CN109965037B

CN109965037B - Equipment of recycling of garrulous tealeaves after tealeaves is selected separately

Info

Publication number: CN109965037B
Application number: CN201910265212.5A
Authority: CN
Inventors: 陈耀锋
Original assignee: Wuyuan Yueliangwan Industrial Co ltd
Current assignee: Wuyuan Yueliangwan Industrial Co.,Ltd.
Priority date: 2019-04-03
Filing date: 2019-04-03
Publication date: 2021-05-14
Anticipated expiration: 2039-04-03
Also published as: CN109965037A

Abstract

The invention relates to recycling equipment, in particular to recycling equipment for broken tea leaves after tea leaves are sorted. The tea and the broken tea which are good in appearance can be screened, the screened broken tea is crushed again, the paper cup can be automatically placed on the conveying belt by the paper cup holder, the discharge port is divided into equal parts by the material dividing mechanism and is conveyed into the paper cup on the conveying belt, the tea is wrapped at the bottom of the paper cup by the wrapping mechanism, hot water is added into the paper cup for drinking, and the tea cannot float on the water surface. The cover screening is located on the upper side of the paper cup, the screening is connected with the grinding, the grinding is located on the upper side of the material distribution, the grinding is connected with the material distribution, the grinding is located on the upper side of the paper cup, the grinding is connected with the paper cup, the guiding is located on the lower side of the screening, the guiding is connected with the screening, the paper cup is located on the guiding inner side, the wrapping is located on the guiding inner side.

Description

Equipment of recycling of garrulous tealeaves after tealeaves is selected separately

Technical Field

The invention relates to recycling equipment, in particular to recycling equipment for broken tea leaves after tea leaves are sorted.

Background

Chinese people have a habit of drinking tea since ancient times, tea leaves can be sorted according to the grade in the tea leaf making process, and tea leaves with poor grade in the sorting process can be disposed, so that great waste is caused, and therefore the recycling equipment for broken tea leaves after sorting the tea leaves is designed.

Disclosure of Invention

The invention provides a recycling device for crushed tea after sorting tea, which has the beneficial effects that good-quality tea and crushed tea can be screened, the screened crushed tea is crushed again, a paper cup can be automatically placed on a conveyor belt by a paper cup holder, the paper cup holder is divided into equal parts by a material distribution mechanism at a discharge port and is conveyed into a paper cup on the conveyor belt, the tea is wrapped at the bottom of the paper cup by a wrapping mechanism, hot water can be added into the paper cup for drinking, and the tea cannot float on the water surface.

The invention relates to recycling equipment, in particular to recycling equipment for crushed tea after sorting tea, which comprises screening, crushing, material distribution, paper cups, guiding and coating, wherein the screened crushed tea and the tea can be screened, the screened crushed tea can be crushed again, the paper cups can be automatically placed on a conveying belt, the paper cups are equally distributed at a discharge port by a material distribution mechanism and are conveyed into the paper cups on the conveying belt, the coating mechanism wraps the tea at the bottoms of the paper cups, hot water is added into the paper cups for drinking, and the tea cannot float on the water surface.

The screening device comprises a fixed plate, a lower shaft, parallel rods, an upper shaft, a screen plate, a connecting shaft, a connecting rod, a rotating shaft, a rotating rod and a fixed seat, wherein the fixed plate is positioned outside the lower shaft;

the sieve plate consists of a side sieve plate, a screen mesh, a bottom sieve plate, an opening and closing sieve plate, a direction fixing spring and a hinge, wherein the bottom sieve plate is positioned outside the screen mesh, the bottom sieve plate is connected with the screen mesh, the opening and closing sieve plate is positioned on the side surface of the side sieve plate, the opening and closing sieve plate is positioned on the side surface of the bottom sieve plate, the opening and closing sieve plate is connected with the bottom sieve plate, the hinge is positioned outside the direction fixing spring, the hinge is connected with the direction fixing spring, the hinge is positioned outside the opening and closing sieve plate, the hinge is connected with the opening and closing sieve plate, the hinge is positioned;

the grinding device comprises a wide mouth, a shell, a main wheel, a main shaft, a driven wheel, a jacking sliding block, a driven shaft, a jacking spring, a slide way, a pin, a spring elasticity adjusting block and a pin hole, wherein the shell is positioned at the lower side of the wide mouth, the shell is connected with the wide mouth, the main shaft is positioned at the inner side of the main wheel, the main shaft is connected with the main wheel, the main shaft is positioned at the inner side of the shell, the main shaft is connected with the shell, the driven wheel is positioned at the left side of the main wheel, the driven shaft is positioned at the inner side of the jacking sliding block, the driven shaft is positioned at the inner side of the driven wheel, the driven shaft is positioned at the inner side of the shell, the driven shaft is connected with the shell, the jacking spring is positioned at the left side of the jacking sliding block, the jacking spring is connected with the jacking sliding way, the slide way is positioned at the outer side of, the spring elasticity adjusting block is positioned on the inner side of the pin and connected with the pin, and the pin hole is positioned on the inner side of the spring elasticity adjusting block and connected with the spring elasticity adjusting block;

the material distribution is composed of a motor III, an eccentric pin, a rotary disc, a small belt wheel, an index plate, a belt, a large belt wheel, a material distribution disc, a material distribution shell and a slope, wherein the motor III is positioned on the side surface of the rotary disc, the motor III is connected with the rotary disc, the rotary disc is positioned on the side surface of the eccentric pin, the rotary disc is connected with the eccentric pin, the index plate is positioned on the left side of the eccentric pin, the belt is positioned on the left side of the small belt wheel, the belt is connected with the small belt wheel, the large belt wheel is positioned on the left side of the belt, the large belt wheel is connected with the belt, the material distribution disc is positioned on the side surface of the large belt wheel, the material distribution;

the material distribution disc consists of a disc body, a shaft hole and a material distribution groove, the shaft hole is positioned in the center of the disc body, and the material distribution groove is positioned on the outer side of the disc body;

the paper cup is composed of a mounting plate, a cup, a motor IV, a hinged support, a claw, a screw rod, a nut, a vertical slideway, a clamping jaw, a sliding block, a rack, a sliding mounting plate, a gear, a transverse slideway, a tension spring, a pull rod, a rotating shaft and a rotating disk, wherein the motor IV is positioned at the lower side of the mounting plate, the motor IV is connected with the mounting plate, the hinged support is positioned at the upper side of the mounting plate, the claw is positioned at the upper side of the hinged support, the claw is connected with the hinged support, the screw rod is positioned at the upper side of the mounting plate, the screw rod is connected with the motor IV, the nut is positioned at the inner side of the screw rod, the nut is connected with the screw rod, the nut is positioned at the inner side of the claw, the nut is connected with the claw, the cup is positioned at the inner side of the sliding mounting plate, the sliding block is connected with, the sliding mounting plate is connected with the vertical slide way, the gear is positioned on the inner side of the rack, the gear is connected with the rack, the gear is positioned on the side surface of the sliding mounting plate, the gear is connected with the sliding mounting plate, the transverse slide way is positioned on the upper side of the sliding mounting plate, the transverse slide way is connected with the sliding mounting plate, the tension spring is positioned on the inner side of the transverse slide way, the tension spring is connected with the transverse slide way, the pull rod is positioned on the inner side of the sliding mounting plate, the pull rod is connected with the sliding mounting plate, the rotating shaft is positioned on the inner side of;

the guide device comprises a main support, a wheel carrier, a belt wheel, a conveyor belt, a motor five, a power belt wheel, a connecting rod one, a connecting rod two, a connecting rod three, an end screw rod seat, a screw nut, a connecting rod hinged seat, a vertical screw rod and a hand wheel, wherein the wheel carrier is positioned at the inner side of the main support, the wheel carrier is connected with the main support, the belt wheel is positioned at the upper side of the wheel carrier, the belt wheel is positioned at the inner side of the conveyor belt, the belt wheel is connected with the conveyor belt, the power belt wheel is positioned at the side surface of the motor five, the power belt wheel is connected with the motor five, the connecting rod one is positioned at the left side of the motor five, the connecting rod one is connected with the motor five, the connecting rod two is positioned at the left side of the connecting rod one, the connecting rod two is connected with the connecting rod one, the connecting rod three is positioned at the upper, the end screw rod seat is connected with the main support, the screw nut is positioned on the outer side of the vertical screw rod and connected with the vertical screw rod, the screw nut is positioned on the left side of the connecting rod hinged seat and connected with the connecting rod hinged seat, the connecting rod hinged seat is positioned on the left side of the connecting rod II, the connecting rod hinged seat is connected with the connecting rod II, the vertical screw rod is positioned on the inner side of the end screw rod seat, the vertical screw rod is connected with the end screw rod seat, the hand wheel is positioned on the upper side of the vertical screw rod, and the hand wheel is connected with the;

the coating consists of a film, a film seat, a cutting compaction die, a tension seat, a tension wheel, a power seat, a counterweight rotating rod, a first rod, a second rod, a fulcrum hole, a third rod, a fourth rod, a limiting barrel, a damping spring, a sixth sliding block, a fifth rod and a sixth sliding way, wherein the film seat is positioned on the upper side of the film, the film seat is connected with the film, the cutting compaction die is positioned on the upper side of the film, the tension wheel is positioned on the right side of the tension seat, the tension wheel is connected with the tension seat, the counterweight rotating rod is positioned on the upper side of the power seat, the counterweight rotating rod is connected with the power seat, the first rod is positioned on the upper side of the counterweight rotating rod, the first rod is connected with the counterweight rotating rod, the second rod is connected with the first rod, the fulcrum hole is positioned in the middle of the second rod, the fulcrum hole is connected with the second rod, the third rod is positioned on the left side of the fulcrum hole, the fourth rod is positioned on the lower side of the third rod, the fourth rod is positioned on, the six slide ways are connected with the limiting barrel, the six slide ways are located on the outer side of the damping spring, the six slide ways are connected with the damping spring, the six slide ways are located on the outer side of the six sliding blocks, the six slide ways are connected with the six sliding blocks, the six slide ways are located on the outer side of the five rod, the six sliding blocks are connected with the five rod, the five rod is located on the lower side of the six sliding blocks, the five sliding blocks are connected with the six sliding blocks, the six sliding blocks are connected with the damping spring, the cutting compaction die is located on the lower side of the five rod, the cutting compaction die is connected with the five rod, the cutting compaction die is;

the counterweight rotating rod consists of a rotating section, an eccentric section and a counterweight section, wherein the rotating section and the eccentric section are connected with the eccentric section and the counterweight section;

the paper cup is characterized in that the screening is located on the upper side of the grinding, the screening is connected with the grinding, the grinding is located on the upper side of the material distribution, the grinding is connected with the material distribution, the grinding is located on the upper side of the paper cup, the grinding is connected with the paper cup, the guiding is located on the lower side of the screening, the guiding is connected with the screening, the paper cup is located on the guiding inner side, the wrapping is located.

As a further optimization of the technical scheme, the main bracket of the recycling equipment for the crushed tea leaves after the tea leaves are sorted is connected with the fixing plate.

As a further optimization of the technical scheme, the branch point hole of the recycling equipment for the sorted crushed tea leaves is connected with the main support.

As a further optimization of the technical scheme, the number of the grabs of the recycling equipment for the sorted crushed tea leaves is two.

The recycling equipment for the crushed tea leaves after tea sorting has the beneficial effects that:

the tea and the broken tea which are good in appearance can be screened, the screened broken tea is crushed again, the paper cup can be automatically placed on the conveying belt by the paper cup frame, the discharge port is divided into equal parts by the material dividing mechanism and is conveyed into the paper cup on the conveying belt, the tea is wrapped at the bottom of the paper cup by the wrapping mechanism, hot water is added into the paper cup for drinking, and the tea cannot float on the water surface.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a recycling apparatus for sorted crushed tea leaves according to the present invention.

Fig. 2 is a schematic structural view of a screen 1 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 3 is a partial enlarged structural view of a screen 1 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 4 is a schematic structural view of a sieve plate 1-5 of the recycling device for the sorted crushed tea leaves.

Fig. 5 is a schematic view of a partially enlarged structure of a sieve plate 1-5 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 6 is a schematic view showing a structure of grinding 2 of an apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 7 is a partially enlarged view of a grinding 2 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 8 is a schematic view of the structure of the distribution material 3 of the recycling equipment for the crushed tea leaves after sorting the tea leaves.

Fig. 9 is a schematic structural view of a distributing tray 3-8 of the recycling equipment for the crushed tea leaves after sorting the tea leaves.

Fig. 10 is a schematic structural view of a paper cup 4 of the apparatus for recycling tea leaves after sorting the tea leaves according to the present invention.

Fig. 11 is a partially enlarged structural view of a paper cup 4 of the apparatus for recycling sorted tea leaves of the present invention.

Fig. 12 is a partial structural view of a paper cup 4 of an apparatus for recycling tea leaves after sorting the tea leaves according to the present invention.

Fig. 13 is a schematic structural view of a guide 5 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 14 is a partial structural view of a guide 5 of an apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 15 is a schematic view of the structure of a coating 6 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 16 is a partial structural view of a coating 6 of the apparatus for recycling sorted crushed tea leaves according to the present invention.

Fig. 17 is a schematic structural view of a weight rotating rod 6-7 of the recycling device for the sorted crushed tea leaves.

In the figure: screening 1; a fixing plate 1-1; a lower shaft 1-2; parallel bars 1-3; 1-4 of an upper shaft; 1-5 parts of a sieve plate; 1-5-1 of side sieve plate; 1-5-2 parts of a screen mesh; 1-5-3 parts of a bottom sieve plate; 1-5-4 parts of an opening and closing sieve plate; a fixed spring 1-5-5; 1-5-6 parts of a hinge; connecting shafts 1-6; connecting rods 1-7; a rotating shaft 1-8; rotating rods 1-9; 1-10 of a fixed seat; grinding 2; 2-1 of wide mouth; a housing 2-2; a main wheel 2-3; 2-4 of a main shaft; from wheel 2-5; jacking the slide block 2-6; from shaft 2-7; jacking a spring 2-8; 2-9 of a slideway; 2-10 parts of a pin; 2-11 parts of spring elasticity adjusting block; 2-12 of pin holes; distributing 3; 3-1 of a motor III; an eccentric pin 3-2; 3-3 of a rotary table; 3-4 parts of a small belt wheel; 3-5 of an index plate; 3-6 of the belt; 3-7 of a large belt wheel; 3-8 parts of a material distribution disc; 3-8-1 of a tray body; shaft hole 3-8-2; 3-8-3 parts of a distributing trough; 3-9 parts of a material distribution shell; 3-10 of a slope; a paper cup 4; mounting plate 4-1; 4-2 of cup; 4-3 of a motor; 4-4 of a hinged support; 4-5 of grab; 4-6 of a screw rod; 4-7 of a nut; 4-8 of a vertical slideway; 4-9 parts of clamping jaw; 4-10 parts of a sliding block; 4-11 of racks; a sliding mounting plate 4-12; 4-13 of gears; 4-14 of a transverse slideway; 4-15 parts of a tension spring; 4-16 of a pull rod; a rotating shaft 4-17; rotating the discs 4-18; guiding 5; a main support 5-1; 5-2 parts of a wheel carrier; 5-3 of belt wheel; 5-4 of a conveyor belt; 5-5 parts of a motor; 5-6 of a power belt wheel; 5-7 of a first connecting rod; 5-8 parts of a second connecting rod; connecting rods III 5-9; 5-10 parts of an end screw rod seat; 5-11 of a nut; 5-12 parts of connecting rod hinged support; 5-13 parts of vertical screw rod; 5-14 parts of a hand wheel; coating 6; 6-1 of a membrane; 6-2 of a membrane seat; cutting and compacting the die 6-3; 6-4 of a tension seat; 6-5 of a tension wheel; 6-6 of a power seat; 6-7 of a counterweight rotating rod; a rotating section 6-7-1; 6-7-2 of an eccentric section; a counterweight segment 6-7-3; 6-8 of a first rod; 6-9 parts of a second rod; 6-10 of branch point holes; 6-11 parts of rod III; 6-12 of rod four; 6-13 parts of a limiting barrel; 6-14 parts of damping spring; 6-15 parts of a sliding block; 6-16 parts of rod five; six slideways 6-17.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present invention relates to a recycling apparatus, and more particularly, to a recycling apparatus for sorted and crushed tea leaves, which includes a sorting unit 1, a grinding unit 2, a separating unit 3, a paper cup 4, a guide unit 5, and a wrapping unit 6, and is capable of sorting and re-grinding tea leaves of good quality and crushed tea leaves, and the paper cup holder is capable of automatically placing the paper cup on a conveyor belt, and is divided into equal parts by the separating unit at a discharge port, and is fed into the paper cup on the conveyor belt, and the wrapping unit wraps the tea leaves at the bottom of the paper cup, and can be used by adding hot water to the paper cup.

The screening 1 is composed of a fixed plate 1-1, a lower shaft 1-2, parallel rods 1-3, an upper shaft 1-4, a screen plate 1-5, a connecting shaft 1-6, a connecting rod 1-7, a rotating shaft 1-8, a rotating rod 1-9 and a fixing seat 1-10, wherein the fixed plate 1-1 is positioned at the outer side of the lower shaft 1-2, the fixed plate 1-1 is connected with the lower shaft 1-2, the parallel rods 1-3 are positioned at the upper side of the lower shaft 1-2, the parallel rods 1-3 are connected with the lower shaft 1-2, the upper shaft 1-4 is positioned at the upper side of the parallel rods 1-3, the upper shaft 1-4 is connected with the parallel rods 1-3, the screen plate 1-5 is positioned at the outer side of the upper shaft 1-4, the screen plate 1-5 is connected with the upper shaft 1-, a connecting shaft 1-6 is connected with a sieve plate 1-5, a connecting rod 1-7 is positioned at the lower side of the connecting shaft 1-6, the connecting rod 1-7 is connected with the connecting shaft 1-6, a rotating shaft 1-8 is positioned at the lower side of the connecting rod 1-7, the rotating shaft 1-8 is connected with the connecting rod 1-7, a rotating rod 1-9 is positioned at the side surface of the rotating shaft 1-8, the rotating rod 1-9 is connected with the rotating shaft 1-8, a fixing seat 1-10 is positioned at the right side of the rotating rod 1-9, a fixing seat 1-10 is connected with the rotating rod 1-9, a fixing seat 1-10 is positioned at the left side of a fixing plate 1-1, the fixing seat 1-10 is connected with the fixing plate 1-1, the rotating rod 1-9 rotates by taking the, the rotating shaft 1-8 drives the lower part of the connecting rod 1-7 to rotate, the upper part of the connecting rod 1-7 moves left and right, the connecting rod 1-7 swings around the connecting shaft 1-6 as the center, the connecting shaft 1-6 moves left and right, the connecting shaft 1-6 drives the sieve plate 1-5 to swing, because the lower shaft 1-2 is connected with the fixed plate 1-1, the upper shaft 1-4 is connected with the sieve plate 1-5, and the sieve plate 1-5 is always parallel to the fixed plate 1-1;

the sieve plate 1-5 consists of a side sieve plate 1-5-1, a screen mesh 1-5-2, a bottom sieve plate 1-5-3, an opening sieve plate 1-5-4, a fixing spring 1-5-5 and a hinge 1-5-6, wherein the bottom sieve plate 1-5-3 is positioned at the outer side of the screen mesh 1-5-2, the bottom sieve plate 1-5-3 is connected with the screen mesh 1-5-2, the opening sieve plate 1-5-4 is positioned at the side surface of the side sieve plate 1-5-1, the opening sieve plate 1-5-4 is connected with the side sieve plate 1-5-1, the opening sieve plate 1-5-4 is positioned at the side surface of the bottom sieve plate 1-5-3, the opening sieve plate 1-5-4 is connected with the bottom sieve plate 1-5-3, the hinges 1-5-6 are located on the outer sides of the fixed direction springs 1-5-5, the hinges 1-5-6 are connected with the fixed direction springs 1-5-5, the hinges 1-5-6 are located on the outer sides of the opening and closing sieve plates 1-5-4, the hinges 1-5-6 are connected with the opening and closing sieve plates 1-5-4, the hinges 1-5-6 are located on the lower sides of the bottom sieve plates 1-5-3, the hinges 1-5-6 are connected with the bottom sieve plates 1-5-3, the opening and closing sieve plates 1-5-4 are rotated, the opening and closing sieve plates 1-5-4 rotate by taking the bottom sieve plates 1-5-3 as centers, and tea leaves are collected; rotating the opening and closing sieve plates 1-5-4 in the opposite direction, stretching the direction fixing springs 1-5-5, converting elastic potential energy of the springs into kinetic energy when the opening and closing sieve plates 1-5-4 rotate by more than ninety degrees, and fixing the opening and closing sieve plates 1-5-4 and the bottom sieve plates 1-5-3 by the direction fixing springs 1-5-5;

the grinding 2 comprises a wide opening 2-1, a shell 2-2, a main wheel 2-3, a main shaft 2-4, a driven wheel 2-5, a jacking sliding block 2-6, a driven shaft 2-7, a jacking spring 2-8, a slideway 2-9, a pin 2-10, a spring elasticity adjusting block 2-11 and a pin hole 2-12, wherein the shell 2-2 is positioned at the lower side of the wide opening 2-1, the shell 2-2 is connected with the wide opening 2-1, the main shaft 2-4 is positioned at the inner side of the main wheel 2-3, the main shaft 2-4 is connected with the main wheel 2-3, the main shaft 2-4 is positioned at the inner side of the shell 2-2, the main shaft 2-4 is connected with the shell 2-2, the driven wheel 2-5 is positioned at the left side of the main wheel 2-3, the driven shaft 2-7, the driven shaft 2-7 is connected with the jacking sliding block 2-6, the driven shaft 2-7 is positioned at the inner side of the driven wheel 2-5, the driven shaft 2-7 is connected with the driven wheel 2-5, the driven shaft 2-7 is positioned at the inner side of the shell 2-2, the driven shaft 2-7 is connected with the shell 2-2, the jacking spring 2-8 is positioned at the left side of the jacking sliding block 2-6, the jacking spring 2-8 is connected with the jacking sliding block 2-6, the slide way 2-9 is positioned at the outer side of the jacking sliding block 2-6, the slide way 2-9 is connected with the jacking sliding block 2-6, the slide way 2-9 is positioned at the outer side of the jacking spring 2-8, the slide way 2-9 is connected with the jacking spring 2-8, the spring elasticity adjusting block 2-11 is positioned at the inner side of the slide way 2, the spring elasticity adjusting block 2-11 is located on the inner side of the pin 2-10, the spring elasticity adjusting block 2-11 is connected with the pin 2-10, the pin hole 2-12 is located on the inner side of the spring elasticity adjusting block 2-11, the pin hole 2-12 is connected with the spring elasticity adjusting block 2-11, tea leaves enter the shell 2-2 through the wide opening 2-1, the main shaft 2-4 rotates, the main shaft 2-4 drives the main wheel 2-3 to rotate, the main wheel 2-3 drives the driven wheel 2-5 to rotate, the driven wheel 2-5 is connected with the jacking sliding block 2-6 through the shaft 2-7, when clamping stagnation occurs, clamping stagnation objects generate leftward pressure on the driven wheel 2-5, the driven wheel 2-5 moves leftward, the driven wheel 2-5 drives the shaft 2-7 to move leftward, and the jacking sliding block 2-6 is driven leftward by the shaft 2-7, the jacking sliding block 2-6 moves leftwards along the direction of the slide rail 2-9, the jacking sliding block 2-6 compresses a jacking spring 2-8, when a clamping stagnation object passes through, the elastic potential energy of the jacking spring 2-8 is converted into kinetic energy to push the jacking sliding block 2-6 to move rightwards, the jacking sliding block 2-6 drives the driven shaft 2-7 to move rightwards, the driven shaft 2-7 drives the driven wheel 2-5 to move rightwards, the driven wheel 2-5 collides with the main wheel 2-3 to crush tea, the pin 2-10 is inserted into the pin hole 2-12, the position of the spring elasticity adjusting block 2-11 in the pin 2-10 can be adjusted, and therefore the elasticity of the spring is changed;

the material distribution 3 consists of a motor III 3-1, an eccentric pin 3-2, a rotary disc 3-3, a small belt wheel 3-4, an index plate 3-5, a belt 3-6, a large belt wheel 3-7, a material distribution disc 3-8, a material distribution shell 3-9 and a slope 3-10, the motor III 3-1 is positioned on the side surface of the rotary disc 3-3, the motor III 3-1 is connected with the rotary disc 3-3, the rotary disc 3-3 is positioned on the side surface of the eccentric pin 3-2, the rotary disc 3-3 is connected with the eccentric pin 3-2, the index plate 3-5 is positioned on the left side of the eccentric pin 3-2, the belt 3-6 is positioned on the left side of the small belt wheel 3-4, the belt 3-6 is connected with the small belt wheel 3-4, the large belt wheel 3-7 is positioned on the left side of the belt 3-6, the material distribution disc 3-8 is positioned on the side surface of the large belt wheel 3-7, the material distribution disc 3-8 is connected with the large belt wheel 3-7, the material distribution disc 3-8 is positioned on the inner side of the material distribution shell 3-9, the material distribution disc 3-8 is connected with the material distribution shell 3-9, the material distribution shell 3-9 is positioned on the lower side of the slope 3-10, the material distribution shell 3-9 is connected with the slope 3-10, the ground tea falls on the slope 3-10 and finally enters the material distribution disc 3-8, the motor III 3-1 rotates, the motor III 3-1 drives the eccentric pin 3-2 to rotate, the eccentric pin 3-2 drives the dividing disc 3-5 to rotate, the eccentric pin 3-2 rotates for one circle, the dividing disc 3-5 rotates for one quarter of a circle, the dividing disc 3-5 drives the small belt wheel 3, the small belt wheel 3-4 drives the belt 3-6 to rotate, the belt 3-6 drives the large belt wheel 3-7 to rotate, and the large belt wheel 3-7 drives the material distribution disc 3-8 to rotate;

the material distribution disc 3-8 consists of a disc body 3-8-1, a shaft hole 3-8-2 and a material distribution groove 3-8-3, wherein the shaft hole 3-8-2 is positioned in the center of the disc body 3-8-1, the material distribution groove 3-8-3 is positioned on the outer side of the disc body 3-8-1, the material distribution disc 3-8 rotates by taking the shaft hole 3-8-2 as the center, when the material distribution groove 3-8-3 rotates to the upper part, broken tea leaves fall into the material distribution groove 3-8-3, the material distribution groove 3-8-3 continues to rotate, the material distribution shell 3-9 scrapes off redundant broken tea leaves in the material distribution groove 3-8-3, and the tea leaves are quantitatively distributed;

the paper cup 4 is composed of a mounting plate 4-1, a cup 4-2, a motor four 4-3, a hinged support 4-4, a grab 4-5, a screw rod 4-6, a screw nut 4-7, a vertical slideway 4-8, a clamping jaw 4-9, a sliding block 4-10, a rack 4-11, a sliding mounting plate 4-12, a gear 4-13, a horizontal slideway 4-14, a tension spring 4-15, a pull rod 4-16, a rotating shaft 4-17 and a rotating disk 4-18, wherein the motor four 4-3 is positioned at the lower side of the mounting plate 4-1, the motor four 4-3 is connected with the mounting plate 4-1, the hinged support 4-4 is positioned at the upper side of the mounting plate 4-1, the hinged support 4-4 is connected with the mounting plate 4-1, the grab 4-5 is positioned at the upper side, the claw 4-5 is connected with the hinged support 4-4, the screw rod 4-6 is positioned on the upper side of the mounting plate 4-1, the screw rod 4-6 is positioned on the upper side of the motor four 4-3, the screw rod 4-6 is connected with the motor four 4-3, the screw nut 4-7 is positioned on the inner side of the screw rod 4-6, the screw nut 4-7 is positioned on the inner side of the claw 4-5, the screw nut 4-7 is connected with the claw 4-5, the cup 4-2 is positioned on the inner side of the sliding mounting plate 4-12, the slide block 4-10 is positioned on the inner side of the vertical slideway 4-8, the slide block 4-10 is connected with the vertical slideway 4-8, the slide block 4-10 is positioned on the side of the clamping jaw 4-9, the slide block 4-10 is connected with the clamping jaw 4-9, and the, a rack 4-11 is connected with a clamping jaw 4-9, a sliding mounting plate 4-12 is positioned at the outer side of a vertical slideway 4-8, a sliding mounting plate 4-12 is connected with the vertical slideway 4-8, a gear 4-13 is positioned at the inner side of the rack 4-11, the gear 4-13 is connected with the rack 4-11, the gear 4-13 is positioned at the side surface of the sliding mounting plate 4-12, the gear 4-13 is connected with the sliding mounting plate 4-12, a transverse slideway 4-14 is positioned at the upper side of the sliding mounting plate 4-12, a transverse slideway 4-14 is connected with the sliding mounting plate 4-12, a tension spring 4-15 is positioned at the inner side of the transverse slideway 4-14, the tension spring 4-15 is connected with the transverse slideway 4-14, a pull rod 4-16 is positioned at the inner side of the sliding mounting plate 4-12, and, the rotating shaft 4-17 is positioned at the inner side of the rotating disc 4-18, the rotating shaft 4-17 is connected with the rotating disc 4-18, the rotating disc 4-18 is positioned at the inner side of the pull rod 4-16, the rotating disc 4-18 is connected with the pull rod 4-16, the rotating shaft 4-17 is rotated clockwise, the rotating shaft 4-17 drives the rotating disc 4-18 to rotate, the rotating disc 4-18 drives the pull rod 4-16 to move inwards, the pull rod 4-16 drives the sliding mounting plate 4-12 to move inwards, the sliding mounting plate 4-12 drives the clamping jaws 4-9 to move inwards, the cup 4-2 is clamped, the gear 4-13 is rotated anticlockwise, the gear 4-13 drives the rack 4-11 to move, the rack 4-11 drives the clamping jaws 4-9 to separate, and the clamping jaws 4-9, the slide block 4-10 moves under the limit of the vertical slide way 4-8, the clamping jaw 4-9 drives the cup 4-2 to fall off, the motor four 4-3 rotates, the motor four 4-3 drives the screw rod 4-6 to rotate, the screw rod 4-6 drives the screw nut 4-7 to move upwards, the screw nut 4-7 pushes the claw 4-5 to move towards two sides, the claw 4-5 rotates by taking the hinged support 4-4 as a center, the claw 4-5 is opened, and the cup 4-2 enters the conveyor belt 5-4;

the guide 5 consists of a main bracket 5-1, a wheel carrier 5-2, a belt wheel 5-3, a conveyor belt 5-4, a motor five 5-5, a power belt wheel 5-6, a connecting rod one 5-7, a connecting rod two 5-8, a connecting rod three 5-9, an end screw rod seat 5-10, a screw nut 5-11, a connecting rod hinge seat 5-12, a vertical screw rod 5-13 and a hand wheel 5-14, wherein the wheel carrier 5-2 is positioned at the inner side of the main bracket 5-1, the wheel carrier 5-2 is connected with the main bracket 5-1, the belt wheel 5-3 is positioned at the upper side of the wheel carrier 5-2, the belt wheel 5-3 is connected with the wheel carrier 5-2, the belt wheel 5-3 is positioned at the inner side of the conveyor belt 5-4, the belt wheel 5-3 is connected with the conveyor belt 5, the power belt wheel 5-6 is connected with the motor five 5-5, the connecting rod one 5-7 is positioned at the left side of the motor five 5-5, the connecting rod one 5-7 is connected with the motor five 5-5, the connecting rod two 5-8 is positioned at the left side of the connecting rod one 5-7, the connecting rod two 5-8 is connected with the connecting rod one 5-7, the connecting rod three 5-9 is positioned at the upper side of the connecting rod two 5-8, the connecting rod three 5-9 is connected with the connecting rod two 5-8, the connecting rod three 5-9 is positioned at the left side of the connecting rod one 5-7, the connecting rod three 5-9 is connected with the connecting rod one 5-7, the end screw rod seat 5-10 is positioned at the left side of the connecting rod three 5-9, the end screw rod seat 5-10 is connected with the connecting rod three 5-9, the end screw rod seat 5-10 is positioned at, the screw 5-11 is positioned at the outer side of the vertical screw rod 5-13, the screw 5-11 is connected with the vertical screw rod 5-13, the screw 5-11 is positioned at the left side of the connecting rod hinged support 5-12, the screw 5-11 is connected with the connecting rod hinged support 5-12, the connecting rod hinged support 5-12 is positioned at the left side of the connecting rod II 5-8, the connecting rod hinged support 5-12 is connected with the connecting rod II 5-8, the vertical screw rod 5-13 is positioned at the inner side of the end screw rod seat 5-10, the vertical screw rod 5-13 is connected with the end screw rod seat 5-10, the hand wheel 5-14 is positioned at the upper side of the vertical screw rod 5-13, the hand wheel 5-14 is connected with the vertical screw rod 5-13, the hand wheel 5-14 is rotated, the hand wheel 5-14 drives the vertical screw rod 5-13 to rotate, the vertical, the screw 5-11 pushes the second connecting rod 5-8 to move up and down, the second connecting rod 5-8 pushes the third connecting rod 5-9, the distance between the first connecting rod 5-7 and the main bracket 5-1 is changed, the tension on the conveyor belt 5-4 is changed, the motor five 5-5 rotates, the motor five 5-5 drives the power belt pulley 5-6 to rotate, the power belt pulley 5-6 drives the conveyor belt 5-4 to move rightwards, and the conveyor belt 5-4 drives the belt pulley 5-3 to rotate by taking the wheel carrier 5-2 as the center;

the coating 6 comprises a film 6-1, a film seat 6-2, a cutting compaction die 6-3, a tension seat 6-4, a tension wheel 6-5, a power seat 6-6, a counterweight rotating rod 6-7, a rod I6-8, a rod II 6-9, a fulcrum hole 6-10, a rod III 6-11, a rod IV 6-12, a limit barrel 6-13, a damping spring 6-14, a slider VI 6-15, a rod V6-16 and a slideway VI 6-17, wherein the film seat 6-2 is positioned at the upper side of the film 6-1, the film seat 6-2 is connected with the film 6-1, the cutting compaction die 6-3 is positioned at the upper side of the film 6-1, the tension wheel 6-5 is positioned at the right side of the tension seat 6-4, the tension wheel 6-5 is connected with the tension seat 6-4, the counterweight rotating rod 6-7 is positioned at the upper side of the power seat 6-6, a counterweight rotating rod 6-7 is connected with a power seat 6-6, a rod I6-8 is positioned on the upper side of the counterweight rotating rod 6-7, a rod I6-8 is connected with the counterweight rotating rod 6-7, a rod II 6-9 is positioned on the upper side of the rod I6-8, a rod II 6-9 is connected with the rod I6-8, a fulcrum hole 6-10 is positioned in the middle of the rod II 6-9, a fulcrum hole 6-10 is connected with the rod II 6-9, a rod III 6-11 is positioned on the left side of the fulcrum hole 6-10, a rod III 6-11 is connected with the fulcrum hole 6-10, a rod IV 6-12 is positioned on the lower side of the rod III 6-11, a rod IV 6-12 is connected with the rod III 6-11, a rod IV 6-12 is positioned on the inner side of a limit barrel 6-13, a rod IV 6-12 is connected with the limit, six slide ways 6-17 are positioned at two sides of the limiting barrel 6-13, the six slide ways 6-17 are connected with the limiting barrel 6-13, the six slide ways 6-17 are positioned at the outer side of the damping spring 6-14, the six slide ways 6-17 are connected with the damping spring 6-14, the six slide ways 6-17 are positioned at the outer side of the six slider 6-15, the six slide ways 6-17 are connected with the six slider 6-15, the six slide ways 6-17 are positioned at the outer side of the five rod 6-16, the six slide ways 6-17 are connected with the five rod 6-16, the five rod 6-16 is positioned at the lower side of the six slider 6-15, the six slider 6-15 is positioned at the lower side of the damping spring 6-14, the six slider 6-15 is connected with the damping spring 6-14, the 6-3 cutting compaction die is positioned at the lower side of the five slider 6-, the cutting and compacting die 6-3 is connected with the rod five 6-16, the cutting and compacting die 6-3 is positioned at the lower side of the rod four 6-12, the cutting and compacting die 6-3 is connected with the rod four 6-12, the counterweight rotating rod 6-7 rotates by taking the power seat 6-6 as the center, the power seat 6-6 drives the rod one 6-8 to move up and down, the rod one 6-8 pushes the rod two 6-9 to move up and down, the rod two 6-9 swings by taking the fulcrum hole 6-10 as the center, when the left end of the rod two 6-9 descends, the rod two 6-9 drives the rod three 6-11 to move down, the rod three 6-11 drives the rod four 6-12 to move down, the rod four 6-12 moves down along the limiting barrel 6-13, the rod four 6-12 drives the cutting and compacting die 6-3 to move down, the cutting and compacting die 6-3 drives the rod five 6-16 to move down, the rod five 6-16 drives the sliding block six 6-15 to move downwards, the damping spring 6-14 is stretched, the cutting compaction die 6-3 cuts the membrane 6-1 and presses the membrane into the cup 4-2, and the broken tea leaves are wrapped between the cup 4-2 and the membrane 6-1;

the counterweight rotating rod 6-7 consists of a rotating section 6-7-1, an eccentric section 6-7-2 and a counterweight section 6-7-3, wherein the rotating section 6-7-1 and the eccentric section 6-7-2 are connected with the eccentric section 6-7-2 and the counterweight section 6-7-3;

the sieving 1 is positioned at the upper side of the grinding 2, the sieving 1 is connected with the grinding 2, the grinding 2 is positioned at the upper side of the material 3, the grinding 2 is connected with the material 3, the grinding 2 is positioned at the upper side of the paper cup 4, the grinding 2 is connected with the paper cup 4, the guide 5 is positioned at the lower side of the sieving 1, the guide 5 is connected with the sieving 1, the paper cup 4 is positioned at the inner side of the guide 5, the coating 6 is positioned at the inner side of the guide 5, and.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment, in which the main support 5-1 is connected to the fixing plate 1-1.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment, in which the fulcrum hole 6-10 is connected to the main bracket 5-1.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment in which the number of the grippers 4 to 5 is two.

The working principle of the device is as follows: the working principle of screening is that the rotating rods 1-9 rotate around the fixed seats 1-10, the rotating rods 1-9 drive the rotating shafts 1-8 to rotate around the fixed seats 1-10, the rotating shafts 1-8 drive the lower parts of the connecting rods 1-7 to rotate, the upper parts of the connecting rods 1-7 move left and right, the connecting rods 1-7 swing around the connecting shafts 1-6, the connecting shafts 1-6 move left and right, the connecting shafts 1-6 drive the screen plates 1-5 to swing, because the lower shafts 1-2 are connected with the fixed plates 1-1, the upper shafts 1-4 are connected with the screen plates 1-5, the screen plates 1-5 are always parallel to the fixed plates 1-1, and broken tea leaves fall off through the screen plates 1-5-2. Rotating the opening and closing sieve plate 1-5-4, wherein the opening and closing sieve plate 1-5-4 rotates by taking the bottom sieve plate 1-5-3 as a center, and collecting the tea leaves; the opening and closing sieve plates 1-5-4 are rotated in the opposite direction, the direction fixing springs 1-5-5 are stretched, when the opening and closing sieve plates 1-5-4 rotate for more than ninety degrees, the elastic potential energy of the springs is converted into kinetic energy, and the direction fixing springs 1-5-5 fix the opening and closing sieve plates 1-5-4 and the bottom sieve plates 1-5-3. The tea grinding work principle is that tea enters a shell 2-2 through a wide opening 2-1, a main shaft 2-4 rotates, the main shaft 2-4 drives a main wheel 2-3 to rotate, the main wheel 2-3 drives a driven wheel 2-5 to rotate, a driven shaft 2-7 connects the driven wheel 2-5 with a jacking sliding block 2-6, when clamping stagnation occurs, clamping stagnation generates leftward pressure on the driven wheel 2-5, the driven wheel 2-5 moves leftwards, the driven wheel 2-5 drives a driven shaft 2-7 to move leftwards, the driven shaft 2-7 drives the jacking sliding block 2-6 to move leftwards, the jacking sliding block 2-6 moves leftwards along a slideway 2-9 direction, the jacking sliding block 2-6 compresses jacking springs 2-8, when the clamping stagnation passes through, elastic potential energy of the jacking springs 2-8 is converted into kinetic energy, the jacking sliding blocks 2-6 are pushed to move rightwards, the jacking sliding blocks 2-6 drive the driven shafts 2-7 to move rightwards, the driven wheels 2-5 are driven by the driven shafts 2-7 to move rightwards, the driven wheels 2-5 collide with the main wheels 2-3, tea leaves are crushed, the pins 2-10 are inserted into the pin holes 2-12, the positions of the spring elasticity adjusting blocks 2-11 in the pins 2-10 can be adjusted, and therefore elasticity of the springs is changed. The working principle of the material distribution is that crushed tea leaves fall on a slope 3-10 and finally enter a material distribution disc 3-8, a motor three 3-1 rotates, the motor three 3-1 drives an eccentric pin 3-2 to rotate, the eccentric pin 3-2 drives an indexing disc 3-5 to rotate, the eccentric pin 3-2 rotates for one circle, the indexing disc 3-5 rotates for one quarter of a circle, the indexing disc 3-5 drives a small belt wheel 3-4 to rotate, the small belt wheel 3-4 drives a belt 3-6 to rotate, the belt 3-6 drives a large belt wheel 3-7 to rotate, the large belt wheel 3-7 drives a material distribution disc 3-8 to rotate, the material distribution disc 3-8 rotates by taking a shaft hole 3-8-2 as a center, when the material distribution groove 3-8-3 rotates to the upper part, the crushed tea leaves fall into the material distribution groove 3-8-3, the material distributing groove 3-8-3 continues to rotate, the material distributing shell 3-9 scrapes off the redundant broken tea leaves in the material distributing groove 3-8-3, and the tea leaves are quantitatively distributed. The cup taking principle is that a rotating shaft 4-17 is rotated clockwise, the rotating shaft 4-17 drives a disc 4-18 to rotate, the rotating disc 4-18 drives a pull rod 4-16 to move inwards, the pull rod 4-16 drives a sliding mounting plate 4-12 to move inwards, the sliding mounting plate 4-12 drives a clamping jaw 4-9 to move inwards to clamp a cup 4-2, a gear 4-13 is rotated anticlockwise, the gear 4-13 drives a rack 4-11 to move, the rack 4-11 drives the clamping jaw 4-9 to separate, the clamping jaw 4-9 moves along the direction of a sliding block 4-10, the sliding block 4-10 moves under the limit of a vertical slideway 4-8, the clamping jaw 4-9 drives the cup 4-2 to fall off, a motor four 4-3 rotates, and the motor four 4-3 drives a screw rod 4-6 to rotate, the screw rod 4-6 drives the screw nut 4-7 to move upwards, the screw nut 4-7 pushes the claw 4-5 to move towards two sides, the claw 4-5 rotates by taking the hinged support 4-4 as a center, the claw 4-5 is opened, and the cup 4-2 enters the conveyor belt 5-4. The transmission working principle is that the handwheel 5-14 is rotated, the handwheel 5-14 drives the vertical screw rod 5-13 to rotate, the vertical screw rod 5-13 drives the screw nut 5-11 to move up and down, the screw nut 5-11 drives the connecting rod two 5-8 to move up and down, the connecting rod two 5-8 drives the connecting rod three 5-9, the distance between the connecting rod one 5-7 and the main bracket 5-1 is changed, the tension force applied to the conveyor belt 5-4 is changed, the motor five 5-5 rotates, the motor five 5-5 drives the power belt wheel 5-6 to rotate, the power belt wheel 5-6 drives the conveyor belt 5-4 to move rightwards, and the conveyor belt 5-4 drives the belt wheel 5-3 to rotate by taking the wheel carrier 5-. The cladding working principle is that the counterweight rotating rod 6-7 rotates by taking the power seat 6-6 as a center, the power seat 6-6 drives the rod I6-8 to move up and down, the rod I6-8 pushes the rod II 6-9 to move up and down, the rod II 6-9 swings by taking the fulcrum hole 6-10 as a center, when the left end of the rod II 6-9 descends, the rod II 6-9 drives the rod III 6-11 to move down, the rod III 6-11 drives the rod IV 6-12 to move down, the rod IV 6-12 moves down along the limiting barrel 6-13, the rod IV 6-12 drives the cutting and compacting die 6-3 to move down, the cutting and compacting die 6-3 drives the rod V6-16 to move down, the rod V6-16 drives the sliding block VI 6-15 to move down, the damping spring 6-14 is stretched, the cutting and compacting die 6-3 cuts the membrane 6-1 and presses the membrane into the cup 4-2, and the broken tea leaves are wrapped between the cup 4-2 and the membrane 6-1.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a tealeaves is selected separately equipment of recycling of back garrulous tealeaves, includes screening (1), pulverizes (2), divides material (3), paper cup (4), direction (5), cladding (6), its characterized in that: the screening device comprises a screening plate (1), a lower shaft (1-2), parallel rods (1-3), an upper shaft (1-4), a screening plate (1-5), a connecting shaft (1-6), a connecting rod (1-7), a rotating shaft (1-8), a rotating rod (1-9) and a fixing seat (1-10), wherein the fixed plate (1-1) is positioned at the outer side of the lower shaft (1-2), the fixed plate (1-1) is connected with the lower shaft (1-2), the parallel rods (1-3) are positioned at the upper side of the lower shaft (1-2), the parallel rods (1-3) are connected with the lower shaft (1-2), the upper shaft (1-4) is positioned at the upper side of the parallel rods (1-3), the upper shaft (1-4) is connected with the parallel rods (1-3), the screening plate (1-5) is positioned at the outer side of the upper shaft (1-4), the sieve plate (1-5) is connected with the upper shaft (1-4), the connecting shaft (1-6) is positioned on the left side of the sieve plate (1-5), the connecting shaft (1-6) is connected with the sieve plate (1-5), the connecting rod (1-7) is positioned on the lower side of the connecting shaft (1-6), the connecting rod (1-7) is connected with the connecting shaft (1-6), the rotating shaft (1-8) is positioned on the lower side of the connecting rod (1-7), the rotating shaft (1-8) is connected with the connecting rod (1-7), the rotating rod (1-9) is positioned on the side surface of the rotating shaft (1-8), the rotating rod (1-9) is connected with the rotating shaft (1-8), the fixing seat (1-10) is positioned on the right side of the rotating rod (1-9), the fixing seat (1-, the fixing seat (1-10) is positioned on the left side of the fixing plate (1-1), and the fixing seat (1-10) is connected with the fixing plate (1-1);

the sieve plate (1-5) consists of a side sieve plate (1-5-1), a sieve mesh (1-5-2), a bottom sieve plate (1-5-3), an opening sieve plate (1-5-4), a fixed spring (1-5-5) and a hinge (1-5-6), wherein the bottom sieve plate (1-5-3) is positioned at the outer side of the sieve mesh (1-5-2), the bottom sieve plate (1-5-3) is connected with the sieve mesh (1-5-2), the opening sieve plate (1-5-4) is positioned at the side of the side sieve plate (1-5-1), the opening sieve plate (1-5-4) is connected with the side sieve plate (1-5-1), the opening sieve plate (1-5-4) is positioned at the side of the bottom sieve plate (1-5-3), the opening and closing sieve plate (1-5-4) is connected with the bottom sieve plate (1-5-3), the hinge (1-5-6) is positioned at the outer side of the fixed direction spring (1-5-5), the hinge (1-5-6) is connected with the fixed direction spring (1-5-5), the hinge (1-5-6) is positioned at the outer side of the opening and closing sieve plate (1-5-4), the hinge (1-5-6) is connected with the opening and closing sieve plate (1-5-4), the hinge (1-5-6) is positioned at the lower side of the bottom sieve plate (1-5-3), and the hinge (1-5-6) is connected with the bottom sieve plate (1-5-3);

the grinding (2) consists of a wide opening (2-1), a shell (2-2), a main wheel (2-3), a main shaft (2-4), a driven wheel (2-5), a jacking sliding block (2-6), a driven shaft (2-7), a jacking spring (2-8), a slideway (2-9), a pin (2-10), a spring elasticity adjusting block (2-11) and a pin hole (2-12), wherein the shell (2-2) is positioned at the lower side of the wide opening (2-1), the shell (2-2) is connected with the wide opening (2-1), the main shaft (2-4) is positioned at the inner side of the main wheel (2-3), the main shaft (2-4) is connected with the main wheel (2-3), the main shaft (2-4) is positioned at the inner side of the shell (2-2), the main shaft (2-4) is connected with the shell (2-2), the driven wheel (2-5) is positioned at the left side of the main wheel (2-3), the driven shaft (2-7) is positioned at the inner side of the jacking sliding block (2-6), the driven shaft (2-7) is connected with the jacking sliding block (2-6), the driven shaft (2-7) is positioned at the inner side of the driven wheel (2-5), the driven shaft (2-7) is connected with the driven wheel (2-5), the driven shaft (2-7) is positioned at the inner side of the shell (2-2), the driven shaft (2-7) is connected with the shell (2-2), the jacking spring (2-8) is positioned at the left side of the jacking sliding block (2-6), the jacking spring (2-8) is connected with the jacking sliding block (2-6), the slide way (2-9) is positioned at the outer side of the jacking sliding block (2-6), and the slide way (2-9) is connected with the jacking sliding block, the slideway (2-9) is positioned on the outer side of the jacking spring (2-8), the slideway (2-9) is connected with the jacking spring (2-8), the spring elasticity adjusting block (2-11) is positioned on the inner side of the slideway (2-9), the spring elasticity adjusting block (2-11) is connected with the slideway (2-9), the spring elasticity adjusting block (2-11) is positioned on the inner side of the pin (2-10), the spring elasticity adjusting block (2-11) is connected with the pin (2-10), the pin hole (2-12) is positioned on the inner side of the spring elasticity adjusting block (2-11), and the pin hole (2-12) is connected with the spring elasticity adjusting block (2-11);

the material distribution (3) consists of a motor III (3-1), an eccentric pin (3-2), a rotary disc (3-3), a small belt wheel (3-4), an index plate (3-5), a belt (3-6), a large belt wheel (3-7), a material distribution disc (3-8), a material distribution shell (3-9) and a slope (3-10), the motor III (3-1) is positioned on the side surface of the rotary disc (3-3), the motor III (3-1) is connected with the rotary disc (3-3), the rotary disc (3-3) is positioned on the side surface of the eccentric pin (3-2), the rotary disc (3-3) is connected with the eccentric pin (3-2), the index plate (3-5) is positioned on the left side of the eccentric pin (3-2), the belt (3-6) is positioned on the left side of the small belt wheel (3-4), the belt (3-6) is connected with the small belt wheel (3-4), the large belt wheel (3-7) is positioned on the left side of the belt (3-6), the large belt wheel (3-7) is connected with the belt (3-6), the material distribution disc (3-8) is positioned on the side face of the large belt wheel (3-7), the material distribution disc (3-8) is connected with the large belt wheel (3-7), the material distribution disc (3-8) is positioned on the inner side of the material distribution shell (3-9), the material distribution disc (3-8) is connected with the material distribution shell (3-9), the material distribution shell (3-9) is positioned on the lower side of the slope (3-10), and the material distribution shell (3-9) is connected with the slope (3-10);

the material distribution disc (3-8) consists of a disc body (3-8-1), a shaft hole (3-8-2) and a material distribution groove (3-8-3), wherein the shaft hole (3-8-2) is positioned in the center of the disc body (3-8-1), and the material distribution groove (3-8-3) is positioned on the outer side of the disc body (3-8-1);

the paper cup (4) consists of a mounting plate (4-1), a cup (4-2), a motor four (4-3), a hinged support (4-4), a grab (4-5), a screw rod (4-6), a screw nut (4-7), a vertical slideway (4-8), a clamping jaw (4-9), a sliding block (4-10), a rack (4-11), a sliding mounting plate (4-12), a gear (4-13), a transverse slideway (4-14), a tension spring (4-15), a pull rod (4-16), a rotating shaft (4-17) and a rotating disk (4-18), wherein the motor four (4-3) is positioned at the lower side of the mounting plate (4-1), the motor four (4-3) is connected with the mounting plate (4-1), the hinged support (4-4) is positioned at the upper side of the mounting plate (4-1), the hinged support (4-4) is connected with the mounting plate (4-1), the grab (4-5) is positioned at the upper side of the hinged support (4-4), the grab (4-5) is connected with the hinged support (4-4), the screw rod (4-6) is positioned at the upper side of the mounting plate (4-1), the screw rod (4-6) is positioned at the upper side of the motor four (4-3), the screw rod (4-6) is connected with the motor four (4-3), the screw nut (4-7) is positioned at the inner side of the screw rod (4-6), the screw nut (4-7) is connected with the grab (4-5), the cup (4-2) is positioned at the inner side of the sliding mounting plate (4-12), the slide block (4-10) is positioned at the inner side of the vertical slide way (4-8), the sliding block (4-10) is connected with the vertical slide way (4-8), the sliding block (4-10) is positioned on the side surface of the clamping jaw (4-9), the sliding block (4-10) is connected with the clamping jaw (4-9), the rack (4-11) is positioned on the side surface of the clamping jaw (4-9), the rack (4-11) is connected with the clamping jaw (4-9), the sliding mounting plate (4-12) is positioned on the outer side of the vertical slide way (4-8), the sliding mounting plate (4-12) is connected with the vertical slide way (4-8), the gear (4-13) is positioned on the inner side of the rack (4-11), the gear (4-13) is connected with the rack (4-11), the gear (4-13) is positioned on the side surface of the sliding mounting plate (4-12), the gear (4-13) is connected with the sliding mounting plate (, the horizontal slide way (4-14) is positioned on the upper side of the sliding mounting plate (4-12), the horizontal slide way (4-14) is connected with the sliding mounting plate (4-12), the tension spring (4-15) is positioned on the inner side of the horizontal slide way (4-14), the tension spring (4-15) is connected with the horizontal slide way (4-14), the pull rod (4-16) is positioned on the inner side of the sliding mounting plate (4-12), the pull rod (4-16) is connected with the sliding mounting plate (4-12), the rotating shaft (4-17) is positioned on the inner side of the rotating disc (4-18), the rotating shaft (4-17) is connected with the rotating disc (4-18), the rotating disc (4-18) is positioned on the inner side of the pull rod (4-16), and the rotating disc (4-18) is connected with the pull rod (4;

the guide (5) consists of a main bracket (5-1), a wheel carrier (5-2), a belt wheel (5-3), a conveyor belt (5-4), a motor five (5-5), a power belt wheel (5-6), a connecting rod one (5-7), a connecting rod two (5-8), a connecting rod three (5-9), an end screw rod seat (5-10), a screw nut (5-11), a connecting rod hinged support (5-12), a vertical screw rod (5-13) and a hand wheel (5-14), the wheel carrier (5-2) is positioned at the inner side of the main bracket (5-1), the wheel carrier (5-2) is connected with the main bracket (5-1), the belt wheel (5-3) is positioned at the upper side of the wheel carrier (5-2), the belt wheel (5-3) is connected with the wheel carrier (5-2), the belt wheel (5-3) is positioned at the inner side of the conveyor, the belt wheel (5-3) is connected with the conveyor belt (5-4), the power belt wheel (5-6) is positioned on the side face of the motor five (5-5), the power belt wheel (5-6) is connected with the motor five (5-5), the connecting rod I (5-7) is positioned on the left side of the motor five (5-5), the connecting rod I (5-7) is connected with the motor five (5-5), the connecting rod II (5-8) is positioned on the left side of the connecting rod I (5-7), the connecting rod II (5-8) is connected with the connecting rod I (5-7), the connecting rod III (5-9) is positioned on the upper side of the connecting rod II (5-8), the connecting rod III (5-9) is connected with the connecting rod II (5-8), the connecting rod III (5-9) is positioned on the left side of the connecting rod I (5-7), the connecting rod III (5-9) is connected with, the end screw rod seat (5-10) is positioned on the left side of the connecting rod III (5-9), the end screw rod seat (5-10) is connected with the connecting rod III (5-9), the end screw rod seat (5-10) is positioned on the right side of the main bracket (5-1), the end screw rod seat (5-10) is connected with the main bracket (5-1), the nut (5-11) is positioned on the outer side of the vertical screw rod (5-13), the nut (5-11) is connected with the vertical screw rod (5-13), the nut (5-11) is positioned on the left side of the connecting rod hinged support (5-12), the nut (5-11) is connected with the connecting rod hinged support (5-12), the connecting rod hinged support (5-12) is positioned on the left side of the connecting rod II (5-8), the connecting rod hinged support (5-12) is connected with the connecting rod II (5-8), the vertical screw rod (5-13) is positioned on the inner side of the end screw rod seat (5, the vertical screw rods (5-13) are connected with the end screw rod seats (5-10), the hand wheels (5-14) are positioned on the upper sides of the vertical screw rods (5-13), and the hand wheels (5-14) are connected with the vertical screw rods (5-13);

the coating (6) consists of a film (6-1), a film seat (6-2), a cutting compaction die (6-3), a tension seat (6-4), a tension wheel (6-5), a power seat (6-6), a counterweight rotating rod (6-7), a rod I (6-8), a rod II (6-9), a fulcrum hole (6-10), a rod III (6-11), a rod IV (6-12), a limiting barrel (6-13), a damping spring (6-14), a slide block VI (6-15), a rod V (6-16) and a slide way VI (6-17), wherein the film seat (6-2) is positioned at the upper side of the film (6-1), the film seat (6-2) is connected with the film (6-1), the cutting compaction die (6-3) is positioned at the upper side of the film (6-1), the tension wheel (6-5) is positioned at the right side of the tension seat (6-4), the tension wheel (6-5) is connected with the tension seat (6-4), the counterweight rotating rod (6-7) is positioned at the upper side of the tension seat (6-6), the counterweight rotating rod (6-7) is connected with the tension seat (6-6), the first rod (6-8) is positioned at the upper side of the counterweight rotating rod (6-7), the first rod (6-8) is connected with the counterweight rotating rod (6-7), the second rod (6-9) is positioned at the upper side of the first rod (6-8), the second rod (6-9) is connected with the first rod (6-8), the fulcrum hole (6-10) is positioned at the middle part of the second rod (6-9), the fulcrum hole (6-10) is connected with the second rod (6-9), the third rod (6-11) is positioned at the left side of the fulcrum hole (6-10), a third rod (6-11) is connected with the fulcrum hole (6-10), a fourth rod (6-12) is positioned at the lower side of the third rod (6-11), the fourth rod (6-12) is connected with the third rod (6-11), the fourth rod (6-12) is positioned at the inner side of the limiting barrel (6-13), the fourth rod (6-12) is connected with the limiting barrel (6-13), a sixth slideway (6-17) is positioned at two sides of the limiting barrel (6-13), the sixth slideway (6-17) is connected with the limiting barrel (6-13), the sixth slideway (6-17) is positioned at the outer side of the damping spring (6-14), the sixth slideway (6-17) is connected with the damping spring (6-14), the sixth slideway (6-17) is positioned at the outer side of the sixth slider (6-15), the sixth slideway (6-17) is connected with the sixth slider (6-15), the six (6-17) slideway is positioned on the outer side of the five (6-16) rod, the six (6-17) slideway is connected with the five (6-16) rod, the five (6-16) rod is positioned on the lower side of the six (6-15) slider, the five (6-16) rod is connected with the six (6-15) slider, the six (6-15) slider is positioned on the lower side of the 6-14 damping spring, the six (6-15) slider is connected with the 6-14 damping spring, the cutting and compacting die (6-3) is positioned on the lower side of the five (6-16) rod, the cutting and compacting die (6-3) is connected with the five (6-16) rod, the cutting and compacting die (6-3) is positioned on the lower side of the four (6-12) rod, and the cutting and compacting die (6-3) is connected with the four (6-12) rod;

the counterweight rotating rod (6-7) consists of a rotating section (6-7-1), an eccentric section (6-7-2) and a counterweight section (6-7-3), wherein the rotating section (6-7-1) and the eccentric section (6-7-2) are connected with the eccentric section (6-7-2) and the counterweight section (6-7-3);

the screening (1) is positioned at the upper side of the grinding (2), the screening (1) is connected with the grinding (2), the grinding (2) is positioned at the upper side of the material separating (3), the grinding (2) is connected with the material separating (3), the grinding (2) is positioned at the upper side of the paper cup (4), the grinding (2) is connected with the paper cup (4), the guide (5) is positioned at the lower side of the screening (1), the guide (5) is connected with the screening (1), the paper cup (4) is positioned at the inner side of the guide (5), the coating (6) is positioned at the inner side of the guide (5), and the coating (6) is positioned at the right side of.

2. The apparatus for recycling sorted crushed tea leaves of tea leaves as claimed in claim 1, wherein: the main bracket (5-1) is connected with the fixing plate (1-1).

3. The apparatus for recycling sorted crushed tea leaves of tea leaves as claimed in claim 1, wherein: the supporting point holes (6-10) are connected with the main bracket (5-1).

4. The apparatus for recycling sorted crushed tea leaves of tea leaves as claimed in claim 1, wherein: the number of the grabs (4-5) is two.