RU89132U1 - BASE UNIT SEISMIC RESISTANT WARMED - Google Patents

Abstract

1. The base block is earthquake-resistant, insulated, characterized in that the block is made in the form of two slabs of reinforced concrete installed parallel to each other with a heat-insulating gap, while both slabs are interconnected by reinforcing bonds and have transverse and longitudinal reinforcement, forming a power frame. ! 2. The earthquake-resistant basement block insulated according to claim 1, characterized in that the heat-insulating gap is filled with a compressed mixture of slag with cement and sand. ! 3. The basement block earthquake-resistant insulated according to claim 1, characterized in that on one of the outer sides of the block a waterproofing layer is applied. ! 4. The foundation block is earthquake-proof insulated according to claims 1 to 3, characterized in that the longitudinal reinforcement has outlets located in the corner recesses of the block, which allow for inter-unit welding of the reinforcement extending beyond its ends.

Description

The utility model relates to construction, in particular for the construction of foundations in seismic conditions for low-rise buildings and structures.

In construction, a number of patents for inventions are known for utility models RU No. 14224, 59650, 65903, 2040652) related to the foundations of low-rise buildings intended for operation in seismic conditions, taken as analogues.

According to patent RU No. 59650, an earthquake-resistant low-rise building (structure) is protected, including a top structure of load-bearing walls and a foundation spatial platform not buried in the ground, consisting of upper and lower plates fastened together by cross beams, the space between which is filled with insulation, while in space a sliding layer is located between the platform and the leveled base.

The foundation panel according to patent No. 65903 is made of reinforced concrete in the form of a box-like structure, formed by upper and lower horizontal shelves connected by a thin-walled membrane and vertical bearing ribs, while the inner surface of the membrane and ribs are covered with insulation.

The foundation block according to patent RU No. 2040652 has a panel with upper and lower horizontal shelves and thermal ribs uniting them with stiffeners, while thermal insulation is attached additionally to the ends of the stiffeners and the inner sides of the horizontal shelves.

In patent No. 14224, an earthquake-resistant foundation block is made, made in the form of a plate with wedge-shaped protrusions in its lower part and there are between the side surfaces of the lintel and the window between the lintels for filling the sand-gravel mixture.

In the above analogues, the foundation structures have upper and lower plates, which are interconnected by a cross system of beams (ribs) or one plate, in which the side surfaces are interconnected by reinforced concrete lintels. The presence of reinforced concrete ribs or jumpers in the foundation structures (in the block) during operation contributes to heat losses that occur on the path of heat transfer from the external environment to the inside of the building due to an increase in the heat-conducting area compared to structures (block) that would not have ribs or concrete jumpers , and the areas contacted through heat insulators would be even. In addition, analogues of patents Nos. 59650, 65903, 2040652 are quite complex and expensive to manufacture.

As a prototype of the selected utility model No. 14224. However, this design does not provide for the use of thermal insulation, there is no waterproofing and there are no outlets of fittings from the ends for inter-unit connection.

The objective (technical result) of the utility model is the creation of an inexpensive solid foundation block of earthquake-resistant insulated with waterproofing, suitable for assembling the foundation by welding fittings extending beyond the ends of the block, followed by monolithic butt joints.

The task is achieved in that the proposed block is made in the form of two slabs of reinforced concrete, installed parallel to each other with a heat-insulating gap, while both slabs are interconnected by reinforcing ties, and have transverse and longitudinal reinforcement, forming a power frame. In addition, a waterproofing layer is applied on one of the outer sides of the block, and the longitudinal reinforcement has outlets located in the corner recesses of the block, which allow for inter-unit welding of the reinforcement that extends beyond its ends. The heat-insulating gap between the plates can be ensured by filling the gap with a pressed mixture of slag with cement and sand, and it can also be filled with expanded clay or a loose heat insulator after installation of the foundation.

A comparative analysis of the claimed utility model with the prototype shows that the earthquake-resistant foundation foundation block differs from the prototype in the presence of two slabs of reinforced concrete with smooth walls and a heat-insulating gap between them, connected by reinforcement in one structure instead of one slab with concrete lintels and windows for backfilling with pebble-gravel the mixture and additionally made a waterproofing layer on one of the outer sides of the block, and longitudinal reinforcement was released beyond the ends of the block.

Thus, the claimed result meets the criteria of the utility model of "novelty."

In more detail, the proposed utility model is illustrated using the drawings of FIG. 1, FIG. 2, FIG. 3, FIG. 4.

In Fig.1, Fig.2 a utility model is depicted without thermal insulation, and in Fig.3, Fig.4 with thermal insulation.

The earthquake-resistant insulated foundation block contains a steel frame made of longitudinal reinforcement 1, reinforcing ties 2, transverse reinforcement 8, piercing plate 4 and plate 5, forming a heat-insulating gap 3, through which reinforcing ties 2 pass, connecting both plates into one block, the gap between the plates are filled with heat-insulating material 7, for example, a pressed mixture of slag with cement and sand, and a waterproofing layer 6 is applied on the outside of the block, made, for example, in the form of a bitumen layer, longitudinal reinforcement 1 outlet um beyond the end recesses of the parts of both plates.

In section AA (Fig. 4), the internal content of the foundation block is shown, which contains between the plates 4 and 5 in the gap 3 a heat insulator 7 longitudinal reinforcement 1, reinforcing ties 2, transverse reinforcement 8, forming a power frame, waterproofing 6.

The manufacture of the foundation block of the earthquake-resistant insulated does not cause difficulties, because Widespread materials and well-known accessible technologies are used for its manufacture. Therefore, the utility model is industrially applicable.

Claims (4)

1. The base block is earthquake-resistant, insulated, characterized in that the block is made in the form of two slabs of reinforced concrete installed parallel to each other with a heat-insulating gap, while both slabs are interconnected by reinforcing bonds and have transverse and longitudinal reinforcement, forming a power frame. 2. The earthquake-resistant basement block insulated according to claim 1, characterized in that the heat-insulating gap is filled with a compressed mixture of slag with cement and sand. 3. The basement block earthquake-resistant insulated according to claim 1, characterized in that on one of the outer sides of the block a waterproofing layer is applied. 4. The foundation block is earthquake-proof insulated according to claims 1 to 3, characterized in that the longitudinal reinforcement has outlets located in the corner recesses of the block, which allow for inter-unit welding of the reinforcement extending beyond its ends.