CN112536228A

CN112536228A - Circulating raisin winnowing device and method based on dynamic shaking and dynamic shaking

Info

Publication number: CN112536228A
Application number: CN202011300498.5A
Authority: CN
Inventors: 高芳军
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-06-21
Filing date: 2018-06-21
Publication date: 2021-03-23
Also published as: CN108906626A; CN108906626B

Abstract

The invention discloses a circulating raisin air separation device based on power shaking and power dithering, and relates to the technical field of raisin processing. This circulating raisin air separation plant based on power rocks and power shake, including first shell, the equal fixedly connected with in both sides rocks the device around the inner wall bottom of first shell, and the left and right sides of rocking the device all runs through first shell and extends to first shell outside, rocks the first stopper of left and right sides difference fixedly connected with and first carousel of device. This circulating raisin air separation device based on power rocks and power shake, sector tooth piece promote straight-tooth piece reciprocating motion about, makes controlling means produce vibrations to effectual solution is present, and the raisin of receiving the workbin edge piles up highly, when the height that exceeds the receiving case, leads to the dry raisin after the selection by winnowing to get into adjacent receiving incasement easily, makes the dry lower problem of precision of raisin that wind chooseed.

Description

Circulating raisin winnowing device and method based on dynamic shaking and dynamic shaking

The invention relates to a circulating raisin winnowing device based on dynamic shaking and dynamic shaking, which is applied for 2018, 06, 21 and is named as CN 201810646347.1.

Technical Field

The invention relates to the technical field of raisin processing, in particular to a circulating raisin winnowing device and method based on power shaking and power shaking.

Background

In the raisin course of working, need pass through the air separator, distinguish separately the raisin with the granule variation in size, raisin air separator who uses on the existing market, mainly through simple and easy funnel structure, install the fan additional in its side and carry out the selection by winnowing operation, the raisin selection by winnowing back, pile up the different positions in receiving the workbin according to the difference of raisin granule size, it is higher to pile up when the raisin of receiving workbin edge, when the height that exceeds the receipts workbin, lead to easily that the raisin after the selection by winnowing gets into adjacent receiving the workbin, the raisin precision that makes the wind elect is lower.

For example, the chinese patent publication No. CN206810681U discloses a raisin winnowing machine, during operation, raisin particles to be selected in a feeding hopper form a falling flow pattern of a waterfall type under the combined action of rotation of a material homogenizing roller and a material stirring roller driven by a motor and re-material homogenizing of a discharging groove, so that the raisin uniformly falls down, but the raisin at the edge of a containing hopper is higher in accumulation, and after the raisin is higher than the containing hopper, the raisin after winnowing is easily caused to enter the adjacent containing hopper, so that the precision of the raisin selected by wind is lower.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a circulating raisin winnowing device based on power shaking and power shaking, which solves the problem that at present, after raisin winnowing, raisin is stacked at different positions in a material receiving box according to different sizes of raisin particles, and when the raisin at the edge of the material receiving box is stacked higher and is higher than the material receiving box, the raisin after winnowing is easy to enter the adjacent material receiving box, so that the precision of the raisin selected by wind is low.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a circulating raisin air separation device based on power shaking and power shaking comprises a first shell, wherein shaking devices are fixedly connected to the front side and the rear side of the bottom of the inner wall of the first shell, the left side and the right side of each shaking device penetrate through the first shell and extend to the outside of the first shell, a first limiting block and a first rotary disc are fixedly connected to the left side and the right side of the left side of the shaking device respectively, guide grooves are formed in the left side and the right side of the upper surface of the first shell, moving devices are fixedly connected to the left side and the right side of the inner wall of each guide groove, the bottoms of the moving devices are matched with the top of the shaking devices, a control device is fixedly connected to the top of each moving device, the bottom of the control device is connected with the upper surface of the first shell in a sliding manner, a material receiving box is arranged on the upper surface of the control device, the inner wall of the second shell is fixedly connected with a driving device, the driving device is electrically connected with a control device, the left side of the driving device is fixedly connected with the right side of the first shell through a bearing, the left side of the surface of the driving device is fixedly connected with a second turntable, the inner wall of the second turntable and the inner wall of the first turntable are both sleeved with a first transmission belt, the upper surface of the first shell and the upper surface of the second shell are both fixedly connected with a third shell, the upper surface of the second shell is fixedly connected with a supporting plate, the inner wall of the supporting plate is fixedly connected with a blowing device, the right side of the blowing device penetrates through the third shell and extends to the outside of the third shell, the upper surface of the blowing device is fixedly connected with a telescopic device, the upper surface of the telescopic device is fixedly connected with a feeding box, and the left side and the right side of the surface of the feeding box, the left side and the right side of the inner wall of the third shell are both provided with sliding chutes, the inner walls of the sliding chutes are in sliding connection with the surfaces of the sliding blocks, the upper surface of the blowing device is fixedly connected with a pushing device between the left and the right expansion devices, the surface of the pushing device, the surface of the blowing device and the surface of the driving device are fixedly connected with a third turntable, and the inner walls of the upper and lower third turntables are sleeved with second transmission belts, the left side of the third shell is provided with an air outlet, the upper surface of the third shell is provided with a through hole, the upper surface of the third shell and positioned outside the through hole are fixedly connected with a dust collecting device, the bottom of the left side of the feeding box is fixedly communicated with a discharging pipe, the inner wall of the discharging pipe is fixedly connected with an electromagnetic valve, the electromagnetic valve is electrically connected with the control device, and the front surface of the third shell is hinged with a first box door through a pin shaft.

Preferably, the shaking device comprises a first support frame, a first rotating shaft, a rotating drum, a sector gear block and a sliding rod, the bottom of the first support frame is fixedly connected with the bottom of the inner wall of the first shell, a first rotating shaft is arranged in the first shell and between the front and the rear first support frames, the left side and the right side of the first rotating shaft penetrate through the first shell and extend to the outside of the first shell, the left side of the first rotating shaft is fixedly connected with the right side of the first limiting block, the right side of the first rotating shaft is fixedly connected with the left side of the first rotating disc, the surface of the first rotating shaft is fixedly connected with a rotating drum, the top of one side of the first support frame, which is close to the rotary drum, is hinged with a sector gear block through a pin shaft, the inner wall of the sector gear block is fixedly connected with a slide bar, the surface of the sliding rod is connected with the inner wall of the rotary drum in a sliding mode, and the upper surface of the sector-shaped tooth block is meshed with the bottom of the moving device.

Preferably, the mobile device includes guide bar, guide block and straight tooth piece, the left and right sides of guide bar all with the inner wall fixed connection of guide way, the surperficial sliding connection of guide bar has the guide block, the straight tooth piece of bottom fixedly connected with of guide block, the bottom of straight tooth piece and the upper surface intermeshing of fan-shaped tooth piece, the upper surface of guide block and controlling means's bottom fixed connection.

Preferably, the control device comprises a fourth shell, a first sleeve, a first supporting block, a first spring, a first supporting rod, a baffle, a pressing rod and a key, the bottom of the fourth shell is fixedly connected with the upper surface of the guide block, the bottom of the fourth shell is slidably connected with the upper surface of the first shell, the bottom of the inner wall of the fourth shell is fixedly connected with the first sleeve, the bottom of the inner wall of the fourth shell is fixedly connected with the first supporting block inside the first sleeve, the upper surface of the first supporting block is fixedly connected with the first spring, the top of the first spring is fixedly connected with the first supporting rod, the upper surface of the first supporting rod is fixedly connected with the baffle, the bottom of the baffle is fixedly connected with the pressing rod between the left and right first sleeves, and the bottom of the inner wall of the fourth shell is fixedly connected with the key below the pressing rod, the key is electrically connected with the driving device and the electromagnetic valve.

Preferably, drive arrangement includes second support frame, motor and second pivot, the surface of second support frame and the inner wall fixed connection of second shell, the inner wall fixedly connected with motor of second support frame, the motor is connected with the button electricity, the output of motor passes through shaft coupling fixedly connected with second pivot, the right side fixed connection of bearing and first shell is passed through in the left side of second pivot, the surface left and right sides of first pivot respectively with the inner wall of second carousel and the inner wall fixed connection of third carousel.

Preferably, the blowing device comprises a fifth shell, a third support frame, a third rotating shaft, a second limiting block and fan blades, the surface of the fifth shell is fixedly connected with the inner wall of the support plate, the inner wall of the fifth shell is fixedly connected with the third support frame, the inner wall of the third support frame is provided with the third rotating shaft, the second limiting block is fixedly connected with the left side and the right side of the third rotating shaft, the surface of the third rotating shaft is fixedly connected with the inner wall of a third rotating disc, the surface of the third rotating shaft is fixedly connected with the fan blades on the left side and the right side of the third rotating disc, the upper surface of the fifth shell is fixedly connected with the bottom of the telescopic device, and the upper surface of the fifth shell is fixedly connected with the bottom of the pushing device.

Preferably, the telescoping device includes second sleeve pipe, second spring and second bracing piece, the fixed surface of second sheathed tube bottom and fifth shell is connected, the sheathed tube inner wall bottom fixedly connected with second spring, the fixed surface of second spring is connected with the second bracing piece, there is the upper surface of second bracing piece and the bottom fixed connection of feeding case, the surface of second bracing piece and the inner wall sliding connection of second sleeve pipe.

Preferably, thrust unit includes fourth support frame, fourth pivot, third stopper and eccentric disc, the bottom of fourth support frame and the last fixed surface of fifth shell are connected, the inner wall of fourth support frame is provided with the fourth pivot, the equal fixedly connected with third stopper in the left and right sides of fourth pivot, the surface of fourth pivot and the inner wall fixed connection of third carousel, the surface of fourth pivot is located the equal fixedly connected with eccentric disc in the left and right sides of third carousel.

Preferably, dust collecting device includes dust collection box, dog, fixed block, air exhauster, second chamber door and filter, the upper surface of third shell is located the outside of through-hole and the bottom fixed connection of dust collection box, the upper surface of third shell is located the left side fixedly connected with dog of through-hole, the left side top fixedly connected with fixed block of dust collection box, the bottom fixedly connected with air exhauster of fixed block, the air inlet end of air exhauster runs through the dust collection box and extends to the dust collection box inner wall, dust collection box left side bottom articulates through the round pin axle has the second chamber door, the inner wall fixedly connected with filter of air exhauster, the inner wall aperture of filter is one micron to three microns.

Preferably, the right side of the inner wall of the blowing device and the inner wall of the air outlet are fixedly connected with dust-proof plates, and the aperture of the inner wall of each dust-proof plate is one micron to three microns.

(III) advantageous effects

The invention provides a circulating type raisin air separation device based on power shaking and power dithering. The method has the following beneficial effects:

(1) this circulating raisin air separation device based on power rocks and power shake, rock the device through the setting, the guide way, a mobile device, controlling means and receipts workbin, open drive arrangement, make the second carousel rotate, it rotates to drive first carousel through first drive belt, under the effect of rotary drum, make fan-shaped tooth piece horizontal reciprocating motion, fan-shaped tooth piece promotes reciprocating motion about the straight-tooth piece, make controlling means produce vibrations, the raisin in the receipts workbin trembles the tie, thereby effectually solved at present, the raisin selection by winnowing, get into in the receipts workbin, the raisin of receipts workbin edge is piled up higher, when the height that exceeds the receipts workbin, lead to the raisin after the selection by winnowing to get into adjacent receipts workbin easily, the lower problem of raisin precision that the messenger's wind elected.

(2) This circulating raisin air separation plant based on power rocks and power shake, through setting up the feeding case, the slider, the spout, thrust unit, the third carousel, the second drive belt, open drive arrangement, make the third carousel rotate, through the second drive belt, it rotates to drive the fourth, it plays the impetus to rotate the eccentric disc to the feeding case, make the feeding case slide from top to bottom, will block up and shake out at the orificial raisin discharging pipe, prevent that the interior raisin quantity of feeding case is too much, plug up the discharging pipe, make the raisin normally discharge through the discharging pipe.

(3) This circulating raisin air separation device based on power rocks and power shake, through setting up through-hole and dust collecting device, open the air exhauster, produce the air current, it is inside to make the dust that wafts in the third shell follow the air current and get into the dust collection box, filter out the dust in with the air current through the filter, make the dust pile up inside the dust collection box, be convenient for collect the dust in the third shell, it is right in the air to prevent that the dust from diffusing, the surrounding environment causes the pollution, and simultaneously, the dog plays the effect of blockking to the dust, prevent that the dust from getting into the third shell once more inside, be not convenient for collect the dust.

(4) This circulating raisin air separation plant based on power rocks and power shake, through setting up controlling means and solenoid valve, after raisin in receiving the workbin fills with, receive the downward gravity of workbin and be greater than the elasticity of first spring this moment, make and press the depression bar downstream, press the depression bar and press the button after, control drive arrangement and solenoid valve are closed, make raisin in the feeding incasement not discharge through the discharging pipe, stop the selection by winnowing, prevent to receive the raisin in the workbin and fill with, the solenoid valve is not in time closed, make the raisin in the feeding incasement continue to discharge through the discharging pipe, lead to receiving the raisin in the workbin and spill over, be not convenient for collect the raisin.

(5) This circulating raisin air separation device based on power rocks and power shake, through setting up the dust guard, the dust guard plays the effect of blockking to the dust in the air, prevents that the dust in the air from getting into blast apparatus or getting into inside the third shell through the exhaust vent, leads to the dust to adsorb on blast apparatus or third shell internals on the surface, increase blast apparatus or third shell internals wearing and tearing, makes blast apparatus or third shell internals normal life reduce.

Drawings

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

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of the invention at B of FIG. 1;

FIG. 4 is an enlarged view of FIG. 1 at C;

FIG. 5 is an enlarged view taken at D of FIG. 1 in accordance with the present invention;

FIG. 6 is a side view of the first housing of the present invention;

fig. 7 is a front view of the structure of the present invention.

In the figure: 1 a first shell, 2 a shaking device, 201 a first support frame, 202 a first rotating shaft, 203 a revolving drum, 204 a sector-shaped toothed block, 205 a sliding rod, 3 a first limit block, 4 a first rotating disc, 5 a guide groove, 6 a moving device, 601 a guide rod, 602 a guide block, 603 a straight toothed block, 7 a control device, 701 a fourth shell, 702 a first sleeve, 703 a first support block, 704 a first spring, 705 a first support rod, 706 a baffle plate, 707 a pressing rod, 708 keys, 8 a receiving box, 9 a second shell, 10 a driving device, 1001 a second support frame, 1002 a motor, 1003 a second rotating shaft, 11 a second rotating disc, 12 a first driving belt, 13 a third shell, 14 a support plate, 15 a blowing device, 1501 a fifth shell, 1502 a third support frame, 1503 a second limit block, 1505, 16 a telescopic device, 1601 a second sleeve, 1602 a second spring, 1603 a second support rod, 17 a feeding box, 18 a sliding block, 17 a feeding box, 19 chutes, 20 pushing devices, 2001 fourth supporting frames, 2002 fourth rotating shafts, 2003 third limiting blocks, 2004 eccentric discs, 21 third rotating discs, 22 second transmission belts, 23 air outlet holes, 24 through holes, 25 dust collecting devices, 2501 dust collecting boxes, 2502 stoppers, 2503 fixing blocks, 2504 exhaust fans, 2505 second box doors, 2506 filter plates, 26 discharge pipes, 27 electromagnetic valves, 28 first box doors and 29 dust preventing plates.

Detailed Description

The materials, methods and apparatus used in the following examples, which are not specifically illustrated, are conventional in the art and are commercially available to those of ordinary skill in the art.

In the following description of the present invention, it is to be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the connection may be direct or indirect via an intermediate medium, and the connection may be internal to the two components. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the following description of the present invention, the meaning of "plurality", and "plural" is two or more unless otherwise specified.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a circulating raisin air separation device based on power shaking and power shaking comprises a first shell 1, wherein the front side and the rear side of the bottom of the inner wall of the first shell 1 are fixedly connected with a shaking device 2, the left side and the right side of the shaking device 2 penetrate through the first shell 1 and extend to the outside of the first shell 1, the left side and the right side of the shaking device 2 are respectively fixedly connected with a first limiting block 3 and a first rotating disc 4, the first limiting block 3 plays a supporting role for the shaking device 2, the left side and the right side of the upper surface of the first shell 1 are respectively provided with a guide groove 5, the left side and the right side of the inner wall of the guide groove 5 are respectively fixedly connected with a moving device 6, the bottom of the moving device 6 is matched with the top of the shaking device 2, the top of the moving device 6 is fixedly connected with a control device 7, the bottom of the control device 7 is connected with the upper surface of the first, the driving device 10 is opened to rotate the second rotary table 11, the first rotary table 4 is driven to rotate through the first transmission belt 12, under the action of the rotary drum 203, the fan-shaped tooth blocks 204 are made to swing in a left-right reciprocating mode, the fan-shaped tooth blocks 204 push the straight tooth blocks 603 to move in a left-right reciprocating mode, the control device 7 is made to vibrate, raisins in the material receiving boxes 8 are shaken to be flat, the raisins in the material receiving boxes 8 are prevented from entering the material receiving boxes 8 after being winnowed, the raisins at the edges of the material receiving boxes 8 are prevented from being piled higher and higher than the material receiving boxes 8, the raisins after being winnowed easily enter the adjacent material receiving boxes 8, the raisins are prevented from being separated in a low precision due to wind, the second outer shell 9 is fixedly connected to the right side of the first outer shell 1, the driving device 10 is fixedly connected to the inner wall of the second outer shell 9, the driving device 10 is electrically connected with the control device 7, the left, the inner wall of the second rotating disc 11 and the inner wall of the first rotating disc 4 are both sleeved with a first transmission belt 12, the second rotating disc 11 rotates to drive the first rotating disc 4 to rotate through the first transmission belt 12, the upper surface of the first shell 1 and the upper surface of the second shell 9 are both fixedly connected with a third shell 13, the upper surface of the second shell 9 is fixedly connected with a support plate 14, the inner wall of the support plate 14 is fixedly connected with a blowing device 15, the support plate 14 plays a supporting and fixing role on the blowing device 15, the right side of the blowing device 15 penetrates through the third shell 13 and extends to the outside of the third shell 13, the upper surface of the blowing device 15 is fixedly connected with a telescopic device 16, the upper surface of the telescopic device 16 is fixedly connected with a feeding box 17, the left side and the right side of the surface of the feeding box 17 are both fixedly connected with sliders 18, the left side and the right side of the inner wall of the third shell 13 are both provided with chutes 19, the sliding groove 19 plays a guiding role for the sliding block 18, the upper surface of the blowing device 15 is fixedly connected with a pushing device 20 between the left telescopic device and the right telescopic device 16, the surface of the pushing device 20, the surface of the blowing device 15 and the surface of the driving device 10 are fixedly connected with a third turntable 21, the inner walls of the upper and lower third turntables 21 are respectively sleeved with a second transmission belt 22, the left side of the third shell 13 is provided with an air outlet 23, the right side of the inner wall of the blowing device 15 and the inner wall of the air outlet 23 are respectively fixedly connected with a dust guard 29, the inner wall aperture of the dust guard 29 is one micron to three microns, through the arrangement of the dust guard 29, the dust guard 29 plays a blocking role for dust in the air, the dust in the air is prevented from entering the blowing device 15 or entering the third shell 13 through the air outlet 23, the dust is prevented from being adsorbed on the surface of the internal parts of the blowing device 15 or the third shell 13, and the, the normal service life of the blowing device 15 or the internal parts of the third shell 13 is shortened, the upper surface of the third shell 13 is provided with a through hole 24, the upper surface of the third shell 13 is fixedly connected with a dust collecting device 25 outside the through hole 24, the left bottom of the feeding box 17 is fixedly communicated with a discharging pipe 26, the inner wall of the discharging pipe 26 is fixedly connected with an electromagnetic valve 27, the electromagnetic valve 27 is electrically connected with the control device 7, and the front of the third shell 13 is hinged with a first box door 28 through a pin shaft.

The shaking device 2 comprises a first support frame 201, a first rotating shaft 202, a rotating cylinder 203, fan-shaped toothed blocks 204 and a sliding rod 205, wherein the bottom of the first support frame 201 is fixedly connected with the bottom of the inner wall of a first shell 1, the first rotating shaft 202 is arranged inside the first shell 1 and between the front and rear first support frames 201, the left side and the right side of the first rotating shaft 202 penetrate through the first shell 1 and extend to the outside of the first shell 1, the left side of the first rotating shaft 202 is fixedly connected with the right side of a first limiting block 3, the right side of the first rotating shaft 202 is fixedly connected with the left side of a first rotating disc 4, the surface of the first rotating shaft 202 is fixedly connected with the rotating cylinder 203, the top of one side, close to the rotating cylinder 203, of the first support frame 201 is hinged with the fan-shaped toothed blocks 204 through a pin shaft, the first support frame 201 plays a supporting role on the fan-shaped toothed blocks 204, the inner wall of the, the drum 203 rotates to cause the sector-shaped tooth block 204 to swing back and forth, and the upper surface of the sector-shaped tooth block 204 and the bottom of the moving device 6 are engaged with each other.

The moving device 6 comprises a guide rod 601, a guide block 602 and a straight tooth block 603, the left side and the right side of the guide rod 601 are fixedly connected with the inner wall of the guide groove 5, the guide block 602 is connected to the surface of the guide rod 601 in a sliding manner, the guide rod 601 plays a role in guiding and supporting the guide block 602, the straight tooth block 603 is fixedly connected to the bottom of the guide block 602, the bottom of the straight tooth block 603 is meshed with the upper surface of the fan-shaped tooth block 204, and the upper surface of the guide block 602 is fixedly connected with the bottom of the control device 7.

The control device 7 comprises a fourth shell 701, a first sleeve 702, a first supporting block 703, a first spring 704, a first supporting rod 705, a baffle 706, a pressing rod 707 and a key 708, wherein the bottom of the fourth shell 701 is fixedly connected with the upper surface of the guide block 602, the bottom of the fourth shell 701 is slidably connected with the upper surface of the first shell 1, the bottom of the inner wall of the fourth shell 701 is fixedly connected with the first sleeve 702, the bottom of the inner wall of the fourth shell 701 is fixedly connected with the first supporting block 703 inside the first sleeve 702, the upper surface of the first supporting block 703 is fixedly connected with the first spring 704, the top of the first spring 704 is fixedly connected with the first supporting rod 705, the first spring 704 plays a role in pushing the first supporting rod to stop the baffle 706 from moving downwards, the top of the first supporting rod 705 is fixedly connected with the baffle 706, the bottom of the baffle 706 is fixedly connected with the pressing rod 707 between the left first sleeve 702 and the right sleeve 702, the button 708 is fixedly connected to the bottom of the inner wall of the fourth housing 701 and located below the pressing rod 707, the button 708 is electrically connected to the driving device 10 and the electromagnetic valve 27, by arranging the control device 7 and the electromagnetic valve 27, after raisins in the material receiving box 8 are fully filled, the downward gravity of the material receiving box 8 is greater than the elastic force of the first spring 704, the pressing rod 707 moves downward, after the pressing rod 707 presses the button 708, the driving device 10 and the electromagnetic valve 27 are controlled to be closed, the raisins in the feeding box 17 are not discharged through the discharging pipe 26, air separation is stopped, the raisins in the material receiving box 8 are prevented from being fully filled, the electromagnetic valve 27 is not closed in time, the raisins in the feeding box 17 are continuously discharged through the discharging pipe 26, the raisins in the material receiving box 8 overflow, and the raisins are inconvenient to be collected.

Drive arrangement 10 includes second support frame 1001, motor 1002 and second pivot 1003, the surface of second support frame 1001 and the inner wall fixed connection of second shell 9, the inner wall fixedly connected with motor 1002 of second support frame 1001, second support frame 1001 plays support and fixed action to motor 1002, motor 1002 is connected with button 708 electricity, shaft coupling fixedly connected with second pivot 1003 is passed through to the output of motor 1002, the left side of second pivot 1003 is through the right side fixed connection of bearing and first shell 1, the surperficial left and right sides of first pivot 202 respectively with the inner wall of second carousel 11 and the inner wall fixed connection of third carousel 21.

The blowing device 15 comprises a fifth shell 1501, a third supporting frame 1502, a third rotating shaft 1503, a second limiting block 1504 and fan blades 1505, the surface of the fifth shell 1501 is fixedly connected with the inner wall of the supporting plate 14, the inner wall of the fifth shell 1501 is fixedly connected with the third supporting frame 1502, the inner wall of the third supporting frame 1502 is provided with the third rotating shaft 1503, the left side and the right side of the third rotating shaft 1503 are fixedly connected with the second limiting block 1504, the second limiting block 1504 has a limiting effect on the third rotating shaft 1503, the surface of the third rotating shaft 1503 is fixedly connected with the inner wall of the third rotating disc 21, the surface of the third rotating shaft 1503 is fixedly connected with the fan blades 21 on the left side and the right side of the third rotating disc 21, the third rotating disc 21 rotates to drive the fan blades to rotate to generate wind power to blow the raisins 1505 discharged from the discharging pipe 1505 26, so that particles with different sizes of the raisins fall into the receiving box 8 at the same position, the upper surface of the fifth shell 1501, the upper surface of the fifth housing 1501 is fixedly connected to the bottom of the pushing device 20.

The telescoping device 16 includes second sleeve 1601, second spring 1602 and second bracing piece 1603, the bottom of second sleeve 1601 is connected with the upper surface fixed of fifth shell 1501, the inner wall bottom fixedly connected with second spring 1602 of second sleeve 1601, the upper surface fixedly connected with second bracing piece 1603 of second spring 1602, second spring 1602 plays the pulling effect to second bracing piece 1603, there is the upper surface of second bracing piece 1603 and the bottom fixed connection of feed box 17, the surface of second bracing piece 1603 and the inner wall sliding connection of second sleeve 1601, through setting up telescoping device 16, second spring 1602 plays the pulling effect to second bracing piece 1603, it is more steady to make feed box 17 reciprocate.

The pushing device 20 comprises a fourth supporting frame 2001, a fourth rotating shaft 2002, a third limiting block 2003 and an eccentric disc 2004, the bottom of the fourth supporting frame 2001 is fixedly connected with the upper surface of the fifth shell 1501, the inner wall of the fourth supporting frame 2001 is provided with the fourth rotating shaft 2002, the left side and the right side of the fourth rotating shaft 2002 are fixedly connected with the third limiting block 2003, the surface of the fourth rotating shaft 2002 is fixedly connected with the inner wall of the third rotating disc 21, the surface of the fourth rotating shaft 2002 is fixedly connected with the eccentric disc 2004 on the left side and the right side of the third rotating disc 21, the third rotating disc 21 rotates, through second drive belt 22, drive the fourth and rotate, rotate eccentric disc 2004 and play the pushing action to feed box 17, make feed box 17 slide from top to bottom, will block up the raisin at the orificial grape of discharging pipe 26 and shake out, prevent that raisin quantity is too much in feed box 17, plug up discharging pipe 26, make the raisin normally discharge through discharging pipe 26.

The dust collecting device 25 comprises a dust collecting box 2501, a stopper 2502, a fixing block 2503, an exhaust fan 2504, a second box door 2505 and a filter plate 2506, the upper surface of the third housing 13 is positioned outside the through hole 24 and fixedly connected with the bottom of the dust collecting box 2501, the upper surface of the third housing 13 is positioned on the left side of the through hole 24 and fixedly connected with the stopper 2502, the left top of the dust collecting box 2501 is fixedly connected with the fixing block 2503, the bottom of the fixing block 2503 is fixedly connected with the exhaust fan 2504, the air inlet end of the exhaust fan 2504 penetrates through the dust collecting box 2501 and extends to the inner wall of the dust collecting box 2501, the left bottom of the dust collecting box 2501 is hinged with the second box door 2505 through a pin shaft, the filter plate 2506 is fixedly connected to the inner wall of the exhaust fan 2504, the inner wall of the filter plate 2506 has a pore diameter of one micron to three microns, the dust collecting device 25 is provided with the through, filter out through filter 2506 with dust in the air current, make the dust pile up inside dust collection box 2501, be convenient for collect the dust in the third shell 13, prevent that the dust from diffusing to the air right, the surrounding environment causes the pollution, simultaneously, dog 2502 plays the effect of blockking to the dust, prevents that the dust from getting into third shell 13 inside again, is not convenient for collect the dust.

When the circulating raisin winnowing device based on power shaking and power shaking works, the driving device 10 is opened to enable the second rotary disc 11 to rotate, the first rotary disc 4 is driven to rotate through the first driving belt 12, the fan-shaped tooth blocks 204 are driven to swing in a left-right reciprocating mode under the action of the rotary drum 203, the fan-shaped tooth blocks 204 push the straight tooth blocks 603 to move in a left-right reciprocating mode, the control device 7 is enabled to generate vibration, the third rotary disc 21 rotates and drives the fourth rotary mode to rotate through the second driving belt 22, the eccentric disc 2004 is rotated to push the feeding box 17, the feeding box 17 slides up and down, raisin is poured into the feeding box 17, the electromagnetic valve 27 is opened, raisin in the feeding box 17 is discharged through the discharge pipe 26, the third rotary disc 21 rotates to drive the fan blades 1505 to rotate, wind power is generated, raisin discharged through the discharge pipe 26 is blown, particles with different sizes fall into the receiving box 8 at the same position, after the raisins in the material receiving box 8 are filled, the downward gravity of the material receiving box 8 is larger than the elastic force of the first spring 704, the pressing rod 707 moves downwards, after the pressing rod 707 presses the key 708, the driving device 10 and the electromagnetic valve 27 are controlled to be closed, the raisins in the material receiving box 17 are not discharged through the material discharging pipe 26, air separation is stopped, the first box door 28 is opened, the material receiving box 8 filled with the raisins is taken out, a new material receiving box 8 is replaced, and after the air separation is completed, the first box door 28 is opened, and the material receiving box 8 is taken out.

To sum up, this circulating raisin air separation device based on power rocks and power shake, through setting up rocking device 2, guide way 5, mobile device 6, controlling means 7 and receipts workbin 8, open drive arrangement 10, make second carousel 11 rotate, drive first carousel 4 through first drive belt 12 and rotate, under the effect of rotary drum 203, make fan-shaped tooth piece 204 horizontal reciprocating swing, fan-shaped tooth piece 204 promotes straight tooth piece 603 horizontal reciprocating motion, make controlling means 7 produce vibrations, tremble the raisin receiving workbin 8, thereby effectually solved at present, after the raisin selection by winnowing, get into receiving workbin 8, the raisin of receiving workbin 8 edge piles up higher, when the height that exceeds receiving workbin 8, lead to the raisin after the selection by winnowing to get into adjacent receiving workbin 8 in easily, the raisin precision that the wind chooseed out is lower problem.

Meanwhile, by arranging the feeding box 17, the sliding block 18, the sliding groove 19, the pushing device 20, the third rotary table 21 and the second transmission belt 22, the driving device 10 is opened, the third rotary table 21 is made to rotate, the fourth rotary table is driven to rotate through the second transmission belt 22, the eccentric disc 2004 is rotated to push the feeding box 17, the feeding box 17 is made to slide up and down, raisins blocked at the opening of the discharging pipe 26 are shaken off, the excessive raisins in the feeding box 17 are prevented, the discharging pipe 26 is blocked, and the raisins can not be normally discharged through the discharging pipe 26.

Meanwhile, by arranging the through hole 24 and the dust collecting device 25, the exhaust fan 2504 is opened to generate air flow, so that dust flying in the third housing 13 enters the dust collecting box 2501 along with the air flow, the dust in the air flow is filtered out through the filter plate 2506, and the dust is accumulated in the dust collecting box 2501, thereby facilitating the collection of the dust in the third housing 13, preventing the dust from diffusing into the air, preventing the pollution caused by the surrounding environment, meanwhile, the baffle 2502 plays a role in blocking the dust, preventing the dust from entering the third housing 13 again, and being inconvenient for collecting the dust.

Meanwhile, by arranging the control device 7 and the electromagnetic valve 27, after the raisins in the material receiving box 8 are filled, the downward gravity of the material receiving box 8 is greater than the elastic force of the first spring 704, the pressing rod 707 moves downwards, after the pressing rod 707 presses the key 708, the driving device 10 and the electromagnetic valve 27 are controlled to be closed, the raisins in the feeding box 17 are not discharged through the discharging pipe 26, the winnowing is stopped, the raisins in the material receiving box 8 are prevented from being filled, the electromagnetic valve 27 is not closed in time, the raisins in the feeding box 17 are continuously discharged through the discharging pipe 26, the raisins in the material receiving box 8 overflow, and the raisins are not convenient to be collected.

Meanwhile, through the arrangement of the dust-proof plate 29, the dust-proof plate 29 has a blocking effect on dust in the air, so that the dust in the air is prevented from entering the air blowing device 15 or entering the third shell 13 through the air outlet 23, the dust is adsorbed on the surface of the internal parts of the air blowing device 15 or the third shell 13, the abrasion of the internal parts of the air blowing device 15 or the third shell 13 is increased, and the normal service life of the internal parts of the air blowing device 15 or the third shell 13 is shortened.

The electrical components presented in this document are electrically connected to an external master controller and the 250V mains, and the master controller may be a conventional known device controlled by a computer or the like.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A circulating raisin air separation device based on power shaking and power shaking comprises a first shell (1) and is characterized in that: the front side and the rear side of the bottom of the inner wall of the first shell (1) are fixedly connected with a shaking device (2), the left side and the right side of the shaking device (2) penetrate through the first shell (1) and extend to the outside of the first shell (1), the left side and the right side of the shaking device (2) are respectively fixedly connected with a first limiting block (3) and a first rotary table (4), the left side and the right side of the upper surface of the first shell (1) are respectively provided with a guide groove (5), the left side and the right side of the inner wall of the guide groove (5) are respectively fixedly connected with a moving device (6), the bottom of the moving device (6) is matched with the top of the shaking device (2), the top of the moving device (6) is fixedly connected with a control device (7), the bottom of the control device (7) is connected with the upper surface of the first shell (1) in a sliding manner, the upper surface of the control device (7, the right side fixedly connected with second shell (9) of first shell (1), inner wall fixedly connected with drive arrangement (10) of second shell (9), drive arrangement (10) are connected with controlling means (7) electricity, the right side fixed connection of bearing and first shell (1) is passed through in the left side of drive arrangement (10), the surperficial left side fixedly connected with second carousel (11) of drive arrangement (10), first drive belt (12) have all been cup jointed with the inner wall of first carousel (4) to the inner wall of second carousel (11), the upper surface of first shell (1) and the upper surface of second shell (9) all fixedly connected with third shell (13), the upper surface fixedly connected with backup pad (14) of second shell (9), the inner wall fixedly connected with blast apparatus (15) of backup pad (14), the right side of blast apparatus (15) runs through third shell (13) and extends to the outside of third shell (13) The upper surface of the blowing device (15) is fixedly connected with a telescopic device (16), the upper surface of the telescopic device (16) is fixedly connected with a feeding box (17), the left side and the right side of the surface of the feeding box (17) are fixedly connected with sliders (18), the left side and the right side of the inner wall of the third shell (13) are respectively provided with a sliding chute (19), the inner wall of the sliding chute (19) is connected with the surface of the sliders (18) in a sliding manner, the upper surface of the blowing device (15) is fixedly connected with a pushing device (20) between the left telescopic device and the right telescopic device (16), the surface of the pushing device (20), the surface of the blowing device (15) and the surface of the driving device (10) are respectively fixedly connected with a third turntable (21), the inner walls of the upper and the lower third turntables (21) are respectively sleeved with a second driving belt (22), and the left side of the third shell (13), a through hole (24) is formed in the upper surface of the third shell (13), a dust collecting device (25) is fixedly connected to the upper surface of the third shell (13) and located outside the through hole (24), a discharge pipe (26) is fixedly communicated with the bottom of the left side of the feeding box (17), an electromagnetic valve (27) is fixedly connected to the inner wall of the discharge pipe (26), the electromagnetic valve (27) is electrically connected with the control device (7), and a first box door (28) is hinged to the front surface of the third shell (13) through a pin shaft;

the shaking device (2) comprises a first support frame (201), a first rotating shaft (202), a rotating cylinder (203), a fan-shaped tooth block (204) and a sliding rod (205), wherein the bottom of the first support frame (201) is fixedly connected with the bottom of the inner wall of a first shell (1), the first rotating shaft (202) is arranged inside the first shell (1) and between the front and rear first support frames (201), the left side and the right side of the first rotating shaft (202) penetrate through the first shell (1) and extend to the outside of the first shell (1), the left side of the first rotating shaft (202) is fixedly connected with the right side of a first limiting block (3), the right side of the first rotating shaft (202) is fixedly connected with the left side of a first rotating disc (4), the surface of the first rotating shaft (202) is fixedly connected with the rotating cylinder (203), the top of one side, close to the rotating cylinder (203), of the first support frame (201) is hinged with the fan-shaped tooth block (204) through a pin, a sliding rod (205) is fixedly connected to the inner wall of the sector-shaped tooth block (204), the surface of the sliding rod (205) is in sliding connection with the inner wall of the rotary drum (203), and the upper surface of the sector-shaped tooth block (204) is meshed with the bottom of the moving device (6);

the moving device (6) comprises a guide rod (601), a guide block (602) and a straight tooth block (603), the left side and the right side of the guide rod (601) are fixedly connected with the inner wall of the guide groove (5), the guide block (602) is connected to the surface of the guide rod (601) in a sliding mode, the straight tooth block (603) is fixedly connected to the bottom of the guide block (602), the bottom of the straight tooth block (603) is meshed with the upper surface of the fan-shaped tooth block (204), and the upper surface of the guide block (602) is fixedly connected with the bottom of the control device (7);

the control device (7) comprises a fourth shell (701), a first sleeve (702), a first supporting block (703), a first spring (704), a first supporting rod (705), a baffle (706), a pressing rod (707) and a key (708), the bottom of the fourth shell (701) is fixedly connected with the upper surface of the guide block (602), the bottom of the fourth shell (701) is slidably connected with the upper surface of the first shell (1), the bottom of the inner wall of the fourth shell (701) is fixedly connected with the first sleeve (702), the bottom of the inner wall of the fourth shell (701) is fixedly connected with the first supporting block (703) and positioned inside the first sleeve (702), the upper surface of the first supporting block (703) is fixedly connected with the first spring (704), the top of the first spring (704) is fixedly connected with the first supporting rod (705), the upper surface of the first supporting rod (705) is fixedly connected with the baffle (706), a pressing rod (707) is fixedly connected to the bottom of the baffle (706) and located between the left first sleeve and the right first sleeve (702), a key (708) is fixedly connected to the bottom of the inner wall of the fourth shell (701) and located below the pressing rod (707), and the key (708) is electrically connected with the driving device (10) and the electromagnetic valve (27).

2. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the driving device (10) comprises a second supporting frame (1001), a motor (1002) and a second rotating shaft (1003), the surface of the second supporting frame (1001) is fixedly connected with the inner wall of a second shell (9), the inner wall of the second supporting frame (1001) is fixedly connected with the motor (1002), the motor (1002) is electrically connected with a key (708), the output end of the motor (1002) is fixedly connected with the second rotating shaft (1003) through a coupler, the left side of the second rotating shaft (1003) is fixedly connected with the right side of a first shell (1) through a bearing, and the left side and the right side of the surface of the first rotating shaft (202) are respectively fixedly connected with the inner wall of a second rotating disc (11) and the inner wall of a third rotating disc (21).

3. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the blowing device (15) comprises a fifth shell (1501), a third supporting frame (1502), a third rotating shaft (1503), a second limiting block (1504) and fan blades (1505), the surface of the fifth shell (1501) is fixedly connected with the inner wall of the support plate (14), the inner wall of the fifth shell (1501) is fixedly connected with a third support frame (1502), a third rotating shaft (1503) is arranged on the inner wall of the third supporting frame (1502), second limiting blocks (1504) are fixedly connected to the left side and the right side of the third rotating shaft (1503), the surface of the third rotating shaft (1503) is fixedly connected with the inner wall of the third rotating disc (21), the surface of the third rotating shaft (1503) is fixedly connected with fan blades (1505) on the left side and the right side of the third rotating disc (21), the upper surface of the fifth shell (1501) is fixedly connected with the bottom of the telescopic device (16), the upper surface of the fifth shell (1501) is fixedly connected with the bottom of the pushing device (20).

4. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the telescoping device (16) includes second sleeve pipe (1601), second spring (1602) and second bracing piece (1603), the upper surface fixed connection of the bottom of second sleeve pipe (1601) and fifth shell (1501), the inner wall bottom fixedly connected with second spring (1602) of second sleeve pipe (1601), the upper surface fixed connection of second spring (1602) has second bracing piece (1603), there is the upper surface of second bracing piece (1603) and the bottom fixed connection of feed box (17), the surface of second bracing piece (1603) and the inner wall sliding connection of second sleeve pipe (1601).

5. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the pushing device (20) comprises a fourth supporting frame (2001), a fourth rotating shaft (2002), a third limiting block (2003) and eccentric discs (2004), the bottom of the fourth supporting frame (2001) is fixedly connected with the upper surface of a fifth shell (1501), the inner wall of the fourth supporting frame (2001) is provided with the fourth rotating shaft (2002), the left side and the right side of the fourth rotating shaft (2002) are fixedly connected with the third limiting block (2003), the surface of the fourth rotating shaft (2002) is fixedly connected with the inner wall of a third rotating disc (21), and the surface of the fourth rotating shaft (2002) is positioned on the left side and the right side of the third rotating disc (21) and is fixedly connected with the eccentric discs (2004).

6. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the dust collecting device (25) comprises a dust collecting box (2501), a stop block (2502), a fixing block (2503), an exhaust fan (2504), a second box door (2505) and a filter plate (2506), the upper surface of the third shell (13) is positioned outside the through hole (24) and fixedly connected with the bottom of the dust collecting box (2501), the upper surface of the third shell (13) is positioned on the left side of the through hole (24) and fixedly connected with the stop block (2502), the left top of the dust collecting box (2501) is fixedly connected with the fixing block (2503), the bottom of the fixing block (2503) is fixedly connected with the exhaust fan (2504), the air inlet end of the exhaust fan (2504) penetrates through the dust collecting box (2501) and extends to the inner wall of the dust collecting box (2501), the left bottom of the dust collecting box (2501) is hinged with the second box door (2505) through a pin shaft, the inner wall of the exhaust fan (2504, the aperture of the inner wall of the filter plate (2506) is one micron to three microns.

7. The circulating type raisin air separation device based on dynamic shaking and dynamic shaking according to claim 1, characterized in that: the inner wall right side of blast apparatus (15) and the equal fixedly connected with dust guard (29) of inner wall of exhaust vent (23), and the inner wall aperture of dust guard (29) is one micron to three microns.

8. The circulating raisin winnowing device and method based on dynamic shaking and dynamic shaking according to any one of claims 1 to 7, characterized in that: when the device is used, the driving device (10) is turned on, the second rotary disc (11) is rotated, the first rotary disc (4) is driven to rotate through the first transmission belt (12), the fan-shaped tooth blocks (204) are driven to swing in a left-right reciprocating mode under the action of the rotary drum (203), the fan-shaped tooth blocks (204) push the straight tooth blocks (603) to move in a left-right reciprocating mode, the control device (7) is driven to vibrate, the third rotary disc (21) rotates, the fourth rotary disc is driven to rotate through the second transmission belt (22), the eccentric disc (2004) is rotated to push the feeding box (17), the feeding box (17) slides up and down, raisins are poured into the feeding box (17), the electromagnetic valve (27) is opened, the raisins in the feeding box (17) are discharged through the discharge pipe (26), the third rotary disc (21) rotates to drive the fan blades (1505) to rotate, wind power is generated, and the raisins discharged through the discharge pipe (26) are blown, the raisin box has the advantages that raisin particles with different sizes fall into the material receiving box (8) at the same position, after raisin in the material receiving box (8) is filled fully, the downward gravity of the material receiving box (8) is larger than the elastic force of the first spring (704), the pressing rod (707) moves downwards, the pressing rod (707) presses the key (708), the driving device (10) and the electromagnetic valve (27) are controlled to be closed, raisin in the material receiving box (17) is not discharged through the discharging pipe (26), air separation is stopped, the first box door (28) is opened, the material receiving box (8) filled with raisin is taken out, a new material receiving box (8) is replaced, and after air separation is completed, the first box door (28) is opened, and the material receiving box (8) is taken out.