CN117566342A - Air supply dust removal structure and integral type air cushion conveyer - Google Patents

Abstract

The invention relates to the technical field of dust removal, and in particular discloses an air supply dust removal structure and an integrated air cushion conveyor, which comprises the following components: the dust collection device comprises a dust collection tank, a dust collection pipe and an exhaust pipe, wherein the dust collection tank is connected with the dust collection pipe and the exhaust pipe, a second wind power generation part is connected to the exhaust pipe, a gas blowing pipe and a mounting frame are connected to the exhaust pipe, the mounting frame is inclined, a driving shaft and a driven shaft are connected to the mounting frame in a rotating mode, a belt is connected between the driving shaft and the driven shaft in a transmission mode, fan blades are connected to the driving shaft and located in the exhaust pipe, the fan blades can be pushed to enable the driving shaft to rotate when the exhaust pipe is exhausted, the belt can be used for throwing materials moving to the mounting frame upwards, and the gas blowing pipe can be used for blowing the materials thrown upwards; according to the air supply and dust removal structure and the integrated air cushion conveyor, the fan blades are pushed by wind power to drive the transmission among the driving shaft, the driven shaft and the belt, and the belt is used for throwing up materials, so that gaps in the materials are increased, and the dust removal effect on the materials is enhanced.

Description

Air supply dust removal structure and integral type air cushion conveyer

Technical Field

The invention relates to the technical field of dust removal, in particular to an air supply dust removal structure and an integrated air cushion conveyor.

Background

The dust removing mechanism is an important component structure on the air cushion conveyor, and can effectively remove dust generated by material conveying, so that the air quality and the safety of the working environment are ensured.

The Chinese patent document with the publication number of CN216320724U discloses an air cushion belt conveyor and an inserted dust remover thereof, wherein the inserted dust remover comprises a shell, and the shell is of a trapezoid structure; the pulse assembly is provided with an air storage tank and pulse valves, and the air outlet of each pulse valve is communicated with the inner cavity of the shell; the pulse pipeline comprises a pulse main pipe communicated with the pulse valve and a pulse branch pipe communicated with the pulse main pipe, and the pulse branch pipe is vertically arranged; the filter component is arranged in the shell and positioned below the pulse pipeline, the filter component is provided with a plurality of rows of filter bags which are vertically arranged, the bottom seal and the top of each filter bag are respectively in one-to-one correspondence with the upper end and the lower end of each pulse branch pipe, the dust remover is of a trapezoid structure with the upper part narrow and the lower part wide, the overall height of the dust remover is reduced, the stability during installation is improved, the area of an air inlet is also increased, the sedimentation time of dust is prolonged, the dust on the filter bags can be settled under the action of high-pressure pulse gas, and the dust is prevented from accumulating on the filter bags for a long time.

Disclosure of Invention

The invention provides an air supply and dust removal structure and an integrated air cushion conveyor, and aims to solve the problems that dust in a material is difficult to remove by a dust remover under the shielding of the material and the dust removal effect on the material is reduced in the related art.

The air supply dust removing structure of the invention comprises: the dust collection device comprises a dust collection tank, wherein dust collected from materials is stored in the dust collection tank, a dust collection pipe and an exhaust pipe are connected to the dust collection tank, a second wind power generation part is connected to the exhaust pipe, wind power can be generated by the second wind power generation part, external air can enter the dust collection tank through the dust collection pipe and is discharged outwards through the exhaust pipe, a gas blowing pipe and a mounting frame are connected to the exhaust pipe, the mounting frame is in an inclined shape, the mounting frame is located on a conveying track of the materials, the materials can be moved to the mounting frame in the conveying process, a driving shaft and a driven shaft are connected to the mounting frame in a rotating mode, a belt is connected between the driving shaft and the driven shaft, a fan blade is connected to the driving shaft, the fan blade is located in the exhaust pipe, and can push the fan blade to rotate when the exhaust pipe is exhausted, so that the driving shaft is driven to rotate, the belt can upwards blast the materials moving to the mounting frame, the gas blowing pipe can upwards blast the materials on the mounting frame, and the dust collection pipe can blow the materials upwards, and the dust in the dust collection tank can be conveyed from the interior.

Preferably, the installation frame is provided with a shaking part in a sliding and limiting manner, the shaking part is inclined, an elastic part is connected between the shaking part and the installation frame and used for driving the shaking part to reset, the driving shaft is connected with a pushing part, the shaking part is connected with a moving part, the driving shaft drives the pushing part to rotate and can push the moving part to move, the moving part can drive the shaking part to move, and after the pushing part is separated from the moving part, the elastic part can drive the shaking part to reset.

Preferably, the moving part is provided with an arc surface, and the arc surface is positioned on the rotating track of the pushing part.

Preferably, one end of the dust collection pipe far away from the dust collection tank is connected with a dust collection cover.

Preferably, the inside of the dust hood is connected with a shielding net and a rotating part, the rotating part is positioned below the shielding net, a second driving wheel is connected to the rotating part, a first driving wheel is connected to the driving shaft, a driving belt is connected between the first driving wheel and the second driving wheel, the driving shaft can drive the driving between the first driving wheel, the second driving wheel and the driving belt so as to enable the rotating part to rotate, a dispersing part is connected to the rotating part, the rotating part can drive the dispersing part to rotate, and the dispersing part can push upwards thrown materials to the bottom of the shielding net so as to enable the materials to collide with the shielding net.

Preferably, the exhaust pipe is connected with a branch pipe, the air blowing pipe is communicated with the branch pipe, the driving shaft is rotationally connected with the branch pipe, and the fan blade is positioned in the branch pipe.

Preferably, the air blowing pipe is provided with an air blowing port.

Preferably, the belt is connected with a convex strip.

Preferably, a dust collecting bag is connected to the inside of the dust collecting tank.

The following describes the integrated air cushion conveyor of the present invention:

the integrated air cushion conveyor of the invention adopts the air supply dust removal structure to remove dust.

The beneficial effects of the invention are as follows:

the fan blades are pushed by wind power to drive the driving shaft, the driven shaft and the belt, and the belt is used for throwing up materials, so that gaps in the materials are increased, and the dust removal effect on the materials is enhanced.

Drawings

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

Fig. 2 is a schematic perspective view of the air cushion conveyor of the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the air cushion conveyor of the present invention.

Fig. 4 is a schematic perspective view of an air supplying and dust removing mechanism of the present invention.

Fig. 5 is a schematic view of a part of a perspective structure of the air supplying and dust removing mechanism of the present invention.

Fig. 6 is a schematic sectional perspective view of a branch pipe of the present invention.

Fig. 7 is a schematic cross-sectional perspective view of the slinger of the present invention.

Fig. 8 is a schematic perspective view of a wobble assembly according to the present invention.

Fig. 9 is a schematic perspective view of a dispersion assembly according to the present invention.

Reference numerals:

1. an air cushion conveying mechanism; 11. a support frame; 111. a cavity; 112. an air outlet; 12. driven roller; 13. a drive roll; 14. a conveyor belt; 15. a rotational drive source; 16. a shielding cover; 17. a first wind power generation part; 2. an air supply dust removing mechanism; 21. a dust collection tank; 22. a dust collection pipe; 23. a dust hood; 24. an exhaust pipe; 25. a second wind generating part; 26. a branch pipe; 27. an air blowing pipe; 28. a slinging assembly; 281. a mounting frame; 282. a driving shaft; 283. a driven shaft; 284. a belt; 285. a convex strip; 286. a fan blade; 3. shaking the assembly; 31. a shaking part; 32. a pushing part; 33. a moving part; 34. an elastic part; 4. a dispersion assembly; 41. a rotating part; 42. a first driving wheel; 43. a second driving wheel; 44. a dispersing section; 45. a transmission belt; 46. a shielding net.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

As shown in fig. 1, 4 to 9, the air supply dust removing structure of the invention comprises an air supply dust removing mechanism 2 for throwing up materials and removing dust in the materials, wherein the air supply dust removing mechanism 2 is connected with a shaking component 3 for shaking the materials before the materials are upwards thrown up so as to disperse the piled materials, thereby enhancing the dust removing effect on the materials, and the air supply dust removing mechanism 2 is connected with a dispersing component 4 for dispersing the thrown materials again, thereby enhancing the dust removing effect on the materials.

As shown in fig. 1 and fig. 4 to fig. 7, the air supply and dust removal mechanism 2 comprises a dust collection tank 21, a ventilation dust collection bag (not shown in the drawings) is connected to the inside of the dust collection tank 21, a dust collection pipe 22 is connected to an air inlet of the dust collection tank 21, an exhaust pipe 24 is connected to an air outlet of the dust collection tank 21, a dust collection cover 23 is connected to one end, far away from the dust collection tank 21, of the dust collection pipe 22, the dust collection cover 23 is used for enhancing the dust collection effect of the dust collection pipe 22, a second wind generating component 25 is connected to the exhaust pipe 24, the second wind generating component 25 is a fan, the second wind generating component 25 is started to generate wind force, so that dust on materials enters the dust collection tank 21 through the dust collection cover 23 and the dust collection bag, dust is collected by the dust collection bag, two branch pipes 26 are connected to the exhaust pipe 24, an air blowing pipe 27 and a throwing component 28 are connected between the two branch pipes 26, the materials can be thrown upwards, after the second wind generating component 25 generates wind force, the air enters the air pipe 27 through the air blowing pipe 24, and the dust collection pipe 27 is enabled to enter the dust collection pipe 27, and the dust collection pipe 21 is enabled to be blown into the dust collection pipe 21 through the dust collection cover.

With continued reference to fig. 1, fig. 4 to fig. 7, the throwing assembly 28 includes a mounting rack 281 connected between two branch pipes 26, the mounting rack 281 is inclined, the mounting rack 281 is located on a conveying track of materials, the materials can move to the mounting rack 281 through inertia in the conveying process of the materials, a driving shaft 282 and a driven shaft 283 are connected to the inner side of the mounting rack 281 in a rotating mode, a belt 284 is connected between the driving shaft 282 and the driven shaft 283 in a transmission mode, two ends of the driving shaft 282 extend into the two branch pipes 26 respectively and are connected with fan blades 286, the fan blades 286 can be pushed when the exhaust pipe 24 exhausts air, so that the fan blades 286 drive the driving shaft 282 to rotate, and accordingly drive among the driving shaft 282, the driven shaft 283 and the belt 284 is driven by the motor, in other embodiments, a motor can be added, the output shaft of the motor is connected with the driving shaft 282 to rotate, the belt 284 is connected with a raised line 285, the materials can be pushed to rise upwards, and the throwing height of the materials can be increased when the conveying speed of the materials is slower through the transmission among the driving shaft 282, the driven shaft 283 and the belt 284, and the dust removal effect of the materials is enhanced.

The second wind power generation part 25 is started to generate wind power, external air is conveyed into the dust collection tank 21 through the dust collection pipe 22, the air in the dust collection tank 21 is conveyed into the air blowing pipe 27 through the air blowing pipe 24 and is discharged outwards through an air blowing port on the air blowing pipe 27, when the air blowing pipe 24 is exhausted, the fan blades 286 are pushed by the air to enable the fan blades 286 to drive the driving shaft 282 to rotate, so that transmission among the driving shaft 282, the driven shaft 283 and the belt 284 is driven, the materials pass through the mounting frame 281 in the conveying process of the materials, at the moment, the materials can move to the mounting frame 281 through inertia, at the moment, the materials are driven to be thrown upwards through the belt 284, so that gaps among the materials are increased, the materials thrown upwards are blown through the air blowing port, and dust is blown to the dust collection hood 23, so that the dust enters the dust collection tank 21 through the dust collection hood 23 and the dust collection bag.

As shown in fig. 5 to 8, the shaking assembly 3 includes a shaking portion 31 that is limited and slidingly connected to a mounting frame 281, and a pushing portion 32 that is connected to a driving shaft 282, where the shaking portion 31 is inclined, a moving portion 33 is connected to the shaking portion 31, the moving portion 33 has an arc surface, the arc surface is located on a movement track of the pushing portion 32, and when the driving shaft 282 rotates, the arc surface on the moving portion 33 can be pushed, so that the moving portion 33 moves and drives the shaking portion 31 to move, the shaking portion 31 and the mounting frame 281 are connected with an elastic portion 34, and the elastic portion 34 is a spring for pulling the shaking portion 31 to reset.

The material that moves to on the mounting bracket 281 is earlier through rocking part 31, then drive the material by belt 284 and upwards throw up, drive pushing part 32 when driving shaft 282 rotates and promote the removal of moving part 33 to drive and rock part 31 and remove, after pushing part 32 crosses moving part 33, drive through elastic part 34 and rock part 31 and reset, so that rock part 31 reciprocal rocks, rock through rocking part 31, can disperse the material through rocking part 31, increase the clearance between the material, thereby strengthen the dust removal effect to the material.

As shown in fig. 4 and 9, the dispersing unit 4 includes a rotating part 41 connected to the dust hood 23, a first driving wheel 42 connected to the driving shaft 282, and a shielding net 46 connected to the dust hood 23, where the shielding net 46 is located above the rotating part 41, a second driving wheel 43 is connected to the rotating part 41, a driving belt 45 is connected between the second driving wheel 43 and the first driving wheel 42, and a dispersing part 44 is connected to the rotating part 41, when the driving shaft 282 rotates, the driving shaft 282 drives the driving between the first driving wheel 42, the second driving wheel 43 and the driving belt 45 to rotate the rotating part 41, and the rotating part 41 rotates the dispersing part 44 and pushes the upward thrown material to the bottom of the shielding net 46, so that the material collides with the shielding net 46, and the material is dispersed again, so that the dust removing effect on the material is further enhanced.

As shown in fig. 1 to 3, the invention further provides an integrated air cushion conveyor, which comprises an air cushion conveying mechanism 1, the air cushion conveying mechanism 1 comprises a supporting frame 11, two ends of the inner side of the supporting frame 11 are respectively connected with a driven roller 12 and a driving roller 13 in a rotating way, a conveying belt 14 is connected between the driven roller 12 and the driving roller 13 in a transmission way, a rotating driving source 15 is connected to the supporting frame 11, the rotating driving source 15 is a motor, an output shaft of the rotating driving source 15 is connected with the driving roller 13, the rotating driving source 15 is started to drive the driven roller 12, the driving roller 13 and the conveying belt 14, so that the conveying belt 14 conveys materials, a cavity 111 is arranged in the supporting frame 11, an air outlet 112 is arranged on the inner wall of the cavity 111, the air outlet 112 can upwards discharge air and form an air film with the conveying belt 14, the conveying belt 14 is supported by the air film, a first wind generating part 17 is connected to the supporting frame 11, the first wind generating part 17 is a fan, the first wind generating part 17 can convey air into the cavity 111, the top of the supporting frame 11 is connected with a shielding cover 16, and simultaneously dust in the material can be shielded, and the dust in the material can be prevented from falling into the outside and impurities in the outside are prevented.

The first wind power generation part 17 is started to convey air into the cavity 111, the air in the cavity 111 is discharged upwards through the air outlet 112, an air film is formed between the air film and the conveyer belt 14, the conveyer belt 14 is supported through the air film, the rotation driving source 15 is started to drive the driven roller 12, the driving roller 13 and the conveyer belt 14 to drive, and materials are conveyed through the conveyer belt 14.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. An air supply dust removal structure, characterized by comprising:

the dust collection device comprises a dust collection tank (21) for storing dust collected from materials, wherein a dust collection pipe (22) and an exhaust pipe (24) are connected to the dust collection tank (21), a second wind power generation part (25) is connected to the exhaust pipe (24), wind power can be generated by the second wind power generation part (25), external air can enter the dust collection tank (21) from the dust collection pipe (22) and is discharged outwards from the exhaust pipe (24), a blowing pipe (27) and a mounting frame (281) are connected to the exhaust pipe (24), the mounting frame (281) is inclined, the mounting frame (281) is located on a conveying track of the materials, the materials can be moved to the mounting frame (281) in the conveying process, a driving shaft (282) and a driven shaft (283) are rotatably connected to the mounting frame (281), a belt (284) is connected between the driving shaft (282) and the driven shaft (283), fan blades (286) are connected to the driving shaft (282), the fan blades (282) are located in the exhaust pipe (24) and can drive the driving shaft (282) to rotate when the fan blades (282) and the driven shaft (282) to drive the belt (283), the belt (284) can be used for throwing up the material moving to the mounting frame (281), the air blowing pipe (27) can be used for blowing air to the material which is thrown up, and the dust collection pipe (22) can be used for conveying dust blown out from the material into the dust collection tank (21).

2. The air supply dust removal structure according to claim 1, wherein the mounting frame (281) is provided with a shaking portion (31) in a limiting sliding manner, the shaking portion (31) is inclined, an elastic portion (34) is connected between the shaking portion (31) and the mounting frame (281) and used for driving the shaking portion (31) to reset, the driving shaft (282) is provided with a pushing portion (32), the shaking portion (31) is provided with a moving portion (33), the driving shaft (282) drives the pushing portion (32) to rotate so as to push the moving portion (33) to move, the moving portion (33) can drive the shaking portion (31) to move, and after the pushing portion (32) is separated from the moving portion (33), the elastic portion (34) can drive the shaking portion (31) to reset.

3. The air-supplying and dust-removing structure according to claim 2, wherein the moving portion (33) is provided with an arcuate surface on a rotational locus of the pushing portion (32).

4. The air supply and dust removal structure according to claim 1, wherein a dust hood (23) is connected to an end of the dust collection pipe (22) away from the dust collection tank (21).

5. The air supply and dust removal structure according to claim 4, wherein a shielding net (46) and a rotating part (41) are connected to the inner side of the dust hood (23), the rotating part (41) is located below the shielding net (46), a second driving wheel (43) is connected to the rotating part (41), a first driving wheel (42) is connected to the driving shaft (282), a driving belt (45) is connected between the first driving wheel (42) and the second driving wheel (43), the driving shaft (282) can drive the driving between the first driving wheel (42), the second driving wheel (43) and the driving belt (45) so that the rotating part (41) rotates, a dispersing part (44) is connected to the rotating part (41), the dispersing part (41) can drive the dispersing part (44) to rotate, and the dispersing part (44) can push up-thrown material to the bottom of the shielding net (46) so that the shielding net (46) collides with the material.

6. The air supply and dust removal structure according to claim 1, wherein the exhaust pipe (24) is connected with a branch pipe (26), the air blowing pipe (27) is communicated with the branch pipe (26), the driving shaft (282) is rotatably connected with the branch pipe (26), and the fan blade (286) is located in the branch pipe (26).

7. The air supply and dust removal structure according to claim 1, wherein the air blowing pipe (27) is provided with an air blowing port.

8. The air-supplying and dust-removing structure according to claim 1, wherein the belt (284) is connected with a convex strip (285).

9. The air supply and dust removal structure according to claim 1, wherein a dust bag is connected to the inside of the dust collection tank (21).

10. An integrated air cushion conveyor characterized in that the air supply dust removal structure according to any one of the preceding claims 1-9 is used for dust removal.