CN112665352A - Tea leaf drying device capable of drying in layered mode - Google Patents

Abstract

The invention relates to the field of tea drying, and discloses a tea drying device capable of drying in a layered manner, which comprises a drying box body, wherein a drying cavity with a forward opening is arranged in the drying box body, three swing cavities which are arranged at equal intervals are communicated and arranged on the right side of the drying cavity, a matching cavity is arranged in the drying box body and positioned on the upper side of the swing cavities, a straight gear transmission cavity is arranged on the right side of the matching cavity, a bevel gear transmission cavity is arranged on the right side of the straight gear transmission cavity, tea to be dried is placed in the drying cavity on the uppermost side at one time, and after the tea is required to be divided into a plurality of layers by manual selection, thereby realize realizing the screening layering to tealeaves to the judgement of tealeaves weight through weighing sensor's judgement, make the tealeaves of treating the stoving be in certain thickness all the time can be fully and evenly dried, guaranteed that tealeaves is in the best taste all the time after the stoving, avoided the trouble that needs manual layering around every stoving.

Description

Tea leaf drying device capable of drying in layered mode

Technical Field

The invention relates to the field related to tea drying, in particular to a tea drying device capable of drying tea layer by layer.

Background

Present tealeaves drying-machine on the market can only provide single tealeaves stoving function, and the stoving of tealeaves has different standards and requirements to thickness when tealeaves tiles when drying and the interval of putting between the tealeaves, otherwise can cause the influence to the taste after the tealeaves is dried, so need artifical manual treatment to the tealeaves of drying to carry out the processing of layering and tiling around drying, there are the factor that the taste after the in-process of concurrent operation has many places probably to the tealeaves stoving caused the influence.

Disclosure of Invention

The invention aims to provide a tea leaf drying device capable of drying in a layered mode, which can overcome the defects in the prior art, and therefore the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a tea leaf drying device capable of drying in a layered mode, which comprises a drying box body, wherein a drying cavity with a forward opening is arranged in the drying box body, the right side of the drying cavity is communicated with and provided with three swing cavities which are arranged at equal intervals, a matching cavity is arranged in the drying box body and positioned at the upper side of the swing cavities, a straight gear transmission cavity is arranged at the right side of the matching cavity, a bevel gear transmission cavity is arranged at the right side of the straight gear transmission cavity, two built-in conveyor belt cavities extending towards the rear side are arranged at the lower sides of the bevel gear transmission cavity at the upper side and the bevel gear transmission cavity at the middle part of the drying box body, a reversing cavity is arranged at the lower side of the rear side of the built-in conveyor belt cavity, a motor is fixedly connected at the right side of the bevel gear transmission cavity at the upper side in the drying box body, and a motor shaft extending, the left end wall of the straight gear transmission cavity is connected with a reciprocating control shaft which extends rightwards into the straight gear transmission cavity and leftwards into the matching cavity, the shaft of the motor is positioned at the upside, a driving bevel gear is fixedly connected in the bevel gear transmission cavity, the left end of the shaft of the motor is connected with a straight gear shaft sleeve in a spline fit manner, the outer end surface of the straight gear shaft sleeve is fixedly connected with a driving straight gear, the right end of the straight gear shaft sleeve is connected with a magnetic base in a rotating fit manner, a straight gear transmission cavity is fixedly connected between the right end surface of the magnetic base and the right end wall of the straight gear transmission cavity, a built-in electromagnet which can correspond to the magnetic base is fixedly connected in the right end wall of the straight gear transmission cavity, and the right end of the reciprocating control shaft is fixedly connected with a straight gear which can be meshed with, the terminal screw-thread fit in left side of reciprocating control axle is connected with the sleeve, be equipped with opening sleeve chamber to the right in the sleeve, the sleeve chamber with reciprocating control axle sliding fit is connected with, telescopic rear end face fixedly connected with rack, the lower extreme wall normal running fit in cooperation chamber is connected with and upwards extends to just downwardly extending in the cooperation gear shaft to the cooperation gear shaft of swing intracavity, fixedly connected with can with rack toothing's cooperation gear on the cooperation gear shaft, just be located on the cooperation gear shaft swing intracavity fixedly connected with balance staff, the box is placed to the left end face fixedly connected with of balance staff.

On the basis of the technical scheme, it is equipped with the ascending chamber of placing of opening in the box to place, place the lower terminal wall fixed connection screen cloth in chamber, the downside intercommunication of placing the chamber is equipped with the intercommunication chamber, fixedly connected with upside control button on the right-hand member face of stoving box, the right-hand member face of stoving box just is located control button in the middle of upside control button's the downside fixedly connected with, the right-hand member face of stoving box just is located control button's downside fixedly connected with downside control button in the middle.

On the basis of the technical scheme, the lower end wall of the bevel gear transmission cavity at the upper side is connected with a connecting shaft which extends upwards to the upper side in a rotating fit mode, the bevel gear transmission cavity extends downwards to penetrate through the middle of the bevel gear transmission cavity to the lower side, the connecting shaft is fixedly connected with a driven bevel gear which can be meshed with the driving bevel gear in the bevel gear transmission cavity, and the bevel gear transmission cavity at the upper side and the middle of the connecting shaft are provided with a built-in conveying belt cavity at the lower side of the bevel gear transmission cavity.

On the basis of the technical scheme, the right end face of the drying cavity is fixedly connected with two fixed box bodies which are fixedly connected with the upper placing box body and the middle rear end face of the placing box body, a linking conveyor belt cavity which extends rightwards into the drying box body is arranged in the fixed box body, a gear matching cavity is arranged in front of the left side of the linking conveyor belt cavity, the rear end wall of the reversing cavity is connected with a driving pulley shaft which extends forwards into the reversing cavity and backwards into the linking conveyor belt cavity in a rotating matching manner, the front end spline of the driving pulley shaft is connected with a bevel gear shaft sleeve in a matching manner, the outer end face of the bevel gear shaft sleeve is fixedly connected with a first bevel gear, the rear end of the bevel gear shaft sleeve is connected with a magnetic bevel gear seat in a rotating matching manner, and a reset spring is fixedly connected between the rear end face of the magnetic bevel gear seat and the rear end wall, the inner fixed connection of the rear end wall of the reversing cavity can be connected with a control electromagnet corresponding to the magnetic bevel gear seat, the upper side of the upper end wall of the built-in conveyer belt cavity is connected with a second bevel gear shaft which penetrates through the upper side of the built-in conveyer belt cavity, the reversing cavity and the middle of the built-in conveyer belt cavity to the lower side of the reversing cavity in a rotating fit mode, the second bevel gear shaft is arranged on the second bevel gear shaft and can be fixedly connected with a second bevel gear meshed with the first bevel gear, and a general conveyer belt is connected between the second bevel gear shaft and the.

On the basis of the technical scheme, the rear end wall of the gear matching cavity is connected with a trigger button which extends forwards to the gear matching cavity and extends backwards to the driven pulley shaft in the linking conveyor belt cavity, the rear end of the driven pulley shaft is fixedly connected with a driven pulley, the rear end of the driving pulley shaft is fixedly connected with a driving pulley, the driving pulley and the driven pulley are connected with a linking conveyor belt in a power matching manner, the front end wall of the gear matching cavity is connected with two symmetrically arranged rotating plate shafts in a rotating matching manner, the rear end of the rotating plate shaft is fixedly connected with a first straight gear on the left side, the rear end of the rotating plate shaft is fixedly connected with a second straight gear on the right side, a rotating plate cavity is communicated between the communicating cavity and the drying cavity, a rotating plate is arranged on the rotating plate shaft and is positioned in the rotating plate cavity, a rotating plate is fixedly connected with the rotating plate in the rotating plate cavity, the lower end surface of the rotating plate shaft is fixedly connected with a trigger button, the weight electromagnet is fixedly connected in the screen mesh, and a torsion spring is fixedly connected between the front end face of the driven belt wheel shaft and the front end wall of the gear matching cavity.

The invention has the beneficial effects that: the tealeaves that will treat to dry is through once only placing in the stoving intracavity of the top, and manual selection needs to divide into several layers with tealeaves after, thereby realize the screening layering to tealeaves to the judgement of tealeaves weight through weighing transducer's judgement, makes the tealeaves of treating to dry be in certain thickness all the time and can be fully and even by drying, has guaranteed that tealeaves is in the best taste all the time after drying, has avoided the trouble that needs manual layering around every stoving.

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 a tea leaf drying device capable of drying in layers according to the present invention.

Fig. 2 is a schematic sectional view of a-a in fig. 1.

Fig. 3 is a schematic sectional structure view of B-B in fig. 2.

Fig. 4 is a schematic sectional structure view of C-C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, 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.

Combine accompanying drawing 1-4 a tealeaves drying device that can laminate and dry, including stoving box 10, be equipped with forward stoving chamber 62 of opening in the stoving box 10, the right side intercommunication of stoving chamber 62 is equipped with the swing chamber 11 that three equidistance set up, just be located in the stoving box 10 the upside of swing chamber 11 is equipped with cooperation chamber 20, the right side of cooperation chamber 20 is equipped with straight-gear drive chamber 33, straight-gear drive chamber 33's right side is equipped with bevel gear drive chamber 37, upside bevel gear drive chamber 37 and middle bevel gear drive chamber 37's downside is equipped with two built-in conveyer belt chamber 40 that extend to the rear side, the downside of built-in conveyer belt chamber 40's rear side is equipped with switching-over chamber 61, just be located the upside in the stoving box 10 the right side fixedly connected with motor 28 of bevel gear drive chamber 37, the left end face fixedly connected with of motor 28 extends the upside left bevel gear drive chamber 37 extremely straight-gear drive chamber Motor shaft 29 in 33, the left end wall normal running fit of straight gear transmission chamber 33 is connected with and extends to right in the straight gear transmission chamber 33 and extend to left reciprocating control axle 24 in the cooperation chamber 20, just be located the upside on the motor shaft 29 fixedly connected with initiative bevel gear 36 in the bevel gear transmission chamber 37, the terminal spline fit in left side of motor shaft 29 is connected with straight gear shaft sleeve 26, the outer terminal surface fixedly connected with initiative straight gear 25 of straight gear shaft sleeve 26, the terminal normal running fit in right side of straight gear shaft sleeve 26 is connected with magnetism base 27, magnetism base 27's right-hand member face with fixedly connected with straight gear transmission chamber 33 between the right-hand member wall of straight gear transmission chamber 33, fixedly connected with can with the built-in electro-magnet 35 that magnetism base 27 corresponds in the right end wall of straight gear transmission chamber 33, the terminal fixedly connected with in right side of reciprocating control axle 24 can with the driven straight gear of initiative straight gear 25 meshing 32, the terminal screw-thread fit in left side of reciprocating control axle 24 is connected with sleeve 22, be equipped with opening sleeve chamber 23 to the right in the sleeve 22, sleeve chamber 23 with reciprocating control axle 24 sliding fit is connected with, sleeve 22's rear end face fixedly connected with rack 21, the lower end wall normal running fit in cooperation chamber 20 is connected with upwards extends to in the cooperation gear shaft 30 and downwardly extending extremely cooperation gear shaft 30 in the swing chamber 11, fixedly connected with can with the cooperation gear 31 of rack 21 meshing on the cooperation gear shaft 30, just be located on the cooperation gear shaft 30 fixedly connected with balance staff 15 in the swing chamber 11, box 16 is placed to the left end face fixedly connected with of balance staff 15.

In addition, in an embodiment, a placing cavity 17 with an upward opening is formed in the placing box 16, a lower end wall of the placing cavity 17 is fixedly connected with a screen 18, a communicating cavity 19 is formed in the lower side of the placing cavity 17 in a communicating mode, an upper control button 12 is fixedly connected to the right end face of the drying box 10, a middle control button 13 is fixedly connected to the lower side of the upper control button 12 at the right end face of the drying box 10, and a lower control button 14 is fixedly connected to the lower side of the middle control button 13 at the right end face of the drying box 10.

In addition, in one embodiment, a connecting shaft 39 extending upward into the bevel gear transmission cavity 37 at the upper side and extending downward through the bevel gear transmission cavity 37 at the middle to the lower end wall of the bevel gear transmission cavity 37 at the lower side is connected to the lower end wall of the bevel gear transmission cavity 37 at the upper side in a rotating fit manner, a driven bevel gear 38 capable of meshing with the drive bevel gear 36 is fixedly connected to the connecting shaft 39 and located in the bevel gear transmission cavity 37 at the upper side, and a built-in conveyor belt cavity 40 is arranged at the lower sides of the bevel gear transmission cavity 37 at the upper side and the bevel gear transmission cavity 37 at the middle.

In addition, in one embodiment, two fixed boxes 63 are fixedly connected to the right end surface of the drying cavity 62 and fixedly connected to the rear end surfaces of the upper placing box 16 and the middle placing box 16, a linking conveyor belt cavity 52 extending rightward into the drying box 10 is arranged in the fixed boxes 63, a gear matching cavity 46 is arranged in front of the left side of the linking conveyor belt cavity 52, a driving pulley shaft 54 extending forward into the reversing cavity 61 and extending backward into the linking conveyor belt cavity 52 is rotatably connected to the rear end wall of the reversing cavity 61, a bevel gear sleeve 60 is spline-connected to the front end of the driving pulley shaft 54, a first bevel gear 57 is fixedly connected to the outer end surface of the bevel gear sleeve 60, a magnetic bevel gear seat 59 is rotatably connected to the rear end of the bevel gear sleeve 60, a return spring 56 is fixedly connected between the rear end surface of the magnetic bevel gear seat 59 and the rear end wall of the reversing cavity 61, a control electromagnet 55 which can correspond to the magnetic bevel gear seat 59 is fixedly connected in the rear end wall of the reversing cavity 61, a second bevel gear shaft 64 which penetrates through the upper built-in conveyor belt cavity 40, the upper reversing cavity 61 and the middle built-in conveyor belt cavity 40 to the lower end wall of the reversing cavity 61 is connected to the upper end wall of the upper built-in conveyor belt cavity 40 in a rotating fit manner, a second bevel gear 58 which can be meshed with the first bevel gear 57 is fixedly connected on the second bevel gear shaft 64 and is positioned in the reversing cavity 61, and a general conveyor belt 41 is connected between the second bevel gear shaft 64 and the connecting shaft 39 in a power fit manner.

In addition, in one embodiment, the rear end wall of the gear matching cavity 46 is connected with a driven pulley shaft 49 which extends forwards to the gear matching cavity 46 and extends backwards to the linking conveyor belt cavity 52, the rear end of the driven pulley shaft 49 is fixedly connected with a driven pulley 50, the rear end of the driving pulley shaft 54 is fixedly connected with a driving pulley 53, a linking conveyor belt 51 is connected between the driving pulley 53 and the driven pulley 50 in a power matching manner, the front end wall of the gear matching cavity 46 is connected with two symmetrically arranged rotating plate shafts 43 in a rotating matching manner, the rear end of the rotating plate shaft 43 on the left side is fixedly connected with a first straight gear 45, the rear end of the rotating plate shaft 43 on the right side is fixedly connected with a second straight gear 47, a rotating plate cavity 65 is communicated between the communicating cavity 19 and the drying cavity 62, the rotating plate shaft 43 is located, fixedly connected with commentaries on classics board 42 in the commentaries on classics board chamber 65, the left side the lower terminal surface fixedly connected with of commentaries on classics board axle 43 can be by the right side the trigger button 66 that commentaries on classics board axle 43 triggered, fixedly connected with weight electro-magnet 70 in the screen cloth 18, fixedly connected with torsional spring 71 between the preceding terminal surface of driven band pulley axle 49 and the preceding end wall of gear cooperation chamber 46.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1 to 4, in the initial state of the apparatus of the present invention, the motor 28 is in an inactive state, the internal electromagnet 35 is in an inactive state, the rotating plate 42 is in a horizontal position, the connecting spring 34 is in a relaxed state, and the second bevel gear 58 and the first bevel gear 57 are in a disengaged state;

sequence of mechanical actions of the whole device:

when the tea leaf drying machine starts to work, the motor 28 is started manually, when only one layer of tea leaves needs to be dried, the tea leaves to be dried are placed in the upper side placing cavity 17, the upper side control button 12 is pressed, the upper side built-in electromagnet 35 starts to start at the moment, the upper side magnetic base 27 overcomes the elasticity of the upper side connecting spring 34 to move leftwards under the action of the repulsive force of the upper side built-in electromagnet 35, so that the upper side driving straight gear 25 and the upper side straight gear shaft sleeve 26 are driven to move leftwards, the upper side driving straight gear 25 is meshed with the upper side driven straight gear 32, the motor 28 is started to drive the motor shaft 29 to rotate, the motor shaft 29 rotates to drive the upper side driving straight gear 25 to rotate so as to drive the upper side driven straight gear 32 to rotate, the upper side driven straight gear 32 rotates to drive the upper side reciprocating control shaft, thereby driving the upper rack 21 to do left-right reciprocating motion, and the upper rack 21 to do left-right reciprocating motion so as to drive the upper matching gear 31 and the upper matching gear shaft 30 to start to do rapid forward and reverse rotation motion, thereby driving the swing shaft 15 and the placing box 16 to start to do forward and backward swinging motion around the matching gear shaft 30, so that the tea leaves placed in the upper placing cavity 17 are uniformly spread in the placing cavity 17 and are uniformly heated and dried;

when the quantity of tea leaves to be dried is large and the tea leaves to be dried need to be divided into two layers, the tea leaves to be dried are placed in the upper side placing cavity 17, the weight electromagnet 70 judges the weight of the tea leaves in the upper side placing cavity 17, when the weight exceeds a certain range, the upper side control electromagnet 55 is started, the upper side control electromagnet 55 drives the upper side magnetic bevel gear seat 59 to move forwards under the action of the repulsive force of the upper side control electromagnet 55, and therefore the upper side bevel gear shaft sleeve 60 and the upper side first bevel gear 57 are driven to move forwards, and the upper side first bevel gear 57 is meshed with the upper side second bevel gear 58;

then, the middle control button 13 is pressed, at this time, the upper internal electromagnet 35 and the middle internal electromagnet 35 are simultaneously started, the upper magnetic base 27 and the middle magnetic base 27 overcome the elastic forces of the upper connecting spring 34 and the middle connecting spring 34 to move leftward under the action of the repulsive forces of the upper internal electromagnet 35 and the middle internal electromagnet 35, so as to drive the upper driving spur gear 25, the middle driving spur gear 25, the upper driving spur gear sleeve 26, and the second spur gear sleeve 26 to move leftward, so as to drive the upper driving spur gear 25, the middle driving spur gear 25, the upper driven spur gear 32, and the middle driven spur gear 32 to mesh, the motor 28 is started to drive the motor shaft 29 to start rotating, the motor shaft 29 drives the upper driving bevel gear 36 to start rotating, so as to drive the upper driven bevel gear 38 to start rotating, the upper driven bevel gear 38 rotates, so as to drive the connecting shaft 39 to start rotating, the middle driven bevel gear 38 rotates to drive the middle driving bevel gear 36 to start rotating, so as to drive the middle motor shaft 29 to rotate, the upper motor shaft 29 and the middle motor shaft 29 rotate to drive the upper driving spur gear 25 and the middle driving spur gear 25 to start rotating so as to drive the upper driven spur gear 32 and the middle driven spur gear 32 to start rotating, the upper driven spur gear 32 and the middle driven spur gear 32 rotate to drive the upper reciprocating control shaft 24 and the middle reciprocating control shaft 24 to start rotating, the upper reciprocating control shaft 24 and the middle reciprocating control shaft 24 rotate to drive the upper sleeve 22 and the middle sleeve 22 to start reciprocating left and right, so as to drive the upper rack 21 and the middle rack 21 to reciprocate left and right, the upper rack 21 and the middle rack 21 reciprocate left and right so as to drive the upper mating gear 31 and the middle mating gear 31 and the upper mating gear shaft 30 and the middle mating gear 31 to start rapid forward and reverse rotation, thereby driving the upper swing shaft 15, the middle swing shaft 15, the upper placing box body 16 and the middle placing box body 16 to start to do the back and forth swinging motion around the upper matching gear shaft 30 and the middle matching gear shaft 30;

meanwhile, the connecting shaft 39 rotates to drive the upper general conveyor belt 41 to transmit so as to drive the upper second bevel gear shaft 64 to rotate, the upper second bevel gear shaft 64 rotates so as to drive the upper second bevel gear 58 to rotate, the upper second bevel gear 58 rotates to drive the upper first bevel gear 57 to rotate so as to drive the upper driving pulley shaft 54 to start transmission, the upper driving pulley shaft 54 rotates to drive the upper driving pulley 53 to rotate so as to drive the upper driven pulley 50 to rotate through the upper connecting conveyor belt 51, the upper driven pulley 50 rotates to drive the upper driven pulley shaft 49 to rotate so as to drive the upper right spur gear 48 to start rotation, at this time, the upper torsion spring 71 starts to accumulate force, the upper right spur gear 48 rotates to drive the upper gear matching cavity 46 and the upper second spur gear 47 to rotate in opposite directions, so that the upper rotating plate 42 and the upper rotating plate cavity 65 slowly open the upper rotating plate cavity 65 around the upper rotating, the tea leaves in the upper placing cavity 17 pass through the upper rotating plate cavity 65 to the middle placing cavity 17 through the screening of the upper screen 18 under the action of the forward and backward swinging of the upper placing box 16;

after a long period of time, the upper rotating plate 42 is opened from the horizontal state to the state of being vertical to the horizontal plane around the upper rotating plate shaft 43, at this time, the upper trigger button 66 is abutted to close the upper control electromagnet 55, so that the upper first bevel gear 57 is disengaged from the upper second bevel gear 58 under the elastic force of the upper return spring 56, and at this time, the upper driven pulley shaft 49 drives the upper rotating plate 42 to return under the accumulated force of the upper torsion spring 71;

when the quantity of tea leaves to be dried is large and the tea leaves to be dried need to be divided into three layers, the tea leaves to be dried are placed in the upper side placing cavity 17, the weight electromagnet 70 judges the weight of the tea leaves in the upper side placing cavity 17, when the weight exceeds a certain range, the upper side control electromagnet 55 and the middle control electromagnet 55 are started, the upper side control electromagnet 55 and the middle control electromagnet 55 drive the upper side magnetic bevel gear seat 59 and the middle magnetic bevel gear seat 59 to move forwards under the action of the repulsive force of the upper side control electromagnet 55 and the upper side control electromagnet 55, so that the upper side bevel gear shaft sleeve 60, the middle bevel gear shaft sleeve 60, the upper side first bevel gear 57 and the middle first bevel gear 57 are driven to move forwards, and the upper side first bevel gear 57 and the middle first bevel gear 57 are meshed with the upper side second bevel gear 58 and the middle second;

then the lower control button 14 is pressed, at this time, the upper built-in electromagnet 35, the middle built-in electromagnet 35 and the lower built-in electromagnet 35 are simultaneously started, the upper magnetic base 27, the middle magnetic base 27 and the lower magnetic base 27 overcome the elasticity of the upper connecting spring 34, the middle connecting spring 34 and the lower connecting spring 34 to move leftwards under the action of the repulsive force of the upper built-in electromagnet 35, the middle built-in electromagnet 35 and the lower built-in electromagnet 35, thereby driving the upper driving spur gear 25, the middle driving spur gear 25, the lower driving spur gear 25, the upper driving spur gear shaft sleeve 26, the second spur gear shaft sleeve 26 and the lower spur gear shaft sleeve 26 to move leftwards, driving the upper driving spur gear 25, the middle driving spur gear 25 and the lower driving spur gear 25 to be meshed with the upper driven gear 32, the middle driven spur gear 32 and the lower driven spur gear 32, the motor 28 is started to drive the motor shaft 29 to start rotating, the motor shaft 29 is rotated to drive the upper drive bevel gear 36 to start rotating to drive the upper driven bevel gear 38 to start rotating, the upper driven bevel gear 38 is rotated to drive the connecting shaft 39 to start rotating to drive the middle driven bevel gear 38 and the lower driven bevel gear 38 to start rotating, the middle driven bevel gear 38 is rotated to drive the middle drive bevel gear 36 to start rotating to drive the middle motor shaft 29 to rotate, the lower driven bevel gear 38 is rotated to drive the lower drive bevel gear 36 to start rotating to drive the lower motor shaft 29, the upper motor shaft 29 and the middle motor shaft 29 as well as the lower motor shaft 29 are rotated to drive the upper drive spur gear 25 and the middle drive spur gear 25 as well as the lower drive spur gear 25 to drive the upper driven spur gear 32 and the middle driven spur gear 32 as well as the lower, the upper driven spur gear 32, the middle driven spur gear 32 and the lower driven spur gear 32 rotate to drive the upper reciprocating control shaft 24, the middle reciprocating control shaft 24 and the lower reciprocating control shaft 24 to start rotating, the upper reciprocating control shaft 24, the middle reciprocating control shaft 24 and the lower reciprocating control shaft 24 rotate to drive the upper sleeve 22, the middle sleeve 22 and the lower sleeve 22 to start reciprocating left and right, so as to drive the upper rack 21, the middle rack 21 and the lower rack 21 to reciprocate left and right, the upper rack 21, the middle rack 21 and the lower rack 21 to drive the upper matching gear 31, the middle matching gear 31, the lower matching gear 31, the upper matching gear shaft 30, the middle matching gear 31 and the lower matching gear 31 to start rotating fast and forward and backward, so as to drive the upper swing shaft 15, the middle swing shaft 15, the upper placing box 16, the middle placing box 16 and the lower placing box 16 Starting to swing back and forth around the upper-side fitting gear shaft 30, the middle fitting gear shaft 30 and the lower-side fitting gear shaft 30;

meanwhile, the connecting shaft 39 rotates to drive the upper general conveyor belt 41 and the lower general conveyor belt 41 to transmit so as to drive the upper second bevel gear shaft 64 and the lower second bevel gear shaft 64 to rotate, the upper second bevel gear shaft 64 and the lower second bevel gear shaft 64 rotate so as to drive the upper second bevel gear 58 and the lower second bevel gear 58 to rotate, the upper second bevel gear 58 and the lower second bevel gear 58 rotate to drive the upper first bevel gear 57 and the lower first bevel gear 57 to rotate, so as to drive the upper driving pulley shaft 54 and the lower driving pulley shaft 54 to start transmission, the upper driving pulley shaft 54 and the lower driving pulley shaft 54 rotate to drive the upper driving pulley 53 and the lower driving pulley 53 to rotate, so as to drive the upper driven pulley 50 and the lower driven pulley 50 to rotate through the upper engaging conveyor belt 51 and the lower engaging conveyor belt 51, the upper driven pulley 50 and the lower driven pulley 50 rotate to drive the upper driven The upper right spur gear 48 and the lower right spur gear 48 are driven to rotate, at the moment, the upper torsion spring 71 and the lower torsion spring 71 start to accumulate force, the upper right spur gear 48 rotates, the lower right spur gear 48 drives the upper gear matching cavity 46 and the lower gear matching cavity 46, the upper second spur gear 47 and the lower second spur gear 47 to rotate in opposite directions, therefore, the upper rotating plate 42, the lower rotating plate 42, the upper rotating plate cavity 65 and the lower rotating plate cavity 65 slowly open the upper rotating plate cavity 65 and the lower rotating plate cavity 65 around the upper rotating plate shaft 43 and the lower rotating plate shaft 43, so that the tea leaves in the upper placing cavity 17 pass through the upper rotating plate cavity 65 and the middle placing cavity 17 under the action of the front-back swing of the upper placing box 16 through the screening of the upper screen mesh 18, and the tea leaves in the middle placing cavity 17 pass through the middle rotating plate cavity 65 and the lower placing cavity 17 under the action of the front-back swing of the middle placing box 16 through the screening of the middle screen mesh 18;

after a long period of time, the upper rotating plate 42 and the middle rotating plate 42 are opened from the horizontal state to the state of being vertical to the horizontal plane around the upper rotating plate shaft 43 and the middle rotating plate shaft 43, at this time, the upper trigger button 66 and the middle are abutted, so that the upper control electromagnet 55 and the middle control electromagnet 55 are closed, the upper first bevel gear 57 and the middle first bevel gear 57 are disengaged from the upper second bevel gear 58 and the middle second bevel gear 58 under the elastic force of the upper return spring 56 and the middle return spring 56, and at this time, the upper driven pulley shaft 49 and the middle driven pulley shaft 49 drive the upper rotating plate 42 to be reset and the middle rotating plate 42 under the accumulated force of the upper torsion spring 71 and the middle torsion spring 71.

The invention has the beneficial effects that: the tealeaves that will treat to dry is through once only placing in the stoving intracavity of the top, and manual selection needs to divide into several layers with tealeaves after, thereby realize the screening layering to tealeaves to the judgement of tealeaves weight through weighing transducer's judgement, makes the tealeaves of treating to dry be in certain thickness all the time and can be fully and even by drying, has guaranteed that tealeaves is in the best taste all the time after drying, has avoided the trouble that needs manual layering around every stoving.

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 a tealeaves drying device that can stratify stoving, includes the stoving box, its characterized in that: it is equipped with the stoving chamber that the opening is preceding to dry the internal stoving chamber that is equipped with, the right side intercommunication in stoving chamber is equipped with the swing chamber that three equidistance set up, the stoving box is internal and be located the upside in swing chamber is equipped with the cooperation chamber, the right side in cooperation chamber is equipped with straight-teeth gear drive chamber, the right side in straight-teeth gear drive chamber is equipped with bevel gear drive chamber, the upside bevel gear drive chamber and centre the downside in bevel gear drive chamber is equipped with two built-in conveyer belt chambers that extend to the rear side, the downside of the rear side in built-in conveyer belt chamber is equipped with the switching-over chamber, the stoving box is internal and is located the upside the right side fixedly connected with motor in bevel gear drive chamber, the left end face fixedly connected with of motor extends the upside left bevel gear drive chamber extremely the motor shaft in straight-teeth gear drive chamber, the left end wall normal running fit in straight-teeth gear drive chamber is connected with extends to right the straight- A driving bevel gear is fixedly connected in the bevel gear transmission cavity on the upper side of the motor shaft, a straight gear shaft sleeve is connected in a spline fit manner at the left end of the motor shaft, a driving straight gear is fixedly connected on the outer end face of the straight gear shaft sleeve, a magnetic base is connected in a rotating fit manner at the right end of the straight gear shaft sleeve, a straight gear transmission cavity is fixedly connected between the right end face of the magnetic base and the right end wall of the straight gear transmission cavity, a built-in electromagnet capable of corresponding to the magnetic base is fixedly connected in the right end wall of the straight gear transmission cavity, a driven straight gear capable of being meshed with the driving straight gear is fixedly connected at the right end of the reciprocating control shaft, a sleeve is connected in a threaded fit manner at the left end of the reciprocating control shaft, a sleeve cavity with a right opening is arranged in the sleeve, and the sleeve cavity is connected with the, telescopic rear end face fixedly connected with rack, the lower terminal wall normal running fit in cooperation chamber is connected with and upwards extends to in the cooperation gear shaft and downwardly extending to the cooperation gear shaft of swing intracavity, fixedly connected with can with rack toothing's cooperation gear on the cooperation gear shaft, just be located on the cooperation gear shaft swing intracavity fixedly connected with pendulum shaft, the box is placed to the left end face fixedly connected with of pendulum shaft.

2. The tea leaf drying device capable of layered drying according to claim 1, wherein: the utility model discloses a drying box, including placing the box, placing the box and being equipped with the ascending chamber of placing of opening, place the lower extreme wall fixed connection screen cloth in chamber, the downside intercommunication of placing the chamber is equipped with the intercommunication chamber, fixedly connected with upside control button on the right-hand member face of stoving box, the right-hand member face of stoving box just is located control button in the middle of upside control button's downside fixedly connected with, the right-hand member face of stoving box just is located control button in the middle of the downside fixedly connected with of middle control button.

3. The tea leaf drying device capable of layered drying according to claim 1, wherein: the upside the lower extreme wall normal running fit in bevel gear transmission chamber is connected with and upwards extends to the upside bevel gear transmission intracavity and downwardly extending run through the centre bevel gear transmission chamber to downside the connecting axle of the lower extreme wall in bevel gear transmission chamber, just be located on the connecting axle bevel gear transmission intracavity fixedly connected with can with the driven bevel gear of drive bevel gear meshing, upside bevel gear transmission chamber and centre the downside in bevel gear transmission chamber is equipped with built-in conveyer belt chamber.

4. The tea leaf drying device capable of layered drying according to claim 1, wherein: the right-hand member face fixedly connected with of stoving chamber two and with the upside place the box and centre place the rear end face fixed connection's of box fixed box, be equipped with in the fixed box and extend to right linking conveyer belt chamber in the stoving box, the left place ahead that links up the conveyer belt chamber is equipped with gear cooperation chamber, the rear end wall normal running fit in switching-over chamber is connected with and extends to forward the switching-over intracavity and extend to backward link up the initiative band pulley axle in the conveyer belt intracavity, the terminal spline fit in front side of initiative band pulley axle is connected with the bevel gear axle sleeve, the first bevel gear of outer terminal surface fixedly connected with of bevel gear axle sleeve, the terminal normal running fit in rear side of bevel gear axle sleeve is connected with magnetism bevel gear seat, the rear end face of magnetism bevel gear seat with fixedly connected with reset spring between the rear end wall in switching-over chamber, fixedly connected with can with the control electromagnetism that magnetism bevel gear seat corresponds in the rear end wall in switching- The upper end wall of the built-in conveyer belt cavity on the upper side is connected with a second bevel gear shaft which penetrates through the upper side, the built-in conveyer belt cavity, the upper side, the reversing cavity and the middle part, the built-in conveyer belt cavity reaches the lower side, the lower end wall of the reversing cavity is arranged on the second bevel gear shaft, the second bevel gear shaft is fixedly connected with a second bevel gear which can be meshed with the first bevel gear, and a general conveyer belt is connected between the second bevel gear shaft and the connecting shaft in a power fit manner.

5. The tea leaf drying device capable of layered drying according to claim 1, wherein: the rear end wall of the gear matching cavity is connected with a driven pulley shaft which extends forwards to the gear matching cavity and extends backwards to the linking conveyor belt cavity, the rear end of the driven pulley shaft is fixedly connected with a driven pulley, the rear end of the driving pulley shaft is fixedly connected with a driving pulley, a linking conveyor belt is connected between the driving pulley and the driven pulley in a power matching manner, the front end wall of the gear matching cavity is connected with two symmetrically arranged rotating plate shafts in a rotating manner, the rear end of the rotating plate shaft at the left side is fixedly connected with a first straight gear, the rear end of the rotating plate shaft at the right side is fixedly connected with a second straight gear, a rotating plate cavity is communicated between the communicating cavity and the drying cavity, a rotating plate is fixedly connected with a rotating plate in the rotating plate cavity at the upper side of the rotating plate shaft, the lower end face of the rotating plate shaft at the left side is fixedly connected with a trigger button which can be triggered by the rotating plate shaft at the right, the weight electromagnet is fixedly connected in the screen mesh, and a torsion spring is fixedly connected between the front end face of the driven belt wheel shaft and the front end wall of the gear matching cavity.

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