RU118989U1 - MULTI-LAYERED WALL WITH ADJUSTABLE HEAT PROTECTIVE PROPERTIES - Google Patents

Abstract

1. Multilayer wall with adjustable heat-shielding properties, containing the outer and inner walls with an air channel between them, characterized in that a plate is rigidly attached to the outer surface of the inner wall dividing the air channel into two zones, an opening is made in the outer wall in which a rigid a frame with a damper having a perforation, the damper being connected to a rod located in a horizontal channel of the inner wall. ! 2. A multilayer wall with adjustable heat-shielding properties according to claim 1, characterized in that the plate, frame, shutter and stem are made of metal. ! 3. A multilayer wall with adjustable heat-shielding properties according to claim 1, characterized in that the plate, frame, shutter and stem are made of weather-resistant composite materials.

Description

The utility model relates to the field of building construction and is aimed at changing the heat-shielding properties of the air layers of the wall envelope in the warm and cold periods of the year.

The enclosing structure of a multilayer wall with an air gap is known, including a heat-insulating grating mounted on the wall from convex-shaped volumetric elements rigidly interconnected in the right order, arranged with gaps between them, providing vapor permeability in the direction perpendicular to the wall surface, protective lining, ventilation ducts of many alternating extensions and contractions and rigid connecting bonds passing through the transverse gaps between the volume lattice elements and surrounded by a layer of cement-containing composition (RU No. 2150554, E04B 1/76, 10.06.2000). This design has several disadvantages associated with heat loss in the winter and overheating in the summer.

A multilayer wall is known in which the masonry is made using curly brick / block creating air channels due to the additions made to the wall structure (RU No. 99122565, Е04С1 / 00, E04B 2/14, 09/10/2001). The disadvantage of this solution is increased air permeability due to the creation of air channels by introducing various additions to the geometric configuration of the enclosing structure, due to which low heat-shielding qualities are manifested.

Known enclosing structure of a multilayer wall, which is a hinged ventilated facade with a facing layer of brick, an insulating layer and a device for attaching a facing layer, consisting of horizontal supporting elements made with the possibility of mounting on the intermediate vertical elements of the fixing nodes; at the same time, the facing layer is located on the supporting horizontal elements, each intermediate vertical element is made with the possibility of fastening to the facing surface, and between the facing surface and the intermediate vertical elements there is a warming layer with the possibility of forming an air gap with the facing layer (RU No. 97146, E04B 2 / 00, 08/27/2010). The disadvantage of this solution is the thermal engineering heterogeneity of the enclosing structure, leading to an uneven distribution of temperature fields on the entire surface of the outer surface of the building wall.

The closest technical solution to the claimed utility model is a multilayer brick outer wall, consisting of the outer and inner walls, between which an intermediate wall is laid out, which forms closed air-cavity, while the masonry is made in a different combination, providing stable rigidity. (RU No. 20011120692, E04B 2/28. 04/20/2003). The disadvantages of the solution under consideration are the low energy efficiency of the wall envelope, low thermal performance due to the thermal technical heterogeneity of the brick wall.

The objective of the utility model is the realization of the great functionality of a multi-layer wall envelope, achieved by combining the two principles of operation of the air gap. In the first case, the air gap is an enclosed space, providing high heat-shielding qualities of the building envelope in the winter. In the second case, the air gap is a ventilated channel, which allows to reduce the overheating of the premises in the warm season.

The technical result is an increase in the thermal properties of a multilayer wall. The technical result is achieved in that a multilayer wall with adjustable heat-shielding properties, comprising an outer and an inner wall with an air channel between them, a plate is rigidly attached to the outer surface of the inner wall, dividing the air channel into two zones, an opening is made in the outer wall, in which a rigid a frame with a damper having perforation, the damper being connected to a rod located in a horizontal channel of the inner wall.

In the proposed utility model, products such as a plate, frame, damper and stem are made of metal or weather-resistant composite material.

The essence of the proposed utility model is illustrated by drawings. Figure 1, 2 shows the construction of a multilayer wall with adjustable heat-shielding properties for the warm season with the open position of the shutter; figure 3, 4 presents the design of a multilayer wall with adjustable heat-shielding properties in the cold season with the shutter closed.

A multilayer wall with adjustable heat-shielding properties is a structure consisting of an outer wall 1, an inner wall 2 and a plate 3 dividing the air channel between them into two zones: the upper 4 and lower 5. An opening of a rectangular or circular cross section is made in the outer wall 1, which has a rigid frame 6.

The regulation of the air supply in both parts of the channel 4, 5 is carried out by means of a damper 7, which is a disk with perforation, having two working positions: open (Fig. 1, 2) and closed (Fig. 3, 4). The damper 7 is activated by means of a rod 8 located in the horizontal channel of the inner wall 2 and connected to the actuator 9. The structure of the multilayer wall enclosure includes such elements as: a plate, a frame, a damper, a rod and an actuator, which can be made of metal alloys (iron-carbon, zinc, nickel) or weather-resistant composite materials, for example: carbon fiber, fiberglass, spheroplastic, polymer coating of metal products.

The work of a multilayer wall with adjustable heat-shielding properties is carried out as follows: air channels 4, 5 in the open position allow for ventilation of the air gap in the warm season, with closed insulation for it in the cold period. The indicated possibility is carried out using the shutter 7, which has two operating positions: open (Fig. 1, 2) and closed (Fig. 3, 4), which is mechanically actuated by the rod 8 of the actuator 9 of the shutter 7. In the case of an open position (Fig. 1, 2) - in the warm season, convective air flows in the air channels 4, 5 contribute to lowering the temperature of the inner edge of the wall 2 from the side of the room. When the position is closed (Fig. 3, 4), a closed space is created in which the air gap 4, 5 acts as a heat-insulating component that provides the necessary thermal performance of a multilayer wall.

Mechanical regulation of the properties of the air gap of a multilayer wall in the warm and cold periods of the year compared to the analogue selected as a prototype allows you to:

- avoid overheating of the room in the warm season;

- reduce material costs for air conditioning inside the building when the valve is open due to ventilation of the air gap in the multilayer wall;

- to preserve the necessary heat-shielding qualities of the multi-layer wall of the building in the cold season with the closed position of the valve due to the formation of a closed air gap;

- to ensure the conclusion of the condensate formed through the air channels through the through holes in the outer wall structure in the warm season;

- to achieve greater thermal engineering uniformity of the multilayer wall, which simplifies the implementation of thermal engineering calculations and improves the thermal properties of the building.

Claims (3)

1. A multilayer wall with adjustable heat-shielding properties, comprising an outer and an inner wall with an air channel between them, characterized in that a plate dividing the air channel into two zones is rigidly attached to the outer surface of the inner wall, an opening is made in the outer wall, in which a rigid a frame with a damper having perforation, the damper being connected to a rod located in a horizontal channel of the inner wall. 2. A multilayer wall with adjustable heat-shielding properties according to claim 1, characterized in that the plate, frame, shutter and rod are made of metal. 3. A multilayer wall with adjustable heat-shielding properties according to claim 1, characterized in that the plate, frame, shutter and rod are made of weather-resistant composite materials.