RU160101U1 - SEISMIC RESISTANT BUILDING MODULE - Google Patents

Abstract

1. A building module comprising hollow core slabs, prefabricated internal elements and three-layer wall panels, one of the layers of the wall panel is load-bearing and made of building concrete, the second is insulation, made of energy-saving material, and the third layer of the wall panel is external, made of architectural concrete, and the corner wall panels for interfacing the modules are beveled at an angle of 45 ° .2. The building module according to claim 1, characterized in that the outer layer of the wall panels is made with the possibility of replacement directly at the construction site. The building module according to claim 1, characterized in that the insulating layer of the wall panel is made of expanded polystyrene or mineral wool.

Description

The technical solution relates to the field of construction and can be used in the construction of buildings of kindergartens.

The prior art also knows a building module comprising a building floor, load-bearing walls and a building ceiling for mounting a plurality of other building modules on it in a multi-story building, wherein at least one load-bearing wall comprises a building frame and lightweight concrete having a density within from 300 kg / m ³ to 1200 kg / m ³ , between the elements of this building frame (RU 2012104206, ЕВВ 1/348, 08/27/2013).

The closest known structure is a building containing hollow core slabs, prefabricated internal elements and three-layer wall panels, one of the layers of the wall panel is load-bearing and made of building concrete, the second is made of energy-saving materials and is insulating, and the third layer of the wall panel is external, made of architectural concrete (see. Manual on the design of residential buildings, issue 3, Designs of residential buildings, items 5.5, 8.5, 8.8, 2.7-2.19 (to SNiP 2.08.01-85), 1985)

The disadvantage of the prototype is the low functional compliance of the module with the existing requirements for earthquake resistance, i.e. the ability of the building during its operation to successfully withstand seismic loads, including high ones.

It is known that the existing technical regulations impose increased (special) requirements on the buildings of preschool institutions in terms of their ability to withstand seismic loads.

The objective of this solution is to develop a new design formed by the panels of the building module used in the construction of buildings of kindergartens, which eliminates the above disadvantages.

The technical result is the expansion of the arsenal of technical means - the construction module used in the construction of buildings of kindergartens, providing an increase in its strength characteristics, in particular - improving seismic stability by eliminating the possibility of the butt joint opening of the modules as a result of dynamic effects in earthquake-prone zones.

The specified problem is solved as follows.

The building module contains hollow core slabs, prefabricated internal elements and three-layer wall panels, one of the layers of the wall panel is load-bearing and made of building concrete, the second is made of energy-saving materials and is insulating, and the third layer of the wall panel is external, made of architectural concrete moreover, the corner wall panels for interfacing the modules are beveled at an angle of 45 °. In addition, the outer layer of wall panels can be made with the possibility of replacement directly at the construction site. And the insulation layer of the wall panel can be made of expanded polystyrene or mineral wool.

As you can see, due to the implementation of the wall panel of the building module multilayer with a warming (energy-saving) layer and the possibility of varying the thickness of the carrier layer (depending on the conditions of its operation, including climatic ones), it is possible to manufacture a building module of a kindergarten with increased energy-saving capabilities.

The implementation of the corner wall panels, mating building modules with a bevel at an angle of 45 °, can significantly increase the connection surface of the modules by increasing the friction surface with possible micro-displacement of the panels, which provides resistance to dynamic effects. The angle of 45 ° ensures uniformity of possible micro displacement on both mating parts of the modules, which virtually eliminates the disclosure of the joint.

At the same time, the heat loss of the building as a whole is reduced, as most often, it is at the junction of the wall panels of the building, connected, as a rule, at an angle of 90 ° (“overlapping” one on the other) and there are points (forming, subsequently, lines) of heat loss.

The following is one example of the implementation of the claimed technical solution, in no way limiting all possible options for its implementation.

All elements of the building module are hollow: floor slabs, prefabricated internal elements and wall panels, are made directly at the factory based on the requirements of project documentation.

Depending on the climatic conditions in which the building will be operated, the thickness of the carrier layer is selected, the qualitative characteristics of the energy-saving (insulation) layer.

After manufacturing, the elements are delivered to the construction site.

After the elements are delivered, they are assembled (built) using well-known methods and means into the building of a kindergarten in accordance with the design documentation and subsequent, including climatic conditions of the building.

Depending on the design documentation, the outer layer of the wall panels of the building may vary due to its possible replacement directly with the construction site on a panel of a different design, giving the building being erected or erected a new architectural (design) look.

As you can see, the claimed solution, due to the above-mentioned location of the joints using an angle of 45 °, ensures uniform micro-displacement on both mating parts of the modules, which virtually eliminates the disclosure of the joint when one of the layers of the (bearing) wall panel of the building module is made of building concrete. This achieves an increase in the strength characteristics of the building module as a whole, which, when erecting buildings of kindergartens with the use of such modules, results in a significant improvement in their seismic stability.

Claims (3)

1. A building module containing hollow core slabs, prefabricated internal elements and three-layer wall panels, one of the layers of the wall panel is load-bearing and made of building concrete, the second is insulation, made of energy-saving material, and the third layer of the wall panel is external, made of architectural concrete, and the corner wall panels for interfacing the modules are beveled at an angle of 45 °. 2. The building module under item 1, characterized in that the outer layer of the wall panels is made with the possibility of replacement directly at the construction site. 3. The building module according to claim 1, characterized in that the insulating layer of the wall panel is made of expanded polystyrene or mineral wool.