CN205284876U - Tea leaf drying device - Google Patents

Abstract

The utility model provides a tea leaf drying device, including backplane device, the framework device, the motor device, heating device, mobile device and support device, backplane device includes the bottom plate, first gyro wheel and first down tube, the framework device includes the framework, first horizontal pole, first pipeline, the fan, transition ring, first support and first montant, the motor device includes the motor, first pivot, the carousel, first bracing piece, first supporting shoe, second support and first fixed loop, heating device includes heat -dissipating frame, the iron net, the heating rod, first fender ring, the second fixed loop, the mobile device includes the bumping post, an inner ring, the connecting plate, the second montant, first sawtooth and locating lever, the support device includes first mount, the second horizontal pole, a spring, the second down tube, the second mount, the third montant, the fourth montant, the third mount, the second gyro wheel, the bumping post is the cylinder of cross section for the ring, the lower surface of bumping post and heat -dissipating frame's last surface contact, the utility model discloses can carry out effective quick stoving to tealeaves.

Description

A kind of tea drying device

Technical field

The present invention relates to tea machinery technical field, particularly relate to a kind of tea drying device.

Background technology

Tea drier is one of equipment important in Tea Production processing, directly influence whether the quality of Folium Camelliae sinensis, the differential pressure completed, through drying to pack and dispatch from the factory, existing tea drier is divided into drum-type and box, employing of the prior art be generally box tea drier, current tea leaf drier is that by conveyer belt, Folium Camelliae sinensis is sent into drying chamber, hot-air after heating is sent into drying chamber simultaneously, Folium Camelliae sinensis is dried. This dehydrator is due to Folium Camelliae sinensis transfixion in baking process, it is easy to Folium Camelliae sinensis is heated uneven, and then the production affecting Folium Camelliae sinensis is irregularly shaped, also have impact on the quality of Folium Camelliae sinensis, and this dehydrator makes drying efficiency low.

Accordingly, it is desirable to provide a kind of new technical scheme solves above-mentioned technical problem.

Summary of the invention

It is an object of the invention to provide a kind of tea drying device that can effectively solve above-mentioned technical problem.

In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that

A kind of tea drying device, described tea drying device includes bottom plate apparatus, it is positioned at the frame device above described bottom plate apparatus, it is positioned at the electric machine within described frame device, it is positioned at the heater above described electric machine, it is positioned at the mobile device above described heater and is positioned at the holder device above described mobile device, described bottom plate apparatus includes base plate, it is positioned at the first roller below described base plate and is positioned at the first brace above described base plate, described frame device includes framework, it is positioned at the first cross bar within described framework, it is positioned at the first pipeline of the described framework left and right sides, it is arranged at the blower fan on described first pipeline, it is arranged at the filtering ring on described first pipeline, it is positioned at the first support below described first pipeline and is arranged at the first montant on described first support, described electric machine includes motor, it is positioned at the first rotating shaft above described motor, it is positioned at the rotating disk above described first rotating shaft, it is positioned at the first support bar of the described motor left and right sides, it is positioned at first bracer of described first support bar side, it is positioned at the second support above described first bracer and is positioned at the first retainer ring above described rotating disk, described heater includes heat radiation frame, it is positioned at the ferrum net of described heat radiation frame, it is positioned at the heating rod of described ferrum net, it is positioned at the first baffle ring on described heat radiation frame, it is positioned at the second retainer ring on described heat radiation frame, described mobile device includes bumping post, it is positioned at the internal ring of described bumping post, it is positioned at the connecting plate above described internal ring, it is positioned at the second montant above described connecting plate, it is arranged at first sawtooth on the described second right surface of montant and is positioned at the location bar above described bumping post, described holder device includes the first fixed mount, it is arranged at the second cross bar on described first fixed mount, it is positioned at the spring above described second cross bar, it is positioned at the second brace above described spring, it is positioned at the second fixed mount above described first fixed mount, it is positioned at the 3rd montant on the right side of described first fixed mount, it is positioned at the 4th montant below described second brace, it is positioned at the 3rd fixed mount on the right side of described 3rd montant, it is arranged at the second roller on described 3rd fixed mount, described bumping post is cross section is the cylinder of annulus, described bumping post is vertically placed, the upper surface of the lower surface of described bumping post and described heat radiation frame, the outer surface of described second retainer ring contacts with the inner surface of described bumping post, the outer surface of described first baffle ring and the outer surface of described bumping post are slidably connected, the inner surface of described first cross bar and the outer surface of described bumping post are slidably connected, the side of described bumping post is provided with some second through holes, described second through hole communicates with the inside of described bumping post, described internal ring is in the form of a ring, the cross section of described internal ring is L-shaped, described internal ring is fixing with the inner surface of described bumping post to be connected, the other end of described internal ring is vertical shape, described internal ring is provided with third through-hole, described third through-hole runs through the surface, left and right of described internal ring, the cross section of described connecting plate is in the shape of the letter V, the two ends of described connecting plate are fixing with the inner surface of described bumping post to be connected, described connecting plate is provided with some fourth holes running through described connecting plate upper and lower surface, described second montant is cuboid, described second montant is vertically placed, the lower end of described second montant is fixing with the upper surface of described connecting plate to be connected, the cross section of described first sawtooth is triangular in shape, the left surface of described first sawtooth is fixing with the right surface of described second montant to be connected, described location bar is cuboid, described location bar is vertically placed, the lower end of described location bar is fixing with the upper surface of described bumping post to be connected, the left surface of the right surface of described location bar and described 4th montant is slidably connected.

Described base plate is cuboid, described floor level is placed, described first roller is provided with two and lays respectively at the left and right sides, described first roller is cylinder, described first roller water placing flat, described first brace is provided with two and lays respectively at the left and right sides, the described first inclined shape of brace, and the lower end of described first brace is fixing with the upper surface of described base plate to be connected.

Described framework is hollow cylinder, described framework is vertically placed, the cross section of described framework is concave shape, the lower surface of described framework is fixing with the upper surface of described base plate to be connected, the upper end of described first brace is fixing with the side of described framework to be connected, the side of described framework is provided with the first through hole, described first through hole communicates with the inside of described framework, described first cross bar is in the form of a ring, described first cross bar is horizontal, the outer surface of described first cross bar is fixing with the inner surface of described framework to be connected, the upper surface of described first cross bar and the upper surface of described framework are in same level.

Described first pipeline is horizontal, one end of described first pipeline is directed at described first through hole and fixing with the side of described framework is connected, described filtering ring is hollow spherical, described first pipeline runs through the side of described filtering ring and fixing with described filtering ring is connected, described first support is L-shaped, one end of described first support is fixing with the side of described framework to be connected, the other end of described first support is fixing with described first pipeline to be connected, described first montant is vertical shape, described first montant is cuboid, the upper end of described first montant is fixing with described first pipeline to be connected, the lower end of described first montant is fixing with described first support to be connected.

The lower surface of described motor is fixing with the upper surface of described base plate to be connected, described first rotating shaft is cylinder, described first rotating shaft is vertically placed, the lower end of described first rotating shaft is connected with described motor, described rotating disk is cylinder, described rotating disk horizontal positioned, the upper end of described first rotating shaft is fixing with the lower surface of described rotating disk to be connected, described rotating disk is contained in interior and with described framework the inner surface of described framework and is slidably connected, described first support bar is provided with two and lays respectively at the left and right sides, described first support bar is cuboid, described first support bar is vertically placed, the lower surface of described first support bar is fixing with the inner surface of described framework to be connected, the upper surface of described first support bar and the lower surface of described rotating disk are slidably connected, described first bracer is cuboid, described first bracer is provided with two and lays respectively at the left and right sides, described first bracer is vertically placed, the lower surface of described first bracer is fixing with the inner surface of described framework to be connected.

Described second support is provided with two and lays respectively at the left and right sides, described second support is L-shaped, one end of described second support is fixing with the inner surface of described framework to be connected, the other end of described second support and the lower surface of described rotating disk are slidably connected, described first retainer ring is cross section is the cylinder of annulus, described first retainer ring is vertically placed, and the lower surface of described first retainer ring is fixing with the upper surface of described rotating disk to be connected.

Described heat radiation frame is hollow cylinder, the cross section of described heat radiation frame is concave shape, the lower surface of described heat radiation frame is fixing with the upper surface of described rotating disk to be connected, the inner surface of described first retainer ring is fixing with the outer surface of described heat radiation frame to be connected, described ferrum net is hollow cylinder, the cross section of described ferrum net is concave shape, the lower surface of described ferrum net is fixing with the upper surface of described rotating disk to be connected, described first baffle ring is cross section is the cylinder of annulus, described first baffle ring horizontal positioned, the outer surface of described first baffle ring is fixing with the inner surface of described framework to be connected, the lower surface of described first baffle ring is connected with the upper surface slide of described heat radiation frame, described second retainer ring is in the form of a ring, the cross section of described second retainer ring is at right angles trapezoidal, the lower surface of described second retainer ring is fixing with the upper surface of described heat radiation frame to be connected, the inclined shape of upper surface of described second retainer ring.

Described first fixed mount is L-shaped, one end of described first fixed mount is fixing with the upper surface of described first cross bar to be connected, the other end of described first fixed mount is horizontal, described first fixed mount is provided with fifth hole, described fifth hole runs through the upper and lower surface of described first fixed mount, described second cross bar is cuboid, described second cross bar horizontal positioned, the left end of described second cross bar and described first fixed mount are slidably connected, the right-hand member of described second cross bar is fixing with the side of described bumping post to be connected, described spring is vertically placed, the lower end of described spring is fixing with the upper surface of described second cross bar to be connected, the upper end of described spring is fixing with the lower surface of described second brace to be connected, the described second inclined shape of brace, the left end of described second brace is fixing with described first fixed mount to be connected, the right-hand member of described second brace is fixing with the left surface of described 3rd montant to be connected, described second brace is provided with through the clematis stem hole of its upper and lower surface, described second fixed mount is concave shape, the lower surface of described second fixed mount is fixing with the upper surface of described first fixed mount to be connected, described second fixed mount is positioned at the surface of described fifth hole.

Described 4th montant is vertical shape, the upper end of described 4th montant is fixing with the lower surface of described second brace to be connected, the inner surface of described 4th montant and described bumping post is slidably connected, described 3rd montant is cuboid, described 3rd montant is vertically placed, one end of described first support is fixing with the left surface of described 3rd montant to be connected, the left surface of described second montant is fixing with the right surface of described 3rd montant to be connected, described 3rd fixed mount is concave shape, one end of described 3rd fixed mount is fixing with the right surface of described 3rd montant to be connected, the other end of described 3rd fixed mount is horizontal, described 3rd fixed mount is provided with circular hole and is positioned at the groove of the other end, described circular hole runs through the upper and lower surface of described 3rd fixed mount, described second roller is cylinder, described second roller water placing flat, described second roller is contained in described groove and turns with described 3rd fixed mount axle and is connected, described second roller is provided with the second sawtooth.

After adopting technique scheme, present invention have the advantage that

Tea drying device simple in construction of the present invention, easy to use, Folium Camelliae sinensis can be dried fast and effectively, and be possible to prevent Folium Camelliae sinensis transfixion, while Folium Camelliae sinensis is dried, Folium Camelliae sinensis can be blown afloat, the contact area making hot blast and Folium Camelliae sinensis increases, thus being more beneficial for carrying out flash baking, is possible to prevent Folium Camelliae sinensis to be scorched simultaneously, improve drying efficiency, reduce cost.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the detailed description of the invention of tea drying device of the present invention is described further:

Fig. 1 is the structural representation of tea drying device of the present invention;

Detailed description of the invention

As it is shown in figure 1, tea drying device of the present invention includes bottom plate apparatus 1, is positioned at the frame device 2 above described bottom plate apparatus 1, is positioned at the electric machine 3 within described frame device 2, is positioned at the heater 4 above described electric machine 3, is positioned at the mobile device 5 above described heater 4 and is positioned at the holder device 6 above described mobile device 5.

As it is shown in figure 1, described bottom plate apparatus includes base plate 11, is positioned at the first roller 12 below described base plate 11 and is positioned at the first brace 13 above described base plate 11. Described base plate 11 is cuboid, described base plate 11 horizontal positioned. Described first roller 12 is provided with two and lays respectively at the left and right sides, and described first roller 12 is cylinder, described first roller 12 horizontal positioned. Described first brace 13 is provided with two and lays respectively at the left and right sides, the described first inclined shape of brace 13, and the lower end of described first brace 13 is fixing with the upper surface of described base plate 11 to be connected.

As it is shown in figure 1, described frame device 2 includes framework 21, is positioned at the first cross bar 22 within described framework 21, is positioned at the first pipeline 23 of described framework 21 left and right sides, the blower fan 24 being arranged on described first pipeline 23, the filtering ring 25 being arranged on described first pipeline 23, be positioned at the first support 26 below described first pipeline 23 and be arranged at the first montant 27 on described first support 26. Described framework 21 is in hollow cylinder, described framework 21 is vertically placed, the cross section of described framework 21 is concave shape, the lower surface of described framework 21 is fixing with the upper surface of described base plate 11 to be connected, the upper end of described first brace 13 is fixing with the side of described framework 21 to be connected, the side of described framework 21 is provided with the first through hole 211, described first through hole 211 is provided with two and lays respectively on the surface, left and right of described framework 21, described first through hole 211 is in cylindrical shape, and described first through hole 211 communicates with the inside of described framework 21.In the form of a ring, described first cross bar 22 is horizontal for described first cross bar 22, and the outer surface of described first cross bar 22 is fixing with the inner surface of described framework 21 to be connected, and the upper surface of described first cross bar 22 and the upper surface of described framework 21 are in same level. Described first pipeline 23 is provided with two and lays respectively at the left and right sides, described first pipeline 23 is horizontal, one end of described first pipeline 23 is directed at described first through hole 211 and fixing with the side of described framework 21 is connected so that the inside of described first pipeline 23 communicates with the inside of described framework 21. Described blower fan 24 is arranged on described first pipeline 23, for being drawn in the first pipeline 23 by extraneous air. Described filtering ring 25 is in hollow spherical, and described first pipeline 23 runs through the side of described filtering ring 25 and fixing with described filtering ring 25 is connected so that enters into the air in described first pipeline 23 and has to pass through the filtration of filtering ring 25. Described first support 26 is L-shaped, and one end of described first support 26 is fixing with the side of described framework 21 to be connected, and the other end of described first support 26 is fixing with described first pipeline 23 to be connected. Described first montant 27 is in vertical shape, and described first montant 27 is in cuboid, and the upper end of described first montant 27 is fixing with described first pipeline 23 to be connected, and the lower end of described first montant 27 is fixing with described first support 26 to be connected.

As it is shown in figure 1, described electric machine 3 includes motor 31, is positioned at the first rotating shaft 32 above described motor 31, is positioned at the rotating disk 33 above described first rotating shaft 32, is positioned at the first support bar 34 of described motor 31 left and right sides, is positioned at first bracer 35 of described first support bar 34 side, is positioned at the second support 36 above described first bracer 35 and is positioned at the first retainer ring 37 above described rotating disk 33. The lower surface of described motor 31 is fixing with the upper surface of described base plate 11 to be connected. Described first rotating shaft 32 is in cylinder, and described first rotating shaft 32 is vertically placed, and the lower end of described first rotating shaft 32 is connected with described motor 31 so that described motor 31 drives described first rotating shaft 32 to rotate. Described rotating disk 33 is in cylinder, described rotating disk 33 horizontal positioned, the upper end of described first rotating shaft 32 is fixing with the lower surface of described rotating disk 33 to be connected, described rotating disk 33 is contained in interior and with described framework 21 the inner surface of described framework 21 and is slidably connected so that described rotating disk 33 can rotate in described framework 21. Described first support bar 34 is provided with two and lays respectively at the left and right sides, described first support bar 34 is in cuboid, described first support bar 34 is vertically placed, the lower surface of described first support bar 34 is fixing with the inner surface of described framework 21 to be connected, the upper surface of described first support bar 34 and the lower surface of described rotating disk 33 are slidably connected so that described rotating disk 33 can rotate. Described first bracer 35 is in cuboid, and described first bracer 35 is provided with two and lays respectively at the left and right sides, and described first bracer 35 is vertically placed, and the lower surface of described first bracer 35 is fixing with the inner surface of described framework 21 to be connected. Described second support 36 is provided with two and lays respectively at the left and right sides, described second support 36 is L-shaped, one end of described second support 36 is fixing with the inner surface of described framework 21 to be connected, the other end of described second support 36 and the lower surface of described rotating disk 33 are slidably connected so that described rotating disk 36 can rotate on described second support the 36, first support bar 34.Described first retainer ring 37 is the cylinder of annulus in cross section, and described first retainer ring 37 is vertically placed, and the lower surface of described first retainer ring 37 is fixing with the upper surface of described rotating disk 33 to be connected.

As it is shown in figure 1, described heater 4 includes heat radiation frame 41, is positioned at the ferrum net 42 of described heat radiation frame 41, the heating rod 33 being positioned at described ferrum net 42, the first baffle ring 45 being positioned on described heat radiation frame 41, the second retainer ring 46 of being positioned on described heat radiation frame 41. Described heat radiation frame 41 is in hollow cylinder, the cross section of described heat radiation frame 41 is concave shape, the lower surface of described heat radiation frame 41 is fixing with the upper surface of described rotating disk 33 to be connected, the inner surface of described first retainer ring 37 is fixing with the outer surface of described heat radiation frame 41 to be connected, such that it is able to described heat radiation frame 41 is played fixation. Described ferrum net 42 is in hollow cylinder, and the cross section of described ferrum net 42 is concave shape, and the lower surface of described ferrum net 42 is fixing with the upper surface of described rotating disk 33 to be connected. Described heating rod 44 is positioned at described ferrum net 42, and described heating rod 44 is fixing with the upper surface of described rotating disk 33 to be connected, and described heating rod 44 may be used for heating, and described ferrum net 42 is possible to prevent dust or water droplet to drop on described heating rod 44. Described first baffle ring 45 is the cylinder of annulus in cross section, described first baffle ring 45 horizontal positioned, the outer surface of described first baffle ring 45 is fixing with the inner surface of described framework 21 to be connected, and the lower surface of described first baffle ring 45 is connected with the upper surface slide of described heat radiation frame 41. In the form of a ring, the cross section of described second retainer ring 46 is at right angles trapezoidal for described second retainer ring 46, and the lower surface of described second retainer ring 46 is fixing with the upper surface of described heat radiation frame 41 to be connected, the inclined shape of upper surface of described second retainer ring 46.

As it is shown in figure 1, described mobile device 5 includes bumping post 51, is positioned at the internal ring 52 of described bumping post 51, is positioned at the connecting plate 53 above described internal ring 52, is positioned at the second montant 54 above described connecting plate 53, is arranged at first sawtooth 55 on the described second right surface of montant 54 and is positioned at the location bar 56 above described bumping post 51. described bumping post 51 is the cylinder of annulus in cross section, described bumping post 51 is vertically placed, the upper surface of the lower surface of described bumping post 51 and described heat radiation frame 41, the outer surface of described second retainer ring 46 contacts with the inner surface of described bumping post 51, the outer surface of described first baffle ring 45 and the outer surface of described bumping post 51 are slidably connected, the inner surface of described first cross bar 22 and the outer surface of described bumping post 51 are slidably connected, the side of described bumping post 51 is provided with some second through holes 511, described second through hole 511 is evenly distributed on the side of described bumping post 51, described second through hole 511 is in cylindrical shape, described second through hole 511 communicates with the inside of described bumping post 51. described internal ring 52 is in the form of a ring, the cross section of described internal ring 52 is L-shaped, described internal ring 52 is fixing with the inner surface of described bumping post 51 to be connected, the other end of described internal ring 52 is vertical shape, described internal ring 52 is provided with third through-hole 521, described third through-hole 521 is provided with several and is evenly distributed on described internal ring 52, and described third through-hole 521 runs through the surface, left and right of described internal ring 52. the cross section of described connecting plate 53 is in the shape of the letter V, the two ends of described connecting plate 53 are fixing with the inner surface of described bumping post 51 to be connected, described connecting plate 53 is provided with some fourth holes 531 running through described connecting plate 53 upper and lower surface so that the Folium Camelliae sinensis on described connecting plate 53 can drop into the lower section of described connecting plate 53.Described second montant 54 is in cuboid, and described second montant 54 is vertically placed, and the lower end of described second montant 54 is fixing with the upper surface of described connecting plate 53 to be connected. Described first sawtooth 55 is provided with several and is arranged in order up and down, and the cross section of described first sawtooth 55 is triangular in shape, and the left surface of described first sawtooth 55 is fixing with the right surface of described second montant 54 to be connected. Described location bar 56 is in cuboid, and described location bar 56 is vertically placed, and the lower end of described location bar 56 is fixing with the upper surface of described bumping post 51 to be connected, and the left surface of the right surface of described location bar 56 and described 4th montant 66 is slidably connected.

As it is shown in figure 1, described holder device 6 includes the first fixed mount 61, the second cross bar 62 of being arranged on described first fixed mount 61, the second roller 69 of being positioned at the spring 63 above described second cross bar 62, being positioned at the second brace 64 above described spring 63, be positioned at the second fixed mount 65 above described first fixed mount 61, be positioned at the 3rd montant 67 on the right side of described first fixed mount 61, be positioned at the 4th montant 66 below described second brace 64, be positioned at the 3rd fixed mount 68 on the right side of described 3rd montant 67, be arranged on described 3rd fixed mount 68. Described first fixed mount 61 is L-shaped, one end of described first fixed mount 61 is fixing with the upper surface of described first cross bar 22 to be connected, the other end of described first fixed mount 61 is horizontal, described first fixed mount 61 is provided with fifth hole 611, described fifth hole 611 is in rectangular-shaped, and described fifth hole 611 runs through the upper and lower surface of described first fixed mount 61. Described second cross bar 62 is in cuboid, and described second cross bar 62 horizontal positioned, the left end of described second cross bar 62 and described first fixed mount 61 are slidably connected, and the right-hand member of described second cross bar 62 is fixing with the side of described bumping post 51 to be connected. Described spring 63 is vertically placed, and the lower end of described spring 63 is fixing with the upper surface of described second cross bar 62 to be connected, and the upper end of described spring 63 is fixing with the lower surface of described second brace 64 to be connected. The described second inclined shape of brace 64, the left end of described second brace 64 is fixing with described first fixed mount 61 to be connected, the right-hand member of described second brace 64 is fixing with the left surface of described 3rd montant 67 to be connected, being provided with through the clematis stem hole 641 of its upper and lower surface on described second brace 64, described clematis stem hole 641 is positioned at the underface of described fifth hole 611. Described second fixed mount 65 is in concave shape, and the lower surface of described second fixed mount 65 is fixing with the upper surface of described first fixed mount 61 to be connected, and described second fixed mount 65 is positioned at the surface of described fifth hole 611. Described 4th montant 66 is in vertical shape, and the upper end of described 4th montant 66 is fixing with the lower surface of described second brace 64 to be connected, and the inner surface of described 4th montant 66 and described bumping post 51 is slidably connected. Described 3rd montant 67 is in cuboid, and described 3rd montant 67 is vertically placed, and one end of described first support 61 is fixing with the left surface of described 3rd montant 67 to be connected, and the left surface of described second montant 54 is fixing with the right surface of described 3rd montant 67 to be connected. Described 3rd fixed mount 68 is in concave shape, one end of described 3rd fixed mount 68 is fixing with the right surface of described 3rd montant 67 to be connected, the other end of described 3rd fixed mount 68 is horizontal, described 3rd fixed mount 68 is provided with circular hole 681 and is positioned at circular hole 681 described in the groove 682 of the other end in cylinder, described circular hole 681 runs through the upper and lower surface of described 3rd fixed mount 68, described second montant 54 can be passed, and described groove 682 is in rectangular-shaped.Described second roller 69 is in cylinder, described second roller 69 horizontal positioned, described second roller 69 is contained in described groove 682 and turns with described 3rd fixed mount 68 axle and is connected, described second roller 69 can be rotated in described groove 682, described second roller 69 is provided with the second sawtooth 691, described second sawtooth 691 is evenly distributed on described second roller 69, described second sawtooth 691 cooperates with described first sawtooth 55, such that it is able to drive described second montant 54 to move up and down.

As shown in Figure 1, when described tea drying device of the present invention uses, first Folium Camelliae sinensis is put in bumping post 51, then pass through fourth hole 531 and enter in bumping post 51, heating rod 44 begins to warm up simultaneously, heat enters in bumping post 51 through ferrum net 42 and heat radiation frame 41, such that it is able to the Folium Camelliae sinensis in bumping post 51 is carried out preliminary drying, then blower fan 24 is started, the air making the external world is drawn in the first pipeline 23, and through the filtration of filtering ring 25, it is then passed through the first through hole 211 to enter into framework 21 and pinch, it is then passed through the second through hole 511 and third through-hole 521 enters in internal ring 52, Folium Camelliae sinensis in bumping post 51 is blown afloat, owing to the temperature in bumping post 51 is higher, make air enter into temperature after in bumping post 51 to raise, make can Folium Camelliae sinensis better be dried when being blown afloat by Folium Camelliae sinensis, drying effect is good, and quickly, and it is uneven to be possible to prevent Folium Camelliae sinensis to be heated, motor 31 can be started simultaneously, rotating disk 33 is made to start to rotate, heat radiation frame 41 is rotated, such that it is able to drive the Folium Camelliae sinensis above heat radiation frame 41 to do centrifugal motion, such that it is able to effectively prevent Folium Camelliae sinensis to be packed together, make all directions that Folium Camelliae sinensis can be distributed in bumping post 51, make drying effect better. after drying structure, second roller 69 is rotated, by the second sawtooth 691 and the first sawtooth 55, second montant 54 is moved up, and then by connecting plate 53, bumping post 51 is moved up, location bar 56 moves up simultaneously, second cross bar 62 is moved up, spring 63 is compressed, then location bar 56 traverse clematis stem hole 641 and fifth hole 611, until the upper end of location bar 56 acts against on the second fixed mount 65, such that it is able to framework 51 to be played the effect of location, then the Folium Camelliae sinensis of drying above heat radiation frame 41 is collected. so far, tea drying device use procedure of the present invention is described.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention. Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims (9)

1. a tea drying device, it is characterized in that: described tea drying device includes bottom plate apparatus, it is positioned at the frame device above described bottom plate apparatus, it is positioned at the electric machine within described frame device, it is positioned at the heater above described electric machine, it is positioned at the mobile device above described heater and is positioned at the holder device above described mobile device, described bottom plate apparatus includes base plate, it is positioned at the first roller below described base plate and is positioned at the first brace above described base plate, described frame device includes framework, it is positioned at the first cross bar within described framework, it is positioned at the first pipeline of the described framework left and right sides, it is arranged at the blower fan on described first pipeline, it is arranged at the filtering ring on described first pipeline, it is positioned at the first support below described first pipeline and is arranged at the first montant on described first support, described electric machine includes motor, it is positioned at the first rotating shaft above described motor, it is positioned at the rotating disk above described first rotating shaft, it is positioned at the first support bar of the described motor left and right sides, it is positioned at first bracer of described first support bar side, it is positioned at the second support above described first bracer and is positioned at the first retainer ring above described rotating disk, described heater includes heat radiation frame, it is positioned at the ferrum net of described heat radiation frame, it is positioned at the heating rod of described ferrum net, it is positioned at the first baffle ring on described heat radiation frame, it is positioned at the second retainer ring on described heat radiation frame, described mobile device includes bumping post, it is positioned at the internal ring of described bumping post, it is positioned at the connecting plate above described internal ring, it is positioned at the second montant above described connecting plate, it is arranged at first sawtooth on the described second right surface of montant and is positioned at the location bar above described bumping post, described holder device includes the first fixed mount, it is arranged at the second cross bar on described first fixed mount, it is positioned at the spring above described second cross bar, it is positioned at the second brace above described spring, it is positioned at the second fixed mount above described first fixed mount, it is positioned at the 3rd montant on the right side of described first fixed mount, it is positioned at the 4th montant below described second brace, it is positioned at the 3rd fixed mount on the right side of described 3rd montant, it is arranged at the second roller on described 3rd fixed mount, described bumping post is cross section is the cylinder of annulus, described bumping post is vertically placed, the upper surface of the lower surface of described bumping post and described heat radiation frame, the outer surface of described second retainer ring contacts with the inner surface of described bumping post, the outer surface of described first baffle ring and the outer surface of described bumping post are slidably connected, the inner surface of described first cross bar and the outer surface of described bumping post are slidably connected, the side of described bumping post is provided with some second through holes, described second through hole communicates with the inside of described bumping post, described internal ring is in the form of a ring, the cross section of described internal ring is L-shaped, described internal ring is fixing with the inner surface of described bumping post to be connected, the other end of described internal ring is vertical shape, described internal ring is provided with third through-hole, described third through-hole runs through the surface, left and right of described internal ring, the cross section of described connecting plate is in the shape of the letter V, the two ends of described connecting plate are fixing with the inner surface of described bumping post to be connected, described connecting plate is provided with some fourth holes running through described connecting plate upper and lower surface, described second montant is cuboid, described second montant is vertically placed, the lower end of described second montant is fixing with the upper surface of described connecting plate to be connected, the cross section of described first sawtooth is triangular in shape, the left surface of described first sawtooth is fixing with the right surface of described second montant to be connected, described location bar is cuboid, described location bar is vertically placed, the lower end of described location bar is fixing with the upper surface of described bumping post to be connected, the left surface of the right surface of described location bar and described 4th montant is slidably connected.

2. tea drying device according to claim 1, it is characterized in that: described base plate is cuboid, described floor level is placed, described first roller is provided with two and lays respectively at the left and right sides, described first roller is cylinder, described first roller water placing flat, and described first brace is provided with two and lays respectively at the left and right sides, the described first inclined shape of brace, the lower end of described first brace is fixing with the upper surface of described base plate to be connected.

3. tea drying device according to claim 2, it is characterized in that: described framework is hollow cylinder, described framework is vertically placed, the cross section of described framework is concave shape, the lower surface of described framework is fixing with the upper surface of described base plate to be connected, the upper end of described first brace is fixing with the side of described framework to be connected, the side of described framework is provided with the first through hole, described first through hole communicates with the inside of described framework, described first cross bar is in the form of a ring, described first cross bar is horizontal, the outer surface of described first cross bar is fixing with the inner surface of described framework to be connected, the upper surface of described first cross bar and the upper surface of described framework are in same level.

4. tea drying device according to claim 3, it is characterized in that: described first pipeline is horizontal, one end of described first pipeline is directed at described first through hole and fixing with the side of described framework is connected, described filtering ring is hollow spherical, described first pipeline runs through the side of described filtering ring and fixing with described filtering ring is connected, described first support is L-shaped, one end of described first support is fixing with the side of described framework to be connected, the other end of described first support is fixing with described first pipeline to be connected, described first montant is vertical shape, described first montant is cuboid, the upper end of described first montant is fixing with described first pipeline to be connected, the lower end of described first montant is fixing with described first support to be connected.

5. tea drying device according to claim 4, it is characterized in that: the lower surface of described motor is fixing with the upper surface of described base plate to be connected, described first rotating shaft is cylinder, described first rotating shaft is vertically placed, the lower end of described first rotating shaft is connected with described motor, described rotating disk is cylinder, described rotating disk horizontal positioned, the upper end of described first rotating shaft is fixing with the lower surface of described rotating disk to be connected, described rotating disk is contained in interior and with described framework the inner surface of described framework and is slidably connected, described first support bar is provided with two and lays respectively at the left and right sides, described first support bar is cuboid, described first support bar is vertically placed, the lower surface of described first support bar is fixing with the inner surface of described framework to be connected, the upper surface of described first support bar and the lower surface of described rotating disk are slidably connected, described first bracer is cuboid, described first bracer is provided with two and lays respectively at the left and right sides, described first bracer is vertically placed, the lower surface of described first bracer is fixing with the inner surface of described framework to be connected.

6. tea drying device according to claim 5, it is characterized in that: described second support is provided with two and lays respectively at the left and right sides, described second support is L-shaped, one end of described second support is fixing with the inner surface of described framework to be connected, the other end of described second support and the lower surface of described rotating disk are slidably connected, described first retainer ring is cross section is the cylinder of annulus, described first retainer ring is vertically placed, and the lower surface of described first retainer ring is fixing with the upper surface of described rotating disk to be connected.

7. tea drying device according to claim 6, it is characterized in that: described heat radiation frame is hollow cylinder, the cross section of described heat radiation frame is concave shape, the lower surface of described heat radiation frame is fixing with the upper surface of described rotating disk to be connected, the inner surface of described first retainer ring is fixing with the outer surface of described heat radiation frame to be connected, described ferrum net is hollow cylinder, the cross section of described ferrum net is concave shape, the lower surface of described ferrum net is fixing with the upper surface of described rotating disk to be connected, described first baffle ring is cross section is the cylinder of annulus, described first baffle ring horizontal positioned, the outer surface of described first baffle ring is fixing with the inner surface of described framework to be connected, the lower surface of described first baffle ring is connected with the upper surface slide of described heat radiation frame, described second retainer ring is in the form of a ring, the cross section of described second retainer ring is at right angles trapezoidal, the lower surface of described second retainer ring is fixing with the upper surface of described heat radiation frame to be connected, the inclined shape of upper surface of described second retainer ring.

8. tea drying device according to claim 7, it is characterized in that: described first fixed mount is L-shaped, one end of described first fixed mount is fixing with the upper surface of described first cross bar to be connected, the other end of described first fixed mount is horizontal, described first fixed mount is provided with fifth hole, described fifth hole runs through the upper and lower surface of described first fixed mount, described second cross bar is cuboid, described second cross bar horizontal positioned, the left end of described second cross bar and described first fixed mount are slidably connected, the right-hand member of described second cross bar is fixing with the side of described bumping post to be connected, described spring is vertically placed, the lower end of described spring is fixing with the upper surface of described second cross bar to be connected, the upper end of described spring is fixing with the lower surface of described second brace to be connected, the described second inclined shape of brace, the left end of described second brace is fixing with described first fixed mount to be connected, the right-hand member of described second brace is fixing with the left surface of described 3rd montant to be connected, described second brace is provided with through the clematis stem hole of its upper and lower surface, described second fixed mount is concave shape, the lower surface of described second fixed mount is fixing with the upper surface of described first fixed mount to be connected, described second fixed mount is positioned at the surface of described fifth hole.

9. tea drying device according to claim 8, it is characterized in that: described 4th montant is vertical shape, the upper end of described 4th montant is fixing with the lower surface of described second brace to be connected, the inner surface of described 4th montant and described bumping post is slidably connected, described 3rd montant is cuboid, described 3rd montant is vertically placed, one end of described first support is fixing with the left surface of described 3rd montant to be connected, the left surface of described second montant is fixing with the right surface of described 3rd montant to be connected, described 3rd fixed mount is concave shape, one end of described 3rd fixed mount is fixing with the right surface of described 3rd montant to be connected, the other end of described 3rd fixed mount is horizontal, described 3rd fixed mount is provided with circular hole and is positioned at the groove of the other end, described circular hole runs through the upper and lower surface of described 3rd fixed mount, described second roller is cylinder, described second roller water placing flat, described second roller is contained in described groove and turns with described 3rd fixed mount axle and is connected, described second roller is provided with the second sawtooth.