阅读说明：本技术 一种用于茶叶加工生产的逐级分选式包装设备 (A sort formula equipment for packing step by step for tea processing production ) 是由 邵鑫 龙囡囡 崔兆举 汤本连 徐国政 姬厚林 黄志明 于 2021-08-10 设计创作，主要内容包括：本发明公开了一种用于茶叶加工生产的逐级分选式包装设备,包括进料口,所述进料口下方设置有底台,且底台上方设置有旋转台,并且底台内部设置有集尘盒。该用于茶叶加工生产的逐级分选式包装设备,通过设置的滚筛,能够在茶叶进料时进行初步的筛分,将茶叶中的的部分细小的杂质进行去除,通过集尘盒收集起来,防止在车间飞扬导致再次混入包装设备后续的工序中,通过设置的风轮使得茶叶在输送过程中,内部含有的质量较轻的杂质被吹入杂物袋内,从而进一步去除茶叶中的杂质,通过设置的静电辊能够有效的去除与茶叶外形质量相同但介电常数差异较大的杂质,从而使得进行包装的茶叶内杂质含量降低甚至不含有杂质,从而提高茶叶品质。(The invention discloses step-by-step sorting type packaging equipment for tea processing production, which comprises a feed inlet, wherein a bottom table is arranged below the feed inlet, a rotating table is arranged above the bottom table, and a dust collecting box is arranged inside the bottom table. This a sorting type equipment for packing step by step for tea processing production, through the roller screen that sets up, can carry out preliminary screening when tealeaves feeding, get rid of the tiny impurity of part in the tealeaves, collect through the dust collection box, prevent to fly upward in the workshop and lead to sneaking into again in the subsequent process of equipment for packing, make tealeaves in transportation process through the wind wheel that sets up, the impurity that the quality that inside contained is lighter is blown into in the debris bag, thereby further get rid of the impurity in the tealeaves, the static roller through setting up can effectually get rid of the impurity the same but the dielectric constant difference is great with tealeaves appearance quality, thereby make the interior impurity content of tealeaves that packs that carries on reduce and do not contain impurity even, thereby improve the tealeaves quality.)

1. The utility model provides a select separately formula equipment for packing step by step for tea processing production, includes feed inlet (1), its characterized in that: the automatic feeding device is characterized in that a bottom table (2) is arranged below the feeding port (1), a rotary table (4) is arranged above the bottom table (2), a dust collecting box (8) is arranged inside the bottom table (2), an isolation chamber (5) is arranged inside the rotary table (4), a roller screen (7) is arranged inside the isolation chamber (5), a spiral plate (6) is connected inside the roller screen (7), a temporary storage chamber (11) is arranged on the right side of the spiral plate (6), a lifting belt (10) is arranged in the temporary storage chamber (11), a conveying pipe (12) is arranged on the right side of the lifting belt (10), a wind wheel (13) is arranged on the left side of the conveying pipe (12), an electrostatic roller (15) is arranged below the conveying pipe (12), a sorting chamber (18) is arranged below the electrostatic roller (15), a conveying shaft (20) is arranged inside the sorting chamber (18), and a conveying rope (17) is arranged on one side of the conveying shaft (20), conveying rope (17) below is provided with connects flitch (19), and connects flitch (19) one side to be provided with branch material mouth (28), divide material mouth (28) below to be provided with branch material room (27), and divide material room (27) below to be provided with packing table (32), and packing table (32) top is provided with packing carton (33).

2. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: revolving stage (4) are connected through tooth's socket (3) and action wheel (25) meshing, and revolving stage (4) constitute revolution mechanic through slide rail (9) and base frame (2) to revolving stage (4) and feed inlet (1) swivelling joint, keep apart chamber (5) bottom and set up for the arc, and keep apart chamber (5) and revolving stage (4) fixed connection.

3. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: the spiral plate (6) is arranged in a spiral structure, the spiral plate (6) is fixedly connected with the inner wall of the roller screen (7), and a microporous structure is formed on the surface of the roller screen (7).

4. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: the conveying pipe (12) and the sundries bag (14) form a sliding structure, the electrostatic rollers (15) are symmetrically arranged in the conveying pipe (12), and the electrostatic rollers (15) are in sliding connection with the scraper (16).

5. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: the sorting device is characterized in that conveying shafts (20) are arranged in the sorting cavity (18) at equal intervals, material receiving plates (19) are arranged in the sorting cavity (18) at equal intervals, and sterilizing lamps (24) are arranged in the material receiving plates (19) at equal intervals.

6. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: the conveying device is characterized in that main conveying wheels (21) are symmetrically arranged on the surface of the conveying shaft (20), the main conveying wheels (21) are in sliding connection with the conveying shaft (20) through sliding grooves (23), and the main conveying wheels (21) are in threaded connection with screw rods (22).

7. A progressive sorting and packing apparatus for tea processing production according to claim 6 wherein: the screw rod (22) and the adjusting wheel (26) form a rotating structure through a transmission belt (30), the sliding groove (23) is connected with the auxiliary conveying wheel (29) in a sliding mode, the auxiliary conveying wheel (29) is arranged on the conveying shaft (20) at equal intervals, and the auxiliary conveying wheel (29) and the jump distance spring (31) form a spring return structure.

8. A progressive sorting and packing apparatus for tea processing production as claimed in claim 1 wherein: the material distribution chamber (27) is rotatably connected with the material distribution shaft (35), the material distribution shaft (35) and the shifting plate (34) are integrally arranged, the shifting plate (34) is arranged in the material distribution chamber (27) in an annular matrix manner, and the material distribution chamber (27) is fixedly connected with the material outlet (36).

Technical Field

The invention relates to the field of tea production, in particular to progressive sorting type packaging equipment for tea processing production.

Background

Tea leaves are used as one of three major beverages in the world, and have a long history, tea culture is a part of Chinese traditional diet culture, the tea leaves contain various components such as ascorbic acid, tea tannin, tea essence, aromatic oil, catechin, pectin, enzyme, mineral substances and the like, which are extremely beneficial nutrient substances for people, the demand of the tea leaves is sharply increased along with the improvement of modern living standard, the production efficiency of the traditional artificial tea making is far insufficient to support the increasing tea consumption market, therefore, the tea making gradually moves to the industrialized road, machinery is adopted to replace manual operation in each process of the tea making, the production efficiency of the tea leaves can be greatly improved, along with the improvement of the production efficiency of the tea leaves, the tea leaf packaging speed is used as the last process of the tea leaf production, and the final production efficiency of the whole tea leaves is determined, therefore, the tea production efficiency is improved by using a mechanized packaging device to replace the traditional manual weighing and packaging, but the packaging device for tea production in the current market still has the following problems:

1. in the existing tea production process, because the tea cannot be finely screened like manual tea making by a machine, impurities are often mixed in the tea, and the machine is easy to generate dust in the operation process, so that the final tea finished product contains more impurities, so that the quality of the tea is poor, and the traditional tea production packaging equipment cannot remove the impurities in the tea, so that the quality of the produced tea is poor and the price is low;

2. during the tea leaf manufacturing process, the tea leaves need to be fried to be dry, so that the tea leaves are dehydrated, the dehydrated tea leaves are crisp in texture, the dehydrated tea leaves are usually damaged during mechanical work in the tea leaf manufacturing process, the tea leaves which are originally complete are caused to be broken in the production process, the existing packaging equipment for tea leaf production needs to be sorted according to the size of the tea leaves before being packaged, a vibrating screen structure is usually adopted during sorting, high-frequency vibration can be generated during the operation of the vibrating screen, the damage of the tea leaves is further caused, the tea leaves are caused to be smaller broken pieces, the broken pieces are mixed into the tea leaves, and the quality of the tea leaves is reduced;

3. because the process is more in the tealeaves production process, need artifically to circulate tealeaves between each equipment, this just makes tealeaves can frequently contact the workman, and the workman is the bacterium on hand just sneak into tealeaves easily, and current for the tealeaves production equipment when carrying out the production packing, in order to control the quality of every tealeaves, tealeaves this moment can contact with the manual work, through weighing in order to obtain the weight of tealeaves, this is just caused sneaking into in the tealeaves material such as bacterium easily, lead to the save time of tealeaves to shorten, and easily produce the influence to buyer's health.

Aiming at the problems, the innovative design is carried out on the original packaging equipment for tea production.

Disclosure of Invention

The invention aims to provide a stepwise sorting type packaging device for tea processing production, which solves the problems that the traditional packaging device for tea production provided by the background art cannot remove impurities in tea, so that the quality of the produced tea is poor, the price is low, the existing packaging device for tea production needs to sort according to the size of the tea before packaging, a vibrating screen structure is often adopted during sorting, the vibrating screen generates high-frequency vibration during operation, the damage of the tea is further caused, the tea is changed into smaller scraps, the scraps are mixed into the tea, the quality of the tea is reduced, and the existing packaging device for tea production is used for producing and packaging, in order to control the quality of each tea, the tea is contacted with manpower at the moment, the weight of the tea is obtained by weighing, and thus the substances such as bacteria and the like are easily mixed into the tea, the storage time of the tea leaves is shortened, and the health of purchasers is easily affected.

In order to achieve the purpose, the invention provides the following technical scheme: a stepwise sorting type packaging device for tea processing production comprises a feed inlet, wherein a bottom table is arranged below the feed inlet, a rotating table is arranged above the bottom table, a dust collecting box is arranged inside the bottom table, an isolation cavity is arranged inside the rotating table, a roller screen is arranged inside the isolation cavity, a spiral plate is connected inside the roller screen, a temporary storage cavity is arranged on the right side of the spiral plate, a lifting belt is arranged inside the temporary storage cavity, a conveying pipe is arranged on the right side of the lifting belt, a wind wheel is arranged on the left side of the conveying pipe, an electrostatic roller is arranged below the conveying pipe, a sorting cavity is arranged below the electrostatic roller, a conveying shaft is arranged inside the sorting cavity, a conveying rope is arranged on one side of the conveying shaft, a material receiving plate is arranged below the conveying rope, a material distributing port is arranged on one side of the material receiving plate, a material distributing chamber is arranged below the material distributing port, and a packaging table is arranged below the material distributing chamber, and a packing box is arranged above the packing table.

Preferably, the revolving stage passes through the tooth's socket and is connected with the action wheel meshing, and the revolving stage passes through the slide rail and constitutes revolution mechanic with the base frame to revolving stage and feed inlet swivelling joint, keep apart the chamber bottom and set up for the arc, and keep apart chamber and revolving stage fixed connection.

Preferably, the spiral plate is arranged in a spiral structure, the spiral plate is fixedly connected with the inner wall of the roller screen, and the surface of the roller screen is provided with a microporous structure.

Preferably, the conveying pipe and the sundry bag form a sliding structure, the electrostatic rollers are symmetrically arranged inside the conveying pipe, and the electrostatic rollers are connected with the scraper in a sliding mode.

Preferably, the letter sorting intracavity is equidistant to be provided with carries the axle, and letter sorting intracavity equidistant is provided with and connects the flitch to connect equidistant sterilamp that is provided with in the flitch.

Preferably, the surface of the conveying shaft is symmetrically provided with main conveying wheels, the main conveying wheels are in sliding connection with the conveying shaft through sliding grooves, and the main conveying wheels are in threaded connection with the screw rod.

Preferably, the screw rod and the adjusting wheel form a rotating structure through a transmission belt, the sliding groove is connected with the auxiliary conveying wheel in a sliding mode, the auxiliary conveying wheel is arranged on the conveying shaft at equal intervals, and the auxiliary conveying wheel and the jump distance spring form a spring reset structure.

Preferably, the material distribution chamber is rotatably connected with the material distribution shaft, the material distribution shaft and the shifting plate are integrally arranged, the shifting plate is arranged in the material distribution chamber in an annular matrix manner, and the material distribution chamber is fixedly connected with the material outlet.

Compared with the prior art, the invention has the beneficial effects that: the progressive sorting type packaging equipment for tea processing production,

1. through the arranged roller screen, the tea can be primarily screened when being fed, part of fine impurities in the tea are removed, the fine impurities are collected through the dust collection box, the situation that the fine impurities are mixed into the subsequent process of packaging equipment again due to flying in a workshop is prevented, the impurities with light weight contained in the tea are blown into the impurity bag in the conveying process through the arranged wind wheel, so that the impurities in the tea are further removed, the impurities with the same appearance and quality as the tea but larger dielectric constant difference can be effectively removed through the arranged static roller, the content of the impurities in the packaged tea is reduced, or even the impurities are not contained, and the quality of the tea is improved;

2. screening is carried out through the arranged roller screen, fragments of tea leaves caused in the tea leaf production process are screened out, meanwhile, the roller screen and the spiral plate move together, so that severe impact and impact cannot be generated in the tea leaf conveying and screening process, the completeness of the tea leaves is ensured, new fragments are not generated, meanwhile, the size of the tea leaves is sorted through the main conveying wheel and the auxiliary conveying wheel which are arranged to be matched with the conveying rope, the adjustment of different sorting sizes can be carried out according to the variety of the tea leaves, and meanwhile, the conveying rope structure cannot generate high-frequency severe vibration when sorting is carried out, so that the tea leaves are easy to crush in the tea leaf sorting process, and the fragments are not easy to generate;

3. through the sterilamp that sets up to let tealeaves can kill its bacterium that contacts when the preceding process is produced before the packing, and through the setting of dividing the material room, need not artificial intervention to the ration of tealeaves when can letting the packing, thereby make tealeaves contactless manual work, and then prevent tealeaves and sneak into the bacterium again after the sterilization, just so can not appear the too short problem of save time of tealeaves, also can prevent that the consumer from leading to healthy problem because of using the tealeaves that contains the bacterium.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic left-side sectional view of the connection between the turntable and the base table according to the present invention;

FIG. 4 is a schematic view of the top view of the connection between the sorting chamber and the material distributing port;

FIG. 5 is an enlarged view of the structure at B in FIG. 4 according to the present invention;

FIG. 6 is a schematic top sectional view of the sorting chamber and the adjustment wheel of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C according to the present invention;

FIG. 8 is a schematic view of a left-side sectional view of the connection between the material distributing port and the material distributing chamber;

FIG. 9 is a schematic view of a three-dimensional structure of the material distribution chamber and the dial plate according to the present invention.

In the figure: 1. a feed inlet; 2. a base table; 3. a tooth socket; 4. a rotating table; 5. an isolation chamber; 6. a spiral plate; 7. rolling and screening; 8. a dust collecting box; 9. a slide rail; 10. a lifting belt; 11. a temporary storage cavity; 12. a delivery pipe; 13. a wind wheel; 14. a war bag; 15. an electrostatic roller; 16. a scraper; 17. a conveying rope; 18. a sorting chamber; 19. a material receiving plate; 20. a delivery shaft; 21. a main conveying wheel; 22. a screw rod; 23. a chute; 24. a sterilizing lamp; 25. a driving wheel; 26. an adjustment wheel; 27. a material distribution chamber; 28. a material distributing port; 29. a secondary conveying wheel; 30. a drive belt; 31. a spring for jumping distance; 32. a packaging table; 33. packaging boxes; 34. dialing a plate; 35. a material distributing shaft; 36. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 4, 5, 7, 8 and 9, the present invention provides a technical solution: a step-by-step sorting type packaging device for tea processing production comprises a feed inlet 1, in order to sort out impurities in tea and ensure the quality of the tea, a bottom table 2 is arranged below the feed inlet 1, a rotary table 4 is arranged above the bottom table 2, a dust collecting box 8 is arranged inside the bottom table 2, an isolation chamber 5 is arranged inside the rotary table 4, a roller screen 7 is arranged inside the isolation chamber 5, a spiral plate 6 is connected inside the roller screen 7, a temporary storage chamber 11 is arranged on the right side of the spiral plate 6, a lifting belt 10 is arranged in the temporary storage chamber 11, a conveying pipe 12 is arranged on the right side of the lifting belt 10, a wind wheel 13 is arranged on the left side of the conveying pipe 12, an electrostatic roller 15 is arranged below the conveying pipe 12, a sorting chamber 18 is arranged below the electrostatic roller 15, the rotary table 4 is meshed and connected with a driving wheel 25 through a tooth socket 3, and the rotary table 4 forms a rotary structure with the bottom table 2 through a slide rail 9, and revolving stage 4 and 1 swivelling joint of feed inlet, keep apart 5 bottoms in chamber for the arc setting, and keep apart chamber 5 and 4 fixed connection of revolving stage, spiral plate 6 adopts helical structure to set up, and spiral plate 6 and 7 inner wall fixed connection of roller screen, and microporous structure has been seted up on roller screen 7 surface, conveyer pipe 12 constitutes sliding construction with sundries bag 14, and the inside symmetry of conveyer pipe 12 sets up static roller 15, and static roller 15 and 16 sliding connection of scraper, give through the roller screen 7 and wind wheel 13 and the static roller 15 that set up in with tealeaves impurity and clear away totally, promote the tealeaves quality.

Referring to fig. 1, 2, 3 and 6, in order to prevent bacteria from being mixed in tea leaves and classify the tea leaves according to sizes, a conveying shaft 20 is disposed inside a sorting chamber 18, a conveying rope 17 is disposed on one side of the conveying shaft 20, a receiving plate 19 is disposed below the conveying rope 17, a material dividing port 28 is disposed on one side of the receiving plate 19, a material dividing chamber 27 is disposed below the material dividing port 28, a packing table 32 is disposed below the material dividing chamber 27, packing boxes 33 are disposed above the packing table 32, conveying shafts 20 are disposed in the sorting chamber 18 at equal intervals, receiving plates 19 are disposed in the sorting chamber 18 at equal intervals, sterilizing lamps 24 are disposed in the receiving plates 19 at equal intervals, main conveying wheels 21 are symmetrically disposed on the surface of the conveying shaft 20, the main conveying wheels 21 are slidably connected with the conveying shaft 20 through a chute 23, the main conveying wheels 21 are in threaded connection with a screw rod 22, the screw rod 22 forms a rotating structure with an adjusting wheel 26 through a transmission belt 30, chute 23 and vice conveying wheel 29 sliding connection, and vice conveying wheel 29 is equidistant to be set up on carrying axle 20, and vice conveying wheel 29 constitutes spring return structure with jump distance spring 31, divide material room 27 and branch material axle 35 swivelling joint, and divide material axle 35 and dial board 34 integration setting, dial board 34 annular matrix setting in dividing material room 27, and divide material room 27 and discharge gate 36 fixed connection, make tealeaves be categorised through carrying rope 17, kill the bacterium through sterilamp 24 simultaneously, make simultaneously divide the material room 27 to divide the material packing not artifical the participation to prevent to mix into the bacterium.

The working principle is as follows: according to the figures 1 and 3, firstly, the prepared tea leaves are put into the feeding hole 1, then the tea leaf production packaging equipment is started, at this time, the driving wheel 25 in the bottom table 2 starts to rotate, the tooth spaces 3 are meshed with the driving wheel 25, so that the rotation of the driving wheel 25 drives the tooth spaces 3 to rotate, the rotating table 4 starts to rotate above the bottom table 2 through the slide rails 9, along with the rotation of the rotating table 4, the rolling sieve 7 and the spiral plate 6 in the rolling sieve 7 rotate along with the rotating table 4, at this time, the tea leaves in the feeding hole 1 start to be continuously conveyed to the right side of the rolling sieve 7 through the spiral plate 6, the tea leaves continuously move in the rolling sieve 7 along with the rotation of the rolling sieve 7, so that impurities and tea leaf fragments in the tea leaves fall into the isolation cavity 5 through holes in the surface of the rolling sieve 7, and because the isolation cavity 5 and the rotating table 4 form a sealed structure, the screened impurities can be effectively prevented from floating in the air, thereby preventing impurities from falling into the processed tea, and because one side of the isolation cavity 5 is arc-shaped, the impurities and tea scraps are gathered at the center of the bottom and enter the dust collection box 8 through the opening at the lower part, and the primarily screened tea enters the temporary storage cavity 11 after passing through the roller screen 7 and is conveyed upwards along with the lifting belt 10, when the tea is conveyed to the conveying pipe 12 by the lifting belt 10, the tea falls down in the conveying pipe 12, because of the rotation of the wind wheel 13, an air duct of a vertical pipeline is generated in the conveying pipe 12, the impurities with lighter texture in the tea are blown into the impurity bag 14, at the moment, the heavier tea falls down to the electrostatic roller 15, because the electrostatic roller 15 carries a certain amount of static electricity, the impurity with a certain adsorption capacity and a certain dielectric constant can be adsorbed, the tea cannot be adsorbed, and the impurities with similar appearance quality to the tea but a large difference in the tea are removed, with the rotation of the electrostatic roller 15, the scraper 16 scrapes on the electrostatic roller 15 to scrape off the impurities adsorbed on the surface for subsequent adsorption, and the tea leaves fall downwards into the sorting chamber 18.

According to the figures 1, 2, 4, 5, 6 and 7, when tea leaves fall into the sorting cavity 18 and the size of the screen is adjusted according to the type of the tea leaves, the adjusting wheel 26 is pressed down first to connect the adjusting wheel 26 with the transmission belt 30, the adjusting wheel 26 is rotated to drive the transmission belt 30 and further drive the lead screw 22, the transmission shaft 20 is in a static state because the motor is not started at this time, the lead screw 22 rotates in the transmission shaft 20 at this time to move the main transmission wheels 21 at both ends, because the threads on the lead screw 22 are opposite to the rotation direction of the center line of the lead screw, the main transmission wheels 21 at both sides move on the transmission shaft 20 through the chute 23 in opposite or opposite directions, because the main transmission wheels 21 and the auxiliary transmission wheels 29 are connected by the jump distance spring 31, the tension or pressure applied to the jump distance spring 31 is the same, and therefore the contraction and extension distances of the jump distance spring 31 are equal, the auxiliary conveying wheels 29 are connected with the screw rod 22 in a non-threaded manner, so that the auxiliary conveying wheels 29 slide in the sliding groove 23 under the action of a jump distance spring 31, the distance between each auxiliary conveying wheel 29 is equal to the distance between the auxiliary conveying wheel 29 close to the main conveying wheel 21 and the main conveying wheel 21, the conveying shafts 20 on the two sides are adjusted through the transmission belt 30, so that the main conveying wheels 21 and the auxiliary conveying wheels 29 on the two sides are in the same horizontal line, the conveying ropes 17 are horizontal and equal in distance, then the adjusting wheel 26 is pulled out to be separated from the transmission belt 30, the three adjusting wheels 26 are sequentially adjusted, the distance between the conveying ropes 17 on the left side is minimum, the distance between the conveying ropes 17 on the right side is maximum, due to the starting of the device, the motor drives the conveying shafts 20, at the moment, the conveying shafts 20 rotate, the adjusting wheels 26 are separated from the transmission belt 30, at the moment, the screw rod 22 rotates along with the conveying shafts 20, thereby guarantee that lead screw 22 is static relatively with carrying axle 20, just can not cause the removal of main delivery wheel 21 yet, tealeaves enters into letter sorting chamber 18 this moment, and after the first layer was sieved, the minimum a batch of tealeaves falls on connecing flitch 19, and on remaining tealeaves was carried on the conveying rope 17 in the middle of for the tealeaves of medium size falls on the middle flitch 19 that connects, and the biggest tealeaves then can fall on the conveying rope 17 on the rightmost side, and fall on the flitch 19 that connects on the rightmost side.

According to fig. 1, 4, 5, 7, 8 and 9, after the tea leaves fall onto the receiving plate 19, because the sterilizing lamp 24 is arranged in the material receiving plate 19, the bacteria mixed in the tea during the production process are killed, and then the tea falls into the material distributing opening 28 through the material receiving plate 19, and enters the material distributing chamber 27 through the material distributing opening 28, and the material distributing shaft 35 is rotated by the starting of the motor, so as to drive the shifting plate 34 to rotate, because the poking plates 34 are arranged in the annular matrix in the material distribution chamber 27, a fixed amount of tea leaves are poked each time and discharged through the discharge port 36, since the packing table 32 disposed below the discharge port 36 is timed to feed the packing boxes 33 below the dispensing port 28, so as to catch the tea leaves and complete the packaging without manual intervention in the whole process and without causing the mixing of bacteria, and the content which is not described in detail in the specification belongs to the prior art which is well known to the professional skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.