CN109225423B

CN109225423B - Poppy processing device based on power shell breaking and repeated turning for promoting seed discharge

Info

Publication number: CN109225423B
Application number: CN201810951232.3A
Authority: CN
Inventors: 李芳军
Original assignee: Hangzhou Zhike Technology Co Ltd
Current assignee: Hangzhou Zhike Technology Co.,Ltd.
Priority date: 2018-08-21
Filing date: 2018-08-21
Publication date: 2020-11-20
Anticipated expiration: 2038-08-21
Also published as: CN112090493A; CN109225423A

Abstract

The invention discloses a poppy processing device for promoting seed discharge based on power shell breaking and repeated turning, and relates to the technical field of poppy. This break shell and stir repeatedly based on power and promote poppy processingequipment of seed grain exhaust, which comprises a bod, the top fixed mounting of organism has driving motor, and driving motor's output shaft runs through the interior top of organism and is connected with drive mechanism, and drive mechanism sets up at the interior top of organism, and drive mechanism's the left and right sides is connected with two break shell stirring mechanism respectively, two break shell stirring mechanism fixed mounting is in the left and right sides of organism inner chamber respectively. This poppy processingequipment based on power breaks shell and overturns repeatedly and promote seed grain discharge through setting up driving motor and drive mechanism to and broken shell stirring mechanism, swing mechanism and reciprocating motion mechanism's cooperation setting, replaced the traditional processing method of artifical seed extraction, and solved the problem that lacks a poppy seed extraction processingequipment among the prior art.

Description

Poppy processing device based on power shell breaking and repeated turning for promoting seed discharge

Technical Field

The invention relates to the technical field of poppy, in particular to a poppy processing device for promoting seed discharge by breaking shells and repeatedly turning based on power.

Background

Poppy seeds are used for seasoning or pharmacy, and the dehydrated poppy seeds are basically extracted by manually destroying a part of a shell and pouring out the seeds, so that a lot of time and labor are consumed, and if the seeds are completely discharged, workers spend more time for extracting the seeds, so that the seed extracting efficiency of the poppy seeds is reduced, and the prior art lacks of a processing device for extracting the seeds of the poppy seeds.

If the Chinese authorized invention discloses the following numbers: CN 105457717A's an extrusion rejuvenator, which comprises a frame, a housing, be equipped with an outer screen section of thick bamboo and an interior screen section of thick bamboo in the inner chamber of casing, the axial direction line of the outer screen section of thick bamboo that cup joints each other and an interior screen section of thick bamboo coincides mutually, an interior screen section of thick bamboo is connected with the pivot, sets up reverse dogtooth on an outer screen section of thick bamboo inner wall, and the shell of different granularities can be collected to the discharge gate between from an outer screen section of thick bamboo discharge gate, an interior screen section of thick bamboo discharge gate, a screen section of thick bamboo, but the device.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a poppy processing device for promoting the discharge of seeds by breaking shells and repeatedly turning based on power, and solves the problem that the prior art lacks a processing device for taking the seeds from the poppy.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a break shell and stir repeatedly and promote seed grain exhaust poppy processingequipment based on power, includes the organism, the middle part fixed mounting at organism top has driving motor, and driving motor's output shaft runs through the interior top of organism and is connected with drive mechanism, drive mechanism sets up at the interior top of organism, and drive mechanism's the left and right sides is connected, two with two broken shell rabbling mechanisms respectively broken shell rabbling mechanisms fixed mounting is in the left and right sides of internal chamber of organism respectively, and two broken shell rabbling mechanism's below is equipped with the box, the middle part of bottom fixed connection in the organism of box.

The movable groove has all been seted up to the left and right sides at box top, and two movable grooves all communicate with the inner chamber of box, the pan feeding mouth has been seted up at the middle part at box top, and the inner chamber intercommunication of pan feeding mouth and box, the inner chamber middle part of box is provided with the sieve, and the left and right sides of sieve all is connected with reciprocating motion mechanism, two reciprocating motion mechanism's the mutually opposite in body one side of back of the body is connected with two swing mechanism respectively, and two swing mechanism are connected with two broken shell rabbling mechanisms respectively.

The reciprocating mechanism's bottom fixedly connected with telescopic bracket one side's top, and the bottom fixed connection at the telescopic bracket back is in the inner wall rear side of organism, the positive upper and lower both sides of telescopic bracket respectively with reset spring's upper and lower both ends fixed connection, the inner chamber bottom of box is provided with collects the box, and collects the below of box and be the form of arranging and set up and help the pulley, help the top of pulley and the bottom sliding connection who collects the box, and help pulley movable mounting on the interior bottom of box.

The top fixedly connected with pan feeding case at the organism back, and the inner chamber bottom and the stock guide intercommunication of pan feeding case, the front of stock guide runs through the back of organism and extends to the top of pan feeding mouth, and the relative position of collecting the box of organism inner wall front side articulates there is the door, the door is carried on the back one side of collecting the box mutually and is run through the front of organism, the discharge gate has been seted up to the front side of sieve, and the discharge gate is seted up in the front of box, the discharge gate runs through the front of box and organism, and the below of discharge gate is provided with row's flitch, arrange flitch fixed connection in the front of organism.

Preferably, the transmission mechanism comprises a driving gear, a driven gear, a transmission rod, a bearing seat, a longitudinal bevel gear and a transverse bevel gear.

Preferably, the middle part fixed connection at driving gear top is on driving motor's output shaft, and the left and right sides of driving gear respectively with two driven gear meshing, two the drive rod has all been alternate in the driven gear, and all the cover is equipped with the bearing frame on two drive rods, two the top of bearing frame is fixed mounting respectively in the left and right sides at top in the organism, two the back of the body one end of carrying on the back of the body of drive rod has all been cup jointed vertical conical gear, and the bottom of two vertical conical gear all meshes horizontal conical gear.

Preferably, the shell breaking and stirring mechanism comprises a transmission shaft, a ball shaft seat, a fluted disc, a worm, a ball shaft, a first pulley, a first transmission belt, a second pulley, a rotating shaft, a second transmission belt, a driven shaft, a crushing wheel, a transmission gear, a pin shaft connecting piece, an inclined toothed ring, an inclined rod, a first bending connecting piece, a ball bearing, a stabilizing block, a curved surface ring, an inner curved groove ring piece and a stirring plate.

Preferably, the top end of the transmission shaft is longitudinally inserted into the transverse conical gear, the middle section of the transmission shaft is sleeved with a ball shaft seat, the back surface of the ball shaft seat is fixedly connected to the rear side of the inner wall of the machine body, the transmission shaft is sleeved with a fluted disc, the right side of the fluted disc of the left shell breaking stirring mechanism is meshed with the left side of the worm, the front end and the rear end of the worm are respectively movably mounted on the front side and the rear side of the inner wall of the machine body through two ball shafts, the front end of the worm is sleeved with a first pulley, the first pulley is sleeved with one end of a first transmission belt, a second pulley is arranged below the first pulley, the second pulley is sleeved with the other end of the first transmission belt, a rotating shaft is inserted into the second pulley, the front end and the rear end of the rotating shaft are respectively movably connected to the front side and the rear side of the inner wall of the machine body, the second pulley is sleeved with one end of a second, the front end and the rear end of the driven shaft are respectively movably connected to the front side and the rear side of the inner wall of the machine body, crushing wheels are sleeved on the driven shaft and are positioned above the feeding port, the right side of the worm of the left shell breaking stirring mechanism is meshed with the left side of the transmission gear, the transmission gear is sleeved on the pin shaft connecting piece, the back side of the pin shaft connecting piece is fixedly connected to the rear side of the inner wall of the machine body, one side, opposite to the worm, of the transmission gear is meshed with an inclined toothed ring, an inclined rod penetrates through the inclined toothed ring, the top end of the inclined rod is fixedly connected with the bottom of the first bending connecting piece, a ball bearing is sleeved on the first bending connecting piece, the back side of the ball bearing is fixedly connected to the rear side of the inner wall of the machine body, a stabilizing block is fixedly connected to the top end of the first bending connecting piece, and two curved rings, and the opposite sides of the two curved rings are respectively connected with the opposite sides of the two inner curved groove ring pieces in a sliding manner, and the bottom ends of the inclined rods penetrate through the movable grooves and extend into the box body to be sleeved with the stirring plates.

Preferably, the swing mechanism comprises a second bending connecting piece, a connecting rod, a swing piece, a swing rod, a sleeve ring, a sleeve block and a fixing piece.

Preferably, the connecting piece is buckled to one side fixedly connected with second of transmission shaft bottom, and the bottom fixedly connected with connecting rod of the connecting piece is buckled to the second, the one end fixedly connected with swing piece of the connecting piece is buckled to the second is kept away from to the connecting rod, and the one end of fixedly connected with swinging arms on the swing piece, the middle part fixedly connected with lantern ring of swinging arms, and the lantern ring is interior to alternate there is the nested piece, the rear end fixedly connected with stationary blade of nested piece, and one side fixed connection of the nested piece that the stationary blade carried on the back mutually is at the inner wall rear side of organism.

Preferably, the reciprocating mechanism comprises a connecting shaft, a fixed frame plate, a sliding block, a sliding groove, a sliding sleeve, a sliding rod, a connecting plate, a guide pulley, a guide sliding groove, a compression spring, a guide sliding block and a guide sliding rod.

Preferably, the front end and the rear end of the connecting shaft are respectively movably connected with the front side and the rear side of the inner wall of the fixed frame plate, the connecting shaft is sleeved with one end of a swinging rod away from the swinging piece, the right end of the fixed frame plate of the reciprocating motion mechanism on the left side is sleeved with a sliding block, the left side and the right side of the box body are respectively provided with a sliding groove, the two sliding grooves penetrate through the inner wall of the box body, the front side and the rear side of the sliding block are respectively fixedly connected with a sliding sleeve, the two sliding sleeves are longitudinally inserted with the sliding rod, the upper end and the lower end of the two sliding rods are respectively fixedly connected with the upper side and the lower side of the inner wall of the sliding groove, the top of one end of the sliding block positioned in the box body is fixedly connected with a connecting plate, the top of one side of the connecting plate opposite, left reciprocating motion mechanism the right side fixedly connected with compression spring of fixed deckle board, and compression spring back of the body one end fixed connection of fixed deckle board on the back is on the inner wall of sliding block, the slider is led to the equal fixedly connected with in both sides about fixed deckle board is located the sliding block, and leads in the slider all vertically to alternate and lead the slide bar, two lead the slide bar about both ends respectively with the equal fixed connection in the left and right sides of sliding block inner wall.

Preferably, the front end of the sieve plate is inclined downwards, and the top of the sieve plate is a wavy surface.

(III) advantageous effects

The invention provides a poppy processing device for breaking shells and repeatedly turning to promote seed discharge based on power. The method has the following beneficial effects:

(1) this based on power broken shell and turn repeatedly and promote seed grain exhaust poppy processingequipment, through setting up driving motor and drive mechanism, and broken shell rabbling mechanism, the cooperation setting of swing mechanism and reciprocating motion mechanism, thereby can make broken shell rabbling mechanism operate and break the shell to the poppy, simultaneously can turn over the poppy after breaking the shell in the box and stir, thereby the discharge of remaining seed grain in the casing has been promoted, the device has effectively improved the extraction effect to the poppy seed grain, the traditional processing method of artifical seed getting has been replaced, and the problem that lacks a poppy seed getting processingequipment among the prior art has been solved.

(2) This based on power broken shell and turn repeatedly and promote seed grain exhaust poppy processingequipment, through set up broken wheel in broken shell rabbling mechanism, thereby smash the poppy shell when can making broken wheel function, thereby make shell after the breakage and seed grain arrange into in the box via the pan feeding mouth, the shell after the breakage in the box is stirred through the cooperation setting of oblique form pole and stirring board simultaneously, thereby continuously change the position and the orientation that the shell located, further promoted remaining seed grain in the shell to take turns the breach discharge that the cutting caused via the breakage, the device has guaranteed the effect of drawing of seed grain.

(3) This based on power broken shell and turn repeatedly and promote seed grain exhaust poppy processingequipment, through setting up swing mechanism and reciprocating motion mechanism, and the cooperation setting of sieve, thereby drive the sieve and reciprocate in the box when making swing mechanism and reciprocating motion mechanism function, make and arrange into the shell in the box via the pan feeding mouth and pile up on the sieve, make the sieve drive the shell up-and-down motion in reciprocating motion, thereby make the shell promote remaining seed grain in the shell to discharge when change state, the device's the quality of getting seed efficiency and poppy seed grain has effectively been improved, and the production cost is reduced.

(4) This poppy processingequipment based on power broken shell and promote seed grain exhaust stirs repeatedly through setting up driving motor to and drive mechanism's cooperation setting, thereby can only drive broken shell rabbling mechanism, swing mechanism and reciprocating motion mechanism operation through driving motor operation, greatly reduced the device's energy resource consumption, effectively reduced the device's manufacturing cost simultaneously.

(5) This based on power broken shell and turn repeatedly and promote seed grain exhaust poppy processingequipment, through set up oblique form ring gear in broken shell rabbling mechanism, oblique form pole, first bending connecting piece and ball bearing, and the cooperation setting of curved surface ring sum inner curve groove ring spare, thereby can make drive gear drive oblique form pole when rotating and make eccentric rotation in the curved groove ring spare including, the cooperation setting through stirring the board simultaneously can be at the box circumferential motion, further improved the rotation area of stirring the board in the box, thereby make the shell on the sieve turn on a large scale, greatly improved the device to the internal residual seed grain's of shell extraction effect.

(6) This poppy processingequipment based on power broken shell and promote seed grain discharge overturns repeatedly, through set up the sieve in the box to and the special design of sieve shape, thereby can make the shell on the sieve roll downwards through inertia and discharge from the internal and arrange to arrange the flitch via the discharge gate, the special design through the wave face can make the shell pause two to three times at the roll-off in-process simultaneously, thereby can avoid the shell once only to lead to the seed grain incomplete condition to appear from the internal discharge of machine when guaranteeing the device to collect the effect to seed grain.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 1 at C;

FIG. 6 is an enlarged view of the structure of FIG. 1 at D according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 1 at E according to the present invention;

figure 8 is a side view of a screen panel of the present invention.

In the figure: 1 machine body, 2 driving motors, 3 transmission mechanisms, 4 shell breaking stirring mechanisms, 5 box bodies, 6 movable grooves, 7 feeding ports, 8 sieve plates, 9 swing mechanisms, 10 reciprocating mechanisms, 11 expansion frames, 12 return springs, 13 collecting boxes, 14 auxiliary pulleys, 15 feeding boxes, 16 guide plates, 17 machine doors, 18 discharging ports, 19 discharging plates, 31 driving gears, 32 driven gears, 33 transmission rods, 34 bearing seats, 35 longitudinal conical gears, 36 transverse conical gears, 401 transmission shafts, 402 ball shaft seats, 403 fluted discs, 404 worms, 405 ball shafts, 406 first pulleys, 407 first transmission belts, 408 second pulleys, 409 rotating shafts, 410 second transmission belts, 411 driven shafts, 412 crushing wheels, 413 transmission gears, 414 pin shaft connectors, 415 skewed tooth rings, 416 skewed rods, 417 first bent connectors, 418 ball bearings, 419 stable blocks, 420 curved rings, 421 curved groove ring pieces, 7 inner curved groove ring pieces, 422 stirring board, 91 second bending connecting piece, 92 connecting rod, 93 swinging piece, 94 swinging rod, 95 lantern ring, 96 sleeve block, 97 fixing piece, 1001 connecting shaft, 1002 fixing frame board, 1003 sliding block, 1004 sliding groove, 1005 sliding sleeve, 1006 sliding rod, 1007 connecting board, 1008 guide pulley, 1009 guide sliding groove, 1010 compression spring, 1011 guide slider and 1012 guide sliding rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a break shell and stir repeatedly and promote seed grain exhaust poppy processingequipment based on power, includes organism 1, the middle part fixed mounting at 1 top of organism has driving motor 2, and driving motor 2's output shaft runs through organism 1's interior top and is connected with drive mechanism 3, drive mechanism 3 sets up at organism 1's interior top, and drive mechanism 3's the left and right sides is connected with two shell breaking stirring mechanism 4 respectively, two shell breaking stirring mechanism 4 is fixed mounting in the left and right sides of 1 inner chamber of organism respectively, and the below of two shell breaking stirring mechanism 4 is equipped with box 5, the middle part of bottom fixed connection in organism 1 of box 5.

The poppy breaking machine is characterized in that the left side and the right side of the top of the box body 5 are both provided with movable grooves 6, the two movable grooves 6 are communicated with an inner cavity of the box body 5, the middle of the top of the box body 5 is provided with a feeding port 7, the feeding port 7 is communicated with the inner cavity of the box body 5, the middle of the inner cavity of the box body 5 is provided with a sieve plate 8, the left side and the right side of the sieve plate 8 are both connected with reciprocating mechanisms 10, the front end of the sieve plate 8 inclines downwards, the top of the sieve plate 8 is a wavy surface, the opposite sides of the two reciprocating mechanisms 10 are respectively connected with two swinging mechanisms 9, the two swinging mechanisms 9 are respectively connected with the two poppy breaking stirring mechanisms 4, the driving motor 2 and the transmission mechanism 3 are arranged, and the poppy breaking stirring mechanisms 4, the swinging mechanisms 9 and the reciprocating mechanisms 10 are arranged in a matched manner, so that the poppy breaking stirring mechanisms 4 can break the poppy and can, thereby promoted the discharge of remaining seed grain in the casing, effectively improved the device to the effect of drawing of poppy seed grain, replaced the traditional processing method of artifical seed grain, and solved the problem that lacks a poppy seed grain processingequipment among the prior art, through setting up driving motor 2, and drive mechanism 3's cooperation sets up, thereby can only drive broken shell stirring mechanism 4 through driving motor 2 operation, swing mechanism 9 and reciprocating motion mechanism 10 function, the energy resource consumption of the device has greatly been reduced, the manufacturing cost of the device has effectively been reduced simultaneously.

The bottom fixedly connected with telescopic bracket 11 one side of reciprocating motion mechanism 10's top, and the bottom fixed connection at the telescopic bracket 11 back is in the inner wall rear side of organism 1, the positive upper and lower both sides of telescopic bracket 11 respectively with reset spring 12's upper and lower both ends fixed connection, the inner chamber bottom of box 5 is provided with collects box 13, and the below of collecting box 13 is row form and is provided with helper pulley 14, helper pulley 14's top and the bottom sliding connection who collects box 13, and helper pulley 14 movable mounting is on the interior bottom of box 5.

The top of the back of the machine body 1 is fixedly connected with a feeding box 15, the bottom of an inner cavity of the feeding box 15 is communicated with a guide plate 16, the front of the guide plate 16 penetrates through the back of the machine body 1 and extends to the upper part of a feeding port 7, a machine door 17 is hinged to the position of a collecting box 13 on the front side of the inner wall of the machine body 1, one side of the collecting box 13, opposite to the machine door 17, penetrates through the front of the machine body 1, a discharging port 18 is opened at the front side of the sieve plate 8, the discharging port 18 is opened in the front of the box body 5, the discharging port 18 penetrates through the front of the box body 5 and the front of the machine body 1, a discharging plate 19 is arranged below the discharging port 18, the discharging plate 19 is fixedly connected to the front of the machine body 1, the sieve plate 8 is arranged in the box body 5, and the special design of the shape of the sieve plate 8 is adopted, so that shells on the sieve plate, meanwhile, the nut shells can be stopped for two to three times in the rolling process through the special design of the wavy surface, so that the seed collecting effect of the device can be guaranteed, and the condition that the seed is incompletely discharged due to the fact that the nut shells are discharged from the machine body 1 at one time can be avoided.

Drive mechanism 3 includes driving gear 31, driven gear 32, transfer line 33, bearing frame 34, vertical conical gear 35 and horizontal conical gear 36, the middle part fixed connection at driving gear 31 top is on driving motor 2's output shaft, and the left and right sides of driving gear 31 meshes with two driven gear 32 respectively, two all the interlude has transfer line 33 in the driven gear 32, and all overlaps on two transfer lines 33 and is equipped with bearing frame 34, two the top of bearing frame 34 is the left and right sides at top in organism 1 fixed mounting respectively, two vertical conical gear 35 has all been cup jointed to the back of the body one end of transfer line 33 mutually, and the bottom of two vertical conical gear 35 all meshes has horizontal conical gear 36.

The shell breaking and stirring mechanism 4 comprises a transmission shaft 401, a ball shaft seat 402, a fluted disc 403, a worm 404, a ball shaft 405, a first pulley 406, a first transmission belt 407, a second pulley 408, a rotating shaft 409, a second transmission belt 410, a driven shaft 411, a breaking wheel 412, a transmission gear 413, a pin shaft connector 414, a bevel-shaped toothed ring 415, a bevel-shaped rod 416, a first bent connector 417, a ball bearing 418, a stabilizing block 419, a curved ring 420, an inner curved groove ring 421 and a stirring plate 422.

The top end of the transmission shaft 401 is longitudinally inserted into the transverse conical gear 36, the middle section of the transmission shaft 401 is sleeved with a ball shaft seat 402, the back surface of the ball shaft seat 402 is fixedly connected to the rear side of the inner wall of the machine body 1, the transmission shaft 401 is sleeved with a fluted disc 403, the right side of the fluted disc 403 of the shell breaking stirring mechanism 4 on the left side is meshed with the left side of a worm 404, the front end and the rear end of the worm 404 are respectively movably installed on the front side and the rear side of the inner wall of the machine body 1 through two ball shafts 405, the front end of the worm 404 is sleeved with a first pulley 406, one end of a first transmission belt 407 is sleeved on the first pulley 406, a second pulley 408 is arranged below the first pulley 406, the other end of the first transmission belt 407 is sleeved on the second pulley 408, a rotating shaft 409 is inserted into the second pulley 408, and the front end and the rear end of the rotating shaft 409 are, one end of a second transmission belt 410 is sleeved on the second pulley 408, the inner surface of the other end of the second transmission belt 410 is in sliding connection with the side surface of a driven shaft 411, the front end and the rear end of the driven shaft 411 are respectively movably connected to the front side and the rear side of the inner wall of the machine body 1, crushing wheels 412 are sleeved on the driven shaft 411, the two crushing wheels 412 are both positioned above the feeding port 7, the right side of the worm 404 of the shell-breaking stirring mechanism 4 on the left side is meshed with the left side of a transmission gear 413, the transmission gear 413 is sleeved on a pin shaft connecting piece 414, the back side of the pin shaft connecting piece 414 is fixedly connected to the rear side of the inner wall of the machine body 1, one side of the transmission gear 413 opposite to the worm 404 is meshed with an oblique toothed ring 415, an oblique rod 416 is inserted into the oblique toothed ring 415, the top end of the oblique rod 416 is fixedly connected with the bottom of a first bending connecting, the back of the ball bearing 418 is fixedly connected to the rear side of the inner wall of the machine body 1, the top end of the first bending connecting piece 417 is fixedly connected with a stabilizing block 419, the middle section of the oblique rod 416 is symmetrically sleeved with two curved rings 420, the opposite sides of the two curved rings 420 are respectively connected with the opposite sides of the two inner curved ring pieces 421 in a sliding manner, the bottom end of the oblique rod 416 penetrates through the movable groove 6 and extends into the box body 5 to be sleeved with a stirring plate 422, the crushing wheel 412 is arranged in the shell crushing stirring mechanism 4, so that the poppy shell can be crushed when the crushing wheel 412 operates, the crushed shell and the crushed seed are discharged into the box body 5 through the material inlet 7, meanwhile, the crushed shell in the box body 5 is stirred through the matching arrangement of the oblique rod 416 and the stirring plate 422, the position and the orientation of the shell are continuously changed, and the discharge of the residual seed grains in the shell through a gap caused by the cutting of the crushing wheel 412 is further promoted, the device has been guaranteed to the effect of drawing of seed grain, through set up the skewed tooth ring 415 in broken shell rabbling mechanism 4, skewed pole 416, first buckle connecting piece 417 and ball bearing 418, and the cooperation setting of curved surface ring 420 and interior curved groove ring member 421, thereby can make drive gear 413 rotate and drive skewed pole 416 and make eccentric rotation in interior curved groove ring member 421, the circular motion can be made in box 5 through the cooperation setting of stirring board 422 simultaneously, the rotation area of stirring board 422 in box 5 has further been improved, thereby make the shell on the sieve 8 turn on a large scale, the device has greatly been improved to the effect of drawing of remaining seed grain in the shell.

Swing mechanism 9 includes that the second buckles connecting piece 91, connecting rod 92, oscillating piece 93, swinging arms 94, the lantern ring 95, nested piece 96 and stationary blade 97, one side fixedly connected with second of transmission shaft 401 bottom buckles connecting piece 91, and the second buckles the bottom fixedly connected with connecting rod 92 of connecting piece 91, connecting rod 92 keeps away from the second and buckles the one end fixedly connected with oscillating piece 93 of connecting piece 91, and the one end of fixedly connected with swinging arms 94 on the oscillating piece 93, the middle part fixedly connected with lantern ring 95 of swinging arms 94, and the interior interlude of lantern ring 95 has nested piece 96, the rear end fixedly connected with stationary blade 97 of nested piece 96, and one side fixed connection that the stationary blade 97 carried on the back mutually nested piece 96 is in the inner wall rear side of organism 1.

The reciprocating mechanism 10 comprises a connecting shaft 1001, a fixed frame plate 1002, a sliding block 1003, a sliding groove 1004, a sliding sleeve 1005, a sliding rod 1006, a connecting plate 1007, a guide pulley 1008, a guide sliding groove 1009, a compression spring 1010, a guide sliding block 1011 and a guide sliding rod 1012.

The front end and the rear end of the connecting shaft 1001 are respectively movably connected with the front side and the rear side of the inner wall of the fixed frame plate 1002, the connecting shaft 1001 is sleeved with one end of a swinging rod 94 far away from the swinging piece 93, the right end of the fixed frame plate 1002 of the reciprocating mechanism 10 on the left side is sleeved with a sliding block 1003, the left side and the right side of the box body 5 are respectively provided with a sliding groove 1004, the two sliding grooves 1004 penetrate through the inner wall of the box body 5, the front side and the rear side of the sliding block 1003 are respectively fixedly connected with a sliding sleeve 1005, the two sliding sleeves 1005 are respectively and longitudinally inserted with a sliding rod 1006, the upper end and the lower end of the two sliding rods 1006 are respectively and fixedly connected with the upper side and the lower side of the inner wall of the sliding groove 1004, the top of one end of the sliding block 1003 positioned in the box body 5 is fixedly connected with a connecting plate 1007, the top of one side of, a guide sliding wheel 1008 is connected in the guide sliding chute 1009 in a sliding manner, a compression spring 1010 is fixedly connected to the right side of the fixed frame plate 1002 of the reciprocating mechanism 10 on the left side, one end of the compression spring 1010, which is opposite to the fixed frame plate 1002, is fixedly connected to the inner wall of the sliding block 1003, the upper side and the lower side of the fixed frame plate 1002, which is positioned in the sliding block 1003, are fixedly connected with guide sliding blocks 1011 respectively, guide sliding rods 1012 are longitudinally inserted in the two guide sliding blocks 1011, the left end and the right end of each of the two guide sliding rods 1012 are fixedly connected with the left side and the right side of the inner wall of the sliding block 1003 respectively, and by arranging the swinging mechanism 9, the reciprocating mechanism 10 and the sieve plate 8 in a matching manner, the swinging mechanism 9 and the reciprocating mechanism 10 are driven to reciprocate up and down in the box 5 when in operation, so that shells discharged into the box 5 through the material inlet 7 are stacked on the sieve, thereby the remaining seed grain in the shell is promoted to discharge when the shell changes state, the seed extraction efficiency of the device and the quality of poppy seed grains are effectively improved, and the production cost is reduced.

When the poppy processing device based on power shell breaking and repeated turning to promote the discharge of seeds works, poppy fruits in a feeding box 15 are discharged onto two crushing wheels 412 through a material guide plate 16, a driving gear 31 is driven to rotate through the operation of a driving motor 2, so that the driving gear 31 drives two driven gears 32 to rotate, the driven gears 32 drive a transmission rod 33 to rotate in a bearing seat 34, a longitudinal conical gear 35 is meshed with a transverse conical gear 36, a transmission shaft 401 rotates in a ball shaft seat 402, a worm 404 is driven to rotate through the rotation of a fluted disc 403, a first transmission belt 407 is driven to transmit on a second pulley 408 through a first pulley 406, the second pulley 408 drives a second transmission belt 410 to transmit and drive a driven shaft 411 to rotate, so that the two crushing wheels 412 rotate and crush poppy shells, and crushed shells and seeds are discharged into a box body 5 through a feeding port 7, the worm 404 drives the transmission gear 413 to rotate on the pin shaft connector 414, so that the inclined toothed ring 415 drives the inclined rod 416 to rotate, the inclined rod 416 rotates around the ball bearing 418 through the first bending connector 417, the inclined rod 416 rotates around the inner curved groove ring 421 through the curved ring 420, so that the inclined rod 416 drives the stirring plate 422 to rotate in the movable groove 6, so as to stir the nut shell on the screen plate 8, the transmission shaft 401 drives the second bending connector 91 to rotate, so as to drive the connecting rod 92 to rotate, the swinging rod 93 drives the swinging rod 94 to swing, so as to make the swinging rod 94 swing on the sleeve block 96 through the sleeve ring 95, the connecting shaft 1001 drives the fixed frame plate 1002 to move, the fixed frame plate 1002 slides on the sliding rod 1006 stably through the sliding sleeve 1005, the connecting plate 1007 drives the guide pulley 1008 to slide in the guide groove, and the sliding block 1003 drives the screen plate 8 to swing up and down in a reciprocating manner, thereby discharging the kernels into the collecting box 13, and pulling the collecting box 13 out of the auxiliary pulley 14 by opening the door 17.

In summary, the poppy processing device based on power shell breaking and repeated turning for promoting seed discharge can be obtained by arranging the driving motor 2 and the transmission mechanism 3 and the matched arrangement of the shell breaking stirring mechanism 4, the swinging mechanism 9 and the reciprocating mechanism 10, so that the shell breaking stirring mechanism 4 can break the shells of the poppy and can turn and stir the poppy after breaking the shells in the box body 5, thereby promoting the discharge of residual seeds in the box body, effectively improving the extraction effect of the device on poppy seeds, replacing the traditional processing method of manual seed taking, and solving the problem that the poppy seed taking processing device in the prior art is lack of.

Simultaneously, through setting up driving motor 2 to and the cooperation setting of drive mechanism 3, thereby can only drive broken shell rabbling mechanism 4, swing mechanism 9 and reciprocating motion mechanism 10 operation through driving motor 2 operation, greatly reduced the device's energy resource consumption, effectively reduced the device's manufacturing cost simultaneously.

Simultaneously, through setting up sieve 8 in box 5 to and the special design of sieve 8 shape, thereby can make the shell on the sieve 8 roll downwards through inertia and discharge and arrange to row on the flitch 19 in from organism 1 via discharge gate 18, can make the shell pause two to three times at the roll in-process simultaneously through the special design of wave face, thereby can avoid the shell once only to discharge from organism 1 and lead to the seed grain incomplete condition to appear when guaranteeing the device to seed grain collection effect.

Simultaneously, through set up broken wheel 412 in broken shell rabbling mechanism 4, thereby smash the poppy shell when making broken wheel 412 function, thereby make the shell after the breakage arrange into in the box 5 with seed grain via pan feeding mouth 7, the shell after the breakage stirs in the box 5 through the cooperation setting of oblique form pole 416 and stirring board 422 simultaneously, thereby continuously change the position and the orientation that the shell was located, further promoted in the shell remaining seed grain and discharged via the breach that broken wheel 412 cutting caused, guaranteed the device to the effect of drawing of seed grain.

Meanwhile, the oblique toothed ring 415, the oblique rod 416, the first bending connecting piece 417 and the ball bearing 418 are arranged in the shell breaking stirring mechanism 4, and the curved ring 420 and the inner curved groove ring 421 are arranged in a matching manner, so that the transmission gear 413 can drive the oblique rod 416 to eccentrically rotate in the inner curved groove ring 421 when rotating, and meanwhile, the stirring plate 422 is matched to move circumferentially in the box body 5, the rotating area of the stirring plate 422 in the box body 5 is further increased, so that shells on the sieve plate 8 are turned over in a large range, and the extracting effect of the device on residual grains in the shell is greatly improved.

Simultaneously, through setting up swing mechanism 9 and reciprocating motion mechanism 10, and the cooperation setting of sieve 8, thereby drive sieve 8 reciprocating and reciprocating in box 5 when making swing mechanism 9 and reciprocating motion mechanism 10 function, make and pile up on sieve 8 via the shell that pan feeding mouth 7 was arranged into in box 5, make sieve 8 drive shell up-and-down motion in reciprocating motion, thereby make the shell promote remaining seed grain in the shell to discharge when the change state, the device's seed efficiency and the quality of poppy seed grain have effectively been improved, and production cost is reduced.

The electrical components presented in the document are electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device for controlling a computer and the like.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a poppy processingequipment based on power is broken shell and is overturned repeatedly and promote seed grain discharge, includes organism (1), its characterized in that: the middle of the top of the machine body (1) is fixedly provided with a driving motor (2), an output shaft of the driving motor (2) penetrates through the inner top of the machine body (1) and is connected with a transmission mechanism (3), the transmission mechanism (3) is arranged on the inner top of the machine body (1), the left side and the right side of the transmission mechanism (3) are respectively connected with two shell breaking stirring mechanisms (4), the two shell breaking stirring mechanisms (4) are respectively and fixedly arranged on the left side and the right side of the inner cavity of the machine body (1), a box body (5) is arranged below the two shell breaking stirring mechanisms (4), and the bottom of the box body (5) is fixedly connected to the middle of the inner bottom of the machine body (1);

the movable grooves (6) are formed in the left side and the right side of the top of the box body (5), the two movable grooves (6) are communicated with an inner cavity of the box body (5), a feeding port (7) is formed in the middle of the top of the box body (5), the feeding port (7) is communicated with the inner cavity of the box body (5), a sieve plate (8) is arranged in the middle of the inner cavity of the box body (5), reciprocating mechanisms (10) are connected to the left side and the right side of the sieve plate (8), opposite sides of the two reciprocating mechanisms (10) are respectively connected with the two swinging mechanisms (9), and the two swinging mechanisms (9) are respectively connected with the two shell breaking and stirring mechanisms (4);

the bottom of the reciprocating mechanism (10) is fixedly connected with the top of one side of an expansion bracket (11), the bottom of the back of the expansion bracket (11) is fixedly connected to the rear side of the inner wall of the machine body (1), the upper side and the lower side of the front of the expansion bracket (11) are fixedly connected with the upper end and the lower end of a return spring (12) respectively, a collection box (13) is arranged at the bottom of an inner cavity of the box body (5), auxiliary pulleys (14) are arranged below the collection box (13) in a row shape, the top of each auxiliary pulley (14) is connected with the bottom of the collection box (13) in a sliding mode, and each auxiliary pulley (14) is movably mounted on the inner bottom of the box body (5);

top fixedly connected with pan feeding case (15) at the organism (1) back, and the inner chamber bottom and stock guide (16) intercommunication of pan feeding case (15), the front of stock guide (16) runs through the back of organism (1) and extends to the top of pan feeding mouth (7), and the position that organism (1) inner wall front side collected box (13) relatively articulates there is quick-witted door (17), the front of organism (1) is run through to one side that quick-witted door (17) collected box (13) mutually on the back, discharge gate (18) have been seted up to the front side of sieve (8), and discharge gate (18) are seted up in the front of box (5), discharge gate (18) run through the front of box (5) and the front of organism (1), and the below of discharge gate (18) is provided with row flitch (19), row flitch (19) fixed connection is in the front of organism (1).

2. The powered based poppy processing device for breaking shells and repeatedly flipping to facilitate kernel expulsion of claim 1, wherein: the transmission mechanism (3) comprises a driving gear (31), a driven gear (32), a transmission rod (33), a bearing seat (34), a longitudinal bevel gear (35) and a transverse bevel gear (36).

3. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 2 wherein: the middle part fixed connection at driving gear (31) top is on the output shaft of driving motor (2), and the left and right sides of driving gear (31) meshes with two driven gear (32) respectively, two all interlude has transfer line (33) in driven gear (32), and all overlaps on two transfer lines (33) and is equipped with bearing frame (34), two the left and right sides at top in organism (1) is fixed mounting respectively at the top of bearing frame (34), two vertical conical gear (35) have all been cup jointed to the back of the body one end of backing on the back of the body of transfer line (33), and the bottom of two vertical conical gear (35) all meshes has horizontal conical gear (36).

4. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 3 wherein: the shell breaking and stirring mechanism (4) comprises a transmission shaft (401), a ball shaft seat (402), a fluted disc (403), a worm (404), a ball shaft (405), a first pulley (406), a first transmission belt (407), a second pulley (408), a rotating shaft (409), a second transmission belt (410), a driven shaft (411), a crushing wheel (412), a transmission gear (413), a pin shaft connecting piece (414), an inclined toothed ring (415), an inclined rod (416), a first bending connecting piece (417), a ball bearing (418), a stabilizing block (419), a curved surface ring (420), an inner curved groove ring piece (421) and a stirring plate (422).

5. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 4 wherein: the top end of the transmission shaft (401) is longitudinally inserted into the transverse conical gear (36), the middle section of the transmission shaft (401) is sleeved with a ball shaft seat (402), the back face of the ball shaft seat (402) is fixedly connected to the rear side of the inner wall of the machine body (1), a fluted disc (403) is sleeved on the transmission shaft (401), the right side of the fluted disc (403) of the shell breaking and stirring mechanism (4) on the left side is meshed with the left side of a worm (404), the front end and the rear end of the worm (404) are respectively movably arranged on the front side and the rear side of the inner wall of the machine body (1) through two ball shafts (405), the front end of the worm (404) is sleeved with a first pulley (406), one end of a first transmission belt (407) is sleeved on the first pulley (406), a second pulley (408) is arranged below the first pulley (406), and the other end of the first transmission belt (407) is sleeved on the second pulley (408), a rotating shaft (409) is inserted in the second pulley (408), the front end and the rear end of the rotating shaft (409) are respectively movably connected to the front side and the rear side of the inner wall of the machine body (1), one end of a second transmission belt (410) is sleeved on the second pulley (408), the inner surface of the other end of the second transmission belt (410) is in sliding connection with the side surface of the driven shaft (411), the front end and the rear end of the driven shaft (411) are respectively movably connected to the front side and the rear side of the inner wall of the machine body (1), crushing wheels (412) are sleeved on the driven shaft (411), the two crushing wheels (412) are both positioned above the feeding port (7), the right side of the worm (404) of the shell crushing stirring mechanism (4) on the left side is meshed with the left side of a transmission gear (413), the transmission gear (413) is sleeved on a pin shaft connecting piece (414), the back of the pin shaft connecting piece (414) is, one side of the transmission gear (413) opposite to the worm (404) is meshed with an oblique toothed ring (415), an oblique rod (416) is inserted in the oblique toothed ring (415), the top end of the oblique rod (416) is fixedly connected with the bottom of the first bending connecting piece (417), the first bending connecting piece (417) is sleeved with a ball bearing (418), and the back of the ball bearing (418) is fixedly connected with the rear side of the inner wall of the machine body (1), the top end of the first bending connecting piece (417) is fixedly connected with a stabilizing block (419), two curved surface rings (420) are symmetrically sleeved on the middle section of the oblique rod (416), and the opposite sides of the two curved surface rings (420) are respectively connected with the opposite sides of the two inner curved groove ring pieces (421) in a sliding way, the bottom end of the inclined rod (416) penetrates through the movable groove (6) and extends into the box body (5) to be sleeved with the stirring plate (422).

6. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 5 wherein: the swing mechanism (9) comprises a second bending connecting piece (91), a connecting rod (92), a swing piece (93), a swing rod (94), a lantern ring (95), a sleeve block (96) and a fixing piece (97).

7. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 6 wherein: one side fixedly connected with second of transmission shaft (401) bottom is buckled connecting piece (91), and the bottom fixedly connected with connecting rod (92) of second connecting piece (91) of buckling, the one end fixedly connected with swing piece (93) of second connecting piece (91) of buckling is kept away from in connecting rod (92), and the one end of fixedly connected with swinging arms (94) on swing piece (93), the middle part fixedly connected with lantern ring (95) of swinging arms (94), and lantern ring (95) interior interlude have nested piece (96), the rear end fixedly connected with stationary blade (97) of nested piece (96), and one side fixed connection of stationary blade (97) the nested piece (96) that carries on the back in the body is in the inner wall rear side of organism (1).

8. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 7 wherein: the reciprocating mechanism (10) comprises a connecting shaft (1001), a fixed frame plate (1002), a sliding block (1003), a sliding groove (1004), a sliding sleeve (1005), a sliding rod (1006), a connecting plate (1007), a guide sliding wheel (1008), a guide sliding groove (1009), a compression spring (1010), a guide sliding block (1011) and a guide sliding rod (1012).

9. The powered based poppy processing apparatus for breaking shells and repeatedly tumbling to facilitate kernel evacuation of the poppy processing apparatus of claim 8 wherein: the front end and the rear end of the connecting shaft (1001) are respectively movably connected with the front side and the rear side of the inner wall of the fixed frame plate (1002), the connecting shaft (1001) is sleeved with one end of a swinging rod (94) far away from a swinging piece (93), the right end of the fixed frame plate (1002) of the reciprocating mechanism (10) on the left side is sleeved with a sliding block (1003), the left side and the right side of the box body (5) are respectively provided with a sliding groove (1004), the two sliding grooves (1004) penetrate through the inner wall of the box body (5), the front side and the rear side of the sliding block (1003) are respectively and fixedly connected with a sliding sleeve (1005), the sliding rods (1006) are longitudinally inserted in the two sliding sleeves (1005), the upper end and the lower end of the two sliding rods (1006) are respectively and fixedly connected with the upper side and the lower side of the inner wall of the sliding groove (1004), and the top of one end of the sliding block (, and the top fixed mounting of relative box (5) inner wall one side of connecting plate (1007) has guide pulley (1008), box (5) inner wall relative connecting plate (1007)'s position has been seted up and has been led spout (1009), and has led pulley (1008) in leading spout (1009), left reciprocating motion mechanism (10) right side fixedly connected with compression spring (1010) of fixed deckle board (1002), and compression spring (1010) fixed deckle board (1002)'s one end fixed connection back of the body on the back inner wall of sliding block (1003), fixed deckle board (1002) are located sliding block (1003) and all fixedly connected with guide slider (1011) in the upper and lower both sides, and two guide slider (1011) in all vertically alternate have guide slide bar (1012), two guide the both ends respectively with the equal fixed connection in the left and right sides of sliding block (1003) inner wall about slide bar (1012).

10. The powered based poppy processing device for breaking shells and repeatedly flipping to facilitate kernel expulsion of claim 1, wherein: the front end of the sieve plate (8) is inclined downwards, and the top of the sieve plate (8) is a wavy surface.