CN105797947A - Multi-cylinder tea classification method - Google Patents

Abstract

The invention discloses a multi-cylinder tea classification method. An outer cylinder, a middle cylinder and an inner cylinder are coaxially arranged; classification holes are respectively formed in the side walls of the middle cylinder and the inner cylinder; the classification holes formed in the middle cylinder are smaller than the classification holes formed in the inner cylinder; middle guide grooves are formed in the inner side wall of the middle cylinder in the axis direction; inner projection parts matched with the middle guide grooves are arranged on the outer side wall of the inner cylinder, so that the inner cylinder performs a reciprocating motion in the axis direction; and as teas are nonuniformly stacked in the inner cylinder, the stress of the inner cylinder is nonuniform, the inner cylinder drives the middle cylinder to overturn within a certain angle, the uniform stacking of the teas in the inner cylinder is promoted, and the primary classification under the effect of reciprocating shaking is accelerated.

Description

Multi-cartridge tea dry sorting method

Technical field

The present invention relates to multi-cartridge tea grading machine.

Background technology

The big quantity research of modern science confirms, Folium Camelliae sinensis contains biochemical closely-related with health really, Folium Camelliae sinensis not only have refresh oneself clear away heart-fire, clearing away summer-heat, eliminate indigestion and phlegm, go greasy fat-reducing, the relieving restlessness that clears away heart-fire, the pharmacological action such as removing toxic substances relieving alcoholic intoxication, promoting the production of body fluid to quench thirst, pathogenic fire reducing improving eyesight, dysentery relieving dehumidifying, also to modern diseases, such as diseases such as Radiation sickness, cardiovascular and cerebrovascular disease, cancers, there is certain pharmacological effect.Visible, more than Folium Camelliae sinensis pharmacological effect, act on wide, be that Other Drinks can not be substituted.

Summary of the invention

The purpose of the present invention aims to provide a kind of multi-cartridge tea grading machine, and the axis of inner barrel moves and can promote that Folium Camelliae sinensis spreads uniformly, and realizes preliminary classification；And realize secondary grading by the rotation of inner barrel Yu middle cylinder.

For realizing above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

Multi-cartridge tea grading machine, it includes grading plant, double motor equipment；

Grading plant includes classification frame, it is connected with classification frame and the outer cylinder body of horizontal positioned, it is positioned in outer cylinder body and can around the middle cylinder of own axis, it is socketed on the inner barrel in middle cylinder, outer cylinder body, middle cylinder, the equal coaxial line of inner barrel is arranged, middle cylinder and the sidewall of inner barrel are respectively arranged with grading-hole, the grading-hole being arranged in middle cylinder is smaller in size than the grading-hole size being arranged in inner barrel, the input and output material end of inner barrel is removably connected with inner cap body, inner cap body connects double motor equipment, the medial wall of middle cylinder is provided with the middle gathering sill arranged along its axis direction, the lateral wall of inner barrel is provided with the internal projection portion matched with middle gathering sill；

nullDouble motor equipment includes headstock、Rack sleeve、Connect housing、Countershaft，One end of rack sleeve is connected with the housing of headstock，The other end of rack sleeve connects with being connected housing，The inwall of rack sleeve is provided with the main cylinder gathering sill arranged along its axis direction，Main shaft it is respectively sleeved in rack sleeve、Locating rotation device、Main shaft screw mandrel，The drive end of main shaft screw mandrel is connected with the first kinetic energy outfan of headstock，Locating rotation device is socketed on main shaft screw mandrel，The drive end of main shaft is provided with the main shaft inside groove matched with locating rotation device，Locating rotation device includes the displacement block being socketed on main shaft screw mandrel respectively、The main shaft collar、Base bearing、Main shaft gasket ring，Main shaft、Main shaft screw mandrel、The mobile equal coaxial line of block is arranged，Displacement block is connected with screw mandrel by screw，Displacement block is provided with the displacement protruding block matched with main cylinder gathering sill，Displacement block is additionally provided with and is coaxial therewith the step that line is arranged，Step is socketed with the main shaft collar、Base bearing、Main shaft gasket ring，The main shaft collar、Main shaft gasket ring is all flexibly connected with step and can around own axis，The inner ring of step and base bearing fixes，Main shaft gasket ring is positioned in main shaft inside groove and fits with main shaft inside groove diapire，The wall portion of the outer ring of base bearing and main shaft inside groove fixes，The drive end of the main shaft collar and main shaft fixes；The wall portion of main shaft is provided with the main shaft guide key groove arranged along its axis direction；Connecting in housing and be provided with intermeshing countershaft gear, mainshaft gear, mainshaft gear is socketed on outside main shaft, is connected mainshaft gear and main shaft by key, and key and main shaft guide key groove match；Being socketed with countershaft in countershaft gear, the drive end of countershaft is connected with the second kinetic energy outfan of headstock；The kinetic energy outfan of main shaft connects inner cap body.

Above-mentioned technical scheme is further improved.

Outer cylinder body inner chamber is fixed with positioning ring, and positioning ring is fixed on locating shaft bearing outer-ring, and location bearing inner race is connected with the outer surface of middle cylinder.

Above-mentioned technical scheme is further improved.

Interval between medial wall and the lateral wall of middle cylinder of outer cylinder body is more than 5cm, and the interval between medial wall and the lateral wall of inner barrel of middle cylinder is more than 4cm.

Above-mentioned technical scheme is further improved.

Countershaft is also socketed with regulation device, it includes countershaft sleeve, annular relief, first spring, positioning disc, countershaft gasket ring, countershaft is provided with annular relief, annular relief is provided with lock projection portion, countershaft sleeve, first spring, positioning disc, countershaft gasket ring is all socketed on the outside of countershaft, positioning disc, countershaft gasket ring is flexibly connected with countershaft respectively, one end of countershaft sleeve is connected with being connected housing, the other end of countershaft sleeve is connected with positioning disc, positioning disc is provided with the locking groove matched with lock projection portion, one end of first spring connects annular relief, the other end auxiliary connection axle pad ring of the first spring, countershaft gasket ring is connected with being connected housing.

Above-mentioned technical scheme is further improved.

One end of rack sleeve and the housing of headstock are by rivet interlacement, and the other end of rack sleeve passes through rivet interlacement with being connected housing；One end of countershaft sleeve is connected by rivet with being connected housing, and the other end of countershaft sleeve is connected by rivet with positioning disc.

Above-mentioned technical scheme is further improved.

The lateral wall place of rack sleeve is hinged with double dynamical support, is controlled the luffing angle of double motor equipment by double dynamical support.

Multi-cartridge tea dry sorting method, its step includes:

By inner barrel input and output material end, Folium Camelliae sinensis is poured in inner barrel, and inner cap body is installed on the input and output material end of inner barrel；nullFirst kinetic energy outfan of the headstock of double motor equipment provides kinetic energy drive shaft screw mandrel to rotate，Due to main shaft、Locating rotation device is socketed on main shaft screw mandrel respectively，Collar bush is connected in rack sleeve，The inwall of rack sleeve is provided with the main cylinder gathering sill arranged along its axis direction，The drive end of main shaft is provided with the main shaft inside groove matched with locating rotation device，Locating rotation device includes the displacement block being socketed on main shaft screw mandrel respectively、The main shaft collar、Base bearing、Main shaft gasket ring，Main shaft、Main shaft screw mandrel、The mobile equal coaxial line of block is arranged，Displacement block is connected with screw mandrel by screw，Displacement block is provided with the displacement protruding block matched with main cylinder gathering sill，Displacement block is additionally provided with and is coaxial therewith the step that line is arranged，Step is socketed with the main shaft collar、Base bearing、Main shaft gasket ring，The main shaft collar、Main shaft gasket ring is all flexibly connected with step and can around own axis，The inner ring of step and base bearing fixes，Main shaft gasket ring is positioned in main shaft inside groove and fits with main shaft inside groove diapire，The wall portion of the outer ring of base bearing and main shaft inside groove fixes，The drive end of the main shaft collar and main shaft fixes，And the outfan of main shaft and inner cap body fix，Thus screw mandrel is in rotation process，Displacement protruding block is driven to move back and forth along its axis direction，Restriction effect due to locating rotation device，Main shaft is subjected to displacement along its axis direction，And the inner barrel being connected with main shaft outfan is moved back and forth along its axis direction；

Due to outer cylinder body, middle cylinder, the equal coaxial line of inner barrel is arranged, middle cylinder and the sidewall of inner barrel are respectively arranged with grading-hole, the grading-hole being arranged in middle cylinder is smaller in size than the grading-hole size being arranged in inner barrel, the medial wall of middle cylinder is provided with the middle gathering sill arranged along its axis direction, the lateral wall of inner barrel is provided with the internal projection portion matched with middle gathering sill, so that inner barrel moves back and forth along its axis direction, owing to the Folium Camelliae sinensis spread in inner barrel is piled up uneven, make the discontinuity of inner barrel, so that inner barrel drives middle cylinder to overturn in certain angle；Thus promoting the Folium Camelliae sinensis in inner barrel uniformly to spread and under the effect of reciprocal shake, promote preliminary classification；

First kinetic energy outfan of the headstock of double motor equipment stops output kinetic energy, second kinetic energy outfan of headstock starts output kinetic energy and drives countershaft to rotate, owing to countershaft outer cover is connected to countershaft gear, main shaft outer cover is connected to the mainshaft gear being meshed with countershaft gear, the wall portion of main shaft is provided with the main shaft guide key groove arranged along its axis direction, mainshaft gear is mutually matched by key and main shaft guide key groove and is connected with main shaft, rotating thus driving the rotation of countershaft gear of countershaft, and drive the mainshaft gear being meshed with countershaft gear to rotate, thus realizing main shaft around own axis；Thus realizing the rotation of inner barrel, and drive the synchronous axial system of middle cylinder, thus realizing the secondary grading to Folium Camelliae sinensis.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention, the accompanying drawing used required in embodiment will be done simple introduction below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the double motor equipment structural representation of the present invention.

Fig. 2 is the double motor equipment structural representation of the present invention.

Fig. 3 is main shaft and the countershaft connection diagram of the double motor equipment of the present invention.

Fig. 4 is main shaft and the countershaft connection diagram of the double motor equipment of the present invention.

Fig. 5 is main shaft and the main shaft screw mandrel connection diagram of the double motor equipment of the present invention.

Fig. 6 is countershaft and the regulation device connection diagram of the double motor equipment of the present invention.

Fig. 7 is rack sleeve and the master gear connection diagram of the double motor equipment of the present invention.

Fig. 8 is the steaming apparatus structural representation of the present invention.

Fig. 9 is the steaming apparatus structural representation of the present invention.

Figure 10 is the grading plant structural representation of the present invention.

Figure 11 is the grading plant structural representation of the present invention.

Figure 12 is middle cylinder and the inner barrel connection diagram of the grading plant of the present invention.

Figure 13 is the drying unit structural representation of the present invention.

Figure 14 is the explosive view of the drying unit of the present invention.

Figure 15 is the twisting device structural representation of the present invention.

Figure 16 is the filter structural representation of the twisting device of the present invention.

Figure is denoted as:

100, double motor equipment；110, headstock；112, double dynamical support；

120, rack sleeve；121, main shaft；122, main shaft guide key groove；123, main shaft screw mandrel；124, displacement block；125, the main shaft collar；126, base bearing；127, main shaft gasket ring；128, main shaft inside groove.

130, housing is connected；132, countershaft gear；134, mainshaft gear；136, key.

140, countershaft sleeve；141, countershaft；142, annular relief；143, the first spring；144, positioning disc；145, countershaft gasket ring.

200, steaming apparatus；210, complete frame；212, complete rotating shaft；220, guide plate；230, fork；240, movement parts；242, the second spring；244, directive wheel.

300, grading plant；310, classification frame；320, outer cylinder body；330, middle cylinder；332, middle gathering sill；340, inner barrel；342, internal projection portion；344, inner cap body.

400, drying unit；410, frame is dried；412, thermal source installing hole；414, lower shaft hole；420, rocking bar；430, bracket；432, upper shaft hole.

500, twisting device；510, accommodating disk body；520, cylinder is supported；530, filter；532, grid.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art under not making creative work premise, the every other embodiment obtained, broadly fall into scope.

As represented in figures 1 through 14, a kind of Tea Processing system, what it included setting gradually spreads device to what the Folium Camelliae sinensis after plucking spread, complete the steaming apparatus processed to the Folium Camelliae sinensis after spreading process, the twisting device that Folium Camelliae sinensis after completing is kneaded, carries out the grading plant of classification to the Folium Camelliae sinensis after kneading, and the Folium Camelliae sinensis after classification carries out the color screening device of color choosing, the drying unit that the Folium Camelliae sinensis after selecting of checking colors carries out drying, the packing device that the Folium Camelliae sinensis after drying is packed.

As represented in figures 1 through 14, a kind of reparation technology of Folium Camelliae sinensis, its step includes: the harvesting to fresh tea leaf, fresh tea leaf after plucking is spread process, Folium Camelliae sinensis after spreading process is completed process by steaming apparatus, Folium Camelliae sinensis after completing manually is kneaded, Folium Camelliae sinensis after kneading is carried out classification by grading plant, Folium Camelliae sinensis after classification is carried out color choosing classification by color screening device, the Folium Camelliae sinensis after selecting of checking colors carries out drying and processing by drying unit, the Folium Camelliae sinensis after drying is carried out packaging and can form finished product.

Above-mentioned fresh tea leaf spreads in processing procedure, can be placed in by fresh tea leaf and spread in device, and will spread device and be placed in ventilation and ted, and the time of spreading is preferably 3-6 days so that Folium Camelliae sinensis dehydration degree is at 30%-45%.

For above-mentioned spreading device, color screening device, packing device can adopt the device possessing identical function existed in prior art, do not repeating one by one in the present invention.

nullAs shown in figs. 10-12，Grading plant 300，Including classification frame 310、It is connected with classification frame 310 and the outer cylinder body 320 of horizontal positioned、It is positioned in outer cylinder body 320 and can around the middle cylinder 330 of own axis、It is socketed on the inner barrel 340 in middle cylinder 330，Outer cylinder body 320、Middle cylinder 330、The equal coaxial line of inner barrel 340 is arranged，Middle cylinder and the sidewall of inner barrel are respectively arranged with grading-hole，The grading-hole being arranged in middle cylinder is smaller in size than the grading-hole size being arranged in inner barrel，The input and output material end of inner barrel 340 is removably connected with inner cap body 344，Inner cap body 344 connects double motor equipment，The medial wall of middle cylinder 330 is provided with the middle gathering sill 332 arranged along its axis direction，The lateral wall of inner barrel 340 is provided with the internal projection portion 342 matched with middle gathering sill 332.

Middle cylinder 330 can pass through positioning ring and be connected with outer cylinder body 320, and specifically, positioning ring is fixed on outer cylinder body 320 inner chamber, and positioning ring is fixed on locating shaft bearing outer-ring, and location bearing inner race is connected with the outer surface of middle cylinder 330；So that when outer cylinder body 320 does not move, it is achieved middle cylinder 330 around own axis.

For ensureing more efficient classification and expanding effective classification face, the interval between medial wall and the lateral wall of middle cylinder of outer cylinder body is more than 5cm, and the interval between medial wall and the lateral wall of inner barrel of middle cylinder is more than 4cm.

Double motor equipment offer power can realize the axis direction motion of inner barrel or the rotation of inner barrel, when inner barrel moves back and forth in the axial direction, middle cylinder does not move, and the Folium Camelliae sinensis that the promotion of reciprocating vibration of inner barrel is positioned in inner barrel uniformly spreads, and realizes preliminary classification；When inner barrel is around own axis, inner barrel drives middle cylinder synchronous axial system, and promotes classification.

nullAs shown in figs. 1-7，Above-mentioned double motor equipment 100，It includes headstock 110、Rack sleeve 120、Connect housing 130、Countershaft 141，One end of rack sleeve 120 is connected with the housing of headstock 110，The other end of rack sleeve 120 connects with being connected housing 130，The inwall of rack sleeve 120 is provided with the main cylinder gathering sill arranged along its axis direction，Main shaft 121 it is respectively sleeved in rack sleeve 120、Locating rotation device、Main shaft screw mandrel 123，The drive end of main shaft screw mandrel 123 is connected with the first kinetic energy outfan of headstock 110，Locating rotation device is socketed on main shaft screw mandrel 123，The drive end of main shaft 121 is provided with the main shaft inside groove 128 matched with locating rotation device，Locating rotation device includes the displacement block 124 being socketed on main shaft screw mandrel 123 respectively、The main shaft collar 125、Base bearing 126、Main shaft gasket ring 127，Main shaft 121、Main shaft screw mandrel 123、The mobile equal coaxial line of block 124 is arranged，Displacement block 124 is connected with screw mandrel by screw，Displacement block 124 is provided with the displacement protruding block matched with main cylinder gathering sill，Displacement block 124 is additionally provided with and is coaxial therewith the step that line is arranged，Step is socketed with the main shaft collar 125、Base bearing 126、Main shaft gasket ring 127，The main shaft collar 125、Main shaft gasket ring 127 is all flexibly connected with step and can around own axis，The inner ring of step and base bearing 126 fixes，Main shaft gasket ring is positioned in main shaft inside groove 128 and fits with main shaft inside groove diapire，The wall portion of the outer ring of base bearing 128 and main shaft inside groove 128 fixes，The drive end of the main shaft collar 125 and main shaft 121 fixes；The wall portion of main shaft 121 is provided with the main shaft guide key groove 122 arranged along its axis direction；Connecting in housing 130 and be provided with intermeshing countershaft gear 132, mainshaft gear 134, it is outside that mainshaft gear 134 is socketed on main shaft 121, connects mainshaft gear 134 and main shaft 121 by key 136, and key 136 and main shaft guide key groove 122 match；Being socketed with countershaft 141 in countershaft gear 132, the drive end of countershaft 141 is connected with the second kinetic energy outfan of headstock 110；The kinetic energy outfan of main shaft 121 connects inner cap body 344.

When the first kinetic energy outfan of headstock 110 provides kinetic energy, drive shaft screw mandrel 123 rotates, owing to displacement block being provided with the displacement protruding block matched with main cylinder gathering sill, so that the block 124 that shifts being connected with main shaft screw mandrel 123 by screw is moved back and forth along the axis direction of screw mandrel, thus driving inner barrel back and forth to shake along its axis direction, promote that the Folium Camelliae sinensis in inner barrel uniformly spreads, and the preliminary classification of Folium Camelliae sinensis can be realized；Particularly importantly, due to main shaft and being flexibly connected of shifting block 124 so that main shaft and main shaft screw mandrel are indirectly connected with, in that case, although main shaft moves along its axis direction, but, still mode manually can rotate inner barrel or middle cylinder.In practice process, owing to, in the reciprocal dither process of inner barrel, the Folium Camelliae sinensis in inner barrel is piled up uneven, make inner barrel discontinuity, promoting inner barrel to stir in certain angle, stirring of inner barrel can promote Folium Camelliae sinensis to spread and preliminary classification equally, can improve grading effect.

When the second kinetic energy outfan of headstock 110 provides kinetic energy, countershaft 141 is driven to rotate, the countershaft gear 132 being socketed on countershaft is rotated, the synchronous axial system of the mainshaft gear 134 that the rotation of countershaft gear driving are meshed with it, owing to mainshaft gear 134 is connected with main shaft by key, being mutually matched of main shaft guide key groove, so that the rotation of mainshaft gear drive shaft, owing to main shaft screw mandrel does not rotate, so displacement block 124 is not subjected to displacement, so that main shaft only rotates, and axial motion does not occur；The rotation of main shaft realizes connected inner barrel and rotates, and drive the middle cylinder being connected with inner barrel to rotate, so that the Folium Camelliae sinensis being loaded in inner barrel carries out preliminary classification by the grading-hole being arranged on inner barrel, fall in the inner chamber of middle cylinder from the Folium Camelliae sinensis of inner barrel internal classification, the rotation of middle cylinder also promotes the grading-hole reclassification by being arranged on middle cylinder of the Folium Camelliae sinensis in middle cylinder, thus tea dry sorting becomes large, medium and small three kinds of models.

nullCountershaft 141 is also socketed with regulation device，It includes countershaft sleeve 140、Annular relief 142、First spring 143、Positioning disc 144、Countershaft gasket ring，Countershaft 141 is provided with annular relief 142，Annular relief 142 is provided with lock projection portion，Countershaft sleeve 140、First spring 143、Positioning disc 144、Countershaft gasket ring 127 is all socketed on the outside of countershaft 141，Positioning disc 144、Countershaft gasket ring 127 is flexibly connected with countershaft 141 respectively，One end of countershaft sleeve 140 is connected with being connected housing 130，The other end of countershaft sleeve 140 is connected with positioning disc 144，Positioning disc 144 is provided with the locking groove matched with lock projection portion，One end of first spring 143 connects annular relief 142，The other end auxiliary connection axle pad ring of the first spring 143，Countershaft gasket ring 145 is connected with being connected housing 130.Regulation device is the rotation for controlling countershaft, thus improving precision, it is to avoid output shaft rotates in axis direction motor process.

When countershaft is socketed with regulation device, under original state, lock projection portion in first Spring driving annular relief is engaged mutually with the locking groove on positioning disc, countershaft can not rotate, so that mainshaft gear and the locking of countershaft gear position, meanwhile, can only there is the reciprocating motion on axis direction in main shaft；When driving countershaft to rotate, it is necessary to first countershaft is applied the active force of axis and overcomes the elastic force of the first spring so that lock projection portion is separated with locking groove, then drives the rotation of countershaft, both can drive the rotation of countershaft gear, mainshaft gear, main shaft.

The housing of one end of rack sleeve 120 and headstock 110 is by rivet interlacement, and the other end of rack sleeve 120 passes through rivet interlacement with being connected housing 130；One end of countershaft sleeve 140 is connected by rivet with being connected housing 130, and the other end of countershaft sleeve 140 is connected by rivet with positioning disc 144.

The lateral wall place of rack sleeve 120 is hinged with double dynamical support 112, is controlled the luffing angle of double motor equipment by double dynamical support 112, expands use scope.

Tea dry sorting method, its step includes:

A, will be poured in inner barrel by Folium Camelliae sinensis after kneading by inner barrel input and output material end, and inner cap body will be installed on the input and output material end of inner barrel；nullFirst kinetic energy outfan of the headstock of double motor equipment provides kinetic energy drive shaft screw mandrel to rotate，Due to main shaft、Locating rotation device is socketed on main shaft screw mandrel respectively，Collar bush is connected in rack sleeve，The inwall of rack sleeve is provided with the main cylinder gathering sill arranged along its axis direction，The drive end of main shaft is provided with the main shaft inside groove matched with locating rotation device，Locating rotation device includes the displacement block being socketed on main shaft screw mandrel respectively、The main shaft collar、Base bearing、Main shaft gasket ring，Main shaft、Main shaft screw mandrel、The mobile equal coaxial line of block is arranged，Displacement block is connected with screw mandrel by screw，Displacement block is provided with the displacement protruding block matched with main cylinder gathering sill，Displacement block is additionally provided with and is coaxial therewith the step that line is arranged，Step is socketed with the main shaft collar、Base bearing、Main shaft gasket ring，The main shaft collar、Main shaft gasket ring is all flexibly connected with step and can around own axis，The inner ring of step and base bearing fixes，Main shaft gasket ring is positioned in main shaft inside groove and fits with main shaft inside groove diapire，The wall portion of the outer ring of base bearing and main shaft inside groove fixes，The drive end of the main shaft collar and main shaft fixes，And the outfan of main shaft and inner cap body fix，Thus screw mandrel is in rotation process，Displacement protruding block is driven to move back and forth along its axis direction，Restriction effect due to locating rotation device，Main shaft is subjected to displacement along its axis direction，And the inner barrel being connected with main shaft outfan is moved back and forth along its axis direction；

Owing to outer cylinder body, middle cylinder, the equal coaxial line of inner barrel are arranged, middle cylinder and the sidewall of inner barrel are respectively arranged with grading-hole, the grading-hole being arranged in middle cylinder is smaller in size than the grading-hole size being arranged in inner barrel, the medial wall of middle cylinder is provided with the middle gathering sill arranged along its axis direction, the lateral wall of inner barrel is provided with the internal projection portion matched with middle gathering sill, so that middle cylinder is along its axis direction reciprocatory movement, middle cylinder, under not having External Force Acting, does not move；Thus promoting the Folium Camelliae sinensis in inner barrel uniformly to spread and under the effect of reciprocal shake, promote preliminary classification.

B, first kinetic energy outfan of the headstock of double motor equipment stops output kinetic energy, second kinetic energy outfan of headstock starts output kinetic energy and drives countershaft to rotate, owing to countershaft outer cover is connected to countershaft gear, main shaft outer cover is connected to the mainshaft gear being meshed with countershaft gear, the wall portion of main shaft is provided with the main shaft guide key groove arranged along its axis direction, mainshaft gear is mutually matched by key and main shaft guide key groove and is connected with main shaft, rotating thus driving the rotation of countershaft gear of countershaft, and drive the mainshaft gear being meshed with countershaft gear to rotate, thus realizing main shaft around own axis；Thus realizing the rotation of inner barrel, and drive the synchronous axial system of middle cylinder, thus realizing the secondary grading to Folium Camelliae sinensis.

Such as Fig. 8, shown in 9, steaming apparatus 200, including the frame 210 that completes, the guide plate 220 being connected with the frame 210 that completes, it is movably connected on and completes frame 210 and be installed on the rotating shaft 212 that completes above guide plate 220, the fork 230 fixed with the rotating shaft 212 that completes, completing rotating shaft 212 can around own axis, the top of fork 230 is provided with the cylinder that completes, the side-walls of cylinder of completing is provided with thermal source, the bottom socket movement parts 240 of fork 230, and the second spring 242 is installed between fork 230 and movement parts 240, the lower end of movement parts 240 is provided with directive wheel 244, directive wheel matches with the circular arc shaped guide slots being arranged on guide plate 220.

The fixing method of Folium Camelliae sinensis.

Being positioned over by Folium Camelliae sinensis after spreading process completes in cylinder, it is installed on the thermal source transferring heat energy in the barrel wall portion that completes, rotate the fork that complete rotating shaft drive and the rotating shaft that completes fix, owing to the cylinder that completes is fixed on the top of fork, thus driving the swing of the cylinder that completes, meanwhile, the movement parts being socketed on fork bottom is moved therewith, the bottom of movement parts is connected to directive wheel, this directive wheel moves along the circular arc shaped guide slots on guide plate so that the cylinder that completes realizes the reciprocal motion that stir-fries.

Such as Figure 13, shown in 14, drying unit 400, it includes drying frame 410, bracket 430, it is movably connected with in four rocking bars 420 of four edges drying frame 410, rocking bar 420 includes bottom, horizontal end, upper end, the two ends of horizontal end are respectively perpendicular and are connected to the contrary bottom of direction and upper end, four edges drying frame 410 are provided with the lower shaft hole 414 being flexibly connected with rocking bar bottom, bracket 430 is provided with the upper shaft hole 432 being flexibly connected with rocking bar upper end, the center position drying frame 410 is provided with drying thermal source.

Above-mentioned drying thermal source is preferably braziers, and the center position drying frame 410 is provided with the thermal source installing hole 412 for placing braziers.

Drying tea leaves method.

Folium Camelliae sinensis after color selects is positioned on bracket, and the drying frame below bracket is placed thermal source, owing to rocking bar includes bottom, horizontal end, upper end, the two ends of horizontal end are respectively perpendicular and are connected to the contrary bottom of direction and upper end, four edges drying frame are provided with the lower shaft hole being flexibly connected with rocking bar bottom, bracket is provided with the upper shaft hole being flexibly connected with rocking bar upper end, rotated by the bottom of power set drive rocker, the upper end that can drive rocking bar rotates centered by bottom, thus driving bracket swing in the horizontal direction, swing process makes the Folium Camelliae sinensis thermally equivalent being positioned on bracket, thus reaching to dry purpose.

As shown in Figure 15,16, twisting device 500, including accommodating disk body 510, stand, support cylinder 520, filter 530, accommodating disk body 510 is vertically installed with stand, supporting cylinder 520 and be flexibly connected with stand by being arranged at the gudgeon of its two ends center position, supporting cylinder 520 can around own axis, and filter 530 fits in the outer surface supporting cylinder 520, being provided with some evenly spaced grids 532 on filter 530, the preferred size of grid 532 is 0.6 × 1cm.

Tea rolling method.

Folium Camelliae sinensis after completing is inverted in accommodating disc body, owing to accommodating disk body being vertically installed with stand, support cylinder and be flexibly connected with stand by being arranged at the gudgeon of its two ends center position, supporting cylinder can around own axis, filter fits in the outer surface supporting cylinder, filter is provided with some evenly spaced grids, when picking up a certain amount of Folium Camelliae sinensis by hand and rubbing on the surface of filter, drive the rotation of filter, meanwhile drive the rotation supporting cylinder, and make the Folium Camelliae sinensis being piled up in grid fall in accommodating disc body, repeatedly knead, until tea-leaf forming.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention；The multiple amendment of these embodiments be will be apparent from for those skilled in the art, and General Principle defined in the present invention when without departing from the spirit or scope of the present invention, can realize in other embodiments.Therefore, the present invention will not be defined to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (1)

1. multi-cartridge tea dry sorting method, its step includes:

By inner barrel input and output material end, Folium Camelliae sinensis is poured in inner barrel, and inner cap body is installed on the input and output material end of inner barrel；nullFirst kinetic energy outfan of the headstock of double motor equipment provides kinetic energy drive shaft screw mandrel to rotate，Due to main shaft、Locating rotation device is socketed on main shaft screw mandrel respectively，Collar bush is connected in rack sleeve，The inwall of rack sleeve is provided with the main cylinder gathering sill arranged along its axis direction，The drive end of main shaft is provided with the main shaft inside groove matched with locating rotation device，Locating rotation device includes the displacement block being socketed on main shaft screw mandrel respectively、The main shaft collar、Base bearing、Main shaft gasket ring，Main shaft、Main shaft screw mandrel、The mobile equal coaxial line of block is arranged，Displacement block is connected with screw mandrel by screw，Displacement block is provided with the displacement protruding block matched with main cylinder gathering sill，Displacement block is additionally provided with and is coaxial therewith the step that line is arranged，Step is socketed with the main shaft collar、Base bearing、Main shaft gasket ring，The main shaft collar、Main shaft gasket ring is all flexibly connected with step and can around own axis，The inner ring of step and base bearing fixes，Main shaft gasket ring is positioned in main shaft inside groove and fits with main shaft inside groove diapire，The wall portion of the outer ring of base bearing and main shaft inside groove fixes，The drive end of the main shaft collar and main shaft fixes，And the outfan of main shaft and inner cap body fix，Thus screw mandrel is in rotation process，Displacement protruding block is driven to move back and forth along its axis direction，Restriction effect due to locating rotation device，Main shaft is subjected to displacement along its axis direction，And the inner barrel being connected with main shaft outfan is moved back and forth along its axis direction；

Due to outer cylinder body, middle cylinder, the equal coaxial line of inner barrel is arranged, middle cylinder and the sidewall of inner barrel are respectively arranged with grading-hole, the grading-hole being arranged in middle cylinder is smaller in size than the grading-hole size being arranged in inner barrel, the medial wall of middle cylinder is provided with the middle gathering sill arranged along its axis direction, the lateral wall of inner barrel is provided with the internal projection portion matched with middle gathering sill, so that inner barrel moves back and forth along its axis direction, owing to the Folium Camelliae sinensis spread in inner barrel is piled up uneven, make the discontinuity of inner barrel, so that inner barrel drives middle cylinder to overturn in certain angle；Thus promoting the Folium Camelliae sinensis in inner barrel uniformly to spread and under the effect of reciprocal shake, promote preliminary classification；

First kinetic energy outfan of the headstock of double motor equipment stops output kinetic energy, second kinetic energy outfan of headstock starts output kinetic energy and drives countershaft to rotate, owing to countershaft outer cover is connected to countershaft gear, main shaft outer cover is connected to the mainshaft gear being meshed with countershaft gear, the wall portion of main shaft is provided with the main shaft guide key groove arranged along its axis direction, mainshaft gear is mutually matched by key and main shaft guide key groove and is connected with main shaft, rotating thus driving the rotation of countershaft gear of countershaft, and drive the mainshaft gear being meshed with countershaft gear to rotate, thus realizing main shaft around own axis；Thus realizing the rotation of inner barrel, and drive the synchronous axial system of middle cylinder, thus realizing the secondary grading to Folium Camelliae sinensis.