CN219491876U - Cast-in-situ sloping roof high-grain bungalow warehouse - Google Patents

Abstract

The utility model relates to a cast-in-situ sloping roof high grain bungalow. The prefabricated house comprises a flat house body, wherein the flat house body is a triangular roof and is provided with a double-layer roof, the double-layer roof comprises a sloping roof cast-in-situ plate and a photovoltaic tile or color steel plate roof arranged on the sloping roof cast-in-situ plate, a ridge clerestory is arranged in the middle of the triangular roof, a vertical partition board wind guide is arranged in the middle of the inside of the ridge clerestory, ridge clerestory shutters are arranged on two sides of the ridge clerestory, and cornice shutters are arranged at cornice positions of eave walls on two sides of the flat house body. The cast-in-situ sloping roof has good air convection effect on the top of the large grain bungalow, can realize natural ventilation and heat dissipation of the top of the bungalow, and reduces the temperature control energy consumption of the bungalow.

Description

Cast-in-situ sloping roof high-grain bungalow warehouse

Technical Field

The utility model belongs to the technical field of storage, and particularly relates to a cast-in-place sloping roof high-grain flat warehouse.

Background

The existing cast-in-situ sloping roof is characterized in that a horizontal flat plate is arranged at the position about 2 meters above a grain stacking line to serve as a lower ceiling, an air interlayer is formed on the upper surface of the cast-in-situ sloping roof above the horizontal flat plate, and then a louver vent is arranged at the cornice and the ridge to form an air flow channel for convection to take away roof hot air.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a cast-in-place sloping roof high-grain horizontal warehouse. The air convection effect of the cabin top is good, natural ventilation and heat dissipation of the cabin top can be realized, and the temperature control energy consumption of the flat cabin is reduced.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a cast-in-place sloping roof high grain bungalow storehouse, including bungalow storehouse body, bungalow storehouse body be triangle-shaped roof, have double-deck roofing, double-deck roofing include the photovoltaic tile or the various steel sheet roofing that set up on sloping roof cast-in-place board and the sloping roof cast-in-place board, establish the ridge dormer in the middle of the triangle-shaped roof, establish vertical baffle wind-guiding in the middle of the inside of ridge dormer, establish ridge dormer shutter in the both sides of ridge dormer, cornice shutter is established to cornice department of the eaves wall in both sides of bungalow storehouse body.

According to the scheme, a plurality of ridge clerestory blinds are arranged at intervals on two sides of the ridge clerestory, and a plurality of cornice blinds are arranged at intervals on two sides of a cornice.

According to the scheme, the roof of the sloping roof horizontal warehouse body is provided with a plurality of reverse beams, ridge clerestory is arranged on the reverse beams, color steel plates or photovoltaic plates are paved to form photovoltaic tiles or color steel plate roofs, ridge clerestory shutters are arranged at ridge clerestory positions above every two adjacent reverse beams, cornice shutters are arranged on cornice eave walls, and an airflow channel is formed together with the upper roof plate and the lower roof plate.

According to the scheme, the embedded part is preset on the inverted beam, the purline is fixed by welding the purline support on the embedded part, and the color steel plate or the photovoltaic plate is fixedly paved on the purline to form the photovoltaic tile or the color steel plate roof.

According to the scheme, the purline is C-shaped or Z-shaped aluminum-zinc-plated steel.

The utility model designs a double-deck flat roof cabin with a triangular roof by arranging photovoltaic tiles or color steel plate roofs arranged on slope roof cast-in-situ slabs and roof cast-in-situ slabs, wherein ridge clerestory is arranged on the photovoltaic tiles or the color steel plate roofs, exhaust shutters are arranged on two sides of the ridge clerestory, a vertical partition plate wind guide is arranged in the middle of the ridge clerestory, and air inlet shutters are arranged on two sides of an eave wall eave. As long as wind pressure exists on the roof, air flow pressure difference is formed on one side of the sloping roof, vortex is generated at the junction of the ridge and the clerestory, and accumulated heat below the roof is conducted away at any time by utilizing the chimney effect, so that the heat dissipation effect is good. The sloping roof cast-in-situ slab is provided with a plurality of counter beams at intervals, and air interlayers formed between the sloping roof cast-in-situ slab and the roof upper layer photovoltaic tiles or the color steel plate roof and the roof cast-in-situ counter beams can form hall penetrating wind in a manner similar to a diversion trench to remove accumulated heat of the roof.

The air in the heat insulation interlayer forms wind pressure and hot-pressing pressure difference by utilizing the height difference of the gradient of the roof and the arrangement of the shutter, and solar radiation heat absorbed in the air interlayer between the upper layer plate and the lower layer plate contacted with the air is transferred into the air and taken away along with the wind by utilizing the action of wind pressure and hot pressing, so that the solar radiation heat is prevented from directly acting on the lower layer plate of the roof and being transferred into the cabin; greatly improves the heat insulation capability of the roof and reduces the influence of outdoor heat on grains in the bin. In high temperature and high humidity areas, the grain surface temperature in the storehouse can be effectively reduced, and the storehouse is an optimal design of a natural ventilation cast-in-situ slope roof high-grain flat house.

The utility model has the following positive effects:

the cast-in-situ sloping roof large grain flat warehouse provided by the utility model has good air convection effect on the warehouse top, can realize natural ventilation and heat dissipation of the warehouse top, reduces the temperature control energy consumption of the flat warehouse, and is an environment-friendly grain storage, grain protection and energy saving technology.

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

Drawings

FIG. 1 is a schematic view of a cast-in-place sloping roof high grain bungalow.

Fig. 2 is a schematic view of a ridge clerestory.

Fig. 3 is an enlarged schematic view of a portion of the cornice of fig. 1.

In the figure: 1. ridge clerestory; 2. ridge clerestory shutter; 3. a ridge vertical partition; 4. photovoltaic tiles or color steel sheet roofing; 5. purlin; 6. a diversion trench; 7. a sloping roof cast-in-situ plate; 8. cornice shutter; 9, reversing beams.

Detailed Description

The utility model provides a cast-in-place sloping roof high grain bungalow storehouse, includes bungalow storehouse body, bungalow storehouse body be triangle-shaped roof, have double-deck roofing, double-deck roofing include bungalow storehouse body, bungalow storehouse body be double-deck roofing, including the photovoltaic tile or the various steel sheet roofing 4 that set up on sloping roof cast-in-place board 7 and the sloping roof cast-in-place board, establish the ridge dormer in the middle of the triangle-shaped roof, establish ridge dormer both sides and establish ridge shutter 2, establish ridge vertical baffle 3 wind-guiding in ridge dormer inside centre simultaneously, eave shutter 8 is established to the eaves mouth department of bungalow storehouse body both sides eave wall. The sloping roof horizontal warehouse is characterized in that frame girders are arranged in a mode that reverse beams are turned upwards by column distances, roof dorms 1 are arranged on the reverse beams, purlines 5 are arranged on the reverse beams, color steel plates or photovoltaic plates are paved to form photovoltaic tiles or color steel plate roofs 4, roof dorms louver 2 are arranged at roof dorms above every two adjacent reverse beams, cornice louver 8 are arranged on cornice eave walls, an air flow channel is formed together with upper roof plates and lower roof plates, and hot air in roof air compartments is rapidly discharged by utilizing a chimney effect.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (5)

1. A cast-in-situ sloping roof high large grain bungalow storehouse is characterized in that: the prefabricated house comprises a flat house body, wherein the flat house body is a triangular roof and is provided with a double-layer roof, the double-layer roof comprises a sloping roof cast-in-situ plate and a photovoltaic tile or color steel plate roof arranged on the sloping roof cast-in-situ plate, a ridge clerestory is arranged in the middle of the triangular roof, a vertical partition board wind guide is arranged in the middle of the inside of the ridge clerestory, ridge clerestory shutters are arranged on two sides of the ridge clerestory, and cornice shutters are arranged on cornice positions of eave walls on two sides of the flat house body.

2. The cast-in-place sloping roof high grain bungalow of claim 1, wherein: the ridge clerestory is characterized in that a plurality of ridge clerestory shutters are arranged at intervals on two sides of the ridge clerestory, and a plurality of cornice shutters are arranged at intervals on two sides of a cornice.

3. The cast-in-place sloping roof high bulk grain bungalow of claim 1 or 2, characterized in that: the roof of slope roof bungalow storehouse body be equipped with a plurality of counter beams, establish the ridge dormer on the counter beams to lay various steel sheet or photovoltaic board, form photovoltaic tile or various steel sheet roofing, ridge dormer department above every two adjacent counter beams all is equipped with ridge dormer shutter, all is equipped with cornice shutter on cornice department eaves wall, forms the air current passageway with upper and lower roof boarding jointly.

4. A cast-in-place pitched roof high grain bungalow as claimed in claim 3, wherein: the reverse beam is provided with a buried part in advance, a purline is welded on the buried part to fix the purline, and a color steel plate or a photovoltaic plate is fixedly paved on the purline to form a photovoltaic tile or a color steel plate roof.

5. The cast-in-place sloping roof high grain bungalow of claim 4, wherein: the purline is C-shaped or Z-shaped aluminum-zinc plated steel.