CN109013289B

CN109013289B - Foot-operated peanut sieve separator

Info

Publication number: CN109013289B
Application number: CN201810992269.0A
Authority: CN
Inventors: 符城鹏
Original assignee: Ganzhou Tongmao Plastic Hardware Co ltd
Current assignee: Ganzhou Tongmao Plastic Hardware Co.,Ltd.
Priority date: 2018-08-29
Filing date: 2018-08-29
Publication date: 2021-05-14
Anticipated expiration: 2038-08-29
Also published as: CN109013289A

Abstract

The invention relates to a screening machine, in particular to a pedal type peanut screening machine. Therefore, the technical problem of the invention is as follows: provides a pedal type peanut screening machine which can screen out peanuts by people only needing to easily step on the peanut screening machine by feet. The technical scheme is as follows: a foot-operated peanut screening machine comprises an installation block, an installation frame, a pedal, a first steel wire rope, a rotating plate, a first connecting block, a bolt, a swing rod, a first spring, a screening frame, a screen mesh, a connecting rope and the like; the top of installation piece is connected with the mounting bracket, and the right side lower part of mounting bracket articulates and is connected with the footboard, and the top left side of footboard is connected with first wire rope, and the front side upper portion rotary type of mounting bracket is connected with the pendulum rod. According to the peanut screening device, peanuts are poured into the screening frame by a user, the pedal is stepped to move downwards, the screening frame can swing upwards, the user loosens the pedal, the screening frame can swing downwards under the action of gravity and the first spring, and silt carried by the peanuts can be screened out through the screen.

Description

Foot-operated peanut sieve separator

Technical Field

The invention relates to a screening machine, in particular to a pedal type peanut screening machine.

Background

After people picked the peanut back, the peanut can carry more silt, people need peel off silt from the peanut, generally can fall the peanut on the sieve, manual sieve that rocks again, can constantly go out silt screening, but the capacity of sieve is limited, can not once only screen a lot of peanuts, and the both hands that lean on people all the time shake the sieve, consume physical power very much, people also shake out the sieve with the peanut very easily when trembling the sieve in addition, people need spend additional time to remove and pick up subaerial peanut, very troublesome trouble, and silt can't be shaken out the sieve some, need people manually to pick up these silt.

Disclosure of Invention

In order to overcome the defect that people need to manually use a sieve to sieve out sundries such as silt carried by peanuts, the invention has the technical problems that: provides a pedal type peanut screening machine which can screen out peanuts by people only needing to easily step on the peanut screening machine by feet.

The technical scheme is as follows: a foot-operated peanut screening machine comprises an installation block, an installation frame, a pedal, a first steel wire rope, a rotating plate, a first connecting block, a bolt, a swing rod, a first spring, a screening frame, a screen, a connecting rope, a plug, a second spring, a buffer plate and an installation rod, wherein the top of the installation block is connected with the installation frame, the right lower part of the installation frame is hinged with the pedal, the left side of the top of the pedal is connected with the first steel wire rope, the upper part of the front side of the installation frame is rotatably connected with the swing rod, the tail end of the first steel wire rope is connected with the bottom of the swing rod, the first spring is connected between the top of the swing rod and the upper part of the right side of the installation frame, the left side of the swing rod is connected with the screening frame, the right side of the screening frame is rotatably connected with the rotating plate, the top of the rotating plate is, the left side of screening frame is connected with the connection rope, and the end-to-end connection of connecting the rope has the stopper, and the stopper is located the upper left portion of screening frame, and the left side of mounting bracket is connected with the installation pole, and the left end rotary type of installation pole is connected with the buffer board, and the left side of buffer board contacts with the right side of screening frame, is connected with two second springs between the right wall left side of mounting bracket and the right side of buffer board, and the second spring is in compression state, and the second spring passes the left wall of mounting bracket.

Optionally, the device further comprises a supporting rod, an annular frame, an annular funnel, a second connecting block, an extrusion block and a third spring, the lower portion of the left side of the mounting frame is connected with the supporting rod, the left end of the supporting rod is connected with the annular frame, the annular frame is located below the screening frame, four through holes are uniformly formed in the annular frame, inner cavities are formed in the annular frames on two sides of each through hole, the third spring is connected to the annular frame on the outer side of each inner cavity, the other end of the third spring is connected with the extrusion block, the extrusion block is located in the through holes, the outer side of the annular funnel is uniformly connected with four second connecting blocks, the four second connecting blocks are located in the four through holes respectively, and the two extrusion blocks are in contact.

Optionally, still including the connecting rod, the arc pole, the arc rack, the bearing frame, first bull stick, rotary rod and gear, the left side sub-unit connection of mounting bracket has the connecting rod, the top of mounting bracket is connected with the arc pole, be connected with the arc rack between the left end of connecting rod and the lower extreme of arc pole, the embedded bearing frame of installing in front side middle part of screening frame, interference is connected with first bull stick in the bearing frame, the rear portion of first bull stick is connected with three rotary rods, the rotary rod is located the screening frame, the front portion of first bull stick is connected with the gear, gear and arc rack toothing.

Optionally, still including changeing the piece, the fourth spring, second wire rope, leading wheel and pull ring, left part rotary type is connected with changeing the piece in the screening frame, the left side of changeing the piece contacts with left side in the screening frame, the downside right part of changeing the piece is connected with the fourth spring, the left part is equipped with the leading wheel in the screening frame, the leading wheel is located changeing the piece right-hand, the end-to-end connection of fourth spring is in the left side of leading wheel, the bottom left side of changeing the piece is connected with second wire rope, the leading wheel is walked around to second wire rope, second wire rope passes the screening frame, second wire rope's end-to-.

When a user needs to use the screening machine, the plug is firstly pulled out of the screening frame, then peanuts mixed with silt are poured into the screening frame, then the plug is plugged back into the screening frame, the user steps on the pedal to move downwards, the pedal drives the swing rod to rotate clockwise through the first steel wire rope, the first spring is stretched, the swing rod drives the screening frame to swing upwards, the peanuts in the screening frame roll upwards, the second spring restores the original position and pushes the buffer plate to rotate upwards, the buffer plate pushes the screening frame to swing upwards, then the user releases the pedal, the screening frame swings downwards under the action of gravity, the first spring restores the original position and pulls the swing rod to rotate anticlockwise, the second spring is compressed, the buffer plate prevents the screening frame from rotating downwards too fast, the user steps on the pedal to move downwards and releases the pedal, and the screening frame can swing upwards and downwards, silt in the screen frame can pass through the screen cloth discharge, and after screening out silt is whole, the user will collect the frame and put in the below of screen frame to the anticlockwise rotation bolt takes off the bolt from the screen frame, and the user pulls again and changes board anticlockwise rotation, and the peanut in the screen frame can fall into in collecting the frame, and later the user pulls and changes board clockwise rotation, again with the bolt clockwise rotation turn back the normal position can.

When the user need use this sieve separator, hold ring funnel from up being close to the annular frame down, in the second connecting block gets into the through-hole, extrusion both sides extrusion piece moves to the outside, the third spring is compressed, when the screen frame luffing motion, silt in the screen frame can fall on ring funnel through the screen cloth, when the user need not to screen the peanut, hold ring funnel downstream, the second connecting block can leave the extrusion piece of both sides, the normal position is resumeed to the third spring, the user can fall the silt on the ring funnel.

When the screening frame when the luffing motion, the gear can move on the arc rack, because gear and arc rack toothing, the gear can constantly rotate, and then drives the rotary rod through first bull stick and constantly rotates, and the peanut in the screening frame can be mixxed to the rotary rod, and then lets silt discharge through the screen cloth more thoroughly.

When the user need pour the peanut into the screening frame in, hold the pull ring upward movement, the pull ring can drive the commentaries on classics piece through second wire rope and rotate downwards, the fourth spring is compressed, the peanut can pour into the screening frame in, after the user has poured the peanut, can loosen the pull ring, the fourth spring restores to the original position, and then drives the commentaries on classics piece and upwards rotates, the left part of screening frame can be stopped up to the commentaries on classics piece, when the screening frame is when the luffing motion, silt can not get into the left part of screening frame.

The invention has the beneficial effects that: according to the peanut screening device, peanuts are poured into the screening frame by a user, the pedal is stepped by the user to move downwards, the screening frame can swing upwards, the user loosens the pedal, the screening frame can swing downwards under the action of gravity and the first spring, silt carried by the peanuts can be screened out through the screen, the screened silt and other impurities can fall onto the annular funnel, the annular funnel can be taken down by the user, then the impurities are poured out, then the bolts are unscrewed, the rotating plate is pulled to rotate downwards, the peanuts in the screening frame can fall into the collecting frame below, and therefore the peanuts cannot be thrown out when the screening frame swings upwards and downwards.

Drawings

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

Fig. 2 is a partial bottom view of the present invention.

Fig. 3 is an enlarged schematic view of the structure of the present invention a.

Fig. 4 is a partially enlarged schematic view of the present invention.

The parts are labeled as follows: the device comprises an installation block 1, an installation frame 2, a pedal 3, a first steel wire rope 4, a rotating plate 5, a first connecting block 6, a bolt 7, a connecting rod 8, a swing rod 9, a first spring 10, a screening frame 11, a screen 12, a connecting rope 13, a plug 14, a second spring 15, a buffer plate 16, an installation rod 17, a supporting rod 18, a ring-shaped frame 19, a ring-shaped funnel 20, a second connecting block 21, a through hole 22, a squeezing block 23, a third spring 24, an inner cavity 241, an arc-shaped rod 25, an arc-shaped rack 26, a bearing seat 27, a first rotating rod 28, a rotating rod 29, a gear 30, a rotating block 31, a fourth spring 32, a second steel wire rope 33, a guide wheel 34 and a pull ring 35.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

A foot-operated peanut screening machine is disclosed, as shown in figures 1-4, and comprises an installation block 1, an installation frame 2, a pedal 3, a first steel wire rope 4, a rotating plate 5, a first connection block 6, a bolt 7, a swing rod 9, a first spring 10, a screening frame 11, a screen 12, a connection rope 13, a plug 14, a second spring 15, a buffer plate 16 and an installation rod 17, wherein the installation frame 2 is connected to the top of the installation block 1, the pedal 3 is hinged to the lower portion of the right side of the installation frame 2, the first steel wire rope 4 is connected to the left side of the top of the pedal 3, the swing rod 9 is rotatably connected to the upper portion of the front side of the installation frame 2, the tail end of the first steel wire rope 4 is connected to the bottom of the swing rod 9, the first spring 10 is connected between the top of the swing rod 9 and the upper portion of the right side of the installation frame 2, the screening frame 11 is connected to the left, first linkage block 6 passes through bolted connection 7 and is in the left side of screen frame 11, all be connected with screen cloth 12 on the right side lower part of screen frame 11 and the commentaries on classics board 5, the left side of screen frame 11 is connected with and connects rope 13, the end-to-end connection who connects rope 13 has stopper 14, stopper 14 is located the upper left portion of screen frame 11, the left side of mounting bracket 2 is connected with installation pole 17, the left end rotary type of installation pole 17 is connected with buffer board 16, the left side of buffer board 16 and the right side contact of screen frame 11, be connected with two second springs 15 between the right wall left side of mounting bracket 2 and the right side of buffer board 16, second spring 15 is in compression state, second spring 15 passes the left wall of mounting bracket 2.

Example 2

Still including branch 18, annular frame 19, ring funnel 20, second connecting block 21, extrusion piece 23 and third spring 24, the left side sub-unit connection of mounting bracket 2 has branch 18, the left end of branch 18 is connected with annular frame 19, annular frame 19 is located the below of screening frame 11, it has four through-holes 22 to open uniformly on the annular frame 19, all open on the annular frame 19 of through-hole 22 both sides has inner chamber 241, all be connected with third spring 24 on the annular frame 19 in the inner chamber 241 outside, the other end of third spring 24 is connected with extrusion piece 23, extrusion piece 23 is located through-hole 22, ring funnel 20's the outside is connected with four second connecting blocks 21 uniformly, four second connecting blocks 21 are located four through-hole 22 respectively, two extrusion pieces 23 contact with the both sides of second connecting block 21 respectively.

Example 3

Still including connecting rod 8, arc pole 25, arc rack 26, bearing frame 27, first bull stick 28, rotary rod 29 and gear 30, the left side sub-unit connection of mounting bracket 2 has connecting rod 8, the top of mounting bracket 2 is connected with arc pole 25, be connected with arc rack 26 between the left end of connecting rod 8 and the lower extreme of arc pole 25, the embedded bearing frame 27 that installs in front side middle part of screening frame 11, interference is connected with first bull stick 28 in the bearing frame 27, the rear portion of first bull stick 28 is connected with three rotary rods 29, rotary rod 29 is located screening frame 11, the front portion of first bull stick 28 is connected with gear 30, gear 30 and the meshing of arc rack 26.

Example 4

Still including changeing piece 31, fourth spring 32, second wire rope 33, leading wheel 34 and pull ring 35, the left part rotary type is connected with commentaries on classics piece 31 in the screening frame 11, the left side of commentaries on classics piece 31 and the interior left side contact of screening frame 11, the downside right part of commentaries on classics piece 31 is connected with fourth spring 32, the left part is equipped with leading wheel 34 in the screening frame 11, leading wheel 34 is located commentaries on classics piece 31 right-hand, the end-to-end connection of fourth spring 32 is in the left side of leading wheel 34, the bottom left side of commentaries on classics piece 31 is connected with second wire rope 33, leading wheel 34 has been walked around to second wire rope 33, second wire rope 33 passes screening frame 11, the end-to-end.

When a user needs to use the screening machine, the plug 14 is firstly pulled out of the screening frame 11, peanuts mixed with silt are poured into the screening frame 11, then the plug 14 is plugged back into the screening frame 11, the user steps on the pedal 3 to move downwards, the pedal 3 drives the swing rod 9 to rotate clockwise through the first steel wire rope 4, the first spring 10 is stretched, the swing rod 9 drives the screening frame 11 to swing upwards, the peanuts in the screening frame 11 roll upwards, the second spring 15 restores the original position, the buffer plate 16 is pushed to rotate upwards, the buffer plate 16 pushes the screening frame 11 to swing upwards, then the user loosens the pedal 3, the screening frame 11 swings downwards under the action of gravity, the first spring 10 restores the original position, the swing rod 9 is pulled to rotate anticlockwise, the screening frame 11 is assisted to swing downwards, the second spring 15 is compressed, and the buffer plate 16 prevents the screening frame 11 from rotating downwards too fast, step on pedal 3 downstream and loosen pedal 3 through the user, but screen frame 11 luffing motion, silt in screen frame 11 can discharge through screen cloth 12, after screening out silt is whole, the user will collect the frame and put the below at screen frame 11, and anticlockwise rotation bolt 7, take off bolt 7 from screen frame 11, the user pulls commentaries on classics board 5 anticlockwise rotation again, in the peanut in the screen frame 11 can fall into the collection frame, later the user pulls commentaries on classics board 5 clockwise turning, again with bolt 7 clockwise turning back the normal position can.

When the user need use this sieve separator, hold ring funnel 20 from up being close to annular frame 19 down, second connecting block 21 gets into in the through-hole 22, extrusion both sides extrusion piece 23 moves to the outside, third spring 24 is compressed, when sieve frame 11 luffing motion, silt in the sieve frame 11 can fall on ring funnel 20 through screen cloth 12, when the user need not to filter the peanut, hold ring funnel 20 downstream, second connecting block 21 can leave the extrusion piece 23 of both sides, third spring 24 resumes the normal position, the user can fall the silt on ring funnel 20.

When the screen frame 11 swings up and down, the gear 30 moves on the arc-shaped rack 26, and due to the engagement of the gear 30 and the arc-shaped rack 26, the gear 30 rotates continuously, so that the first rotating rod 28 drives the rotating rod 29 to rotate continuously, and the rotating rod 29 stirs the peanuts in the screen frame 11, so that the silt is discharged through the screen 12 more thoroughly.

When the user need pour the peanut into screening frame 11 in, hold pull ring 35 upward movement, pull ring 35 can drive through second wire rope 33 and change piece 31 and rotate downwards, fourth spring 32 is compressed, the peanut can pour into in the screening frame 11, after the user has fallen the flower, can loosen pull ring 35, fourth spring 32 restores to the original position, and then drive and change piece 31 and rotate upwards, change the left part that the screening frame 11 can be plugged up to piece 31, when screening frame 11 is when the luffing motion, silt can not get into the left part of screening frame 11.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A foot-operated peanut screening machine is characterized by comprising an installation block, an installation frame, a pedal, a first steel wire rope, a rotating plate, a first connecting block, a bolt, a swing rod, a first spring, a screening frame, a screen, a connecting rope, a plug, a second spring, a buffer plate and an installation rod, wherein the installation frame is connected to the top of the installation block, the pedal is hinged to the lower portion of the right side of the installation frame, the first steel wire rope is connected to the left side of the top of the pedal, the swing rod is rotatably connected to the upper portion of the front side of the installation frame, the tail end of the first steel wire rope is connected to the bottom of the swing rod, the first spring is connected between the top of the swing rod and the upper portion of the right side of the installation frame, the screening frame is connected to the left side of the swing rod, the rotating plate is rotatably connected to the right side of the bottom of the screening frame, the left side of the screening frame is connected with a connecting rope, the tail end of the connecting rope is connected with a plug, the plug is positioned at the upper left part of the screening frame, the left side of the mounting frame is connected with a mounting rod, the left end of the mounting rod is rotatably connected with a buffer plate, the left side of the buffer plate is in contact with the right side of the screening frame, two second springs are connected between the left side of the right wall of the mounting frame and the right side of the buffer plate, the second springs are in a compressed state, and the second springs penetrate through the left wall of the; the screening device is characterized by further comprising a supporting rod, an annular frame, an annular funnel, a second connecting block, an extrusion block and a third spring, wherein the supporting rod is connected to the lower portion of the left side of the mounting frame, the annular frame is connected to the left end of the supporting rod and located below the screening frame, four through holes are uniformly formed in the annular frame, inner cavities are formed in the annular frames on two sides of each through hole, the third spring is connected to the annular frame on the outer side of each inner cavity, the other end of the third spring is connected with the extrusion block, the extrusion block is located in the through holes, the outer side of the annular funnel is uniformly connected with four second connecting blocks, the four second connecting blocks are located in the four through holes respectively, and the two extrusion blocks are in; still including the connecting rod, the arc pole, the arc rack, the bearing frame, first bull stick, rotary rod and gear, the left side sub-unit connection of mounting bracket has the connecting rod, the top of mounting bracket is connected with the arc pole, be connected with the arc rack between the left end of connecting rod and the lower extreme of arc pole, the embedded bearing frame of installing in front side middle part of screening frame, interference is connected with first bull stick in the bearing frame, the rear portion of first bull stick is connected with three rotary rods, the rotary rod is located the screening frame, the front portion of first bull stick is connected with the gear, gear and arc rack toothing.

2. The pedal type peanut screening machine according to claim 1, further comprising a rotating block, a fourth spring, a second steel wire rope, a guide wheel and a pull ring, wherein the rotating block is rotatably connected to the left portion of the inside of the screening frame, the left side of the rotating block is in contact with the left side of the inside of the screening frame, the fourth spring is connected to the right portion of the lower side of the rotating block, the guide wheel is arranged on the left portion of the inside of the screening frame and located on the right side of the rotating block, the tail end of the fourth spring is connected to the left side of the guide wheel, the left side of the bottom of the rotating block is connected with the second steel wire rope, the second steel wire rope bypasses the guide wheel, the second steel wire rope penetrates through the.