CN115574561B - Efficient turning plate dryer for tea production - Google Patents

Abstract

The invention belongs to the technical field of panel turnover dryers, and particularly relates to a high-efficiency panel turnover dryer for tea production, which comprises a machine body, wherein a conveyor belt is arranged on the front surface of the machine body, a storage box is fixedly arranged on the left side of the top end of the conveyor belt through a mounting frame, a motor is arranged on the front surface of the storage box, two groups of mounting rods are connected with two sides of the front surface of the storage box through bearings, belt pulleys are fixedly connected to the ends of the mounting rods, the motor is positioned right above one group of mounting rods, a first driving disk is fixedly connected to a driving shaft of the mounting rods, a second driving disk is fixedly connected to the surfaces of the mounting rods positioned right below the motor, and slide bars are fixedly connected to the front side and the rear side of the bottom end of the storage box.

Description

Efficient turning plate dryer for tea production

Technical Field

The invention relates to the technical field of turning plate dryers, in particular to a high-efficiency turning plate dryer for tea production.

Background

The turning plate dryer is widely applied to various industries: drying processing of materials such as sheets, particles, strips, blocks, stems and dregs, and the like, wherein the tea drying processing can be applied to a turning plate dryer, but moisture is contained in the interior before the tea is dried, and the tea is in an irregular sheet shape, so that the turning plate dryer at the present stage has the following problems when carrying out drying processing on the tea:

1: the irregular flaky tea leaves can not effectively control the blanking amount when being fed into the turning plate dryer, and generally, the tea leaves are manually placed on a conveyor belt in advance and are conveyed into the turning plate dryer for drying, so that the tea leaves are required to be fed continuously, and time and labor are consumed;

2: the tea leaf is uniformly spread during manual feeding, the tea leaf is prevented from being piled up, the drying degree is insufficient, a certain time is consumed in the process of uniformly spreading the tea leaf, the turning plate dryer cannot operate at full power, and the drying processing efficiency of the tea leaf is low.

Disclosure of Invention

The invention aims to provide a high-efficiency turning plate dryer for tea production, which solves the problems that when the tea provided in the background technology is fed into the turning plate dryer, the blanking amount cannot be effectively controlled, and generally, the tea is manually placed on a conveyor belt in advance and then is conveyed into the turning plate dryer for drying, so that the tea is required to be fed continuously, time and labor are consumed, the tea is required to be uniformly spread during manual feeding, the tea is prevented from being piled up, the drying degree is insufficient, a certain time is consumed in the process of uniformly spreading the tea, the turning plate dryer cannot be operated at full power, and the drying processing efficiency of the tea is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high-efficient board drying-machine that turns over that tealeaves was used, includes the organism, the conveyer belt is installed in the front of organism, the left side on conveyer belt top is through mounting bracket fixed mounting has the bin, the motor is installed in the front of bin, the positive both sides of bin all are connected with two sets of erection poles through the bearing, the end department of erection pole all is through fixedly connected with belt pulley, the motor is located directly over a set of erection pole, fixedly connected with driving disk one on the installation pole drive shaft, be located under the motor the surface of erection pole all is fixedly connected with driving disk two, both sides all are fixedly connected with slide bar around the bin bottom, the surface of slide bar all overlaps and is equipped with two sets of sliders, the outside of slider all is connected with connecting block one through the bearing, the both sides of bin both sides all are connected with connecting block two through the bearing, two groups of first magnet strips are arranged in the middle of the sliding rod, the front end and the rear end of the first magnet strips are fixedly connected with the same side sliding blocks respectively, four groups of overturning plates are uniformly arranged at the bottom end inside the storage box, the middle parts of the front side and the rear side of the overturning plates are connected with the inner wall of the storage box through bearings, the second magnet strips are arranged at the bottom ends of the overturning plates through bearings, a distributing box is arranged below the storage box, mounting plates are fixedly connected to the left side and the right side of the back of the storage box, transmission rods are arranged at the middle parts of the two groups of mounting plates, two groups of first transmission plates are connected with the two ends of the transmission rods through bearings, the bottom ends of the first transmission plates are connected with the second transmission plates through bearings, two groups of spreading strips are arranged at the middle parts of the two groups of the mounting plates, the left end and the right end of the two groups of spreading strips are respectively and fixedly connected with the bottom ends of the transmission plates II on the same side, and spreading rods are uniformly and fixedly connected below the spreading strips.

Preferably, the surface of the circular arc side of the first transmission disc is fixedly connected with a circular protruding block, the surface of the circular arc side of the second transmission disc is provided with a circular groove, the circular protruding block on the first transmission disc and the circular groove on the second transmission disc are mutually embedded, and the diameters of the first transmission disc and the second transmission disc are the same.

Preferably, a belt is arranged between the two groups of second transmission discs, two ends of the belt are respectively embedded on the surfaces of the two groups of second transmission discs, the two groups of second transmission discs stretch and tighten the belt, and the belt is rotated by one hundred eighty degrees, namely the cross section of the belt is in a shape.

Preferably, two groups of driving rods are arranged on the front surface and the back surface of the storage box, the two groups of driving rods are respectively located on the same side at the middle of the first connecting block and the second connecting block, the two groups of driving rods on the same side are inverted splayed between the second connecting blocks, the top ends of the driving rods penetrate through the second connecting blocks on the same side and extend to the top ends of the second connecting blocks, and the bottom ends of the driving rods are fixedly connected with the first connecting blocks on the same side.

Preferably, the surface of the driving rod is sleeved with springs, the bottom ends of the springs are fixedly connected with the first connecting block, the top ends of the springs are fixedly connected with the surface of the second connecting block, and in a normal state, the springs are in a normal non-deformation state.

Preferably, the second magnet strips on the turnover plates are distributed in a mirror image mode by taking the middle of the storage box as a boundary, namely, the second magnet strips on the left side are located on the right side of the corresponding turnover plate, the second magnet strips on the right side are located on the left side of the corresponding turnover plate, the first magnet strips are located under the second magnet strips in the middle of the two magnet strips, and the first magnet strips and the second magnet strips are mutually adsorbed.

Preferably, the middle parts of the left side and the right side of the material dividing box are respectively connected with the mounting frame of the storage box through bearings, the positive section of the material dividing box is in an isosceles trapezoid shape, and the front side and the rear side of the material dividing box are provided with storage grooves.

Preferably, the two groups of transmission plates on the same side are in a crossed state, namely, the two groups of transmission plates form an X shape, the middle of the two groups of transmission plates are rotationally connected through bearing rods, the bearing rods are fixedly connected with the mounting plates on the same side, and the two groups of transmission plates on the same side form a splayed shape.

Preferably, the back of transfer line is provided with the telescopic link, fixed connection between one end of telescopic link and the transfer line, the other end of transfer line is connected with the conflict pole, the conflict pole is located between two sets of actuating levers of homonymy.

Preferably, the two ends of the contact supporting rod are fixedly connected with a magnet block, the surfaces of the magnet block are provided with semicircular grooves, the semicircular grooves correspond to the driving rods on the same side respectively, and the driving rods are made of iron.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the flap dryer disclosed by the invention, the storage box and the first magnet strip are arranged, a user intensively stores tea leaves through the storage box, then the motor drives the flap plate to turn over the tea leaves, so that the tea leaves fall down to finish blanking operation, and the flap plate is turned over, so that the tea leaves can fall down smoothly, adhesion among the tea leaves caused by moisture contained before the tea leaves do not dry operation or the tea leaves in a branch shape are crossed with each other, so that the blanking quantity is difficult to control, the flap plate is turned over, a pushing force is given to the tea leaves, the crossed tea leaves are separated, the quantity of the tea leaves which are turned over by the flap plate every time is approximately the same, the difference distance between the tea leaves which are turned over by the flap plate every time is avoided to be overlarge, the turning angle is three hundred and sixty degrees in the process of turning over the tea leaves, the whole tea leaves in the storage box fall down after the flap plate is avoided, the tea leaves are not required to be continuously paved on a conveyor belt by workers during working, the user only needs to convey the tea leaves in the storage box at regular time or a conveyor belt to be continuously conveyed into the storage box, the quantity is difficult to be controlled, the quantity is greatly reduced, the quantity of the tea leaves is required to be automatically conveyed into the storage box, the tea leaves is greatly reduced, the labor cost is greatly is increased, the labor cost is greatly, the labor cost is increased, and the traditional processing condition is greatly is increased, and the labor cost is compared with the traditional processing device is improved, and the device is compared with the traditional processing cost;

2. according to the turnover plate dryer, the distribution box is arranged, the tea leaves are received again through the distribution box and the storage groove in the distribution box, the gravity is skillfully used, the storage groove receives the tea leaves and overturns the tea leaves, the tea leaves are dumped in the drying frames, the drying frames are continuously overturned back and forth through the distribution box, the tea leaves are continuously filled in the drying frames, the storage groove is used as a measuring unit, too many tea leaves are prevented from being placed in a group of drying frames, so that the tea leaves at the middle position cannot be sufficiently dried, compared with the traditional manual feeding, the quantity of the tea leaves stored in the drying frames for one time is controlled to a certain extent through the distribution box and the storage groove, too much or too little tea leaves fall down and the distribution box overturned, a certain moving time is generated for the drying frames which are used for driving the tea leaves with the conveyor belt, and the whole running smoothness and rationality of the device are improved;

3. according to the turnover plate dryer, the spreading bars and the spreading bars are arranged and are abutted against each other when the device rotates by virtue of the driving bars, so that the spreading bars and the spreading bars are driven by all groups of parts, the movement process of being far away from each other and being close to each other is repeated, and a fork shape is formed among the groups of the spreading bars, so that tea leaves in the drying frame are continuously stirred back and forth, the tea leaves are uniformly spread in the drying frame, the spreading operation is not needed manually, the width of the groups of the spreading bars is the same as that of the drying frame, the tea leaves in the whole drying frame can be stirred at the same time, and compared with the manual shaking of the tea leaves, the turnover plate dryer is quicker and more uniform, and the working efficiency of the turnover plate dryer is further improved;

4. the device is automatic with the workflow that needs manual intervention in the traditional board drying-machine that turns over, accomplishes most manual intervention part through mechanical structure, greatly reduced the consumption of manual labor, further reduced the consumption of cost of labor in the device of use for the whole work efficiency of device improves.

Drawings

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

FIG. 2 is a schematic rear perspective view of the structure of the storage box according to the present invention;

FIG. 3 is a schematic front perspective view of the structure of the storage box in the invention;

FIG. 4 is a schematic perspective view of the connection of the slide bar, slide block, motor and driving rod in the present invention;

FIG. 5 is a schematic perspective view of the connection of the mounting rod, first drive plate and drive rod according to the present invention;

FIG. 6 is a schematic view showing a bottom perspective separation of the structure of the storage box and the slide bar in the present invention;

FIG. 7 is a schematic perspective view of the structure of the material dividing box in the invention;

FIG. 8 is a schematic rear view of the overall structure of the present invention;

FIG. 9 is a schematic view of a structural perspective connection of a mounting plate and a spreader bar in accordance with the present invention;

FIG. 10 is a schematic side cross-sectional view of the structure of the mounting plate and the leveling bar of the present invention.

In the figure: 1. a body; 2. a conveyor belt; 3. a storage tank; 4. a motor; 5. a mounting rod; 6. a belt pulley; 7. a belt; 8. a first transmission disc; 9. a second transmission disc; 10. a slide bar; 11. a slide block; 12. a first connecting block; 13. a second connecting block; 14. a driving rod; 15. a spring; 16. a first magnet strip; 17. a turnover plate; 18. a second magnet strip; 19. a material dividing box; 20. a mounting plate; 21. a transmission rod; 22. a first transmission plate; 23. a second transmission plate; 24. spreading the strips; 25. spreading the rod; 26. a telescopic rod; 27. the contact rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

The efficient flap dryer for tea production in this embodiment, as shown in fig. 1-5, comprises a machine body 1, a conveyor belt 2 is installed on the front surface of the machine body 1, a storage box 3 is fixedly installed on the left side of the top end of the conveyor belt 2 through a mounting frame, a motor 4 is installed on the front surface of the storage box 3, two groups of mounting rods 5 are connected to the two sides of the front surface of the storage box 3 through bearings, a belt pulley 6 is fixedly connected to the end of each mounting rod 5, the motor 4 is located right above one group of mounting rods 5, a driving disk 8 is fixedly connected to the driving shaft of each mounting rod 5, a driving disk 9 is fixedly connected to the surface of each mounting rod 5 located right below the motor 4, slide bars 10 are fixedly connected to the front side and the rear side of the bottom end of the storage box 3, two groups of slide bars 11 are sleeved on the surface of each slide bar 10, a connecting block 12 is connected to the outer sides of each slide bar 11 through bearings, two groups of each of the two sides of each storage box 3 are connected to a connecting block 13 through bearings, two groups of magnet bars 16 are arranged in the middle of each slide bar 10, and the front end and the rear end of each magnet bar 16 are fixedly connected to the same block 11 respectively.

Further, the round protruding block is fixedly connected to the surface of the circular arc side of the first transmission disc 8, the round groove is formed in the surface of the circular arc side of the second transmission disc 9, the round protruding block on the first transmission disc 8 is embedded with the round groove on the second transmission disc 9, the diameters of the first transmission disc 8 and the second transmission disc 9 are identical, the belt 7 is arranged between the two groups of the second transmission discs 9, two ends of the belt 7 are respectively embedded on the surfaces of the two groups of the second transmission discs 9, the two groups of the second transmission discs 9 stretch the belt 7 and tighten, the belt 7 is in a one hundred eighty degree rotation state, namely the cross section of the belt 7 is 8-shaped, two groups of driving rods 14 are respectively arranged at the middle of the first connecting block 12 and the second connecting block 13 on the same side, the two groups of the second connecting blocks 13 on the same side are in an inverted-eight shape, the top ends of the driving rods 14 are respectively penetrated through the second connecting block 13 on the same side to the top end of the second connecting block 13, the bottom ends of the driving rods 14 are fixedly connected with the first connecting block 12 on the same side, springs 15 are respectively sleeved on the surfaces of the driving rods 14, the bottom ends of the springs 15 are fixedly connected with the first connecting block 12 on the same side, the front surfaces of the two connecting blocks are in a normal deformation state, and the normal deformation state is the normal, and the surface of the springs 15 are fixedly connected with the connecting blocks 15.

In the embodiment, firstly, a user pours tea leaves to be dried into the storage box 3, the tea leaves are borne by the turnover plate 17, so that the tea leaves cannot fall in the storage box 3, then the user starts the machine body 1 and the conveyor belt 2 and controls the motor 4 to start, so that the motor 4 rotates repeatedly in a sequence of one turn in the forward and reverse directions, when the motor 4 starts and rotates one turn, the driving shaft of the motor 4 drives the first driving disk 8 to rotate, the circular protruding block on the surface of the first driving disk 8 is embedded with the circular groove on the second driving disk 9, when the first driving disk 8 rotates, the second driving disk 9 is driven to rotate by friction force between the circular protruding block and the circular groove, the second driving disk 9 is fixedly connected with the mounting rod 5, the second driving disk 9 drives the mounting rod 5 to rotate, the belt pulley 6 is driven by the mounting rod 5, the two groups of belt pulleys 6 tighten the belt 7, when one group of belt pulleys 6 rotates, the other group of belt pulleys 6 is driven to reversely rotate through the belt 7, the two groups of connecting blocks 13 on the same side are driven to rotate at the same speed in opposite directions, the driving rod 14 is inserted into the connecting blocks 13, when the connecting blocks 13 rotate, the driving rod 14 is driven to rotate, the driving rod 14 drives the connecting blocks 12 and the sliding blocks 11 to move, when the driving rod 14 drives the connecting blocks 12 and the sliding blocks 11 to move to the position right below the connecting blocks 13 on the same side, the driving rod 14 continuously moves upwards in the connecting blocks 13 in the moving process and compresses the springs 15, so that the springs 15 deform, the sliding blocks 11 and the connecting blocks 12 are connected through bearings, the sliding blocks 11 do not collide with the movement of the sliding blocks 11, the connecting blocks 12 and the driving rod 14, the sliding blocks 11 slide on the surface of the sliding rod 10, and the first magnet strips 16 are driven to move through the sliding blocks 11 and the connecting blocks 12, at this time, because. The two groups of belt pulleys 6 are driven by the belt 7 to rotate in opposite directions, the sliding block 11, the first connecting block 12, the second connecting block 13 and the driving rod 14 move in opposite directions, namely the first two groups of magnet strips 16 are far away from each other, the sliding block 11, the first connecting block 12, the second connecting block 13 and the driving rod 14 on the back of the storage box 3 are driven to move simultaneously, the top ends of the two groups of driving rods 14 on the same side are close to each other, the bottom ends of the two groups of driving rods 14 on the same side are far away from each other, when the first two groups of magnet strips 16 are far away from each other, the first magnet strips 16 and the second magnet strips 18 are adsorbed to each other, the second magnet strips 18 are driven to move, the overturning plate 17 is driven to rotate through the second magnet strips 18, the bottom end of the storage box 3 is exposed by the overturning plate 17, and the first two groups of magnet strips 16 are adsorbed and pulled by the second magnet strips 18 on the same side along with the continuous movement of the first magnet strips 16, that is, all the overturning plates 17 are driven to overturn, when the overturning plates 17 overturn, tea leaves in the storage box 3 are stirred, so that the tea leaves fall through the opening at the bottom end of the storage box 3, then the motor 4 starts to reversely rotate for one circle to drive all the motion processes to reversely move, then all the motion processes are restored to original shape, the overturning plates 17 reversely overturn to cover the bottom end of the storage box 3 and bear the tea leaves again, a user intensively stores the tea leaves through the storage box 3 by arranging the storage box 3 and the first magnet strip 16, then the overturning plates 17 overturn to stir the tea leaves through the driving of the motor 4, so that the falling of the tea leaves is completed, and the tea leaves can smoothly fall through stirring of the overturning plates 17, so that the adhesion between the tea leaves caused by moisture contained before the drying operation or the cross-like tea leaves between the tea leaves are avoided, the tea leaf feeding device has the advantages that the feeding quantity is difficult to control, the overturning plate 17 is used for stirring, the tea leaves are pushed to be separated, the crossed tea leaves are separated, the quantity of the dropped tea leaves stirred by the overturning plate 17 is approximately the same each time, the phenomenon that the quantity of the tea leaves fed each time is overlarge is avoided, the overturning plate 17 is used for overturning and conveying the tea leaves, the rotating angle is three hundred sixty degrees, the phenomenon that the whole tea leaves in the storage box 3 fall after the overturning plate 17 is overturned is avoided, the tea leaves are not required to be continuously paved on the conveying belt 2 by workers during working, the workers only need to convey the tea leaves to the storage box 3 at regular time or the tea leaves are continuously conveyed to the storage box 3 by the conveying belt is required to be installed in addition, the labor quantity of the workers is greatly reduced, the processing efficiency of the device is improved when the tea leaves are dried and processed in large batches, the labor cost is reduced, the automation of the device is improved, and compared with the traditional manual feeding condition is improved, and the processing speed is improved.

Example 2

In other aspects, this embodiment also provides a high-efficient board drying-machine that turns over that tealeaves was used in production, and as shown in fig. 6-7, the inside bottom of bin 3 evenly is provided with four sets of upset boards 17, and the intermediate department of both sides all is connected between the inner wall of bin 3 through the bearing around the upset board 17, and the magnet strip two 18 is all installed through the bearing to the bottom of upset board 17, and the below of bin 3 is provided with divides workbin 19.

Further, the second magnet strips 18 on the turnover plate 17 are distributed in a mirror image manner by taking the middle of the storage box 3 as a boundary, namely, the second magnet strips 18 on the left side are all positioned on the right side corresponding to the turnover plate 17, the second magnet strips 18 on the right side are all positioned on the left side corresponding to the turnover plate 17, the first magnet strips 16 on the two groups are respectively positioned under the second magnet strips 18 on the middle, the first magnet strips 16 and the second magnet strips 18 are mutually adsorbed, the middle parts on the left side and the right side of the material distributing box 19 are respectively connected with the mounting frame of the storage box 3 through bearings, the positive section of the material distributing box 19 is in an isosceles trapezoid shape, and storage grooves are respectively formed in the front side and the rear side of the material distributing box 19.

In the embodiment, when the turnover plate 17 turns over and toggles tea leaves to fall, the tea leaves fall right above the material distribution box 19 and fall into two groups of storage grooves on the surface of the material distribution box 19 at will, the material distribution box 19 is positioned in the middle above two groups of drying frames in the conveyor belt 2, when the tea leaves in one group of storage grooves are stacked more, the material distribution box 19 is turned over to one side with more stacked tea leaves by gravity, the turned tea leaves fall into the drying frames on the surface of the conveyor belt 2, after the material distribution box 19 is turned over, the continuously fallen tea leaves fall into the storage groove on the other side and then are turned over to the other side by gravity, the tea leaves are poured into the other group of drying frames, by continuously performing the operation, the tea leaves are continuously filled into the drying frames in the conveyor belt 2 in cooperation with the continuously slowly moving drying frames through the material distribution box 19, through arranging the material distribution box 19, the tea leaves are received again through the material distribution box 19 and the storage grooves in the material distribution box 19, gravity is skillfully used, the storage grooves are turned over after receiving the tea leaves, the tea leaves are poured into the drying frames, the drying frames are continuously filled with the tea leaves through continuously turning over the material distribution box 19 back and forth, a group of drying frames are prevented from being placed with too many tea leaves through taking the storage grooves as metering units, so that the tea leaves at the middle positions cannot be sufficiently dried due to too many tea leaves, compared with the traditional manual material placing, the tea leaves are controlled to a certain degree through the material distribution box 19 and the storage grooves, the tea leaves are prevented from falling down or being excessively reduced, and the conveyor belt 2 is used for driving the drying frames which already contain the tea leaves to move for a certain time to generate time difference through the process of turning over the material distribution box 19, the fluency and rationality of the whole operation of the device are improved.

Example 3

In other aspects, this embodiment further provides a high-efficiency board dryer turns over for tealeaves production, as shown in fig. 8-slide bar 10, the left and right sides on the back of bin 3 all fixedly connected with mounting panel 20, the centre department of two sets of mounting panels 20 is provided with transfer line 21, the both ends of transfer line 21 all are connected with two sets of transfer plates one 22 through the bearing, the bottom of transfer plate one 22 is connected with transfer plate two 23 through the bearing, the centre department of two sets of mounting panels 20 is provided with two sets of flattening strip 24, the left and right sides both ends of two sets of flattening strip 24 respectively with the bottom fixed connection of homonymy transfer plate two 23, the below of flattening strip 24 all evenly fixedly connected with flattening pole 25.

Further, the two groups of transmission plates 23 on the same side are in a crossed state, namely, the two groups of transmission plates 23 form an X shape, the middle parts of the two groups of transmission plates 23 are rotationally connected through bearing rods, the bearing rods are fixedly connected with the mounting plate 20 on the same side, the two groups of transmission plates 22 on the same side form a splayed shape, the back of the transmission rod 21 is provided with a telescopic rod 26, one end of the telescopic rod 26 is fixedly connected with the transmission rod 21, the other end of the transmission rod 21 is connected with a contact rod 27, the contact rod 27 is positioned between the two groups of driving rods 14 on the same side, both ends of the contact rod 27 are fixedly connected with magnet blocks, semicircular grooves are formed in the surfaces of the magnet blocks, the semicircular grooves correspond to the driving rods 14 on the same side respectively, and the driving rods 14 are iron.

In the embodiment, when the tea leaves are held in the drying frame, the drying frame is driven to move upwards by the conveyor belt 2, at this time, when the drying frame holds the tea leaves and moves to the lower parts of the flattening bars 24 and the flattening bars 25, at this time, the top ends of the driving bars 14 on the same side are close to each other when the driving bars 14 rotate, and the magnet blocks at the two ends of the abutting bars 27 correspond to the circular grooves on the surfaces of the magnet blocks and the driving bars 14 on the same side, when the top ends of the driving bars 14 on the two groups are close to each other, the upper parts of the driving bars 14 move into the circular grooves on the surfaces of the magnet blocks, the driving bars 14 are abutted against the magnet blocks by the continuous movement of the driving bars 14, the abutting bars 27 are driven to move downwards, the telescopic bars 26 are driven to move downwards continuously, the telescopic bars 26 can be telescopic, and the two ends of the driving bars 21 are hinged with the driving plates 22, then the contact rod 27 continuously moves downwards, the transmission rod 21 moves downwards in an oblique line, the two ends of the transmission rod 21 press the transmission plate I22, so that the two groups of transmission plates I22 gradually tend to be parallel, the two groups of transmission plates II 23 are driven to rotate by taking the middle limit bearing rod as the axle center, the bottom ends of the transmission plates II 23 are mutually on the principle, so that the two groups of leveling bars 24 and the leveling bars 25 on the leveling bars 24 are driven to be mutually far away, tea leaves in a drying frame which is driven by the conveyor belt 2 and moves to the lower part of the leveling bars 25 are stirred through the groups of leveling bars 25, the driving rod 14 repeatedly moves, the driving rod 14 is adsorbed by the magnet blocks, the contact rod 27 repeatedly moves up and down, the expansion rod 26, the transmission rod 21 and the transmission plate I22 are driven by the transmission plate II 23, the leveling bars 24 and the leveling bars 25 are driven to repeatedly move away from each other and then mutually close to each other, thereby constantly stir the amortization through amortization pole 25 with tealeaves in the dry frame, through setting up amortization strip 24 and amortization pole 25, the device is contradicted with conflict pole 27 when rotating with the help of actuating lever 14, thereby through each group part transmission, make amortization strip 24 and amortization pole 25 repeat and keep away from each other and get close to each other's motion process again, and constitute fork-shaped between the multiunit amortization pole 25, thereby constantly stir back and forth tealeaves in the dry frame, make tealeaves by even amortization in the dry frame, do not need the manual work to amortize the operation anymore, and multiunit amortization pole 25's width is the same with dry frame width, can stir tealeaves in the whole dry frame simultaneously, compare artifical manual one bit and shake the tealeaves and put, more quick and more even, further the work efficiency of the device has been improved.

The complete working principle and working process of the technical scheme are as follows:

firstly, a user pours tea leaves to be dried into the storage box 3, the tea leaves are borne by a turnover plate 17, so that the tea leaves cannot fall in the storage box 3, then the user starts a machine body 1 and a conveyor belt 2 and controls a motor 4 to start, so that the motor 4 repeatedly rotates in a sequence of one turn in the forward and reverse directions, after the motor 4 starts and rotates one turn, a driving shaft of the motor 4 drives a driving disk I8 to rotate, a circular protruding block on the surface of the driving disk I8 is mutually embedded with a circular groove on a driving disk II 9, when the driving disk I8 rotates, the driving disk II 9 is driven to rotate through friction force between the circular protruding block and the circular groove, the driving disk II 9 is fixedly connected with a mounting rod 5, the mounting rod 5 drives a belt pulley 6 to rotate through the driving disk II, the two groups of belt pulleys 6 tighten the belt 7, after one group of belt pulleys 6 rotates, the belt 7 drives the other group of belt pulleys 6 to reversely rotate, the two groups of connecting blocks II 13 on the same side are driven to rotate at the same speed in opposite directions, the driving rod 14 is inserted into the connecting blocks II 13, when the connecting blocks II 13 rotate, the driving rod 14 is driven to rotate, the driving rod 14 drives the connecting blocks I12 and the sliding blocks 11 to move, when the driving rod 14 drives the connecting blocks I12 and the sliding blocks 11 to move to the position right below the connecting blocks II 13 on the same side, the driving rod 14 continuously moves upwards in the inner part of the connecting blocks II 13 in the moving process and compresses the spring 15, so that the spring 15 deforms, the sliding blocks 11 and the connecting blocks I12 are connected through bearings, the sliding blocks 11 do not collide with the movement of the sliding blocks 11, the connecting blocks I12 and the driving rod 14, the sliding blocks 11 slide on the surface of the sliding blocks 10, and the sliding blocks 11 and the connecting blocks I12 drive the magnet bar I16 to move at the moment, because of the fact that. The two groups of belt pulleys 6 are driven by the belt 7 to rotate in opposite directions, the sliding block 11, the first connecting block 12, the second connecting block 13 and the driving rod 14 move in opposite directions, namely the first two groups of magnet strips 16 are far away from each other, the sliding block 11, the first connecting block 12, the second connecting block 13 and the driving rod 14 on the back of the storage box 3 are driven to move simultaneously, the top ends of the two groups of driving rods 14 on the same side are close to each other, the bottom ends of the two groups of driving rods 14 on the same side are far away from each other, when the first two groups of magnet strips 16 are far away from each other, the first magnet strips 16 and the second magnet strips 18 are adsorbed to each other, the second magnet strips 18 are driven to move, the overturning plate 17 is driven to rotate through the second magnet strips 18, the bottom end of the storage box 3 is exposed by the overturning plate 17, and the first two groups of magnet strips 16 are adsorbed and pulled by the second magnet strips 18 on the same side along with the continuous movement of the first magnet strips 16, that is, all the overturning plates 17 are driven to overturn, when the overturning plates 17 overturn, tea leaves in the storage box 3 are stirred, so that the tea leaves fall through the opening at the bottom end of the storage box 3, then the motor 4 starts to reversely rotate for one circle to drive all the motion processes to reversely move, then all the motion processes are restored to original shape, the overturning plates 17 reversely overturn to cover the bottom end of the storage box 3 and bear the tea leaves again, a user intensively stores the tea leaves through the storage box 3 by arranging the storage box 3 and the first magnet strip 16, then the overturning plates 17 overturn to stir the tea leaves through the driving of the motor 4, so that the falling of the tea leaves is completed, and the tea leaves can smoothly fall through stirring of the overturning plates 17, so that the adhesion between the tea leaves caused by moisture contained before the drying operation or the cross-like tea leaves between the tea leaves are avoided, the blanking amount is difficult to control, the overturning plate 17 is used for poking tea leaves to push the tea leaves, the crossed tea leaves are separated, so that the quantity of the dropped tea leaves poked by the overturning plate 17 is approximately the same each time, the situation that the quantity of the dropped tea leaves is overlarge each time is avoided, the rotating angle is three hundred sixty degrees in the overturning and conveying process of the tea leaves by the overturning plate 17, the situation that the whole tea leaves in the storage box 3 fall after the overturning plate 17 overturns is avoided, the tea leaves are not required to be continuously paved on the conveying belt 2 by workers when the device works, the workers only need to convey the tea leaves into the storage box 3 at regular time or the tea leaves are continuously conveyed into the storage box 3 by installing the conveying belt in addition, the labor amount of the workers is greatly reduced, the processing efficiency of the device is improved, the labor cost is reduced, the automation of the device is improved, and compared with the situation of traditional manual feeding is improved;

when the turnover plate 17 turns over and stirs tea leaves to fall, the tea leaves fall right above the material distribution box 19, fall in two groups of storage tanks on the surface of the material distribution box 19 at will, and the material distribution box 19 is positioned in the middle above two groups of drying frames in the conveyor belt 2, when more tea leaves are piled up in one group of storage tanks, the material distribution box 19 is turned over to one side with more piled tea leaves through gravity, the turned tea leaves fall in the drying frames on the surface of the conveyor belt 2, after the material distribution box 19 is turned over, the continuously fallen tea leaves fall into the storage tanks on the other side, then are turned over to the other side through gravity, and the tea leaves are poured into the other group of drying frames, by continuously performing the operation, the drying frames are continuously filled with the tea leaves through the material distribution box 19 by matching with the drying frames in the conveyor belt 2 which continuously moves slowly, the tea leaves are received again through the material distribution box 19 and the storage groove in the material distribution box 19, gravity is skillfully used, the storage groove receives the tea leaves and then overturns, the tea leaves are poured into the drying frame, the drying frame is continuously filled with the tea leaves through the continuous front-back overturning of the material distribution box 19, the storage groove is used as a metering unit, too many tea leaves are prevented from being placed in a group of drying frames, so that the tea leaves in the middle position cannot be sufficiently dried, compared with the traditional manual material placing, the amount of the tea leaves stored into the drying frame once is controlled to a certain extent through the material distribution box 19 and the storage groove, too much or too little tea leaves are prevented, and the conveyor belt 2 is given a certain moving time to drive the drying frame which already contains the tea leaves, so that time difference is generated, and the integral operation fluency and rationality of the device are improved;

after tea leaves are contained in the drying frame, the drying frame is driven to move upwards through the conveying belt 2, at the moment, when the drying frame contains tea leaves and moves to the lower parts of the flattening strips 24 and the flattening rods 25, at the moment, when the driving rods 14 rotate, the tops of the two groups of driving rods 14 on the same side are close to each other, and the magnet blocks at the two ends of the abutting rods 27 correspond to the circular grooves on the surfaces of the magnet blocks and the driving rods 14 on the same side, when the tops of the two groups of driving rods 14 are close to each other, the upper parts of the driving rods 14 move into the circular grooves on the surfaces of the magnet blocks, the driving rods 14 abut against the magnet blocks through the continuous movement of the driving rods 14, the abutting rods 27 are driven to move downwards, the telescopic rods 26 are driven to move downwards continuously, the telescopic rods 26 can be telescopic, the two ends of the driving rods 21 are hinged with the driving plates 22, the abutting rods 27 move downwards continuously, the transmission rod 21 moves obliquely downwards, the two ends of the transmission rod 21 extrude the transmission plate I22, so that the two groups of transmission plates I22 gradually tend to be parallel, the two groups of transmission plates II 23 are driven to rotate by taking the limit bearing rod at the middle part as the axis, the bottom ends of the transmission plates II 23 are mutually in principle, the two groups of flattening bars 24 and the flattening bars 25 on the flattening bars 24 are driven to be mutually far away, tea leaves in a drying frame which is driven by the transmission belt 2 and moves to the lower part of the flattening bars 25 are stirred through the groups of flattening bars 25, the driving rod 14 moves repeatedly, the driving rod 14 is adsorbed by the iron absorbing block, so that the contact rod 27 moves repeatedly up and down, so that the tea leaves in the drying frame are repeatedly far away from each other and then mutually close to each other through the transmission plates II 23, the tea leaves in the drying frame are stirred continuously through the flattening bars 25, through setting up the spreading strip 24 and spreading the pole 25, the device is contradicted with conflict pole 27 when rotating with the help of actuating lever 14, thereby through each group part transmission, make spreading strip 24 and spreading the pole 25 repeat and keep away from each other and get close to each other's motion process again, and constitute fork shape between the multiunit spreading the pole 25, thereby stir constantly tealeaves in the dry frame back and forth, make tealeaves by even spreading in the dry frame, do not need the manual work to spread out the operation, and multiunit spreading the pole 25's width is the same with dry frame width, can stir tealeaves in the whole dry frame simultaneously, compare manual a bit to tealeaves shake and put, more quick and more even, further the work efficiency of the device has been improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a high-efficient board drying-machine that turns over of tealeaves production usefulness, includes organism (1), its characterized in that: the utility model discloses a stone-like material storage device, including organism (1), including installing rack, motor (3), bin (3), motor (4), motor (8) are fixedly installed through the mounting bracket in the front of organism (1), bin (3) front both sides all have two sets of installation pole (5) through the bearing connection, the end department of installation pole (5) all has belt pulley (6) through fixedly connected with, motor (4) are located directly over a set of installation pole (5), fixedly connected with driving disk (8) on installation pole (5) drive shaft, be located motor (4) under the surface of installation pole (5) all fixedly connected with driving disk two (9), all fixedly connected with slide bar (10) in front and back both sides of bin (3) bottom, slide bar (10) surface all overlap and are equipped with two sets of slider (11), the outside of slider (11) all is connected with one (12) through the bearing connection, both sides of bin (3) both sides all are connected with two sets of installation pole (5) through the bearing connection, two side-slip piece (16) are all connected with two in front and back side of slider (16) respectively, two sets of even connecting block (16) are provided with between two connection blocks (17) are all fixed connection blocks (17), the middle parts of the front side and the rear side of the overturning plate (17) are connected with the inner wall of the storage box (3) through bearings, the bottom ends of the overturning plate (17) are provided with a second magnet strip (18) through bearings, a distributing box (19) is arranged below the storage box (3), the left side and the right side of the back of the storage box (3) are fixedly connected with mounting plates (20), transmission rods (21) are arranged in the middle of the two groups of mounting plates (20), two ends of the transmission rods (21) are connected with a first transmission plate (22) through bearings, the bottom ends of the first transmission plate (22) are connected with a second transmission plate (23) through bearings, two groups of leveling strips (24) are arranged in the middle of the mounting plates (20), the left end and the right end of each leveling strip (24) are fixedly connected with the bottom ends of the second transmission plate (23) on the same side, and the bottoms of the leveling strips (24) are uniformly and fixedly connected with leveling rods (25);

the second magnet strips (18) on the turnover plates (17) are distributed in a mirror image mode by taking the middle of the storage box (3) as a boundary, namely, the left two groups of the second magnet strips (18) are located on the right side of the corresponding one group of turnover plates (17), the right two groups of the second magnet strips (18) are located on the left side of the corresponding one group of turnover plates (17), the first magnet strips (16) are located under the second magnet strips (18) respectively, and the first magnet strips (16) and the second magnet strips (18) are mutually adsorbed.

2. An efficient flap dryer for tea production as claimed in claim 1, wherein: the circular groove is formed in the surface of one circular arc side of the first transmission disc (8), the circular groove is formed in the surface of one circular arc side of the second transmission disc (9), the circular groove is embedded with the circular groove on the second transmission disc (9) on the first transmission disc (8), and the diameters of the first transmission disc (8) and the second transmission disc (9) are the same.

3. An efficient flap dryer for tea production as claimed in claim 1, wherein: the belt (7) is arranged between the two groups of transmission discs (9), two ends of the belt (7) are respectively embedded on the surfaces of the two groups of transmission discs (9), the two groups of transmission discs (9) stretch and tighten the belt (7), and the belt (7) rotates one hundred eighty degrees, namely the cross section of the belt (7) is 8-shaped.

4. An efficient flap dryer for tea production as claimed in claim 1, wherein: the storage box is characterized in that two groups of driving rods (14) are arranged on the front surface and the back surface of the storage box (3), the two groups of driving rods (14) are respectively located on the same side at the middle of the first connecting block (12) and the second connecting block (13), the two groups of driving rods on the same side are inverted splayed between the second connecting blocks (13), the top ends of the driving rods (14) penetrate through the second connecting blocks (13) on the same side and extend to the top ends of the second connecting blocks (13), and the bottom ends of the driving rods (14) are fixedly connected with the first connecting blocks (12) on the same side.

5. An efficient flap dryer for tea production as defined in claim 4, wherein: the surface of the driving rod (14) is sleeved with a spring (15), the bottom end of the spring (15) is fixedly connected with the first connecting block (12), the top end of the spring (15) is fixedly connected with the surface of the second connecting block (13), and in a normal state, the spring (15) is in a normal non-deformation state.

6. An efficient flap dryer for tea production as claimed in claim 1, wherein: the middle parts of the left side and the right side of the material dividing box (19) are respectively connected with the mounting frames of the storage box (3) through bearings, the positive section of the material dividing box (19) is in an isosceles trapezoid shape, and storage grooves are formed in the front side and the rear side of the material dividing box (19).

7. An efficient flap dryer for tea production as claimed in claim 1, wherein: the two groups of transmission plates II (23) on the same side are in a crossed state, namely, the two groups of transmission plates II (23) form an X shape, the middle parts of the two groups of transmission plates II (23) are rotationally connected through bearing rods, the bearing rods are fixedly connected with the mounting plates (20) on the same side, and the two groups of transmission plates I (22) on the same side form a splayed shape.

8. An efficient flap dryer for tea production as claimed in claim 1, wherein: the back of transfer line (21) is provided with telescopic link (26), fixed connection between one end of telescopic link (26) and transfer line (21), the other end of transfer line (21) is connected with conflict pole (27), conflict pole (27) are located between two sets of actuating levers (14) of homonymy.

9. An efficient flap dryer for tea production as claimed in claim 8, wherein: the two ends of the abutting rod (27) are fixedly connected with a magnet block, semicircular grooves are formed in the surfaces of the magnet block, the semicircular grooves correspond to the driving rods (14) on the same side respectively, and the driving rods (14) are made of iron.