronous belt. Can solve present stir-fry tea machine when using and directly pour into all tealeaves that need turn over the stir-fry tea machine inside together and turn over the stir-fry together more, stir-fry in-process tealeaves and also can only turn over the stir-fry under same temperature, thereby greatly reduced turns over the stir-fry effect, and still have the not thorough problem of stir-fry, the tealeaves color and luster that leads to stir to coming out, fragrant smell, the water content is all not up to standard, and simultaneously, present stir-fry tea machine only turns over at a batch tealeaves when using and fries and just can drop into next batch tealeaves, there is work efficiency low, the slow problem of speed.

Description

Multi-temperature-section adjustable tea frying machine

Technical Field

The invention relates to the field of tea frying machines, in particular to a multi-temperature-section adjustable tea frying machine.

Background

Tea needs to use the tea frying machine to turn over the stir-fry in the production and processing process, but present tea frying machine is direct more when using all tealeaves that need turn over the stir-fry together pour into the tea frying machine inside together turn over the stir-fry, turn over stir-fry in-process tealeaves and only can only turn over the stir-fry under same temperature yet, thereby greatly reduced turns over the stir-fry effect, and still have the not thorough problem of stir-fry, the tealeaves color and luster that leads to stir out, fragrance, the water content is all not up to standard, simultaneously, present tea frying machine only turns over when using at a batch tealeaves and fries and finish just can drop into next batch tealeaves, work efficiency is low, and is slow.

The publication number is: the patent of CN203646427U discloses a novel tea frying machine, compares with this application article, can't solve the present application and propose: the tea frying machine has the advantages that when the tea frying machine is used, all tea leaves needing to be fried are poured into the tea frying machine together to be fried, tea leaves can only be fried at the same temperature in the frying process, the frying effect is greatly reduced, the problem of incomplete frying is also solved, the color and luster, the fragrance and the water content of the fried tea leaves are not up to the standard, meanwhile, the next tea leaf can be fed into the tea frying machine only after one tea leaf is fried, the working efficiency is low, and the speed is low.

Disclosure of Invention

The invention aims to provide a multi-temperature-section adjustable tea frying machine which can solve the problems that the existing tea frying machine is used for directly pouring all tea leaves to be fried into the tea frying machine together for frying, the tea leaves can only be fried at the same temperature in the frying process, so that the frying effect is greatly reduced, the frying effect is not completely reduced, the color, the fragrance and the water content of the fried tea leaves are not up to the standard due to the fact that the tea leaves cannot be fried completely, meanwhile, the existing tea frying machine can be used for putting next batch of tea leaves only after one batch of tea leaves are fried completely, and the working efficiency is low and the speed is low.

The purpose of the invention can be realized by the following technical scheme:

a multi-temperature-section adjustable tea frying machine comprises a base, a discharging seat, a frame and a barrel, wherein the discharging seat is positioned on one side of the base, a driving motor is fixedly installed at the top of the base, two movable assemblies positioned at the top of the base are installed on one side of the driving motor, the frame is installed at the tops of the two movable assemblies, a transmission rod of the driving motor is connected with one of the movable assemblies through a synchronous belt, the other movable assembly penetrates through one end of the discharging seat and is connected with a driven shaft at the tail end of the discharging seat through a conveying belt, the barrel is installed in the middle of the frame, fixing rods are connected to the outer walls of two sides of the barrel, and one end of each of the two fixing rods is connected with;

the movable assembly comprises a transmission shaft, two end gears and two turntables, wherein two ends of the transmission shaft are respectively connected with one end gear, the side wall far away from the two end gears is respectively connected with one turntable, and one turntable close to the driving motor is sleeved with a synchronous belt;

the frame is composed of two circular frames which are fixedly connected through a plurality of transverse rods, tooth edges are arranged on the outer walls of the two frames, the two frames are located on the two movable assemblies, and the frames are meshed with the end gears through the tooth edges;

the top of the barrel is provided with a top cover, the bottom of the barrel is provided with two discharge plates with a semicircular structure, a bottom plate is arranged between the two discharge plates, the middle part of the bottom plate is fixedly provided with a bottom motor, the bottom motor is connected with a rotating rod connected into the barrel, one end of the bottom plate is fixedly provided with two small motors, the same end of each of the two small motors is respectively connected with a turnover shaft, the two turnover shafts are respectively connected with the discharge plates at corresponding positions, the interior of the barrel is divided into three layers by two partition plates, the rotating rod penetrates through the three partition plates, the middle part of each partition plate is provided with a slat, the middle part of each slat is provided with a rod hole, the rotating rod penetrates through the three rod holes, one end of each slat is provided with two direction-adjusting motors, and a blower is arranged between the two direction-adjusting motors, the air blower is characterized in that a nozzle is connected to the side wall of the air blower, two rotating shafts are connected to the same side of the direction-adjusting motor, two turning plates of a semicircular structure are connected to the side wall of each rotating shaft, two shifting rods connected with rotating rods are arranged above the partition plate and the bottom plate, a shifting rod is arranged on each layer inside the barrel, a plurality of shifting pieces which are evenly distributed are connected to the bottoms of the shifting rods, an inserting row is arranged inside the shifting rods, and the bottom of the inserting row is electrically connected with a plurality of heating pieces which are the same in quantity with the shifting pieces and are connected into the inside of the shifting pieces.

Preferably, the frame is connected with the barrel through rotating between driving motor, two movable assemblies and the base, the frame drives the conveyer belt to rotate through the movable assembly that is located on the conveyer belt in the rotation process, and the rotation direction of the frame is from the base bottom toward the direction of the discharge base and toward the driving motor again.

Preferably, the tooth edge is matched with the end gear, and the thickness of the tooth edge is matched with that of the end gear.

Preferably, the shifting rod is connected with the shifting piece in a rotating mode through the rotating rod and the inner wall of the cylinder body, and the distance between the shifting piece and the partition plate is 5-8 mm.

Preferably, the discharging seat and the base are fixedly provided with an arc-shaped frame, and the arc-shaped frames are respectively positioned at the left side and the right side of the frame.

Preferably, the discharging plate is rotatably connected with the bottom plate of the cylinder body through a turning shaft, and the turning plate passes through a rotating shaft.

Preferably, the density of the shifting pieces below the three shifting rods is gradually increased from top to bottom.

A use method of a multi-temperature-section adjustable tea frying machine comprises the following specific steps:

the method comprises the following steps: opening the frame, guiding tea leaves to be stir-fried into the barrel, wherein the frame does not rotate at first, the tea leaves stay on the partition plate on the first layer, the bottom motor and all the plug rows are started at the moment, all the heating sheets connected with the plug rows are electrified by the plug rows, the heating sheets generate heat after being electrified, the poking sheets are heated by the heating sheets, the rotating rods are driven to rotate by the bottom motor, so that all the poking rods are driven to rotate, and the poking rods on the first layer stir the tea leaves and stir-fry the tea leaves through the poking sheets in the rotating process;

step two: then starting a driving motor, driving a synchronous belt to rotate by using the driving motor so as to drive a movable assembly close to the driving motor to rotate, driving the whole frame to rotate by using end gears at two ends of the movable assembly close to the driving motor in the rotating process so as to drive a cylinder to rotate, driving tea leaves to turn over and move in the cylinder in the rotating process so as to dump the tea leaves in the first layer, and continuously rotating a deflector rod to stir and fry the tea leaves;

step three: the frame drives the movable component on the discharging seat to rotate in the rotating process, thereby driving the conveying belt to rotate, after the cylinder body is turned for a circle and is continuously turned until the bottom of the cylinder body faces the conveying belt, the direction adjusting motor and the air blower on the partition plate of the first layer are started, the rotating shaft is driven to rotate for 90 degrees by the direction adjusting motor, the air blower blows air to the strip plates, the two turning plates of the first layer are driven by the rotating shaft to turn downwards, tea leaves of the first layer fall into the second layer, the air blower blows the tea leaves scattered on the laths through the nozzles to fall into the second layer, then the two turning plates of the first layer are reset, the top cover is opened at the moment, the subsequent tea leaves needing to be stir-fried are poured into the first layer in the barrel, the first, second and third steps are repeated, the tea leaves of the first layer are stir-fried in the first layer, and the tea leaves in the second layer are stir-fried at the second temperature;

step four: after the stir-frying is finished, the bottom of the barrel is adjusted to face the conveying belt, at the moment, a direction adjusting motor on a partition plate of the second layer is started first, an air blower is started, the direction adjusting motor is used for driving a rotating shaft to rotate by 90 degrees, the air blower blows air to the slats, two turning plates of the second layer are overturned downwards under the driving of the rotating shaft, tea leaves of the second layer fall into the third layer, the air blower blows the tea leaves scattered on the slats to enter the third layer from the slats through a nozzle, the two turning plates of the second layer are reset next, the direction adjusting motor on the partition plate of the first layer is started again, the air blower drives the rotating shaft to rotate by 90 degrees, the air blower blows air to the slats, therefore the two turning plates of the first layer are overturned downwards under the driving of the rotating shaft, the tea leaves of the first layer fall into the second layer, the air blower blows the tea leaves scattered on the, the two turning plates of the first layer are reset, the top cover is opened at the moment, the tea leaves to be subsequently fried are poured into the first layer in the barrel, at the moment, the tea leaves of the original second layer fall into the third layer for carrying out the third-section temperature frying, the tea leaves in the first layer fall into the second layer for carrying out the second-section temperature frying, and the new tea falls into the first layer for carrying out the first-section temperature frying;

step five: after accomplishing, with barrel bottom upset to facing to the conveyer belt, start two small-size motors earlier, it is rotatory to utilize small-size motor drive trip shaft, thereby open two play flitchs, the tealeaves that stir-fry is turned over to the inside three-section temperature of accomplishing of third layer is poured into the conveyer belt from the barrel bottom, in-process conveyer belt rotation that the frame continues the upset will be come to accomplish the tealeaves of turning over the stir-fry and carry, two of two play flitchs of opening the second layer after the board resets are turned over the board, pour the inside tealeaves of second layer into with the inside tealeaves of second layer into inside of second layer, two of the board of second layer are turned over and are opened the top cap after the board resets and continue pouring new tea, repeat step five.

The invention has the beneficial effects that: the density of the poking pieces below the three poking rods is gradually increased from top to bottom, so that the temperatures of three layers inside the barrel from top to bottom are different, the temperature of the layer at the bottom is higher than that of the other two layers, the temperature of the layer at the top is lower than that of the other two layers, when the bottom motor and all the socket banks are started, all the heating pieces connected with the bottom motor can be electrified by the socket banks, the heating pieces generate heat after being electrified, the poking pieces are heated by the heating pieces, the rotating rod is driven by the bottom motor to rotate, so that all the poking rods are driven to rotate, the poking rods at the first layer stir and stir tea leaves by the poking pieces in the rotating process, the poking rods at the second layer stir and stir tea leaves at the second temperature by the poking pieces in the rotating process, and stir tea leaves at the third temperature by the poking rods at the third layer in, the stir-frying in multiple temperature sections is realized;

because the toothed edge is arranged on the outer wall of the frame, the toothed edge is matched with the end gears on the movable components, and the two frames of the frame are respectively arranged on one side of the two movable components, when the driving motor is started, the synchronous belt can be driven by the driving motor to rotate, so as to drive the movable components close to the driving motor to rotate, the movable components close to the driving motor drive the whole frame to rotate by the end gears at the two ends in the rotating process, so as to drive the cylinder to rotate, the cylinder drives the tea leaves to turn over and move in the cylinder in the rotating process, so as to dump the tea leaves in the cylinder, and the deflector rod continuously rotates to continuously stir and fry the tea leaves, so as to ensure that the tea leaves in the cylinder can be uniformly stir and fried, and the frame drives the movable components on the discharging seat to rotate in the rotating process, so as to drive the conveying belt, the conveyor belt rotates in the process of continuously overturning the frame to convey the stir-fried tea leaves on the conveying bag;

due to the existence of the air blower, after the barrel is turned over, tea falling on the strip plate can be blown away by blowing air to the strip plate through the nozzle after the air blower is started, and tea leaves are prevented from being left on a certain layer in the barrel;

because two baffles are by the slat, it constitutes to be located the turnover of slat both sides turnover, the barrel bottom is by the bottom plate, it constitutes to be located the discharge plate that the bottom plate both sides can overturn, thereby make the tealeaves of first layer can fall into the second floor inside after turning over the board and opening after the stir-fry in the inside completion of first layer, the tealeaves that falls into the second floor carries out the stir-fry of second section temperature in the second floor inside, the tealeaves of second floor falls into the third floor inside carries out the stir-fry of turning over of third section temperature, the tealeaves of third layer is accomplished to turn over and is fried the back and can be discharged from the barrel bottom, new tea can continue to pour into first floor inside from the top cap, this kind of mode not only realizes frying tea in succession, and can realize carrying out the stir-fry of the multiple temperature section to tealeaves, when greatly degree shortens the stir-fry time.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic view of a movable assembly of the present invention;

FIG. 4 is a schematic view of a conveyor belt according to the present invention;

FIG. 5 is a schematic view of the internal structure of the cartridge according to the present invention;

FIG. 6 is a schematic view of the bottom structure of the cylinder according to the present invention;

FIG. 7 is a schematic view of the separator plate structure of the present invention;

FIG. 8 is a schematic view of a shifter lever according to the present invention;

FIG. 9 is an enlarged view of a detail of area A of FIG. 1 in accordance with the present invention;

in the figure: 1. a base; 2. a discharging seat; 3. a drive motor; 4. a movable component; 5. a conveyor belt; 6. a driven shaft; 7. a frame; 8. a frame; 9. a tooth edge; 10. a barrel; 11. an arc-shaped frame; 12. a fixed seat; 13. fixing the rod; 14. a drive shaft; 15. an end gear; 16. a turntable; 17. a top cover; 18. a rotating rod; 19. a deflector rod; 20. a partition plate; 21. a bottom motor; 22. a discharge plate; 23. a turning shaft; 24. a small-sized motor; 25. laths; 26. a rod hole; 27. a rotating shaft; 28. a direction-adjusting motor; 29. a blower; 30. a nozzle; 31. a power strip; 32. a shifting sheet; 33. a heating plate; 34. a base plate; 35. and (4) turning over the plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a multi-temperature-section adjustable tea frying machine comprises a base 1, a discharging seat 2, a frame 7 and a barrel 10, wherein the discharging seat 2 is positioned on one side of the base 1, a driving motor 3 is fixedly installed on the top of the base 1, two movable assemblies 4 positioned on the top of the base 1 are installed on one side of the driving motor 3, the frame 7 is installed on the tops of the two movable assemblies 4, a transmission rod of the driving motor 3 is connected with one of the movable assemblies 4 through a synchronous belt, the other movable assembly 4 penetrates through one end of the discharging seat 2 and is connected with a driven shaft 6 at the tail end of the discharging seat 2 through a conveyer belt 5, the barrel 10 is installed in the middle of the frame 7, fixing rods 13 are respectively connected on the outer walls of two sides of the barrel 10, and one end of each;

the movable assembly 4 comprises a transmission shaft 14, two end gears 15 and two turntables 16, wherein two ends of the transmission shaft 14 are respectively connected with one end gear 15, the side wall, far away from the two end gears 15, of each of the two end gears 15 is connected with one turntable 16, and one turntable 16 close to the driving motor 3 is sleeved with a synchronous belt;

the frame 7 is composed of two circular frames 8, the two frames 8 are fixedly connected through a plurality of cross rods, tooth edges 9 are arranged on the outer walls of the two frames 8, the two frames 8 are located on the two movable assemblies 4, and the frames 8 are meshed with end gears 15 through the tooth edges 9;

the top of the cylinder 10 is provided with a top cover 17, the bottom of the cylinder 10 is provided with two discharge plates 22 with a semicircular structure, a bottom plate 34 is arranged between the two discharge plates 22, the middle part of the bottom plate 34 is fixedly provided with a bottom motor 21, the bottom motor 21 is connected with a rotating rod 18 connected into the cylinder 10, one end of the bottom plate 34 is fixedly provided with two small motors 24, the same end of each small motor 24 is respectively connected with a turning shaft 23, the two turning shafts 23 are respectively connected with the discharge plates 22 at corresponding positions, the inside of the cylinder 10 is divided into three layers by two partition plates 20, the rotating rod 18 penetrates through three partition plates 20, the middle part of each partition plate 20 is provided with a slat 25, the middle part of each slat 25 is provided with a rod hole 26, the rotating rod 18 penetrates through the three rod holes 26, one end of each slat 25 is provided with two direction-adjusting motors 28, and a 29 is, be connected with a nozzle 30 on the air-blower 29 lateral wall, two are transferred to motor 28 and all are connected with a rotation axis 27 with one side, be connected with the board 35 that turns over of a semicircular structure on two rotation axis 27 lateral walls separately, two baffles 20 and bottom plate 34 top all are provided with a driving lever 19 that is connected with bull stick 18, and each layer of the inside of barrel 10 all is provided with a driving lever 19, every driving lever 19 bottom all is connected with a plurality of evenly distributed's plectrum 32, driving lever 19 internally mounted has row of inserting 31, row of inserting 31 bottom electricity is connected with a plurality of quantity and the same and insert the inside heating plate 33 of plectrum 32 with plectrum 32.

Frame 7 is connected through rotating between driving motor 3, two movable assembly 4 and the base 1 with barrel 10, and frame 7 drives conveyer belt 5 through movable assembly 4 that is located on conveyer belt 5 and rotates at the rotation in-process, and the rotation direction of frame 7 is from base 1 bottom toward the discharge base orientation again toward driving motor 3 orientation.

The tooth edge 9 is matched with the end gear 15, and the thickness of the tooth edge 9 is matched with that of the end gear 15.

The driving lever 19 is connected with the shifting piece 32 through the rotating rod 18 and is connected with the inner wall of the cylinder 10 in a rotating way, and the distance between the shifting piece 32 and the partition board 20 is 5-8 mm.

Discharging seat 2 and base 1 are all fixed mounting have an arc frame 11, and two arc frames 11 are located the frame 7 left and right sides respectively.

The discharging plate 22 is rotatably connected with the bottom plate 34 of the cylinder 10 through the turning shaft 23, and the turning plate 35 passes through the rotating shaft 27.

The density of the shifting sheets 32 below the three shifting rods 19 is gradually increased from top to bottom.

the method comprises the following steps: opening the frame 7, guiding tea leaves to be stir-fried into the barrel 10, wherein the frame 7 does not rotate at first, the tea leaves stay on the partition plate 20 on the first layer, the bottom motor 21 and all the power strips 31 are started at the moment, all the heating sheets 33 connected with the power strips 31 are electrified by utilizing the power strips 31, the heating sheets 33 generate heat after being electrified, the poking sheets 32 are heated by utilizing the heat generated by the heating sheets 33, the rotating rod 18 is driven to rotate by utilizing the bottom motor 21, so that all the poking rods 19 are driven to rotate, and the poking rods 32 stir and stir-fry the tea leaves in the rotating process of the poking rods 19 on the first layer;

step two: then, the driving motor 3 is started, the driving motor 3 is used for driving the synchronous belt to rotate, so that the movable assembly 4 close to the driving motor 3 is driven to rotate, the movable assembly 4 close to the driving motor 3 drives the whole frame 7 to rotate by using the end gears 15 at two ends in the rotating process, so that the cylinder 10 is driven to rotate, the cylinder 10 drives tea leaves to turn over and move in the cylinder in the rotating process, so that the tea leaves in the first layer are poured, and the deflector rod 19 continuously rotates to stir and fry the tea leaves;

step three: the frame 7 drives the movable assembly 4 on the discharging seat 2 to rotate in the rotating process, so as to drive the conveying belt 5 to rotate, when the cylinder 10 turns over for a circle and continues to turn over until the bottom of the cylinder 10 faces the conveying belt 5, the direction adjusting motor 28 and the air blower 29 on the partition plate 20 of the first layer are started at the moment, the rotating shaft 27 is driven by the direction adjusting motor 28 to rotate for 90 degrees, the air blower 29 blows air to the slats 25, so that the two flaps 35 of the first layer turn over downwards under the driving of the rotating shaft 27, tea leaves of the first layer fall into the second layer, the air blower 29 blows the tea leaves scattered on the slats 25 down from the slats 25 through the nozzle 30 to enter the second layer, then the two flaps 35 of the first layer are reset, the top cover 17 is opened at the moment, the subsequent tea leaves needing to be turned over and fried are poured into the first layer in the cylinder 10, the first, the second and the third steps are repeated, the, the tea leaves in the second layer are fried at a second temperature;

step four: after the stir-frying is finished, the bottom of the barrel 10 is adjusted to face the conveyer belt 5, at this time, the direction adjusting motor 28 and the air blower 29 on the partition plate 20 of the second layer are started firstly, the direction adjusting motor 28 and the air blower 29 are used for driving the rotating shaft 27 to rotate by 90 degrees, the air blower 29 blows air to the batten 25, the two turnplates 35 of the second layer are driven by the rotating shaft 27 to turn over downwards, the tea leaves of the second layer fall into the third layer, the air blower 29 blows the tea leaves scattered on the batten 25 to fall into the third layer through the nozzle 30, then the two turnplates 35 of the second layer are reset, the direction adjusting motor 28 and the air blower 29 on the partition plate 20 of the first layer are started again, the rotating shaft 27 is driven by the direction adjusting motor 28 to rotate by 90 degrees, the air blower 29 blows air to the batten 25, therefore the two turnplates 35 of the first layer turn over downwards under the driving of the rotating shaft 27, the tea leaves of the first layer fall into the second layer, the air blower 29 blows the tea, the two turning plates 35 of the first layer are reset, the top cover 17 is opened at the moment, the tea leaves to be subsequently turned and fried are poured into the first layer in the barrel body 10, at the moment, the tea leaves of the original second layer fall into the third layer for turning and frying at the third temperature, the tea leaves in the first layer fall into the second layer for turning and frying at the second temperature, and the new tea leaves fall into the first layer for turning and frying at the first temperature;

step five: after the completion, with barrel 10 bottom upset to facing to conveyer belt 5, start two small-size motors 24 earlier, it is rotatory to utilize small-size motor 24 drive trip shaft 23, thereby open two play flitchs 22, the tealeaves that accomplishes the three-section temperature stir-fry with the third layer inside is poured into on conveyer belt 5 from barrel 10 bottom, in-process conveyer belt 5 that frame 7 continues the upset rotates will accomplish the tealeaves of stir-fry and carry, two play flitchs 35 of opening the second layer after two play flitchs 22 reset, pour the tealeaves of the second layer inside into the third layer inside, two of turning over the board 35 of the second layer reset back and open two of the first layer and turn over board 35, pour the tealeaves of the first layer inside into the second layer, two of the first layer turn over board 35 and reset back and open top cap 17 and continue to pour into new tea, repeat step five.

When the tea leaf stir-frying machine is used, firstly, the driving motor 3, the bottom motor 21, the small motor 24, the direction-adjusting motor 28, the air blower 29 and the power strip 31 are connected with an external power supply, then the frame 7 is opened, tea leaves to be stir-fried are led into the barrel 10, the tea leaves firstly stay on the partition board 20 of the first layer, at the moment, the bottom motor 21 and all the power strips 31 are started, all the heating sheets 33 connected with the bottom motor are electrified by the power strip 31, the heating sheets 33 are electrified to generate heat, the poking sheets 32 are heated by the heat generated by the heating sheets 33, the density of the poking sheets 32 below the three poking rods 19 is gradually increased from top to bottom, so that the temperatures of three layers from top to bottom inside the barrel are different, the temperature of the layer at the lowest part is higher than that of the other two layers, the temperature of the layer at the highest part is lower than that of the other two layers, the, the poking rod 19 positioned on the first layer pokes and turns over tea leaves through the poking piece 32 in the rotating process, then the driving motor 3 is started, the driving motor 3 is used for driving the synchronous belt to rotate, so that the movable component 4 close to the driving motor 3 is driven to rotate, the movable component 4 close to the driving motor 3 drives the whole frame 7 to rotate by using the end gears 15 at the two ends in the rotating process, so that the cylinder 10 is driven to rotate, the cylinder 10 drives the tea leaves to turn over and move in the cylinder 10 in the rotating process, so that the tea leaves in the first layer can be toppled over, the poking rod 19 continuously rotates to continue to stir and fry the tea leaves, the tea leaves in the first layer can be uniformly stir and fried, the frame 7 drives the movable component 4 positioned on the discharging seat 2 to rotate in the rotating process, so that the conveying belt 5 is driven to rotate, and the tea leaves continue to turn over after the, until the bottom of the cylinder 10 faces the conveyer belt 5, the direction-adjusting motor 28 and the air blower 29 on the partition plate 20 of the first layer are started, the rotating shaft 27 is driven by the direction-adjusting motor 28 to rotate 90 degrees, the air blower 29 blows air to the strip plates 25, so that the two strip plates 35 of the first layer are driven by the rotating shaft 27 to turn over downwards, tea leaves of the first layer fall into the second layer, the air blower 29 blows the tea leaves scattered on the strip plates 25 through the nozzle 30 to enter the second layer from the strip plates 25, the two strip plates 35 of the first layer are reset, the top cover 17 is opened at the moment, tea leaves to be subsequently fried are poured into the first layer in the cylinder 10, the steps are repeated, the tea leaves of the first layer are fried in the first layer, the tea leaves in the second layer are fried in the second layer, and the density of the plectrum 32 below the three deflector rods 19 is gradually increased from top to bottom, the density of, the more the heating sheets 33 below the shift lever 19 are, the higher the corresponding temperature is, so that the tea leaves in the second layer are fried at the second stage temperature in the second layer, after that, the bottom of the cylinder 10 is adjusted to face the conveyer belt 5, at this time, the direction-adjusting motor 28 and the air blower 29 on the partition plate 20 in the second layer are started first, the direction-adjusting motor 28 and the air blower 29 are used for driving the rotating shaft 27 to rotate 90 degrees, the air blower 29 blows air to the slats 25, so that the two turning plates 35 in the second layer are turned over downwards under the driving of the rotating shaft 27, the tea leaves in the second layer fall into the third layer, the air blower 29 blows the tea leaves scattered on the slats 25 through the nozzle 30 to fall from the slats 25 into the third layer, then the two turning plates 35 in the second layer are reset, the direction-adjusting motor 28 and the air blower 29 on the partition plate 20 in the first layer are started, the direction-adjusting motor 28 is used for driving, so that the two turning plates 35 of the first layer are driven by the rotating shaft 27 to turn downwards, the tea leaves of the first layer fall into the second layer, the air blower 29 blows the tea leaves scattered on the strip plates 25 off the strip plates 25 through the nozzle 30 to enter the second layer, then the two turning plates 35 of the first layer are reset, at the moment, the top cover 17 is opened, the tea leaves to be subsequently fried are poured into the first layer in the barrel body 10, at the moment, the tea leaves of the original second layer fall into the third layer to be fried at the third temperature, the tea leaves in the first layer fall into the second layer to be fried at the second temperature, the new tea leaves fall into the first layer to be fried at the first temperature, finally, the bottom of the barrel body 10 is turned over to face the conveying belt 5, the two small motors 24 are started first, the turnover shaft 23 is driven to rotate by the small motor 24, so that the two discharging plates 22 are opened, tea leaves which are fried and stirred at three sections of temperature in the third layer are poured onto the conveying belt 5 from the bottom of the cylinder 10, the conveying belt 5 is driven to rotate by one of the movable components 4, so that the conveying belt 5 rotates in the process that the frame 7 is continuously turned over to convey the tea leaves which are fried and stirred, the two discharging plates 22 are reset and then the two turning plates 35 of the second layer are opened, the tea leaves in the second layer are poured into the third layer, the two turning plates 35 of the first layer are reset and then the two turning plates 35 of the first layer are opened, the tea leaves in the first layer are poured into the second layer, the top cover 17 is opened after the two turning plates 35 of the first layer are reset and new tea leaves are continuously poured, the continuous tea leaf frying is realized by the mode, the tea leaves can be fried and stirred at multiple temperature sections, improving the tea frying effect.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A multi-temperature-section adjustable tea frying machine comprises a base (1), a discharging seat (2), a frame (7) and a barrel (10), and is characterized in that the discharging seat (2) is positioned on one side of the base (1), a driving motor (3) is fixedly installed at the top of the base (1), two movable assemblies (4) positioned at the top of the base (1) are installed on one side of the driving motor (3), the frame (7) is installed at the tops of the two movable assemblies (4), a transmission rod of the driving motor (3) is connected with one of the movable assemblies (4) through a synchronous belt, the other movable assembly (4) penetrates through one end of the discharging seat (2) and is connected with a driven shaft (6) at the tail end of the discharging seat (2) through a conveying belt (5), the barrel (10) is installed in the middle of the frame (7), and a fixing rod (13) is connected to the outer walls of two sides of the barrel (10), one end of each of the two fixing rods (13) is connected with a fixing seat (12) fixed on the frame (7);

the movable assembly (4) comprises a transmission shaft (14), two end gears (15) and two turntables (16), wherein the two ends of the transmission shaft (14) are respectively connected with one end gear (15), the side walls, far away from the two end gears (15), of the two end gears are respectively connected with one turntable (16), and one turntable (16) close to the driving motor (3) is sleeved with a synchronous belt;

the frame (7) is composed of two circular frames (8), the two frames (8) are fixedly connected through a plurality of cross rods, tooth edges (9) are arranged on the outer walls of the two frames (8), the two frames (8) are located on the two movable assemblies (4), and the frames (8) are meshed with end gears (15) through the tooth edges (9);

the top cover (17) is arranged at the top of the barrel body (10), two semi-circular discharge plates (22) are arranged at the bottom of the barrel body (10), a bottom plate (34) is arranged between the discharge plates (22), a bottom motor (21) is fixedly arranged in the middle of the bottom plate (34), the bottom motor (21) is connected with a rotating rod (18) connected into the barrel body (10), two small motors (24) are fixedly arranged at one end of the bottom plate (34), the same end of each of the two small motors (24) is respectively connected with a turning shaft (23), the two turning shafts (23) are respectively connected with the discharge plates (22) at corresponding positions, three layers are divided into the barrel body (10) through the two partition plates (20), the rotating rod (18) penetrates through the three partition plates (20), and a batten (25) is arranged in the middle of each partition plate (20), a rod hole (26) is formed in the middle of each ribbon board (25), the rotating rod (18) penetrates through the three rod holes (26), two direction-adjusting motors (28) are mounted at one end of each ribbon board (25), an air blower (29) is mounted between the two direction-adjusting motors (28), a nozzle (30) is connected to the side wall of the air blower (29), a rotating shaft (27) is connected to the same side of each direction-adjusting motor (28), turning plates (35) of a semicircular structure are connected to the side walls of the two rotating shafts (27), a shifting rod (19) connected with the rotating rod (18) is arranged above each partition plate (20) and the bottom plate (34), a shifting rod (19) is arranged on each layer inside the barrel body (10), and a plurality of shifting rods (32) which are uniformly distributed are connected to the bottom of each shifting rod (19), the automatic wire-pulling device is characterized in that an inserting row (31) is installed inside the shifting rod (19), and the bottom of the inserting row (31) is electrically connected with a plurality of heating sheets (33) which are the same as the shifting sheets (32) in number and are connected into the shifting sheets (32).

2. The adjustable tea frying machine with multiple temperature sections according to claim 1, characterized in that the frame (7) is connected with the cylinder (10) through the driving motor (3) and the two movable assemblies (4) is connected with the base (1) in a rotating manner, the frame (7) drives the conveyer belt (5) to rotate through the movable assemblies (4) on the conveyer belt (5) in the rotating process, and the rotating direction of the frame (7) is from the bottom of the base (1) to the direction of the discharging seat (2) and then to the driving motor (3).

3. The adjustable tea frying machine with multiple temperature sections according to claim 1, wherein the tooth edge (9) is matched with the end gear (15), and the thickness of the tooth edge (9) is matched with that of the end gear (15).

4. The adjustable tea frying machine with multiple temperature sections according to claim 1, wherein the poking rod (19) is connected with the poking piece (32) through the rotating rod (18) and is rotatably connected with the inner wall of the cylinder body (10), and the distance between the poking piece (32) and the partition plate (20) is 5-8 mm.

5. The adjustable tea frying machine with multiple temperature sections according to claim 1, wherein the discharging seat (2) and the base (1) are both fixedly provided with an arc-shaped frame (11), and the two arc-shaped frames (11) are respectively positioned at the left side and the right side of the frame (7).

6. The adjustable tea frying machine with multiple temperature sections according to claim 1, wherein the discharging plate (22) is rotatably connected with the bottom plate (34) of the cylinder (10) through a turning shaft (23), and the turning plate (35) passes through the rotating shaft (27).

7. The adjustable tea frying machine with multiple temperature sections according to claim 1, wherein the density of the poking sheets (32) below the three poking rods (19) is gradually increased from top to bottom.

8. The use method of the multi-temperature-section adjustable tea frying machine as claimed in claim 1, is characterized by comprising the following specific steps:

the method comprises the following steps: opening the frame (7), guiding tea leaves to be stir-fried into the barrel (10), wherein the frame (7) does not rotate at this time, the tea leaves firstly stay on the partition plate (20) of the first layer, at this time, the bottom motor (21) and all the power strips (31) are started, all the heating sheets (33) connected with the power strips (31) are electrified by the power strips (31), the heating sheets (33) generate heat after being electrified, the poking sheets (32) are heated by the heat generated by the heating sheets (33), the rotating rod (18) is driven to rotate by the bottom motor (21), so that all the poking rods (19) are driven to rotate, and the poking rods (19) positioned on the first layer stir the tea leaves and stir-fry the tea leaves through the poking sheets (32) in the rotating process;

step two: then starting a driving motor (3), driving a synchronous belt to rotate by using the driving motor (3), so as to drive a movable component (4) close to the driving motor (3) to rotate, driving the whole frame (7) to rotate by using end gears (15) at two ends of the movable component (4) close to the driving motor (3) in the rotating process, so as to drive a cylinder body (10) to rotate, driving tea leaves to turn over and move in the cylinder body (10) in the rotating process, so as to dump the tea leaves in the first layer, and continuously rotating a deflector rod (19) to continuously turn over and fry the tea leaves;

step three: the frame (7) drives the movable assembly (4) on the discharging seat (2) to rotate in the rotating process, so as to drive the conveying belt (5) to rotate, after the barrel body (10) is turned for a circle and is continuously turned until the bottom of the barrel body (10) faces the conveying belt (5), the direction-adjusting motor (28) on the partition plate (20) of the first layer and the air blower (29) are started, the direction-adjusting motor (28) is utilized to drive the rotating shaft (27) to rotate for 90 degrees, the air blower (29) blows air to the batten (25), so that the two turnplates (35) of the first layer are turned downwards under the driving of the rotating shaft (27), tea leaves of the first layer fall into the second layer, the air blower (29) blows the tea leaves scattered on the batten (25) down from the batten (25) through the nozzle (30) to enter the second layer, then the two turnplates (35) of the first layer are reset, and at the top cover (17), pouring the tea leaves to be stir-fried subsequently into the first layer in the barrel (10), and repeating the first step, the second step and the third step, wherein the tea leaves in the first layer are stir-fried in the first layer, and the tea leaves in the second layer are stir-fried at the second temperature;

step four: after stir-frying is completed, the bottom of the barrel body (10) is adjusted to face the conveyor belt (5), at the moment, a direction adjusting motor (28) and an air blower (29) on a partition plate (20) on the second layer are started firstly, the direction adjusting motor (28) is utilized to drive a rotating shaft (27) to rotate 90 degrees, the air blower (29) blows air to the slats (25), two flaps (35) on the second layer are overturned downwards under the driving of the rotating shaft (27), tea leaves on the second layer fall into the third layer, the air blower (29) blows the tea leaves scattered on the slats (25) down from the slats (25) through a nozzle (30) to enter the third layer, then the two flaps (35) on the second layer are reset, the direction adjusting motor (28) and the air blower (29) on the partition plate (20) on the first layer are started, the rotating shaft (27) is driven to rotate 90 degrees by the direction adjusting motor (28), and the air blower (29) blows air to the slats, the tea leaf processing device is characterized in that the two turning plates (35) of the first layer are driven by the rotating shaft (27) to turn downwards, tea leaves of the first layer fall into the second layer, the air blower (29) blows tea leaves scattered on the strip plates (25) through the nozzle (30) to fall into the second layer from the strip plates (25), the two turning plates (35) of the first layer are reset, the top cover (17) is opened at the moment, the subsequent tea leaves needing to be turned and fried are poured into the first layer in the barrel body (10), at the moment, the original tea leaves of the second layer fall into the third layer to be turned and fried at a third temperature, the tea leaves in the first layer fall into the second layer to be turned and fried at a second temperature, and the new tea leaves fall into the first layer;

step five: after the completion, the bottom of the cylinder body (10) is turned over to face the conveyer belt (5), two small motors (24) are started firstly, the turning shaft (23) is driven to rotate by the small motors (24), thereby opening the two discharging plates (22), pouring the tea leaves which are fried at three stages of temperature in the third layer into the conveyer belt (5) from the bottom of the cylinder body (10), in-process conveyer belt (5) that continue to overturn in frame (7) rotate will accomplish the tealeaves that turns over the stir-fry and carry, two play flitch (22) open two of second layer after reseing turn over board (35), pour the tealeaves of second layer inside into inside the third layer, two of second layer turn over board (35) and open two of first layer after reseing and turn over board (35), pour the tealeaves of first layer inside into second layer, two of first layer turn over board (35) and open top cap (17) after reseing and continue to pour new tea, repeat step five.