CN112931667A

CN112931667A - Scenting machine

Info

Publication number: CN112931667A
Application number: CN202110267796.7A
Authority: CN
Inventors: 吴建明
Original assignee: Huzhou Jiasheng Tea Industry Co ltd
Current assignee: Huzhou Jiasheng Tea Industry Co ltd
Priority date: 2021-03-11
Filing date: 2021-03-11
Publication date: 2021-06-11

Abstract

The utility model relates to a scenting machine, which comprises a frame, be provided with hutch and feed mechanism in the frame, feed mechanism includes first conveyer belt, the alignment jig, the second conveyer belt, spill the work or material rest, rotate piece and drive assembly, first conveyer belt rotates and installs in the frame, it installs in the frame and drives first conveyer belt rotation to rotate the piece, the alignment jig rotates and installs in the frame and is connected with first conveyer belt, the second conveyer belt rotates and installs on the alignment jig, spill the work or material rest horizontal slip and install on the hutch and slide with the alignment jig and be connected, spill the work or material rest is connected with the second conveyer belt, drive assembly installs on the hutch and is connected with spilling the work or material rest. This application has the area of contact who increases tea layer and bright leaf layer, piles up bright leaf on tea layer through spilling the work or material rest, has reduced operating personnel's working strength, has improved operating personnel's work efficiency to improve scented tea production efficiency's effect.

Description

Scenting machine

Technical Field

The application relates to the technical field of scenting machines, in particular to a scenting machine.

Background

The scented tea is produced through mixing tea blank and fresh flower, stacking, and absorbing the fragrance released by the fresh flower in the stacking process to make the tea blank become scented tea with powerful fragrance.

In the related technology, when scenting scented tea, an operator firstly lays tea on a soft cloth layer, then a jasmine flower is fully paved on a tea layer, then a tea layer is paved on the jasmine flower layer, and then the jasmine flower layer and the tea layer are sequentially stacked, so that the tea layer and the jasmine flower layer are stacked in a staggered mode, and when the jasmine flower releases fragrance, the tea adsorbs the fragrance in the jasmine flower, so that the tea contains strong jasmine flower fragrance.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the tea layer and the jasmine layer are piled up in a staggered mode and manually piled up through operators, the working strength of the operators can be improved by piling up the tea layer and the jasmine layer for a long time, the working efficiency of the operators is reduced, and therefore the production efficiency of the scented tea is reduced.

Disclosure of Invention

In order to reduce operating personnel's working strength, improve operating personnel's work efficiency to improve the production efficiency of jasmine tea, this application provides a scenting machine.

The application provides a scenting machine, adopts following technical scheme:

the utility model provides a basement flower machine, includes the frame, be provided with hutch and feed mechanism in the frame, feed mechanism includes first conveyer belt, alignment jig, second conveyer belt, spills the work or material rest, rotates piece and drive assembly, first conveyer belt rotates and installs in the frame, it installs in the frame and drives first conveyer belt rotation to rotate the piece, the alignment jig rotates and installs in the frame and is connected with first conveyer belt, the second conveyer belt rotates and installs on the alignment jig, spill the work or material rest horizontal slip and install on the hutch and slide with the alignment jig and be connected, it is connected with the second conveyer belt to spill the work or material rest, drive assembly installs on the hutch and is connected with spilling the work or material rest.

By adopting the technical scheme, firstly, tea leaves are flatly laid on the lower wall of the storage box, then, fresh leaves are placed on the first conveying belt, the rotating part drives the first conveying belt to rotate, so that the first conveying belt drives the fresh leaves to move on the machine frame and slide close to the adjusting frame, the fresh leaves are moved to the second conveying belt from the first conveying belt, the second conveying belt conveys the fresh leaves to the spreading frame, so that the fresh leaves are gradually stacked on the spreading frame, the driving component drives the spreading frame to horizontally move on the storage box, so that the spreading frame can completely sweep the upper part of the storage box, thereby enabling the fresh leaves to be scattered in the storage box completely and enabling the tea layer to be in contact with the fresh leaves, thereby increased the area of contact on tealeaves layer and fresh leaf layer, piled up fresh leaf on the tealeaves layer through spilling the work or material rest, reduced operating personnel's working strength, improved operating personnel's work efficiency to the production efficiency of jasmine tea has been improved.

Optionally, the material spreading frame is provided with a material raking assembly, the material raking assembly includes two material raking rollers and a connecting member, the two material raking rollers are horizontally and rotatably mounted at two ends of the material spreading frame respectively and are parallel to each other, the connecting member is mounted on the material spreading frame and is connected with the material raking rollers, and the connecting member is connected with the driving assembly.

Through adopting above-mentioned technical scheme, when the fresh leaf is piled up on spilling the work or material rest, the fresh leaf of piling up below agglomerates the bonding easily, drive assembly takes off the material roller through the connecting piece drive and rotates, when taking off the material roller and rotating, the fresh leaf that will agglomerate the bonding stirs up, thereby can reduce the caking of fresh leaf, the fresh leaf falls on spilling the work or material rest on the time with take off the material roller contact, take off the material roller and rotate and spill the fresh leaf in the hutch from spilling the work or material rest, thereby can control the fresh leaf and spill the quantity in the hutch from spilling the work or material rest, make the tiling that the fresh leaf can be even on the tea leaf layer, reduce the waste that the fresh leaf was piled up and is produced, thereby can increase the utilization ratio of fresh leaf, reduce the frequency of fresh leaf material loading, thereby can further reduce operating personnel's.

Optionally, drive assembly includes driving motor, drive gear, bracing piece, two rolls wheel, two separation pieces and driving medium, driving motor installs on spilling the work or material rest, drive gear installs on driving motor's output shaft and is connected with the connecting piece, the bracing piece level slides and installs on the hutch and with spill the work or material rest and slide and be connected, the driving medium is installed on the bracing piece and is connected with drive gear, two roll the wheel and rotate respectively and install the both ends at the bracing piece and with hutch roll connection, two the separation piece is installed respectively in the relative both sides of hutch, two the separation piece is located the both ends of hutch respectively, take off the material roller and be connected with one of them roll wheel under driving motor's effect, take off the material roller and roll the wheel separation under the effect of separation piece.

By adopting the technical scheme, when fresh leaves are filled on the spreading frame, the driving motor drives the driving gear to rotate, and the driving gear drives the material scraping roller to rotate through the connecting piece, so that the material scraping roller can stir and disperse the caked and bonded fresh leaves; drive gear passes through the driving medium and is connected with the bracing piece, make drive gear horizontal migration on the bracing piece, drive gear drives spills the rack and moves on the bracing piece, make spills the rack and be close to on one of them roll wheel, it is connected with the roll wheel to take off the material roller, and drive gear and driving medium separation, make the roll wheel drive bracing piece horizontal migration, it moves to spill the rack when the bracing piece removes, when spilling the rack and the contact of clutch blocks, it separates with the roll wheel to take off the material roller, and drive gear is connected with the driving medium, make spills the rack slide and be close to another roll wheel, it is connected with another roll wheel to take off the material roller, thereby make spills the rack and can move according to clockwise or anticlockwise on the hutch, thereby make the rack can be on the even fresh leaf layer that tiles on.

Optionally, a pushing component is arranged on the spreading frame, the pushing component comprises a pushing plate, a rotating chain wheel, two driving chain wheels and a driving chain, the pushing plate is slidably mounted on the spreading frame, the rotating chain wheel is mounted on the pushing plate, the two driving chain wheels are rotatably mounted on the side wall of the spreading frame, the material scraping roller drives one of the driving chain wheels to rotate, the driving chain wheels are mounted on the two driving chain wheels in a meshed manner, the rotating chain wheels are meshed with the driving chain wheels, and the pushing plate rotates under the action of the rotating chain wheels.

Through adopting above-mentioned technical scheme, when the bright leaf falls to spilling the work or material rest from the second conveyer belt on, can pile up on spilling the work or material rest, the bright leaf that continues to drop is easy to be followed accumulational upper strata and is slided to both sides, make the bright leaf caking of lower floor easily, it rotates to drive one of them driving sprocket to take off the material roller when rotating, driving sprocket drives driving chain and rotates, driving chain drives rotating sprocket and rotates, rotating sprocket drives and pushes away the tie plate and rotate, push away the tie plate and rotate at spilling material rest upper level removal, thereby can stir bright leaf, make bright leaf to remove to both sides, thereby make the more even of the bright leaf tiling on spilling the work or material rest, and reduced piling up of bright leaf.

Optionally, the storage box is provided with a feeding assembly, the feeding assembly comprises a third conveyor belt, a conveying motor and a leveling piece, the third conveyor belt is rotatably installed in the storage box, the conveying motor is installed on the storage box and drives the third conveyor belt to rotate, and the leveling piece is installed in the storage box and connected with the conveying motor.

Through adopting above-mentioned technical scheme, when adding tealeaves in the hutch, put tealeaves on the third conveyer belt, conveying motor drive third conveyer belt rotates, makes the third conveyer belt drive tealeaves and gets into the hutch, and tealeaves is when the flattening piece, and the flattening piece promotes highly to be higher than the tealeaves removal of appointed height, makes the tealeaves height in getting into the hutch even, has reduced operating personnel and has piled up the required time of tiling tealeaves to operating personnel's working strength has further been reduced.

Optionally, the flattening piece includes dwang and a plurality of flattening board, the dwang horizontal rotation is installed in the hutch and is connected with the conveying motor, and is a plurality of flattening board circumference interval is installed on the dwang.

Through adopting above-mentioned technical scheme, when conveying motor drive third conveyer belt rotated, conveying motor drove the dwang and rotates, and the dwang drives the flattening board and rotates, promoted the tealeaves reverse migration that highly is higher than appointed height when the flattening board rotates to make the laying flat of tealeaves can be even in the hutch.

Optionally, an air cooler is arranged on the frame, and the air cooler faces the first conveyor belt.

Through adopting above-mentioned technical scheme, the fresh leaf can release the heat piling up with the transportation in, with the fresh leaf pile up on first conveyer belt after, the air-cooler blows cold wind to the fresh leaf, bloies through the outside and takes out the steam that produces on the fresh leaf to the phenomenon of fresh leaf high temperature has been reduced.

Optionally, a humidifying assembly is arranged in the storage box, the humidifying assembly comprises an air blower, a rotating motor, a nozzle and a water pump, the air blower is installed on the side wall of the storage box, the rotating motor is installed on the storage box and drives the air blower to rotate, the nozzle is installed at an air opening of the air blower, the water pump is installed on the rack and connected with the nozzle, and the water pump is connected with a water source.

Through adopting above-mentioned technical scheme, the tealeaves layer is at the scenting in-process, need supply air and moisture, and the water pump is pressed the water into nozzle in, rotates the motor and drives the air-blower rotation, and the air-blower blows the water smoke that the nozzle produced to can supply air and moisture in the hutch, can reduce the formation of water droplet simultaneously, reduce the adverse effect of water droplet to third conveyer belt and fresh leaf.

Optionally, the connecting piece includes connecting rod, rotating gear, two first helical gears and two second helical gears, the connecting rod horizontal rotation is installed on spilling the work or material rest, rotating gear coaxial arrangement is on the connecting rod and with the meshing of drive gear, two first helical gears respectively coaxial arrangement is at the both ends of connecting rod, two second helical gears respectively coaxial arrangement is on two raking rolls, two first helical gears mesh with two second helical gears respectively.

Through adopting above-mentioned technical scheme, when driving motor drove drive gear and rotates, drive gear drove the running gear and rotates, and running gear drives the connecting rod and rotates, drives first helical gear when the connecting rod rotates and rotates, and first helical gear drives the rotation of second helical gear to make two second helical gears drive two and take off the material roller and rotate.

Optionally, the driving medium includes driving rack, reset spring and two compact heap, the vertical slip of driving rack is installed on the bracing piece, reset spring installs on the bracing piece and is connected with driving rack, two the compact heap is installed respectively at the both ends of bracing piece, two the guide angle has all been seted up on the relative lateral wall of compact heap, driving rack meshes with drive gear under reset spring's effect, the spill feed frame is connected with one of them compact heap under drive gear's effect, driving rack separates with drive gear under the effect of compact heap.

Through adopting above-mentioned technical scheme, drive rack and drive gear meshing under reset spring's effect, drive gear produces relative displacement with drive rack when rotating to make spill the material frame can horizontal migration on the bracing piece, spill the material frame and slide and be close to one of them compact heap, spill the material frame and lead angular contact and promote compact heap and drive rack and move, drive rack overcomes reset spring's elasticity and separates with drive gear, thereby makes to spill the material frame and can slide along the length direction of hutch.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through setting up of hutch and feed mechanism, can all be spilt the bright leaf in making the hutch, pile up the bright leaf on tealeaves layer through spilling the work or material rest, reduced operating personnel's working strength, improved operating personnel's work efficiency to the production efficiency of jasmine tea has been improved.

2. Through taking off the setting of material subassembly, can stir the fresh leaf that the caking was bonded to scatter to reduce the caking of fresh leaf, can control the fresh leaf and spill the quantity in the hutch from spilling the work or material rest, make the tiling that the fresh leaf can be even on the tealeaves layer, reduce the fresh leaf and pile up the too high waste that produces, can increase the utilization ratio of fresh leaf, reduce the frequency of fresh leaf material loading, thereby can further reduce operating personnel's working strength.

3. Through pushing away the setting of flat subassembly, can stir bright leaf, make bright leaf move to both sides to it is more even that the bright leaf tiling on the material frame is spilt to the messenger, and reduces piling up and the caking of bright leaf.

4. Through the setting of feeding subassembly, make the tealeaves height that gets into in the hutch even, reduced operating personnel and piled up the required time of tiling tealeaves to operating personnel's working strength has further been reduced.

5. Through the setting of air-cooler, reduced the too high phenomenon of fresh leaf temperature.

6. Through the setting of humidification subassembly, can supply air and moisture in the hutch, can reduce the formation of water droplet simultaneously, reduce the harmful effects of water droplet to third conveyer belt and fresh leaf.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a partial perspective view of the bin and feeding assembly of the present application;

FIG. 3 is a schematic partial perspective view of the humidifying assembly of the present application;

FIG. 4 is a schematic partial perspective view of a mount, an adjustment bracket, and an air cooler of the present application;

FIG. 5 is a schematic view of a partial perspective of the loading mechanism of the present application;

FIG. 6 is a partial perspective view of the drive assembly of the present application;

fig. 7 is a partial perspective view of the raking assembly of the present application;

FIG. 8 is a partial perspective view of the connector of the present application;

FIG. 9 is a partial perspective view of the push flat assembly of the present application with the closure plate partially cut away to show internal structure.

Reference numerals: 100. a frame; 110. a storage box; 111. a third rotating shaft; 120. a mounting frame; 121. a first rotating shaft; 122. a feed hopper; 130. an air inlet frame; 131. an air cooler; 200. a feed assembly; 210. a third conveyor belt; 220. a transfer motor; 230. a leveling member; 231. rotating the rod; 232. a screed plate; 233. a synchronizing wheel; 234. a synchronous belt; 300. a humidifying assembly; 310. a blower; 320. rotating the motor; 330. a nozzle; 331. a water pipe; 340. a water pump; 410. a first conveyor belt; 420. an adjusting bracket; 421. a second rotating shaft; 422. a second motor; 430. a second conveyor belt; 440. a material spreading frame; 441. a pressure lever; 442. a feed inlet; 443. a discharge port; 444. a slide hole; 445. connecting blocks; 446. a strip-shaped hole; 450. a rotating member; 451. a first motor; 460. a strip plate; 461. a strip-shaped groove; 462. a fixed shaft; 463. a first gear; 464. a closing plate; 470. a synchronous rack; 471. a third gear; 500. a drive assembly; 510. a drive motor; 520. a drive gear; 530. a support bar; 531. mounting grooves; 540. a rolling wheel; 541. a fourth gear; 550. separating the blocks; 560. a transmission member; 561. a drive rack; 562. a return spring; 563. a compression block; 564. a lead angle; 600. a material raking component; 610. a material scraping roller; 611. a second gear; 620. a connecting member; 621. a connecting rod; 622. a rotating gear; 623. a first helical gear; 624. a second helical gear; 700. a leveling assembly; 710. pushing the flat plate; 711. a rotating rod; 720. rotating the sprocket; 730. a drive sprocket; 740. the chain is driven.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

Referring to fig. 1, the scenting machine includes a frame 100, a strip-shaped storage box 110 is horizontally and fixedly disposed on the frame 100, a third rotating shaft 111 is horizontally and rotatably disposed at two ends of the storage box 110, and the length direction of the third rotating shaft 111 is perpendicular to the length direction of the storage box 110; the storage box 110 is internally provided with a feeding assembly 200, the feeding assembly 200 comprises a third conveyor belt 210, a conveying motor 220 and a leveling member 230, the third conveyor belt 210 is sleeved on two third rotating shafts 111, the third conveyor belt 210 and the third rotating shafts 111 rotate synchronously, the conveying motor 220 is horizontally and fixedly connected to the outer side wall of the storage box 110, and an output shaft of the conveying motor 220 is coaxially and fixedly connected with one of the third rotating shafts 111, so that the conveying motor 220 drives the third conveyor belt 210 to rotate.

Referring to fig. 2, the leveling member 230 includes a rotating rod 231 and four leveling plates 232, two ends of the rotating rod 231 are respectively and horizontally rotatably connected to two opposite inner sidewalls of the storage box 110, the rotating rod 231 is parallel to the third rotating shaft 111, the leveling plates 232 are in a strip shape, the four leveling plates 232 are circumferentially spaced and fixedly connected to the sidewalls of the rotating rod 231, the leveling plates 232 are parallel to the rotating rod 231, and a gap is formed between the leveling plates 232 and the upper end surface of the third conveyor belt 210, so that tea leaves can pass through the gap; the hutch 110 is worn out to the one end level of dwang 231, and equal coaxial fixed synchronizing wheel 233 that is provided with on the output shaft of dwang 231 and conveying motor 220, the cover is equipped with hold-in range 234 on two synchronizing wheel 233 to make conveying motor 220 drive dwang 231 and rotate, and make the flattening board 232 stir highly be higher than the tealeaves antiport of appointed height.

Referring to fig. 2 and 3, a plurality of humidification assemblies 300 are horizontally disposed at intervals on the sidewall of the storage box 110, each humidification assembly 300 includes a blower 310, a rotating motor 320, a nozzle 330 and a water pump 340, the blower 310 is fixedly connected to the outer sidewall of the storage box 110, an air port of the blower 310 is communicated with the interior of the storage box 110, the rotating motor 320 is fixedly connected to the outer sidewall of the storage box 110, an output shaft of the rotating motor 320 is coaxially and fixedly connected to a rotating shaft of the blower 310, so that the rotating motor 320 drives the blower 310 to operate, the nozzle 330 is fixedly connected to the air port of the blower 310 penetrating into the storage box 110, the nozzle 330 is fixedly connected to a water pipe 331, the water pump 340 is fixedly mounted on the ground and is fixedly connected to the water pipe 331, and the water pump 340 pumps water from a water.

Referring to fig. 1, a mounting frame 120 is disposed on a rack 100, one end of the mounting frame 120 is fixedly connected to the rack 100, the other end of the mounting frame 120 is inclined upward and located above a storage box 110, and a feeding mechanism is disposed on the mounting frame 120 and includes a first conveyor 410, an adjusting frame 420, a second conveyor 430, a spreading frame 440, a rotating member 450, and a driving assembly 500.

Referring to fig. 4, three first rotating shafts 121 are horizontally and rotatably disposed on the mounting frame 120, the first conveyor belt 410 is sleeved on the three first rotating shafts 121 and rotates synchronously with the first rotating shafts 121, the rotating member 450 includes a first motor 451, the first motor 451 is fixedly connected to a side wall of the mounting frame 120, and an output shaft of the first motor 451 is coaxially and fixedly connected with one of the first rotating shafts 121, so that the first motor 451 drives the first conveyor belt 410 to rotate; a feed hopper 122 is fixedly arranged on the upper end surface of the mounting frame 120, and the feed hopper 122 is communicated with the upper surface of the conveyor belt.

Referring to fig. 4, an air inlet frame 130 is integrally disposed on an upper end surface of the mounting frame 120, an air cooler 131 is fixedly disposed on the air inlet frame 130, and the air cooler 131 blows cold air to the fresh leaves on the first conveyor 410.

Referring to fig. 4, the adjusting frame 420 is long, one end of the adjusting frame 420 is horizontally and rotatably connected to the upwardly inclined end of the mounting frame 120, the adjusting frame 420 is located above the storage box 110, the two ends of the adjusting frame 420 are both horizontally and rotatably provided with second rotating shafts 421, the second conveyor belts 430 are sleeved on the two second rotating shafts 421 and rotate synchronously with the second rotating shafts 421, and the fresh leaves fall onto the second conveyor belts 430 from the first conveyor belts 410 after being conveyed to the upper side of the storage box 110 by the first conveyor belts 410; one end of the adjusting bracket 420 close to the mounting bracket 120 is horizontally and fixedly provided with a second motor 422, and an output shaft of the second motor 422 is coaxially and fixedly connected with one of the second rotating shafts 421, so that the second motor 422 drives the second conveyor belt 430 to rotate.

Referring to fig. 2 and 5, the driving assembly 500 includes a driving motor 510, a driving gear 520, two supporting bars 530, two sets of rolling wheels 540, two separating blocks 550, and a transmission member 560; the two sets of rolling wheels 540 are respectively installed on the two supporting rods 530, each set of rolling wheels 540 comprises two rolling wheels 540, the two rolling wheels 540 are respectively installed at two ends of the supporting rods 530 in a rotating manner, the rolling wheels 540 are installed on the storage box 110 in a rolling manner, so that the two supporting rods 530 are horizontally installed on the storage box 110 in a sliding manner and are parallel to each other, and the length direction of the supporting rods 530 is perpendicular to the length direction of the storage box 110.

Referring to fig. 6, the transmission member 560 includes a driving rack 561, a plurality of return springs 562 and two pressing blocks 563, a rectangular mounting groove 531 is formed on the support rod 530 far away from the mounting bracket 120, a length direction of the mounting groove 531 is parallel to a length direction of the support rod 530, the return springs 562 are fixedly connected to a groove bottom of the mounting groove 531, and the plurality of return springs 562 are horizontally spaced at a groove bottom of the mounting groove 531 along the length direction of the support rod 530.

Referring to fig. 6, a driving rack 561 is installed on the supporting rod 530, the length direction of the driving rack 561 is parallel to the length direction of the supporting rod 530, the driving rack 561 and a limiting spring are fixedly connected to one end of the supporting rod, which is far away from the bottom of the mounting groove 531, so that the driving rack 561 is vertically slidably installed in the mounting groove 531, two compressing blocks 563 are respectively fixedly connected to two ends of the driving rack 561, and a guide angle 564 is respectively arranged on the side edge of one end, opposite to the two compressing blocks 563.

Referring to fig. 5 and 6, the material spreading frame 440 is rectangular, two ends of the lower end surface of the material spreading frame 440 are horizontally slidably mounted on two support rods 530 respectively, the length direction of the material spreading frame 440 is perpendicular to the length direction of the support rods 530, the driving motor 510 is horizontally and fixedly connected to the lower end surface of the material spreading frame 440, and the driving gear 520 is coaxially and fixedly connected to an output shaft of the driving motor 510; under the elastic force of the return spring 562, the driving rack 561 is engaged with the driving gear 520, and when the driving motor 510 drives the driving gear 520 to rotate, the driving gear 520 and the driving rack 561 move relatively, so that the driving motor 510 drives the material spreading frame 440 to move horizontally on the supporting rod 530.

Referring to fig. 5 and 6, a strip-shaped pressing rod 441 is horizontally and fixedly arranged on the lower end surface of the material spreading frame 440, the pressing rod 441 is perpendicular to the length direction of the material spreading frame 440, under the action of the driving motor 510, the pressing rod 441 is in sliding contact with one pressing block 563, the pressing rod 441 pushes the pressing block 563 downwards under the action of the guide angle 564, and the pressing block 563 drives the driving rack 561 to move downwards, so that the driving gear 520 is separated from the driving rack 561.

Referring to fig. 5 and 7, a rectangular feed inlet 442 is formed in the upper end surface of the material spreading frame 440, strip-shaped discharge outlets 443 are respectively formed at two ends of the lower end surface of the material spreading frame 440, and the discharge outlets 443 are perpendicular to the length direction of the material spreading frame 440; the upper end face of the spreading frame 440 is provided with a long strip-shaped sliding hole 444, the sliding hole 444 is parallel to the length direction of the spreading frame 440, one end of the adjusting frame 420, which is far away from the mounting frame 120, is rotatably provided with a cylindrical connecting block 445, the connecting block 445 penetrates through the sliding hole 444 and is connected with the sliding hole 444 in a sliding mode, so that the spreading frame 440 and the adjusting frame 420 are connected in a horizontal sliding mode, and the second conveying belt 430 conveys fresh leaves into the spreading frame 440.

Referring to fig. 5, the spreading frame 440 is provided with a raking assembly 600.

Referring to fig. 7 and 8, the raking assembly 600 includes two raking rollers 610 and a connecting member 620, the two raking rollers 610 are horizontally and rotatably installed in the two discharging holes 443 and are parallel to each other, the length direction of the raking rollers 610 is parallel to the length direction of the discharging holes 443, and the connecting member 620 is installed at one end of the spreading frame 440 far away from the mounting frame 120.

Referring to fig. 8, the connecting member 620 includes a connecting rod 621, a rotating gear 622, two first bevel gears 623 and two second bevel gears 624, the connecting rod 621 is horizontally and rotatably installed on the side wall of the spreading frame 440, the rotating gear 622 is coaxially and fixedly connected to one end of the connecting rod 621, the rotating gear 622 is engaged with the driving gear 520, the two first bevel gears 623 are respectively and coaxially and fixedly connected to two ends of the connecting rod 621, the two raking rollers 610 horizontally penetrate through the spreading frame 440, the two second bevel gears 624 are respectively and coaxially and fixedly connected to one end of the two raking rollers 610 penetrating through the spreading frame 440, and the two first bevel gears 623 are respectively engaged with the two second bevel gears 624, so that the driving motor 510 can simultaneously drive the two raking rollers 610 to rotate, and the raking rollers 610 push fresh leaves in the spreading frame 440 into the discharge opening 443.

Referring to fig. 7 and 9, two opposite outer side walls of the spreading frame 440 are provided with a leveling assembly 700, and the leveling assembly 700 includes a leveling plate 710, two rotating sprockets 720, two driving sprockets 730 and a driving chain 740; spill and all seted up bar hole 446 on two lateral walls that the work or material rest 440 is relative, bar hole 446 is the level form, spill all fixed being provided with bar 460 on two lateral walls that the work or material rest 440 is relative, bar 460 is the level form, has all seted up bar groove 461 on two lateral walls that bar 460 is relative, bar groove 461 and bar hole 446 intercommunication.

Referring to fig. 7 and 9, both ends of the strip-shaped groove 461 are fixedly provided with a horizontal fixing shaft 462, two driving sprockets 730 are respectively and coaxially and rotatably connected to the two fixing shafts 462, a first gear 463 is coaxially and rotatably arranged on the fixing shaft 462 far away from the mounting frame 120, the first gear 463 is coaxially and fixedly connected with the driving sprocket 730 on the same fixing shaft 462, two ends of the material scraping roller 610 far away from the mounting frame 120 are respectively and coaxially and fixedly provided with a second gear 611, and the first gear 463 is meshed with the second gear 611, so that the driving motor 510 can drive the driving chain 740 to rotate.

Referring to fig. 9, the driving chain 740 is sleeved on the two driving chain wheels 730, and the driving chain wheels 730 are engaged with the driving chain 740; a waist-shaped closing plate 464 is arranged at one end of the fixing shaft 462 far away from the strip-shaped groove 461, and two ends of the closing plate 464 are respectively fixedly connected with the two fixing shafts 462, so that the driving chain wheel 730 and the driving chain 740 are closed in the strip-shaped groove 461 by the closing plate 464.

Referring to fig. 9, a rotating rod 711 is integrally disposed on the pushing plate 710, two rotating sprockets 720 are respectively and coaxially and fixedly connected to two ends of the rotating rod 711, and two ends of the rotating rod 711 respectively and horizontally penetrate into two strip-shaped slots 461, so that the two rotating sprockets 720 are respectively engaged with two driving chains 740, and the driving sprocket 730 can drive the pushing plate 710 to rotate.

Referring to fig. 9, a synchronous rack 470 is integrally disposed on an outer side wall of the closing plate 464, a third gear 471 is coaxially and fixedly disposed on the rotating rod 711, and the third gear 471 is engaged with the synchronous rack 470, so that the leveling plate 710 can move in the spreading frame 440, and fresh leaves in the spreading frame 440 can be stirred.

Referring to fig. 2 and 5, the separating block 550 is elongated, the cross section of the separating block 550 is triangular, the two separating blocks 550 are respectively and vertically and fixedly connected to two diagonally opposite corners inside the storage box 110, and the separating blocks 550 upwardly penetrate through the storage box 110; the two rolling wheels 540 far away from the mounting frame 120 are coaxially and fixedly provided with a fourth gear 541, under the driving of the driving motor 510, the second gear 611 is meshed with the fourth gear 541, so that the fourth gear 541 drives the rolling wheels 540 to rotate on the scattering frame 440, and under the pushing action of the rolling wheels 540, the side wall of the strip-shaped plate 460 is in contact with one of the separating blocks 550, so that the second gear 611 is separated from the fourth gear 541, and the pressing rod 441 is separated from the pressing block 563.

The operating principle of the scenting machine in the embodiment of the application is as follows:

when the scenting flower tea, place tealeaves on third conveyer belt 210, conveying motor 220 drives third pivot 111 and rotates, third pivot 111 drives third conveyer belt 210 and rotates, third conveyer belt 210 drives tealeaves and moves, tealeaves is when dwang 231, conveying motor 220 drives synchronizing wheel 233 and rotates, synchronizing wheel 233 drives dwang 231 and rotates, dwang 231 drives screed 232 and rotates, promote highly being higher than the tealeaves reverse migration of appointed height when screed 232 rotates, thereby make the flattening that tealeaves can be even in hutch 110.

Place the fresh leaves again in feeder hopper 122, first motor 451 drives first pivot 121 and rotates, and first pivot 121 drives first conveyer belt 410 and rotates, and first conveyer belt 410 drives the fresh leaves and removes, makes the fresh leaves remove the upper end of mounting bracket 120, and the in-process that the fresh leaves removed on first conveyer belt 410 starts air-cooler 131, and air-cooler 131 blows the cold wind to the fresh leaves on first conveyer belt 410 to can blow away the heat that the fresh leaves produced.

The first conveyor belt 410 conveys the fresh leaves to the second conveyor belt 430, and the second conveyor belt 430 conveys the fresh leaves to the spreading frame 440; under the elastic force of the return spring 562, the driving rack 561 is engaged with the driving gear 520, the driving motor 510 is started, the driving gear 520 is driven by the driving motor 510 to rotate, the driving gear 520 and the driving rack 561 generate relative displacement, so that the driving motor 510 drives the material scattering frame 440 to horizontally move on the storage box 110 and to be close to the side wall of one side of the material scattering frame 440.

The driving gear 520 drives the rotating gear 622 to rotate, the rotating gear 622 drives the connecting rod 621 to rotate, the connecting rod 621 drives the two first bevel gears 623 to rotate, the two first bevel gears 623 drive the two second bevel gears 624 to rotate, the second bevel gears 624 drive the scraping roller 610 to rotate, the scraping roller 610 pushes the fresh leaves in the spreading frame 440 to the discharge port 443, and the fresh leaves in the spreading frame 440 fall into the storage box 110.

When the material scraping roller 610 rotates, the two second gears 611 are driven to rotate, the second gears 611 drive the first gears 463 to rotate, the first gears 463 drive the driving chain wheel 730 to rotate, the driving chain wheel 730 drives the driving chain 740 to rotate, the driving chain 740 drives the rotating chain wheel 720 to rotate, the rotating chain wheel 720 drives the rotating rod 711 to rotate, the rotating rod 711 drives the third gear 471 to rotate, the third gear 471 and the synchronous rack 470 move relatively, the pushing plate 710 can rotate and move in the material scattering frame 440, and the pushing plate 710 is enabled to stir fresh leaves in the material scattering frame 440.

When the material spreading frame 440 is close to the side wall of one side of the storage box 110, the pressure rod 441 is in contact with the guide angle 564 on the pressing block 563, the pressure rod 441 pushes the pressing block 563 downwards, the pressing block 563 overcomes the elastic force of the return spring 562 and drives the driving rack 561 to move downwards, and therefore the driving gear 520 is separated from the driving rack 561; when the second gear 611 is engaged with the fourth gear 541, the second gear 611 drives the fourth gear 541 to rotate, so that the rolling wheel 540 rotates on the material spreading frame 440, and the material spreading frame 440 horizontally slides along the length direction of the storage box 110.

When the side wall of the strip-shaped plate 460 contacts the separating block 550, the spreading frame 440 moves in the width direction of the storage box 110 under the action of the separating block 550, so that the second gear 611 and the fourth gear 541 are separated, the pressing rod 441 and the pressing block 563 are separated, the driving rack 561 is meshed with the driving gear 520 again under the action of the elastic force of the return spring 562, the driving motor 510 rotates in the reverse direction, the spreading frame 440 continues to move in the width direction of the storage box 110, the spreading frame 440 moves to the other side of the storage box 110, the spreading frame 440 moves on the storage box 110 in the clockwise direction or the counterclockwise direction, and therefore a layer of fresh leaves can be uniformly spread above the tea leaves in the storage box 110.

In the scenting process, air and moisture are needed to be supplemented into the storage box 110, the water pump 340 presses water into the nozzle 330, the rotating motor 320 drives the air blower 310 to rotate, the air blower 310 blows water mist generated by the nozzle 330 into the storage box 110, the air and the moisture in the storage box 110 can be supplemented, the temperature in the storage box 110 can be reduced, meanwhile, the formation of water drops can be reduced, and the adverse effects of the water drops on the third conveyor belt 210, fresh leaves and tea leaves are reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The scenting machine comprises a rack (100), and is characterized in that: the rack (100) is provided with a storage box (110) and a feeding mechanism, the feeding mechanism comprises a first conveyor belt (410), an adjusting frame (420), a second conveyor belt (430), a material spreading frame (440), a rotating member (450) and a driving assembly (500), the first conveyor belt (410) is rotatably arranged on the frame (100), the rotating part (450) is arranged on the frame (100) and drives the first conveyor belt (410) to rotate, the adjusting frame (420) is rotatably arranged on the frame (100) and is connected with the first conveyor belt (410), the second conveyor belt (430) is rotatably arranged on the adjusting frame (420), the material spreading frame (440) is horizontally arranged on the storage box (110) in a sliding way and is connected with the adjusting frame (420) in a sliding way, the spreading frame (440) is connected with the second conveyor belt (430), and the driving assembly (500) is installed on the storage box (110) and connected with the spreading frame (440).

2. The scenting machine as claimed in claim 1, wherein: the material spreading frame (440) is provided with a material spreading assembly (600), the material spreading assembly (600) comprises two material spreading rollers (610) and a connecting piece (620), the two material spreading rollers (610) are horizontally and rotatably arranged at two ends of the material spreading frame (440) respectively and are parallel to each other, the connecting piece (620) is arranged on the material spreading frame (440) and is connected with the material spreading rollers (610), and the connecting piece (620) is connected with a driving assembly (500).

3. The scenting machine as claimed in claim 2, wherein: the driving assembly (500) comprises a driving motor (510), a driving gear (520), a supporting rod (530), two rolling wheels (540), two separating blocks (550) and a transmission piece (560), the driving motor (510) is installed on the material scattering frame (440), the driving gear (520) is installed on an output shaft of the driving motor (510) and is connected with a connecting piece (620), the supporting rod (530) is horizontally installed on the storage box (110) in a sliding mode and is connected with the material scattering frame (440) in a sliding mode, the transmission piece (560) is installed on the supporting rod (530) and is connected with the driving gear (520), the two rolling wheels (540) are respectively installed at two ends of the supporting rod (530) in a rotating mode and are connected with the storage box (110) in a rolling mode, the two separating blocks (550) are respectively installed at two opposite sides of the storage box (110), and the two separating blocks (550) are respectively located at two ends of the storage box (, the material scraping roller (610) is connected with one rolling wheel (540) under the action of the driving motor (510), and the material scraping roller (610) is separated from the rolling wheel (540) under the action of the separating block (550).

4. The scenting machine as claimed in claim 2, wherein: it pushes away flat subassembly (700) to spill to be provided with on work or material rest (440), push away flat subassembly (700) including pushing away flat board (710), rotating sprocket (720), two driving sprocket (730) and drive chain (740), it installs on spilling work or material rest (440) to push away flat board (710) and slide, rotating sprocket (720) are installed on pushing away flat board (710), two driving sprocket (730) rotate and install on the lateral wall of spilling work or material rest (440), it rotates to take off one of them driving sprocket (730) of roller (610) drive, drive chain (740) meshing is installed on two driving sprocket (730), rotating sprocket (720) and drive chain (740) meshing, it rotates under rotating sprocket (720)'s the effect to push away flat board (710).

5. The scenting machine as claimed in claim 1, wherein: the feeding assembly (200) is arranged on the storage box (110), the feeding assembly (200) comprises a third conveyor belt (210), a conveying motor (220) and a flattening piece (230), the third conveyor belt (210) is rotatably installed in the storage box (110), the conveying motor (220) is installed on the storage box (110) and drives the third conveyor belt (210) to rotate, and the flattening piece (230) is installed in the storage box (110) and connected with the conveying motor (220).

6. The scenting machine as claimed in claim 5, wherein: flattening piece (230) are including dwang (231) and a plurality of flattening board (232), dwang (231) horizontal rotation is installed in hutch (110) and is connected with transfer motor (220), and is a plurality of flattening board (232) circumference interval is installed on dwang (231).

7. The scenting machine as claimed in claim 1, wherein: the air cooler is characterized in that an air cooler (131) is arranged on the rack (100), and the air cooler (131) faces the first conveyor belt (410).

8. The scenting machine as claimed in claim 1, wherein: the improved humidifying device is characterized in that a humidifying component (300) is arranged in the storage box (110), the humidifying component (300) comprises a blower (310), a rotating motor (320), a nozzle (330) and a water pump (340), the blower (310) is installed on the side wall of the storage box (110), the rotating motor (320) is installed on the storage box (110) and drives the blower (310) to rotate, the nozzle (330) is installed at an air opening of the blower (310), the water pump (340) is installed on the rack (100) and connected with the nozzle (330), and the water pump (340) is connected with a water source.

9. The scenting machine as claimed in claim 2, wherein: connecting piece (620) includes connecting rod (621), rotating gear (622), two first helical gears (623) and two second helical gears (624), connecting rod (621) horizontal rotation is installed on spilling work or material rest (440), rotating gear (622) coaxial arrangement on connecting rod (621) and with drive gear (520) meshing, two first helical gear (623) coaxial arrangement respectively at the both ends of connecting rod (621), two second helical gear (624) coaxial arrangement respectively on two raking rolls (610), two first helical gear (623) mesh with two second helical gears (624) respectively.

10. The scenting machine as claimed in claim 3, wherein: the transmission part (560) comprises a driving rack (561), a reset spring (562) and two pressing blocks (563), the driving rack (561) is vertically slidably mounted on the supporting rod (530), the reset spring (562) is mounted on the supporting rod (530) and connected with the driving rack (561), the two pressing blocks (563) are mounted at two ends of the supporting rod (530) respectively, guide angles (564) are formed in the side walls, opposite to the two pressing blocks (563), of the two pressing blocks (563), the driving rack (561) is meshed with the driving gear (520) under the action of the reset spring (562), the material scattering frame (440) is connected with one of the pressing blocks (563) under the action of the driving gear (520), and the driving rack (561) is separated from the driving gear (520) under the action of the pressing blocks (563).