CN210235944U - Finished product bin with uniform discharging - Google Patents

Abstract

The utility model discloses an even finished product feed bin of ejection of compact, including the fixed bolster, the rigid coupling has the feed bin in the fixed bolster, be equipped with refining device, material feeding unit that distributes from top to bottom on the feed bin. The refining device comprises a refining roller shaft positioned in the storage bin, and one end of the refining roller shaft is provided with a driving assembly for driving the refining roller shaft to rotate. The side wall of the refining roll shaft is provided with a first refining assembly and a second refining assembly which are arranged along the refining roll shaft at intervals in the radial direction. When the refining roller shaft rotates, the radial rotating size of the first refining assembly is larger than that of the second refining assembly. The utility model discloses a material in the finished product feed bin can be to the feed bin break up the homogenization, guarantees the degree of consistency of ejection of compact material, and then improves the stability of the follow-up processingquality of material.

Description

Finished product bin with uniform discharging

Technical Field

The utility model relates to a storage silo field especially relates to an even finished product feed bin of ejection of compact.

Background

The finished product feed bin is the more common device that is used for storing the finished product material, and the structure of going into under for going out usually, the skin comprises the steel construction, and inside is the cavity that is used for storing finished product material. For bulk particles, segregation occurs during warehousing, i.e., after the bulk particles enter a finished product bin, coarse and fine particles begin to be layered, finer particles are concentrated in the middle, and coarser particles lean against the bin wall. Because current finished product feed bin lacks effectual refining device, when the bulk cargo granule is unloaded from the finished product feed bin, the granule that is close to the discharge gate is unloaded in advance, and the granule that keeps away from the discharge gate descends and the layering is unloaded from the discharge gate along with the bed of material, and the material uniformity that unloads in succession like this differs greatly, seriously influences follow-up processingquality's stability.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide an even finished product feed bin of ejection of compact can break up the homogenization to the material, guarantees the degree of consistency of ejection of compact material, improves processingquality's stability.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides an even finished product feed bin of ejection of compact, includes the fixed bolster, the rigid coupling has the feed bin in the fixed bolster, be equipped with refining device, material feeding unit that distributes from top to bottom on the feed bin. The refining device comprises a refining roller shaft positioned in the storage bin, and one end of the refining roller shaft is provided with a driving assembly for driving the refining roller shaft to rotate. The side wall of the refining roll shaft is provided with a first refining assembly and a second refining assembly which are arranged along the refining roll shaft at intervals in the radial direction. When the refining roller shaft rotates, the radial rotating size of the first refining assembly is larger than that of the second refining assembly.

Further, a refining subassembly includes that a plurality of is followed a refining pole that refining roller axial direction distributes, No. two refining subassemblies include that a plurality of is followed No. two refining poles that refining roller axial direction distributes, adjacent a refining pole, No. two refining poles alternately fall the setting by mistake. The materials can be scattered in a plurality of directions through the staggered material homogenizing rod I and the material homogenizing rod II, so that the materials with different particle thicknesses are fully mixed.

Further, a refining rod includes the perpendicular setting and is in a refining montant on the refining roller axle, the tip rigid coupling of a refining montant has a refining horizontal pole of slope setting with it. The No. two refining poles are in including setting up perpendicularly No. two refining montants on the refining roller, the tip rigid coupling of No. two refining montants has No. two refining horizontal poles that set up with it slope. The length of a refining vertical rod is greater than that of a refining vertical rod II. The stirring of the materials in the vertical direction is realized through the first material homogenizing vertical rod and the second material homogenizing vertical rod; the first material homogenizing cross rod and the second material homogenizing cross rod realize outward throwing and lifting of materials, and the uniformity of the materials is further improved; through a material mixing vertical rod and a material mixing vertical rod with different length and size, the materials can be scattered in different height directions, so that the materials on the upper layer and the lower layer are uniformly mixed.

Further, an included angle between the first material homogenizing transverse rod and the first material homogenizing vertical rod is not 90 degrees, and an included angle between the second material homogenizing transverse rod and the second material homogenizing vertical rod is not 90 degrees. The first material homogenizing cross rod and the second material homogenizing cross rod which are arranged in a non-perpendicular mode can simultaneously drive materials in different height directions to be raised, and material mixing uniformity is improved.

Further, the storage bin comprises an upper bin body and a lower bin body which are integrally formed; the upper bin body is of a square structure, and a feeding hole is formed in the top of the upper bin body; the lower bin body is of an inverted trapezoidal structure, a feeding barrel communicated with the lower end part of the side wall of the lower bin body is arranged at the lower end part of the side wall of the lower bin body, and a discharge hole is formed in the bottom of the feeding barrel; the material homogenizing device and the feeding device are both positioned in the lower bin body.

Further, the feeding device comprises a spiral push rod positioned below the refining roller shaft, one end of the spiral push rod is provided with a pushing motor used for driving the spiral push rod to rotate, and the other end of the spiral push rod extends into the feeding barrel and is in sealing connection with the end of the side wall shaft of the feeding barrel. The material which is scattered evenly can be pushed to move towards the direction of the discharge hole through the arrangement of the spiral push rod.

Further, the top of the upper bin body is also provided with an observation port and an access port which are respectively positioned on two sides of the feeding hole. The working state inside the stock bin can be observed through the observation port, and the inside of the stock bin can be conveniently overhauled through the access hole.

Further, the driving assembly comprises a fixed seat fixedly connected to the outer wall of the lower bin body, a variable speed motor is arranged in the fixed seat, and an output shaft of the variable speed motor is fixedly connected with the refining roll shaft.

The beneficial effects of the utility model reside in that: the material in the storage bin is broken up and homogenized by the material homogenizing device; the rotation of the material homogenizing roller shaft is realized through the driving assembly, so that the rotation of the first material homogenizing assembly and the second material homogenizing assembly is realized; the materials are scattered in different height directions through the first material homogenizing assembly and the second material homogenizing assembly with different rotating radial sizes, so that the materials on the upper layer and the lower layer are uniformly mixed; realize the quick propelling movement of the material after the homogenization to the discharge gate of feed bin through material feeding unit, further guarantee the degree of consistency of ejection of compact material. The utility model discloses a material in the finished product feed bin can be to the feed bin break up the homogenization, guarantees the degree of consistency of ejection of compact material, and then improves the stability of the follow-up processingquality of material.

Drawings

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

fig. 2 is a left side view of the refining roller shaft according to an embodiment of the present invention;

fig. 3 is a left side view of an embodiment of the present invention;

fig. 4 is a top view of an embodiment of the present invention.

In the figure:

1-fixing a bracket; 2-a storage bin; 21-feeding the bin body; 211-feed inlet; 212-a viewing port; 213-access hole; 22-a lower bin body; 23-a feed cylinder; 231-a discharge hole; 3-a refining device; 31-a refining roll shaft; 32-a fixed seat; 33-a variable speed motor; 34-a refining rod; 341-first material homogenizing vertical rod; 342-a refining cross bar; 35-second material homogenizing rod; no. 351-II refining vertical rods; 352-second refining cross bar; 4-a feeding device; 41-a spiral push rod; 42-pushing motor.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Examples

Referring to the attached drawings 1-3, the utility model discloses an even finished product feed bin of ejection of compact, including fixed bolster 1, the rigid coupling has feed bin 2 in the fixed bolster 1. The storage bin 2 comprises an upper bin body 21 and a lower bin body 22 which are integrally formed, the upper bin body 21 is of a square structure, and the top of the upper bin body is provided with a feeding hole 211; the lower bin body 22 is of an inverted trapezoidal structure, a feeding barrel 23 communicated with the lower end part of the side wall of the lower bin body is arranged at the lower end part of the side wall of the lower bin body, and a discharge hole 231 is formed in the bottom of the feeding barrel 23.

The lower bin body 22 is internally provided with a material homogenizing device 3 and a feeding device 4 which are distributed up and down. The material homogenizing device 3 is used for uniformly mixing materials, and the feeding device 4 is used for pushing the materials to the discharge hole 231. The refining device 3 comprises a transversely arranged refining roller shaft 31, and the end part of the refining roller shaft 31 is connected with the shaft end of the lower bin body 22 in a sealing manner. One end of the refining roller shaft 31 is provided with a driving component for driving the refining roller shaft 31 to rotate, the driving component comprises a fixed seat 32 fixedly connected to the outer wall of the lower bin body 22, a variable speed motor 33 is arranged in the fixed seat 32, and an output shaft of the variable speed motor 33 is fixedly connected with the refining roller shaft 31.

Be equipped with on the lateral wall of refining roller 31 and follow a refining subassembly, No. two refining subassemblies that refining roller 31 footpath interval set up. When the material mixing roller shaft 31 rotates, the rotating radial size of the first material mixing component is larger than that of the second material mixing component. A refining subassembly includes that a plurality of follows a refining rod 34 that refining roller 31 axial is ascending to distribute, No. two refining subassemblies include that a plurality of is followed No. two refining rods 35 that refining roller 31 axial is ascending to distribute, and is adjacent a refining rod 34, No. two refining rods 35 alternately fall the setting by mistake.

Referring to fig. 2, the first refining rod 34 includes a first refining vertical rod 341 vertically disposed on the refining roller shaft 31, a first refining cross rod 342 obliquely disposed with the first refining vertical rod 341 is fixedly connected to an end of the first refining vertical rod 341, and an included angle between the first refining cross rod 342 and the first refining vertical rod 341 is not 90 degrees. No. two refining poles 35 is including setting up perpendicularly No. two refining montants 351 on the refining roller 31, No. two refining montant 351's tip rigid coupling has the No. two refining horizontal poles 352 of slope setting with it, No. two refining horizontal poles 352 and No. two non-90 degrees of contained angle between the refining montant 351. The length of the first refining vertical rod 341 is greater than that of the second refining vertical rod 351.

Referring to fig. 1, the feeding device 4 includes a spiral push rod 41 located below the refining roller shaft 31, one end of the spiral push rod 41 is provided with a pushing motor 42 for driving the spiral push rod to rotate, and the other end of the spiral push rod 41 extends into the feeding barrel 23 and is connected with the end of the side wall shaft of the feeding barrel 23 in a sealing manner.

Referring to fig. 4, the top of the upper bin 22 is further provided with a viewing port 212 and an access port 213 respectively located at two sides of the feed port 211.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (8)

1. The utility model provides an even finished product feed bin of ejection of compact, includes fixed bolster (1), the rigid coupling has feed bin (2), its characterized in that in fixed bolster (1): the material bin (2) is provided with a material homogenizing device (3) and a feeding device (4) which are distributed up and down; the refining device (3) comprises a refining roller shaft (31) positioned in the storage bin (2), and one end of the refining roller shaft (31) is provided with a driving assembly for driving the refining roller shaft to rotate; the side wall of the refining roll shaft (31) is provided with a first refining assembly and a second refining assembly which are arranged at intervals along the radial direction of the refining roll shaft (31); when the refining roller shaft (31) rotates, the radial rotating size of the first refining assembly is larger than that of the second refining assembly.

2. The finished product silo of claim 1, wherein: a refining subassembly includes that a plurality of follows refining roller (31) is to number one refining pole (34) that distributes in the axial, No. two refining subassemblies include that a plurality of is followed refining roller (31) is to number two refining poles (35) that distribute in the axial, and is adjacent a refining pole (34), No. two refining poles (35) alternately fall the setting by mistake.

3. The finished product silo of claim 2, wherein: the first material homogenizing rod (34) comprises a first material homogenizing vertical rod (341) vertically arranged on the material homogenizing roller shaft (31), and a first material homogenizing transverse rod (342) obliquely arranged with the first material homogenizing vertical rod (341) is fixedly connected to the end part of the first material homogenizing vertical rod; the second material homogenizing rod (35) comprises a second material homogenizing vertical rod (351) vertically arranged on the material homogenizing roller shaft (31), and a second material homogenizing cross rod (352) obliquely arranged with the second material homogenizing vertical rod (351) is fixedly connected to the end part of the second material homogenizing vertical rod; the length of the first material refining vertical rod (341) is greater than that of the second material refining vertical rod (351).

4. The finished product silo of claim 3, wherein: an included angle between the first material mixing cross rod (342) and the first material mixing vertical rod (341) is not 90 degrees, and an included angle between the second material mixing cross rod (352) and the second material mixing vertical rod (351) is not 90 degrees.

5. The finished product silo of any of claims 1-4, wherein: the bin (2) comprises an upper bin body (21) and a lower bin body (22) which are integrally formed, the upper bin body (21) is of a square structure, and the top of the upper bin body is provided with a feeding hole (211); the lower bin body (22) is of an inverted trapezoidal structure, the lower end part of the side wall of the lower bin body is provided with a feeding barrel (23) communicated with the lower end part of the side wall of the lower bin body, and the bottom of the feeding barrel (23) is provided with a discharge hole (231); the material homogenizing device (3) and the feeding device (4) are both positioned in the lower bin body (22).

6. The finished product silo of claim 5, wherein: the feeding device (4) comprises a spiral push rod (41) located below the refining roller shaft (31), one end of the spiral push rod (41) is provided with a material pushing motor (42) used for driving the spiral push rod to rotate, and the other end of the spiral push rod extends into the feeding barrel (23) and is connected with the side wall shaft end of the feeding barrel (23) in a sealing mode.

7. The finished product silo of claim 5, wherein: the top of the upper bin body (21) is also provided with an observation port (212) and an access port (213) which are respectively positioned at two sides of the feeding hole (211).

8. The finished product silo of claim 5, wherein: the drive assembly comprises a fixed seat (32) fixedly connected to the outer wall of the lower bin body (22), a variable speed motor (33) is arranged in the fixed seat (32), and an output shaft of the variable speed motor (33) is fixedly connected with the refining roll shaft (31).

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