CN214455211U - Clean high-efficient type feed bin device - Google Patents

Abstract

The utility model relates to the field of storage equipment, in particular to a clean and efficient type material bin device, which comprises a material bin, a dust collection cover and a dust removal pipe; a second valve is arranged at the bottom of the discharge channel; a dust collection cover is arranged at the feeding end at the top of the storage bin; the dust collection cover comprises a connecting plate, a second communicating pipe, a third communicating pipe, a fourth communicating pipe and a fifth communicating pipe; an opening on the side wall of the second communicating pipe is communicated with one end of the dust removing pipe, and the other end of the dust removing pipe is positioned outside the dust collecting cover. The dust collection cover is arranged, so that dust pollution generated during feeding can be reduced; the variable-diameter third communicating pipe, the variable-diameter fourth communicating pipe and the variable-diameter fifth communicating pipe are arranged, so that the dust collecting effect of the device can be improved; and a vibrator is arranged to clean the materials staying in the dust collection cover and on the filter screen through vibration.

Description

Clean high-efficient type feed bin device

Technical Field

The utility model relates to a storage equipment field, concretely relates to clean high-efficient type feed bin device's technical field of structure.

Background

In the cement production process, materials with large dust emission such as granular materials, powder materials and the like are used in multiple processes, and large dust emission pollution is generated in the conveying, transporting and discharging processes; this requires a high level of dust suppression.

And the granular powder is easy to form arch material during storage and discharge, so that the blanking is not easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a clean and high-efficiency storage bin device, which can collect dust and remove dust when storing and discharging materials in the storage bin, thereby reducing the dust pollution; and efficient feeding can be performed.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the clean and efficient type material bin device comprises a material bin, a dust collection cover and a dust removal pipe; the storage bin sequentially comprises a storage bin upper part, a storage bin bottom and a storage bin discharging channel from top to bottom, and the storage bin bottom is in a bucket shape; a second valve is arranged at the bottom of the discharge channel; a dust collection cover is arranged at the feeding end at the top of the storage bin; the dust collection cover comprises a connecting plate, a second communicating pipe, a third communicating pipe, a fourth communicating pipe and a fifth communicating pipe; the connecting plate is a plate with a through hole, the bottom of a fourth communicating pipe is communicated with the top feeding end of the storage bin, the top of the fourth communicating pipe is communicated with the bottom of a third communicating pipe, the top of the third communicating pipe is communicated with the bottom of a second communicating pipe, the top of the second communicating pipe is fixedly connected with the side face of the connecting plate, the top of a fifth communicating pipe is fixedly connected with the side face of the connecting plate, the fifth communicating pipe is positioned in the second communicating pipe, and the bottom of the fifth communicating pipe points to the feeding end of the storage bin; an opening on the side wall of the second communicating pipe is communicated with one end of the dust removing pipe, and the other end of the dust removing pipe is positioned outside the dust collecting cover; a rotating shaft is arranged in the bin discharging channel along the horizontal direction, and two ends of the rotating shaft are connected with the side wall of the bin discharging channel in a rotating and sealing manner; a stirring rod is arranged on the rotating shaft along the axial direction of the rotating shaft, and a driving motor is arranged on the outer side wall of the discharging channel of the storage bin and is in transmission connection with the rotating shaft.

Further, the caliber of the fourth communication pipe is sequentially reduced from top to bottom.

Further, the caliber of the third communicating pipe is sequentially reduced from top to bottom.

Further, the caliber of the fifth communication pipe is sequentially reduced from top to bottom.

Furthermore, a filter screen is arranged at the communication position of the second communicating pipe and the dust removing pipe, the top of the filter screen is fixedly connected with the side face of the connecting plate, and the side edge and the bottom of the filter screen are respectively fixedly connected with the inner wall of the second communicating pipe.

Further, a first vibrator is arranged on the outer side wall of the dust collection cover.

Further, a ton bag bracket is fixedly arranged at the top of the connecting plate.

Further, a second vibrator is provided on the ton bag bracket.

Compared with the prior art, the utility model discloses can reach one of following beneficial effect at least:

1. the dust collection cover is arranged, so that dust pollution generated during feeding can be reduced.

2. The third communicating pipe, the fourth communicating pipe and the fifth communicating pipe which are of variable diameters are arranged, so that the dust collecting effect of the device can be improved.

3. The filter screen is arranged, so that the loss of ingredients during dust removal can be reduced.

4. And a vibrator is arranged to clean the materials staying in the dust collection cover and on the filter screen through vibration.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the dust collection cover of the present invention.

In the figure: 1-a storage bin; 11-the upper part of the storage bin; 12-bin bottom; 13-a bin discharge channel; 14-a first valve; 15-a second valve; 16-a via hole; 2-dust collection cover; 20-a dust hood feed channel; 21-a connecting plate; 22-a second communication tube; 23-a third communicating tube; 24-a fourth communication pipe; 25-a fifth communicating tube; 26-ton bag carriers; 27-a reinforcing bracket; 3-a dust removal pipe; 5, filtering the filter screen; 61-a first vibrator; 62-a second vibrator; 7-an arch breaker; 81-driving a motor; 82-a rotating shaft; 83-stirring rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

as shown in fig. 1-2, the clean and efficient storage bin device comprises a storage bin 1, a dust collection cover 2 and a dust removal pipe 3; the storage bin 1 sequentially comprises a storage bin upper part 11, a storage bin bottom 12 and a storage bin discharging channel 13 from top to bottom, wherein the storage bin bottom 12 is in a hopper shape; a second valve 15 is arranged at the bottom of the discharging channel 13; a dust collection cover 2 is arranged at the feeding end at the top of the storage bin 1; the dust collection cover 2 comprises a connecting plate 21, a second communicating pipe 22, a third communicating pipe 23, a fourth communicating pipe 24 and a fifth communicating pipe 25; the connecting plate 21 is a plate with through holes, the bottom of the fourth communicating pipe 24 is communicated with the top feeding end of the storage bin 1, the top of the fourth communicating pipe 24 is communicated with the bottom of the third communicating pipe 23, the top of the third communicating pipe 23 is communicated with the bottom of the second communicating pipe 22, the top of the second communicating pipe 22 is fixedly connected with the side face of the connecting plate 21, the top of the fifth communicating pipe 25 is fixedly connected with the side face of the connecting plate 21, the fifth communicating pipe 25 is positioned in the second communicating pipe 22, and the bottom of the fifth communicating pipe 25 points to the feeding end of the storage bin 1; an opening on the side wall of the second communicating pipe 22 is communicated with one end of the dust removing pipe 3, and the other end of the dust removing pipe 3 is positioned outside the dust collecting cover 2; a rotating shaft 82 is arranged in the bin discharging channel 13 along the horizontal direction, and two ends of the rotating shaft 82 are connected with the side wall of the bin discharging channel 13 in a rotating and sealing manner; a stirring rod 83 is arranged on the rotating shaft 82 along the axial direction of the rotating shaft, a driving motor 81 is arranged on the outer side wall of the bin discharging channel 13, and the driving motor 81 is in transmission connection with the rotating shaft 82.

The direction indicated by the straight arrows in fig. 1 and 2 is the direction of feed of the material; the curve arrow indicates the direction of negative pressure when the dust remover works.

The first valve 14 and the second valve 15 can be rotary valves which are respectively used for controlling the opening and closing of the charging and discharging of the storage bin 1; one end of the dust removal pipe 3 extending out of the dust collection cover 2 is communicated with an air collection port of the dust remover and is used for extracting dust in the dust collection cover 2 for treatment; the connecting plate 21 can be a circular steel plate with a circular through hole, and a communication channel formed between the connecting plate 21 and the fifth communication pipe 25 is a dust hood feeding channel 20; feed bin 1, second communicating pipe 22, third communicating pipe 23, fourth communicating pipe 24 and fifth communicating pipe 25 are the steel pipe, and the connected mode between each other is the welding, can promote this device's sealed effect.

When the dust collector works, when materials are stored, the first valve 14 is opened, the second valve 15 is closed, the materials enter from the dust collection cover feeding channel 20 and enter the storage bin 1 through the dust collection cover 2, and then the materials fall into the storage bin 1 and the dust collection cover 2 to generate large raised dust; set up fifth communicating pipe 25, and dust removal pipe 3 keeps away from the discharge gate of fifth communicating pipe 25 for when the feeding, dust shaker during operation, dust removal pipe 3 can directly take the material when feeding out, and cause the waste of material, promoted the practicality of this device.

After the feeding is finished, the first valve 14 is closed, and the storage operation of the storage bin 1 is finished; during discharging, the first valve 14 and the second valve 15 are opened, the uniformly mixed materials are discharged from the discharging channel 13 of the storage bin, the driving motor 81 is started to drive the rotating shaft 82 and the stirring rod 83 to rotate, and the materials at the discharging channel 13 and the bottom 12 of the storage bin are stirred to break the arch, so that the high-efficiency storage of the materials is realized; after the discharging is finished, the second valve 15 is closed, and the dust remover stops working after running for 2 minutes, so that the discharging work of the materials is finished.

Preferably, the working power of the dust remover is controlled, the dust leakage to the surrounding environment is reduced, and meanwhile, the influence of the dust remover on materials is reduced as much as possible.

Preferably, set up through-hole 16 on the lateral wall of feed bin upper portion 11, set up the filter screen in through-hole 16, the outflow and the dust removal effect of the material of being convenient for in the feed bin 1.

Preferably, the arch breaking device 7 is arranged at the bottom 12 of the storage bin and is matched with the stirring rod 83 for use, so that the arch breaking effect is improved.

Example 2:

as shown in fig. 1 to 2, the present embodiment optimizes the dust collection cover structure for the above-described embodiments.

The caliber of the fourth communicating pipe 24 in the device is reduced from top to bottom in sequence. The diameter-variable fourth communicating pipe 24 is arranged, so that on one hand, materials can fall into the storage bin 1 along the inner wall of the fourth communicating pipe 24 when being fed; on the other hand, can increase the raise dust space that forms in the dust cage 2 for raise dust is when lifting along with the negative pressure, and partial dust particle falls on the inner wall in the dust cage 2 through the mutual collision between self gravity or the material, then falls back into the feed bin 1 along the inner wall of tilting again, can reduce the loss of material.

Example 3:

as shown in fig. 1 to 2, the present embodiment optimizes the dust collection cover structure for the above-described embodiments.

The caliber of the third communicating pipe 23 in the device is reduced from top to bottom in sequence. The reducing third communicating pipe 23 is arranged, so that on one hand, materials can fall into the storage bin 1 along the inner wall of the third communicating pipe 23 when being fed; on the other hand, can increase the raise dust space that forms in the dust cage 2 for raise dust is when lifting along with the negative pressure, and partial dust particle falls on the inner wall in the dust cage 2 through the mutual collision between self gravity or the material, then falls back into the feed bin 1 along the inner wall of tilting again, can reduce the loss of material.

Example 4:

as shown in fig. 1 to 2, the present embodiment optimizes the dust collection cover structure for the above-described embodiments.

The caliber of the fifth communicating pipe 25 in the device is reduced from top to bottom in sequence. The diameter-variable fifth communicating pipe 25 is arranged, so that on one hand, materials can fall into the storage bin 1 along the outer wall of the fifth communicating pipe 25 when being fed, and in addition, the materials on the upper part of the fifth communicating pipe 25 can generate larger extrusion force on the materials on the lower part when the materials are fed, so that the materials are in a relatively ceramic state at the discharge port of the fifth communicating pipe 25, and the leakage quantity of raised dust generated in the dust collection cover 2 from the outside of the fifth communicating pipe 25 can be reduced; on the other hand, when the raised dust is lifted along with the negative pressure, part of dust particles fall on the inner wall of the fifth communicating pipe 25 through self gravity or mutual collision among the materials, and then fall back into the dust collection cover 2 and the storage bin 1 along the inclined inner wall, so that the loss of the materials can be reduced.

Example 5:

as shown in fig. 1 to 2, with the above-described embodiment, the present embodiment optimizes the dust collecting structure.

In the device, a filter screen 5 is arranged at the communication position of the second communicating pipe 22 and the dust removing pipe 3, the top of the filter screen 5 is fixedly connected with the side surface of the connecting plate 21, and the side edge and the bottom of the filter screen 5 are respectively fixedly connected with the inner wall of the second communicating pipe 22. The filter screen 5 is made of an iron filter screen with the aperture slightly smaller than the average particle size of the powder, and the periphery of the filter screen 5 is welded and connected with the inner wall of the dust collection cover 2, so that the raised dust in the dust collection cover 2 is filtered by the filter screen 5 and then enters the dust removal pipe 3 for recovery treatment; can be detained the dust of great granule in dust cage 2, fall into feed bin 1 again, reduce the loss of dust removal in-process batching.

Preferably, the filter screen 5, as shown in fig. 2 and 2, is disposed in the dust collection cover 2 in an inclined manner, so that dust particles trapped on the filter screen 5 fall into the bin 1.

Example 6:

as shown in fig. 1 to 2, with the above-described embodiment, the present embodiment optimizes the dust collecting structure.

In the device, a first vibrator 6 is arranged on the outer side wall of the dust collection cover 2. The first vibrator 6 may be an electromagnetic vibrator, and a vibrating end of the first vibrator 6 is fixedly connected with an outer wall of the dust collection cover 2. At the middle and final stages of feed bin 1, start first vibrator 6, first vibrator 6 work drives dust hood 2 and the vibration of feed bin 1, makes the material that stops on dust hood 2 inner wall, 1 inner wall of feed bin and filter screen 5, through vibrating, falls into feed bin 1 in, can reduce the loss of batching.

Example 7:

as shown in fig. 1, this embodiment optimizes the feed structure for the above embodiment.

In the device, a ton bag bracket 26 is fixedly arranged on the top of the connecting plate 21. The caliber of the ton bag bracket 26 is sequentially reduced from top to bottom, so that the placement of the ton bag and the falling of materials are facilitated.

Preferably, a second vibrator 62 is provided on the ton bag bracket 26. The second vibrator 62 may be a mechanical vibrator, and when the ton bag is discharged, the ton bag can be conveniently discharged through the second vibrator 62.

Example 8:

as shown in fig. 1 and 2, the dust collection cover structure is optimized for the above embodiment.

The bottom of the fifth communicating pipe 25 in the present apparatus is higher than the bottom of the fourth communicating pipe 24. Meanwhile, the bottom of the fifth communicating pipe 25 is lower than the lowest position of the communicating position of the dust removing pipe 3 and the second communicating pipe 22, so that the influence of the dust removing pipe 3 on materials in blanking is reduced, and generated raised dust and the materials can be separated in two areas, so that the working power of the dust remover can be properly increased, and the dust collecting effect of the device is improved.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (8)

1. Clean high-efficient type feed bin device, its characterized in that: comprises a storage bin (1), a dust collection cover (2) and a dust removal pipe (3); the storage bin (1) sequentially comprises a storage bin upper part (11), a storage bin bottom (12) and a storage bin discharging channel (13) from top to bottom, wherein the storage bin bottom (12) is in a bucket shape; a second valve (15) is arranged at the bottom of the discharging channel (13); a dust collection cover (2) is arranged at the feeding end at the top of the storage bin (1); the dust collection cover (2) comprises a connecting plate (21), a second communicating pipe (22), a third communicating pipe (23), a fourth communicating pipe (24) and a fifth communicating pipe (25); the connecting plate (21) is a plate with a through hole, the bottom of a fourth communicating pipe (24) is communicated with the top feeding end of the storage bin (1), the top of the fourth communicating pipe (24) is communicated with the bottom of a third communicating pipe (23), the top of the third communicating pipe (23) is communicated with the bottom of a second communicating pipe (22), the top of the second communicating pipe (22) is fixedly connected with the side face of the connecting plate (21), the top of a fifth communicating pipe (25) is fixedly connected with the side face of the connecting plate (21), the fifth communicating pipe (25) is positioned in the second communicating pipe (22), and the bottom of the fifth communicating pipe (25) points to the feeding end of the storage bin (1); an opening on the side wall of the second communicating pipe (22) is communicated with one end of the dust removing pipe (3), and the other end of the dust removing pipe (3) is positioned outside the dust collecting cover (2); a rotating shaft (82) is arranged in the bin discharging channel (13) along the horizontal direction, and two ends of the rotating shaft (82) are connected with the side wall of the bin discharging channel (13) in a rotating and sealing manner; a stirring rod (83) is arranged on the rotating shaft (82) along the axial direction of the rotating shaft, a driving motor (81) is arranged on the outer side wall of the discharging channel (13) of the storage bin, and the driving motor (81) is in transmission connection with the rotating shaft (82).

2. The clean high efficiency magazine apparatus of claim 1, wherein: the caliber of the fourth communicating pipe (24) is reduced from top to bottom in sequence.

3. The clean high efficiency magazine apparatus of claim 1, wherein: the caliber of the third communicating pipe (23) is reduced from top to bottom in sequence.

4. The clean high efficiency magazine apparatus of claim 1, wherein: the caliber of the fifth communicating pipe (25) is reduced from top to bottom in sequence.

5. The clean high efficiency magazine apparatus of claim 1, wherein: the second communicating pipe (22) is communicated with the dust removing pipe (3) to form a filter screen (5), the top of the filter screen (5) is fixedly connected with the side face of the connecting plate (21), and the side edge and the bottom of the filter screen (5) are fixedly connected with the inner wall of the second communicating pipe (22) respectively.

6. The clean high efficiency magazine apparatus of claim 1, wherein: and a first vibrator (61) is arranged on the outer side wall of the dust collection cover (2).

7. The clean high efficiency magazine apparatus of claim 1, wherein: and a ton bag bracket (26) is fixedly arranged at the top of the connecting plate (21).

8. The clean, efficient bin device of claim 7, wherein: a second vibrator (62) is provided on the ton bag bracket (26).

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