UA116930U - MULTIPLE FUNCTIONAL ENERGY EFFICIENCY - Google Patents

Abstract

The multifunctional energy-efficient shutter contains a shutter that protects against intense sunlight and cold penetration, a shutter mounting system. The shutter is made using a transparent material, contains an internal hollow volume through which the liquid coolant circulates, and contains an inlet and outlet for the coolant.

Description

A useful model belongs to the field of construction and alternative energy, where shutters are used to protect against intense sunlight, the penetration of cold and for the production of thermal energy. A useful model can be applied in the private and budget sectors and communal economy.

Analogues of the claimed multifunctional energy-efficient shutters are shutters that are used to protect the premises.

The disadvantage of analogues is that: - the solar energy that falls on the shutter is not used; - shutters are not transparent to light.

The shutter Fig. is taken as the prototype. 2, which consists, among other things, of the sash 1, which protects against intense sunlight and the penetration of cold, the fastening system of the sash 2 in its upper part, its fixation 3.

The disadvantage of the prototype is that: - the solar energy falling on the shutter is not used; - the sash is not transparent to light, therefore, when the shutter is closed to protect against cold penetration, no light enters the room.

The useful model is based on the task of using the solar energy that falls on the shutter and the penetration of light into the room when the shutters are closed while preserving other properties of the shutter.

The task is solved by the fact that the multi-functional energy-efficient shutter contains a sash that protects against intense sunlight and cold penetration, and a sash fastening system. The shutter is made using a transparent material, contains an internal hollow volume through which the liquid coolant circulates, and contains the inlet and outlet for the coolant.

The drawing explains the essence of the useful model. (Fig. 1 - Fig. 5)

In Fig. 1, Fig. 2 shutters from intense sunlight and cold penetration.

The shutter is made using a transparent material, has an internal hollow volume through which the liquid heat carrier circulates, and has an inlet and outlet for the heat carrier Fig. 3, which is composed, among other things, of a leaf 1, which is made using a transparent material, has an internal hollow volume 4, through which the liquid heat carrier 5 circulates, and has an inlet b and an outlet 7 for the heat carrier, a system of fastening the leaf 2 and fixation 3.

Shutter multifunctional energy efficient Fig. C works as follows. In the warm season, especially in sunny weather, leaf 1 of the shutter is opened and exposed to an angle that ensures the maximum fall of solar energy on the leaf. With the help of the entrance 6 and the exit 7, a liquid coolant 5 is passed through the hollow volume of the sash, which absorbs the thermal energy of solar radiation (the long-wave part of solar radiation).

Thermal energy obtained from solar radiation is used for the needs of the energy consumer. Depending on the needs of the customer, the liquid coolant can be transparent or not for visible light, the coolant can be diluted with an absorbing substance of a given color. In the cold season, the leaf 1 of the shutter closes and the coolant is released from it. In this case, the shutter protects the room from cold penetration, while allowing light (solar radiation) into the room.

The use of cellular polycarbonate 8 as a transparent material of Fig. 4 makes it possible to simplify the manufacture of the sash and reduce the weight of the shutter as a whole. At the same time, the principle of operation of the shutter is the same as in Fig. 3.

Placement of the sealing strip 9 along the perimeter of the shutter Fig. 4 provides a tight closing of the shutter, which does not allow the penetration of cold air through the shutter.

Dilution of the substance absorbing solar energy 12 Fig. 5 of a given color in a liquid heat carrier allows to increase the degree of absorption of solar energy by the heat carrier and to satisfy the owner's requirements for decoration.

The system of attachment 2 and fixing of the leaf Z is designed in such a way that it allows: - to open the leaf from below and fix it at a given angle Fig. 3, while the angle can be changed automatically, remotely or manually during the day, ensuring the maximum fall of solar energy on the sash; - fix the sash in the closed state, which provides protection against thieves and reduces the penetration of cold through the shutter and the window as a whole.

Design of the outer part of the shutter from a transparent solid material 10, for example from tempered glass, Fig. 5 increases the reliability of the shutter and contributes to protection against thieves and vandals.

Placement of transparent heat-insulating material 11 above the transparent material of the sash, in which the coolant circulates 5 Fig. 5, in particular cellular polycarbonate 8, reduces heat loss to the outside environment.

A comparative analysis of the technical solution with the prototype shows that it differs in that the shutter leaf is made using a transparent material, has an internal hollow volume through which the liquid coolant circulates, has an inlet and outlet for the coolant and has a fastening system for the shutter, which allows opening the sash from below and fixed at a given angle, while the angle can be changed automatically, remotely or manually during the day, ensuring the maximum fall of solar energy on the sash. This gives the proposed shutter significant additional properties compared to the prototype, namely the use of solar energy that falls on the shutter to obtain useful thermal energy and the penetration of light into the room when the shutters are closed while preserving other properties of the shutter.

Thus, the proposed technical solution of the multi-functional energy-efficient shutter meets the "novelty" criterion.

Claims (7)

USEFUL MODEL FORMULA 1. The shutter is multi-functional and energy-efficient, containing a leaf that protects against intense sunlight and the penetration of cold, a system of fastening the leaf, which is distinguished by the fact that the shutter is made using a transparent material, contains an internal hollow volume through which a liquid coolant circulates, and contains the inlet and outlet for the coolant. 2. The multi-functional, energy-efficient shutter according to claim 1, which is distinguished by the fact that cellular polycarbonate is used as a transparent material and hydraulic collectors are installed perpendicular to the stiffeners. 3. The multi-functional shutter is energy-efficient according to any of claims 1-2, which is distinguished by the fact that a sealing strip is placed around the perimeter of the shutter, which ensures tight closing of the shutter. 4. The shutter is multifunctional and energy-efficient according to any of claims 1-2, which differs in that solar energy-absorbing substances of a given color are diluted in the liquid coolant. 5. The multi-functional shutter is energy-efficient according to any of claims 1-2, which is characterized by the fact that the sash fastening system is made in such a way that it allows the shutter to be fixed in the closed state and the sash to be opened from below and fixed at a given angle. 6. The multi-functional shutter is energy-efficient according to any of claims 1-2, which is distinguished by the fact that the outer part of the shutter is made of a transparent solid material. 7. The multi-functional shutter is energy-efficient according to point b, which differs in that a transparent heat-insulating material is placed between the transparent material of the sash, in which the heat carrier circulates, in particular cellular polycarbonate, and the solid transparent material.