CN203565366U - Cleaning sieve - Google Patents

Cleaning sieve Download PDF

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Publication number
CN203565366U
CN203565366U CN201320631674.2U CN201320631674U CN203565366U CN 203565366 U CN203565366 U CN 203565366U CN 201320631674 U CN201320631674 U CN 201320631674U CN 203565366 U CN203565366 U CN 203565366U
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CN
China
Prior art keywords
hopper
dust
cleaning sieve
cleaning
sieve
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Expired - Lifetime
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CN201320631674.2U
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Chinese (zh)
Inventor
叶维林
蔡军
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Hubei Ye Wei Grain And Oil Machinery Co ltd
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HUBEI YEWEI OILS MACHINERY Co Ltd
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Priority to CN201320631674.2U priority Critical patent/CN203565366U/en
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Abstract

The utility model discloses a cleaning sieve. The cleaning sieve comprises a machine frame, a feed system, a vibrating screen and a winnowing dust removal system, wherein the feed system, the vibrating screen and the winnowing dust removal system are installed on the machine frame and are sequentially connected. The feed system comprises a feeding hopper (1), a discharging hopper (4) and a hopper vibration motor (28), the lower portion of the feeding hopper (1) is inserted into the discharging hopper (4), the discharge end of the discharging hopper (4) is connected to the feeding end of the vibrating screen, and the hopper vibration motor (28) is installed on the discharging hopper (4) to drive the discharging hopper (4) to vibrate. According to the cleaning sieve, flying dust on the outlet portion of the feeding system and the outlet portion of the dust collection device can be eliminated, and the problem that the dust in the dust collection device escapes can be solved. Due to a suspension bag packaging device, disassembly and assembly of a dust collection bag are convenient. According to the difference of grain particles and the critical speed of impurities, the optimum airflow speed of a winnower can be adjusted, and separating of the light impurities and air drying of grains can be achieved synchronously.

Description

Cleaning sieve
Technical field
The utility model relates to grain processing field, particularly, relates to a kind of cleaning sieve.
Background technology
Grain cleaning equipment in the market cannot meet high throughput simultaneously and high-efficiency environment friendly is cleaned, high-effective dust-removing and high efficiente callback.Existing cleaning sieve substantially comprises frame and is arranged in frame and the feed system connecting successively, vibratory sieve and dust removal of pneumatic separation system, material enters in vibratory sieve by feed system, after the sorting of vibratory sieve, oarse-grained impurity is directly discharged from the slag-drip opening of vibratory sieve, the satisfactory material of particle diameter and impurity are drained in dust removal of pneumatic separation system by the discharging opening of vibratory sieve, dust removal of pneumatic separation system is separated material and impurity, material is discharged from the discharge gate of dust removal of pneumatic separation system, the impurity such as dust are from the slag notch of dust removal of pneumatic separation system is discharged, and collect through dust arrester.The technological difficulties of existing cleaning sieve mainly comprise: dust removal of pneumatic separation system effectiveness is low; The slag notch place air-flow air pressure of dust removal of pneumatic separation system is larger, causes airborne dust, and along with treating capacity increases, the charging place airborne dust of cleaning sieve also increases, and worsens working site environment; The slag notch place of dust removal of pneumatic separation system is not easy fixing dust collection bag, affects dust collection efficiency, cannot meet the requirement of equipment high throughput; The discharge gate of equipment is positioned at bottom, is unfavorable for the material after cleaning to collect; The charging rate of feed system is slow and inhomogeneous; Whole cleaning sieve cannot be realized automatic moving, uses flexibility to be restricted; The axis of the deduster of dust removal of pneumatic separation system vertically arranges, and the lower end of deduster is connected to the dust conveyer of dust removal of pneumatic separation system by dust delivering tube, and the higher and dust delivering tube of deduster height easily stops up.
Utility model content
The purpose of this utility model is to provide a kind of cleaning sieve.
To achieve these goals, the utility model provides a kind of cleaning sieve, this cleaning sieve comprises frame and is arranged in frame and the feed system, vibratory sieve and the dust removal of pneumatic separation system that connect successively, wherein, described feed system comprises elevating hopper, hopper and hopper vibrating motor, insert in described hopper the bottom of described elevating hopper, the discharge end of described hopper is connected to the feed end of described vibratory sieve, and described hopper vibrating motor is arranged on described hopper to drive described hopper vibration.
Preferably, described frame comprises elevating hopper support and hopper support, and described elevating hopper and described hopper are supported in respectively described elevating hopper support and described hopper support, and is provided with bolster between described hopper and described hopper support.
Preferably, described bolster is rubber spring.
Preferably, the base plate of described hopper is downward-sloping towards the charging aperture of described vibratory sieve.
Preferably, described feed system also comprises the fan housing covering on described elevating hopper, and described cleaning sieve also comprises hopper sweep-up pipe, and one end of this hopper sweep-up pipe is connected to described fan housing, and the other end is connected to described dust removal of pneumatic separation system.
By technique scheme, can eliminate the airborne dust in the exit of feed system and dust collecting, solve the problem that in dust collecting, dust is escaped; By being set, hanging bag packing apparatus facilitated the dismounting of dust collection bag; According to different grains and motion rail, exploitation different size vibratory sieve, is suitable for the cleaning of various grains; According to the difference of grain and impurity critical speed, regulate air classifier optimum gas Flow Velocity, reach separation light impurity and synchronize and carry out with air-dry grain; Design sealing oscillatory type feed system, reaches the grain that flows to vibratory sieve and is evenly paved with compass screen surface, improves treating capacity; The unique walking of design moving structure, utilizes storage battery speed-changing driving device, and move convenient transportation and reservoir area.That the utility model has been filled up is efficient, the blank of environmental protection, the large-scale grain cleaning sieve technology of packaged type, is a significant technology innovation of grain storage and agricultural machinery equipment manufacture industry.
Other feature and advantage of the present utility model are described in detail the specific embodiment part subsequently.
Accompanying drawing explanation
Accompanying drawing is to be used to provide further understanding of the present utility model, and forms a part for description, is used from explanation the utility model, but does not form restriction of the present utility model with the specific embodiment one below.In the accompanying drawings:
Fig. 1 is according to the front view of cleaning sieve of the present utility model;
Fig. 2 is according to the plan structure schematic diagram of cleaning of the present utility model sieve, wherein, for purposes of clarity, omitted the partial devices such as vibratory sieve of cleaning sieve, and feed system removes to frame outside.
Description of reference numerals
1 elevating hopper 2 elevating hopper supports
3 hopper support 4 hoppers
5 bracket for vibrating screen 6 chassis overhangs
7 steeraxle 8 deflecting rollers
9 steering column 10 power battery pack and variable-speed controllers
11 ECU 12 DC drive systems
13 clutch 14 driving-chains
15 drive axle 16 driving wheels
17 belt conveyor 18 discharging collection buckets
19 conveying worm 20 air classifiers
21 grey gas cylinder 22 final dusting blower fans
23 one-time dedusting blower fan 24 vibratory sieve casings
25 hopper sweep-up pipe 26 fan housings
27 casing vibrating motor 28 hopper vibrating motors
29 disposable dust removers 30 sweep-up pipe that reduces pressure
31 secondary filter 32 hanging bag packing apparatus
33 steering wheel 34 steering gears
35 rubber spring 36 flexible sealing cloth
37 snap ring 38 dust outlet tubes
39 Ka Tai
The specific embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is elaborated.Should be understood that, the specific embodiment described herein only, for description and interpretation the utility model, is not limited to the utility model.
In the utility model, in the situation that not doing contrary explanation, the noun of locality using is as undefined in normal service condition in the cleaning sieve that " upper and lower " normally provides at the utility model with " vertical, level ", and also with consistent with reference to direction shown in accompanying drawing 1; " inside and outside " refers to inside and outside with respect to the profile of each parts itself.
The utility model provides a kind of cleaning sieve, and this cleaning sieve can, for the sorting of material, be particularly useful for the cleaning of grain etc.
Cleaning sieve of the present utility model comprises frame and is arranged in frame and the feed system, vibratory sieve and the dust removal of pneumatic separation system that connect successively, wherein, described dust removal of pneumatic separation system comprises air classifier 20, one-time dedusting unit, final dusting unit, dust collecting and decompression sweep-up pipe 30; Described air classifier 20 has entrance and dust outlet, and the described entrance of described air classifier 20 is connected in the discharging opening of described vibratory sieve, and described dust outlet is connected in the air inlet of described one-time dedusting unit; Described dust collecting comprises slag inlet and slag notch, and the dust-exhausting port of the dust-exhausting port of described one-time dedusting unit and described final dusting unit is connected in the described slag inlet of described dust collecting; One end of described decompression sweep-up pipe 30 is connected in the air inlet of described final dusting unit, and the other end is connected near the described slag notch of described dust collecting.
In cleaning sieve of the present utility model, first material enters in vibratory sieve by feed system, after the sorting of vibratory sieve, oarse-grained impurity is directly discharged from the slag-drip opening of vibratory sieve, the satisfactory material of particle diameter and impurity are drained in dust removal of pneumatic separation system by the discharging opening of vibratory sieve, dust removal of pneumatic separation system comprises air classifier 20, air classifier 20 there are differences and material and impurity are separated according to the critical speed of material and impurity (being mainly dust etc.), material is discharged from the material outlet of air classifier 20, the impurity such as dust enter into one-time dedusting unit from the dust outlet of air classifier, dust sedimentation being collected in dust collecting in one-time dedusting unit, by the slag notch of dust collecting, discharged again, effective like this material and impurity separated, and by centralized collection processing such as dust, prevent dust pollution environment, worsen operating condition.And, in cleaning sieve of the present utility model, added decompression sweep-up pipe 30, the two ends of this decompression sweep-up pipe 30 are connected near the slag notch of dust collecting and the air inlet of final dusting unit, then dust is collected in dust collecting along with air-flow obtains a sedimentation in one-time dedusting unit, utilize the feature of circulated air, the air-flow of escaping to dust collecting from the dust-exhausting port of one-time dedusting unit is got back to and in final dusting unit, is carried out sedimentation again, effectively improve the efficiency of dust collection of dust removal of pneumatic separation system, and, decompression sweep-up pipe 30 reduces the slag notch place air pressure of dust collecting, the dust that prevents sedimentation is kicked up again.
Particularly, in present embodiment, vibratory sieve involving vibrations screen box body 24 and for driving the casing vibrating motor 27 of this vibratory sieve casing 24, wherein, vibratory sieve casing 24 is sealing, to prevent that material screen from selecting in process, produce airborne dust, one end of vibratory sieve casing 24 is charging aperture, and the other end is provided with slag-drip opening and discharging opening.
And described one-time dedusting unit can comprise the one-time dedusting blower fan 23 and the disposable dust remover 29 that connect successively; Described final dusting unit can comprise the final dusting blower fan 22 and the secondary filter 31 that connect successively; Described dust collecting is auger conveyor 19, and described slag notch is positioned at one end of described auger conveyor 19, and the described other end of described decompression sweep-up pipe 30 is connected in one end that is provided with described slag notch of described auger conveyor 19.
Air classifier 20 has entrance, material outlet and dust outlet, and the entrance of air classifier 20 is communicated with the discharging opening of vibratory sieve casing 24; The air inlet of one-time dedusting blower fan 23 is communicated with the dust outlet of air classifier 20, and the gas outlet of one-time dedusting blower fan 23 is communicated with disposable dust remover 29.Particularly, disposable dust remover 29 comprises grey gas cylinder 21, and the air inlet of its grey gas cylinder 21 is all communicated with the gas outlet of one-time dedusting blower fan 23; Secondary filter 31 also comprises grey gas cylinder 21, and the air inlet of its grey gas cylinder 21 is all communicated with the gas outlet of final dusting blower fan 22.And, the dust-exhausting port of disposable dust remover 29 and secondary filter 31 is connected to conveying worm 19, for example, on the housing of conveying worm 19, comprise slag inlet and slag notch, slag notch is positioned at one end of described conveying worm 19 and preferably extend out to outside the frame of cleaning sieve, and the described other end of decompression sweep-up pipe 30 is connected to one end that is provided with slag notch of conveying worm 19.
And, in present embodiment, described deduster comprises grey gas cylinder 21, described grey gas cylinder 21 comprises the column part and the tapered segment that are connected from top to bottom successively, the bottom of described tapered segment is connected in described dust collecting, between the axis of described column part and the axis of described dust collecting, there is interval, the axis of described tapered segment tilts to the axis of dust collecting from top to bottom gradually, for example, as a kind of embodiment, described tapered segment comprises the multiple son joints that join end to end and tilt to dust collecting gradually from top to bottom, the deduster that is present embodiment is to be directly connected with dust collecting, compared with the existing situation that is connected in dust collecting by dust delivering tube, in present embodiment, be more conducive to dust deposit in deduster, and land gradually and be collected in conveying worm 19 along the wall of deduster, and, can also suitably reduce in this case the height of deduster.
Particularly, disposable dust remover 29 and secondary filter 31 include multiple grey gas cylinders 21, the plurality of grey gas cylinder 21 is axially set to two rows along conveying worm 19, two ash discharge gas cylinders 21 lay respectively at the both sides of conveying worm 19 and are symmetrical arranged, along direction from top to bottom, each height joint of the tapered segment of ash gas cylinder 21 is gradually to dust collecting inclination (i.e. edge direction from top to bottom, the angle of the axis of each height joint and the axis of cylindrical portions increases gradually), the upper end of each grey gas cylinder 21 is upwards extended and is fixed on the air chest of frame.
In addition, in the cleaning of present embodiment sieve, can for example,, according to the difference of material (grain) and impurity critical speed, regulate the optimum gas Flow Velocity of air classifier 20, to reach separation light impurity, synchronize the effect of carrying out with airing materials.
And, the air inlet of final dusting unit can also be connected with the other parts of cleaning sieve, for example, preferably, described feed system comprises hopper and covers on the fan housing 26 on described hopper, and described cleaning sieve also comprises that hopper sweep-up pipe 25, one end of this hopper sweep-up pipe 25 are connected to described fan housing 26, the other end is connected to the described air inlet of described final dusting unit, thereby effectively prevents hopper place airborne dust.And on fan housing 26, be provided with an opening using the entrance as material, on fan housing 26, also start to have suction port, the suction port of fan housing 26 connects hopper sweep-up pipe 25, final dusting blower fan 22 can also be connected with the place of other easy airborne dusts such as the slag-drip opening of vibratory sieve casing 24, thereby, further reduce airborne dust, according to the cleaning of present embodiment, sieve in use, the on-the-spot koniology content of equipment availability is less than 0.6mg/m 3, accomplish environment-friendly dustless, meet cleaner production and airborne release laws and regulations requirement.
And, in present embodiment, described feed system comprises elevating hopper 1, hopper 4 and hopper vibrating motor 28, insert in described hopper 4 bottom of described elevating hopper 1, the discharge end of described hopper 4 is connected to the feed end of described vibratory sieve, and described hopper vibrating motor 28 is arranged on described hopper 4 to drive described hopper 4 to vibrate.
And described frame comprises elevating hopper support 2 and hopper support 3, described elevating hopper 1 and described hopper 4 are supported in respectively described elevating hopper support 2 and described hopper support 3, and are provided with bolster between described hopper 4 and described hopper support 3.Preferably, described bolster is rubber spring.And the base plate of described hopper 4 is downward-sloping towards the charging aperture of described vibratory sieve, to facilitate material to fall into described vibratory sieve from hopper 4.
Particularly, in present embodiment, elevating hopper support 2 is also supported by hopper support 3, the upper support elevating hopper 1 of elevating hopper support 2, lower support are in hopper support 3, hopper 4 is supported in hopper support 3, fan housing 26 covers on elevating hopper 1, thereby the discharge end of hopper 4 is connected to the feed end of vibratory sieve casing 24 and hopper vibrating motor 28 is all equipped with to drive hopper 4 to vibrate the mass transport making in hopper 1 in vibratory sieve in the two ends of hopper 4.Hopper 4 is box, and has opening on roof and a sidewall, and insert in hopper 4 by the opening on this roof the bottom of elevating hopper 1, and the opening on described sidewall is connected to vibratory sieve.In gap between the roof of the bottom of elevating hopper 1 and hopper 4, by flexible sealing cloth 36 being set to realize sealing, prevent airborne dust.By adjusting elevating hopper support 2 to regulate the simple gap of the lower end of elevating hopper 1 and the base plate of hopper 4, can regulate the speed of feed system to convey materials in vibratory sieve.In this case, by the vibrating feed of hopper 4, the grain that can make to flow in vibratory sieve casing 24 is evenly paved with the compass screen surface of vibratory sieve, thereby can effectively improve the treating capacity of equipment.For example, the cleaning of for example present embodiment sieve, during cleaning wheat, cleaning amount can reach per hourly more than 100 tons, and during cleaning corn, cleaning amount can reach per hourly more than 85 tons, and during cleaning paddy, cleaning amount can reach per hour more than 30 tons.
In addition, the frame of the cleaning sieve of present embodiment comprises chassis overhang 6, hopper support 3, elevating hopper support 2, bracket for vibrating screen 5 and dust removal of pneumatic separation system frame, elevating hopper support 2 supports by hopper support 3, and hopper support 3, bracket for vibrating screen 5 and dust removal of pneumatic separation system frame are supported in respectively chassis overhang 6.
In addition, in present embodiment, in order to realize the self-driving formula walking of cleaning sieve, preferably, described cleaning sieve also comprises the power walking mechanism for driving described machine frame movement.
Described power walking mechanism can be set to applicable form arbitrarily, for example, in present embodiment, described power walking mechanism comprises steeraxle 7, is connected in the deflecting roller 8 at described steeraxle 7 two ends, drive axle 15, the driving wheel 16 that is connected in described drive axle 15 two ends, steering gear 34, steering column 9, steering wheel 33 and the power part for driving described driving wheel 16 to rotate, the two ends of described steering column 9 are connected to described steering wheel 33 and described steering gear 34, and described steering gear 34 connects described steering column 9 and described steeraxle 7.Steeraxle 7 and drive axle 15 are separately positioned on (left and right directions in Fig. 1) along its length two ends of chassis overhang 6, for example, steeraxle 7 is positioned at the front end of chassis overhang 6, drive axle 15 is positioned at the rear end of chassis overhang 6, the two ends of steering column 9 are connected to respectively steering wheel 33 and steering gear 34, driver can control by steering wheel rotation 33 direction of motion of cleaning sieve, and steering gear 34 connects steering column 9 and steeraxle 7.In present embodiment, described power part comprises the power battery pack and variable-speed controller 10, ECU 11, DC drive system 12 and the clutch 13 that are connected successively, described DC drive system 12 comprises the direct-drive motor and the decelerator that are connected, this decelerator is connected with described clutch 13, described clutch 13 is connected with described drive axle 15 by driving-chain 14 again, and power battery pack and variable-speed controller 10 are electrically connected to drive direct-drive motor by ECU 11 with the direct-drive motor of DC drive system 12.In addition, can be in chassis overhang 6 setting operation chamber, staff can manipulate the walking of cleaning sieve in operating room.The utility model, by the unique walking of design moving structure, utilizes storage battery speed-changing driving device, and move convenient transportation and reservoir area.
And preferably, the cleaning sieve of present embodiment also comprises belt conveyor 17, described in this, belt conveyor 17 is positioned at the below of the material outlet of described air classifier 20, and one end of described belt conveyor 17 extends to the outside of described frame.In air classifier 20, the material at the place of cleaning is directly fallen on belt conveyor 17, and is delivered to frame outside by belt conveyor 17, greatly facilitates the collection of staff to the material of cleaning out.Preferably, described belt conveyor 17 is removably mounted in described frame, belt conveyor 17 can be optionally installed according to specific needs, and preferably the concrete installation site of belt conveyor 17 also can be adjusted as required.
Particularly, cleaning sieve of the present utility model can also comprise discharging collection bucket 18, the entrance of this discharging collection bucket 18 is connected to the material outlet of air classifier 20, belt conveyor 17 is arranged on discharging collection bucket 18 belows, belt conveyor 17 is set to tilt, particularly, can different inclination angles be set according to the discharging angle of institute's convey materials difference and discharging collection bucket 18, and one end of belt conveyor 17 is supported in the frame of cleaning sieve, the other end extends to outside the frame of cleaning sieve, for example, referring to accompanying drawing, the described other end of belt conveyor 17 extends to frame outside from the afterbody of cleaning sieve, because cleaning sieve carries the belt conveyor 17 being fixed in frame, compared with the situation that is docked to discharging collection bucket 18 belows with use portable belt conveyer, the length of equipment can shorten, more compact structure, for example, even if (also can effectively guarantee the discharging direction flexibility of cleaning sieve in the less situation of Active workings, can realize 180 ° of orientation dischargings by docking other conveying equipments at belt conveyor 17 outputs), thereby when being subject to spatial limitation and making the feedstock direction of cleaning sieve and discharging direction linearly, the flexible adjustment of the discharging direction that can sieve by cleaning guarantees the linear feed (linear feed is conducive to the tiling of material) at elevating hopper 1 place.And, arrange after belt conveyor 17, can also effectively stop air-flow to enter blower fan from discharging collection bucket 18, strengthen the ability of cleaning of equipment.
Preferably, the slag notch place of described dust collecting is provided with hanging bag packing apparatus 32, this hanging bag packing apparatus 32 comprises dust outlet tube 38, one end of this dust outlet tube 38 is connected to described dust collecting at slag notch, the other end is around the outwardly card platform 39 that is formed with in edge of this dust outlet tube 38, on this card platform 39, be formed with draw-in groove, this hanging bag packing apparatus 32 also comprises the fastener matching with described draw-in groove, and, further, described draw-in groove is formed on the upper surface of described card platform 39 around described dust outlet tube 38, and described fastener is snap ring 37.During operation, staff can be enclosed within the edge of opening of the dust collection bag for collecting dust the card platform 39 of dust outlet tube 38, and snap ring 37 is upwards moved to outside draw-in groove and (snap ring 37 is only shown in Fig. 1 half, and the state of this snap ring 37 outside being moved to draw-in groove), the edge of opening of dust collection bag is put in draw-in groove, again snap ring 37 is lowered in draw-in groove, thereby can utilize the cooperation of snap ring 37 and draw-in groove that dust collection bag is hung over to dust outlet tube 38 belows, by being set, hanging bag packing apparatus 32 not only make the fixing and disassembling section of dust collection bag simplify, facilitate staff's operation, and dust collection bag can be hung over more securely to the below of dust outlet tube 38 and surround preferably the described other end of dust outlet tube 38, effectively preventing that dust outlet tube 38 is in dust discharge process there is airborne dust and contaminated environment.
Cleaning of the present utility model sieve, having filled up the blank of efficient, environmental protection, the large-scale grain cleaning sieve technology of packaged type, is a significant technology innovation of grain storage and agricultural machinery equipment manufacture industry.
Below describe by reference to the accompanying drawings preferred embodiment of the present utility model in detail; but; the utility model is not limited to the detail in above-mentioned embodiment; within the scope of technical conceive of the present utility model; can carry out multiple simple variant to the technical solution of the utility model, these simple variant all belong to protection domain of the present utility model.
It should be noted that in addition, each concrete technical characterictic described in the above-mentioned specific embodiment, in reconcilable situation, can combine by any suitable mode, for fear of unnecessary repetition, the utility model is to the explanation no longer separately of various possible combinations.
In addition, between various embodiment of the present utility model, also can be combined, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (5)

1. a cleaning sieve, this cleaning sieve comprises frame and is arranged in frame and the feed system, vibratory sieve and the dust removal of pneumatic separation system that connect successively, it is characterized in that, described feed system comprises elevating hopper (1), hopper (4) and hopper vibrating motor (28), insert in described hopper (4) bottom of described elevating hopper (1), the discharge end of described hopper (4) is connected to the feed end of described vibratory sieve, and it is upper to drive described hopper (4) vibration that described hopper vibrating motor (28) is arranged on described hopper (4).
2. cleaning sieve according to claim 1, it is characterized in that, described frame comprises elevating hopper support (2) and hopper support (3), described elevating hopper (1) and described hopper (4) are supported in respectively described elevating hopper support (2) and described hopper support (3), and are provided with bolster between described hopper (4) and described hopper support (3).
3. cleaning sieve according to claim 2, is characterized in that, described bolster is rubber spring.
4. cleaning sieve according to claim 1, is characterized in that, the base plate of described hopper (4) is downward-sloping towards the charging aperture of described vibratory sieve.
5. cleaning sieve according to claim 1, it is characterized in that, described feed system also comprises the fan housing (26) covering on described elevating hopper (4), described cleaning sieve also comprises hopper sweep-up pipe (25), one end of this hopper sweep-up pipe (25) is connected to described fan housing (26), and the other end is connected to described dust removal of pneumatic separation system.
CN201320631674.2U 2013-06-25 2013-10-14 Cleaning sieve Expired - Lifetime CN203565366U (en)

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CN201320632556.3U Expired - Lifetime CN203565367U (en) 2013-06-25 2013-10-14 Cleaning sieve
CN201320632564.8U Withdrawn - After Issue CN203565370U (en) 2013-06-25 2013-10-14 Cleaning sieve
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CN203565369U (en) * 2013-06-25 2014-04-30 湖北叶威粮油机械有限公司 Cleaning sieve
CN104858143A (en) * 2015-05-27 2015-08-26 北京中天金谷科技股份有限公司 Heavy type intelligent environmental-friendly grain moving and purifying system
CN105890922A (en) * 2016-06-21 2016-08-24 王同国 Movable automatic grain sampling vehicle
CN106362950B (en) * 2016-12-11 2023-08-29 华北理工大学 Cyclone Negative Pressure Screen
CN108355960A (en) * 2018-04-26 2018-08-03 河北苹乐面粉机械集团有限公司 A kind of mobile cleaning central apparatus
CN108655005B (en) * 2018-04-27 2023-12-05 安徽神健粮食机械设备有限公司 Efficient and environment-friendly grain screening equipment
CN109158291B (en) * 2018-09-03 2024-05-17 河南威猛振动设备股份有限公司 Screening device
CN110882922B (en) * 2019-12-11 2022-03-15 安徽聚力粮机科技股份有限公司 Duplex combined grain cleaning equipment
CN111420648A (en) * 2020-04-01 2020-07-17 中冶长天国际工程有限责任公司 Dust purification method and dust purification device
CN112246601B (en) * 2020-08-12 2022-12-02 宁夏文顺新型炭材制品有限公司 Environment-friendly dust removal type integrated equipment

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CN104249059B (en) 2016-06-01
CN203565367U (en) 2014-04-30
CN203565368U (en) 2014-04-30
CN203565365U (en) 2014-04-30
CN203565369U (en) 2014-04-30
CN203565370U (en) 2014-04-30

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