CN113028795A - Automatic stir-fry and automatic filtration's tealeaves drying-machine turns over - Google Patents

Abstract

The invention discloses a tea leaf dryer capable of automatically stir-frying and automatically filtering, which comprises a main body, wherein a working cavity with a forward opening is arranged in the main body, a stir-frying device is arranged in the working cavity, a dispersion cavity is communicated with the lower end wall of the working cavity, vibration cavities are symmetrically communicated and arranged in the left end wall and the right end wall of the dispersion cavity, a vibration device is arranged in the vibration cavity and comprises a vibration block which is slidably arranged in the vibration cavity, the invention can screen out foreign matters such as branches and the like carried in tea leaves, so that the quality of tea leaf drying and stir-frying is improved, the screened foreign matters can be crushed, the blockage of a transmission cavity is prevented, the transmission cavity can be temporarily enlarged to ensure the normal discharge of the transmission cavity, the blockage probability is reduced, and the drying and stir-frying effect of the tea leaves is improved through the up-down and back-forth reciprocating vibration, the quality of stir-frying and drying is improved.

Description

Automatic stir-fry and automatic filtration's tealeaves drying-machine turns over

Technical Field

The invention relates to the field of tea leaf dryers, in particular to a tea leaf dryer capable of automatically stir-frying and automatically filtering.

Background

When tea leaves are stir-fried and dried, a lot of branches and foreign matters are often mixed in the tea leaves, the tea leaf drying quality is affected if the branches and the foreign matters are mixed in the tea leaves, the tea leaf drying effect is reduced, the foreign matters need to be regularly cleaned if the foreign matters are screened out, the labor intensity of workers is improved, and the situation that a discharge port is blocked may occur when the foreign matters are too much.

Disclosure of Invention

In order to solve the problems, the embodiment designs an automatic stir-frying and automatic filtering tea dryer, which comprises a main body, wherein a working cavity with a forward opening is arranged in the main body, a stir-frying device is arranged in the working cavity, a dispersion cavity is communicated with the lower end wall of the working cavity, vibration cavities are symmetrically communicated in the left end wall and the right end wall of the dispersion cavity, a vibration device is arranged in the vibration cavities, the vibration device comprises a vibration block arranged in the vibration cavities in a sliding manner, a translation cavity with an upward opening is arranged in the vibration block, a drying block is arranged in the translation cavity in a sliding manner, a drying elastic spring is fixedly connected between the right end face of the drying block and the right end wall of the translation cavity, a drying cavity with an upward opening is arranged in the drying block, the lower end wall of the drying cavity is provided with an active filtering hole which is communicated up and down and is arranged from left to right in an equidistant array, the lower end wall of the translation cavity is provided with driven filter holes which are communicated with the driving filter holes in the same number and are distributed at equal intervals, the left side of the vibration block is provided with a driving cavity with an opening facing to the left, the rear side of the driving cavity is provided with a power cavity, the middle part of the lower end wall of the dispersion cavity is communicated with a transmission cavity communicated with external collection equipment, the left side and the right side of the transmission cavity are symmetrically provided with sliding cavities with openings facing to the left, a processing device is arranged in the transmission cavity, pressure cavities are symmetrically arranged in the left end wall and the right end wall of the transmission cavity, the lower end wall of the vibration cavity is communicated with a cam cavity, one side of the cam cavity close to the dispersion cavity is provided with a middle cavity, the upper side of the vibration cavity on the left side is provided with a reset cavity, the upper side of the reset cavity is provided with a rotating cavity, the right side of the rotating, the rear side of the middle cavity is provided with a motor cavity extending to the rear sides of the sliding cavity and the outgoing cavity.

Preferably, the oscillating device comprises an oscillating spring fixed on the lower end surface of the oscillating block and the lower end wall of the oscillating cavity, an oscillating shaft is rotatably arranged between the left end wall and the right end wall of the cam cavity and partially extends into the middle cavity, an oscillating cam is fixedly arranged on the oscillating shaft and partially extends into the oscillating cavity, a driving shaft is rotatably arranged between the front end wall and the rear end wall of the driving cavity, the rear side of the driving shaft is connected with a forward coupler which is fixed in the rear end wall of the driving cavity and can transmit power during forward rotation, the rear side of the forward coupler is connected with a driving cam shaft, the rear side of the driving cam shaft extends into the power cavity and can rotate, the driving cam shaft is fixedly arranged on the rear side of the driving cam shaft, and a power sliding block positioned on the right side of the driving cam is slidably arranged in the power cavity, the right-hand member face of power sliding block with fixedly connected with power spring between the right-hand member wall in power chamber, the right-hand member face of power sliding block is fixed with the right side and extends to the power connecting block in the translation intracavity, the right side of power connecting block is fixed with supplementary sliding block, the rear end wall of middle chamber rotates and is provided with the rear side and extends to the jackshaft in the motor intracavity.

Preferably, the stir-frying device comprises a centrifugal sliding cavity which is arranged in the upper end wall of the working cavity and has a downward opening, fixed blocks which are fixedly arranged on the upper end wall of the working cavity are symmetrically arranged on the front side and the rear side of the centrifugal sliding cavity, a supporting cavity with an opening facing to one side close to the centrifugal sliding cavity is arranged in the fixed blocks, supporting sliding blocks are slidably arranged in the supporting cavity, a stir-frying motor shaft is rotatably arranged between the two prime number supporting sliding blocks, a stir-frying wheel which is positioned under the centrifugal sliding cavity is fixedly arranged on the stir-frying motor shaft, stir-frying centrifugal cavities which are communicated with the working cavity are arranged in the stir-frying wheel in an equiangular circumferential array relative to the stir-frying motor shaft, stir-frying blocks are slidably arranged in the stir-frying centrifugal cavities, and stir-frying springs are fixedly connected between the end surface of one side of the stir-frying block close to the stir-frying motor shaft and the end, a stir-frying motor which is in power connection with the stir-frying motor shaft is fixed in the supporting sliding block at the rear side.

Preferably, the stir-frying device further comprises a rotary drum cavity which is arranged in the rear end wall of the supporting cavity at the rear side and has a forward opening, a driven pulley shaft with an upper side extending into the pulley cavity is rotatably arranged between the upper end wall and the lower end wall of the rotary drum cavity, a rotary drum positioned in the rotary drum cavity is fixedly arranged on the driven pulley shaft, a sliding rod is fixedly arranged on the upper end surface of the supporting sliding block at the rear side, a guide rod with a rear side extending into the rotary drum cavity is fixedly arranged on the upper side of the rear end surface of the sliding rod, an annular groove in sliding connection with the guide rod is arranged on the outer end surface of the rotary drum, the guide rod can slide in the annular groove so as to enable the guide rod to do vertical reciprocating motion, a driving pulley shaft is rotatably arranged on the left side of the lower end wall of the pulley cavity, and the upper side of the driving pulley shaft is, the lower side of the driving pulley shaft is connected with a one-way coupling which is fixed in the lower end wall of the pulley cavity and can only positively input and transmit power, the lower side of the one-way coupling is connected with a lower side and a driven shaft which is rotatably connected with the lower end wall of the driven cavity, a driven gear is fixed on the driven shaft, a reset sliding plate is slidably arranged in the reset cavity, a reset spring is fixedly connected between the lower end surface of the reset sliding plate and the lower end wall of the reset cavity, an upper side of the reset sliding plate is fixedly connected with a reset shaft which is connected with the lower side of the rotating cavity in a matched mode and can move to the left side in the vibrating cavity, the rotating cavity is rotatably provided with a driven rotating wheel which is connected with the reset shaft in a matched mode and is engaged with the driven rotating wheel, and.

Preferably, the processing device comprises a gear cavity arranged at the front side of the transmission cavity, the transmission cavity is internally and bilaterally symmetrically and rotatably provided with a crushing shaft with a front side extending into the gear cavity, a left side and a rear side extending into the motor cavity, the crushing shaft is fixedly provided with a crushing wheel positioned in the transmission cavity, the front side of the crushing shaft is symmetrically connected through a pair of straight-tooth cylindrical gear pairs, a sliding block is slidably arranged in the sliding cavity, a sliding spring is fixedly connected between the lower end surface of the sliding block and the lower end wall of the sliding cavity, the rear end wall of the sliding cavity is rotatably provided with a sliding shaft with a rear side extending into the motor cavity, a sliding cam is fixedly arranged at the front side of the sliding shaft, the outer end surface of the sliding cam is in sliding contact with the lower end surface of the sliding block all the time, and a pressure shaft is rotatably arranged between the front end wall and the rear end wall of, the crushing machine is characterized in that a pressure stop block is fixed on the pressure shaft, a torsion spring for resetting is fixedly connected between the rear end face of the pressure shaft and the rear end wall of the pressure cavity, part of the pressure stop block extends into the transmission cavity, the rear side of the sliding shaft is connected with the rear side of the left crushing shaft and the rear side of the middle shaft through a group of belt pulleys, and the rear side of the left crushing shaft is dynamically connected with a main motor fixed in the rear end wall of the motor cavity.

The invention has the beneficial effects that: the tea leaf drying and stir-frying machine can screen out foreign matters such as branches and the like carried in tea leaves, so that the tea leaf drying and stir-frying quality is improved, the screened foreign matters can be crushed, the blocking of a transfer cavity is prevented, the transfer cavity can be temporarily enlarged to ensure the normal discharge of the transfer cavity, the blocking probability is reduced, the drying and stir-frying effect of the tea leaves is improved through the up-down and back-and-forth reciprocating vibration, and the stir-frying and drying quality is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of an automatic stir-frying and automatic filtering tea dryer according to the present invention;

FIG. 2 is a sectional view of the structure taken along the line A-A in FIG. 1;

FIG. 3 is a sectional view of the structure taken along the line B-B in FIG. 2;

FIG. 4 is a sectional view of the structure taken along the line C-C in FIG. 1;

FIG. 5 is a cross-sectional view of the structure taken along line D-D of FIG. 1;

fig. 6 is a structural sectional view in the direction of E-E in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic stir-frying and automatic filtering tea leaf dryer, which comprises a main body 10, wherein a working cavity 53 with a forward opening is arranged in the main body 10, a stir-frying device is arranged in the working cavity 53, a dispersion cavity 33 is communicated with the lower end wall of the working cavity 53, vibration cavities 15 are symmetrically communicated and arranged in the left end wall and the right end wall of the dispersion cavity 33, a vibration device is arranged in the vibration cavity 15 and comprises a vibration block 36 which is slidably arranged in the vibration cavity 15, a translation cavity 35 with an upward opening is arranged in the vibration block 36, a drying block 12 is slidably arranged in the translation cavity 35, a drying elastic spring 13 is fixedly connected between the right end surface of the drying block 12 and the right end wall of the translation cavity 35, a drying cavity 11 with an upward opening is arranged in the drying block 12, the lower end wall of the drying cavity 11 is provided with active filtering holes 34 which are vertically communicated and are arrayed at equal intervals from left to right, the lower end wall of the translation cavity 35 is provided with driven filter holes 32 which are vertically communicated and distributed with the driving filter holes 34 in the same quantity and at equal intervals, the left side of the vibration block 36 is provided with a driving cavity 39 with an opening facing to the left, the rear side of the driving cavity 39 is provided with a power cavity 62, the middle part of the lower end wall of the dispersion cavity 33 is communicated with a transmission cavity 29 communicated with external collection equipment, the left side and the right side of the transmission cavity 29 are symmetrically provided with sliding cavities 80 with openings facing to the left, a processing device is arranged in the transmission cavity 29, pressure cavities 27 are symmetrically arranged in the left end wall and the right end wall of the transmission cavity 29, the lower end wall of the vibration cavity 15 is communicated with a cam cavity 20, one side of the cam cavity 20 close to the dispersion cavity 33 is provided with a middle cavity 19, the left side of the vibration cavity 15 is provided with a reset cavity 43, and the upper side of the reset cavity 43, the right side of the rotating cavity 46 is communicated with a driven cavity 51, the upper side of the driven cavity 51 is provided with a belt wheel cavity 48, and the rear side of the middle cavity 19 is provided with a motor cavity 78 extending to the rear sides of the sliding cavity 80 and the outgoing cavity 29.

Beneficially, the oscillating device includes an oscillating spring 14 fixed on the lower end surface of the oscillating block 36 and the lower end wall of the oscillating cavity 15, an oscillating shaft 17 partially extending into the middle cavity 19 is rotatably arranged between the left end wall and the right end wall of the cam cavity 20, an oscillating cam 16 partially extending into the oscillating cavity 15 is fixed on the oscillating shaft 17, a driving shaft 38 is rotatably arranged between the front end wall and the rear end wall of the driving cavity 39, the rear side of the driving shaft 38 is connected with a forward coupling 63 fixed in the rear end wall of the driving cavity 39 and capable of transmitting power during forward rotation input, the rear side of the forward coupling 63 is connected with a driving cam shaft 64 extending into the power cavity 62 and capable of rotating, a driving cam 65 located in the power cavity 62 is fixed on the rear side of the driving cam shaft 64, a power sliding block 66 located on the right side of the driving cam 65 is slidably arranged in the power cavity 62, the right end face of power sliding block 66 with fixedly connected with power spring 67 between the right end wall of power chamber 62, the right end face of power sliding block 66 is fixed with the right side and extends to power connecting block 68 in the translation chamber 35, the right side of power connecting block 68 is fixed with supplementary sliding block 40, the rear end wall of middle chamber 19 rotates and is provided with the rear side and extends to jackshaft 18 in the motor chamber 78.

Beneficially, the stir-frying device includes a centrifugal sliding cavity 81 disposed in the upper end wall of the working cavity 53 and having a downward opening, fixed blocks 54 fixedly mounted on the upper end wall of the working cavity 53 are symmetrically disposed on the front and rear sides of the centrifugal sliding cavity 81, a supporting cavity 76 having an opening facing to a side close to the centrifugal sliding cavity 81 is disposed in the fixed block 54, a supporting sliding block 75 is slidably disposed in the supporting cavity 76, a stir-frying motor shaft 74 is rotatably disposed between the two supporting sliding blocks 75, a stir-frying wheel 60 located right below the centrifugal sliding cavity 81 is fixed on the stir-frying motor shaft 74, stir-frying centrifugal cavities 58 communicated with the working cavity 53 are disposed in the stir-frying wheel 60 with respect to an equiangular circumferential array of the stir-frying motor shaft 74, stir-frying blocks 56 are slidably disposed in the stir-frying centrifugal cavities 58, and one side end surfaces of the stir-frying blocks 56 close to the stir-frying motor shaft 74 and one side end surfaces of the stir-frying cavities 58 close to the stir A stir-frying spring 59 is fixedly connected between the walls, and a stir-frying motor 73 which is in power connection with a stir-frying motor shaft 74 is fixed in the supporting sliding block 75 at the rear side.

Beneficially, the stir-frying device further includes a rotating drum cavity 72 disposed in the rear end wall of the rear supporting cavity 76 and having a forward opening, a driven pulley shaft 55 extending from the upper side into the pulley cavity 48 is rotatably disposed between the upper end wall and the lower end wall of the rotating drum cavity 72, a rotating drum 71 disposed in the rotating drum cavity 72 is fixed on the driven pulley shaft 55, a sliding rod 69 is fixed on the upper end surface of the supporting sliding block 75 on the rear side, a guide rod 70 extending from the rear side into the rotating drum cavity 72 is fixed on the upper side of the rear end surface of the sliding rod 69, an annular groove slidably connected with the guide rod 70 is disposed on the outer end surface of the rotating drum 71, the guide rod 70 can slide in the annular groove to make the guide rod 70 reciprocate up and down, a driving pulley shaft 49 is rotatably disposed on the left side of the lower end wall of the pulley cavity 48, the upper side of the driving pulley shaft 49 is connected with the upper side of the driven pulley shaft 55 through a set of pulleys, the lower side of the driving pulley shaft 49 is connected with a one-way coupling 47 which is fixed in the lower end wall of the pulley cavity 48 and can only input and transmit power in the forward direction, the lower side of the one-way coupling 47 is connected with a driven shaft 50 of which the lower side is rotatably connected with the lower end wall of the driven cavity 51, the driven shaft 50 is fixed with a driven gear 52, a reset sliding plate 42 is arranged in the reset cavity 43 in a sliding manner, a reset spring 41 is fixedly connected between the lower end surface of the reset sliding plate 42 and the lower end wall of the reset cavity 43, a reset shaft 44 of which the upper side extends into the rotating cavity 46 and the lower side can move to the left side is fixed on the reset sliding plate 42, a driven rotating wheel 45 which is matched and connected with the reset shaft 44 and of which the right side is meshed with the driven gear 52 is rotatably arranged in the rotating cavity 46, when the, the driven rotary wheel 45 can be rotated.

Beneficially, the processing apparatus includes a gear cavity 77 disposed at the front side of the outgoing cavity 29, the outgoing cavity 29 is provided with a crushing shaft 31 extending from the front side into the gear cavity 77 in a bilateral symmetry manner, the rear side of the left crushing shaft 31 extends into the motor cavity 78, the crushing shaft 31 is fixed with a crushing wheel 30 located in the outgoing cavity 29, the front side of the symmetrical crushing shaft 31 is connected through a pair of straight-tooth cylindrical gear pairs, a sliding block 21 is slidably disposed in the sliding cavity 80, a sliding spring 22 is fixedly connected between the lower end surface of the sliding block 21 and the lower end wall of the sliding cavity 80, the rear end wall of the sliding cavity 80 is rotatably provided with a sliding shaft 24 extending from the rear side into the motor cavity 78, a sliding cam 23 is fixed at the front side of the sliding shaft 24, and the outer end surface of the sliding cam 23 is always in sliding contact with the lower end surface of the sliding block 21, a pressure shaft 26 is rotatably arranged between the front end wall and the rear end wall of the pressure chamber 27, a pressure stop 28 is fixed on the pressure shaft 26, a torsion spring for resetting is fixedly connected between the rear end surface of the pressure shaft 26 and the rear end wall of the pressure chamber 27, part of the pressure stop 28 extends into the transmission chamber 29, the rear side of the sliding shaft 24, the rear side of the crushing shaft 31 on the left side and the rear side of the intermediate shaft 18 are connected through a group of belt pulleys, and the rear side of the crushing shaft 31 on the left side is in power connection with a main motor 79 fixed in the rear end wall of the motor chamber 78.

The use steps herein are described in detail below with reference to fig. 1-6:

in the initial operating state, the support slide block 75 is located at the uppermost side of the support cavity 76, the pressure stop 28 is partially located in the outlet cavity 29, the vibration block 36 is located at the lowermost side of the vibration cavity 15, and the driven filter hole 32 is aligned with the driving filter hole 34.

In operation, tea leaves to be stir-fried and dried are placed in the drying cavity 11, then the main motor 79 is started to drive the crushing shaft 31 to rotate, so that the crushing shaft 31 drives the sliding shaft 24 and the intermediate shaft 18 to rotate through a group of belt pulleys, so that the intermediate shaft 18 drives the vibration shaft 17 to rotate through a pair of bevel gear pairs, so that the vibration shaft 17 drives the vibration cam 16 to rotate, so that the vibration block 36 reciprocates up and down under the action of the vibration spring 14, so that the driving wheel 37 reciprocates, so that the driving shaft 38 reciprocates forward and backward, so that the driving shaft 38 rotates forward and backward, when the driving shaft 38 rotates forward, the driving cam shaft 64 is driven to rotate through the forward coupler 63, so that the driving cam 65 is driven to rotate, so that the power sliding block 66 reciprocates left and right under the action of the power spring 67, so that the auxiliary sliding block 40 reciprocates left and right through the power connecting block 68, so that the drying block 12 reciprocates left and right under the action of the drying elastic spring 13, thereby causing the tea leaves to shake up and down, so that foreign matters such as branches entrained in the tea leaves enter the dispersing chamber 33 through the screening of the driving filtering holes 34 and the driven filtering holes 32, and simultaneously, when the vibrating block 36 moves up, the restoring shaft 44 is driven to move up, thereby causing the restoring sliding plate 42 to move up, thereby driving the driven rotating wheel 45 to rotate, thereby driving the driven gear 52 to rotate, thereby driving the driving pulley shaft 49 to rotate through the driven shaft 50 via the one-way coupling 47, thereby driving the driven pulley shaft 55 to rotate through a set of pulleys, thereby causing the driven pulley shaft 55 to drive the rotating drum 71 to rotate, thereby causing the sliding rod 69 to reciprocate up and down through the guide rod 70, thereby driving the support sliding block 75 to reciprocate up and down, and simultaneously the stir-frying motor 73 to start, thereby driving the stir-frying motor shaft 74 to rotate, thereby driving the stir-frying wheel 60 to rotate, thereby enabling the stir-frying block 56 to move to one side far away from the stir-frying motor shaft 74 under the action of centrifugal force, thereby enabling the stir-frying block 56 to stir tea leaves in a reciprocating manner, simultaneously enabling the sliding shaft 24 to drive the sliding cam 23 to rotate, thereby enabling the sliding block 21 to reciprocate up and down under the action of the sliding spring 22, thereby enabling foreign matters entering the dispersion cavity 33 to enter the transmission cavity 29 through vibration, simultaneously enabling the crushing shaft 31 on the left side to drive the crushing shaft 31 on the right side to rotate through a pair of straight-tooth cylindrical gear pairs, further enabling the two crushing wheels 30 to crush the foreign matters entering the transmission cavity 29 and discharge the foreign matters downwards to an external collecting device, if the transmission cavity 29 is blocked, when too many foreign matters are accumulated above the pressure stop 28, the pressure stop 28 rotates towards the pressure cavity 27 by taking the pressure shaft 26 as a circle center, therefore, the foreign matters accumulated above the driving chamber 39 are discharged, when the tea leaves in the drying chamber 11 are stir-fried and dried, the stir-frying motor 73 and the main motor 79 are closed, and then the tea leaves in the drying chamber 11 are taken out.

The invention has the beneficial effects that: the tea leaf drying and stir-frying machine can screen out foreign matters such as branches and the like carried in tea leaves, so that the tea leaf drying and stir-frying quality is improved, the screened foreign matters can be crushed, the blocking of a transfer cavity is prevented, the transfer cavity can be temporarily enlarged to ensure the normal discharge of the transfer cavity, the blocking probability is reduced, the drying and stir-frying effect of the tea leaves is improved through the up-down and back-and-forth reciprocating vibration, and the stir-frying and drying quality is improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic stir-fry and automatic filtration's tealeaves drying-machine, includes the main part, its characterized in that: the drying device is characterized in that a working cavity with a forward opening is arranged in the main body, a stir-frying device is arranged in the working cavity, a dispersing cavity is communicated with the lower end wall of the working cavity, vibrating cavities are symmetrically communicated in the left end wall and the right end wall of the dispersing cavity, a vibrating device is arranged in the vibrating cavity and comprises a vibrating block arranged in the vibrating cavity in a sliding manner, a translation cavity with an upward opening is arranged in the vibrating block, a drying block is arranged in the translation cavity in a sliding manner, a drying elastic spring is fixedly connected between the right end face of the drying block and the right end wall of the translation cavity, a drying cavity with an upward opening is arranged in the drying block, the lower end wall of the drying cavity is provided with active filtering holes which are communicated from top to bottom and are arrayed in an equidistant mode from left to right, and the lower end wall of the translation cavity is provided with driven filtering holes, a driving cavity with an opening facing to the left is arranged at the left side of the vibration block, a power cavity is arranged at the rear side of the driving cavity, the middle part of the lower end wall of the dispersion cavity is communicated with a transfer cavity communicated with external collection equipment, the left side and the right side of the transfer cavity are symmetrically provided with sliding cavities with upward openings, a processing device is arranged in the delivery cavity, pressure cavities are symmetrically arranged in the left end wall and the right end wall of the delivery cavity, the lower end wall of the vibration cavity is communicated with a cam cavity, one side of the cam cavity close to the dispersion cavity is provided with a middle cavity, the upper side of the vibration cavity on the left side is provided with a reset cavity, a rotating cavity is arranged on the upper side of the reset cavity, a driven cavity is communicated with the right side of the rotating cavity, the upper side of the driven cavity is provided with a belt wheel cavity, and the rear side of the middle cavity is provided with a motor cavity extending to the rear sides of the sliding cavity and the transmission cavity.

2. The automatic stir-fry and automatic filter tea dryer of claim 1 wherein: the vibrating device comprises a vibrating spring fixed on the lower end surface of the vibrating block and the lower end wall of the vibrating cavity, a vibrating shaft with a part extending into the middle cavity is rotatably arranged between the left end wall and the right end wall of the cam cavity, a vibrating cam with a part extending into the vibrating cavity is fixedly arranged on the vibrating shaft, a driving shaft is rotatably arranged between the front end wall and the rear end wall of the driving cavity, the rear side of the driving shaft is connected with a forward coupler which is fixed in the rear end wall of the driving cavity and can transmit power during forward rotation, the rear side of the forward coupler is connected with a driving cam shaft with a rear side extending into the power cavity and capable of rotating, the rear side of the driving cam shaft is fixedly provided with a driving cam positioned in the power cavity, a power sliding block positioned on the right side of the driving cam is slidably arranged in the power cavity, and a power spring is fixedly connected between the right end surface of the power sliding block and, the right end face of the power sliding block is fixed with a power connecting block of which the right side extends into the translation cavity, the right side of the power connecting block is fixed with an auxiliary sliding block, and the rear end wall of the middle cavity is rotatably provided with a middle shaft of which the rear side extends into the motor cavity.

3. The automatic stir-fry and automatic filter tea dryer of claim 1 wherein: the stir-frying device comprises a centrifugal sliding cavity which is arranged in the upper end wall of the working cavity and has a downward opening, fixed blocks which are fixedly arranged on the upper end wall of the working cavity are symmetrically arranged at the front side and the rear side of the centrifugal sliding cavity, a supporting cavity with an opening facing to one side close to the centrifugal sliding cavity is arranged in the fixed blocks, supporting sliding blocks are arranged in the supporting cavity in a sliding manner, a stir-frying motor shaft is rotatably arranged between the two prime number supporting sliding blocks, a stir-frying wheel which is positioned right below the centrifugal sliding cavity is fixedly arranged on the stir-frying motor shaft, stir-frying centrifugal cavities which are communicated with the working cavity are arranged in the stir-frying wheel in an equiangular circumferential array relative to the stir-frying motor shaft, stir-frying blocks are arranged in the stir-frying centrifugal cavities in a sliding manner, and stir-frying springs are fixedly connected between the end surface of one side of the stir-frying block, which, a stir-frying motor which is in power connection with the stir-frying motor shaft is fixed in the supporting sliding block at the rear side.

4. An automatic stir-fry and automatic filter tea dryer as claimed in claim 3 wherein: it still includes the setting in the rear side to turn over the stir-fry device support in the chamber rear end wall and the opening revolving drum chamber forward, it extends to rotate between the upper end wall in revolving drum chamber and the lower extreme wall driven pulley axle in the band pulley intracavity, driven pulley epaxial being fixed with is located the rotary drum of revolving drum intracavity, the rear side support the up end of sliding block and be fixed with the slide bar, the rear end face upside of slide bar is fixed with the rear side and extends to the guide arm in the revolving drum intracavity, the outside terminal surface of rotary drum be provided with guide arm sliding connection's ring form recess, thereby the guide arm can slide in ring form recess and make the guide arm do reciprocating motion from top to bottom, the lower extreme wall left side in band pulley chamber is rotated and is provided with initiative band pulley axle, the upside of initiative band pulley axle with driven pulley axle's upside is through a set of belt pulley connection, the downside of initiative band pulley axle is connected with to be fixed in the band pulley chamber lower The one-way coupling of power, one-way coupling's downside be connected with the downside with the driven shaft that the end wall rotates under the driven chamber is connected, be fixed with driven gear on the driven shaft, it is provided with the sliding plate that resets to slide in the chamber that resets, the lower terminal surface of sliding plate that resets with fixedly connected with reset spring between the lower end wall in chamber that resets, it extends to be fixed with the upside on the sliding plate that resets rotate intracavity downside and can move to the left side the axle that resets in the vibrations intracavity, rotate the intracavity rotate be provided with reset the axle cooperation connect just the right side with driven gear meshed driven rotates the wheel, work as when the axial that resets reciprocates, driven rotates the wheel and can rotate.

5. The automatic stir-fry and automatic filter tea dryer of claim 1 wherein: the processing device comprises a gear cavity arranged at the front side of the transmission cavity, the transmission cavity is internally and bilaterally symmetrically and rotatably provided with a crushing shaft with a front side extending into the gear cavity, a rear side of the crushing shaft on the left side extends into the motor cavity, the crushing shaft is fixedly provided with a crushing wheel positioned in the transmission cavity, the front side of the symmetrical crushing shaft is connected through a pair of straight-tooth cylindrical gear pairs, a sliding block is slidably arranged in the sliding cavity, a sliding spring is fixedly connected between the lower end surface of the sliding block and the lower end wall of the sliding cavity, the rear end wall of the sliding cavity is rotatably provided with a sliding shaft with a rear side extending into the motor cavity, a sliding cam is fixedly arranged at the front side of the sliding shaft, the outer end surface of the sliding cam is always in sliding contact with the lower end surface of the sliding block, and a pressure shaft is rotatably arranged between the front end wall and the, the crushing machine is characterized in that a pressure stop block is fixed on the pressure shaft, a torsion spring for resetting is fixedly connected between the rear end face of the pressure shaft and the rear end wall of the pressure cavity, part of the pressure stop block extends into the transmission cavity, the rear side of the sliding shaft is connected with the rear side of the left crushing shaft and the rear side of the middle shaft through a group of belt pulleys, and the rear side of the left crushing shaft is dynamically connected with a main motor fixed in the rear end wall of the motor cavity.

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