CN217872054U - Fully-assembled self-heat-preservation ribbed sandwich concrete refrigeration house - Google Patents
Fully-assembled self-heat-preservation ribbed sandwich concrete refrigeration house Download PDFInfo
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- CN217872054U CN217872054U CN202221274203.6U CN202221274203U CN217872054U CN 217872054 U CN217872054 U CN 217872054U CN 202221274203 U CN202221274203 U CN 202221274203U CN 217872054 U CN217872054 U CN 217872054U
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Abstract
The utility model discloses a close rib sandwich concrete freezer of full assembled self preservation temperature, including floor, wallboard, roofing and steel stand, the wallboard is located between lower part floor and the upper portion roofing, and the steel stand is located the edge of storehouse, floor, wallboard and roofing pass through bolted connection with the steel stand respectively, pass through bolted connection between the floor, between the wallboard, between the roofing respectively, bottom plate, wallboard and roof are double-deck dislocation close rib sandwich plate structure, and floor, wallboard, roofing and the steel stand of this container formula freezer are whole to pass through bolted connection, and convenient for connection, construction is convenient and quick, and the combination plate body dead weight is lighter, and thermal insulation performance is good, and the holistic heat preservation of freezer is thermal-insulated effectual, low in production cost.
Description
Technical Field
The utility model relates to an assembly type structure technical field especially relates to a close rib sandwich concrete freezer of full assembled self preservation temperature.
Background
With the development of modern industrial technology, the assembly type building gradually replaces a common building system in the prior art with the advantages of high construction speed, small restriction by climatic conditions, labor saving and the like. The container house is a typical fabricated building, and the container can be used as a refrigeration house. The composite board of the existing fabricated container refrigerator is a common concrete board, has poor heat preservation effect and larger self weight; moreover, the combination of concrete slabs needs to be connected through the post-pouring anchoring of steel bars, and the combination construction between the combined plates of the container is inconvenient.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the problem that the combination construction of the container cold storage in the prior art is inconvenient, and providing a full-assembly self-insulation ribbed sandwich concrete cold storage.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a close rib sandwich concrete freezer of full assembled self preservation temperature, includes floor, wallboard, roofing and steel stand, the wallboard is located between lower part floor and the upper portion roofing, and the steel stand is located the edge of storehouse, floor, wallboard and roofing pass through bolted connection with the steel stand respectively, between the floor, between the wallboard, respectively through bolted connection between the roofing. The floor, the wallboard, the roof and the steel upright post of the container type refrigeration house are all connected through the bolt combination, so that the connection is convenient, the construction is convenient and quick, and the construction time and the cost are saved.
Preferably, the edge part of the floor is provided with a groove and a bottom beam. The bottom beam is used for supporting the floor main body, lifting the floor main body off the ground and improving the heat insulation performance of the floor. The plurality of grooves are arranged along the edge of the floor in a single row, and the grooves are provided with side connecting holes close to the side faces of the floor. When the two floors are connected, the connecting bolt can pass through the side connecting hole, and the two ends of the connecting bolt are positioned in the connecting groove, so that the matched nut can be screwed conveniently.
Preferably, the edge of the wallboard is provided with wall boundary beams, the wall boundary beams are provided with wall connecting holes, and the wall connecting holes are arranged in rows along the wall boundary beams. When two wallboards are connected, the connecting bolt can pass through the wall connecting hole, two ends of the connecting bolt extend out from one side of the wall boundary beam, and the matched nuts are screwed down from two ends of the connecting bolt respectively, so that the tight leaning and connection of two wallboard edge parts are realized. This wallboard carries out the connection between the wallboard through the boundary beam, avoids the connecting hole to the destruction of wallboard structure, guarantees the support intensity of wallboard.
Preferably, the edge of the roof is provided with roof side beams, roof connecting holes are formed in the roof side beams, and the roof connecting holes are arranged in rows along the roof side beams. The connection mode between the roofs is the same as that of the wall boards, and the description is omitted.
Preferably, floor, wallboard, roofing are self preservation temperature multi-ribbed sandwich structure, self preservation temperature multi-ribbed sandwich structure includes bottom plate, panel, vertical rib beam, horizontal rib beam and light filling block, the light filling block is arranged in the cavity that is formed by bottom plate, panel, vertical rib beam and horizontal rib beam. The light filling blocks are arranged inside the floor, the wall board and the roof, so that the dead weight of the board body can be reduced, and the heat insulation performance of the board body is improved.
Preferably, the material of panel is glass fibre net reinforcing concrete sheet metal, guarantees the structural strength of wallboard, and can reduce the dead weight of wallboard greatly. The volume weight of the bottom plate, the longitudinal rib beam and the transverse rib beam is less than 1200kg/m 3 The light aggregate structural concrete with the heat conductivity coefficient less than 0.5W/(m.k) and the strength greater than 10Mpa has light weight, reduces the heat bridge effect of the rib beam and has good heat preservation effect. The lightweight filling block adopts a polystyrene foam board with volume weight less than 10kg/m < 3 >, is light in weight and has a heat insulation effect.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the floor, the wallboard, the roof and the steel upright post of the assembly type refrigeration house are all connected in a combined mode through the bolts, connection is convenient, construction is convenient and rapid, and construction time and cost are saved.
2. The floor, the wall plate and the roof of the assembled refrigeration house are all of self-heat-preservation multi-ribbed sandwich structures, the panel materials of the self-heat-preservation multi-ribbed sandwich structures are glass fiber grid reinforced concrete thin plates, the bottom plates, the longitudinal rib beams and the transverse rib beams adopt light aggregate structural concrete, and the light filling blocks are foam plates, so that the combined plate body of the assembled refrigeration house is light in dead weight and good in heat preservation performance, the overall heat preservation and heat insulation effect of the refrigeration house can be improved, and the overall production cost of the container house is reduced.
Drawings
FIG. 1 is a schematic diagram of a longitudinal section structure of the self-insulation ribbed sandwich concrete refrigerator;
FIG. 2 is a schematic structural view of a transverse section of the self-insulation multi-ribbed sandwich concrete refrigerator;
FIG. 3 is a schematic structural view of the self-insulation multi-ribbed sandwich concrete floor for a refrigerator;
FIG. 4 is a schematic structural view of the connection of the floor of the self-insulation multi-ribbed sandwich concrete refrigerator;
FIG. 5 is a schematic cross-sectional view of the side of the floor of the self-insulation ribbed sandwich concrete refrigerator;
FIG. 6 is a schematic structural view of the self-insulation multi-ribbed sandwich concrete cold storage wall panel;
FIG. 7 is a schematic structural view of the connection of the self-insulation multi-ribbed sandwich concrete cold storage wall panels;
fig. 8 is a schematic structural view of the self-heat-insulation ribbed sandwich concrete refrigerator roof.
In the figure: 1. a floor; 2. a wallboard; 3. a roof panel; 4. a steel upright post; 11. a base plate; 12. a panel; 13. a longitudinal rib; 14. a transverse rib; 15. a lightweight filling block; 16. a bottom beam; 17. a groove; 18. connecting holes on the side surface; 21. a wall edge beam; 22. wall attachment holes; 31. a roof side rail; 32. roof connecting hole.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Example 1
Referring to fig. 1-2, a close rib with filling concrete freezer of full assembled self preservation temperature, including floor 1, wallboard 2, roofing 3 and steel stand 4, wallboard 2 is located between lower part floor 1 and the upper portion roofing 3, and steel stand 4 is located the edge of storehouse, floor 1, wallboard 2 and roofing 3 pass through bolted connection with the steel stand respectively, between the floor 1, between the wallboard 2, between the roofing 3 respectively through bolted connection. The floor 1, the wallboard 2, the roof 3 and the steel upright post 4 of the container type refrigeration house are all connected in a bolt combination mode, connection is convenient, construction is convenient and rapid, and construction time and cost are saved.
Example 2
Referring to fig. 3, unlike embodiment 1, the floor panel 1 of the present embodiment is provided with a groove 17 and a sill 16 at the edge portion thereof. The bottom beam 16 is used for supporting the main body of the floor 1, lifting the main body of the floor 1 off the ground and improving the heat insulation of the floor 1. The grooves 17 are arranged in a single row along the edge of the floor panel 1, and the grooves 17 are provided with side connecting holes 18 near the side of the floor panel 1. When two floor boards 1 are connected, the connecting bolt can pass through the side connecting hole 18, and two ends of the connecting bolt are positioned inside the connecting groove 17, so that the matched nuts can be conveniently screwed.
Referring to fig. 6 and 7, the wall panels 2 are provided at the edges thereof with wall edge beams 21, the wall edge beams 21 are provided with wall connection holes 22, and a plurality of the wall connection holes 22 are arranged in a row along the wall edge beams 21. When two wallboards 2 are connected, the connecting bolt can pass through the wall connecting hole 22, the two ends of the connecting bolt extend out from one side of the wall edge beam 21, and the matched nuts are screwed down from the two ends of the connecting bolt respectively, so that the tight leaning and connection of the two wallboards 2 are realized. This wallboard 2 carries out the connection between the wallboard through boundary beam 21, avoids the destruction of connecting hole to wallboard 2 structure, guarantees wallboard 2's support intensity.
Referring to fig. 8, the edge of the roof 3 is provided with roof side beams 31, roof connection holes 32 are formed in the roof side beams 31, and a plurality of the roof connection holes 32 are arranged in a row along the roof side beams 31. The connection between the roof 3 is the same as the wall panels 2 and will not be described in detail.
Example 3
Different from the embodiment 2, the floor 1, the wall plate 2 and the roof 3 in the embodiment are all self-insulation ribbed sandwich structures. Referring to fig. 4 and 5, the self-insulation multi-ribbed sandwich structure comprises a bottom plate 11, a face plate 12, longitudinal ribs 13, transverse ribs 14 and light filling blocks 15, wherein the light filling blocks 15 are positioned in cavities formed by the bottom plate 11, the face plate 12, the longitudinal ribs 13 and the transverse ribs 14. The light filling blocks are arranged inside the floor 1, the wallboard 2 and the roof 3, so that the dead weight of the plate body can be reduced, and the heat insulation performance of the plate body is improved.
The material of the panel 12 is a glass fiber grid reinforced concrete sheet, so that the structural strength of the wallboard is ensured, and the self weight of the wallboard can be greatly reduced. The bottom plate 11, the longitudinal ribs 13 and the transverse ribs 14 adopt the bulk density of less than 1200kg/m 3 The lightweight aggregate structural concrete with the thermal conductivity coefficient less than 0.5W/(m.k) and the strength greater than 10Mpa has light weight, reduces the thermal bridge effect of the rib beam and has good heat preservation effect. The volume weight of the light filling block 15 is less than 10kg/m 3 The polystyrene foam board has light weight and heat preservation effect.
The floor 1, the wallboard 2, the roofing 3 of assembled freezer in this embodiment are self preservation temperature close rib sandwich structure, therefore the combined plate body dead weight of freezer is lighter, and thermal insulation performance is good, can promote the holistic thermal-insulated effect that keeps warm of freezer, reduces the holistic manufacturing cost of container room simultaneously.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (8)
1. The fully-assembled self-insulation ribbed sandwich concrete refrigerator is characterized by comprising a floor (1), a wallboard (2), a roof (3) and steel columns (4), wherein the wallboard (2) is positioned between the lower floor (1) and the upper roof (3), the steel columns (4) are positioned at corners of the refrigerator, and the floor (1), the wallboard (2) and the roof (3) are respectively connected with the steel columns through bolts;
the floor boards (1), the wall boards (2) and the roof (3) are connected through bolts respectively.
2. The fully assembled self-insulation multi-ribbed sandwich concrete refrigerator according to claim 1, wherein a groove (17) and a bottom beam (16) are arranged at the edge of the floor (1), a plurality of grooves (17) are arranged along the edge of the floor (1) in a single row, and a side connecting hole (18) is formed in the groove (17) close to the side surface of the floor (1).
3. The fully-assembled self-insulation ribbed sandwich concrete refrigerator according to claim 2, wherein the edge parts of the wall plates (2) are provided with wall boundary beams (21), the wall boundary beams (21) are provided with wall connecting holes (22), and the wall connecting holes (22) are arranged in rows along the wall boundary beams (21).
4. The fully-assembled self-heat-preservation multi-ribbed sandwich concrete refrigerator according to claim 3, wherein a roof side beam (31) is arranged at the edge of the roof (3), roof connecting holes (32) are formed in the roof side beam (31), and a plurality of the roof connecting holes (32) are arranged in rows along the roof side beam (31).
5. The fully-assembled self-insulation multi-ribbed sandwich concrete refrigerator according to claim 1, 2, 3 or 4, wherein the floor (1), the wall plate (2) and the roof (3) are self-insulation multi-ribbed sandwich structures, each self-insulation multi-ribbed sandwich structure comprises a bottom plate (11), a panel (12), a longitudinal rib beam (13), a transverse rib beam (14) and a light filling block (15), and the light filling block (15) is located in a cavity formed by the bottom plate (11), the panel (12), the longitudinal rib beam (13) and the transverse rib beam (14).
6. The fully-assembled self-heat-preservation multi-ribbed sandwich concrete refrigerator according to claim 5, wherein the material of the panel (12) is a glass fiber mesh reinforced concrete sheet.
7. According to claimThe fully-assembled self-insulation multi-ribbed sandwich concrete refrigerator according to claim 5, characterized in that the bottom plate (11), the longitudinal rib beams (13) and the transverse rib beams (14) adopt a bulk density of less than 1200kg/m 3 The light aggregate structural concrete has heat conductivity less than 0.5W/(m.k) and strength greater than 10 MPa.
8. The fully-assembled self-heat-preservation multi-ribbed sandwich concrete refrigerator according to claim 5, wherein the light filling blocks (15) have a volume weight of less than 10kg/m 3 Polystyrene foam board.
Priority Applications (1)
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CN202221274203.6U CN217872054U (en) | 2022-05-25 | 2022-05-25 | Fully-assembled self-heat-preservation ribbed sandwich concrete refrigeration house |
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CN202221274203.6U CN217872054U (en) | 2022-05-25 | 2022-05-25 | Fully-assembled self-heat-preservation ribbed sandwich concrete refrigeration house |
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CN217872054U true CN217872054U (en) | 2022-11-22 |
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CN202221274203.6U Active CN217872054U (en) | 2022-05-25 | 2022-05-25 | Fully-assembled self-heat-preservation ribbed sandwich concrete refrigeration house |
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- 2022-05-25 CN CN202221274203.6U patent/CN217872054U/en active Active
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