CN220599350U - Heat preservation warehouse body structure beneficial to drainage - Google Patents

Abstract

The utility model discloses a heat preservation warehouse body structure beneficial to drainage, which relates to warehouse equipment and aims at solving the technical problem of inconvenient drainage, and the technical scheme is as follows: the utility model provides a do benefit to heat preservation storehouse body structure of drainage, includes the storehouse bottom, storehouse wall and storehouse top, the storehouse bottom includes the foundation base, sets up in the angle section bar, end plate and the bottom plate of foundation base, angle section bar and end plate cooperation enclose along the border of foundation base, the bottom plate sets up in enclosing the region, the cross-section of angle section bar is the U-shaped and has the drainage elongated slot, the bottom plate is slope setting and low end and drainage elongated slot connection, the end of end plate just being provided with the outlet in the drainage elongated slot. According to the heat preservation warehouse body structure beneficial to drainage, accumulated water on the inner bottom surface can automatically flow into the drainage long groove and is discharged through the drainage outlet, so that the convenience of drainage is effectively improved.

Description

Heat preservation warehouse body structure beneficial to drainage

Technical Field

The utility model relates to storage equipment, in particular to a heat preservation warehouse body structure beneficial to drainage.

Background

The thermal insulation warehouse is an important storage device applied to food production enterprises, and at present, a civil refrigeration warehouse or a thermal insulation container is generally adopted for preserving large quantities of foods.

A refrigeration and heat preservation warehouse of Chinese patent bulletin with bulletin number of CN207975886U is technically characterized in that: comprises a frame body, a first heat-insulating body, a second heat-insulating body and at least three third heat-insulating bodies. The support body includes first side frame, second side frame and at least three spliced pole, and first side frame passes through the spliced pole with the second side frame to be connected, and first side frame, second side frame all can dismantle with the spliced pole and be connected, and first side frame is inside to form first opening, and second side frame is inside to form the second opening, and adjacent two spliced poles, first side frame and second side frame prescribe a limit jointly a third opening. The first heat preservation body is shielded in the first opening. The second heat insulator is covered on the second opening. The third heat preservation body shields in the third opening, and the third heat preservation body can slide along the extending direction of spliced pole.

The bottom of the warehouse in the technical proposal is not provided with a drainage structure, so the technical problem of inconvenient drainage exists; there is therefore a need to propose a new solution to this problem.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a heat preservation warehouse body structure beneficial to drainage, accumulated water on the inner bottom surface can automatically flow into a drainage long groove and is discharged through a water outlet, and the convenience of drainage is effectively improved.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a do benefit to heat preservation storehouse body structure of drainage, includes the storehouse bottom, storehouse wall and storehouse top, the storehouse bottom includes the foundation base, sets up in the angle section bar, end plate and the bottom plate of foundation base, angle section bar and end plate cooperation enclose along the border of foundation base, the bottom plate sets up in enclosing the region, the cross-section of angle section bar is the U-shaped and has the drainage elongated slot, the bottom plate is slope setting and low end and drainage elongated slot connection, the end of end plate just being provided with the outlet in the drainage elongated slot.

Through adopting above-mentioned technical scheme, the improvement of this application lies in the design of reservoir bottom structure, adopts the mode of welding assembly angle section bar and end plate, forms the frame construction of reservoir bottom, forms the inside bottom surface structure of this application with the welding assembly bottom plate again, compares in traditional concrete placement, effectively reduces construction degree of difficulty and error risk; the limiting bottom plate is arranged obliquely, so that the upper surface has self-flow inclination, accumulated water on the inner bottom surface of the limiting bottom plate can flow into the drainage long groove automatically, and is discharged through the drainage outlet, and the convenience of drainage is effectively improved.

The utility model is further provided with: the warehouse wall comprises a plurality of wallboards with side surfaces connected and welded and fixed, the warehouse top comprises a plurality of top boards with side surfaces connected and welded and fixed, the wallboards, the top boards, the bottom boards, the end boards and the corner profiles are all of a three-layer composite structure, the middle layer is a polyurethane core layer, and the two outer layers are all stainless steel plates.

The utility model is further provided with: the foundation base is a concrete pouring terrace, an underground steel beam is buried, and the underground steel beam is provided with an embedded groove for embedding and welding reinforcing the corner section bar and the end plate.

The utility model is further provided with: the buried steel beam is in a rectangular annular structure in overlooking mode, and is provided with two long sides and two short sides, one long side is connected with the angle section bar, the other long side is connected with the end plate, and the bottom plate is of a single-side inclined structure.

The utility model is further provided with: the buried steel beam is in a rectangular annular structure in overlooking mode, and is provided with two long sides and two short sides, wherein the two long sides are connected with angle profiles, the two short sides are connected with end plates, and the bottom plate is of a two-side inclined structure.

The utility model is further provided with: the bottom plate is internally provided with a plurality of bearing cushion blocks, and a plurality of bearing cushion blocks are arranged according to the placement position layout of equipment.

The utility model is further provided with: the end plate is provided with a thickening part along the edge of the outer surface water outlet, and the thickening part is embedded and locked with a blocking piece through a bolt.

In summary, the utility model has the following beneficial effects: the frame structure of the bottom of the warehouse is formed by welding and assembling the corner sectional materials and the end plates, and then the bottom surface structure inside the warehouse is formed by welding and assembling the bottom plates, so that the construction difficulty and error risk of the bottom surface inside the warehouse are effectively reduced; the accumulated water on the inner bottom surface can automatically flow into the drainage long groove and is discharged through the drainage outlet, so that the convenience of drainage is effectively improved; the ground-buried steel beam is provided with an embedding groove for embedding and welding reinforcement of the angle section bar and the end plate, so that the installation stability of the angle section bar and the end plate is ensured, and the overall structural stability of the bottom of the warehouse is further ensured; the bearing cushion blocks are additionally arranged to realize the reinforcement connection of the two stainless steel plates on one hand and the targeted support reinforcement on the other hand, so that the bottom of the warehouse is effectively prevented from being deformed under pressure; the water outlet is sealed by the sealing piece, so that the influence on the heat insulation performance due to the water outlet is avoided.

Drawings

FIG. 1 is a schematic overall structure of a first embodiment;

FIG. 2 is a partial cross-sectional view of a first embodiment, showing the intersection of the wall panel and the roof panel in the figure for ease of illustration;

fig. 3 is an enlarged view of a portion a of fig. 2;

FIG. 4 is a cross-sectional cut-away view of a drain region of an embodiment;

FIG. 5 is a layout view of a load-bearing pad according to an embodiment;

fig. 6 is a cross-sectional view of the second embodiment.

Description of the drawings: 1. a base; 2. angle section bar; 3. an end plate; 4. a bottom plate; 5. a drainage long groove; 6. a water outlet; 7. a wallboard; 8. a top plate; 9. a polyurethane core layer; 10. a stainless steel plate; 11. burying a steel beam; 12. a fitting groove; 13. a thickening portion; 14. a blocking member; 15. and a bearing cushion block.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

Embodiment one: the utility model provides a do benefit to heat preservation storehouse body structure of drainage, as shown in fig. 1, fig. 2, fig. 3, including the storehouse bottom, storehouse wall and storehouse top, the storehouse bottom includes basic base 1, set up in the angle section bar 2 of basic base 1, end plate 3 and bottom plate 4, angle section bar 2 and end plate 3 cooperate and enclose along the border of basic base 1 and close, bottom plate 4 seal welding is fixed in enclosing the region, angle section bar 2's cross-section is the U-shaped and has drainage slot 5, bottom plate 4 is the slope setting and the low end is connected with drainage slot 5, the whole fall of slope is 30mm end plate 3 just to having offered outlet 6 in the tip of drainage slot 5 run-through.

The improvement of the application lies in the design of the bottom structure of the storehouse, adopt the mode of welding and assembling the angle section bar 2 and end plate 3, form the frame construction of the storehouse bottom, then use the welding and assembling the bottom plate 4 to form the internal bottom surface structure of this application, compare with traditional concrete placement, reduce the construction difficulty and error risk of the internal bottom surface effectively; the limiting bottom plate 4 is obliquely arranged, so that the upper surface has self-flow inclination, and accordingly accumulated water on the inner bottom surface of the water draining groove 5 can automatically flow and flow into the water draining groove and is drained through the water draining opening 6, and convenience in water draining is effectively improved.

In order to improve the heat insulation effect, as shown in fig. 1 and 3, the warehouse wall comprises a plurality of wallboards 7 with side surfaces connected and welded and fixed, the warehouse top comprises a plurality of top boards 8 with side surfaces connected and welded and fixed, the wallboards 7, the top boards 8, the bottom boards 4, the end boards 3 and the corner profiles 2 are all three-layer composite structures, the middle layer is a polyurethane core layer 9, and the two outer layers are all stainless steel plates 10; thereby ensuring heat insulating ability by the polyurethane core layer 9 and material strength and welding conditions by the stainless steel plate 10.

Wherein, the wall plate 7, the top plate 8, the bottom plate 4, the end plate 3 and the angle section bar 2 are all narrow-edge strip structures; the density of the polyurethane core layer 9 is not less than 43 kg/cubic meter, the thickness of the stainless steel plate 10 of the inner layer is 2.5 mm, and the thickness of the stainless steel plate 10 of the outer layer is 0.5 mm.

In order to ensure the stability of the bottom of the warehouse, as shown in fig. 2 and 3, the foundation base 1 is a concrete pouring terrace, so as to ensure the structural strength of the bottom, avoid sinking, the foundation base 1 is embedded with an embedded steel beam 11, and the embedded steel beam 11 is provided with an embedded groove 12 for embedding and welding the corner section bar 2 and the end plate 3 for reinforcement, so as to ensure the installation stability of the corner section bar 2 and the end plate 3, and further ensure the overall structural stability of the bottom of the warehouse.

In order to improve the bearing capacity of the bottom of the warehouse, the bottom is prevented from being pressed and sunken, as shown in fig. 5, a plurality of bearing cushion blocks 15 are welded and fixed inside the bottom plate 4, and the bearing cushion blocks 15 are arranged according to the position of the equipment, so that on one hand, the connection of two stainless steel plates 10 is realized, on the other hand, the targeted support is enhanced, and the bottom of the warehouse is effectively prevented from being pressed and deformed.

As shown in fig. 4, the end plate 3 is welded and fixed with a thickening portion 13 along the edge of the outer surface drain opening 6, the thickening portion 13 is embedded and bolted with a blocking member 14, and when drainage is not needed, the drain opening 6 can be blocked by the blocking member 14, so that the heat insulation performance is not affected by the drain opening 6.

The concrete enclosing structure of the angle section bar 2 and the end plate 3 is as follows, as shown in fig. 2, the buried steel beam 11 is in a rectangular annular structure in overlook, and is provided with two long sides and two short sides, the angle section bar 2 is connected with the two long sides, the end plate 3 is connected with the two short sides, and the bottom plate 4 is in a two-side inclined structure, so that water can be discharged at two sides at the same time, and the buried steel beam is more suitable for a thermal insulation warehouse with larger design volume or needing frequent ice melting.

Embodiment two: the difference between the embodiment and the first embodiment is that a unilateral drainage structure is adopted, as shown in fig. 6, the buried steel beam 11 is in a rectangular annular structure in a top view, and has two long sides and two short sides, one long side is connected with the angle section bar 2, the other long side is connected with the end plate 3, and the bottom plate 4 is in a unilateral inclined structure, so that drainage is performed in a unilateral collecting mode in the embodiment, and the buried steel beam is suitable for a thermal insulation warehouse with relatively small design volume.

The present utility model is not limited by the specific embodiments, and modifications can be made to the embodiments without creative contribution by those skilled in the art after reading the present specification, but are protected by patent laws within the scope of claims of the present utility model.

Claims (7)

1. The utility model provides a do benefit to heat preservation storehouse body structure of drainage, includes reservoir bottom, storehouse wall and storehouse top, its characterized in that: the storehouse bottom includes basic base (1), sets up in angle section bar (2), end plate (3) and bottom plate (4) of basic base (1), the border along basic base (1) of angle section bar (2) and end plate (3) cooperation encloses, bottom plate (4) set up in enclosing the region, the cross-section of angle section bar (2) is the U-shaped and has drainage elongated slot (5), bottom plate (4) are slope setting and low end and drainage elongated slot (5) are connected, end plate (3) are provided with outlet (6) just to the tip of drainage elongated slot (5).

2. The thermal insulation warehouse structure facilitating drainage according to claim 1, wherein: the warehouse wall comprises a plurality of side-connected and welded-fixed wallboards (7), the warehouse top comprises a plurality of side-connected and welded-fixed top boards (8), the wallboards (7), the top boards (8), the bottom boards (4), the end boards (3) and the corner profiles (2) are all of a three-layer composite structure, the middle layer is a polyurethane core layer (9), and the two outer layers are all stainless steel plates (10).

3. The thermal insulation warehouse structure facilitating drainage according to claim 1, wherein: the foundation base (1) is a concrete pouring terrace, an underground steel beam (11) is buried, and the underground steel beam (11) is provided with an embedded groove (12) for embedding and welding reinforcing the corner section bar (2) and the end plate (3).

4. A thermal insulation warehouse structure for facilitating drainage as defined in claim 3, wherein: the buried steel beam (11) is in a rectangular annular structure in overlook, and is provided with two long sides and two short sides, one long side of the buried steel beam is connected with the angle section bar (2), the other long side of the buried steel beam is connected with the end plate (3), and the bottom plate (4) is in a single-side inclined structure.

5. A thermal insulation warehouse structure for facilitating drainage as defined in claim 3, wherein: the buried steel beam (11) is in a rectangular annular structure in overlook and is provided with two long sides and two short sides, the two long sides are connected with the angle section bar (2), the two short sides are connected with the end plate (3), and the bottom plate (4) is in a two-side inclined structure.

6. The thermal insulation warehouse structure facilitating drainage according to claim 1, wherein: the base plate (4) is internally provided with a plurality of bearing cushion blocks (15), and the bearing cushion blocks (15) are distributed according to the placement position of equipment.

7. The thermal insulation warehouse structure facilitating drainage according to claim 1, wherein: the end plate (3) is provided with a thickening part (13) along the edge of the outer surface water outlet (6), and the thickening part (13) is embedded and locked with a blocking piece (14) through bolts.