RU2630208C1 - Natural ventilation system - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: method is performed by using a natural ventilation system, which contains air duct tubes, a casing having openings for installing the ends of the air duct tubes, a section with flaps, a filter section, a reach-through window section, a rail with a bar and a handle, a cover with an opening placed on a valve. The cover opening is located above the valve reach-through window section, the handle is located on the valve cover.

EFFECT: simplifing design of a natural ventilation system that can be installed when mounting a window and a radiator or after it, eliminating the condensation formation on the window panes, increasing the efficiency of supplying fresh and heated air into the room.

5 cl, 3 dwg

Description

The invention relates to natural ventilation systems of the premises, ensuring the flow of air from the external environment without opening the windows.

The installation of natural ventilation systems is an effective way of providing the premises with fresh air. In the cold season, heating of the incoming air is also relevant. Many well-known systems can only be installed if there is a space between the window sill and the radiator, and can also be installed only when installing a window opening, which limits the functionality of such systems, is time-consuming and inconvenient for cleaning and repair of component parts.

Known natural ventilation system of the room (RU 222344, 02/10/2004), containing a filter on the outside of the window, located under the inclined drain panel, a transverse channel passing under the window opening and passing into the longitudinal channel along the windowsill, having outlet openings from the ends, in which the rotary flaps are installed, while the window sill with the longitudinal channel of the system is located above the radiator.

The air coming from outside passes through the filter, transverse and longitudinal channels, then through the outlet openings located at the end of the window sill, it is heated from the radiator and spreads throughout the room. However, in this case, the filter is located on the outside of the window and is built into the design of the window sill, which leads to its gradual clogging during operation and the exclusion of the possibility of cleaning, which ultimately reduces the efficiency of supplying fresh air to the room. The presence of outlet openings only from the ends of the longitudinal channel and the windowsill makes it necessary to use a radiator having a length not less than the length of the window sill or two radiators located directly under the outlet openings, which leads to the need to install a ventilation system directly when installing the window opening and the radiator, which is not always It is convenient and cost effective. At high speeds of the air flow of air entering the room from the end openings, its heating may be insufficient, which also indicates a low efficiency of the system. In addition, the system does not have sound absorbing elements, which can cause auditory discomfort during strong gusts of wind.

A forced ventilation device is known (RU 150829, February 27, 2015), comprising a fan on the outside of the window under an inclined drain panel, an air duct located under the window sill, a filter and an LED installed in the outlet of the air duct above the radiator.

Depending on weather conditions (winter time, strong gusts of wind, etc.), malfunctions may occur in the operation of the fan installed at the inlet of the duct, which reduces the volume of incoming air and the efficiency of its supply to the room. The part of the window sill located above the outlet of the duct is closed, which leads to the fact that the air from the outlet is heated from the radiator and at the same time partially heats the window sill, which leads to heat dissipation and also reduces the efficiency of supplying fresh heated air to the room. In addition, closing the radiator with a windowsill leads to the formation of condensation on the window panes and further mold, which reduces the service life of the window opening. Moreover, the device does not have noise absorbing elements, which leads to auditory discomfort.

The known ventilation valve (RU 2523224, 07/20/2014), adopted as the closest analogue to the claimed solution, is made in the form of a box recessed in the window sill, enveloping the window frame both outside and inside the room containing the air duct, filter and intake grille from the outside of the window, a shutter with folding parts for adjusting the speed of the incoming air, a pressure bar, a handle for adjusting the position of the shutter, lining made of noise-absorbing material, a cover.

Installation of the specified valve is possible both when installing the window opening, and already on the installed window, which increases convenience and economic efficiency. However, a partial arrangement of the valve outside and inside the room leads to different temperature effects on the valve elements, which contributes to the formation of condensate both on the valve structure itself and in the area of the window opening where it is installed, which ultimately reduces the service life. At subzero temperatures, the condensate that forms freezes and creates additional obstacles to air intake. The design of the valve in order to reduce noise has many angles and is complex in general, which leads to a decrease in the velocity of the incoming air, which before entering the room requires the passage of a large number of obstacles. The location of the filter on the outside of the window leads to its gradual clogging, which also reduces the efficiency of fresh air supply from the outside. For the valve to work effectively, it is necessary to have a forced exhaust duct (electric fan), otherwise, the valve considered does not work well and does not fulfill its function of providing the room with enough fresh air. Moreover, this design does not have a specific principle of heating the incoming air and is more suitable for use in areas with the same temperature conditions during the year, which limits its use.

The objective of the invention is to create a simple design of the natural ventilation system, which can be installed during installation of the window opening and the radiator or after it, as well as the elimination of condensation on the window panes.

The technical result of the invention is to increase the efficiency of supplying fresh and heated air to the room.

The technical result is achieved using a natural ventilation system containing ducts, a valve box having holes for installing the ends of the ducts, a compartment with dampers, a compartment with a filter, a compartment with a through window, a rail with a bar and a handle-adjuster, a cover with a hole that can be installed on the valve, while the opening of the cover is located above the compartment with the through-window of the valve, the control knob is located on the valve cover.

Reticulated foam rubber (polyurethane foam) can be used as a filter.

The dampers are made with bent edges to limit the flow rate of the incoming air.

The inner surface of the shutter with curved edges can also be covered with a layer of reticulated foam.

Duct ducts and the inner surface of the valve box are coated with thermal paint to protect system components from condensation as well as noise absorption.

The compartment into which the filter is installed has four through holes facing the radiator for primary heating of cold air passing through the filter towards the compartment with a through window.

The implementation of the natural ventilation system in the form of duct pipes and a valve box having adjustable flaps and a cover allows you to supply air from the outside and adjust its flow rate directly into the room. The execution of the valve in the form of a box with compartments and a removable cover allows you to install a ventilation system both during installation of the window opening and after it. In this case, the valve cover can be removed and, if necessary, clean the compartments and the filter, which increases the efficiency of fresh air supply during operation of the system. The presence of a compartment with a through hole in the valve and a cover with an opening located above the valve opening allows the valve to be installed in such a way that the incoming fresh air flow from the outside is connected to the upward air flow rising from the radiator, thereby effectively providing the room with fresh and heated air . In this case, heated air enters the window pane, thereby eliminating the formation of condensation and mold.

In FIG. 1 shows a valve box with duct tubes installed in it; FIG. 2 is a top view of the valve cover with the shutter-regulator knob installed, FIG. 3 is a side view of a window opening with a natural ventilation system installed.

The natural ventilation system contains duct 1 pipes, a duct 2 having openings 3 for installing the ends of duct 1 tubes, a compartment with shutters 4, a compartment with a filter 5, a compartment with a through window 6, a rail with a strap 7 and a control knob 8, a cover 9 with the hole 10 mounted on the valve, while the hole 10 of the cover 9 is located above the compartment with the through-hole window 6 of the valve, the control knob 8 is located on the cover 9 of the valve. Also, the filter compartment 5 has four through holes (not shown) facing the radiator 11.

The natural ventilation system is installed as follows. Duct duct 1 is installed through the window sill to ensure the flow of air from the outside. For their installation in the wall, holes are drilled, preferably under the ebb of the window sill, in which by standards there is a gap of 8 mm. In this case, the duct 1 pipes are installed with an inclined outward to prevent moisture from entering. A valve box 2 is built into the window sill from above, into the holes 3 of which the ends of the duct 1 tubes are installed. The bent edges of the shutters 4 are directed towards the ends of the duct 1 tubes to limit the speed of the incoming air. In the compartment for the filter 5 of the valve, you can install reticulated foam rubber, which has an increased ability to filter (http://porolon-ppu.ru/). The compartment with the filter 5 can have four through holes with tubes located in them for primary heating of cold air passing through the filter towards the compartment with the through window 6 and to increase the efficiency of the system (Fig. 1). The compartment with the through window 6 is located above the radiator 11 (Fig. 3). Next, the valve from above is closed (latched) by a cover 9 having a hole located above the through hole 6 of the valve. In this case, the control knob 8, connected with the strap 7 on the rail located in front of the shutters 4, is displayed on the valve cover 9 (Fig. 2). Duct duct 1 and the inner surface of the valve box 2 are covered with thermal paint to prevent condensation due to a sharp temperature drop inside the valve and the room, while the used thermal paint is able to absorb noise (http://www.nano34.ru). That is, in the claimed solution for noise reduction, no additional structural elements are used, which also increases the reliability of the system.

Due to the pressure difference, the air from the outside enters the duct 1, it enters the shutter 4 with bent edges that regulate its further speed. In this case, due to the inner coating of the shutters 4 with a layer of reticulated foam rubber, its “rough” filtration occurs. Then, air passes through the main layer of the filter from reticulated foam rubber and enters the cleaned valve compartment with the through-hole 6. At this time, warm air from the radiator 11 naturally rises upward and enters the specified through-hole 6 of the valve, where it meets the cleaned air from the outside. After mixing, a stream of warm fresh air enters the opening of the valve cover 9 and then into the room. The presence of rails with a strap 7 and a knob-regulator 8 allows you to adjust the power of the incoming air flow due to the partial or complete overlap of the bar with shutters 4 with bent edges. At the same time, the bar is installed in ball bearings, which ensures its smooth running on the rail and ease of regulation and use.

The location of the valve compartment with a through window above the radiator provides the most efficient heating of the incoming air, which is an advantage of the claimed system.

Using this design allows you to provide access to fresh heated air into the room without violating the rules - the radiator is not blocked by the windowsill, which in turn eliminates the possibility of condensation and mold and extends the life of the window opening.

The inventive natural ventilation system is installed in the design of the windowsill both during installation of the window opening and after it, which is a convenient and economical solution.

At the same time, due to the implementation of the main system unit in the form of a ready-made valve with compartments, the installation complexity is significantly reduced, and the system as a whole is simple and reliable in operation.

Also, the system can be quickly disassembled if it is necessary to clean or replace its components, which ensures ease of use and increases efficiency. Also, the dimensions of the valve box and other components of the system can be made taking into account the dimensions of the window opening.

Claims (5)

1. The natural ventilation system, characterized in that it contains duct pipes, a valve box having holes for installing the ends of the duct pipes, a compartment with dampers, a compartment with a filter, a compartment with a through window, a rail with a bar and a handle-adjuster, a cover with a hole, mounted on the valve, while the hole of the cover is located above the compartment with the through window of the valve, the regulator handle is located on the valve cover. 2. The natural ventilation system according to claim 1, characterized in that reticulated foam rubber can be used as a filter. 3. The natural ventilation system according to claim 1, characterized in that the shutters are made with bent edges. 4. The system of natural ventilation for PP. 1, 3, characterized in that the inner surface of the shutters is covered with a layer of reticulated foam. 5. The system of natural ventilation for PP. 1, 3, characterized in that the duct pipe and the inner surface of the valve box are coated with thermo paint.

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