RU202265U1 - SCREEN HEAT-SAVING - Google Patents

Abstract

The utility model relates to the field of construction and improvement of energy saving in the operation of various buildings and premises [E06B9 / 24, E06B9 / 26, E06B 9/264, E06B9 / 17]. The technical result of the utility model is to reduce the thermal conductivity of the heat-saving screen, which is achieved by that the screen is heat-saving, containing a base, in the lower part of which a number of independent suspensions are mounted, while the suspensions are made with the possibility of synchronous movement along the base and rotation around their axis by the extension and rotation mechanisms mounted in the base, attached to the lower part of each suspension plates, characterized in that the plates have a wavy shape in the transverse profile, with the possibility of abutting the protruding elongated parts of adjacent plates when they are rotated, thus forming rows of air channels. 5 p.p. f-ly, 4 dwg

Description

The utility model relates to the field of construction and improvement of energy saving in the operation of various buildings and premises [E06B9 / 24, E06B9 / 26, E06B 9/264, E06B9 / 17].

From the prior art, a HEAT-SAVING SCREEN is known [RU129978U1 published on July 10, 2013], which provides a two-walled cellular sheet sealed form of a polymer material, the stiffeners of which are made in plane-parallel layers, forms closed volumetric channels, characterized in that one of the inner channels is covered with a heat-reflecting layer of low-emission material , the internal volume of the channels is filled with an inert gas.

The disadvantage of this device is the high complexity of its manufacture and the need to remove it when its use is not required.

The closest in essence is the WINDOW UNIT WITH AN INTERIOR SHUTTER [RU153159 U1 published on July 10, 2015], containing lower and upper horizontal crossbeams, side vertical edges, a glazed window frame hinged to them, on its side facing the inside of the room, having a shutter made with the possibility unfold-fold, placed in its working position relative to the glazed frame with the possibility of covering it with a working gap, characterized in that the shutter in the inoperative position is pressed against the upper horizontal crossbar of the window opening, made of lamellas, sequentially hinged together, each lamella has a frame , made of longitudinal hollow elements connected by transverse strips, in cross-section, the longitudinal hollow element has the shape of a rectangle with two rounded corners, three heat-reflecting screens are fixed on the frame, while the outer heat-reflecting screens are made of aluminum foil with a thickness 150-200 microns, the inner heat-reflecting screen is made of 7-15 microns thick aluminum foil, the distance between the heat-reflecting screens is 3-3.5 mm.

The main technical problem of the prototype is the use of heat-reflecting screens made of foil with a thickness of 150-200 microns, which provides heat reflection only in the infrared spectrum. At the same time, the screens themselves have a sufficiently high thermal conductivity, which, with a high temperature gradient, does not provide heat saving.

The task of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is to reduce the thermal conductivity of the heat-saving screen.

The specified technical result is achieved due to the fact that the screen is heat-saving, containing a base, in the lower part of which a number of suspensions independent from each other are mounted, while the suspensions are made with the possibility of synchronous movement along the base and rotation around their axis by sliding and turning mechanisms mounted in the base, plates are attached to the bottom of each suspension, characterized in that the plates have a wavy shape in the transverse profile, with the possibility of abutting the protruding elongated parts of adjacent plates when they are rotated, thus forming rows of air channels.

In particular, the wavy shape is made in the form of zigzags.

In particular, the plates can be made of metal or polymer material.

In particular, the plates are hollow.

In particular, a heat-reflecting coating can be applied over the entire surface or on a certain part of the plates.

In particular, magnets are installed in the mating edges of the plates, facing each other in reverse polarity.

Brief description of the drawings.

FIG. 1 shows a general view of a heat-saving screen installed on a window opening.

FIG. 2 shows a top sectional view of a heat-saving screen in an operating position.

FIG. 3 shows a top sectional view of the heat-saving shield in the position of the open plates.

FIG. 4 shows a top sectional view of the heat-saving screen in a position where the plates are offset towards the edge of the opening.

The figures indicate: 1 - base, 2 - suspensions, 3 - lamellas, 4 - ridges, 5 - window opening, 6 - air chambers.

Implementation of the utility model

In the presented embodiment, the heat-saving screen in the form of a louver contains an actuator 1 and lamellas 3 mounted on it with the help of fastening elements 2 and made in the form of plates having a zigzag shape, due to which ridges 4 are formed.

Lamellas 3 are mounted on the actuator with the ability to rotate around the longitudinal axis. In this case, the distance between the lamellas 3 in the most distant state from each other ensures the adhesion of the ridges 4 of the adjacent lamellas 3 when they are rotated at a given angle.

The actuator 1 is configured to move the lamellas to one of its edges or to both edges.

The heat-saving screen is used as follows.

The base 1 is installed above the window opening 5, the lamellas 3 are attached to the base 1 by means of suspensions 2, and the lamellas 3 are rotated around their axis with the help of the rotation mechanism (not shown in the figures), the ridges 4 of the adjacent lamellas 3 are adjoined to each other. As a result, rows of vertical air chambers 6 are formed, preventing the passage of heat from one side of the heat-saving screen to the other. In cases where there is no need for a heat shield, the lamellas 3 are turned with their edges towards the window opening. Or, using the sliding mechanism (not shown in the figures), they are moved to the edges of the base 1.

The specified technical result is achieved by providing the possibility in the working position of the adhesion of the ridges 4 of adjacent lamellas 3 and the formation of air chambers 6, which have low thermal conductivity and prevent the passage of heat from one side of the heat-saving screen to the other.

Claims (6)

1. Heat-saving screen, containing a base, in the lower part of which a number of independent from each other suspensions are mounted, while the suspensions are made with the possibility of synchronous movement along the base and rotation around their axis by extension and rotation mechanisms mounted in the base, attached to the bottom of each suspension plates, characterized in that the plates have a wavy shape in the transverse profile, with the possibility of abutting the protruding elongated parts of adjacent plates when they are rotated, thus forming rows of air channels. 2. Screen according to claim 1, characterized in that the wave-like shape is made in the form of zigzags. 3. Screen according to claim 1, characterized in that the plates can be made of metal or polymer material. 4. Screen according to claim 1, characterized in that the plates are hollow. 5. Screen according to claim 1, characterized in that a heat-reflecting coating can be applied over the entire surface or on a certain part of the plates. 6. Screen according to claim 1, characterized in that magnets are installed in the counter edges of the plates, facing each other in reverse polarity.

Images