CN219428819U - Anti-blocking structure of storage bin - Google Patents

Abstract

The utility model discloses an anti-blocking structure of a storage bin, and relates to the technical field of storage. The utility model comprises a conveying cylinder, a fixed cylinder, a conveying component and a sealing sleeve, wherein the fixed cylinder is symmetrically and fixedly communicated with the periphery of the conveying cylinder, a vibrating motor is arranged in the fixed cylinder, the conveying component is arranged below the conveying cylinder, the conveying component comprises a hard pipe, and the sealing sleeve is fixedly arranged on the periphery of the hard pipe. The utility model solves the problems that the material output is easy to cause certain blockage when the material bin is discharged, the material is not smooth enough when in use, and the environment pollution is easy to be caused by dust overflow when the material is output by arranging the conveying cylinder, the fixing cylinder, the conveying assembly and the sealing sleeve, and has the advantages that: the feed bin ejection of compact can be more smooth and easy during the use, and can prevent the dust better when exporting the material to spill over, reduces the dust pollution of material conveying process.

Description

Anti-blocking structure of storage bin

Technical Field

The utility model belongs to the technical field of storage, and particularly relates to an anti-blocking structure of a storage bin.

Background

In order to improve the production efficiency, a preparation bin is arranged above the mixer, so that a batch of prepared materials always wait for mixing, the production efficiency can be improved by 30%, and the advantage of the efficient mixer can be embodied. Secondly, the materials can form an air arch, the discharging is difficult, and a flow-assisting air cushion or a vibrating motor is arranged on the feed bin; in order to smoothly discharge, the angle of the bin cone is not smaller than 60 degrees, but the bin cone has the following defects in actual use:

1. the material bin is used for directly guiding corresponding materials into corresponding discharging structures in the working process, the material bin is used for directly guiding the materials to the output position in the working process, the powder or granular materials possibly generate bridging phenomenon in the conveying process in the working process, the output of the materials is blocked to a certain extent, and the material conveying is not smooth enough in the use process;

2. the feed bin has the variability in the position of material output at the during operation, and during the use, the structure of output material is when the material is led to the structure of accepting the material in, has the dust to spill over easily, produces dust pollution in the environment, produces the raise dust easily during the use.

Disclosure of Invention

The utility model aims to provide an anti-blocking structure of a storage bin, which solves the problems that the storage bin is easy to cause certain blockage of material output during discharging, the material is not smooth enough during use, and the environment pollution is easy to be caused by dust overflow during material output by arranging a conveying cylinder, a fixing cylinder, a conveying assembly and a sealing sleeve.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an anti-blocking structure of a storage bin, which comprises a conveying cylinder, a fixing cylinder, a conveying assembly and a sealing sleeve, wherein the fixing cylinder is symmetrically and fixedly communicated with the periphery of the conveying cylinder, a vibrating motor is arranged in the fixing cylinder, the conveying assembly is arranged below the conveying cylinder, the conveying assembly comprises a hard pipe, the sealing sleeve is fixedly arranged on the periphery of the hard pipe, and when the anti-blocking structure is in operation, materials are guided into the bottom cylinder through the conveying cylinder, are guided into the conveying assembly through the bottom cylinder, are guided into corresponding material bearing equipment through the conveying assembly, and are sealed between the conveying assembly and the material bearing structure through the sealing sleeve.

Further, the fixed mouth has been seted up to the week side symmetry of transport section of thick bamboo, the bottom fixed intercommunication of transport section of thick bamboo has a bottom section of thick bamboo, and transport section of thick bamboo is at the during operation, and fixed section of thick bamboo is fixed through the fixed mouth, in the material that will be therein is led to transport assembly through a bottom section of thick bamboo.

Further, the one end that the transport section of thick bamboo was kept away from to the fixed cylinder is fixed with the fixed disk, vibrating motor fixes the one end that is close to the fixed cylinder at the fixed disk, the one end that the fixed disk was kept away from to the fixed cylinder is fixed in the fixed mouth, and the fixed cylinder is at the during operation, connects vibrating motor in the fixed cylinder through the fixed disk.

Further, the output of vibrating motor is fixed with the transfer line, be fixed with flexible separation dish in the middle of the week side of transfer line, flexible separation dish is fixed on the fixed cylinder inner wall, the one end that vibrating motor was kept away from to the transfer line is fixed with broken head, and vibrating motor is at the during operation, and the drive vibrating lever vibrates, drives broken head vibration for material in the fixed cylinder can be guided to the bottom section of thick bamboo smoothly.

Further, the conveying assembly further comprises a flexible conveying pipe and a corrugated pipe, the flexible conveying pipe is fixed to the bottom end of the bottom barrel, the corrugated pipe is fixed to the periphery of the flexible conveying pipe, and materials are guided into the hard pipe through the flexible conveying pipe when the conveying assembly works.

Further, the conveying assembly further comprises a mounting disc, the mounting disc is fixed at the bottom end of the periphery side of the hard tube, an elastic rope is fixed at the bottom end of the sealing sleeve, the sealing sleeve is converged at a corresponding position through the elastic rope, and the mounting disc is connected with equipment for receiving materials during working.

The utility model has the following beneficial effects:

1. according to the utility model, the problem that the material output is easy to cause certain blockage when the bin is discharged and the material is not smooth enough when in use is solved by arranging the conveying cylinder and the fixing cylinder, the vibrating motor is started in the process of the storage in the conveying cylinder, the vibrating motor drives the transmission rod to vibrate, and the crushing head is driven to vibrate in the process of vibrating the transmission rod, so that the large-block material is crushed in the conveying cylinder, and the material blocked in the conveying cylinder is conveyed into the flexible conveying pipe through the bottom cylinder, so that the blockage can be better prevented when the material is used, and the material conveying is smoother when in use.

2. According to the utility model, the problem that the bin is easy to cause environmental pollution due to dust overflow when outputting materials is solved by arranging the conveying component and the sealing sleeve, the hard pipe is held during installation, the sealing sleeve is turned over to the inner surface outwards, the installation disc at the bottom end of the hard pipe is aligned with the corresponding position of outputting materials, the installation bolt is inserted into the installation disc and screwed into the corresponding receiving structure, and then the hard pipe is turned back to the original shape, so that the elastic rope is converged outside the corresponding structure of the installation disc, the installation disc and equipment for receiving the materials are sealed, and the bin can better prevent the environmental pollution due to the dust overflow when outputting the materials during use.

Drawings

FIG. 1 is a perspective view of an anti-blocking structure assembly structure of a silo;

FIG. 2 is a perspective view of a transfer drum structure;

FIG. 3 is a perspective view of a stationary drum structure;

FIG. 4 is a perspective view of the transport assembly;

fig. 5 is a perspective view of the seal cartridge.

Reference numerals:

1. a delivery cylinder; 101. a fixed port; 102. a bottom cylinder; 2. a fixed cylinder; 201. a fixed plate; 202. a vibration motor; 203. a transmission rod; 204. a crushing head; 205. a flexible divider disk; 3. a transport assembly; 301. a flexible delivery tube; 302. a bellows; 303. a hard tube; 304. a mounting plate; 4. sealing sleeve; 401. an elastic rope.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-5, the utility model is an anti-blocking structure of a storage bin, comprising a conveying cylinder 1, a fixing cylinder 2, a conveying component 3 and a sealing sleeve 4, wherein the fixing cylinder 2 is symmetrically and fixedly communicated with the periphery of the conveying cylinder 1, the top end of the conveying cylinder 1 is fixed with the discharge position of the storage bin, so that materials led out of the storage bin are led into the conveying cylinder 1, the conveying cylinder 1 is led into a bottom cylinder 102 when in operation, the materials are led into the conveying component 3 through the bottom cylinder 102, a vibrating motor 202 is limited in the bottom cylinder 102 through the fixing cylinder 2, the vibrating motor 202 is arranged in the fixing cylinder 2, the vibrating motor 202 generates vibration to drive a crushing head 204 to vibrate, the materials in the fixing cylinder 2 are dispersed into the bottom cylinder 102, the conveying component 3 is arranged below the conveying cylinder 1, the conveying component 3 comprises a hard pipe 303, the materials are led out of corresponding material bearing equipment through the hard pipe 303 when in operation, the periphery of the hard pipe 303 is fixedly provided with the sealing sleeve 4, and the sealing sleeve 4 is sealed at the position between the hard pipe 303 and the material bearing equipment when in operation.

As shown in fig. 1 and 2, the circumferential side of the conveying cylinder 1 is symmetrically provided with a fixing opening 101, the bottom end of the conveying cylinder 1 is fixedly communicated with a bottom cylinder 102, and when the conveying cylinder 1 works, the fixing cylinder 2 is fixed through the fixing opening 101, and materials are guided into the conveying assembly 3 through the bottom cylinder 102.

As shown in fig. 1 and 3, a fixed disc 201 is fixed at one end of the fixed cylinder 2 away from the conveying cylinder 1, a vibration motor 202 is fixed at one end of the fixed disc 201 close to the fixed cylinder 2, one end of the fixed cylinder 2 away from the fixed disc 201 is fixed in the fixed port 101, and the fixed cylinder 2 is fixed therein through the fixed disc 201 during operation.

As shown in fig. 1 and 3, a transmission rod 203 is fixed at an output end of a vibration motor 202, a flexible separation disc 205 is fixed in the middle of a peripheral side of the transmission rod 203, the flexible separation disc 205 is fixed on an inner wall of a fixed cylinder 2, a crushing head 204 is fixed at one end of the transmission rod 203 far away from the vibration motor 202, vibration generated by the vibration motor 202 is transmitted to the crushing head 204 through the transmission rod 203 when the vibration motor 202 works, and materials blocked in a conveying cylinder 1 are crushed and dispersed when the crushing head 204 vibrates, so that the materials fall into the bottom cylinder 102, and the vibration motor 202 and the working conveying materials are separated in space when the flexible separation disc 205 works.

As shown in fig. 1 and 4, the conveying assembly 3 further comprises a flexible conveying pipe 301 and a corrugated pipe 302, the flexible conveying pipe 301 is fixed at the bottom end of the bottom barrel 102, the corrugated pipe 302 is fixed at the periphery of the flexible conveying pipe 301, and when the conveying assembly 3 works, materials conveyed in the bottom barrel 102 are conveyed into the hard pipe 303 through the flexible conveying pipe 301, and the shape of the materials conveyed by the flexible conveying pipe 301 is kept through the corrugated pipe 302.

As shown in fig. 1, 4 and 5, the conveying assembly 3 further includes a mounting plate 304, the mounting plate 304 is fixed at the bottom end of the circumference side of the hard tube 303, the elastic rope 401 is fixed at the bottom end of the sealing sleeve 4, the conveying assembly 3 is installed on a material receiving structure through the mounting plate 304 when in operation, and the sealing sleeve 4 is converged on the corresponding material receiving structure through the elastic rope 401 when in operation, so that the position between the material receiving structure and the hard tube 303 is closed.

The specific working principle of the utility model is as follows: when the device is operated, firstly, the hard pipe 303 is held, the sealing sleeve 4 is turned to the inner surface outwards, the mounting disc 304 at the bottom end of the hard pipe 303 is aligned with the corresponding material output position, the mounting bolt is inserted into the mounting disc 304 and screwed into the corresponding receiving structure, then the hard pipe 303 is turned back to the original shape, the elastic rope 401 is converged outside the structure mounted by the corresponding mounting disc 304, the space between the mounting disc 304 and the material receiving device can be closed, then the operation can be started, the material in the storage bin is guided into the conveying cylinder 1 and then is guided into the bottom cylinder 102, the flexible conveying pipe 301 is guided into the hard pipe 303 through the flexible conveying pipe 301, the material is guided into the material receiving device through the hard pipe 303, the vibrating motor 202 is started in the storage-related process in the conveying cylinder 1, the vibrating motor 202 drives the driving rod 203 to vibrate, the crushing head 204 is driven to vibrate in the process that the driving rod 203 vibrates, the large material in the conveying cylinder 1 is crushed, and the material blocked in the conveying cylinder 1 is conveyed into the flexible conveying cylinder 301 through the flexible conveying pipe 301.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (6)

1. The utility model provides an anti-blocking structure of feed bin, includes transport cylinder (1), fixed section of thick bamboo (2), transport assembly (3) and seal cover (4), its characterized in that: the conveying device is characterized in that a fixed cylinder (2) is symmetrically and fixedly communicated with the periphery of the conveying cylinder (1), a vibrating motor (202) is arranged in the fixed cylinder (2), a conveying assembly (3) is arranged below the conveying cylinder (1), the conveying assembly (3) comprises a hard pipe (303), and a sealing sleeve (4) is fixed on the periphery of the hard pipe (303).

2. The anti-blocking structure of a silo according to claim 1, wherein: the conveying cylinder (1) is symmetrically provided with fixing openings (101) at the periphery, and the bottom end of the conveying cylinder (1) is fixedly communicated with a bottom cylinder (102).

3. The anti-blocking structure of a silo according to claim 2, wherein: one end of the fixed cylinder (2) far away from the conveying cylinder (1) is fixed with a fixed disc (201), the vibrating motor (202) is fixed at one end of the fixed disc (201) close to the fixed cylinder (2), and one end of the fixed cylinder (2) far away from the fixed disc (201) is fixed in the fixed port (101).

4. The anti-blocking structure of a silo according to claim 1, wherein: the vibrating motor is characterized in that a transmission rod (203) is fixed at the output end of the vibrating motor (202), a flexible separation disc (205) is fixed in the middle of the periphery of the transmission rod (203), the flexible separation disc (205) is fixed on the inner wall of the fixed cylinder (2), and a crushing head (204) is fixed at one end, far away from the vibrating motor (202), of the transmission rod (203).

5. The anti-blocking structure of a silo according to claim 2, wherein: the conveying assembly (3) further comprises a flexible conveying pipe (301) and a corrugated pipe (302), the flexible conveying pipe (301) is fixed to the bottom end of the bottom cylinder (102), and the corrugated pipe (302) is fixed to the periphery of the flexible conveying pipe (301).

6. The anti-blocking structure of a silo according to claim 1, wherein: the conveying assembly (3) further comprises a mounting disc (304), the mounting disc (304) is fixed at the bottom end of the periphery side of the hard tube (303), and an elastic rope (401) is fixed at the bottom end of the sealing sleeve (4).