CN220577975U - Dampproofing granary of storing of fodder cereal - Google Patents

Abstract

The utility model discloses a feed grain dampproof storage barn, which relates to the field of grain storage and comprises a rain-proof top and a dampproof base, wherein a bottom barn is arranged at one end of the dampproof base towards the rain-proof top, a plurality of dampproof barns are vertically arranged between the bottom barn and the rain-proof top, storage net covers are sleeved in the dampproof barn, adjacent storage net covers are mutually communicated, a connecting frame is arranged between the dampproof barn and the storage net covers, a plurality of hollowed-out storage barrels are arranged on the inner wall of the dampproof barn, and water absorbing components are arranged in the storage barrels. Therefore, the water absorbing component is arranged in the storage barrel of the dampproof bin, so that the water in the grain bin is continuously fixed by the water absorbing component, and the environment in the grain bin is ensured to be dry.

Description

Dampproofing granary of storing of fodder cereal

Technical Field

The utility model relates to the technical field of grain storage, in particular to a feed grain moisture-proof storage barn.

Background

Grain is typically stored in bulk for use in feed production at the feed manufacturer, which requires the manufacturer to construct large grain silos for grain storage.

But the large-scale barn has the defects of larger occupied area, high construction cost and the like, so that a feed manufacturer prefers the assembled barn with lower cost and smaller occupied area.

However, the existing assembled grain bin often has the problem of poor sealing, which can lead grains in the grain bin to be easy to get damp and mould, and finally the quality of feed is affected.

Disclosure of Invention

Aiming at the defects, the utility model aims to provide a feed grain moisture-proof storage barn, and aims to solve the problem that the feed quality is poor finally due to the fact that the assembled barn is poor in sealing in the prior art and grains are damped.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

the utility model provides a grain bin is stored in dampproofing of fodder cereal, includes separates roof and dampproofing base, the dampproofing base is installed towards the one end that separates the roof and is had a house at the bottom, and a plurality of dampproofing houses are installed to vertical between the roof with separating the roof at the bottom, dampproofing house endotheca is equipped with stores the screen panel, and adjacent stores the screen panel intercommunication each other, install the link between dampproofing house and the storage screen panel, install the storage cylinder of a plurality of fretwork on the inner wall in dampproofing storehouse, be provided with the subassembly that absorbs water in the storage cylinder.

Wherein, the one end in dampproofing storehouse is provided with first boss, and first recess is installed to the other end in dampproofing storehouse, and adjacent first boss is pegged graft with first recess.

The outer wall of the dampproof bin is provided with a plurality of inserting holes, the inserting holes form a first array and a second array which are oppositely arranged, and the first array and the second array are vertically arranged along the outer wall of the dampproof bin.

The fixing piece is inserted into the plug hole and comprises a first section and a second section, the outer outline size of the first section is smaller than the aperture of the plug hole, and the angle between the first section and the second section is a, and a is more than or equal to 30 degrees and less than or equal to 150 degrees.

The top of the storage net cover is provided with a second groove, a second boss is arranged at the bottom of the storage net cover, and the second grooves of adjacent storage net covers are spliced with the second boss.

And a reinforcing ring is arranged between the second boss and the second groove, and the connecting frame is positioned between the reinforcing ring and the dampproof bin.

The storage net cover is arranged in the bottom bin, a discharge hole is arranged on the side wall of the bottom bin, and one end of the discharge hole is communicated with the storage net cover.

And the moistureproof base is also provided with a refrigerating fan, and a ventilating duct of the refrigerating fan is communicated with the bottom bin.

The rain isolating roof is conical, a third groove matched with the first boss is formed in the bottom of the rain isolating roof, and an air outlet is formed in the top of the rain isolating roof.

Wherein, be provided with sealed sack in the storage cylinder, the subassembly that absorbs water is located sealed sack.

After the technical scheme is adopted, the utility model has the beneficial effects that:

firstly, be provided with the subassembly that absorbs water in the storage tube of dampproofing storehouse, this makes the moisture in the barn constantly fixed by the subassembly that absorbs water to guaranteed that the environment in the barn is comparatively dry.

Secondly, the moisture-proof base separates grains from the ground, so that the moisture on the ground is prevented from being transferred to the grains.

Thirdly, the overall structure of the barn can be disassembled, so that a customer can assemble the barn according to the requirements when in need, and can disassemble the barn when in idle, so that a space is reserved.

The utility model is further described below with reference to the drawings and the detailed description.

Drawings

FIG. 1 is a block diagram of a moisture resistant storage barn for forage grains;

FIG. 2 is a block diagram of a storage screen;

FIG. 3 is a top view of the moisture resistant cartridge;

FIG. 4 is a bottom view of the moisture resistant cartridge;

FIG. 5 is an installation view of adjacent moisture resistant bins;

FIG. 6 is a block diagram of a fixture;

fig. 7 is a bottom view of the rain shield roof.

Detailed Description

The utility model is further elucidated below in conjunction with the accompanying drawings.

The directions related in the specification are all based on the directions of the feed grain moisture-proof storage barn in normal operation, are not limited in storage and transportation, and only represent relative positional relationship and not absolute positional relationship.

Examples:

as shown in fig. 1-7, a feed grain dampproofing storage grain bin comprises a rain-proof top 1 and a dampproofing base 2, wherein a bottom bin 21 is arranged at one end of the dampproofing base 2 facing the rain-proof top 1, a plurality of dampproofing bins 3 are vertically arranged between the bottom bin 21 and the rain-proof top 1, storage net covers 4 are sleeved in the dampproofing bins 3, adjacent storage net covers 4 are mutually communicated, a connecting frame 31 is arranged between the dampproofing bins 3 and the storage net covers 4, a plurality of hollow storage barrels 32 are arranged on the inner wall of the dampproofing bins 3, and water absorption components are arranged in the storage barrels 32. Because this scheme is assembled granary, consequently, the use quantity in dampproofing storehouse 3 can select by oneself according to the storage requirement. In use, we need to mount the bottom compartment 21 on the moisture resistant base 2. The moisture-proof base 2 serves to isolate the grain from the ground, prevent moisture from being transferred to the grain, and also serves to support the entire grain bin. The installation requirement then installs the moisture resistant bin 3 onto the bottom bin 21. Wherein, the effect of storing the screen panel 4 is used for storing cereal, therefore adjacent storing the screen panel 4 intercommunication each other, the memory space of cereal is improved to the purpose. The connection frame 31 is used for supporting the storage net cover 4 to prevent the storage net cover 4 from being broken due to the extrusion of grains. The cartridge 32 functions to house the absorbent assembly. The vapor in the grain bin can pass through the hollow area of the storage cylinder 32 to reach the water absorbing component and be fixed by the water absorbing component, so that the grains are ensured to be in a dry environment. After the dampproof bin 3 is assembled, grains are required to be conveyed into the storage net cover 4, and after conveying is finished, the rain-proof roof 1 is installed on the dampproof bin 3 by using the crane, so that final assembly is finished.

In this aspect, the water absorbing component includes, but is not limited to, quicklime, activated carbon, silica gel, and calcium chloride.

In the scheme, the moistureproof base 2 comprises a main stainless steel seat and a reinforced resin auxiliary seat sleeved on the main seat.

As shown in fig. 3-4, in order to facilitate assembly of the moisture-proof bin 3, one end of the moisture-proof bin 3 is provided with a first boss 33, the other end of the moisture-proof bin 3 is provided with a first groove 34, and the first bosses 33 of adjacent moisture-proof bins 3 are spliced with the first groove 34. In this embodiment, the inner dimension of the first groove 34 is the same as the outer dimension of the first boss 33, so that the first boss 33 can be inserted into the first groove 34.

In order to fix the dampproof bin 3 and avoid random rotation of the dampproof bin 3, a plurality of inserting holes 35 are arranged on the outer wall of the dampproof bin 3, a plurality of inserting holes 35 form a first array and a second array which are arranged oppositely, the first array and the second array are vertically arranged along the outer wall of the dampproof bin 3, namely, the first array is close to the top of the dampproof bin 3, and the second array is close to the bottom of the dampproof bin 3. When the adjacent dampproof cabins 3 are fixed, the plug holes 35 of the two dampproof cabins 3 can be connected by bolts, or bolts are arranged in the plug holes 35.

As shown in fig. 5-6, preferably, the plugging hole 35 is internally provided with a fixing member 351, the fixing member 351 comprises a first section 3511 and a second section 3512, the outer contour dimension of the first section 3511 is smaller than the aperture of the plugging hole 35, and the angle between the first section 3511 and the second section 3512 is a, and a is greater than or equal to 30 ° and less than or equal to 150 °. The design makes the mounting 351 be "7" font or "T" font bolt, and first section 3511 will pass adjacent spliced eye 35 in the vertical direction this moment, and second section 3512 then the joint is in spliced eye 35 in the top, and this makes workman's quick assembly disassembly grain bin.

The second grooves 41 are formed in the tops of the storage net covers 4, the second bosses 42 are arranged at the bottoms of the storage net covers 4, and the second grooves 41 of the adjacent storage net covers 4 are spliced with the second bosses 42. This design facilitates the communication of the storage net cover 4 to form a whole, and enlarges the reserves of grains.

Preferably, a reinforcing ring 43 is disposed between the second boss 42 and the second groove 41, and the connecting frame 31 is located between the reinforcing ring 43 and the moisture-proof bin 3. The introduction of the stiffening ring 43 enables the storage screen 4 to carry more grains without breaking.

For conveniently taking out grains, a storage net cover 4 is arranged in the bottom bin 21, a discharge hole 211 is arranged on the side wall of the bottom bin 21, and one end of the discharge hole 211 is communicated with the storage net cover 4.

In order to facilitate replacement of the water absorbing component, a sealing cloth bag is arranged in the storage barrel 32, and the water absorbing component is positioned in the sealing cloth bag.

The ability of the water absorbing assembly to fix moisture is limited, and for further moisture protection, a cooling fan 22 is further mounted on the moisture-proof base 2, and a ventilation pipe of the cooling fan 22 is communicated with the bottom bin 21. The cooling fan 22 can introduce dry cold air into the bottom bin 21, and the cold air can flow upwards along the dampproof bin 3 to take away moisture in the dampproof bin 3.

As shown in fig. 7, in order to seal the grain bin conveniently, the rain separating roof 1 is conical, a third groove 11 matched with the first boss 33 is formed in the bottom of the rain separating roof 1, and an air outlet 12 is formed in the top of the rain separating roof 1. The third groove 11 is introduced to facilitate the assembly of the rain-proof roof 1 with the moisture-proof bin 3, and the air outlet 12 is used to exhaust moist air. Wherein, when the refrigerating fan 22 is not in operation, the air outlet 12 is in a closed state, so as to prevent foreign matters from entering the grain bin.

In order to facilitate hoisting of the rain-proof roof 1, a hanging ring 13 is arranged at the top of the rain-proof roof 1.

In this solution, sealing gaskets are arranged in the first groove 34, the second groove 41 and the third groove 11, and the purpose of the design is to increase the air tightness of the joint and reduce the probability of water vapor entering the dampproof bin 3.

In this embodiment, the bottom compartment 21 is integrally formed with the moisture-proof base 2.

In summary, the scheme has the following advantages: firstly, the storage barrel 32 of the dampproof bin 3 is provided with a water absorbing component, so that the water in the grain bin is continuously fixed by the water absorbing component, and the environment in the grain bin is ensured to be drier. Secondly, the moisture-proof base 2 separates grains from the ground, so that the moisture on the ground is prevented from being transferred to the grains. Thirdly, the overall structure of the barn can be disassembled, so that a customer can assemble the barn according to the requirements when in need, and can disassemble the barn when in idle, so that a space is reserved.

The foregoing describes several embodiments of the present utility model in detail, but the description is merely a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (10)

1. A feed cereal dampproofing storehouse of storing which characterized in that: including separating rain top and dampproofing base, the end storehouse is installed towards the one end that separates the rain top to dampproofing base, and a plurality of dampproofing warehouses of vertical installation are held down between storehouse and the rain top, dampproofing storehouse endotheca is equipped with stores the screen panel, and adjacent stores the screen panel intercommunication each other, install the link between dampproofing storehouse and the storage screen panel, install the storage cylinder of a plurality of fretwork on the inner wall in dampproofing storehouse, be provided with the subassembly that absorbs water in the storage cylinder.

2. The forage grain moisture resistant storage grain silo of claim 1, wherein: one end of the dampproof bin is provided with a first boss, the other end of the dampproof bin is provided with a first groove, and the adjacent first boss is spliced with the first groove.

3. The forage grain moisture resistant storage grain silo of claim 2, wherein: the outer wall of dampproofing storehouse is installed a plurality of spliced eyes, and a plurality of the spliced eyes constitute first array and the second array of relative setting, first array and second array are along the outer wall vertical arrangement in dampproofing storehouse.

4. A feed grain moisture resistant storage grain bin as claimed in claim 3 wherein: the fixing piece is inserted into the plug hole and comprises a first section and a second section, the outer contour size of the first section is smaller than the aperture of the plug hole, and the angle between the first section and the second section is a, and a is more than or equal to 30 degrees and less than or equal to 150 degrees.

5. The forage grain moisture resistant storage grain silo of claim 1, wherein: the top of storing the screen panel is provided with the second recess, the second boss is installed to the bottom of storing the screen panel, and the second recess and the second boss grafting of adjacent storage screen panel.

6. The forage grain moisture resistant storage grain silo of claim 5, wherein: a reinforcing ring is arranged between the second boss and the second groove, and the connecting frame is positioned between the reinforcing ring and the dampproof bin.

7. The forage grain moisture resistant storage grain silo of claim 1, wherein: the storage net cover is arranged in the bottom bin, a discharge hole is arranged on the side wall of the bottom bin, and one end of the discharge hole is communicated with the storage net cover.

8. The forage grain moisture resistant storage grain silo of claim 1, wherein: and the moistureproof base is also provided with a refrigerating fan, and a ventilating duct of the refrigerating fan is communicated with the bottom bin.

9. The forage grain moisture resistant storage grain silo of claim 1, wherein: the rain isolation roof is conical, a third groove matched with the first boss is formed in the bottom of the rain isolation roof, and an air outlet is formed in the top of the rain isolation roof.

10. The forage grain moisture resistant storage grain silo of claim 1, wherein: a sealing cloth bag is arranged in the storage cylinder, and the water absorbing component is positioned in the sealing cloth bag.