CN108889598B

CN108889598B - Antibiotic dampproofing tealeaves separator with

Info

Publication number: CN108889598B
Application number: CN201810416080.7A
Authority: CN
Inventors: 张冰冰
Original assignee: Individual
Current assignee: Hubei Hongjian Tea Industry Group Co ltd
Priority date: 2018-05-03
Filing date: 2018-05-03
Publication date: 2020-12-01
Anticipated expiration: 2038-05-03
Also published as: CN108889598A

Abstract

The invention discloses an antibacterial and moistureproof tea leaf separating device which structurally comprises an air vent, a safety handle, a tea leaf outlet sealing cover plate, a separating box, a fixing foot frame, a supporting fixing rod, a supporting fixing plate, a tea dust inclined plate outlet, a control panel, a power box and a tea leaf inlet pipe, wherein the air vent is arranged at the right end above the separating box and is buckled with the upper part of the right end of the separating box, the tea leaf outlet sealing cover plate is arranged at the right end of the front side of the separating box and is buckled with the right end of the front side of the separating box, and the safety handle is arranged on the top surface and is integrated with the safety handle The taste and the shape are kept as the original state, and the loss of the special flavor and the quality of the tea leaves is reduced.

Description

Antibiotic dampproofing tealeaves separator with

Technical Field

The invention relates to an antibacterial and moistureproof tea leaf separating device, and belongs to the field of tea leaf separating instruments.

Background

Tea, refer to the leaf or bud of the tea tree, said tea is that the leaf of the tea tree is processed to get final product, can soak a beverage that is drunk directly with the boiled water, the dicotyledonous plant of the tea genus, about 30, 500, distribute in tropical and subtropical area, Chinese have 14, 397, mainly produce in the south of Yangtze river in every place, wherein tea and Ho's tree, etc. are all very rich in economic value.

When the tea is used in the prior art, the tea is easily damaged by various fungi to damage the quality, even the tea is seriously mildewed and produces various toxic metabolites so that the tea cannot be drunk, and the tea is very easy to absorb moisture and adsorb other odors so as to influence the color, the fragrance, the taste and the shape of the tea, thereby losing the special flavor and the quality of the tea.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an antibacterial and moistureproof tea leaf separating device, which solves the problems that when the tea leaf separating device is used in the prior art, the tea leaf is easily invaded by various fungi to damage the quality of the tea leaf, the tea leaf is seriously mildewed even to cause that the tea leaf cannot be drunk due to the generation of various toxic metabolites, and the color, the fragrance, the taste and the shape of the tea leaf are influenced due to the extremely high moisture absorption and the adsorption of other odors of the tea leaf, so that the special flavor and the quality of the tea leaf are lost.

In order to achieve the purpose, the invention is realized by the following technical scheme: a tea leaf separating device with antibacterial and dampproof functions comprises an air vent, a safety handle, a tea leaf outlet sealing cover plate, a separating box, a fixed foot rest, a supporting fixed rod, a supporting fixed plate, a tea dust inclined plate outlet, a control panel, a power box and a tea leaf inlet pipe, wherein the air vent is arranged at the right end above the separating box and is fastened above the right end of the separating box, the tea leaf outlet sealing cover plate is arranged at the right end of the front of the separating box and is fastened with the right end of the front of the separating box, the top surface of the tea leaf outlet sealing cover plate is provided with the safety handle and is of an integrated structure with the safety handle, the control panel is arranged at the left end of the tea leaf outlet sealing cover plate, the bottom surface of the control panel is welded with the top surface of the separating box, the tea leaf inlet pipe is arranged at the left side of the air vent, the bottom surface of the control panel is welded, the left end below is provided with a tea dust sloping plate outlet which is in transition fit with the tea dust sloping plate outlet, the right end of the tea dust sloping plate outlet is welded with a supporting fixing rod, the left end below is welded with a supporting fixing plate, the supporting fixing rod and the middle part of a fixing foot rest are of an integrated structure, the supporting fixing plate is arranged at the left end of the fixing foot rest and is welded with the left end of the fixing foot rest, the separating box comprises a tea inlet, a separating box protective outer layer, a damp-proof layer, a movable buckle, a fixing block, a through hole, a vibrating plate, a tea dust storage box, a motor rotating shaft, a motor shaft tooth, a tea dust outlet, a gear transmission device, a vibration transmission device, a tea storage box, a tea receiving hole, a push rod transmission device, a first electric wire, a switch transmission device, a second electric wire, a power supply, a third electric, the tea dust storage box is characterized in that one end of the tea inlet port penetrates through the top surface of the outer protection layer of the separation box and is matched with the vibration plate, the other end of the tea inlet port is fastened with the tea inlet pipe, the moisture-proof layer is arranged inside the outer protection layer of the separation box and is of an integrated structure with the outer protection layer of the separation box, the left end of the fixed block is fastened with the movable block into an integrated structure, one end of the vibration plate is connected with the left end of the heating plate into an integrated structure, the other end of the vibration plate is fastened with the movable block, a plurality of through holes are formed inside the vibration plate and are of an integrated structure with the through holes, the lower part of the vibration plate is matched with the tea dust storage box, the tea dust storage box is arranged at the left end of the outer protection layer of the separation box, the tea dust outlet is arranged at the left end of the lower part of the outer protection layer of the, the right end of the motor shaft tooth is provided with a gear transmission device which is meshed with the left end of the gear transmission device, the right end of the gear transmission device is buckled with the left end of the vibration transmission device, a heating plate is arranged above the vibration transmission device and is welded with the middle part of the bottom surface of the heating plate, the tea receiving hole is arranged below the right end of the heating plate and is in transition fit with the right end of the heating plate, the tea storage box is arranged below the tea receiving hole and is in an integrated structure with the lower part of the tea receiving hole, a push rod transmission device is arranged inside the lower part and is in transition fit with the left end of the push rod transmission device, the right end of the push rod transmission device is arranged below the switch transmission device and is meshed with one end below the switch transmission device, the other end of the switch transmission device is welded with a power supply, the left end is welded with, wire one end and power welding, the other end and hot plate welding, No. three wire one end and switch transmission right-hand member welding, the other end and air exhauster welding, No. four wire one end and power welding, the other end and air exhauster welding, fan protecting sheathing locates the hot plate top, cooperatees with the hot plate, and inside is equipped with the fan, and structure as an organic whole with the fan, the top is equipped with the conveyer pipe, welds with conveyer pipe one end, the conveyer pipe other end and air exhauster left end welding, air exhauster top and blow vent welding, the blow vent is located inside the separator box protection skin, with the outer welding of separator box protection.

Further, the ejector rod transmission device comprises a tea leaf detection plate, a spring, an ejector rod fixing rod, an ejector rod bearing shaft, a unilateral rack, a gear, a rotating shaft, a driving belt, a rotating shaft, a gear and a threaded column, wherein the middle part below the tea leaf detection plate is welded with the spring, the right end below the tea leaf detection plate is provided with the ejector rod which is buckled with one end of the ejector rod, the middle part of the ejector rod is provided with the ejector rod fixing rod which is buckled with the ejector rod fixing rod, the other end of the ejector rod bearing shaft is buckled with the unilateral rack through the ejector rod bearing shaft, the left end of the unilateral rack is meshed with the gear, the top surface of the gear and the rotating shaft are of an integrated structure, one end of the driving belt is buckled with the rotating shaft, the other end of the driving belt is buckled with the rotating shaft, the bottom surface of the rotating shaft and the gear are of an integrated structure, the gear is arranged below the, the upper part is meshed with the lower part of the threaded column, and the upper part of the threaded column is meshed with the lower part of the switch transmission device.

Further, switch transmission includes No. three gears, No. two ejector pins, No. three ejector pins, No. four ejector pins, limiting plate, fixed plate, contact plate, No. five ejector pins, resistance, No. two springs, No. three gear below and ejector pin transmission's top meshing, No. two ejector pin one end and No. three gear top surface lock joints, the other end and No. three ejector pin below welding, No. three ejector pin top and No. four ejector pin below welding, No. four ejector pin below and limiting plate below welding, limiting plate top and fixed plate one end welding, the fixed plate other end and No. five ejector pin one end be the integrated structure, No. five ejector pin other ends and contact plate below welding, the contact plate both sides all cooperate with resistance, resistance is equipped with two, No. two springs locate the top of contact plate, with the contact plate welding.

Further, the gear transmission device comprises a third rotating shaft, a rotating shaft supporting rod, a rack, a fifth gear, a first transmission rod, a grooved pulley, a fourth rotating shaft, a fifth rotating shaft, a third transmission belt, a sixth rotating shaft, a second transmission rod, a helical tooth, a sixth gear, a fourth transmission belt, a sixth rotating shaft, a seventh rotating shaft and a fifth transmission belt, wherein the left end of the fifth gear is meshed with the shaft teeth of the motor, the right end of the fifth gear is welded with one end of the first transmission rod, the other end of the first transmission rod and the grooved pulley are of an integrated structure, the rack is arranged above the grooved pulley, the lower part of the rack is meshed with the upper part of the grooved pulley, the upper part of the rack and the rotating shaft supporting rod are of an integrated structure, the third rotating shaft and the rotating shaft supporting rod are of an integrated structure, one end of the fifth transmission belt is buckled with the third rotating shaft, the other end of the fifth transmission belt is buckled with the, the other end and No. four pivot lock joints, No. four pivot and No. five pivot welding, No. three drive belt one end and No. five pivot lock joints, the other end and No. six pivot lock joints, No. six pivot and No. two transfer lines structure as an organic whole, No. two transfer lines top and skewed tooth welding, skewed tooth and No. six gear engagement, No. six gear below and vibration transmission device lock joint.

Further, the vibration transmission device comprises a first movable rod, a second movable rod, a third movable rod, a fourth movable rod, a fifth movable rod, a sixth movable rod, a third gear, a second transmission belt, a fixed rod, a fourth gear, a fixed bearing, a movable rod fixed block, a seventh movable rod and a movable rod limit pipe, wherein the first movable rod and the second movable rod are in cross buckling connection, one end of the first movable rod is arranged below the heating plate, the other end of the first movable rod is respectively buckled with one end of the fourth movable rod and one end of the seventh movable rod, the fourth movable rod and the seventh movable rod are in cross buckling connection, the other end of the fourth movable rod is welded with the movable rod fixed block, the other end of the seventh movable rod is buckled with one end of the fifth movable rod, one end of the third movable rod is welded with the buckling connection part of the first movable rod and the fourth movable rod, the other end of the third movable rod is buckled with the movable rod limit pipe, one end of the sixth movable rod is buckled with the other, the other end all welds with No. four gear top surfaces, No. four gears are equipped with two, all meshes with No. three gears, the dead lever is equipped with two, and one end all welds with No. four gears, and the other end all welds with No. three gears, No. two drive belt one end all with No. three gear middle part bottom surface lock joints, the other end and gear drive device lock joint.

Advantageous effects

The invention relates to an antibacterial and moistureproof tea leaf separating device, which is mainly characterized in that: when a user uses the device to separate tea leaves, the tea leaves are put into a separating box through a tea leaf inlet pipe, the tea leaves fall onto a vibrating plate, a motor is enabled to work through a control panel, a motor rotating shaft is enabled to drive motor shaft teeth, a fifth gear of a gear transmission device is enabled to drive a first transmission rod, a third rotating shaft is enabled to drive a fifth transmission belt through a grooved pulley, a sixth rotating shaft is enabled to drive a fourth rotating shaft through a fourth transmission belt, the sixth rotating shaft is enabled to drive helical teeth, the helical teeth drive a sixth gear, and the vibration transmission device is enabled to work, the device adopts the combination of a belt and gears to enable the device to synchronously transmit, when the gear transmission device works, a second transmission belt of the vibration transmission device is driven, the third gear is enabled to drive the fourth transmission belt, the sixth movable rod is enabled to move up and down, the fifth movable rod is enabled to drive a seventh movable rod, and the second movable rod is enabled to move up, the heating plate is moved up and down, the right end of the vibrating plate can be driven by the heating plate to move up and down by the combination of the gear and the movable rod of the device, tea dust enters the tea dust storage box from the through hole, when screened tea leaves enter the tea dust storage box through the tea receiving hole, the tea leaf detection plate of the ejector rod transmission device is pressed down, the left end of the first ejector rod is pressed down, the single-side rack is lifted up to drive the first gear to rotate, the second gear drives the threaded column to rotate, a trigger switch is adopted, the structure is simple, manual operation is not needed, the device is also provided with a switch transmission device which is matched with the ejector rod transmission device, the third gear of the switch transmission device drives the second ejector rod through the work of the ejector rod transmission device, a contact plate is contacted with a resistor, the heating plate is operated with an exhaust fan, moisture in the device is evaporated, and the, the device automatically controls the operation of the heating plate and the exhaust fan through the matching with the ejector rod transmission device, in conclusion, the invention reduces the tea and fungal infection in the device through the mutual combination of the components by adding the ejector rod fixing rod, the ejector rod bearing shaft and other mechanisms when in use, so that the tea can be healthily and normally drunk, meanwhile, the moisture in the device is reduced, the color, the fragrance, the taste and the shape of the tea are kept in the original state, and the loss of the special flavor and the quality of the tea is reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a tea leaf separation device with antibacterial and moisture-proof functions.

Fig. 2 is a schematic structural view of the separation box of the present invention.

Fig. 3 is a detailed structural diagram of the separation box of the present invention.

Fig. 4 is an enlarged structural diagram a of the present invention.

Fig. 5 is an enlarged structural diagram B of the present invention.

In the figure: a vent hole-1, a safety handle-2, a tea outlet sealing plate-3, a separation box-4, a fixed foot stand-5, a supporting fixed rod-6, a supporting fixed plate-7, a tea dust inclined plate outlet-8, a control panel-9, a power box-10, a tea inlet pipe-11, a tea inlet-401, a separation box protective outer layer-402, a moisture-proof layer-403, a movable buckle-404, a fixed block-405, a through hole-406, a vibrating plate-407, a tea dust storage box-408, a motor rotating shaft-409, a motor-410, a motor shaft tooth-411, a tea dust outlet-412, a gear transmission-413, a vibration transmission device-414, a tea storage box-415, a tea receiving hole-416, a push rod transmission device-417, a tea dust outlet, A first electric wire-418, a switch transmission device-419, a second electric wire-420, a power supply-421, a third electric wire-422, a fourth electric wire-423, an air vent-424, an exhaust fan-425, a delivery pipe-426, a fan-427, a fan protection shell-428, a heating plate-429, a tea leaf detection plate-41701, a first spring-41702, a first ejector rod-41703, an ejector rod fixing rod-41704, an ejector rod bearing shaft-41705, a single-side rack-41706, a first gear-41707, a first rotating shaft-41708, a first transmission belt-41709, a second rotating shaft-41710, a second gear-41711, a threaded column-41712, a third gear-41901, a second ejector rod-41902, a third ejector rod-41903, a fourth ejector rod-41904, a limit plate-41905, a third rotating shaft-41902, Fixing plate-41906, contact plate-41907, No. five ejector rod-41908, resistor-41909, No. two spring-41910, No. one movable rod-41401, No. two movable rod-41402, No. three movable rod-41403, No. four movable rod-41404, No. five movable rod-41405, No. six movable rod-41406, No. three gear-41407, No. two transmission belt-41408, fixed rod-41409, No. four gear-41410, fixed bearing-41411, movable rod fixed block-41412, No. seven movable rod-41413, movable rod limiting tube-41414, No. three rotating shaft-41301, rotating shaft supporting rod-41302, rack-41303, No. five gear-41304, No. one transmission rod-41305, grooved pulley-41306, No. four rotating shaft-41307, No. five rotating shaft-41308, No. three transmission belt-41309, No. four rotating shaft-41309, The driving device comprises a sixth rotating shaft I-41310, a second driving rod-41311, helical teeth-41312, a sixth gear-41313, a fourth driving belt-41314, a sixth rotating shaft II-41315, a seventh rotating shaft-41316 and a fifth driving belt-41317.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution of an antibacterial and moisture-proof tea leaf separation device: the structure of the device comprises an air vent 1, a safety handle 2, a tea leaf outlet sealing cover plate 3, a separation box 4, a fixed foot stand 5, a supporting fixed rod 6, a supporting fixed plate 7, a tea dust inclined plate outlet 8, a control panel 9, a power box 10 and a tea leaf inlet pipe 11, wherein the air vent 1 is arranged at the right end above the separation box 4 and is buckled with the upper part of the right end of the separation box 4, the tea leaf outlet sealing cover plate 3 is arranged at the right end of the front side of the separation box 4 and is buckled with the right end of the front side of the separation box 4, the top surface of the tea leaf outlet sealing cover plate is provided with the safety handle 2 and is of an integrated structure with the safety handle 2, the control panel 9 is arranged at the left end of the tea leaf outlet sealing cover plate 3, the bottom surface of the tea leaf outlet sealing cover plate is welded with the top surface of the separation box 4, the tea leaf inlet pipe 11 is arranged at, with fixed foot rest 5 for integral structure, below left end is equipped with tea dust swash plate export 8, with tea dust swash plate export 8 transition fit, the welding of 8 right-hand members in tea dust swash plate export is with supporting fixed rod 6, and left end below is welded with supporting fixed plate 7, supporting fixed rod 6 and fixed foot rest 5 middle part are integral structure, supporting fixed plate 7 locates the left end of fixed foot rest 5, welds with fixed foot rest 5 left end, separator 4 includes tealeaves inlet port 401, separator protection skin 402, dampproof course 403, activity are detained 404, fixed block 405, through-hole 406, vibration board, tea dust storage box 408, motor shaft 409, motor 410, motor shaft tooth 411, tea dust export 412, gear drive 413, vibration drive 414, tealeaves storage box 415, tealeaves receiving hole 416, ejector pin drive 417, electric wire 418, switch drive 419, A second electric wire 420, a power supply 421, a third electric wire 422, a fourth electric wire 423, a vent 424, an exhaust fan 425, a delivery pipe 426, a fan 427, a fan protection shell 428, and a heating plate 429, wherein one end of the tea inlet 401 penetrates through the top surface of the separation box protection outer layer 402 to be matched with the vibration plate 407, the other end is fastened with the tea inlet pipe 11, the moisture-proof layer 403 is arranged inside the separation box protection outer layer 402 and integrated with the separation box protection outer layer 402, the left end of the fixing block 405 and the movable button 404 are integrated, one end of the vibration plate 407 and the left end of the heating plate 429 are integrated, the other end is fastened with the movable button 404, a plurality of through holes 406 are arranged inside the vibration plate, the vibration plate and the moisture-proof layer are integrated with the through holes 406, the lower part of the moisture-proof layer 408 is matched with the tea dust storage box 408, the tea dust storage box 408 is arranged at the left end of the separation box, the tea dust storage box is welded with the outer protection layer 402 of the separation box, the motor 410 is arranged at the right end of the tea dust storage box 408 and matched with the tea dust storage box 408, the right end of the motor is welded with one end of a motor rotating shaft 409, the other end of the motor rotating shaft 409 is welded with the middle part of the left end of a motor shaft tooth 411, the right end of the motor shaft tooth 411 is provided with a gear transmission device 413 which is meshed with the left end of the gear transmission device 413, the right end of the gear transmission device 413 is buckled with the left end of a vibration transmission device 414, a heating plate 429 is arranged above the vibration transmission device 414 and is welded with the middle part of the bottom surface of the heating plate 429, a tea receiving hole 416 is arranged below the right end of the heating plate 429 and is in transition fit with the right end of the heating plate 429, a tea receiving hole 416 is arranged below the tea receiving hole 415 and is of an integrated structure, the top rod transmission device 417 is arranged below the switch transmission device 419 above the right end and is meshed with one end below the switch transmission device 419, the other end of the switch transmission device 419 is welded with the power supply 421, the left end of the switch transmission device 419 is welded with one end of a first electric wire 418, the other end of the first electric wire 418 is welded with the heating plate 429, one end of a second electric wire 420 is welded with the power supply 421, the other end of the second electric wire is welded with the heating plate 429, one end of a third electric wire 422 is welded with the right end of the switch transmission device 419, the other end of the third electric wire is welded with the exhaust fan 425, one end of a fourth electric wire 423 is welded with the power supply 421, the other end of the fourth electric wire 425 is welded with the exhaust fan, the fan protection shell 428 is arranged above the heating plate 429 and is matched with the heating plate 429, a fan 427 is arranged, the top of the exhaust fan 425 is welded with an air vent 424, the air vent 424 is arranged inside the outer protection layer 402 of the separation box and is welded with the outer protection layer 402 of the separation box, the ejector rod transmission device 417 comprises a tea leaf detection plate 41701, a first spring 41702, a first ejector rod 41703, an ejector rod fixing rod 41704, an ejector rod bearing shaft 41705, a single-side rack 41706, a first gear 41707, a first rotating shaft 41708, a first transmission belt 41709, a second rotating shaft 41710, a second gear 41711 and a threaded column 41712, the middle part of the lower part of the tea leaf detection plate 41701 is welded with the first spring 41702, the right end of the lower part is provided with the first ejector rod 41703 and is buckled with one end of the first ejector rod 41703, the other end of the first ejector rod 41703 is buckled with the ejector rod fixing rod 41704, the other end of the first ejector rod 41705 is buckled with the single-side 41706 through the ejector rod bearing shaft 41705, the left end of the single-side 41706 is meshed with the first gear 41707, the, one end of the first transmission belt 41709 is buckled with the first rotating shaft 41708, the other end of the first transmission belt 41709 is buckled with the second rotating shaft 41710, the bottom surface of the second rotating shaft 41710 and the second gear 41711 are of an integrated structure, the second gear 41711 is arranged below the threaded column 41712, the upper part of the second gear 41711 is meshed with the lower part of the threaded column 41712, the upper part of the threaded column 41712 is meshed with the lower part of the switch transmission device 419, the switch transmission device 419 comprises a third gear 41901, a second ejector 41902, a third ejector 41903, a fourth ejector 41904, a limiting plate 41905, a fixing plate 41906, a contact plate 41907, a fifth ejector 41908, a resistor 41909 and a second spring 41910, the lower part of the third gear 41901 is meshed with the upper part of the ejector transmission device 417, one end of the second ejector 41902 is buckled with the top surface of the third gear 41901, the other end of the second ejector 41903 is welded with the lower part of the third ejector 41903, the upper part of the third ejector 41903 is welded with the lower part of the fourth ejector 41, the upper part of the limit plate 41905 is welded with one end of a fixed plate 41906, the other end of the fixed plate 41906 and one end of a fifth ejector rod 41908 are of an integrated structure, the other end of the fifth ejector rod 41908 is welded with the lower part of a contact plate 41907, two sides of the contact plate 41907 are matched with resistors 41909, two resistors 41909 are arranged, the second spring 41910 is arranged above the contact plate 41907 and is welded with the contact plate 41907, the gear transmission device 413 comprises a third rotating shaft 41301, a rotating shaft support rod 41302, a rack 41303, a fifth gear 41304, a first transmission belt 41305, a grooved pulley 41306, a fourth rotating shaft 41307, a fifth rotating shaft 41308, a third transmission belt 41309, a sixth rotating shaft I41310, a second transmission rod 41311, inclined teeth 41312, a sixth gear 41313, a fourth transmission belt 41314, a sixth rotating shaft II 41315, a seventh rotating shaft 41316 and a fifth transmission belt 41317, the left end of the fifth gear 41304 is meshed with shaft teeth 411 of a motor, and the right end of the first, the other end of the first transmission rod 41305 and the grooved wheel 41306 are integrated, the rack 41303 is arranged above the grooved wheel 41306, the lower part of the rack 41303 is meshed with the upper part of the grooved wheel 41306, the upper part of the rack 41306 and the rotating shaft supporting rod 41302 are integrated, the third rotating shaft 41301 and the rotating shaft supporting rod 41302 are integrated, one end of the fifth transmission belt 41317 is buckled with the third rotating shaft 41301, the other end of the fifth transmission belt 41317 is buckled with the seventh rotating shaft 41316, the top surface of the seventh rotating shaft 41316 and the sixth rotating shaft II 41315 are integrated, one end of the fourth transmission belt 41314 is buckled with the sixth rotating shaft II 41315, the other end of the fourth transmission belt 41314 is buckled with the fourth rotating shaft 41307, the fourth rotating shaft 41307 is welded with the fifth rotating shaft 41308, one end of the third transmission belt 41309 is buckled with the fifth rotating shaft 41308, the other end of the sixth rotating shaft I41310, the sixth rotating shaft I is integrated with the second transmission rod, the inclined teeth 41312 are engaged with a sixth gear 41313, the lower part of the sixth gear 41313 is buckled with the vibration transmission device 414, the vibration transmission device 414 comprises a first movable rod 41401, a second movable rod 41402, a third movable rod 41403, a fourth movable rod 41404, a fifth movable rod 41405, a sixth movable rod 41406, a third gear 41407, a second transmission belt 41408, a fixed rod 41409, a fourth gear 41410, a fixed bearing 41411, a movable rod fixed block 41412, a seventh movable rod 41413 and a movable rod limiting tube 41414, the first movable rod 41401 is crosswise buckled with the second movable rod 41402, one end of the first movable rod 41401 is arranged below the heating plate 429, the other end of the first movable rod 41410 is respectively buckled with one end of the fourth movable rod 41404 and one end of the seventh movable rod 41413, the fourth movable rod 41404 and the seventh movable rod 41413 are crosswise buckled, the other end of the fourth movable rod 41404 is welded with the movable rod 41412, and the other end of the seventh movable rod 41413 is buckled with one end of the fifth movable rod 41405, one end of the third movable rod 41403 is welded with the buckling part of the first movable rod 41401 and the fourth movable rod 41404, the other end of the third movable rod 41403 is buckled with the movable rod limiting tube 41414, one end of the sixth movable rod 41406 is buckled with the other end of the fifth movable rod 41405, the other end of the sixth movable rod 41406 is welded with the top surface of the fourth gear 41410, two fourth gears 41410 are arranged and are meshed with the third gear 41407, two fixed rods 41409 are arranged, one end of each fixed rod 41409 is welded with the fourth gear 41410, the other end of each fixed rod 41407 is welded with the third gear 41407, one end of each second transmission belt 41408 is buckled with the bottom surface of the middle part of the third gear 41407, and the other end of.

The invention is mainly characterized in that: when a user uses the device to separate tea leaves, the tea leaves are put into the separation box 4 through the tea leaf inlet pipe 11, the tea leaves fall onto the vibration plate 407, the motor 410 is driven through the control panel 9, the motor rotating shaft 409 drives the motor shaft teeth 411, the fifth gear 41304 of the gear transmission device 413 drives the first transmission rod 41305, the grooved wheel 41306 drives the rack 41303, the third rotating shaft 41301 drives the fifth transmission belt 41317, the sixth rotating shaft II 41315 drives the fourth rotating shaft 41307 through the fourth transmission belt 41314, the sixth rotating shaft I41310 drives the helical teeth 41312, the helical teeth 41312 drives the sixth gear 41313, the vibration transmission device 414 works, and the device adopts the combination of a belt and a gear to synchronously transmit.

The invention is mainly characterized in that: when the gear transmission device 413 works, the second transmission belt 41408 of the vibration transmission device 414 is driven, the third gear 41407 drives the fourth gear 41410, the sixth movable rod 41406 moves up and down, the fifth movable rod 41405 drives the seventh movable rod 41413, the second movable rod 41402 moves up and down, the heating plate 429 moves up and down, and the right end of the vibrating plate 407 can be driven by the heating plate 429 to move up and down through the combination of the gear and the movable rods of the device, so that the tea dust enters the tea dust storage box 408 from the through hole 406.

The invention is mainly characterized in that: when screened tea leaves enter the tea leaf storage box 415 through the tea leaf receiving hole 416, the tea leaf detection plate 41701 of the ejector rod transmission device 417 is pressed downwards, the left end of the first ejector rod 41703 is pressed downwards, the single-side rack 41706 is lifted to drive the first gear 41707 to rotate, the second gear 41711 drives the threaded column 41712 to rotate, a trigger switch is adopted, the structure is simple, and manual operation is not needed.

The invention is mainly characterized in that: the device is also provided with a switch transmission device 419 which is matched with the mandril transmission device 417, through the work of the mandril transmission device 417, a third gear 41901 of the switch transmission device 419 drives a second mandril 41902, a contact plate 41907 is contacted with a resistor 41909, the heating plate 429 and the exhaust fan 425 work, moisture in the device is evaporated, the moisture is discharged from the vent hole 1 through a delivery pipe 426, and through the matching with the mandril transmission device 417, the device automatically controls the work of the heating plate 429 and the exhaust fan 425.

The invention solves the problem that when the prior art is used, tea leaves are easily invaded by various fungi to damage the quality of the tea leaves, and the tea leaves seriously even go mouldy and generate various toxic metabolites so that the tea leaves cannot be drunk, and because the tea leaves are extremely easy to absorb moisture and adsorb other odors, the color, the fragrance, the taste and the shape of the tea leaves are influenced, so that the special flavor and the special quality of the tea leaves are lost.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a tealeaves separator with antibiotic dampproofing, its structure includes air vent (1), safe handle (2), tealeaves export closing cap board (3), separator box (4), fixed foot rest (5), support dead lever (6), support fixed plate (7), tea dust swash plate export (8), control panel (9), headstock (10), tealeaves admission pipe (11), the top right-hand member of separator box (4) is located in air vent (1), with separator box (4) right-hand member top lock joint, the positive right-hand member of separator box (4) is located in tealeaves export closing cap board (3), with the positive right-hand member lock joint of separator box (4), the top surface is equipped with safe handle (2), with safe handle (2) structure as an organic whole, its characterized in that:

the left end of tealeaves export closing cap board (3) is located to control panel (9), and the bottom surface welds with separator box (4) top surface, the left side of air vent (1) is located to tealeaves admission pipe (11), and the bottom surface welds with separator box (4) top surface, the left side of separator box (4) is located to headstock (10), welds with separator box (4) left side, the below of separator box (4) is equipped with fixed foot rest (5), is integrated structure with fixed foot rest (5), and the below left end is equipped with tea end swash plate export (8), with tea end swash plate export (8) transition fit, tea end swash plate export (8) right-hand member welds with support dead lever (6), and left end below welds with support fixed plate (7), support dead lever (6) and fixed foot rest (5) middle part are integrated structure, the left end of fixed foot rest (5) is located to support fixed plate (7), is welded with the left end of the fixed foot rest (5);

the separation box (4) comprises a tea inlet (401), a separation box protective outer layer (402), a moisture-proof layer (403), a movable buckle (404), a fixing block (405), a through hole (406), a vibrating plate (407), a tea dust storage box (408), a motor rotating shaft (409), a motor (410), motor shaft teeth (411), a tea dust outlet (412), a gear transmission device (413), a vibration transmission device (414), a tea storage box (415), a tea receiving hole (416), a push rod transmission device (417), a first electric wire (418), a switch transmission device (419), a second electric wire (420), a power supply (421), a third electric wire (422), a fourth electric wire (423), a vent hole (424), an exhaust fan (425), a conveying pipe (426), a fan (427), a fan protective shell (428) and a heating plate (429), wherein one end of the tea inlet (401) penetrates through the top surface of the separation box protective outer layer (402, cooperate with the vibration board (407), the other end and tealeaves admission pipe (11) lock joint, the dampproof course (403) is located inside separator box protection skin (402), and is the integral structure with separator box protection skin (402), fixed block (405) left end is detained with the activity (404) and is the integral structure, vibration board (407) one end is the integral structure with hot plate (429) left end, and the other end is detained with the activity (404) lock joint, and inside is equipped with a plurality of through-hole (406), and is the integral structure with through-hole (406), and the below cooperatees with tea dust bin (408), the left end of separator box protection skin (402) is located to tea dust bin (408), below and tea dust export (412) welding, the below left end of separator box protection skin (402) is located to tea dust export (412), with separator box protection skin (402) welding, the right-hand member of tea dust bin (408) is located to motor (410), cooperate with tea dust bin (408), the right-hand member welds with motor shaft (409) one end, motor shaft (409) other end and motor shaft tooth (411) left end middle part welding, motor shaft tooth (411) right-hand member is equipped with gear (413), meshes with gear (413) left end, gear (413)'s right-hand member and vibration transmission device (414) left end lock joint, vibration transmission device (414) top is equipped with hot plate (429), welds with hot plate (429) bottom surface middle part, tealeaves receiving hole (416) is located the right-hand member below of hot plate (429), with hot plate (429) right-hand member below transition fit, the below of tealeaves receiving hole (416) is located to tealeaves storage box (415) top, and the below of tealeaves receiving hole (416) is integrated structure, the inside ejector pin transmission device (417) that is equipped with in the below, the heating plate is in transition fit with the left end of a mandril transmission device (417), the upper part of the right end of the mandril transmission device (417) is arranged below a switch transmission device (419) and is meshed with one end below the switch transmission device (419), the other end of the switch transmission device (419) is welded with a power supply (421), the left end of the switch transmission device is welded with one end of a first wire (418), the other end of the first wire (418) is welded with a heating plate (429), one end of a second wire (420) is welded with the power supply (421), the other end of the second wire is welded with the heating plate (429), one end of a third wire (422) is welded with the right end of the switch transmission device (419), the other end of the third wire is welded with an exhaust fan (425), one end of a fourth wire (423) is welded with the power supply (421), the other end of the fourth wire is welded with the exhaust fan (425), a fan protective shell (428, the inside fan (427) that is equipped with, and be integrated structure with fan (427), the top is equipped with conveyer pipe (426), with conveyer pipe (426) one end welding, the conveyer pipe (426) other end and air exhauster (425) left end welding, air exhauster (425) top and blow vent (424) welding, blow vent (424) are located inside separator box protection skin (402), with separator box protection skin (402) welding.

2. An antibacterial and moisture-proof tea leaf separating device as claimed in claim 1, wherein: the push rod transmission device (417) comprises a tea leaf detection plate (41701), a first spring (41702), a first push rod (41703), a push rod fixing rod (41704), a push rod bearing shaft (41705), a single-side rack (41706), a first gear (41707), a first rotating shaft (41708), a first transmission belt (41709), a second rotating shaft (41710), a second gear (41711) and a threaded column (41712), wherein the middle part of the lower part of the tea leaf detection plate (41701) is welded with the first spring (41702), the right end of the lower part of the tea leaf detection plate is provided with the first push rod (41703) and is buckled with one end of the first push rod (41703), the middle part of the first push rod (41703) is provided with the push rod fixing rod (41704) and is buckled with the push rod fixing rod (41704), the other end of the tea leaf detection plate is buckled with the single-side rack (41706) through the push rod bearing shaft (41705), the left end of the single-side rack (41706) is meshed with the first gear (41707), the top surface of the, one end of the first transmission belt (41709) is buckled with the first rotating shaft (41708), the other end of the first transmission belt is buckled with the second rotating shaft (41710), the bottom surface of the second rotating shaft (41710) and the second gear (41711) are of an integrated structure, the second gear (41711) is arranged below the threaded column (41712), the upper portion of the second gear is meshed with the lower portion of the threaded column (41712), and the upper portion of the threaded column (41712) is meshed with the lower portion of the switch transmission device (419).

3. An antibacterial and moisture-proof tea leaf separating device according to claim 1 or 2, wherein: the switch transmission device (419) comprises a third gear (41901), a second ejector rod (41902), a third ejector rod (41903), a fourth ejector rod (41904), a limiting plate (41905), a fixing plate (41906), a contact plate (41907), a fifth ejector rod (41908), a resistor (41909) and a second spring (41910), wherein the lower part of the third gear (41901) is meshed with the upper part of the ejector rod transmission device (417), one end of the second ejector rod (41902) is buckled with the top surface of the third gear (41901), the other end of the second ejector rod is welded with the lower part of the third ejector rod (41903), the upper part of the third ejector rod (41903) is welded with the lower part of the fourth ejector rod (41904), the lower part of the fourth ejector rod (41904) is welded with the lower part of the limiting plate (41905), the upper part of the limiting plate (41905) is welded with one end of the fixing plate (41906), the other end of the fixing plate (41906) and one end of the fifth ejector rod (41908) are of an integrated structure, the two sides of the contact plate (41907) are matched with the resistors (41909), the number of the resistors (41909) is two, and the second springs (41910) are arranged above the contact plate (41907) and welded with the contact plate (41907).

4. An antibacterial and moisture-proof tea leaf separating device as claimed in claim 1, wherein: the gear transmission device (413) comprises a third rotating shaft (41301), a rotating shaft supporting rod (41302), a rack (41303), a fifth gear (41304), a first transmission rod (41305), a grooved pulley (41306), a fourth rotating shaft (41307), a fifth rotating shaft (41308), a third transmission belt (41309), a sixth rotating shaft I (41310), a second transmission rod (41311), helical teeth (41312), a sixth gear (41313), a fourth transmission belt (41314), a sixth rotating shaft II (41315), a seventh rotating shaft (41316) and a fifth transmission belt (41317), wherein the left end of the fifth gear (41304) is meshed with the motor shaft teeth (411), the right end of the fifth gear is welded with one end of the first transmission rod (41305), the other end of the first transmission rod (41) and the grooved pulley (41306) are of an integrated structure, the rack (41303) is arranged above the grooved pulley (41306), the lower part of the rack is meshed with the upper part of the grooved pulley (41306), and the upper part of the rotating shaft supporting rod (41302) is of an, the third rotating shaft (41301) and the rotating shaft supporting rod (41302) are of an integrated structure, one end of the fifth driving belt (41317) is buckled with the third rotating shaft (41301), the other end is buckled with the seventh rotating shaft (41316), the top surface of the No. seven rotating shaft (41316) and the No. six rotating shaft II (41315) are of an integrated structure, one end of the fourth driving belt (41314) is buckled with the sixth rotating shaft II (41315), the other end is buckled with the fourth rotating shaft (41307), the fourth rotating shaft (41307) is welded with the fifth rotating shaft (41308), one end of the third driving belt (41309) is buckled with the fifth rotating shaft (41308), the other end is buckled with the sixth rotating shaft I (41310), the six rotating shafts I (41310) and the second transmission rod (41311) are of an integrated structure, the upper part of the second transmission rod (41311) is welded with helical teeth (41312), the helical teeth (41312) are meshed with a sixth gear (41313), the lower part of the sixth gear (41313) is buckled with the vibration transmission device (414).

5. An antibacterial and moisture-proof tea leaf separating device according to claim 1 or 4, wherein: the vibration transmission device (414) comprises a first movable rod (41401), a second movable rod (41402), a third movable rod (41403), a fourth movable rod (41404), a fifth movable rod (41405), a sixth movable rod (41406), a third gear (41407), a second transmission belt (41408), a fixed rod (41409), a fourth gear (41410), a fixed bearing (41411), a movable rod fixed block (41412), a seventh movable rod (41413) and a movable rod limiting tube (41414), wherein the first movable rod (41401) is in cross buckling connection with the second movable rod (41402), one end of the first movable rod (41401) is arranged below the heating plate (41429), the other end of the first movable rod (41401) is respectively buckled with one end of the fourth movable rod (41404) and one end of the seventh movable rod (41413), the fourth movable rod (41404) and the seventh movable rod (41413) are in cross buckling connection, the other end of the fourth movable rod (41404) is welded with the movable rod fixed block (41412), the other end of the seventh movable rod (41413) is buckled with one end of the fifth movable rod (41405), one end of the third movable rod (41403) is welded with the buckling parts of the first movable rod (41401) and the fourth movable rod (41404), the other end of the third movable rod is buckled with the movable rod limiting tube (41414), one end of the sixth movable rod (41406) is buckled with the other end of the fifth movable rod (41405), the other end of the sixth movable rod is welded with the top surface of the fourth gear (41410), two fourth gears (41410) are arranged and are meshed with the third gear (41407), the fixed rod (41409) is provided with two fixed rods, one end of each fixed rod is welded with the fourth gear (41410), the other end of each fixed rod is welded with the third gear (41407), one end of each second transmission belt (41408) is buckled with the bottom surface of the middle part of the third gear (41407), and the other end of each second transmission belt is buckled with the gear transmission device (413.