阅读说明：本技术 一种风选设备 (Winnowing equipment ) 是由 刘俊祥 孔庆锋 曹春峰 刘强 于 2020-12-22 设计创作，主要内容包括：一种风选设备,属于分选设备技术领域。包括壳体,设有入风部；筛选装置,位于所述壳体内,所述筛选装置与所述壳体之间形成供待风选物通过的环形风选通道；导向件,设置在所述环形风选通道内,并位于所述入风部位置,所述导向件沿所述环形风选通道其一方向倾斜设置,用于引导从入风部进入的风沿该方向流动。本申请的待风选物是通过在环形风选通道内移动,并向装置的中心聚集以通过筛选装置进行筛选,因此其不需要具有现有技术中的较大的空间以用于待风选物受力飞行并实现不同物质对应的落点,因此本发明相对于现有技术中的风选设备占地面积更小。(A winnowing device belongs to the technical field of sorting devices. Comprises a shell, which is provided with an air inlet part; the screening device is positioned in the shell, and an annular air separation channel for the object to be air separated to pass through is formed between the screening device and the shell; the annular air separation channel is arranged in the air inlet part, and the air inlet part is arranged at the position of the annular air separation channel. The object to be winnowed moves in the annular winnowing channel and is gathered towards the center of the device to be screened by the screening device, so that the object to be winnowed does not need to have a larger space in the prior art to be stressed and flown and realize the corresponding drop points of different substances, and the occupied area of the winnowing device is smaller compared with that of the winnowing device in the prior art.)

1. An air classification apparatus, comprising:

a housing (1) provided with an air inlet part (2);

the screening device (4) is positioned in the shell (1), and an annular air separation channel (21) for allowing objects to be air-separated to pass is formed between the screening device (4) and the shell (1);

the guide piece (8) is arranged in the annular air separation channel (21) and is positioned at the air inlet part (2), and the guide piece (8) is obliquely arranged along one direction of the annular air separation channel (21) and is used for guiding the air entering from the air inlet part (2) to flow along the direction.

2. An air classification apparatus according to claim 1, characterised in that the screening device (4) comprises:

the air separation device comprises a screen (5) which is a cylindrical structure arranged in the shell (1), wherein an annular air separation channel (21) is formed between the screen (5) and the shell (1).

3. An air classification apparatus according to claim 2, characterised in that the screening device (4) further comprises:

and the cyclone dust collector (7) is positioned in the inner cavity of the cylindrical screen (5).

4. An air classification apparatus according to claim 3, characterised in that the air inlet (13) of the cyclone (7) is arranged towards the screen (5); and the air inlet (13) extends in a tangential direction of the screen (5).

5. The winnowing device according to claim 4, characterized in that the number of the cyclones (7) is plural and a plurality of the cyclones (7) are arranged along the peripheral wall of the screen (5).

6. An air classification apparatus according to claim 5, characterised in that the screening device (4) further comprises:

the cover body (14) is arranged at the position of the air outlet part (3) of the shell (1), and a through hole is formed in the cover body (14).

7. An air classification apparatus according to any one of claims 3-6, characterised in that the screening device (4) further comprises:

and the dust collection box (15) is communicated with the dust outlet (11) of the cyclone dust collector (7).

8. An air classification apparatus according to any one of claims 2-6, characterised in that the screening device (4) further comprises:

and the stopper (6) is arranged in the annular winnowing channel (21) and is used for stopping winnowing matters positioned below the stopper (6) from ascending.

9. An air classification apparatus according to claim 8, characterized in that the stopper (6) is arranged at the lower end of the screen (5) and extends towards the bottom of the housing (1) to form a trumpet.

10. Winnowing device according to any one of claims 1 to 6, characterized in that the air outlet (3) of the housing (1) is connected to an air pump (19) via an air suction line (18).

11. The air classification apparatus according to claim 10, characterized in that the air outlet portion (3) is connected to the air suction duct (18) by a suction chamber (17), the cross-sectional area of the suction chamber (17) being between the housing (1) and the air suction duct (18).

12. The air separation plant according to any of claims 3 to 6 for air separation of construction waste.

Technical Field

The invention relates to the technical field of sorting equipment, in particular to winnowing equipment.

Background

The winnowing method is a method for removing impurities by wind power by utilizing the difference of suspension speeds between materials and impurities, is suitable for separating solid wastes with similar particle shapes and sizes, and can be used for removing light impurities and dust and removing part of heavier impurities such as stones and soil blocks after crushing and screening.

The existing winnowing equipment has two types, one type is that the winnowing equipment is arranged to provide wind power in a fixed direction for an object to be winnowed, so that the object to be winnowed flies in the air under stress, and the object to be winnowed and impurities fall at positions with different distances due to different mass and suspension speed of the object to be winnowed and the impurities, so that the separation is realized; the other way is that a winnowing impeller is arranged in the center of the equipment, and airflow is driven to generate centrifugal force through the rotation of the winnowing impeller, so that objects to be winnowed which are input from the top of the equipment are thrown out to the periphery, and the objects to be winnowed fly for a certain distance in the air under stress, and because the mass and the suspension speed of the materials and the impurities in the objects to be winnowed are different, the throwing distances of the materials and the impurities are different, and therefore, the separation is realized; therefore, the two modes are realized by enabling the object to be separated to fly for a certain distance under stress and realizing separation by different moving distances of the object and the impurities under stress. Therefore, the two modes need to have larger space so as to facilitate the object to be winnowed to fly under stress and realize that different substances have corresponding drop points, and the winnowing equipment in the prior art has the problem of larger occupied area.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the problem that the air separation equipment in the prior art occupies a large area, so that the air separation equipment is provided.

The invention provides the following technical scheme:

an air classification apparatus comprising:

a housing provided with an air inlet portion;

the screening device is positioned in the shell, and an annular air separation channel for the object to be air separated to pass through is formed between the screening device and the shell;

the annular air separation channel is arranged in the air inlet part, and the air inlet part is arranged at the position of the annular air separation channel.

Optionally, the screening device comprises:

the screen is a cylindrical structure arranged in the shell, and the annular air separation channel is formed between the screen and the shell.

Optionally, the screening apparatus further comprises:

and the cyclone dust collector is positioned in the inner cavity of the cylindrical screen.

Optionally, the air inlet of the cyclone is arranged towards the screen; and the air inlet extends in a tangential direction of the screen.

Optionally, the number of the cyclone dust collectors is plural, and the plural cyclone dust collectors are arranged along the peripheral wall of the screen.

Optionally, the screening apparatus further comprises:

the cover body is arranged at the air outlet part of the shell, and a through hole is formed in the cover body.

Optionally, the screening apparatus further comprises:

and the dust collection box is communicated with the dust outlet of the cyclone dust collector.

Optionally, the screening apparatus further comprises:

and the stopper is arranged in the annular air separation channel and used for stopping the air separation object below the stopper from moving upwards.

Optionally, the stopper is disposed at a lower end of the screen and extends toward the bottom of the housing to form a trumpet shape.

Optionally, the air outlet portion of the housing is connected with the air pump through an air suction pipeline.

Optionally, the air outlet portion is connected with the air suction pipeline through an air suction cavity, and the sectional area of the air suction cavity is between the shell and the air suction pipeline.

Optionally, the air separation device is used for air separation of the construction waste.

The technical scheme of the invention has the following advantages:

1. the invention provides winnowing equipment which comprises a shell, a wind inlet part and a wind outlet part, wherein the shell is provided with a wind inlet part; the screening device is positioned in the shell, and an annular air separation channel for the object to be air separated to pass through is formed between the screening device and the shell; the annular air separation channel is arranged in the air inlet part, and the air inlet part is arranged at the position of the annular air separation channel.

The invention arranges the guiding element at the air inlet part in the annular air separation channel, so that the object to be air separated and air entering the shell from the air inlet part are guided by the guiding element and then move along the annular air separation channel, in the process, the heavier part of the object to be winnowed falls on the bottom of the annular winnowing channel, and when wind moves, the object to be winnowed is driven to move towards the screening device because of the obstruction of the guide piece positioned in the front of the moving direction, thereby screening by the screening device, compared with the prior art that the wind power equipment is arranged to provide wind power with fixed direction for the object to be winnowed to carry out winnowing, and the object to be winnowed is driven by the centrifugal force of the air flow to be thrown out to the periphery for winnowing, the object to be winnowed does not need to fly outwards for a certain distance in a certain fixed direction or in a diffusion way, and the separation is carried out by different forced moving distances of the materials and the impurities in the prior art. But by moving in the annular air separation channel and gathering towards the center of the device for screening by the screening device, therefore, the invention does not need to have larger space in the prior art for the object to be air separated to fly under force and realize the corresponding drop points of different materials, thereby having smaller occupied area compared with the air separation equipment in the prior art.

2. The screening device comprises a screen mesh which is a cylindrical structure arranged in the shell, and the annular air separation channel is formed between the screen mesh and the shell.

The invention arranges the screen to screen the object to be winnowed, so that when the object to be winnowed is driven by wind to move towards the center of the device, the object to be winnowed firstly passes through the screen to intercept the larger-volume substance in the annular winnowing channel.

3. The screening device of the winnowing equipment provided by the invention further comprises a cyclone dust collector which is positioned in the inner cavity of the cylindrical screen.

Compared with the prior art, the invention does not generate raise dust and further avoids air pollution, and the cyclone dust collector can generate negative pressure in the inner cavity of the screen mesh so as to improve the screening efficiency.

4. According to the winnowing equipment provided by the invention, the air inlet of the cyclone dust collector is arranged towards the screen; and the air inlet extends in a tangential direction of the screen.

The air inlet of the cyclone dust collector is arranged towards the screen and extends along the tangential direction of the screen, so that wind can directly enter the cyclone dust collector along the moving direction, and the screening efficiency can be effectively improved without being hindered.

5. According to the air separation equipment provided by the invention, the number of the cyclone dust collectors is multiple, and the cyclone dust collectors are arranged along the peripheral wall of the screen.

The cyclone dust collector is provided with a plurality of cyclone dust collectors which are arranged along the peripheral wall of the screen, and compared with the cyclone dust collector which is only provided with one cyclone dust collector, the wind power and the air volume required by the invention are smaller, so that the phenomenon that materials with larger particles are brought into the cyclone dust collector due to overlarge wind power and air volume can be avoided; in addition, compared with the case that only one cyclone dust collector is arranged, the dust collection effect is better.

6. The screening device of the winnowing equipment provided by the invention further comprises a cover body, wherein the cover body is arranged at the air outlet part of the shell body, and a through hole is formed in the cover body.

The cover body can prevent dust collected by the cyclone dust collector from being driven by wind power, and the screening device is taken out from a gap between the cyclone dust collectors, so that dust is prevented from flying.

7. The screening device of the winnowing equipment provided by the invention also comprises a stopper which is arranged in the annular winnowing channel and used for stopping winnowing matters positioned below the stopper from ascending.

The baffle is arranged in the annular winnowing channel and used for blocking winnowing matters below the baffle from ascending, so that the winnowing matters are prevented from ascending to participate in screening by the screening device again, the screening pressure of the screening device is effectively reduced, and the screening effect of the screening device is favorably improved.

8. According to the winnowing equipment provided by the invention, the air outlet part of the shell is connected with the air pump through the air suction pipeline.

According to the invention, the air suction pipeline and the air pump are arranged, and power is provided for the movement of air in the shell through suction, so that the air drives the object to be winnowed to move towards the screening device.

9. According to the air separation equipment provided by the invention, the air outlet part is connected with the air suction pipeline through the air suction cavity, and the sectional area of the air suction cavity is between the shell and the air suction pipeline.

The invention is provided with the air suction cavity to adjust the wind power and the air quantity of the air outlet part, so that the wind power and the air quantity of the air outlet part are prevented from being too large, dust is further brought out of the screening device, and the dust is prevented from flying, and the sectional area of the air suction cavity is smaller than that of the shell so as to prevent the air suction cavity from directly sucking objects to be winnowed in the annular winnowing channel and prevent the objects to be winnowed from being directly discharged out of the equipment.

10. The air separation equipment provided by the invention is used for air separation of the building garbage.

The winnowing equipment provided by the invention is suitable for winnowing the building garbage, and compared with the prior art that the building garbage is required to be dedusted by water during winnowing, the winnowing equipment can directly realize dedusting effect in the winnowing process, save water resources and avoid water pollution.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a top view of the housing and the sieving apparatus according to example 1 of the present invention;

fig. 3 is a partial structural schematic view of a screening device in embodiment 1 of the present invention.

Description of reference numerals:

1. a housing; 2. an air inlet part; 3. an air outlet part; 4. a screening device; 5. screening a screen; 6. a stopper; 7. a cyclone dust collector; 8. a guide member; 9. a barrel; 10. a cone; 11. a dust outlet; 12. an air outlet cylinder; 13. an air inlet; 14. a cover body; 15. a dust collection box; 16. a fixing plate; 17. an air suction chamber; 18. an air intake pipeline; 19. an air pump; 20. an air outlet; 21. an annular air separation channel.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.

Example 1

The present embodiment provides a winnowing apparatus, as shown in fig. 1-3, comprising a housing 1, which is provided with an air inlet portion 2 and an air outlet portion 3, the air inlet portion 2 is disposed on a side wall of the housing 1, the air inlet portion 2 of the present embodiment is an air inlet channel, the air outlet portion 3 of the present embodiment is disposed on a top of the housing 1, the air outlet portion 3 of the present embodiment is an air outlet, an air suction chamber 17 communicated with the air outlet portion 3 is disposed above the air outlet portion 3, the air suction chamber 17 is connected to an air pump 19 through an air suction pipeline 18, a cross-sectional area of the air suction chamber 17 is between the housing 1 and the air suction pipeline 18, a cross-sectional area of the air suction chamber 17 of the present embodiment is the same as that of the air inlet portion 2, air in the housing 1 is extracted by the air pump 19, external air is supplemented into the housing 1 from the air inlet portion 2 to form air for driving an object to be winnowed to move, the air extracted by the air pump, the air pump 19 of the present embodiment is a high-pressure vortex air pump.

Sieving mechanism 4 is located casing 1 to correspond 3 positions in the air-out portion, sieving mechanism 4 includes screen cloth 5, and screen cloth 5 is the tubular structure who sets up in casing 1, forms the annular selection by winnowing passageway 21 that supplies to wait to select by winnowing thing to pass through between screen cloth 5 and the casing 1, and screen cloth 5 lower extreme is provided with and is located annular selection by winnowing passageway 21 and keeps off piece 6, keeps off piece 6 and extends in order to form loudspeaker form towards casing 1 bottom for it goes upward to block to be located the selection by winnowing thing that keeps off piece 6 below. The screening device 4 further comprises a plurality of cyclone dust collectors 7 connected through a fixing plate 16, the plurality of cyclone dust collectors 7 are all located in the inner cavity of the cylindrical screen 5 and are arranged along the peripheral wall of the screen 5, the cyclone dust collectors 7 of the embodiment comprise a cylinder 9 and a cone 10 which are connected, the cylinder 9 is provided with an air inlet 13, the air inlet 13 is arranged towards the screen 5 and extends along the tangential direction of the screen 5, the side with the larger inner diameter of the cone 10 is connected with the bottom of the cylinder 9, the side with the smaller inner diameter of the cone 10 is provided with a dust outlet 11, the cyclone dust collectors 7 further comprise an air outlet cylinder 12, the air outlet cylinder 12 extends into a dust removing space formed by the cylinder 9 and the cone 10 from the top of the cylinder 9, a cover body 14 is arranged at the top of the plurality of cyclone dust collectors 7, the cover body 14 is located at the air outlet part 3, a through hole matched with the air outlet cylinder 12 is arranged on the cover body 14, which is communicated with the dust outlets 11 of the plurality of cyclones 7 for collecting the substances discharged from the cyclones 7.

The guide 8, set up in annular selection by winnowing passageway 21, and be located the portion 2 position of admitting air, guide 8 sets up along the slope of an orientation of annular selection by winnowing passageway 21, be used for guiding the wind that gets into from the portion 2 of admitting air to flow along this direction, and make wind drive the thing of waiting to winnowing and get into sieving mechanism 4 through hindering simultaneously, guide 8 of this embodiment is the deflector that links to each other with casing 1 top, and the both ends of deflector link to each other with casing 1's inner wall and screen cloth 5 respectively, in other embodiments, there is the gap between the tip of deflector and corresponding casing 1 inner wall and screen cloth 5.

The winnowing equipment of this embodiment is applicable to and carries out the selection by winnowing to building rubbish, compares and need the water to remove dust when carrying out the selection by winnowing to building rubbish among the prior art, and the dust removal effect can directly be realized to this embodiment at the selection by winnowing in-process, saves the water resource, avoids causing water pollution.

When in use, the air pump 19 is started to form air flow which can drive the object to be winnowed to move in the shell 1, the object to be winnowed is put into the shell 1 from the air inlet part 2, the object to be winnowed moves in the annular winnowed channel 21 under the action of the guide piece 8 and the air flow, in the moving process, heavier materials fall on the bottom of the shell 1 and cannot go upwards under the blocking action of the blocking piece 6, meanwhile, in the moving process, the object to be winnowed is driven to move to the screening device 4 because the air flow is blocked by the guide piece 8 positioned in front of the moving direction, the materials with larger particles are screened by the screen 5 and are left in the annular winnowed channel 21, the materials with smaller particles and dust pass through the screen 5 and then enter the cyclone dust collector 7 and finally fall in the dust collecting box 15, the air in the shell 1 is discharged from the air outlet 20 by the air pump 19 through the air outlet cylinder 12, and the discharged gas can not cause dust raising.

For the mode of providing the wind-force of fixed direction with carrying out the selection by winnowing among the prior art through setting up wind power equipment to treating the selection by winnowing thing, and the centrifugal force through the air current drives and treats that the selection by winnowing thing throws out in order to carry out the selection by winnowing to all around, the selection by winnowing thing of treating of this embodiment need not outwards fly a section distance to certain fixed direction or with the mode of diffusion, and the distance that moves through material and impurity atress is different in order to select separately, but through removing in annular selection by winnowing passageway 21, and gather in order to filter through sieving mechanism 4 to the center of device, consequently it need not have the great space among the prior art in order to be used for treating that the selection by winnowing thing atress flies and realize the drop that different materials correspond, consequently area is little.

The invention is not limited to the components of the screening device 4, and in other embodiments, the screening device 4 is a collection chamber disposed at the center of the inner ring of the annular air separation channel 21, and the air outlet of the annular air separation channel 21 is disposed on the collection chamber. And the collecting bin is provided with a communicating hole for communicating the collecting bin with the annular winnowing channel 21.

The material flows in annular selection by winnowing passageway 21, because the air outlet sets up on collecting the storehouse, so can produce the appeal to the interior object of annular selection by winnowing passageway 21, the material can get into through above-mentioned intercommunicating pore and collect the storehouse. Because the diameter of above-mentioned intercommunicating pore is the definite value, the great material of volume can the separation in annular selection by winnowing passageway 21, and the less material of volume can get into the collection storehouse through the intercommunicating pore to realize selecting separately the process.

The invention is not limited to the specific structure of the guiding element 8, and in other embodiments, the guiding element 8 is a plastic film or a cloth strip which is arranged in the annular air separation channel 21 at the position of the air inlet part 2 through a bracket and is used for guiding the air entering from the air inlet part 2 to flow along the direction and simultaneously driving the object to be air separated into the screening device 4 through obstruction.

The present invention is not limited to the specific structure of the casing 1, and in other embodiments, the bottom of the casing 1 is open, and the material falling from the annular air separation channel 21 can be directly discharged out of the casing 1 through the opening.

The number of the cyclone dust collectors 7 is not particularly limited in the present invention, in other embodiments, only one cyclone dust collector 7 may be provided, the air inlet 13 of the cyclone dust collector 7 is disposed toward the guide member 8, and when only one cyclone dust collector 7 is provided, the top of the cylinder 9 of the cyclone dust collector 7 is directly disposed at the air outlet portion 3, so that the cover 14 may not be provided.

The invention is not restricted to the components of the air separation plant, but in other embodiments it has only the housing 1, the screening device 4 and the guide 8, which are separated by the air flow and the material to be screened entering the air inlet 2.

The purpose of the winnowing equipment is not particularly limited, and in other embodiments, the winnowing equipment can also winnow cotton seeds, sunflower seeds, grains, tobacco and the like.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.