阅读说明：本技术 一种茶叶渣环保回收利用装置 (Tea leaf residue environmental protection recycle device ) 是由 周跃起 于 2021-02-08 设计创作，主要内容包括：本发明公开了一种茶叶渣环保回收利用装置,包括有支架一、长横板、支架二、侧板、短横板、支撑架、斜支板等；支架一间隔设置有三个,支架一的一侧安装有长横板,支架二靠近支架一,支架二固定连接在长横板上,侧板对称设有两个,侧板固定连接在长横板远离支架一的一侧,短横板与两个侧板远离长横板的一侧固定连接,支撑架与短横板固定连接,斜支板的一侧固定连接在短横板上,斜支板远离短横板一侧固定连接在支撑架上。本发明通过下压组件带动挤压组件运行,实现了将湿润的茶渣进行挤压脱水的目的,通过触杆、凸块与长圆柱的配合,实现了挤压组件的自动复位,这样便完成了茶渣的脱水。(The invention discloses an environment-friendly tea leaf residue recycling device which comprises a first support, a long transverse plate, a second support, side plates, a short transverse plate, a support frame, an inclined support plate and the like; the interval of the first support is three, the long transverse plate is installed on one side of the first support, the second support is close to the first support, the second support is fixedly connected to the long transverse plate, the two side plates are symmetrically arranged, the side plates are fixedly connected to one side, away from the first support, of the long transverse plate, the short transverse plate is fixedly connected with one side, away from the long transverse plate, of the two side plates, the support frame is fixedly connected with the short transverse plate, one side of the inclined support plate is fixedly connected to the short transverse plate, and one side, away from the short transverse plate. The pressing assembly drives the extruding assembly to operate, so that the aim of extruding and dehydrating wet tea leaves is fulfilled, the automatic resetting of the extruding assembly is realized through the matching of the contact rod, the convex block and the long cylinder, and the dehydration of the tea leaves is finished.)

1. An environment-friendly tea residue recycling device comprises a first support (1), a long transverse plate (101), a second support (102), side plates (103), short transverse plates (104), a support frame (105), an inclined support plate (1051), a third support (106), an air cylinder (107), a material box (108) and a waste water box (109), wherein the number of the first support (1) is three, the long transverse plate (101) is arranged on one side of the first support (1), the second support (102) is close to the first support (1), the second support (102) is fixedly connected to the long transverse plate (101), the material box (108) is arranged on the first support (1), the waste water box (109) is arranged on the second support (102), the material box (108) and the waste water box (109) are both arranged at the bottom of the long transverse plate (101), the side plates (103) are symmetrically arranged, the side plates (103) are fixedly connected to one side, far away from the first support (1), of the long transverse plate, the device is characterized by further comprising a pressing component, an extruding component and a dewatering component, wherein the pressing component is fixedly connected with an expansion link of the air cylinder (107), the pressing component is in sliding fit with the support frame (105), the extruding component is connected with the short transverse plate (104), the extruding component is matched with the pressing component, the dewatering component is connected with the long transverse plate (101), the dewatering assembly is in contact with the pressing assembly.

2. The environment-friendly tea leaf residue recycling device of claim 1, wherein the pressing component comprises a first connecting block (2), a first guide rod (201), a protrusion (2011) and a connecting rod (202), the first connecting block (2) is fixedly connected with an expansion rod of the cylinder (107), one end of the first guide rod (201) is fixedly connected to the side wall of the first connecting block (2), one end, far away from the first connecting block (2), of the first guide rod (201) penetrates through one side, close to the inclined supporting plate (1051), of the supporting frame (105) in a sliding mode, the protrusion (2011) is fixedly connected to the first connecting block (2), the protrusion (2011) is matched with the extrusion component, and the connecting rod (202) is fixedly connected to one side of the first guide rod (201).

3. The environment-friendly tea leaf residue recycling device as claimed in claim 2, wherein the extrusion assembly comprises a long cylinder (3), a first spring (301), a disc (302), round pin rods (303), a second spring (3031), a stamping head (304) and a trigger assembly, the long cylinder (3) penetrates through the short transverse plate (104) and is in sliding connection with the short transverse plate, the disc (302) is fixedly connected to one end of the long cylinder (3) close to the long transverse plate (101), the four round pin rods (303) are arranged on the disc (302) in an annular array, the round pin rods (303) are in sliding connection with the disc (302), the stamping head (304) is fixedly connected to one end of the round pin rods (303) far away from the disc (302), the stamping head (304) is matched with the dewatering assembly, the second spring (3031) is sleeved on each round pin rod (303), two ends of the second spring (3031) are respectively in contact with the disc (302) and the stamping head (304), one end of the long cylinder (3) far away from the disc (302) is provided with a trigger assembly, a first spring (301) is sleeved on the long cylinder (3), two ends of the first spring (301) are respectively in contact with the short transverse plate (104) and the trigger assembly, and the trigger assembly is in contact with the protrusion (2011).

4. The environment-friendly tea leaf residue recycling device as claimed in claim 3, wherein the trigger assembly comprises a second connecting block (6), a convex block (601), a short pin rod (602), a third spring (603) and a contact rod (604), the second connecting block (6) is fixedly connected with one end of the long cylinder (3) far away from the disc (302), one end of the short pin rod (602) is fixed inside the second connecting block (6), the other end of the short pin rod (602) is slidably connected with the convex block (601), the convex block (601) is in contact with the protrusion (2011), the third spring (603) is sleeved on the short pin rod (602), one end of the third spring (603) is fixedly connected with the convex block (601), the contact rod (604) is close to the long cylinder (3), one end of the contact rod (604) is fixedly connected to the short transverse plate (104), and the contact rod (604) is in contact with the convex block (601).

5. The environment-friendly tea leaf residue recycling device of claim 3, wherein the dewatering component comprises two lower hooping (5), a long plate (502), a sliding rod (503), a small supporting plate I (504), a tension spring (505), a stop lever (506), a water pipe (401), a guide box (4), a connecting plate (305) and an upper hooping (306), the connecting plate (305) is symmetrically provided with two connecting plates, one end of each connecting plate (305) is fixedly connected to the long transverse plate (101), the upper hooping (306) is fixedly connected between the two connecting plates (305), the lower hooping (5) is positioned at the bottom of the upper hooping (306), the stamping head (304) is in sliding fit with the upper hooping (306) and the lower hooping (5), two sides of the lower hooping (5) are in sliding contact with the long transverse plate (101) and the upper hooping (306) respectively, one side of the lower hooping (5) close to the long transverse plate (101) is provided with three water outlet holes (501) at intervals, three circular grooves are formed in the position, adjacent to the water outlet hole (501), of the long transverse plate (101), one side of the long plate (502) is connected with the long transverse plate (101) in a sliding mode, the long plate (502) is in contact with the lower hoop (5), two small support plates (504) are symmetrically arranged on two sides of the long plate (502), a sliding rod (503) penetrates through each small support plate (504), one end of each sliding rod (503) is fixedly connected with the outer wall of the lower hoop (5), a tension spring (505) is sleeved on each sliding rod (503), two ends of each tension spring (505) are fixedly connected with the lower hoop (5) and the small support plate (504), two blocking rods (506) are symmetrically arranged on the long transverse plate (101), the blocking rods (506) are in contact with the lower hoop (5), a water pipe (401) is arranged at the position of the water outlet hole (501), the guide boxes (4) are arranged on the periphery of the lower hoop (5), and the guide boxes (4) are fixedly connected with the long transverse plate (101), the extending end of the water pipe (401) is positioned at the upper part of the guide box (4).

6. The environment-friendly tea leaf residue recycling device of claim 5, further comprising a square plate (7), long pin rods (701), a movable block (702), a spring five (703) and power rods (704), wherein one side of the square plate (7) is fixedly connected to the long plate (502), two adjacent long pin rods (701) penetrate through the square plate (7), one end of each long pin rod (701) is fixedly connected with the movable block (702), the movable block (702) is slidably connected with the long plate (502), each long pin rod (701) is sleeved with the spring five (703), two ends of each spring five (703) are respectively in contact with the square plate (7) and the movable block (702), and two ends of each power rod (704) are respectively hinged to the movable block (702) and the connecting rod (202).

7. The environment-friendly tea leaf residue recycling device according to claim 6, further comprising a rectangular plate (8) and a square rod (801), scraping wings (802), little extension board two (803) and spring four (804), the both sides of rectangular plate (8) respectively with two curb plate (103) inboard fixed connection, the symmetry is equipped with two square bars (801) on rectangular plate (8), square bar (801) slide and pass rectangular plate (8), square bar (801) and connecting rod (202) contact, one end fixedly connected with scraping wings (802) that square bar (801) are close to rectangular plate (101), scraping wings (802) and power rod (704) and lower hoop (5) all contact, two equal symmetries of two sides of every square bar (801) are equipped with two little extension board two (803), equal fixedly connected with spring four (804) on every little extension board two (803), the one end that little extension board two (803) were kept away from in every spring four (804) all with rectangular plate (8) fixed connection.

Technical Field

The invention relates to the field of tea residue recycling, in particular to an environment-friendly tea residue recycling device.

Background

Tea is a dominant special resource in China, the tea deep processing development is rapid, the by-products generated by the tea deep processing are increased greatly, but the tea deep processing by-products cannot be effectively recycled, and great pressure is caused on environmental cleanness.

The tea-leaves are solid waste after being soaked and extracted, the tea-leaves are rich in various substances beneficial to human bodies, such as tea saponin, tea flavone and other ingredients, but the tea-leaves are wet and have large water content and are often directly poured by people, or part of the tea-leaves are dried in the air by a traditional drying mode to be made into tea pillows and the like for people to use, but the mode is only suitable for small-range use, the scale is really formed in practice very few, then the problem of recycling of the tea-leaves can not be effectively solved, the dehydrated tea-leaves can be stored for a long time, and the deep processing of the tea-leaves can be facilitated.

Therefore, the development of the tea leaf environment-friendly recycling device capable of dehydrating and collecting tea leaves has great economic value and important environmental protection significance.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides the tea leaf environment-friendly recycling device which can dehydrate and collect tea leaves.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an environment-friendly recycling device for tea leaves dregs comprises a first support, a long transverse plate, a second support, side plates, a short transverse plate, a support frame, an inclined support plate, a third support, a cylinder, a material box, a wastewater box, a downward pressing assembly, an extruding assembly and a dewatering assembly, wherein the number of the first support is three at intervals, the long transverse plate is installed on one side of the first support, the second support is close to the first support, the second support is fixedly connected to the long transverse plate, the material box is placed on the first support, the wastewater box is placed on the second support, the material box and the wastewater box are both positioned at the bottom of the long transverse plate, the two side plates are symmetrically arranged, the side plates are fixedly connected to one side of the long transverse plate, which is far away from the first support, the short transverse plate is fixedly connected to one side of the two side plates, which is far away from the long transverse plate, the support frame is fixedly connected to the short transverse plate, the cylinder is installed on support three, and the telescopic link of cylinder slides and passes the support frame, pushes down subassembly and cylinder telescopic link fixed connection, pushes down subassembly and support frame sliding fit, and the extrusion subassembly is connected with short horizontal plate, and the extrusion subassembly cooperates with the subassembly that pushes down, and the dehydration subassembly is connected with long diaphragm, dehydration subassembly and extrusion subassembly contact.

Further, the pushing assembly comprises a first connecting block, a first guide rod, a protrusion and a connecting rod, the first connecting block is fixedly connected with the telescopic rod of the air cylinder, one end of the first guide rod is fixedly connected to the side wall of the first connecting block, one end, far away from the first connecting block, of the guide rod slides to penetrate through one side, close to the inclined supporting plate, of the supporting frame, the protrusion is fixedly connected to the first connecting block, the protrusion is matched with the extrusion assembly, and one side of the guide rod is fixedly connected with the connecting rod.

Further, the extrusion subassembly is including the long cylinder, spring one, the disc, round pin pole, spring two, punching press head and trigger subassembly, the long cylinder wears to locate on the hyphen board and rather than sliding connection, the one end fixedly connected with disc that the long cylinder is close to the hyphen board, annular array has four round pin poles on the disc, round pin pole and disc sliding connection, the one end fixedly connected with punching press head that the disc was kept away from to the round pin pole, punching press head and dehydration component cooperation, all overlap on every round pin pole and have a spring two, the both ends of spring two contact with disc and punching press head respectively, the one end that the disc was kept away from to the long cylinder is equipped with trigger subassembly, the cover has spring one on the long cylinder, the both ends of spring one contact with hyphen board and trigger subassembly respectively, trigger subassembly and protruding contact.

Further, the trigger assembly comprises a second connecting block, a convex block, a short pin rod, a third spring and a contact rod, the second connecting block and the long round column are fixedly connected with one end of the round disc, one end of the short pin rod is fixed inside the second connecting block, the other end of the short pin rod is slidably connected with the convex block, the convex block is in contact with the protrusion, the third spring is sleeved on the short pin rod, one end of the third spring is fixedly connected with the convex block, the contact rod is close to the long round column, one end of the contact rod is fixedly connected onto the short transverse plate, and the contact rod is in contact with the convex.

Further, the dewatering component comprises a lower hoop, a long plate, slide bars, a small support plate I, tension springs, a retaining rod, a water pipe, a guide box, a connecting plate and an upper hoop, the connecting plate is symmetrically provided with two connecting plates, one end of the connecting plate is fixedly connected to the long transverse plate, the upper hoop is fixedly connected between the two connecting plates, the lower hoop is positioned at the bottom of the upper hoop, a stamping head is in sliding fit with the upper hoop and the lower hoop, two sides of the lower hoop are respectively in sliding contact with the long transverse plate and the upper hoop, three water outlet holes are arranged at intervals on one side of the lower hoop close to the long transverse plate, three circular grooves are arranged on the long transverse plate at positions adjacent to the water outlet holes, one side of the long plate is in sliding connection with the long transverse plate, the long plate is in contact with the lower hoop, two small support plates I are symmetrically arranged on two sides of the long plate, a slide bar is arranged on each small support plate I in a penetrating manner, one end, two ends of the tension spring are fixedly connected with the lower hoop and the small supporting plate I respectively, the two gear rods are symmetrically arranged on the long transverse plate and are in contact with the lower hoop, a water pipe is arranged at each water outlet, the guide box is arranged around the lower hoop and is fixedly connected with the long transverse plate, and the extending end of the water pipe is positioned at the upper part of the guide box.

Further, still including square plate, long pin pole, movable block, five spring and power rod, one side fixed connection of square plate is on the long plate, wears to be equipped with two adjacent long pin poles on the square plate, and the one end fixedly connected with movable block of long pin pole, movable block and long plate sliding connection all overlap on every long pin pole and have five spring, and five both ends of spring contact with square plate and movable block respectively, and the both ends of power rod are articulated with movable block and connecting rod respectively.

Further, still including the rectangular plate, the square bar, the scraping wings, little extension board two and spring four, the both sides of rectangular plate respectively with two inboard fixed connection of curb plate, the symmetry is equipped with two square bars on the rectangular plate, the square bar slides and passes the rectangular plate, the square bar contacts with the connecting rod, the square bar is close to the one end fixedly connected with scraping wings of rectangular plate, the scraping wings all contacts with power rod and lower hoop, two equal symmetries of side of every square bar are equipped with two little extension boards two, equal fixedly connected with spring four on every little extension board two, the one end that little extension board two was kept away from to every spring four all with rectangular plate fixed connection.

The invention has the beneficial effects that:

1) the pressing assembly drives the extruding assembly to operate, so that the aim of extruding and dehydrating wet tea leaves is fulfilled, the automatic resetting of the extruding assembly is realized through the matching of the contact rod, the convex block and the long cylinder, and the dehydration of the tea leaves is finished.

2) According to the tea residue collecting device, the lower hoop can be indirectly driven to operate through the matching of the protrusions, the power rod and the movable block, and tea residues can fall into the material barrel when the lower hoop passes through the square hole in the long transverse plate, so that the tea residues are collected.

3) According to the invention, the square rod and the material pushing plate are driven to be pressed downwards through the connecting rod, so that tea leaves attached to the lower hoop can be washed down, and the tea leaves can be attached to the lower hoop during material returning.

Drawings

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

Fig. 2 is a schematic perspective view of the pressing assembly according to the present invention.

Fig. 3 is a schematic perspective view of the extrusion assembly of the present invention.

FIG. 4 is a partial schematic view of a compression assembly of the present invention.

Fig. 5 is an exploded view of the trigger assembly of the present invention.

FIG. 6 is a partial schematic view of a dewatering assembly of the present invention.

Fig. 7 is a schematic perspective view of the power rod of the present invention.

Fig. 8 is a schematic perspective view of the rectangular plate, the square rod and the material pushing plate according to the present invention.

In the reference symbols: 1-bracket one, 101-long transverse plate, 102-bracket two, 103-side plate, 104-short transverse plate, 105-support frame, 1051-oblique support plate, 106-bracket three, 107-cylinder, 108-material box, 109-waste water box, 2-connecting block one, 201-guide rod, 2011-bulge, 202-connecting rod, 3-long cylinder, 301-spring one, 302-disc, 303-round pin rod, 3031-spring two, 304-punching head, 305-connecting plate, 306-upper hoop, 4-guide box, 401-water pipe, 5-lower hoop, 501-water outlet, 502-long plate, 503-sliding rod, 504-small support plate one, 505-tension spring, 506-baffle rod, 6-connecting block two, 601-bump, 602-short pin rod, 603-spring three, 604-feeler lever, 7-square plate, 701-long pin rod, 702-movable block, 703-spring five, 704-power rod, 8-rectangular plate, 801-square rod, 802-material pushing plate, 803-small support plate two, and 804-spring four.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in figure 1, the environment-friendly tea leaf residue recycling device comprises a first support frame 1, a long transverse plate 101, a second support frame 102, side plates 103, a short transverse plate 104, a support frame 105, an inclined support plate 1051, a third support frame 106, a cylinder 107, a material box 108, a wastewater box 109, a pressing component, an extruding component and a dewatering component, wherein the number of the first support frame 1 is three at intervals from left to right, the long transverse plate 101 is installed on the upper side of the first support frame 1, the second support frame 102 is positioned on the left side of the first support frame 1, the second support frame 102 is fixedly connected to the bottom of the left side of the long transverse plate 101, the material box 108 is placed in the first support frame 1, the wastewater box 109 is placed in the second support frame 102, the two side plates 103 are symmetrically arranged in front and back, the side plates 103 are fixedly connected to the upper side of the long transverse plate 101, the short transverse plate 104 is fixedly connected to the upper sides of, oblique extension board 1051 upside fixed connection is in support frame 105 front side, support three 106 fixed connection is in the upside of support frame 105, cylinder 107 installs on support three 106, the telescopic link of cylinder 107 slides down and passes support frame 105, push down subassembly and cylinder 107 telescopic link fixed connection, push down subassembly and support frame 105 sliding fit, the extrusion subassembly is connected with short horizontal plate 104, the extrusion subassembly cooperates with the push down subassembly, the dehydration subassembly is connected with long horizontal plate 101, the dehydration subassembly contacts with the extrusion subassembly.

During the staff puts into the dehydration subassembly with the tea residue earlier, then start cylinder 107, at this moment cylinder 107 will drive the subassembly that pushes down and push down, when the subassembly that pushes down touches extrusion subassembly, can drive extrusion subassembly together pushing down, at this moment extrusion subassembly can carry out the extrusion dehydration with the tea residue in the dehydration subassembly, moisture on the tea residue can flow waste water box 109 through the dehydration subassembly, the tea residue after the dehydration is being collected by the staff, the drainage of tea residue has just so been accomplished.

Example 2

As shown in fig. 2, on the basis of embodiment 1, the downward pressing assembly includes a first connecting block 2, a guide rod 201, a protrusion 2011 and a connecting rod 202, an upper side of the first connecting block 2 is fixedly connected with a lower end of an expansion link of the cylinder 107, a rear end of the guide rod 201 is fixedly connected to a lower side wall of the first connecting block 2, a front end of the guide rod 201 slides through a front side of the supporting frame 105, the protrusion 2011 is fixedly connected to a front side of the first connecting block 2, the protrusion 2011 is matched with the extruding assembly, and the right side of the guide rod 201 is fixedly connected with the connecting rod 202.

When cylinder 107 telescopic link downstream, connecting block 2 on the cylinder 107 telescopic link also can the downstream, and at this moment connecting block 2 can drive arch 2011 and guide bar 201 downstream together, can drive its downstream together when protruding 2011 touches extrusion subassembly, has so just realized driving the purpose that extrusion subassembly pushed down.

As shown in fig. 3-4, the pressing assembly includes a long cylinder 3, a first spring 301, a disc 302, a round pin rod 303, a second spring 3031, a stamping head 304 and a trigger assembly, the long cylinder 3 is disposed on the short transverse plate 104 in a penetrating manner and is connected with the short transverse plate in a sliding manner, the lower end of the long cylinder 3 is fixedly connected with the disc 302, four round pin rods 303 are arranged on the disc 302 in an annular array, the round pin rods 303 are connected with the disc 302 in a sliding manner, the lower end of the round pin rod 303 is fixedly connected with the stamping head 304, the stamping head 304 is matched with the dewatering assembly, each round pin rod 303 is sleeved with the second spring 3031, two ends of each second spring 3031 are respectively contacted with the disc 302 and the stamping head 304, the upper end of the long cylinder 3 is fixedly connected with the trigger assembly, the long cylinder 3 is sleeved with the first spring 301, two ends of the first spring 301 are respectively contacted with the short transverse plate 104 and the trigger.

When the protrusion 2011 touches the trigger assembly, the protrusion 2011 can drive the long cylinder 3 to slide downwards along the short transverse plate 104 through the trigger assembly, at this time, the trigger assembly can compress the first spring 301, the long cylinder 3 can drive the disc 302 to move downwards, the disc 302 can drive the punching head 304 to move downwards through the round pin rod 303 and the second spring 3031, and the downward-pressing punching head 304 can be matched with the upper hoop 306 and the lower hoop 5 to extrude and dewater tea leaves.

As shown in fig. 5, the trigger assembly includes a second connecting block 6, a protruding block 601, a short pin rod 602, a third spring 603 and a contact rod 604, the second connecting block 6 is fixedly connected to the upper end of the long cylinder 3, the rear end of the short pin rod 602 is fixed to the inner wall of the second connecting block 6, the front end of the short pin rod 602 is slidably connected to the protruding block 601, the protruding block 601 is in contact with a protrusion 2011, the third spring 603 is sleeved on the short pin rod 602, the front end of the third spring 603 is fixedly connected to the protruding block 601, the contact rod 604 is located on the front side of the long cylinder 3, the lower end of the contact rod 604 is fixedly connected to the horizontal short plate 104, and the contact rod 604.

When the protrusion 2011 drives the bump 601 to move, the bump 601 can drive the second connecting block 6 to move downwards through the short pin rod 602, at this time, the second connecting block 6 can drive the long cylinder 3 to move downwards, the contact rod 604 can be touched in the downward movement process of the bump 601, the contact rod 604 can drive the bump 601 to retract inwards along the short pin rod 602, at this time, the protrusion 2011 can be separated from the bump 601, at this time, the third spring 603 can drive the bump 601 to reset, so under the condition without external force action, the first spring 301 in the compression state can drive the long cylinder 3 to rebound, at this time, the long cylinder 3 can drive the disc 302 to move upwards, at this time, the disc 302 can drive the round pin rod 303 and the punching head 304 to move upwards together, the second spring 3031 can also recover, and thus, the extrusion on the tea dregs is completed.

As shown in fig. 3 and fig. 6-7, the dewatering component comprises a lower hoop 5, a long plate 502, a sliding rod 503, a first small supporting plate 504, a tension spring 505, a stop lever 506, a water pipe 401, a guide box 4, two connecting plates 305 and an upper hoop 306, the two connecting plates 305 are symmetrically arranged in front and back, the lower end of each connecting plate 305 is fixedly connected to the horizontal long plate 101, the upper hoop 306 is fixedly connected between the two connecting plates 305, the lower hoop 5 is positioned at the bottom of the upper hoop 306, a stamping head 304 is in sliding fit with the upper hoop 306 and the lower hoop 5, the upper side and the lower side of the lower hoop 5 are respectively in sliding contact with the horizontal long plate 101 and the upper hoop 306, the lower side of the lower hoop 5 is provided with three water outlets 501 at intervals, the horizontal long plate 101 is provided with three circular grooves 501 adjacent to the water outlets 501, the lower side of the long plate 502 is in sliding connection with the horizontal long plate 101, the long plate 502 is in contact with the lower hoop 5, a sliding rod 503 penetrates through each small support plate I504, the left end of each sliding rod 503 is fixedly connected with the outer wall of the right side of the lower hoop 5, a tension spring 505 is sleeved on each sliding rod 503, two ends of each tension spring 505 are fixedly connected with the lower hoop 5 and the small support plate I504 respectively, two stop levers 506 are symmetrically arranged on the long transverse plate 101, the stop levers 506 are in contact with the lower hoop 5, a water pipe 401 is arranged at each water outlet hole 501, the guide box 4 is arranged around the lower hoop 5, the guide box 4 is fixedly connected with the long transverse plate 101, and the extending end of the water pipe 401 is positioned at the upper part of the guide box 4.

When the tealeaves dehydration, waste water can be arranged to the direction box 4 through water pipe 401, then through the direction box 4 to waste water box 109 in, go up hoop 306 is in the rigid, so just fine play a positioning action, lower hoop 5 is in the sliding state for last hoop 306 and long diaphragm 101, after the tealeaves dehydration, the staff can pull out lower hoop 5, then will dewater the tealeaves after collecting.

Example 3

As shown in fig. 6, based on embodiment 2, the device further includes a square plate 7, long pin rods 701, a movable block 702, five springs 703 and a power rod 704, wherein the lower side of the square plate 7 is fixedly connected to the upper side of the long plate 502, two adjacent long pin rods 701 penetrate through the square plate 7, the right end of each long pin rod 701 is fixedly connected with the movable block 702, the movable block 702 is slidably connected with the long plate 502, each long pin rod 701 is sleeved with one five spring 703, two ends of each five spring 703 are respectively in contact with the square plate 7 and the movable block 702, the upper end of the power rod 704 is hinged to the connecting rod 202, and the lower end of the power rod 704 is hinged to the movable block 702.

When the connecting rod 202 moves downwards, the connecting rod 202 drives the movable block 702 to slide rightwards along the long plate 502 through the power rod 704, meanwhile, the movable block 702 drives the long pin rod 701 to slide rightwards along the square plate 7, when the nut on the long pin rod 701 touches the square plate 7 after sliding for a certain distance, the square plate 7 is driven to move rightwards together, at the same time, the bump 601 just breaks away from the contact with the protrusion 2011, the square plate 7 drives the long plate 502 to move rightwards, the long plate 502 drives the small support plate I504 to move rightwards, the long plate 502 drives the lower hoop 5 to move rightwards through the tension spring 505, at the same time, the lower hoop 5 drives the tea residues after dehydration together, when the lower hoop 5 touches the rod 506, the baffle rod 506 limits the lower hoop 5 to move rightwards, at the moment, the small support plate I504 continues to stretch the tension spring 505, and when the tea residues fall into the box from the square hole on the long transverse plate 101, the cylinder 107 drives the above components to be fully restored, so that the return of the tea leaves is completed.

As shown in fig. 8, the clamping device further comprises a rectangular plate 8, square rods 801, a pushing plate 802, two small support plates 803 and four springs 804, wherein the front side and the rear side of the rectangular plate 8 are fixedly connected with the inner sides of the two side plates 103 respectively, the rectangular plate 8 is symmetrically provided with the two square rods 801, the square rods 801 slide downwards to penetrate through the rectangular plate 8, the square rods 801 are in contact with the connecting rods 202, the lower end of the square rods 801 is fixedly connected with the pushing plate 802, the pushing plate 802 is in contact with the power rod 704 and the lower hoop 5, the left side and the right side of each square rod 801 are symmetrically provided with the two small support plates 803, each small support plate 803 is fixedly connected with one spring four 804, and the lower end of each spring four 804 is fixedly connected with the rectangular plate 8.

When the blocking rod 506 touches the lower hoop 5, the connecting rod 202 moving downwards just touches the square rod 801, so as to drive the square rod 801 to slide downwards along the rectangular plate 8, at this time, the second small support plate 803 compresses the fourth spring 804, the square rod 801 moving downwards drives the material pushing plate 802 to push down tea dregs stained on the inner wall in the lower hoop 5, so that the tea dregs fall into the material box 108, and when the connecting rod 202 moves upwards, the first small support plate 504 drives the square rod 801 and the material pushing plate 802 to reset through the second small support plate 803, so that the material returning of the tea dregs is completed.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.