CN205918201U - Energy-saving damping type building house - Google Patents

Abstract

The utility model relates to an energy-saving damping type building house, which comprises a reinforcing cushion layer, wherein the top of the reinforcing cushion layer is provided with a waterproof layer, the top of the waterproof layer is connected with a concave concrete plate, the top of the concave concrete plate is fixedly connected with a foundation through a vertical buffering component, both sides of the inner wall of the concave concrete plate are fixedly connected with the foundation through a horizontal buffering component, the top of the foundation is fixedly connected with a building house, the top of the building house is provided with a rainwater collecting tank, one side of the building house is provided with a pipeline, the vertical buffering component is combined with the horizontal buffering component, so that the damping can be carried out in the vertical direction and the horizontal direction, the damage of the earthquake to the building house is effectively reduced, the damping effect is improved, the solar panel is combined with the rainwater collecting tank, the solar, can collect the water resource, energy-concerving and environment-protective, economical and practical, facilitate promotion.

Description

An energy-saving shock-absorbing building house

technical field

The utility model relates to an energy-saving and shock-absorbing building house, which belongs to the technical field of construction engineering.

Background technique

Generally speaking, the main principle of structural seismic isolation is to set a seismic isolation layer between the superstructure and the foundation, so that the deformation is mainly concentrated in the seismic isolation layer, so as to protect the superstructure and greatly reduce the earthquake impact on the superstructure. Most of the existing seismic isolation devices, some of which have weak pull-out resistance, and some are expensive, are difficult to popularize and use. In the prior art, the better seismic isolation effect is to use the foundation with a larger lower bottom surface area. In this way, the load capacity of the foundation can be increased, but the structure's seismic resistance is poor. During an earthquake, the bottom surface of the foundation directly bears the impact of seismic wave energy caused by crustal fracture or displacement. , the greater the possibility of displacement, so its anti-seismic effect is poor. In the case of the same earthwork treatment and the use of the same foundation building materials, in order to improve the earthquake resistance of the building foundation, only the foundation with a larger bottom area is used. Unable to achieve the expected purpose, especially in earthquake-prone areas, higher seismic requirements are put forward for its foundation, and with the improvement of people's living standards, people's requirements for quality of life and living environment are also constantly improving. In order to fully Using natural resources, solar panels are installed on the roofs of some buildings to make full use of solar energy, but none of these buildings make full use of rainwater. For this reason, we provide an energy-saving and shock-absorbing building.

Utility model content

The technical problem to be solved by the utility model overcomes the existing defects, and provides an energy-saving and shock-absorbing building house. Through the combination of the vertical buffer assembly and the horizontal buffer assembly, the shock absorption can be performed in the vertical direction and the horizontal direction, and the earthquake can be effectively reduced. The damage to the building can improve the shock absorption effect. Through the combination of solar panels and rainwater collection tanks, the solar energy can be converted into electrical energy, new energy can be used, and the roof area of the building can be effectively used to collect water resources and save energy. Environmental protection, economical and practical, easy to promote, can effectively solve the problems in the background technology.

In order to solve the above technical problems, the utility model provides the following technical solutions:

An energy-saving and shock-absorbing building house, including a reinforced cushion, the top of the reinforced cushion is provided with a waterproof layer, and the top of the waterproof layer is connected to a concave concrete slab, and the top of the concave concrete slab is fixedly connected to the foundation through a vertical buffer assembly , both sides of the inner wall of the concave concrete slab are fixedly connected to the foundation through a horizontal buffer assembly, the top of the foundation is fixedly connected to the building, the top of the building is provided with a rainwater collection tank, and the side of the building is provided with a pipe, so The top of the inner chamber of the rainwater collection tank is provided with a filter, the outer wall of the rainwater collection tank is connected to a solar panel, the bottom of the solar panel is electrically connected to a battery, and the bottom of the inner cavity of the rainwater collection tank is provided with a purification device. The purification device is connected to a heater through a pipeline, the heater is arranged on one side of the rainwater collection tank, the heater is connected to the motor water pump through a pipeline, and the pipeline on the side of the motor water pump runs through the side of the building.

Further, the battery is electrically connected to the heater and the motor water pump.

Furthermore, the inner chamber of the vertical buffer assembly is provided with several vertical shock absorbing springs, and the inner chamber of the horizontal buffer assembly is provided with several horizontal shock absorbing springs.

Furthermore, a control valve is provided at the end of the pipeline.

Further, the pipeline is made of stainless steel.

Beneficial effects of the utility model: the utility model combines the vertical buffer component and the horizontal buffer component, so that the shock absorption can be performed in the vertical direction and the horizontal direction, effectively reducing the damage to the buildings caused by the earthquake, and improving the shock absorption effect. The board is combined with the rainwater collection tank, and the solar energy is converted into electric energy, which utilizes new energy, effectively utilizes the roof area of the building, can collect water resources, is energy-saving and environmentally friendly, economical and practical, and is easy to promote.

Description of drawings

The accompanying drawings are used to provide a further understanding of the utility model, and constitute a part of the description, and are used to explain the utility model together with the embodiments of the utility model, and do not constitute a limitation to the utility model.

Fig. 1 is a structural diagram of an energy-saving and shock-absorbing building of the utility model.

Labels in the figure: 1, reinforcement cushion; 2, waterproof layer; 3, concave concrete slab; 4, vertical buffer component; 5, foundation; 6, horizontal buffer component; 7, control valve; 8, building house; 9, Rainwater collection tank; 10. Filter; 11. Solar panel; 12. Battery; 13. Purification device; 14. Pipeline; 15. Heater; 16. Motor water pump; 17. Vertical damping spring; 18. Horizontal damping spring.

detailed description

The preferred embodiments of the present utility model are described below in conjunction with the accompanying drawings. It should be understood that the preferred embodiments described here are only used to illustrate and explain the present utility model, and are not intended to limit the present utility model.

As shown in Figure 1, it includes a reinforcement cushion 1, the top of the reinforcement cushion 1 is provided with a waterproof layer 2, the top of the waterproof layer 2 is connected to a concave concrete slab 3, and the top of the concave concrete slab 3 passes through a vertical buffer assembly 4. Fixedly connected to the foundation 5, both sides of the inner wall of the concave concrete slab 3 are fixedly connected to the foundation 5 through the horizontal buffer assembly 6, the top of the foundation 5 is fixedly connected to the building 8, and the top of the building 8 is provided with a rainwater collection tank 9 , the top of the rainwater collection tank 9 is provided with a filter 10, the outer wall of the rainwater collection tank 9 is connected to a solar panel 11, and the bottom of the solar panel 11 is electrically connected to the battery 12, and the inside of the rainwater collection tank 9 A purification device 13 is provided at the bottom of the cavity, and the purification device 13 is connected to a heater 15 through a pipeline 14. The heater 15 is arranged on one side of the rainwater collection tank 9, and the heater 15 is connected to a motor water pump 16 through a pipeline 14. The pipeline 14 on one side of the motor water pump 16 runs through one side of the building 8 .

The storage battery 12 is electrically connected to the heater 15 and the motor water pump 16, the inner chamber of the vertical buffer assembly 4 is provided with several vertical shock absorbing springs 17, and the inner chamber of the horizontal buffer assembly 6 is provided with several horizontal shock absorbing springs 18. A control valve 7 is provided at the end of the pipeline 14, and the pipeline 14 is made of stainless steel. The vertical buffer assembly 4 and the horizontal buffer assembly 6 are combined to enable shock absorption in the vertical and horizontal directions, effectively reducing the impact of the earthquake on the building. damage, improve the shock absorption effect, through the combination of the solar panel 11 and the rainwater collection tank 9, the solar energy is converted into electric energy, new energy is used, the roof area of the building is effectively utilized, and water resources can be collected.

When the utility model is in use, by reinforcing the cushion layer 1 and the waterproof layer 2, the foundation 5 can be reinforced, waterproof and infiltrated, and the damage to the building 8 can be reduced. The shock absorption in the vertical direction is carried out to the shock absorption in the horizontal direction of the building 8 through the horizontal buffer assembly 6 and the horizontal shock-absorbing spring 18, and the combination of the solar panel 11 and the rainwater collection tank 9 uses solar energy to be converted into electric energy. The new energy effectively utilizes the roof area of the building, can collect water resources, is energy-saving, environmentally friendly, economical and practical, and is easy to promote.

The above is a preferred embodiment of the utility model, and those skilled in the art of the utility model can also change and modify the above-mentioned embodiment. Therefore, the utility model is not limited to the above-mentioned specific embodiment. Anyone skilled in the art Any obvious improvement, replacement or modification made on the basis of the present utility model belongs to the protection scope of the present utility model.

Claims (5)

1. An energy-saving and shock-absorbing building house, comprising a reinforcement cushion (1), is characterized in that, the top of the reinforcement cushion (1) is provided with a waterproof layer (2), and the top of the waterproof layer (2) is connected to a concave shaped concrete slab (3), the top of the concave concrete slab (3) is fixedly connected to the foundation (5) through a vertical buffer assembly (4), and both sides of the inner wall of the concave concrete slab (3) pass through a horizontal buffer assembly (6 ) is fixedly connected to the foundation (5), and the top of the foundation (5) is fixedly connected to the building house (8), and the top of the building house (8) is provided with a rainwater collection tank (9), and the inner chamber of the rainwater collection tank (9) The top is provided with a filter (10), and the outer wall of the rainwater collection tank (9) is connected with a solar panel (11), and the bottom of the solar panel (11) is electrically connected with a storage battery (12), and the rainwater collection tank ( 9) A purification device (13) is provided at the bottom of the inner cavity, and the purification device (13) is connected to a heater (15) through a pipeline (14), and the heater (15) is located at the rainwater collection tank (9)- On the side, the heater (15) is connected to the motor water pump (16) through a pipeline (14), and the pipeline (14) on the side of the motor water pump (16) runs through the side of the building (8). 2. An energy-saving shock-absorbing building house according to claim 1, characterized in that: the battery (12) is electrically connected to the heater (15) and the motor water pump (16). 3. An energy-saving shock-absorbing building house according to claim 1, characterized in that: the inner cavity of the vertical buffer assembly (4) is provided with several vertical shock-absorbing springs (17), and the horizontal buffer assembly (6) The inner cavity is provided with several horizontal damping springs (18). 4. An energy-saving and shock-absorbing building house according to claim 1, characterized in that: a control valve (7) is provided at the end of the pipeline (14). 5. An energy-saving and shock-absorbing building house according to claim 1, characterized in that: the pipeline (14) is made of stainless steel.