SU844754A1 - Structure for spanning a window opening - Google Patents

Description

The invention relates to the construction, namely, to the design of filling light openings of various buildings and structures.

A known design for protecting a light beam, including pivoting outer flaps and a glazed unit [Ί], pivotally attached to a wall, pivots to a limited angle.

The disadvantage of this design! is its complexity.

Closest to the invention in terms of technical nature and the achieved result is the design of filling the light opening, including a multilayer sash with a heat-insulating layer, pivotally mounted on the outer side of the opening, sealing elements, a stopper for fixing the sash and drive [2]. .

A disadvantage of the known design are low solar and thermal insulation qualities.

The purpose of the invention is to increase the intensification of the use of solar energy and thermal protection of the fence.

This is achieved by the fact that in the design of filling the light opening, including a multilayer sash with a heat-insulating layer, pivotally mounted on the outer side of the opening, sealing elements, a stopper for fixing the sash and the drive, the sash is equipped with a solar energy absorber made, for example, in the form of a blackened sheet with channels for the coolant and a layer of translucent material that transmits electromagnetic radiation, while the energy absorber is located on the insulating layer, and the transmission layer is fixed flax on the sash in front of the absorber with the formation of a closed air gap between them, and the sealing elements are placed

844754 4 from the outer and inner sides around the perimeter of the sash.

In FIG. I depicts a design, general view; in FIG. 2 is a section AA of FIG. 1; in FIG. 3 - the same with the vertical axis ₅ ; in FIG. 4 is a section BB of FIG. 3; in FIG. 5 - node I of FIG. 3; ng> ig .. 6 - design, axonometry.

The design of filling the light opening includes a rotatable multilayer sash containing an outer layer 1 of a U-shaped cross section, a heat-insulated layer 2, a solar energy absorber panel 3, is sealing elements 4, a stopper for fixing the sash 5, heat-conducting channels 6 of the absorber panel, hinged sashes of the sashes, having an input 7 and an output 8 of heat-conducting channels, 20 an inner layer of translucent material 9, air layers 10.

The outer layer 1 of the pivoting leaf, made of a material with 25 high reflective properties or of a material having a coating with such properties, is connected to a thermally insulated layer 2, onto which, from the side of the inner layer, 30 a solar energy absorber panel is made, made, for example, in the form blackened sheet 3 with heat-conducting channels 6. Channels.6 are, for example, cavities in a rolled-welded heat exchanger or tubes attached, for example, soldered, to the sheet. Input 7 and output 8, providing circulation of a heat carrier, for example water, in channels 6, 40 are structurally combined with hinged canopies of the sash, which also have a friction or other braking device that ensures the sash is held in intermediate 45 positions. The solar energy absorber panel 3 is protected from the outside air by an inner layer of selectively transmitting translucent material 9, for example, silicate glass window, into one or more layers with the formation of one or more closed air spaces

10. For this, the translucent material 9 is tightly fixed in the shelves of the outer layer 1 of the sash. The tightness of the junction of the pivoting sash to the box of the window unit 11 in the fully closed position and to the wall of the building 12 in the fully open position is ensured by sealing elements 4, for example, rubber profiles fixed along the perimeter from the outer and inner sides of the sash.

The shutter is locked in the closed position by the stopper 5.

The use of the invention increases the intensity of the use of solar energy, thermal protection of the fence.

Claims (2)

The invention relates to construction, in particular, to the construction of the filling of light openings of various buildings and structures. The known construction of the protection of the light aperture, including the rotary outer flaps and the glazed block hinged at a limited angle and hinged to the wall. The disadvantage of this design is its complexity. Closest to the invention to the technical essence and the achieved result is the construction of the light aperture comprising a multilayer sash with a heat insulating layer hinged on the outside of the aperture, sealing elements, a stopper for fixing the sash and the drive 2. The disadvantage of the known construction is low sun and thermal insulation qualities. The purpose of the invention is to increase the intensification of the use of solar energy and the thermal protection of the fence. This is achieved by the fact that, in the construction of filling the light aperture, including a multilayer sash with a heat insulating layer hinged on the outside of the aperture, sealing elements, a stopper for fixing the sash, and a drive, the sash is provided with an absorber of solar energy made, for example, in the form of a blackened sheet. with channels for the coolant and a layer of translucent material that transmits electromagnetic radiation, while the energy absorber is located on the heat insulating layer, and the permeable layer is closed replen on the sash in front of the absorber with the formation of a closed air gap between them, moreover, the sealing elements are placed On the outer and inner sides around the perimeter of the sash. FIG. I shows the structure, general view; in fig. 2 - section A-A of FIG. one; in fig. 3 the same with the vertical axis; in fig. 4 - section bb FIG. 3; in fig. 5 shows the node I of FIG. 3; and. IG 6 - designs, axonometrics. The light opening construction includes a rotary multilayer sash containing an outer layer 1 of U-shaped section, a tegly insulated layer 2, a solar energy absorber panel 3, sealing elements 4, a stopper for fixing the sash 5, heat-conducting channels 6 of the absorber panel, hinged shed sheds having input 7 and output 8 of heat-conducting channels, the inner layer of light-transparent material 9, air layer 10. The outer layer 1 of the rotary valve, made of a material with high reflective properties and or from a material with a coating with such properties, is connected to a thermally insulated layer 2, on which from the side of the inner layer the solar absorbing panel is complicated, made, for example, in the form of blackened sheet 3 with heat-conducting channels 6. Channels-6 are represented by For example, cavities in the rolling-welded heat exchanger or tracks attached, for example soldered, to the sheet. Input 7 and output 8 circulating heat carriers, such as water, in channels 6, are structurally combined with hinged sash canopies that also have a friction or other braking device that holds the sash in intermediate positions. The solar energy absorber panel 3 is protected from outside air by an inner layer of selectively transmissive translucent material 9, such as silicate window glass, in one or more layers to form one or more closed air layers 0. For this, translucent material 9 is tightly fixed in the shelves outer layer 1 casement. The tightness of the abutment of the pivotal sash to the box of the window block 1I in the fully closed position and to the wall of the building 12 in the fully open position is provided by sealing elements 4, for example, rubber profiles reinforced along the perimeter from the outer and inner sides of the sash. The sash is locked in the closed position by a stopper 5. The use of the invention increases the intensity of the use of solar energy, the thermal protection of the fence. Claim 1. The design of filling the light aperture, comprising a multilayer sash with a thermal insulation layer, hinged on the outside of the aperture, sealing elements, a stopper for fixing the sash, and an actuator, characterized in that, in order to increase the intensification of the use of solar energy and heat protection , the flap is equipped with solar energy absorber, made in the form of a blackened sheet with channels for the heat carrier and a layer of translucent material that transmits electromagnetic In this case, the energy absorber is located on the heat insulating layer, and the transmission layer is fixed on the sash in front of the absorber with the formation of a closed air gap between them. 2. The structure according to claim 1, wherein the sealing elements are arranged on the outer and inner sides along the perimeter of the flap. Sources of information taken into account during the examination 1. USSR author's certificate No. 515864, cl. E 04 C 2/28, 1977. 2, USSR Copyright Certificate No. 635214, cl. E 06 B 9/24, 1979 (prototype) .. 6-6 R fig.Z / / Fig. four