RU178462U1 - SUPPLY VENTILATION VALVE - Google Patents

Abstract

The utility model relates to ventilation devices designed for comfortable ventilation of rooms with insufficient air flow and can be used in closed residential, administrative, public, warehouse, industrial and other premises. The supply ventilation valve contains an air duct made of heat-insulating material, with a body located at one of its ends and coaxially mounted on its outer side with the possibility of rotation of the air flow regulator, made with a window on the side surface, while the body is made with slots and a channel placed on the sides air duct from the inside with the possibility of combining it with the regulator window when turning the regulator to control the amount of air flow. The utility model improves the performance of the supply ventilation valve.

Description

The utility model relates to ventilation devices designed for comfortable ventilation of rooms with insufficient air flow and can be used in closed residential, administrative, public, warehouse, industrial and other premises.

The following solutions are known in the art.

So, from the description of the patent of the Russian Federation 66488 (published on September 10, 2007), an air supply valve is known comprising a plastic pipe with a cylindrical through channel configured to be installed in the wall of the room, an air-purifying filter and a heat and noise insulating insert that are located in the specified plastic pipe.

A disadvantage of the known valve is the inability to control the air flow entering the room, which causes certain inconvenience, due, in particular, to individual needs, weather changes, for example, changes in wind speed, and / or temperature changes in the environment, causing pressure drops, with increasing which increases the volume of air flow entering the room.

Also known from the prior art is a supply and ventilation device (RF 2194222, published December 10, 2002), comprising a housing made of airtight heat-insulating material embedded in the building envelope, a protective facade grill, a porous insulation located in the housing to provide heat and noise insulation and partial cleaning air flow from dust, as well as retaining strips and an adjustable ventilation grill, which allows you to adjust the air flow entering the room, or completely stop to swell the flow of air.

The disadvantage of this technical solution is the lack of the ability to uniformly and precisely control the air flow, the inability to clean all dust from the air flow, the volume of intake, into the room of which is controlled using the above stop bars and an adjustable ventilation grill.

In addition, the supply air ventilation device is known from the prior art (RF 80923, published February 27, 2009), comprising a supply ventilation channel located in the wall, an external ventilation grill, a silencer located in the specified channel, an air cleaning filter, and also a valve, an electric actuator moving a valve, an automatic control system that generates control signals for an electric drive, which allows you to adjust the amount of air flow entering the room, or completely stop its flow.

Also known from the prior art is a fresh air ventilation device (RF 75717 U1, 08/20/2008) containing an air intake pipe installed in the through hole of the wall, an external intake protection grill, a noise absorber installed outside the pipe, and an adjustable (rotary) shutter for adjusting the air flow volume entering the room, and the complete cessation of its influx, and an air-cleaning filter located outside the specified pipe.

The disadvantages of these technical solutions is the formation of condensation on the ventilation device, which can freeze in cold weather and / or cause additional noise in windy weather, and it is not possible to uniformly and accurately control the air flow

For the closest analogue to the patented solution, a ventilation device containing an air duct made with the possibility of installing in a through channel formed in the wall of the room, a protective grill made with the possibility of installation at one of the ends of the specified channel, an air flow regulator made with the possibility of installation on the end of the through channel from the side of the specified room and containing an adjustable flow restrictor, a removable air-cleaning filter and a heat and noise insulating insert made possibility of installing in a duct, wherein the air flow regulator further comprises a position indicator adjustable flow restrictor, and air cleaning filter located in the air flow regulator (RF 136 541, published 17.01.2012).

The disadvantages of the closest analogue are uncomfortable indoor air exchange for the following reasons. An air duct in the form of a rigid pipe facilitates the penetration of additional noise into the room and the formation of condensation on the walls; this duct is difficult to mount due to the need to seal the gap between the pipe and the hole in the wall. Uncomfortable for users the distribution of incoming air flows. The incoming air flow in a known solution moves along the duct through the air filter and the perforated openings of the lid towards the center of the room, which is not comfortable in the cold season, because the air does not have time to heat up. Side windows for air supply in the direction along the walls for heating from heating appliances do not work efficiently, since air enters the room along the path of least resistance - in this case, through the minimum thickness of the air filter in the area opposite the duct opening. In order for air to get into the side windows, it needs to pass a thickness of the filter material, which is many times greater than the minimum thickness of this material, and therefore the side windows of the air distribution are inefficient. Another disadvantage of the device described above is the design of the air flow regulator, made in the form of a flat plate mounted on an axis located below the duct according to the scheme of an inverted pendulum, which does not provide the ability to uniformly and accurately control the air flow. When the regulator is turned a certain angle, the cross-sectional area of the duct changes disproportionately to the angle of rotation, which leads to uneven adjustment and incorrect readings of the opening indicator. It is also difficult to adjust the flow due to the design of the flat damper with its axis of rotation located below. In the case of free rotation on the axis located at the bottom of the duct, the damper made according to the inverted pendulum scheme will, due to its instability, fall to the right or left of the axis, eliminating the possibility of smooth flow control. In addition, due to the lack of pressure of the flap against the duct, the flap will be leaky in the closed position. If the flat shutter is pressed to the duct channel, for example, with an air filter, the requirements for accuracy of parts and installation increase significantly, which leads, even with slight distortions or size deviations, for example, due to an uneven wall, to jamming of the whole mechanism, which is aggravated by an additional rope drive, prone to tangling, through openings in the housing.

The technical problem of the claimed utility model is the creation of a supply ventilation valve with improved operating characteristics, in particular, more uniform and accurate control of the incoming air flow, increasing the degree of protection against external influences, noise, wind and condensate.

The technical result achieved by the implementation of this utility model is to increase the operational characteristics of the supply ventilation valve.

The specified technical result is achieved due to the supply ventilation valve, which contains an air duct made of heat-insulating material, with a housing located at one of its ends and coaxially mounted on its outer side with the possibility of rotation of the air flow regulator made with a window on the side surface, while the housing is made with slots placed on the sides and an air duct on the inside with the possibility of combining it with the regulator window when turning the regulator to ulirovaniya magnitude of airflow.

Thanks to the implementation of the duct of the supply ventilation valve from heat-insulating material, noise and the probability of condensation are reduced. In addition, installation is simplified, since the need for additional sealing of the gap between the duct and the hole in the wall is eliminated.

The case mounted on one end of the duct is made with slots located on the sides, which allows directing the flow of cold fresh air to the sides, where, under the action of convection forces, cold air flows down the wall, mainly into the zone of heating devices, while maintaining a comfortable temperature in the center premises.

Due to the implementation of the air flow regulator with a window on the side surface and coaxially mounted in the housing, on its outer side, with the possibility of rotation, execution on the inner side of the duct-duct housing with the possibility of combining it with the regulator window when turning the regulator to control the air flow more accurate and smooth regulation of the degree of openness, since the change in the flow area is proportional to the angle of rotation of the regulator, while the readings and cators opening correspond to the actual change in the duct.

In addition, due to the implementation of the housing with slots located on the sides and the duct of the duct provides protection from external influences, noise and wind.

In particular, the air flow regulator is made in the form of a cylinder with a closed outer end, or a truncated cone, or sphere, while a heat and noise insulating insert can be placed in the air flow regulator to increase the noise absorption and heat insulation characteristics of the device.

In particular, the supply ventilation valve is equipped with a protective box at the end of the duct external to the room, while the duct is made with walls forming a labyrinth channel, which provides additional noise reduction, protection from wind and insects. In the protective box, a heat-absorbing pad can be installed opposite the air duct, which improves the sound-absorbing and heat-insulating characteristics of the device.

The supply ventilation valve can be equipped with a windproof valve.

The supply ventilation valve can be equipped with a freshener and / or air fragrance to increase indoor comfort during ventilation and installed in the housing or duct.

Symbols indicating the amount of air flow can be made on the housing. Symbols can be made in the form of numbers or other signs, for example, a series of circles with increasing diameter.

The supply ventilation valve can be equipped with a frame with a mosquito net fixed in it or an air filter to protect against penetration of insects, lint and coarse dust, while the frame is easily removable with a handle for dismantling, which makes it easy to dismantle and clean the air duct and the mesh or filter, supporting thus comfortable air exchange in the room.

In particular, the air duct is made of foam rubber, which in addition to heat-insulating properties has good elasticity, which allows, when installing such a pipe in the hole, to achieve the necessary tightness for comfortable ventilation in the area where the foam fits to the walls.

According to one implementation example, the utility model is illustrated by drawings.

In FIG. 1 is a perspective view of an inlet ventilation valve with a cut in isometric view.

In FIG. 2 - the internal device of the supply ventilation valve.

In FIG. 3 - the internal structure of the regulator and the regulator body.

In FIG. 4 - the principle of operation of the regulator from the inside of the regulator case and the interaction of the regulator windows with the ducts of the regulator in the open (a), closed (b), and partially open (c) positions.

According to the figures of the claimed utility model, the supply ventilation valve consists of an air duct 5, on both sides of which flanges 4 and 6 are mounted. An outer protective box 7 is installed on one end of the supply ventilation valve, and on the other is the housing 1 with slots 14 located on the sides.

In the present embodiment, the duct 5 of the ventilation device has a circular cross section and is made in the form of an elastic pipe made of heat and noise insulation material, the length of which corresponds to the width of the wall structure. An air duct 5 made of heat-insulating material simultaneously with the air supply performs the functions of reducing external noise by damping sound waves, preventing the passage of cold air flow through it to the inner surface of the wall structure, and also to prevent the formation of condensation on the ventilation device during cold weather, which can freeze and / or cause additional noise in windy weather, and in addition, reduce the duct cross section, in addition, heat and noise insulation Container material duct reduces heat losses in the device. The duct 5 is inserted directly into the hole in the wall having a diameter smaller than the outer pipe of the duct 5, due to this, as well as the elasticity and resilience of the pipe, a snug fit of the duct pipe to the inner surface of the hole in the wall is achieved. If necessary, the pipe can be additionally glued to the hole in the wall.

In a preferred embodiment of the present utility model, the inner diameter of the hole in the wall may be from 79 to 83 mm, and the outer diameter of the elastic pipe of the duct 5 corresponds to the standard size of the 83 mm diameter foam pipe widely used in construction and plumbing.

Flanges 4 and 6 contain tubular elements with an external herringbone-type notch and are configured to be installed at both ends of the duct 5. The outer flange 6 is mounted on the outside (street) side and is mounted in the duct 5 by introducing the tubular part of the duct having on the outside, a herringbone-type profile that holds the flange 6 inside the duct pipe 5. The outer flange 6 can additionally be attached to the wall using dowels, screws and adhesives, and the flange can also be glued to the pipe oven 6. An external protective box 7 is attached to the flange 6, having side air intakes 16 with grilles and additional internal walls 10, which form labyrinth channels for air supply assembled with the flange 6, due to which additional protection against rainfall, birds, fluff and other harmful factors. On the inner side of the outer protective box 7, opposite the duct channel, a heat-insulating moisture-proof pad 8 is glued, further enhancing the noise reduction and thermal insulation in the device. The protective box 7 simultaneously performs the function of a protective visor against atmospheric precipitation. On the inside, in the room, in the duct 5, similarly to the outer flange 6, the inner flange 4 is attached.

In the present embodiment of the utility model, the airflow regulator 2 is rotatably fixed in the housing 1, on its outer side. The air flow regulator 2 is made in the form of a cylinder with a closed outer end, or a truncated cone, or sphere. A window 11 is made on the side surface of the regulator. The axis of rotation of the air flow regulator 2 coincides with the axis of the air duct 5 and the inner flange 4. A heat and sound insulating pad 9 can be placed in the air flow regulator 2. The housing 1 is made with slots 14 located on the sides (holes with gratings) for the passage of air flow into the room. On the inner side of the housing 1, partitions 12 are formed with the formation of the duct-duct 20, through which the air flow from the duct 5 enters the slots 14 and which are necessary to regulate the air flow by combining it fully or partially with the window 11 of the air flow regulator 2, as well as direction of air flow to the most comfortable areas - along the walls - in the sides to the heating appliances. In particular, the housing 1 can be made with partitions forming two air ducts 20, and the air flow regulator 2 can be made with two windows 11 symmetrically located relative to the axis of rotation of said regulator 2 for alignment with the air ducts 20. A strictly defined angle the rotation of knob 2 is necessary to clearly set the positions “open” and / or “closed”. In particular, in the “closed” position, the air ducts 20 of the housing 1, as shown in figure 4, are blocked by the walls (side surface) of the air flow regulator 2. The air flow regulator 2 with window 11 has a blind wall on the opposite side of the duct with a handle for it turning and indicating its position. On the inner side of the air flow regulator 2, opposite the air duct 5, a heat-insulating pad 9 is glued, which reflects and distributes the air flow to the sides, while simultaneously enhancing the noise reduction and thermal insulation of the device, as well as partially delaying the dust from the incoming stream. On the housing 1 in the zone of rotation of the air flow regulator 2, symbols are displayed showing its extreme and intermediate positions.

The seal between the walls of the air flow regulator 2 and the inner fixed flange 4 is made of the labyrinth type, in which the ends of the walls of the air flow regulator 2, for example, in the form of cylinder segments move inside the groove located on the end surface of the inner flange 4. Inside the tubular part of the flange 4 is mounted easily removable filter element 3, consisting of a round frame 19 with a handle for mounting-dismounting, filter element 18, made in the form of a protective mesh for natural ventilation or air th filter for forced ventilation, as well as a retaining ring 17, which holds the filter element on the frame 19 with a handle. At the ends of the tubular parts of the outer 6 and inner 4 flanges, on the side of the duct pipe 5, additional flanges 15 are made, directed towards the axis of the duct pipe 5. In addition, an additional grill 13 is made on the outer flange 6 in the side region, perpendicular to the axis of the duct 5. The purpose of the side of the tubular part of the outer flange 6 is to prevent water from forming from the ingress of precipitation and condensate into the air duct, as well as additional noise reduction. The purpose of the grill 13 in the area of the sides of the flange 6 is the possibility of mounting a wind valve and restricting the movement of its lobe elements. The purpose of the side of the tubular part of the inner flange 4 is the restriction and fixation from moving the filter element 3, as well as noise reduction.

The supply ventilation valve can be equipped with a windproof valve (not shown in the figures), which is two spring-loaded semicircles in the form of butterfly wings facing the air flow and having the ability to move under the influence of a significant flow in one plane with the subsequent closure of the internal channel and reducing the flow rate, air entering the room to comfortable values and excluding drafts with strong gusts of wind outside the room.

The proposed design of the supply ventilation valve can be installed in the wall structure of the building under construction. At the stage of construction of the wall structures of the premises, the supply ventilation valve is laid in the wall. In the proposed example of the implementation of this utility model, the device is located mainly in the area above the heating devices, including under the window sills. When installing the device over heating devices, by enhancing the effect of convection, the device works more efficiently, and the room temperature is maintained at a more comfortable level. This device is easy to install, convenient to use and maintain, has an aesthetic appearance.

This utility model is an independent supply ventilation device - a valve designed for comfortable air exchange in rooms with insufficient air flow. An influx of fresh air is formed due to the pressure difference between the outer and inner sides of the ventilated room. When using the proposed ventilation valve, the air flow from the outside of the wall structure of the ventilated room through the protective side air intakes 16 with the grilles of the outer protective box 7, flowing around the soundproofing pad 8, enters the labyrinth channel formed by the partitions 10 of the outer protective duct 7 and the outer flange 6, then the air through the side 15 and the lattice 13 of the tubular part of the flange 6 enters the duct 5 made of heat and noise insulation material, and then passes through the filter the connecting element 3 to the regulator 2, where reflected from the heat-insulating lining 9 enters through the window 11 or the window 11 of the air flow regulator 2 into the duct-duct 20 or ducts-air ducts 20 of the housing of the regulator 1, and then along the surface of the walls it enters a ventilated room, where due to the effect of convection, it sinks mainly into the zone of heating devices. Opening, closing and adjusting the flow of incoming air is carried out by turning the air flow regulator 2 by the handle made on its part external to the premises. The control of the opening value of the air flow regulator 2 is carried out visually according to the symbols on the body of the regulator 1, in the direction of which the pointer handle of the regulator 2 is turned.

In the proposed example of the implementation of this utility model, the supply ventilation valve provides comfortable air exchange in the room, the value of which depends on a number of factors: pressure drop between the external and internal parts of the wall structure, wind speed, the presence of a windproof valve, etc. The necessary comfortable amount of incoming air is provided by precise adjustment air flow with a regulator.

Maintenance of the ventilation device is reduced to removing and cleaning the protective mesh or filter element using conventional detergents and cleaning the air duct with a vacuum cleaner. If necessary, the filter element is replaced with a new one.

The proposed ventilation device is used mainly in natural ventilation systems, it is also possible to use it in forced ventilation systems.

The proposed utility model is not limited to the above description and illustrations, various modifications of the described product as a whole, as well as its individual parts and elements, are possible without going beyond the description of the present utility model.

Thus, the presented utility model has improved operational and functional characteristics, in particular, more uniform and accurate control of the incoming air flow, increasing the degree of protection against external influences, noise and wind, precipitation, condensation, insects, birds, flying debris and dust, provides comfortable work, compactness, reliability, ease of installation and use.

Claims (12)

1. The supply ventilation valve, characterized in that it contains a duct made of heat-insulating material, with a housing located at one of its ends and coaxially mounted on its outer side with the possibility of rotation of the air flow regulator made with a window on the side surface, while the housing is made with slots placed on the sides and an air duct on the inside with the possibility of combining it with the regulator window when turning the regulator to regulate the amount of air sweat ok. 2. The valve according to claim 1, characterized in that it contains a protective box at the external end of the duct relative to the room, while the duct is made with walls forming a labyrinth channel. 3. The valve according to claim 2, characterized in that a heat-absorbing pad is installed in the protective box opposite the duct. 4. The valve according to claim 1, characterized in that it is equipped with a freshener and / or air fragrance. 5. The valve according to claim 1, characterized in that the symbols are made on the body indicating the magnitude of the air flow. 6. The valve according to claim 1, characterized in that it is equipped with a frame with a mosquito net or an air filter fixed in it. 7. The valve according to claim 1, characterized in that it is equipped with a windproof valve. 8. The valve according to claim 1, characterized in that the duct is made of foam rubber. 9. The valve according to claim 1, characterized in that the air flow regulator is made in the form of a cylinder with a closed outer end, or a truncated cone, or sphere. 10. The valve according to claim 1, characterized in that a heat and noise insulating insert is placed in the air flow regulator. 11. The valve according to claim 1, characterized in that the air flow regulator is made with two windows. 12. The valve according to claim 11, characterized in that the housing contains partitions located on the inside, forming two duct channels with the possibility of combining them with the windows of the air flow regulator.

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