CN113000551A

CN113000551A - Tea environmental-friendly recycling device capable of adjusting PH

Info

Publication number: CN113000551A
Application number: CN202110169748.4A
Authority: CN
Inventors: 周跃起
Original assignee: Individual
Current assignee: Guizhou Gaoyuanmingzhu Tea Co ltd
Priority date: 2021-02-08
Filing date: 2021-02-08
Publication date: 2021-06-22
Anticipated expiration: 2041-02-08
Also published as: CN113000551B

Abstract

The invention provides an environment-friendly tea recycling device capable of adjusting PH. The environment-friendly tea recycling device capable of adjusting PH comprises a bottom plate, supports, a water tank, vertical plates, a feeding mechanism, a grinding mechanism and the like, wherein the four supports are installed at the bottom of the bottom plate, the water tank is arranged at the top of the bottom plate, two vertical plates are fixedly connected to one side, close to the water tank, of the bottom plate, the feeding mechanism is installed between the two vertical plates, the feeding mechanism is connected with the water tank, the grinding mechanism is arranged on the side, close to the feeding mechanism, of the bottom plate between the two vertical plates, and the grinding mechanism is matched with the feeding mechanism. According to the invention, the alkalinity of the tea leaves can be adjusted by the adjusting and testing mechanism, so that the tea leaves can be conveniently processed, the tea leaves can be conveyed by the feeding mechanism, the tea leaves can be dried by the drying mechanism, and the tea leaves can be processed and manufactured by the grinding mechanism, so that the tea leaves can be conveniently made into fertilizer, and the waste of resources can be prevented.

Description

Tea environmental-friendly recycling device capable of adjusting PH

Technical Field

The invention relates to an environment-friendly recycling device, in particular to a PH-adjustable tea environment-friendly recycling device.

Background

Tea, commonly known as tea, generally comprises the leaves and buds of the tea tree; distinguished tea, cashew, tea, ; the tea components include catechin, cholestenone, caffeine, inositol, folic acid, and pantothenic acid, and are beneficial for health; a tea beverage made of tea leaves is one of three major beverages in the world.

The tea leaf residue after beverage making is completed in the tea leaf beverage processing factory contains a large amount of mineral substances and can be used as fertilizer, after the existing tea leaf beverage is made, the tea leaf residue is generally discarded as garbage, so that resource waste can be caused, the tea leaf residue belongs to alkaline substances, the tea leaf residue can be used as fertilizer directly and can harm soil plants, and before the tea leaf residue is used for making the fertilizer, the tea leaf residue needs to be subjected to PH value adjustment so as to make the tea leaf residue into the fertilizer in the future.

Therefore, there is a need to design an environment-friendly PH-adjustable tea recycling device that can prevent resource waste and facilitate processing and manufacturing, in order to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the environment-friendly tea leaf recycling device with the adjustable PH value.

The purpose of the invention can be achieved by adopting the following technical scheme:

the utility model provides a tealeaves environmental protection recycle device of adjustable PH, comprising a base plate, a support, the water tank, the riser, feeding mechanism, grind the mechanism, adjust accredited testing organization and stoving mechanism, four supports are installed to the bottom of bottom plate, the top of bottom plate is provided with the water tank, one side rigid coupling that is close to the water tank on the bottom plate has two risers, install feeding mechanism between two risers, feeding mechanism is connected with the water tank, be provided with grinding mechanism on the one side bottom plate that is close to feeding mechanism between two risers, grind mechanism and feeding mechanism cooperation, one side of keeping away from feeding mechanism on the water tank is provided with adjusts accredited testing organization, be provided with stoving mechanism between two risers of feeding mechanism upside, stoving mechanism and conveying mechanism cooperation.

In one embodiment, the feeding mechanism comprises a first rotating shaft, a conveying roller, a conveying belt, a first double-groove belt wheel, a second rotating shaft, a conveying roller, a conveying belt, a second double-groove belt wheel, a first belt, a speed reducing motor, a first belt wheel and a second belt, wherein the first rotating shaft is provided with two rotating shafts, one rotating shaft is rotatably connected between the two vertical plates, the other rotating shaft is rotatably connected in a water tank, the conveying roller is arranged on the first rotating shaft, the conveying belt is wound between the two conveying rollers, the first double-groove belt wheel is arranged on one side of the first rotating shaft, the two second rotating shafts are rotatably connected between the two vertical plates on the lower side of the first double-groove belt wheel, the two second rotating shafts are symmetrically arranged, the conveying roller is arranged on the second rotating shaft, the conveying belt is wound between the two conveying rollers, the second double-groove belt wheel is fixedly connected on one side of the, the bottom plate is provided with a driving part, the driving part is connected with a second double-groove belt pulley, the speed reducing motor is arranged on the bottom plate between the two vertical plates, an output shaft of the speed reducing motor penetrates through the vertical plate on one side, a first belt pulley is arranged on the output shaft of the speed reducing motor through a coupler, and a second belt is wound between the first belt pulley and the second double-groove belt pulley.

In one of them embodiment, grind the mechanism including the fixed plate, collect the fill, grind the frame, the first support, the screening frame, first servo motor, grind piece and screening part, the fixed plate is connected and is close to one side of conveyer belt between two risers, it fights to inlay the collection on the fixed plate, it has the grinding frame to inlay on the fixed plate, it is linked together with the collection fill to grind the frame, install the first support on the bottom plate of collection fill downside, the lateral wall upper portion of first support is connected with the screening frame, install first servo motor on the inboard bottom plate of first support, install the grinding piece through the shaft coupling on first servo motor's the output shaft, install the screening part on the first support lateral wall of screening frame downside.

In one of them embodiment, the screening part is including the sliding block, the spring, the screening frame, collect the frame, connecting plate and ejection of compact frame, it has eight sliding tray to open on the lateral wall of first support, the sliding tray internal sliding formula is equipped with the sliding block, the rigid coupling has the spring between sliding block and the sliding tray, be provided with the screening frame between four corresponding sliding blocks of one side, be provided with the collection frame between four corresponding sliding blocks of opposite side, collect frame and screening frame all with first support sliding fit, the rigid coupling has four connecting plates between collection frame and the screening frame, all inlayed the ejection of compact frame on the lateral wall of collection frame and screening frame.

In one embodiment, the adjusting and testing mechanism comprises a second support, a second servo motor, a baffle disc, a containing box, a discharging hopper, a cover plate and a tester, the second support is installed between two side walls of the water tank, the second servo motor is installed at the top in the second support, the baffle disc is fixedly connected onto an output shaft of the second servo motor through a coupler, a discharging port is formed in the baffle disc, the containing box is embedded into one side, close to the second servo motor, of the second support, the containing box is provided with the discharging hopper, the discharging hopper is matched with the baffle disc, the cover plate is arranged on one side, far away from the discharging hopper, of the containing box, and the tester is arranged on one side, close to the containing box, of the second support.

In one of them embodiment, stoving mechanism is including the mounting panel, the heating wire, the baffle, clean the roller, second band pulley and third belt, the rigid coupling has the mounting panel between two risers of conveyer belt upside, the heating wire has been inlayed on the mounting panel, the baffle is all installed to the inside wall of two risers, the baffle is located between heating wire and the conveyer belt, keep away from one side of two baffles between two risers and install and clean the roller, the output shaft of cleaning the roller passes one side riser, install the second band pulley through the shaft coupling on the output shaft of cleaning the roller, the rigid coupling has the third belt between second band pulley and the first double flute band pulley.

In one embodiment, the grinding device further comprises a fixed frame, a sliding block, a connecting frame, a contact rod, a supporting plate, supporting plates, a third rotating shaft, a grinding roller, a cleaning brush and a convex block, wherein the fixed frame is installed on the outer side wall of the grinding frame, a sliding groove is formed in the fixed frame, four sliding blocks are arranged in the sliding groove in a sliding mode, the connecting frame is installed on the sliding block, the contact rod is installed on one side, far away from the sliding block, of the connecting frame, the supporting plate is fixedly connected to one side, close to the contact rod, of the connecting frame, the supporting plate is fixedly connected with the bottom of the grinding block, two supporting plates are arranged on the supporting plate, the third rotating shaft is installed between the two supporting plates in a rotating mode, the grinding roller is installed on the third rotating.

In one embodiment, the conveyor belt further comprises a sealing strip and a filter plate, two sealing strips are fixedly connected to the conveyor belt, and a plurality of filter plates are mounted on the conveyor belt between the two sealing strips.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, the alkalinity of the tea leaves can be adjusted by adjusting the testing mechanism, so that the tea leaves can be conveniently processed, the tea leaves can be conveyed by the feeding mechanism, the tea leaves can be dried by the drying mechanism, and the tea leaves can be processed and manufactured by the grinding mechanism, so that the tea leaves can be conveniently made into fertilizer, and the waste of resources can be prevented;

(2) the screening frame and the collecting frame continuously move downwards, so that the sizes of the tea leaves can be classified, and the tea leaves can be discharged and collected;

(3) through the cooperation of sealing strip and filter, so can prevent the both sides landing of water through the conveyer belt, and can conveniently separate tealeaves sediment and water, the follow-up processing preparation of being convenient for.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the conveying roller of the present invention.

Fig. 4 is a schematic perspective view of the conveyor belt of the present invention.

Fig. 5 is a schematic perspective view of the polishing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the polishing stand of the present invention.

FIG. 7 is a schematic perspective view of the polishing pad of the present invention.

Fig. 8 is a schematic perspective view of the screening frame of the present invention.

Fig. 9 is a schematic perspective view of the present invention a.

Fig. 10 is a schematic perspective view of an adjustment testing mechanism according to the present invention.

Fig. 11 is a schematic perspective view of the heating wire of the present invention.

Fig. 12 is a schematic perspective view of the fastening frame of the present invention.

Fig. 13 is a schematic perspective view of the pulverizing roller of the present invention.

In the reference symbols: 1. a bottom plate, 2, a support, 3, a water tank, 4, a vertical plate, 5, a feeding mechanism, 501, a first rotating shaft, 502, a conveying roller, 503, a conveying belt, 506, a first double-groove belt wheel, 507, a second rotating shaft, 508, a conveying roller, 509, a conveying belt, 510, a second double-groove belt wheel, 511, a first belt, 512, a speed reducing motor, 513, a first belt wheel, 514, a second belt, 6, a grinding mechanism, 601, a fixing plate, 602, a collecting hopper, 603, a grinding frame, 604, a first support, 605, a screening frame, 606, a first servo motor, 607, a grinding block, 608, a sliding groove, 609, 610, a spring, 611, a screening frame, 612, a collecting frame, 613, a connecting plate, 614, a discharging frame, 7, an adjusting and testing mechanism, 701, a second support, 702, a second servo motor, 703, a blocking disc, 704, a discharging port, 705, a containing box, 706, a discharging hopper, 707, a cover plate, 708. the device comprises a tester, 8, a drying mechanism, 801, a mounting plate, 802, heating wires, 803, a baffle plate, 804, a cleaning roller, 805, a second belt wheel, 806, a third belt, 9, a fixing frame, 10, a sliding groove, 11, a sliding block, 12, a connecting frame, 13, a contact rod, 14, a supporting plate, 15, a supporting plate, 16, a third rotating shaft, 17, a crushing roller, 18, a cleaning brush, 19, a bump, 20, a sealing strip, 21 and a filtering plate.

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.

Example one

As shown in figure 1, the PH-adjustable tea environmentally-friendly recycling device comprises a bottom plate 1, a support 2, a water tank 3 and a vertical plate 4, feeding mechanism 5, grinding mechanism 6, adjust accredited testing organization 7 and drying mechanism 8, two supports 2 are all installed to the left and right sides of 1 bottom of bottom plate, the top left side of bottom plate 1 is provided with water tank 3, riser 4 is all installed to both sides around 1 top of bottom plate, riser 4 is located the right side of water tank 3, install feeding mechanism 5 between two risers 4 around, feeding mechanism 5 is connected with water tank 3, be provided with grinding mechanism 6 between two risers 4, grinding mechanism 6 is located feeding mechanism 5's downside, grinding mechanism 6 and feeding mechanism 5 cooperation, install between the wall of the front and back both sides of water tank 3 and adjust accredited testing organization 7, be provided with drying mechanism 8 between two risers 4 of feeding mechanism 5 upside, drying mechanism 8 and conveying mechanism cooperation.

When the tea leaf drying machine is required to be used, a user pours tea leaves into the water tank 3, then the user pours a proper amount of water into the water tank 3, the user debugs the pH value of the tea leaves in the water tank 3 through the adjusting and testing mechanism 7, after the pH value in the water tank 3 is debugged, the user starts the feeding mechanism 5 to upwards transport the tea leaves in the water tank 3, the tea leaves on the conveying mechanism can be dried and turned through the drying mechanism 8, so that the tea leaves on the conveying mechanism can be quickly dried, the tea leaves dried on the conveying mechanism fall into the grinding mechanism 6 along with the tea leaves, the tea leaves can be ground by starting the grinding mechanism 6 to screen and sort the tea leaves, so that the tea leaves can be conveniently classified and used, and after the whole tea leaves are processed, the user closes the feeding mechanism 5, the drying mechanism 8 and the grinding mechanism 6.

Example two

As shown in fig. 2-4, in the first embodiment, the feeding mechanism 5 includes a first rotating shaft 501, two conveying rollers 502, two conveying belts 503, a first double-grooved pulley 506, a second rotating shaft 507, a conveying roller 508, a conveying belt 509, a second double-grooved pulley 510, a first belt 511, a speed reducing motor 512, a first pulley 513, and a second belt 514, where one of the two first rotating shafts 501 is rotatably connected between upper left portions of front and rear risers 4, and the other is rotatably connected to a left portion in the water tank 3, the first rotating shaft 501 is provided with the conveying rollers 502, the conveying belt 503 is wound between the two left and right conveying rollers 502, the right first rotating shaft 501 is provided with the first double-grooved pulley 506, the first double-grooved pulley 506 is located on a front side of the front riser 4, the two second rotating shafts 507 are rotatably connected between the two risers 4, the second rotating shaft 507 is located on a lower side of the right conveying roller 502, install transfer roller 508 on the second pivot 507, it is equipped with conveyer belt 509 to control around between two transfer rollers 508, the rigid coupling has second double flute band pulley 510 on the left side second pivot 507, second double flute band pulley 510 is located the front side of front side riser 4, around being equipped with first belt 511 between first double flute band pulley 506 and the second double flute band pulley 510, install gear motor 512 on the bottom plate 1, gear motor 512 is located between two risers 4 around, the front end of gear motor 512 output shaft passes front side riser 4, first band pulley 513 is installed through the shaft coupling to the front end of gear motor 512 output shaft, around being equipped with second belt 514 between first band pulley 513 and the second double flute band pulley 510.

When tea leaves are required to be fed, a user starts the speed reducing motor 512 to enable the first belt wheel 513 to rotate clockwise, the second belt 514 enables the second double-groove belt wheel 510 to rotate clockwise, the first belt 511 enables the first double-groove belt wheel 506 to rotate clockwise, the first double-groove belt wheel 506 rotates clockwise to enable the first right rotating shaft 501 to rotate clockwise, the right conveying roller 502 rotates clockwise, the left conveying roller 502 rotates clockwise through the conveying belt 503, tea leaves in the water tank 3 can be conveyed upwards through the clockwise rotation of the conveying belt 503, the tea leaves conveyed upwards fall on the conveying belt 509 along with the tea leaves, the second double-groove belt wheel 510 rotates clockwise to enable the second left rotating shaft 507 to rotate clockwise, the left conveying roller 508 rotates clockwise, the right conveying roller 508 rotates clockwise through the conveying belt 509, the conveying belt 509 rotates clockwise to convey the tea leaves to the right and fall into the grinding mechanism 6, meanwhile, the tea leaves on the conveying belt 509 can be dried through the drying mechanism 8, then the user repeats the above operation to process the tea leaves, and after the tea leaves are processed, the user closes the speed reducing motor 512.

EXAMPLE III

As shown in fig. 5-9, in the second embodiment, the grinding mechanism 6 includes a fixing plate 601, a collecting hopper 602, a grinding rack 603, a first bracket 604, a screening frame 605, a first servo motor 606, a grinding block 607 and a screening component, the fixing plate 601 is connected between the right parts of the front and rear vertical plates 4, the fixing plate 601 is located under the conveyor 509, the collecting hopper 602 is embedded on the top of the fixing plate 601, the grinding rack 603 is embedded on the bottom of the fixing plate 601, the grinding rack 603 is communicated with the collecting hopper 602, the first bracket 604 is installed on the bottom plate 1 under the collecting hopper 602, the screening frame 605 is connected on the upper part of the outer side wall of the first bracket 604, the first servo motor 606 is installed on the top of the bottom plate 1, the first servo motor 606 is located in the first bracket 604, the grinding block 607 is installed on the upper end of the output shaft of the first servo motor 606 through a coupling, the, the outer side wall of the first bracket 604 at the lower side of the screening frame 605 is provided with a screening component which is connected with a grinding block 607.

When tea leaves are needed to be ground, a user starts the first servo motor 606 to enable the grinding block 607 to rotate, the conveyor belt 509 rotates clockwise to convey the tea leaves rightwards, the tea leaves fall into the collecting hopper 602, the tea leaves in the collecting hopper 602 fall downwards into the grinding frame 603, the grinding block 607 rotates to be matched with the grinding frame 603, the tea leaves can be ground, the ground tea leaves fall downwards into the screening frame 605, meanwhile, the user knocks the screening frame 605 to enable the screening frame 605 to vibrate, therefore, the ground tea leaves can fall downwards into the screening part, the ground tea leaves can be screened through the screening part, accordingly, classification of the sizes of the tea leaves can be completed, and follow-up use is facilitated.

As shown in fig. 8-9, the screening component includes sliding blocks 609, springs 610, screening frames 611, collecting frames 612, connecting plates 613 and discharging frames 614, eight sliding grooves 608 are formed on the outer side walls of the first support 604 at intervals, sliding blocks 609 are slidably disposed in the sliding grooves 608, the springs 610 are fixedly connected between the sliding blocks 609 and the sliding grooves 608, the screening frames 611 are disposed between the outer side walls of the upper four corresponding sliding blocks 609, the collecting frames 612 are disposed between the outer side walls of the lower four corresponding sliding blocks 609, the collecting frames 612 and the screening frames 611 are slidably engaged with the first support 604, the four connecting plates 613 are fixedly connected between the collecting frames 612 and the screening frames 611, and the discharging frames 614 are embedded on the side walls of the collecting frames 612 and the screening frames 611.

The tealeaves sediment in the screen frame 605 falls in the screen frame 611 of upside downwards thereupon, because screen frame 611 is the slope setting of high right low formula in the left side, the tealeaves sediment landing right thereupon, less tealeaves sediment drops in collection frame 612 downwards thereupon simultaneously, because collection frame 612 is the slope setting of high right low formula in the left side, the tealeaves sediment in screen frame 611 and the collection frame 612 landing right thereupon drops through ejection of compact frame 614, simultaneously the user collect the tealeaves sediment that ejection of compact frame 614 dropped can, so can accomplish the collection after the tealeaves sediment processing.

Example four

As shown in fig. 10, based on the third embodiment, the adjustment testing mechanism 7 includes a second bracket 701, a second servo motor 702, a baffle plate 703, a containing box 705, a blanking hopper 706, a cover plate 707, and a tester 708, the second bracket 701 is installed between the front and rear side walls of the water tank 3, the second servo motor 702 is installed on the rear side of the top of the second bracket 701 through a bolt, the baffle plate 703 is fixedly connected to the lower end of the output shaft of the second servo motor 702 through a coupler, a discharge hole 704 is formed in an eccentric position of the baffle plate 703, the containing box 705 is embedded in the top of the second bracket 701, the containing box 705 is located on the front side of the second servo motor 702, the blanking hopper 706 is installed at the bottom of the containing box 705, the blanking hopper 706 is matched with the baffle plate 703, the cover plate 707 covers the top of the containing box 705, the tester 708 is disposed on the top of the second bracket 701, and the tester 708 is located on the front.

When the PH of the tea leaves in the water tank 3 needs to be adjusted, the user removes the cover plate 707 from the containing tank 705, this opens tank 705, and the user then pours the appropriate amount of conditioning agent into tank 705, whereupon the conditioning agent in tank 705 falls downwardly into hopper 706, the user then resets the cover 707, whereupon the user activates the second servo motor 702 to rotate the catch disk 703, when the shutter disk 703 is rotated to bring the discharge port 704 into coincidence with the outlet of the lower hopper 706, the user turns off the second servo motor 702, and the regulator in the lower hopper 706 drops down into the water tank 3, when a proper amount of the regulator falls into the water tank 3, the user starts the second servo motor 702 to rotate the baffle plate 703, so that the discharge hole 704 is far away from the outlet of the discharge hopper 706, the outlet of the discharging hopper 706 can be shielded, and then the user turns off the second servo motor 702, and then the user checks the PH value in the water tank 3 through the tester 708.

As shown in fig. 4 to 11, the drying mechanism 8 includes a mounting plate 801, a heating wire 802, a baffle plate 803, a cleaning roller 804, a second belt wheel 805 and a third belt 806, the mounting plate 801 is fixedly connected between the front and rear vertical plates 4 on the upper side of the conveyor belt 509, the heating wire 802 is embedded at the bottom of the mounting plate 801, the baffle plate 803 is mounted on the right sides of the upper portions of the inner side walls of the front and rear vertical plates 4, the baffle plate 803 is located on the upper side of the conveyor belt 509, the front and rear baffle plates 803 are both matched with the conveyor belt 509, the cleaning roller 804 is rotatably mounted between the front and rear vertical plates 4, the cleaning roller 804 is located on the upper side of the conveyor belt 509, the front end of the output shaft of the cleaning roller 804 passes through the front vertical plate 4, the front end of the output shaft of the.

When needs are dried to the tealeaves sediment on the conveyer belt 509, the user starts heating wire 802 and heats, can accomplish through heating wire 802 heating and dry to the tealeaves sediment on the conveyer belt 509, first double flute band pulley 506 clockwise rotates and can make cleaning roller 804 clockwise rotation through third belt 806, cleaning roller 804 clockwise rotation can open the tealeaves sediment on the conveyer belt 509, so can conveniently dry the tealeaves sediment, after the whole processing of tealeaves sediment is accomplished, the user closes heating wire 802 can.

EXAMPLE five

As shown in fig. 8-13, on the basis of the fourth embodiment, the polishing apparatus further includes a fixing frame 9, a sliding block 11, a connecting frame 12, a contact rod 13, a supporting plate 14, a supporting plate 15, a third rotating shaft 16, a pulverizing roller 17, a cleaning brush 18 and a bump 19, the fixing frame 9 is installed on the outer side wall of the polishing frame 603, the bottom of the fixing frame 9 is provided with a sliding slot 10, four sliding blocks 11 are slidably arranged in the sliding slot 10, the connecting frame 12 is installed at the bottom of the sliding block 11, the contact rod 13 is installed at the lower part of the side wall of the connecting frame 12, the supporting plate 14 is fixedly connected to the connecting frame 12 at the upper side of the contact rod 13, the supporting plate 14 is fixedly connected to the bottom of the polishing block 607, the supporting plate 15 is installed on both sides of the bottom of the supporting plate 14, the third rotating shaft 16 is rotatably installed between two adjacent supporting plates 15, the pulverizing roller 17 is installed on, the projection 19 engages with the contact lever 13.

The grinding block 607 rotates to make the supporting plate 14 rotate, the supporting plate 14 rotates to drive the part on it to rotate, so the grinding roller 17 and the cleaning brush 18 rotate, the grinding roller 17 rotates to grind and crush the ground tea leaves in the screening frame 605, the cleaning brush 18 rotates to drop the crushed tea leaves into the screening frame 611 through the screening frame 605, the supporting plate 14 rotates and the connecting frame 12 rotates, the connecting frame 12 rotates to make the contact rod 13 rotate, when the contact rod 13 rotates and contacts with the bump 19, the contact rod 13 continues to rotate, so the bump 19 can be pressed to move downwards, the bump 19 moves downwards to make the screening frame 611 move downwards, the screening frame 611 moves downwards through the connecting plate 613 to make the collecting frame 612 move downwards, the sliding block 609 moves downwards along with the sliding block, the spring 610 compresses, when the contact rod 13 rotates and does not press the bump 19, the collecting frame 611 and the screening frame 612 move upwards to reset under the action of the spring 610, the screening of the tea residues in the screening frame 611 can be completed by continuously downwards moving the screening frame 611, the smaller tea residues fall downwards in the collecting frame 612, the tea residues in the screening frame 611 and the collecting frame 612 can be moved out rightwards through the discharging frame 614 by continuously downwards moving the screening frame 611 and the collecting frame 612, and meanwhile, the user can collect the moved tea residues, so that the tea residues can be classified and collected, and the tea residues can be conveniently used subsequently.

As shown in fig. 2, the conveyor belt further comprises a sealing strip 20 and filter plates 21, the sealing strip 20 is fixedly connected to the front side and the rear side of the outer side wall of the conveyor belt 503, and at least six filter plates 21 are mounted on the outer side wall of the conveyor belt 503 between the front sealing strip 20 and the rear sealing strip 20.

The sealing strips 20 can prevent water from sliding downwards through two sides of the conveying belt 503, and the water in the upwards conveyed tea leaves can be conveniently separated through the filter plates 21, so that the tea leaves can be conveniently conveyed upwards.

Claims

1. A PH-adjustable tea environmentally-friendly recycling device comprises a bottom plate (1), supports (2), a water tank (3) and vertical plates (4), wherein four supports (2) are installed at the bottom of the bottom plate (1), the water tank (3) is arranged at the top of the bottom plate (1), two vertical plates (4) are fixedly connected to one side, close to the water tank (3), of the bottom plate (1), and the PH-adjustable tea environmentally-friendly recycling device is characterized by further comprising a feeding mechanism (5), a grinding mechanism (6), an adjusting and testing mechanism (7) and a drying mechanism (8), wherein the feeding mechanism (5) is installed between the two vertical plates (4), the feeding mechanism (5) is connected with the water tank (3), the grinding mechanism (6) is arranged on the bottom plate (1) on one side, close to the feeding mechanism (5), between the two vertical plates (4), the grinding mechanism (6) is matched with the feeding mechanism (5), the adjusting and testing mechanism (7) is arranged on one, a drying mechanism (8) is arranged between the two vertical plates (4) on the upper side of the feeding mechanism (5), and the drying mechanism (8) is matched with the conveying mechanism.

2. The environment-friendly tea recycling device with the PH adjustable according to claim 1, wherein the feeding mechanism (5) comprises a first rotating shaft (501), a conveying roller (502), a conveying belt (503), a first double-groove belt wheel (506), a second rotating shaft (507), a conveying roller (508), a conveying belt (509), a second double-groove belt wheel (510), a first belt (511), a speed reducing motor (512), a first belt wheel (513) and a second belt (514), two first rotating shafts (501) are provided, one rotating shaft is connected between two vertical plates (4), the other rotating shaft is connected in the water tank (3), the conveying roller (502) is installed on the first rotating shaft (501), the conveying belt (503) is wound between the two conveying rollers (502), the first double-groove belt wheel (506) is installed on the first rotating shaft (501) on one side, and two second rotating shafts (507) are rotatably connected between the two vertical plates (4) on the lower side of the first double-groove belt wheel (506), two second pivot (507) symmetries set up, install transfer roller (508) on second pivot (507), around being equipped with conveyer belt (509) between two transfer rollers (508), the rigid coupling has second double flute band pulley (510) on one side second pivot (507), around being equipped with first belt (511) between first double flute band pulley (506) and second double flute band pulley (510), install drive component on bottom plate (1), drive component is connected with second double flute band pulley (510), gear motor (512) set up on bottom plate (1) between two riser (4), the output shaft of gear motor (512) passes one side riser (4), install first band pulley (513) through the shaft coupling on the output shaft of gear motor (512), around being equipped with second belt (514) between first band pulley (513) and the second double flute band pulley (510).

3. The environment-friendly tea recycling device with the adjustable PH according to claim 2, wherein the grinding mechanism (6) comprises a fixing plate (601), a collecting hopper (602), a grinding rack (603), a first bracket (604), a screening frame (605), a first servo motor (606), a grinding block (607) and a screening component, the fixing plate (601) is connected between two vertical plates (4) at one side close to the conveyor belt (509), the collecting hopper (602) is embedded on the fixing plate (601), the grinding rack (603) is communicated with the collecting hopper (602), the first bracket (604) is installed on the bottom plate (1) at the lower side of the collecting hopper (602), the screening frame (605) is connected to the upper part of the outer side wall of the first bracket (604), the first servo motor (606) is installed on the bottom plate (1) at the inner side of the first bracket (604), the output shaft of the first servo motor (606) is provided with a grinding block (607) through a coupler, and the outer side wall of the first bracket (604) at the lower side of the screening frame (605) is provided with a screening part.

4. The environment-friendly tea recycling device with adjustable PH as claimed in claim 3, the screening device is characterized in that the screening part comprises sliding blocks (609), springs (610), a screening frame (611), a collecting frame (612), connecting plates (613) and a discharging frame (614), eight sliding grooves (608) are formed in the outer side wall of a first support (604), the sliding blocks (609) are arranged in the sliding grooves (608), the springs (610) are fixedly connected between the sliding blocks (609) and the sliding grooves (608), the screening frame (611) is arranged between four corresponding sliding blocks (609) on one side, the collecting frame (612) is arranged between four corresponding sliding blocks (609) on the other side, the collecting frame (612) and the screening frame (611) are in sliding fit with the first support (604), the four connecting plates (613) are fixedly connected between the collecting frame (612) and the screening frame (611), and the discharging frame (614) is embedded in the side walls of the collecting frame (612) and the screening frame (611).

5. The environment-friendly tea recycling device with the PH adjustable function according to claim 3, wherein the adjusting and testing mechanism (7) comprises a second support (701), a second servo motor (702), a baffle disc (703), a containing box (705), a discharging hopper (706), a cover plate (707) and a tester (708), the second support (701) is installed between two side walls of the water tank (3), the second servo motor (702) is installed at the top inside the second support (701), the baffle disc (703) is fixedly connected to an output shaft of the second servo motor (702) through a coupler, a discharging port (704) is formed in the baffle disc (703), the containing box (705) is embedded at one side of the second support (701) close to the second servo motor (702), the discharging hopper (706) is installed on the containing box (705), the discharging hopper (706) is matched with the baffle disc (703), the cover plate (707) is arranged at one side of the containing box (705), which is far away from the discharging hopper (706), a tester (708) is arranged on one side, close to the containing box (705), of the second bracket (701).

6. The environment-friendly tea recycling device with adjustable PH as claimed in claim 5, the drying mechanism (8) is characterized by comprising a mounting plate (801), heating wires (802), baffles (803), cleaning rollers (804), a second belt wheel (805) and a third belt (806), wherein the mounting plate (801) is fixedly connected between two vertical plates (4) on the upper side of a conveying belt (509), the heating wires (802) are embedded in the mounting plate (801), the baffles (803) are mounted on the inner side walls of the two vertical plates (4), the baffles (803) are located between the heating wires (802) and the conveying belt (509), the cleaning rollers (804) are mounted on one side, away from the two baffles (803), of the two vertical plates (4), an output shaft of the cleaning rollers (804) penetrates through one vertical plate (4), the second belt wheel (805) is mounted on the output shaft of the cleaning rollers (804) through a coupler, and the third belt (806) is fixedly connected between the second belt wheel (805) and the first double-groove belt.

7. The environment-friendly tea recycling device with the adjustable PH value of claim 6, further comprising a fixing frame (9), a sliding block (11), a connecting frame (12), a contact rod (13), a supporting plate (14), a supporting plate (15), a third rotating shaft (16), a crushing roller (17), a cleaning brush (18) and a bump (19), wherein the fixing frame (9) is installed on the outer side wall of the grinding frame (603), a sliding groove (10) is formed in the fixing frame (9), four sliding blocks (11) are arranged in the sliding groove (10) in a sliding manner, the connecting frame (12) is installed on the sliding block (11), the contact rod (13) is installed on one side of the connecting frame (12) far away from the sliding block (11), the supporting plate (14) is fixedly connected to one side of the connecting frame (12) close to the contact rod (13), the supporting plate (14) is fixedly connected to the bottom of the grinding block (607), and the two supporting plates (15) are arranged, a third rotating shaft (16) is rotatably arranged between the two support plates (15), a crushing roller (17) is arranged on the third rotating shaft (16), a cleaning brush (18) is arranged on the side wall of the support plate (14), a plurality of convex blocks (19) are arranged at the top of the screening frame (611), and the convex blocks (19) are matched with the contact rod (13).

8. The environment-friendly PH adjustable tea recycling device according to claim 7, further comprising a sealing strip (20) and a filtering plate (21), wherein two sealing strips (20) are fixed on the conveying belt (503), and a plurality of filtering plates (21) are installed on the conveying belt (503) between the two sealing strips (20).