CN-224200043-U - High heat preservation concrete shell structure

Abstract

The utility model relates to the field of concrete shell structures, in particular to a high-heat-preservation concrete shell structure. Compared with the traditional concrete shell structure, the concrete shell structure comprises a main body component, a first heat preservation component, a second heat preservation component and a mounting component, wherein two groups of mounting grooves are formed in the shell body to divide the shell body into a first separation layer, a second separation layer and a third separation layer, so that heat cannot be conducted directly easily, the heat cannot be transmitted or enter easily, the primary heat preservation effect can be achieved, and the first heat preservation component and the second heat preservation component are arranged in the two groups of mounting grooves respectively to further preserve heat, so that the heat preservation effect is better under the double matching effect of the first heat preservation component and the second heat preservation component.

Inventors

• PI JINLONG
• ZHU SHIYAO
• ZENG FANYONG

Assignees

• 吉林庆远建筑产业有限公司

Dates

Publication Date

20260505

Application Date

20241125

Claims (7)

1. 1. The high-heat-insulation concrete shell structure comprises a main body assembly (1) and is characterized by further comprising a first heat-insulation assembly (2), a second heat-insulation assembly (3) and a mounting assembly (4), wherein the first heat-insulation assembly (2) for heat insulation is embedded and mounted at a position, close to the inner side, of the main body assembly (1), the second heat-insulation assembly (3) for heat insulation is embedded and mounted at a position, close to the outer side, of the main body assembly (1), and the mounting assemblies (4) for mounting related auxiliary structures are detachably connected at the left end and the right end of the lower part of the main body assembly (1).
2. 2. The high-heat-insulation concrete shell structure according to claim 1, wherein the main body assembly (1) comprises a shell body (101), a first separation layer (103), a second separation layer (104), a third separation layer (105), a clamping strip (108), a base (109), a first heat-insulation layer (110), a first heat-insulation layer (111) and a plug post (112), two groups of mounting grooves (102) penetrating through the rear end are symmetrically formed in the front end of the shell body (101) from bottom to top, and the shell body (101) is separated from the inside to the outside by the two groups of mounting grooves (102) to form the first separation layer (103), the second separation layer (104) and the third separation layer (105) respectively.
3. 3. The high-heat-preservation concrete shell structure according to claim 2, wherein the surfaces of the first separation layer (103) and the second separation layer (104) are uniformly distributed in a linear manner and provided with a plurality of groups of first ventilation holes (106) for increasing air permeability, the surface of the third separation layer (105) is uniformly distributed in a linear manner and provided with a plurality of groups of second ventilation holes (107) for further increasing air permeability, the outer side of the third separation layer (105) is circularly and fixedly provided with clamping strips (108) for fixing related external structures, and the surface of the clamping strips (108) is uniformly distributed and provided with a plurality of groups of second mounting holes (114) for detachably connecting with the external structures.
4. 4. The high-heat-preservation concrete shell structure according to claim 3, wherein two groups of bases (109) for increasing stability are fixedly connected at the lower end of the shell body (101) in a bilateral symmetry mode, a first heat-preservation layer (110) and a first heat-preservation layer (111) for heat preservation and heat preservation are sequentially arranged inside the bases (109) from bottom to top, first mounting holes (113) for detachable connection with the mounting assembly (4) are formed in four corners of one ends, far away from each other, of the two groups of bases (109), and a plurality of groups of inserting columns (112) for being inserted into the ground are uniformly distributed at the lower end of the bases (109) in a linear distribution mode.
5. 5. The high-heat-insulation concrete shell structure according to claim 1, wherein the first heat-insulation component (2) comprises a second heat-insulation layer (201), a second heat-insulation layer (202) and a fireproof layer (203), the second heat-insulation layer (202) for heat insulation is attached between the second heat-insulation layer (201) and the fireproof layer (203), the fireproof layer (203) is used for preventing fire spreading when a fire disaster occurs, the second heat-insulation layer (201) is used for reducing heat transfer inside and outside a building, and the second heat-insulation layer (201) and the fireproof layer (203) are fixedly connected with the first separation layer (103) and the second separation layer (104) respectively.
6. 6. The high-heat-insulation concrete shell structure according to claim 1, wherein the second heat-insulation component (3) comprises a third heat-insulation layer (301), a third heat-insulation layer (302) and a protruding block (303), the third heat-insulation layer (301) is used for reducing heat transfer inside and outside a building, the upper end of the third heat-insulation layer (301) is attached with the third heat-insulation layer (302) for isolating heat and further reducing heat transfer, the lower end of the third heat-insulation layer (301) is attached with the protruding block (303) fixedly connected with the second separation layer (104), and a heat-insulation cavity is formed between the third heat-insulation layer (301) and the second separation layer (104) through the protruding block (303).
7. 7. The high-heat-insulation concrete shell structure according to claim 1, wherein the mounting assembly (4) comprises a mounting plate (401), a clamping groove (402) for being in clamping connection with a related external structure is formed in the middle of one end, far away from the main body assembly (1), of the mounting plate (401), and a third mounting hole (403) matched with the first mounting hole (113) is formed in four corners of one end, far away from the main body assembly (1), of the mounting plate (401).

Description

High heat preservation concrete shell structure Technical Field The utility model relates to the field of concrete shell structures, in particular to a high-heat-preservation concrete shell structure. Background The concrete is an engineering composite material formed by cementing aggregate into a whole by cementing materials, is one of the most main civil engineering materials in the current generation, is widely applied to various civil engineering, including roads, bridges, building structures, ports, docks, basic engineering, hydraulic engineering, garbage disposal, landfill site construction and the like, is mainly used for constructing buildings or facilities with large-span space coverage requirements, can effectively bear and disperse external loads due to the unique space curved surface shape and excellent force transmission performance, and can simultaneously realize the space modeling requirements of the buildings, and the existing concrete shell structure is only arranged in an integrated forming way, can only be used for supporting bearing, is easy to cause temperature loss when the environmental temperature changes greatly, and has poor heat preservation effect. Disclosure of utility model In order to overcome the existing concrete shell structure, the concrete shell structure is generally integrally formed and can only be used for supporting bearing, and when the ambient temperature changes greatly, the temperature loss is easy to cause, and the heat preservation effect is poor. The technical scheme includes that the high-heat-insulation concrete shell structure comprises a main body component, a first heat-insulation component, a second heat-insulation component and a mounting component, wherein the first heat-insulation component for heat insulation is embedded and mounted at a position, close to the inner side, of the main body component, the second heat-insulation component for heat insulation is embedded and mounted at a position, close to the outer side, of the main body component, and the mounting components for mounting related auxiliary structures are detachably connected at the left end and the right end of the lower part of the main body component. Preferably, through set up two sets of mounting grooves on the casing body and separate it and form first separate layer, second separate layer and third separate layer, can make the heat be difficult to carry out direct conduction, thereby make the heat be difficult to transfer away or get in, can play preliminary heat retaining effect, and can further keep warm through setting up first heat preservation subassembly and second heat preservation subassembly respectively in two sets of mounting grooves, can keep warm the internal environment through setting up first heat preservation subassembly, can carry out thermal-insulated heat preservation to outside through setting up second heat preservation subassembly, under the dual cooperation effect of first heat preservation subassembly and second heat preservation subassembly, make inside heat be difficult for giving off, outside air is also difficult to get into, thereby make the heat preservation effect better. As the preference, main part subassembly is including casing body, first separate layer, second separate layer, third separate layer, the card strip, the base, first heat preservation, first insulating layer and inserted column, two sets of mounting grooves that run through to the rear end are offered to the front end of casing body from supreme symmetry down, the casing body is separated from interior and outer by two sets of mounting grooves and is formed first separate layer, second separate layer and third separate layer respectively, separate it through seting up two sets of mounting grooves on the casing body and form first separate layer, second separate layer and third separate layer, can make the heat be difficult for carrying out direct conduction, thereby make the heat be difficult for transferring away or come in. As the preference, the surface of first separate layer and second separate layer all is the first bleeder vent that the multiunit was used for increasing the gas permeability that linear distribution equipartition was offered, and the surface of third separate layer is linear distribution equipartition and has offered the multiunit second bleeder vent that is used for further increasing the gas permeability, and the outside of third separate layer encircles the laminating and is equipped with the card strip that is used for installing fixed relevant outer structure, and the second mounting hole that multiunit is used for dismantling with outer structure to be connected has been offered to the equipartition of card strip, makes through the card strip that has the second installation sky be convenient for be connected with the outer relevant structure. As the preference, the lower extreme of casing body is bilateral symmetry fixedly connected with two sets of ba