RU2796974C2 - Windowsill - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: windowsill is proposed, containing a windowsill plate consisting of a base and a heat-insulating layer with a surface layer. Moreover, the base of the windowsill plate contains at least one air infiltration channel, which has an input part from the side of an outer medium and an output part from the side of an inner medium. A through hole is made in the windowsill plate, in which at least one ventilation grate is placed. At the same time, at least one fan is fixed to the base under the through hole of the windowsill plate, and a removable filter, on which and partially on the windowsill plate a heat window profile with an outer slope is installed, is placed from the side of the input part of air infiltration channels from the outer medium.

EFFECT: increase in the quality of microclimate by means of creation of a possibility of room ventilation and direct mixing of fresh air with convection flows from a heating device.

14 cl, 13 dwg

Description

The invention relates to fixed elements for closing window openings in buildings, in particular to framing window frames, namely to window sills, and can be used in construction when equipping and finishing windows of buildings.

A window sill is known from the existing prior art (Patent RU 2339783 C2, 27.11.2008, E06B1/70), consisting of a hollow press-technical profile with internal ribs forming through passages, having two end parts on the side faces, moreover, the through passages of the profile have alternating box-shaped and triangular shapes, formed by ribs inclined and perpendicular to the surfaces, and the end parts are made symmetrical.

A window sill is also known from the prior art (Patent RU 55833 U1, 27.08.2006, E06B1 / 70, H05B3 / 28), containing a window sill board reinforced in the window opening with a temperature control device, moreover, the window sill is made of a compound based on a filler with a binder, inside of which a reinforcing and heat-insulating insert is located, while the temperature control device is located inside the window sill on top of the insert and is made in the form of a flat heating element with an electrically insulating substrate, inside which a flexible polymetallic conductive carrier is located, its outputs are connected to a power source through a transformer, in addition, the heating element is equipped with LED indicator mounted on one of the ends of the window sill.

The closest technical solution is a window sill (Patent RU 2170801 C2, 07/20/2001, E06B1 / 70), consisting of a window sill board or plate reinforced in the window opening with holes located along the width of the window and providing air passage from bottom to top through the window sill along the window glazing , moreover, a valve is installed on the lower surface of the window sill to change the total flow area of the holes, and on the upper surface of the window sill there is a plate, one side of which is black and the other white, while the plate can be installed with one or another side up.

The main disadvantage of the above technical solutions is the inability to ventilate the room with fresh air.

The technical result of the claimed invention is to improve the quality of the microclimate by creating the possibility of ventilation of the premises and direct mixing of fresh air with convective currents from the heater.

This technical result is achieved due to the fact that the window sill contains a window sill, consisting of a base and a heat-insulating layer with a surface layer, moreover, the base of the window sill contains at least one channel for air infiltration, which has an inlet from the outside and the outlet part from the side of the internal environment, and a through hole is made in the window sill, in which at least one ventilation grill is placed.

At least one fan is fixed to the base under the through hole of the window sill, and a removable filter is placed on the side of the inlet part of the channels for air infiltration from the external environment, on which and partially on the window sill a warm window profile with an external slope is installed.

In particular, the length of the ventilation grille can correspond to the length of the area in which the air infiltration channels are located.

In this case, the outlet part of the channel for air infiltration can be located in the same plane as the hole in the base of the window sill.

In addition, the channels for air infiltration can be made in the form of transverse holes along the entire length of the base of a round or diamond-shaped or square or rectangular or triangular or polygonal section, and the size of the holes can be the same or different along the entire length of the base or locally.

And the through hole of the window sill can also be made of round or diamond-shaped or square or rectangular or triangular or polygonal section.

Moreover, the fan can be made radial or axial or diagonal or tangential or bladeless, and the ventilation grill and/or the fan can be made with an air throughput regulator, for installation of which a longitudinal channel can be made in the base along the entire length.

The base can be made with stiffeners, and the stiffeners of the base of the window sill in the cross section of the base can be made round or I-shaped or N-shaped or K-shaped or Σ-shaped or Ψ-shaped or any combination of them.

In this case, the base can be made with a protrusion for at least one groove of the removable filter, in front of which an outer slope can be located from the outside and behind which a warm window profile can be located.

In addition, the air throughput regulator can be made in the form of a roller with an air control damper and an adjusting roller.

Moreover, the ventilation grille can be made slotted with semicircular grooves and a frame for mounting the fan.

In this case, the base and the surface layer can be produced by extrusion of polymers.

In addition, as a heat-insulating layer, it may contain penofol, and / or a heater based on basalt fiber, and / or a heater based on mineral fiber, and / or a heater based on glass fiber, and / or cellulose heat-insulating wool, and / or polystyrene concrete, and / or expanded vermiculite, and / or carbamide foam, and / or granular foam glass, and / or expanded polystyrene, and / or polyurethane foam, and / or foam phenolic, and / or any other foam, and / or have air cavities obtained during the production of the window sill and have a single design with the design of the base.

The essence of the invention is illustrated by drawings, which show a particular case of the execution of the claimed window sill:

figure 1 is an isometric view in a composite with a removable filter version of the base of the window sill in a section from the side of the internal environment; figure 2 is an isometric view in a composite version with a removable filter of a window sill with a ventilation grill in a section from the side of the external environment; figure 3 is an isometric view in a composite version with a removable filter of a window sill with a ventilation grill in a section from the side of the internal environment; on the figure 4 - a view of the window sill in a composite version with a removable filter, in section with a ventilation grill and a tangential fan; figure 5 - view of the window sill in a composite version with a removable filter, in section, installed on the basis of a window opening with a heating element during window installation, with a ventilation grill and a tangential fan; on the figure 6 - an isometric view in a remote with a removable filter version of the base of the window sill in a section from the side of the internal environment; figure 7 is an isometric view in a remote version with a removable filter of the base of the window sill slab of a quarter cutout from the side of the internal environment; on the figure 8 - an isometric view in a remote with a removable filter version of the base of the window sill in a section from the side of the external environment; on figure 9 - a view of the window sill in a remote version with a removable filter in the section, installed on the basis of a window opening with a heating element during window installation; on the figure 10 - a view of the window sill in a remote version with a removable filter in the section, installed on the basis of a window opening with a heating element when installing a window with a slotted ventilation grill and an air throughput regulator; on figure 11 - a local view of type A of figure 10 with two slotted gratings and two air throughput regulators; Figure 12 shows a sectional view of a window sill in a remote version with a removable filter installed on the basis of a window opening with a heating element when installing a window with a slotted ventilation grill, an air throughput regulator and a tangential fan; on figure 13 - a local view of view B of figure 12 with two slotted gratings, two air throughput regulators and two tangential fans, where:

1 - window sill;

2 - the base of the window opening;

3 - window opening;

4 - heating element;

5 - window;

6 - window sill;

7 - the base of the window sill;

8 - stiffeners of the base of the window sill;

9 - heat-insulating layer;

10 - surface layer;

11 - channels for air infiltration;

12 – inlet part of channels for air infiltration;

13 - outlet part of channels for air infiltration;

14 - through hole of the window sill;

15 - ventilation grille;

16 - fan;

17 - removable filter;

18 - warm window profile;

19 - outer slope;

20 - channel openings for air infiltration;

21 - air throughput regulator;

22 - longitudinal channel of the base for the air throughput regulator;

23 - projection of the base under the groove of the removable filter;

24 - removable filter groove;

25 - roller of the air control and shut-off damper;

26 - adjusting and shut-off damper of air;

27 - adjusting roller of the air throughput regulator;

28 - semicircular slots for mounting the fan.

A special case of the window sill implementation can be performed as follows: the window sill 1, fixed on the base 2 of the window opening 3 by means of mounting foam, with at least one heating element 4 during the installation of the window 5, contains a window sill 6, which consists of a base 7 made with stiffeners 8, and a heat-insulating layer 9 with a surface layer 10, moreover, the base 7 of the window sill 6 contains channels 11 for air infiltration. Channels 11 for air infiltration can be made with an input part 12 from the external environment and with an output part 13 from the side of the internal environment into the space of at least one through hole 14 made through the surface layer 10, the heat-insulating layer 9 and the base 7 of the window sill plates 6, respectively, with at least one ventilation grille 15, corresponding in length to at least one heating element 4 and the length of the location of the outlet part 13 of the channels 11 for air infiltration, as well as the exact position above the heating element 4. At the same time, to base 7 under the through hole 14 of the window sill 6 can be fixed at least one fan 16, and on the side of the input part 12 of the channels 11 for infiltration of air from the external environment, a removable filter 17 can be placed, on which and partially on the window sill 6 a warm profile of the window 18 with an outer slope 19 can be installed. In addition, the base 7 and the surface layer 10 of the window sill 6 can be made by extrusion of expanded polystyrene, and the heat-insulating layer 9 can contain penofol and / or insulation based on basalt fiber, and /or mineral fiber insulation and/or glass fiber insulation and/or cellulose thermal insulation wool and/or polystyrene concrete and/or expanded vermiculite and/or carbamide foam and/or granular foam glass and/or expanded polystyrene , and / or polyurethane foam, and / or phenolic foam, and / or any other foam, and / or have air cavities obtained during the production of the window sill and have a single design with the base structure. Moreover, the channels 11 for air infiltration can be made in the form of transverse holes 20 along the entire length of the base 7 of a round or diamond-shaped or square or rectangular or triangular or polygonal section, and the size of the holes 20 can be the same or different. And the through hole 14 of the window sill 6 can also be made of round or diamond-shaped or square or rectangular or triangular or polygonal section. In this case, the fan 16 can be made radial, or axial, or diagonal, or tangential, or bladeless, and the ventilation grille 15 and/or the fan 16 can be made with an air throughput regulator 21, which can be installed in the base 7 along the entire length. a longitudinal channel 22 can be made. In addition, the stiffeners 8 of the base 7 of the window sill 6 in the cross section of the base 7 can be made round or I-shaped or N-shaped or K-shaped or Σ-shaped or Ψ-shaped or a combination of any aggregates. Moreover, the base 7 can be made with a protrusion 23, at least one groove 24 of the removable filter 17, in front of which the outer slope 19 can be located on the outside and behind which the warm window profile 18 can be located. air 21 can be made in the form of a roller 25 with an air control damper 26 and an adjusting roller 27. In addition, the ventilation grille 15 can be made slotted with semicircular grooves 28 for mounting the fan 16, made with a frame.

The window sill works as follows: first, the base 7 of the window sill 1 with stiffening ribs 8 and channels 11 for air infiltration, as well as the surface layer 10 of the window sill 6, are made according to the given dimensions by extrusion of polymers. Then, on the upper part of the base 7 of the window sill 6, the heat-insulating layer 9 and the surface layer 10 are successively fixed. polymer extrusion. It is possible that the channels 11 for air infiltration are made during the processing of the base 7 of the window sill 1 with stiffeners 8. After that, for example, through a renovator, a through hole 14 of the window sill 6 is cut out under the ventilation grille 15 with a throughput regulator 21 and a fan 16 so that so that the length of the ventilation grille 15 matches the length of the heating element 4 and the length of the holes 20 of the outlet part 13 of the channels 11 for air infiltration, as well as the exact position above the heating element 4. Next, the window sill 6 is fixed on the base 2 of the window opening 3, into the through hole 14 fix the grate 15 with the throughput regulator 21, optionally, thanks to the semicircular grooves for mounting the fan 28, the fan 16 is mounted, or the fan 16 can be mounted to the base 7 under the through hole 14 of the window sill 6. From the side of the inlet 12 channels 11 for air infiltration with external environment, a removable filter 17 is placed, on which and partially on the window sill 6, a window frame 5 with a warm window profile 18 and an outer slope 19 is installed. external slope 19 and behind which a warm window profile 18 can be located. For this, at the base 7 of the window sill 1, a protrusion 23 can be provided for the groove 24 of the removable filter, which is cut out in the protrusion 23 in place in accordance with the length and location of the ventilation grille 15 for installation of a removable filter 17. Moreover, in the protrusion 23, also additionally during installation, holes 20 of the outlet part 13 of channels 11 are drilled for air infiltration in place in accordance with the length and location of the groove 24. Air, through a removable filter 17 and channels 11 for infiltration, comes from external environment into the through hole 14 of the window sill 6 with a ventilation grill 15, where, due to convective flows, it mixes and heats up from the upper part of the heating element 4. In this case, additional draft of the air mass into the internal environment can be provided by the presence of a fan 16, and the air mass draft can be adjusted the presence of a regulator 21 of the air throughput, with the help of an adjusting roller 27 through the roller 25 of the adjusting damper 26 of the air, for the operation of which a longitudinal channel 22 can be additionally provided in the base 7 of the window sill 1.

This technical result is achieved due to the fact that the presence in the design of the window sill of the channels for infiltration of air from the external environment into the interior of the room provides a qualitative component of the microclimate of the ventilation of the premises from the direct mixing of fresh air. And the constructive arrangement of the through opening of the window sill, from where the possibility of fresh air entering through the openings of the channels for air infiltration, directly above the heating element, provides direct heating of fresh air without the formation of drafts.

Technical solutions coinciding with the totality of the essential features of the claimed invention have not been identified, which allows us to conclude that the claimed invention complies with such a patentability condition as "novelty".

The claimed essential features that predetermine the receipt of the specified technical result do not explicitly follow from the prior art, which allows us to conclude that the claimed invention complies with such a patentability condition as "inventive step".

Claims (14)

1. A window sill containing a window sill, consisting of a base and a heat-insulating layer with a surface layer, and the base of the window sill contains at least one channel for air infiltration, which has an inlet from the external environment and an outlet from the side of the internal environment, and in the window sill has a through hole in which at least one ventilation grill is located, characterized in that at least one fan is fixed to the base under the through hole of the window sill, and a removable filter is placed on the side of the inlet part of the channels for infiltration of air from the external environment, on which and partially on the window sill a warm window profile with an external slope is installed. 2. The window sill according to claim 1, characterized in that the length of the ventilation grille corresponds to the length of the section on which the channels for air infiltration are located. 3. The window sill according to claim 1, characterized in that the outlet part of the channel for air infiltration is located in the same plane as the hole in the base of the window sill. 4. The window sill according to claim 1, characterized in that the channels for air infiltration are made in the form of transverse holes or tubes of round, or diamond-shaped, or square, or rectangular, or triangular, or polygonal section, and the size of the holes or tubes is the same or different along the entire length of the base or locally. 5. The window sill according to claim 1, characterized in that the through hole of the window sill is made of round, or diamond-shaped, or square, or rectangular, or triangular, or polygonal section. 6. Sill according to claim 1, characterized in that the fan is made radial, or axial, or diagonal, or tangential, or bladeless. 7. The window sill according to claim 1, characterized in that the ventilation grill and/or the fan are made with an air throughput regulator, for installation of which a longitudinal channel is made in the base along the entire length. 8. Window sill according to claim 1, characterized in that the base is made with stiffeners. 9. The window sill according to claim 8, characterized in that the stiffeners of the base of the window sill in the cross section of the base are made round, or I-shaped, or N-shaped, or K-shaped, or Σ-shaped, or Ψ-shaped, or any combination of them. 10. The window sill according to claim 1, characterized in that the base is made with a protrusion for at least one groove of the removable filter, in front of which there is an outer slope from the outside and behind which there is a warm window profile. 11. The window sill according to claim 7, characterized in that the air throughput regulator is made in the form of a roller with an air control damper and an adjusting roller. 12. The window sill according to claim 1, characterized in that the ventilation grille is slotted with semicircular grooves and a frame for mounting the fan. 13. Window sill according to claim 1, characterized in that the base and the surface layer are produced by extrusion of polymers. 14. The window sill according to claim 1, characterized in that it contains penofol as a heat-insulating layer, and / or a basalt fiber-based insulation, and / or a mineral fiber-based insulation, and / or a fiberglass-based insulation, and / or cellulose heat-insulating cotton wool, and/or polystyrene concrete, and/or expanded vermiculite, and/or carbamide foam, and/or granulated foam glass, and/or polystyrene foam, and/or polyurethane foam, and/or phenolic foam, and/or any other foam and/or has air cavities obtained during the production of the window sill, and has a single design with the base structure.

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