CN220375411U - Wall assembly and silo - Google Patents

Abstract

The utility model relates to the technical field of silo installation, and discloses a silo wall assembly and a silo, wherein the silo wall assembly comprises: a bin wall unit; the wear-resistant lining plate component comprises a plurality of wear-resistant lining plates, is arranged on the bin wall unit and is matched with the shape of the bin wall unit; each wear-resistant lining plate is provided with a plurality of through holes; the fasteners are arranged in one-to-one correspondence with the through holes, one ends of the fasteners are fixedly connected with the bin wall units, and the other ends of the fasteners penetrate through the through holes and are detachably connected with the wear-resistant lining plates. By arranging the wear-resistant lining plate on the bin wall unit, the impact of materials on the bin wall unit can be relieved, and the durability of the bin wall unit is improved. Further, the wear-resistant lining plate and the bin wall unit are installed and connected through the fastener, so that the installation period is shortened, the later replacement and maintenance of the wear-resistant lining plate are facilitated, and the bin wall is not damaged.

Description

Wall assembly and silo

Technical Field

The utility model relates to the technical field of silo installation, in particular to a silo wall assembly and a silo.

Background

The silo is a structural form widely applied to the warehouse industry. The materials can fall into the silo from the center of the top of the silo and then are discharged from the bottom of the silo, and in the process, the materials can generate vertical friction force and horizontal side pressure on the inner wall of the silo. In order to reduce the abrasion of the material to the inner wall of the silo, the service durability of the inner wall of the silo is improved, and the structural safety of the silo is further ensured. At present, an anti-abrasion lining is added on the inner wall of a silo, and the lining is arranged on the inner wall of the silo in a welding or gluing mode. By adopting the connection mode, the anti-wear lining is usually installed after the construction of the silo structure is completed, in addition, for the silo structure with higher height, a scaffold is required to be additionally erected for secondary installation, the post-maintenance or replacement is inconvenient, and when the anti-wear lining is detached, adhesive materials or partition welding seams are required to be removed, so that irreversible damage is easily generated to the inner wall of the silo.

Disclosure of Invention

In view of the above, the utility model provides a silo wall assembly and a silo, which are used for solving the problems that an anti-wear lining is not easy to disassemble and is easy to cause irreversible damage to the inner wall of the silo or influence on the rigidity of the wall of a main structure of the silo in the disassembly process.

In a first aspect, the present utility model provides a wall assembly comprising:

a bin wall unit;

the wear-resistant lining plate component comprises a plurality of wear-resistant lining plates, and is arranged on the bin wall unit and is matched with the bin wall unit in shape; each wear-resistant lining plate is provided with a plurality of through holes;

the fasteners are arranged in one-to-one correspondence with the through holes, one ends of the fasteners are fixedly connected with the bin wall units, and the other ends of the fasteners penetrate through the through holes and are detachably connected with the wear-resistant lining plates.

By arranging the wear-resistant lining plate on the bin wall unit, the impact of materials on the bin wall unit can be relieved, and the durability of the bin wall unit is improved. Further, the wear-resistant lining plate is connected with the bin wall unit through the fastener, so that the installation period is shortened, the later replacement and maintenance of the wear-resistant lining plate are facilitated, and the bin wall unit is not damaged. Through setting up wear-resisting welt subassembly into a plurality of wear-resisting welts, further reduced the change in later stage and maintenance cost, when wear-resisting welt subassembly a certain part namely certain one or more wear-resisting welts need be changed, only need change one or more of them can.

In an alternative embodiment, the fastener comprises a bolt and a nut, the head end of the bolt is welded with the bin wall unit, the other end of the bolt penetrates through the through hole, and the nut is screwed on the end part of the bolt extending out of the through hole, so that the wear-resistant lining plate is connected with the bin wall unit. The wear-resistant lining plate is connected with the bin wall unit by the bolts and the nuts, and compared with the process of connecting the wear-resistant lining plate with the bin wall unit by adopting an adhesive technology, the installation time is shortened, and the installation method is more environment-friendly. In addition, when the wear-resistant lining plate needs to be replaced or maintained, the wear-resistant lining plate only needs to be replaced or maintained after the nut is unscrewed, and the damage to the bin wall unit cannot be caused in the process.

In an alternative embodiment, the through holes comprise a first through hole and a second through hole, and the screw rod of the bolt is used for penetrating into the first through hole and extending out of the first through hole; the second through hole is used for being sleeved outside the head end of the bolt, and the diameter of the second through hole is larger than that of the first through hole.

It can be appreciated that when the second through hole is sleeved outside the head end of the bolt, the diameter of one end of the second through hole, which is close to the bin wall, is larger than the largest dimension of the head end of the bolt, namely, a certain gap is reserved between the second through hole and the head end of the bolt, and the arrangement is beneficial to completely sleeved outside the bolt and contacting the bin wall with the wear-resistant lining plate. And a certain gap is reserved between the second through hole and the head end of the bolt, so that the deformation of the wear-resistant lining plate and the bin wall unit can be coordinated, and the influence of the wear-resistant lining plate on the rigidity of the bin wall unit is reduced.

The first through hole is matched with the screw rod shape of the bolt, so that the wear-resistant lining plate is tightly matched with the bolt, and the wear-resistant lining plate is connected with the bin wall unit by screwing the nut on the end part of the screw rod extending out of the first through hole.

In an alternative embodiment, a washer is provided between the nut and the wear liner. Through being equipped with the gasket between nut and wear-resisting welt, can reduce the nut to wear-resisting welt surface's pressure, and prevent that the nut from causing the damage to wear-resisting welt at fastening in-process.

In an alternative embodiment, a gap is left between adjacent wear-resistant lining plates, and the gap between the adjacent wear-resistant lining plates is 1-2mm. Gaps are reserved between adjacent wear-resistant lining plate components, deformation of the wear-resistant lining plates and the bin wall units can be coordinated, influence of the wear-resistant lining plates on rigidity of the bin wall units is reduced, and service life of the bin wall units is prolonged.

In an alternative embodiment, the through holes are distributed in a rectangular, square or quincuncial shape on the wear-resistant lining plate. It can be understood that the through holes are distributed in a rectangular, square or quincuncial shape on the wear-resistant lining plate, namely, a plurality of through holes are formed in the wear-resistant lining plate component, so that the accuracy of installation and positioning is improved, and the wear-resistant lining plate is more firmly connected with the bin wall unit.

In an alternative embodiment, the cartridge wall assembly further comprises a cushion disposed between the wear liner and the cartridge wall elements. When the materials with larger grain diameter and higher hardness enter the silo, the impact kinetic energy of the materials on the silo wall unit can be further absorbed through the buffer pad between the wear-resistant lining plate and the silo wall unit, and the service life of the silo wall unit is prolonged.

In an alternative embodiment, each of the wear resistant liners is a square liner and each of the wear resistant liners is the same size. The wear-resistant lining plate is prepared into standard components with the same size, so that mass production of the wear-resistant lining plate can be realized, and the cost is reduced.

In an optional embodiment, the material of the wear-resistant lining plate is selected from one of stainless steel, silicon carbide, quartz sand or ultra-high molecular polyethylene. The wear-resistant lining plate made of the material has higher wear resistance, has extremely low friction factor with materials, and is not easy to stick materials on the surface.

In a second aspect, the present utility model also provides a silo, comprising:

a silo body;

the silo wall assembly is formed by assembling a plurality of silo wall assemblies;

the silo cover is arranged on the silo body;

the discharging opening is arranged on the silo cover and is communicated with the silo body. The material enters the silo body through the discharge opening arranged on the cabin cover, the impact of the material on the silo wall unit is slowed down by the wear-resistant lining plate, and the service cycle of the silo wall unit is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a wall assembly according to an embodiment of the present utility model;

FIG. 2 is an exploded view of a wall assembly according to an embodiment of the present utility model;

fig. 3 is a schematic view of the wear-resistant liner plate assembly of fig. 1.

Reference numerals illustrate:

1. a bin wall unit; 2. a wear resistant liner assembly; 201. wear-resistant lining board; 2011. a through hole; 3. a fastener; 301. a bolt; 302. and (3) a nut.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of 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, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The steel silo is a structural form widely applied to the warehouse industry. The material falls into the center of the top and is discharged from the bottom, and in the process, vertical friction force and horizontal side pressure are generated on the inner wall of the silo by the material. For the massive bulk cargo with larger hardness, the chute from the warehouse top to the discharge opening is arranged, but abrasion can still be generated on the steel wall plate in the blanking process, and the thickness of the steel plate can be reduced when the bulk cargo is used for a long time, so that the structural safety is affected. In order to improve the durability of the steel plate structure in the use process, an anti-abrasion lining is generally required to be added on a steel plate of a bin wall at the inner side of the steel cylinder bin, so that the impact of materials on the wall of the steel plate is slowed down, the durability of the structure is improved, and the service life of the steel cylinder bin is prolonged.

The existing connection mode of the anti-abrasion lining and the bin wall steel plate is usually welded or glued, the two conventional installation schemes generally have a longer construction period, the later maintenance and replacement costs are high, and the bin wall steel plate can be irreversibly damaged. Taking adhesive connection as an example, when the anti-wear lining and the bin wall steel plate are installed, an adhesive material is required to be fully coated between the anti-wear lining and the bin wall steel plate, and after the adhesive material is completely solidified, the anti-wear lining is installed on the bin wall steel plate. When the anti-wear lining is required to be replaced, the adhesive material is required to be completely removed, then the adhesive material is re-coated, and a new anti-wear lining is mounted on the bin wall steel plate. It can be appreciated that the adhesive connection process is complicated, has high later replacement cost, and is easy to generate irreversible damage to the bin wall steel plate in the replacement process.

Aiming at the problems of complicated installation process of the anti-wear lining and the silo wall steel plate, difficult later maintenance and replacement of the anti-wear lining and the like in the related art, the utility model provides a silo wall assembly and a silo.

Embodiments of the present utility model are described below with reference to fig. 1 to 3.

According to an embodiment of the present utility model, as shown in fig. 1, in one aspect, there is provided a cartridge wall assembly comprising: a wall unit 1, a wear resistant liner plate assembly 2 and fasteners 3.

Specifically, the wear-resistant lining board component 2 comprises a plurality of wear-resistant lining boards 201, and the wear-resistant lining board component 2 is arranged on the bin wall unit 1 and is matched with the shape of the bin wall unit 1; each wear-resistant lining plate 201 is provided with a plurality of through holes 2011; the fasteners 3 are arranged in one-to-one correspondence with the through holes 2011, one ends of the fasteners 3 are fixedly connected with the bin wall unit 1, and the other ends of the fasteners 3 penetrate through the through holes 2011 and are detachably connected with the wear-resistant lining plate 201.

In one example, the process of installing the above-described cartridge wall assembly includes the steps of:

s1, fixedly connecting one end of a plurality of fasteners 3 with the bin wall unit 1, such as welding;

specifically, the arrangement of the fasteners 3 on the bin wall unit 1 adopts any one of rectangle, square or quincuncial, and the number of the fasteners 3 is not less than 3.

S2, pre-opening holes on the wear-resistant lining plate 201 according to the arrangement shape of the fasteners 3 on the bin wall unit 1, so that the through holes 2011 correspond to the fasteners 3 one by one;

s3, sleeving the through holes 2011 on the corresponding fasteners 3, and enabling one end, away from the bin wall unit 1, of the fasteners 3 to penetrate through the through holes 2011;

and S4, detachably connecting the wear-resistant lining plate 201 with one end, away from the bin wall unit 1, of the fastening piece 3, so that the wear-resistant lining plate 201 is mounted on the bin wall unit 1.

Compared with a bin wall assembly formed by adopting adhesive connection, the wear-resistant lining plate 201 and the bin wall unit 1 are connected by adopting the mode of the fastener 3, so that the installation process is more environment-friendly, the installation flow is simplified, and the construction period is shortened. In addition, one end of the fastener 3 and the fixed connection of the bin wall unit 1 and the through hole 2011 on the wear-resistant lining plate 201 can be prefabricated in advance in a factory according to the requirement of an installation drawing, and then the prepared wear-resistant lining plate 201 and the fastener 3 with the fixed connection can be quickly assembled after being transported to an installation site, so that the installation efficiency is improved. Further, the wear-resistant lining board 201 is connected with the bin wall unit 1 through the fastener 3, and the wear-resistant lining board 201 and the fastener 3 are detachably connected, for example, in threaded connection, when the wear-resistant lining board 201 needs to be replaced in the later period, only the nut 302 needs to be unscrewed, the wear-resistant lining board 201 is taken off from the fastener 3, and then a new wear-resistant lining board 201 is replaced. It can be appreciated that the adoption of the detachable connection mode between the wear-resistant lining plate 201 and the fastening piece 3 reduces the cost of later maintenance and replacement, and can not generate irreversible damage to the bin wall unit 1. In addition, by arranging the wear-resistant lining plate assembly 2 as a plurality of wear-resistant lining plates 201, the cost of replacement and maintenance in the later period is further reduced, and when a certain part of the wear-resistant lining plate assembly 2, namely, a certain one or a plurality of wear-resistant lining plates 201 need to be replaced, only one or a plurality of wear-resistant lining plates 201 need to be replaced.

According to one embodiment of the present utility model, as shown in fig. 2, the fastener 3 includes a bolt 301 and a nut 302, the head end of the bolt 301 is welded to the wall unit 1, the other end of the bolt 301 passes through the through hole 2011, and the nut 302 is screwed on the end of the bolt 301 extending out of the through hole 2011, so that the wear-resistant lining board 201 is connected to the wall unit 1.

In this embodiment, the bolt 301 is a large hexagon bolt 301 commonly used in engineering, the hexagon head of the bolt 301 is welded on the bin wall unit 1 according to the requirement of the installation drawing, and the wear-resistant lining plate 201 is pre-perforated according to the arrangement mode of the bolt 301 on the bin wall unit 1, so that the through holes 2011 are in one-to-one correspondence with the bolts 301; then, the through hole 2011 is sleeved on the screw rod of the corresponding bolt 301, and one end of the screw rod of the bolt 301, which is far away from the bin wall unit 1, passes through the through hole 2011; the wear resistant lining 201 is then connected to the wall unit 1 by the cooperation of nuts 302 and bolts 301.

Compared with the process of connecting the wear-resistant lining plate 201 and the bin wall unit 1 by adopting an adhesive process, the process of connecting the wear-resistant lining plate 201 and the bin wall unit 1 by adopting the matching connection of the nuts 302 and the bolts 301 shortens the installation time and is more environment-friendly. In addition, when the abrasion resistant lining plate 201 needs to be replaced or maintained, the abrasion resistant lining plate 201 is replaced or maintained only after the nuts 302 are unscrewed, and the damage to the bin wall unit 1 is avoided in the process.

According to one embodiment of the present utility model, the through hole 2011 includes a first through hole and a second through hole, and the screw of the bolt 301 is used to penetrate through the first through hole and extend out of the first through hole; the second through hole is used for being sleeved outside the head end of the bolt 301, and the diameter of the second through hole is larger than that of the first through hole.

It can be appreciated that when the second through hole is sleeved outside the head end of the bolt 301, the diameter of the end of the second through hole close to the bin wall is larger than the largest dimension of the head end of the bolt 301, that is, a certain gap is reserved between the second through hole and the head end of the bolt 301, so that the wear-resistant lining plate 201 is favorably and successfully sleeved outside the bolt 301 and is in contact with the bin wall unit 1. And a certain gap is reserved between the second through hole and the head end of the bolt 301, so that the deformation of the wear-resistant lining plate 201 and the bin wall unit 1 can be coordinated, and the influence of the wear-resistant lining plate 201 on the rigidity of the bin wall unit 1 is reduced.

The first through hole is matched with the screw shape of the bolt 301, so that the wear-resistant lining plate 201 is tightly matched with the bolt 301, and further the nut 302 is screwed on the end part of the screw extending out of the first through hole, so that the wear-resistant lining plate 201 is connected with the bin wall unit 1.

According to one embodiment of the utility model, a washer is provided between the nut 302 and the wear liner 201. By providing a spacer between the nut 302 and the wear-resistant lining plate 201, the pressure of the nut 302 to the surface of the wear-resistant lining plate 201 can be reduced, and damage to the wear-resistant lining plate 201 caused by the nut 302 in the fastening process can be prevented.

According to one embodiment of the utility model, a gap is left between adjacent wear resistant liners 201, the gap between adjacent wear resistant liners 201 being 1-2mm. Gaps are reserved between adjacent wear-resistant lining plates 201, deformation of the wear-resistant lining plates 201 and the bin wall units 1 can be coordinated, influence of the wear-resistant lining plates 201 on rigidity of the bin wall units 1 is reduced, and service life of the bin wall units 1 is prolonged.

According to one embodiment of the utility model, the through holes 2011 are distributed in a rectangular, square or quincuncial shape on the wear resistant backing plate 201. It can be appreciated that the through holes 2011 are distributed in a rectangular, square or quincuncial shape on the wear-resistant lining board 201, that is, a plurality of through holes 2011 are arranged on the wear-resistant lining board 201, so that the accuracy of installation and positioning is improved, and the connection between the wear-resistant lining board 201 and the bin wall unit 1 is firmer.

As shown in fig. 3, in one example, the through holes 2011 on each wear-resistant lining plate 201 are disposed in a pair opposite to each other, and are distributed on the wear-resistant lining plate 201 in a square shape.

According to one embodiment of the utility model, the cartridge wall assembly further comprises a cushion (not shown) arranged between the wear resistant lining 201 and the cartridge wall unit 1. It can be appreciated that when the material with larger particle size and higher hardness enters the silo, the impact kinetic energy of the material to the silo wall unit 1 can be further absorbed through the buffer pad between the wear-resistant lining plate 201 and the silo wall unit 1, so that the service life of the silo wall unit 1 is prolonged.

According to one embodiment of the utility model, each wear resistant backing plate 201 is a square backing plate and each wear resistant backing plate 201 is the same size. The wear-resistant lining plate 201 is prepared into standard components with the same size, so that mass production of the wear-resistant lining plate 201 can be realized, and the cost is reduced.

As shown in fig. 3, in one example, the wear-resistant lining plates 201 are rectangular lining plates with a length a and a width b, and the through holes 2011 of each wear-resistant lining plate 201 are in one-to-one correspondence with the fastening pieces 3, so that all the wear-resistant lining plates 201 are laid on the bin wall units 1.

In another example, the wear-resistant lining plates 201 are square lining plates with a length of a (or a length of b), and the through holes 2011 of each wear-resistant lining plate 201 are in one-to-one correspondence with the fasteners 3, so that all the wear-resistant lining plates 201 are laid on the bin wall units 1.

According to one embodiment of the present utility model, the material of the abrasion resistant lining plate 201 is selected from any one of stainless steel, silicon carbide, quartz sand or ultra-high molecular polyethylene. Taking an ultra-high molecular polyethylene wear-resistant lining board as an example, the ultra-high molecular polyethylene wear-resistant lining board has higher wear resistance on the premise of lower hardness due to a stable macromolecular chain structure; meanwhile, the self-lubricating performance is achieved, the friction factor between the self-lubricating material and the material is extremely low, and the surface is not easy to stick.

According to an embodiment of the present utility model, in another aspect, the present utility model further provides a silo, including:

a silo body;

the silo wall assembly is assembled to form the silo body;

the silo cover is arranged on the silo body;

the discharging opening is arranged on the silo cover and is communicated with the silo body. The material enters the silo body through the discharge opening arranged on the cabin cover, the impact of the material on the cabin wall unit 1 is slowed down by the wear-resistant lining plate 201, and the service cycle of the cabin wall unit 1 is prolonged.

In addition, the silo of the present utility model has other advantages of the above-mentioned silo wall assembly, and will not be described in detail herein.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (9)

1. A wall assembly comprising:

a wall unit (1);

the wear-resistant lining plate assembly (2) comprises a plurality of wear-resistant lining plates (201), and the wear-resistant lining plate assembly (2) is arranged on the bin wall unit (1) and is matched with the bin wall unit (1) in shape; each wear-resistant lining plate (201) is provided with a plurality of through holes (2011), gaps are reserved between adjacent wear-resistant lining plates (201),

the fasteners (3) are arranged in one-to-one correspondence with the through holes (2011), one end of each fastener (3) is fixedly connected with the bin wall unit (1), and the other end of each fastener (3) penetrates through each through hole (2011) and is detachably connected with the wear-resistant lining plate (201);

the buffer cushion is arranged between the bin wall unit (1) and the wear-resistant lining plate (201).

2. The wall assembly according to claim 1, wherein the fastener (3) comprises a bolt (301) and a nut (302), the head end of the bolt (301) is welded with the wall unit (1), the other end of the bolt (301) passes through the through hole (2011), and the nut (302) is screwed on the end of the bolt (301) extending out of the through hole (2011) to connect the wear-resistant lining plate (201) with the wall unit (1).

3. The cartridge wall assembly of claim 2 wherein the through bore (2011) comprises a first through bore and a second through bore, the shank of the bolt (301) being configured to pass through and extend out of the first through bore; the second through hole is used for being sleeved outside the head end of the bolt (301), and the diameter of the second through hole is larger than that of the first through hole.

4. The cartridge wall assembly of claim 2 wherein a spacer is provided between the nut (302) and the wear liner plate (201).

5. The cartridge wall assembly of claim 1 wherein the gap between adjacent wear resistant liners (201) is 1-2mm.

6. The cartridge wall assembly of claim 1, wherein the through holes (2011) are rectangular, square or quincuncial distributed on the wear resistant liner plate (201).

7. The cartridge wall assembly of any of claims 1 to 6 wherein each of the wear resistant liners (201) is a square liner and each of the wear resistant liners (201) is the same size.

8. The wall assembly according to any one of claims 1 to 6, wherein the wear resistant lining plate (201) is made of one of stainless steel, silicon carbide, quartz sand or ultra high molecular weight polyethylene.

9. A silo, comprising:

a silo body;

a plurality of the silo wall assemblies of any of claims 1-8 assembled to form the silo body;

the silo cover is arranged on the silo body;

the discharging opening is arranged on the silo cover and is communicated with the silo body.