CN218024353U - Dustless feeding device in bulk - Google Patents

Abstract

The utility model discloses a dustless feeding device in bulk relates to material storage field technical field. The bulk dust-free feeding device comprises: the dust collection device comprises a dust prevention frame, dust collection pipes, a plurality of groups of guide partition plates and dust separation curtains matched with the guide partition plates; the dust-collecting device comprises a dust-collecting curtain, a plurality of groups of guide partition plates, a dust-collecting pipe and a dust-collecting pipe, wherein the plurality of groups of guide partition plates are arranged in a horizontal plane and are arranged at intervals in the inner ring of a dust-collecting frame, the top ends of the dust-collecting curtain are respectively and rotatably connected with the matched guide partition plates and form a cavity with a downward opening with the guide partition plates, and the dust-collecting pipe is arranged in the cavity. Therefore, the problems that in the industries of sand stone, grain and ceramics, the workshop is dedusted by high-power dedusting equipment, the dedusting energy consumption is high, the dedusting effect is poor, and the clean working environment cannot be maintained are solved.

Description

Dustless feeding device in bulk

Technical Field

The utility model relates to a material storage field technical field especially relates to a dustless feeding device in bulk.

Background

With the development of society, the requirement on environmental protection is higher and higher; in the field of material storage and transportation, the environmental protection requirement of equipment is also paid attention to continuously, and dust prevention is imperative. At present, in the industries of sandstone, grain and ceramics, many material workshops are subjected to closed operation, and meanwhile, high-power dust removal equipment is used for removing dust in the workshops, so that the dust removal energy consumption is high; moreover, dust generation is not restrained from the source, the dust removal effect is poor, and a clean working environment cannot be maintained. Some enterprises consider that the cover is added on the stock bin, and although the dust emission amount is reduced to a certain extent, dust removal equipment is needed, and a large amount of energy consumption is still consumed.

Therefore, the prior art needs to be improved, a more reasonable technical scheme is provided, and the problems in the prior art are solved.

SUMMERY OF THE UTILITY MODEL

The dust removal device aims to solve the problems that in the industries of sandstone, grain and ceramics, high dust removal energy consumption, poor dust removal effect and incapability of maintaining a clean working environment are caused by the fact that high-power dust removal equipment is used for removing dust in a workshop.

The embodiment of the utility model provides a dustless feeding device in bulk, include: dustproof frame, tub, multiunit direction baffle and the dust proof curtain that matches with the direction baffle.

The dust-proof device comprises a dust-proof frame, a plurality of groups of guide partition plates, dust-proof curtains and dust collecting pipes, wherein the plurality of groups of guide partition plates are horizontally arranged and are arranged at intervals on the inner ring of the dust-proof frame, the top ends of the dust-proof curtains are respectively and rotatably connected with the matched guide partition plates and form a cavity with a downward opening with the guide partition plates, and the dust collecting pipes are arranged in the cavity.

In one possible design, the bulk dust-free charging device further comprises a grid; the grids are connected with the top of the dustproof frame and are arranged right above the multiple groups of guide partition plates.

In a possible design, the guide partition plate comprises a first guide plate and a second guide plate connected with the first guide plate, the first guide plate and the second guide plate are arranged on the inner ring of the dustproof frame in an inverted V shape, the width of the first guide plate is larger than that of the second guide plate, and the dust separation curtain is rotatably connected with the second guide plate.

In one possible design, the bottom end of the first guide plate is positioned right below the bottom end of the first guide plate adjacent to the first guide plate, the dust-proof curtain is rotatably connected with the bottom end of the second guide plate, and the bottom end of the dust-proof curtain is attached to the bottom end of the first guide plate.

In one possible design, the dust collecting pipe comprises a main pipe and bottom branch pipes, the main pipe is arranged on the periphery of the dust-proof frame, and the bottom branch pipes are respectively arranged in the cavities and connected with the main pipe after penetrating through the dust-proof frame.

In one possible design, the dust collection pipe further comprises top branch pipes, and the top branch pipes are arranged between two adjacent groups of the first guide plates at intervals.

In one possible design, the minimum angle between the first guide plate and/or the second guide plate and the horizontal plane is greater than or equal to 45 °.

In one possible design, the dust curtain is made of a flexible material.

In one possible embodiment, the bulk dust-free charging device further comprises a vacuum cleaner, which is connected to the dust collection pipe.

In one possible design, the bulk dust-free feeding device further comprises a storage bin which is detachably connected with the dust-proof frame.

In this embodiment, the dust-free bulk charging device is used to connect with an external device inlet, and the material enters the device inlet from the dust-free bulk charging device. The dustproof frame can be arranged according to the size of the shape of an external equipment inlet, so that the dustproof frame is matched with the external equipment inlet, the multiple groups of guide partition plates are arranged in a horizontal plane and are arranged at the inner ring of the dustproof frame at intervals, the top ends of the dust-proof curtains are respectively rotatably connected with the matched guide partition plates, the dust-proof curtains and the guide partition plates form a cavity with a downward opening, and the dust-collecting pipes are arranged in the cavity. The material advances to get into through the clearance of adjacent direction baffle from the upper end of direction baffle to the extrusion sets up and falls into in the external device entrance of being connected with dustproof frame behind the dust proof curtain between the adjacent direction baffle clearance, the dust that the material striking produced after entering into the equipment entrance separates with the external world through the dust proof curtain, inhales the dust through the pipe that gathers dust that sets up in the cavity simultaneously, when in order to reduce the material and get into external device, to the dust of external diffusion, reduce the pollution to operational environment. Therefore, the problems that in the industries of sand stone, grain and ceramics, the workshop is dedusted by high-power dedusting equipment, the dedusting energy consumption is high, the dedusting effect is poor, and the clean working environment cannot be maintained are solved.

Set up the grid through the top at dustproof frame, can cushion the material when empting the material, reduce the direct dynamics that strikes the direction baffle of material to can prevent through the aperture size that sets up the grid that the foreign matter from entering into external equipment entrance, play the guard action. Wherein, it can be clear that the grid can be dismantled with dustproof frame and be connected to change the grid according to the size of material.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a front view of a bulk dust-free charging apparatus;

fig. 2 is a top view of a bulk dust-free charging apparatus.

Icon: 1-bulk dust-free feeding device; 10-a dustproof frame; 11-a dust collecting pipe; 23-a guide spacer; 12-dust-proof curtain; 13-inner ring; 14-a cavity; 15-a grid; 16-a first guide plate; 17-a second guide plate; 18-main tube; 19-bottom leg; 20-top manifold; 21-a dust collector; 22-bunker.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

Referring to fig. 1 to fig. 2, a bulk dust-free feeding device 1 according to an embodiment of the present invention includes: the dust collecting device comprises a dust preventing frame 10, dust collecting pipes 11, a plurality of groups of guide partition plates 23 and dust isolating curtains 12 matched with the guide partition plates 23.

The multiple groups of guide partition plates 23 are horizontally arranged and are arranged at intervals on the inner ring 13 of the dustproof frame 10, the top ends of the dust-proof curtains 12 are respectively and rotatably connected with the matched guide partition plates 23 and form cavities 14 with downward openings with the guide partition plates 23, and the dust-collecting pipes 11 are arranged in the cavities 14.

With the development of society, the requirement on environmental protection is higher and higher; in the field of material storage and transportation, the environmental protection requirement of equipment is also paid attention to continuously, and dust prevention is imperative. At present, in the industries of sandstone, grain and ceramics, many material workshops are subjected to closed operation, and meanwhile, high-power dust removal equipment is used for removing dust in the workshops, so that the dust removal energy consumption is high; moreover, dust generation is not restrained from the source, the dust removal effect is poor, and a clean working environment cannot be maintained. Some enterprises consider that the cover is added on the stock bin, and although the dust emission amount is reduced to a certain extent, dust removal equipment is needed, and a large amount of energy consumption is still consumed.

In this embodiment, the bulk dust-free charging device 1 is used for being connected with an external device inlet, and materials enter the device inlet from the bulk dust-free charging device 1. The dustproof frame 10 can be arranged according to the shape of an inlet of an external device so as to be matched with the inlet of the external device, a plurality of groups of guide partition plates 23 are arranged in a horizontal plane and are arranged at intervals on an inner ring 13 of the dustproof frame 10, the top ends of the dust-proof curtains 12 are respectively in rotary connection with the matched guide partition plates 23, the dust-proof curtains 12 and the guide partition plates 23 form a cavity 14 with a downward opening, and the dust-collecting pipe 11 is arranged in the cavity 14. The material advances to get into through the clearance of adjacent direction baffle 23 from the upper end of direction baffle 23 to the extrusion sets up and falls into in the external device entrance of being connected with dustproof frame 10 behind the dust proof curtain 12 between the adjacent direction baffle 23 clearance, the material is separated with the external world through dust proof curtain 12 after entering into the device entrance the dust that the striking produced, simultaneously through setting up the pipe 11 that gathers dust in cavity 14 with the dust suction, when reducing the material and getting into external device, the dust of outside diffusion, reduce the pollution to operational environment. Therefore, the problems that in the industries of sandstone, grain and ceramics, high-power dust removal equipment is used for removing dust in a workshop, the dust removal energy consumption is high, the dust removal effect is poor, and the clean working environment cannot be maintained are solved.

In one possible embodiment, the bulk dust-free charging device 1 also comprises a grid 15; the grids 15 are connected with the top of the dustproof frame 10 and are arranged right above the groups of guide partition plates 23.

In this embodiment, set up grid 15 through the top at dustproof frame 10, can cushion the material when empting the material, reduce the direct dynamics that strikes direction baffle 23 of material to can prevent that the foreign matter from entering into external equipment entrance through the aperture size that sets up grid 15, play the guard action. Wherein it is clear that the grating 15 can be detachably connected with the dust-proof frame 10 to replace the grating 15 according to the size of the material.

In one possible design, the guide partition 23 includes a first guide plate 16 and a second guide plate 17 connected to the first guide plate 16, the first guide plate 16 and the second guide plate 17 are disposed in an inverted V shape on the inner ring 13 of the dust-proof frame 10, the width of the first guide plate 16 is greater than that of the second guide plate 17, and the dust-proof curtain 12 is rotatably connected to the second guide plate 17.

In order to ensure the smoothness of the material entering the inlet of the external equipment through the bulk dust-free feeding device 1 and simultaneously ensure that dust is absorbed by the dust collecting pipe 11 as much as possible, the guide partition 23 comprises a first guide plate 16 and a second guide plate 17 which are arranged in an inverted V shape, and a cavity 14 is formed among the first guide plate 16, the second guide plate 17 and the dust separation curtain 12. Materials can enter through the space between the first guide plate and the connected second guide plate and abut against the dust-proof curtain 12 to enter the inlet of the external equipment, and dust impacted by the materials is absorbed by the dust absorption pipe through the cavity 14 formed among the first guide plate 16, the second guide plate 17 and the dust-proof curtain 12.

In one possible design, the bottom end of the first guide plate 16 is located right below the bottom end of the first guide plate 16 adjacent to the first guide plate, the dust-proof curtain 12 is rotatably connected with the bottom end of the second guide plate 17, and the bottom end of the dust-proof curtain 12 is attached to the bottom end of the first guide plate 16.

In order to ensure the dust removal strength of the bulk dust-free feeding device 1, the dust-proof curtain 12 is rotatably connected with the bottom end of the second guide plate 17, and the bottom end of the dust-proof curtain 12 is attached to the bottom end of the first guide plate 16; when materials enter, the dust-proof curtain 12 is completely opened, when the material entering flow rate is small, the dust-proof curtain 12 is partially opened, when the materials finish entering, the dust-proof curtain 12 is completely closed, dust in an external device inlet can be reduced from scattering out of the dust-proof curtain 12, and the dust-proof effect of the bulk dust-free feeding device 1 is improved.

In one possible design, the dust collecting pipe 11 includes a main pipe 18 and a bottom branch pipe 19, the main pipe 18 is disposed on the outer periphery of the dust-proof frame 10, and the bottom branch pipes 19 are respectively disposed in the cavities 14 and connected to the main pipe 18 after penetrating through the dust-proof frame 10.

The collecting pipe comprises a main pipe 18 and a bottom branch pipe 19, the main pipe 18 can be connected with a dust collector 21, and the dust collector 21 can be a micro dust collector 21 or a large dust collector 21 in a workshop.

In one possible design, the dust collecting pipe 11 further comprises top branch pipes 20, and the top branch pipes 20 are arranged between two adjacent groups of the first guide plates 16 at intervals.

In order to reduce the generation of dust which is generated when some types of materials enter the inlet of the external equipment through the bulk dust-free feeding device 1 and collide with the guide partitions 23, top branch pipes 20 can be arranged between the adjacent guide partitions 23 for absorbing the dust above the guide partitions 23.

In one possible design, the minimum angle between the first guide plate 16 and/or the second guide plate 17 and the horizontal plane is greater than or equal to 45 °.

In order to ensure that the materials can quickly enter the inlet of the external equipment through the guide partition plate 23, the inclination of the first guide plate and the second guide plate can be improved; of course, the first guide plate 16 and/or the second guide plate 17 may also be adjusted according to the type of material.

In one possible design, the dust curtain 12 is made of a flexible material.

In order to reduce dust generated when materials enter an inlet of external equipment through the bulk dust-free feeding device 1, the dust isolating curtain 12 is used for reducing the force of propping or impacting the materials when the materials prop or impact the materials, so that the dust generation is reduced; meanwhile, the dust-proof curtain 12 made of flexible material further prevents the dust from scattering outwards.

In one possible embodiment, the bulk dust-free charging device 1 also comprises a vacuum cleaner 21, the vacuum cleaner 21 being connected to the dust collection pipe 11. By arranging the dust collector 21, the use environment of the bulk dust-free feeding device 1 is improved, and the bulk dust-free feeding device is convenient to detach or install with external equipment.

In one possible embodiment, the bulk dust-free charging device 1 further comprises a silo 22, the silo 22 being detachably connected to the dust-proof frame 10. Through setting up feed bin 22, can promote the collision space of material in feed bin 22 intracavity, the dust in feed bin 22 intracavity is as much as possible absorbed by top branch pipe 20, is convenient for simultaneously the dustless material device 1 adaptation of throwing in bulk multiple external equipment.

In short, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A dustless charging device in bulk, characterized by comprising: the dust collection device comprises a dust prevention frame, dust collection pipes, a plurality of groups of guide partition plates and dust separation curtains matched with the guide partition plates; wherein,

the dust-proof device is characterized in that the multiple groups of guide partition plates are horizontally arranged and are arranged at intervals, the inner rings of the dust-proof frame are arranged, the top ends of the dust-proof curtains are respectively connected with the matched guide partition plates in a rotating mode and form cavities with downward openings, and the dust-collecting pipes are arranged in the cavities.

2. The bulk non-dusting feeding device of claim 1, further comprising a grid; the grids are connected with the top of the dustproof frame and are arranged right above the multiple groups of guide partition plates.

3. A bulk dust-free charging device as claimed in claim 1, wherein the guiding partition comprises a first guiding plate and a second guiding plate connected with the first guiding plate, the first guiding plate and the second guiding plate are arranged at the inner ring of the dust-proof frame in an inverted V shape, the width of the first guiding plate is larger than that of the second guiding plate, and the dust-proof curtain is rotatably connected with the second guiding plate.

4. A bulk dust-free charging device as claimed in claim 3, wherein the bottom end of the first guide plate is located right below the bottom end of the adjacent first guide plate, the dust-proof curtain is rotatably connected with the bottom end of the second guide plate, and the bottom end of the dust-proof curtain is attached to the bottom end of the first guide plate.

5. A dust-free bulk charging device as claimed in claim 4, wherein the dust collecting pipe comprises a main pipe and bottom branch pipes, the main pipe is arranged on the periphery of the dust-proof frame, and the bottom branch pipes are respectively arranged in the cavities, penetrate through the dust-proof frame and then are connected with the main pipe.

6. A dust-free bulk charging device as claimed in claim 3, wherein the dust collecting pipe further comprises top branch pipes, and the top branch pipes are arranged between two adjacent groups of the first guide plates at intervals.

7. A bulk dust-free charging apparatus as claimed in claim 3 wherein the minimum angle between the first and/or second deflector and the horizontal is greater than or equal to 45 °.

8. A bulk dust-free charging device as claimed in claim 1, wherein the dust-proof curtain is made of a flexible material.

9. A bulk non-dusting feeding device according to claim 1, further comprising a dust collector connected to the dust collection pipe.

10. The bulk dust-free charging device of claim 1, further comprising a bin detachably connected to the dust-proof frame.

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