CN-224213852-U - Integrated cabin

Abstract

The utility model discloses an integrally formed cabin which is formed by integrally forming cement, wherein the cabin comprises a roof and a wall body, the inner side of the wall body is provided with an inner conical surface with the upper end inclined inwards, the included angle between the inner conical surface and the horizontal plane is a,75 degrees < a <90 degrees, the outer side wall surface of the wall body is provided with an inclined outer conical surface or a vertically extending straight surface or cambered surface or a concave-convex structure, the average thickness of the wall body is t,20mm < t <100mm, and a door opening is arranged on the wall body. The utility model provides an integrally formed cabin, cement is poured into the integrally formed cabin, the production period is shortened, and the integrally formed cabin is firmer.

Inventors

• DING LIPING

Assignees

• 信阳新佳航环保科技有限公司

Dates

Publication Date

20260508

Application Date

20250519

Claims (9)

1. 1. The utility model provides an integrated into one piece cabin, its characterized in that, the cabin is formed by cement integrated into one piece, the cabin includes roof and wall body, the inboard of wall body is provided with the inward sloping interior conical surface of upper end, contained angle between interior conical surface and the horizontal plane is a,75 < a <90 °, the outside wall of wall body is provided with the straight face or cambered surface or the concave-convex structure of the vertical extension of outer conical surface or slope, the average thickness of wall body is t,20mm < t <100mm, be provided with the door opening on the wall body.
2. 2. The integrally formed house of claim 1, wherein the outer wall surface of the wall body is configured as an outer conical surface parallel to the inner conical surface.
3. 3. The integrally formed cabin according to claim 1, further comprising a reinforcing rib, wherein the reinforcing rib is integrally arranged on the outer side of the wall body along the circumferential direction, the upper side of the reinforcing rib is provided with a first upper conical surface with the outer end inclined downwards, and the lower side of the reinforcing rib is provided with a first lower conical surface with the outer end inclined upwards.
4. 4. The integrally formed shed as in claim 1, further comprising an eave circumferentially integrally disposed on an edge of the roof, a projection of an outer edge of the eave onto the ground surrounding a bottom of the shed.
5. 5. The integrally formed small house as claimed in claim 4, wherein the upper side of the eave is flush with the roof, and the lower side of the eave is provided with a second lower conical surface with an upward inclined outer end.
6. 6. The integrally formed cabin according to claim 1, further comprising a threshold, wherein the threshold is integrally disposed on the outer side of the wall body along the circumferential direction, the threshold passes through the lower side of the door opening, and the upper side of the threshold is provided with a second upper conical surface with the outer end inclined downward.
7. 7. The integrally formed small house of claim 6, wherein the threshold is provided with tube holes.
8. 8. The integrally formed small house of claim 6, wherein forklift holes are formed in the front and rear sides of the threshold.
9. 9. The integrally formed house of claim 1, wherein the wall is provided with a window.

Description

Integrated cabin Technical Field The utility model relates to the technical field of buildings, in particular to an integrally formed cabin. Background The cabin is widely used as a warehouse house, a toilet house, a garbage house and the like, for example, the cabin is often built in a manner of bricking or a plate assembly in rural areas. The current outdoor toilet and other cabins are built by bricking mode, and are generally built by bricking or plates. The bricking mode is long in building period, the plate construction is large in installation workload, the building is not firm enough, and water leakage and noise are easy to generate. Disclosure of utility model The utility model provides an integrally formed cabin, which is integrally formed by cement pouring, so that the production period is shortened, and the cabin is firmer. In order to achieve the above purpose, the utility model adopts the following technical scheme: The utility model provides an integrated into one piece cabin, the cabin is formed by cement integrated into one piece, and the cabin includes roof and wall body, and the inboard of wall body is provided with the inward sloping interior conical surface of upper end, and the contained angle between interior conical surface and the horizontal plane is a, and 75 < a <90, the outside wall of wall body are provided with the straight face or cambered surface or the concave-convex structure of the outer conical surface of slope or vertical extension, and the average thickness of wall body is t, and 20mm < t <100mm is provided with the door opening on the wall body. Through the arrangement, the cement integrated pouring type cement house is convenient to install and shortens construction period, and the cement integrated pouring type cement integrated house is stronger in integrity, firmer in structure and capable of reducing water leakage and noise. Further, the outer side wall surface of the wall body is an outer conical surface parallel to the inner conical surface. Through the arrangement, cement consumables are saved more in the design of wall body equal thickness. Further, the cabin still includes the strengthening rib, and the strengthening rib sets up in the wall body outside along circumference an organic whole, and the upside of strengthening rib is provided with the first conical surface of outer end downward sloping, and the downside of strengthening rib is provided with the first conical surface of outer end upward sloping. Through above-mentioned setting, firstly, promote wall body rigidity, second, make things convenient for the outer mould drawing of patterns. Further, the small house further comprises an eave, the eave is integrally arranged on the edge of the roof along the circumferential direction, and the projection of the outer edge of the eave on the ground surrounds the bottom of the small house. Through the arrangement, rain is shielded through the eave. Further, the upper side of the eave is flush with the roof, and the lower side of the eave is provided with a second lower conical surface with the outer end inclined upwards. Through the arrangement, the cabin is convenient to hoist. Further, the cabin still includes the threshold, and the threshold is along integrative setting in the wall body outside of circumference, and the threshold passes through from the door opening downside, and the upside of threshold is provided with the second upper cone of outer end downward sloping. Through the arrangement, the rigidity of the lower side of the wall body is improved, and in addition, the second upper conical surface is arranged on the upper side of the threshold, so that the outer die is convenient to demould. Further, the threshold is provided with a pipe hole. Through the arrangement, a pipeline or a circuit can conveniently pass through the wall body through the pipe hole. Further, forklift holes are formed in the front side and the rear side of the threshold. Through above-mentioned setting, make things convenient for fork truck to carry the cabin. Further, a window is arranged on the wall body. Drawings Fig. 1 is a schematic view of a cabin of an embodiment. Fig. 2 is a front view of a cabin of an embodiment. Fig. 3 is a cross-sectional view A-A of fig. 2. Fig. 4 is a rear view of a cabin of an embodiment. Fig. 5 is a side view of an embodiment of a cabin. Fig. 6 is a B-B cross-sectional view of fig. 5. Detailed Description The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings. As shown in fig. 1 to 6, an integrally formed cabin is formed by cement integrally forming, the cabin comprises a roof 3 and a wall body 4, an inner conical surface 5 with an inward inclined upper end is arranged on the inner side of the wall body 4, an included angle between the inner conical surface 5 and a horizontal plane is a,75 degrees <90 degrees, an inclined outer conical surface or a verti