RU206597U1 - VENTILATION VALVE FOR WINDOW UNITS - Google Patents

Abstract

The utility model relates to ventilation devices used for air exchange between the outdoor atmosphere and the internal premises of industrial or residential buildings, and can be built into window blocks to provide natural ventilation of closed rooms without opening the sash of the window block. The ventilation valve for window blocks contains a base 1, a pozunit 2, a rotary damper 3 and a housing 4 open on one side with a side wall 5 and an upper surface 6. The damper 3 is made with a profile formed by a flat shelf 7 having bent segments 8 located on both sides of the middle section, the middle section has a bar 17 for interaction with the slider 2, installed with the possibility of translational movement to act on the shutter 3. The shutter 3, equipped with an integral axis 9 installed in the recesses 10 of the housing 4, while the axis 9 of the shutter 3 is made of circular cross-section along its entire length and is installed in longitudinal recesses 10 made in the inner rib 11 of the housing 4. The base 1 is mated with the housing 4 with latches along the periphery to form air inlet and outlet cavities separated by the damper 3. The slider 2 is provided on one side with two lateral protrusions 12 with smoothly curved sections of the gripping of the ribs of the flat shelf 7 of the shutter 3 between the bent segments 8 of the latter for its rotation on the axis 9 with the translational movement of the slider 2. The body 4 is made with fastening holes 13, 14 on both sides ... The air inlet channels 15 are formed on the upper surface 6 of the housing 4, and the air outlet channels 16 are formed by the side wall 5 of the housing 4 and the base 1. The housing 4 and the slider 2 are provided with guiding ribs for assembling the valve. The valve is equipped with a filtering device made with two removable filters 20 installed on the base 1 on both sides of the slider 2. Slots are made between the lateral protrusions 12 of the slider 2 to ensure their elasticity when interacting with the bar 17 of the shutter 3. The slider 2 is equipped with a handle 21. Technical solutions expands the arsenal of ventilation devices for air exchange between the atmosphere and the interior by creating an alternative design with high reliability and ease of use. At the same time, the noise from the air passage is reduced, the maintainability is increased, and the operation is simplified. 6 c.p. f-ly, 15 ill.

Description

The utility model relates to ventilation devices used for air exchange between the external atmosphere and the internal premises of industrial or residential buildings, and can be built into window blocks to provide natural ventilation of closed rooms without opening the sashes of the window block. The constantly increasing volume of high-rise construction and the production of appropriate window blocks requires an expansion of the arsenal of technical means intended for ventilation of closed premises for various purposes while maintaining comfort and safety.

Known ventilation valve for supply ventilation, which includes a hollow body and placed in it a movable means for regulating the air flow, while the hollow valve body contains upper and lower flat bases, interconnected by end walls and a rear side wall, and the front side of the body is made open , and a longitudinal slot is made on the rear side wall of the housing, the upper and lower flat bases of the housing are made with longitudinal grooves along the entire length of the bases from the front side of the housing, and the means for regulating the air flow is made in the form of a movable bar provided on the lateral side with a handle, which is made with the ability to be inserted into a longitudinal slot on the rear side wall of the housing.

The valve is designed to be installed on the sash of the window block inside the room, for attachment to the sash of the window block, the lower base of the ventilation valve body is equipped with mounting protrusions with flanges on which holes for fastening are made, the body from the side adjacent to the window block is equipped with a self-adhesive seal located along the sample along the entire length of the body. The handle of the movable bar is a latch handle, one of the surfaces of the bar in contact with the body is equipped with anti-friction projections, the second surface of the bar in contact with the body is also equipped with anti-friction projections made in the transverse direction, the anti-friction projections on the surface of the bar are evenly distributed and made in the transverse direction. The bar is provided with a stiffening means, which includes at least one stiffening rib protruding above the surface of the bar, the bar is provided with a guiding protrusion, and the body on the counter flat surface is provided with a groove corresponding to the protrusion. The handle is provided with marks to determine the degree of valve opening (RU 202122, prototype).

The disadvantages of this technical solution are the complexity and laboriousness of assembling the air flow control unit, significant friction on a large surface of translational movement, the possibility of skewing, jamming, breakage in the area of the protrusions of the translational damper.

Known ventilation valve of the supply ventilation device for window blocks made of polymeric materials, is configured to be installed from the inside on the sash of the window block and includes a hollow body containing upper and lower flat bases with longitudinal recesses, as well as two end walls and a rear side wall ... In the cavity of the body there is a movable unit for regulating the air flow, which includes a movable bar and a driven flap, adjacent to each other with flat surfaces. The damper on the adjacent flat surface is provided with projections, and the bar on the mating flat surface is made with inclined guide grooves, and the transverse dimension and height of the damper projections correspond to the width and depth of the grooves of the bar (RU 181244).

The disadvantages of this technical solution are the complexity and laboriousness of assembling the air flow control unit, the possibility of skewing, high friction between the flat moving parts of the device, the possibility of skewing and jamming of the translational damper.

A known supply ventilation device for window blocks made of polymeric materials contains a ventilation valve with a shut-off element (flap) of a rotary principle of operation, fixed in the housing with the possibility of movement (rotation) around its axis, the degree of opening of which depends on the speed of the passing air flow. The valve is installed on the frame of the window unit in the cavity between the frame and the sash of the window unit. This device uses a filter for cleaning the incoming air, which can be made, in particular, of foam rubber or a similar material. The filter can be both removable and non-removable (RU 32866, 2003, prototype).

The disadvantage of such an outdated technical solution is the inability to regulate the opening / closing of the ventilation duct by the user and the noise of operation when the air passes through, which reduces the operational properties of the unit as a whole. In addition, there is a high likelihood of vibration and jamming of the damper in case of sharp gusts of wind, which reduces the reliability of this device during operation.

The technical problem to be solved by the present technical solution consists in expanding the arsenal and increasing the efficiency of technical means, namely, supply ventilation devices for window units.

The technical result achieved through the use of the claimed technical solution consists in the implementation of the expansion of the arsenal of these means by creating an alternative design with high reliability and ease of use. At the same time, noise reduction from the air passage is achieved, an increase in maintainability due to access to moving parts from inside the room, as well as an easier opening / closing of the valve by the user.

The essence of the utility model lies in the fact that the ventilation valve for window blocks contains a housing with a side wall and an upper surface in which channels for air passage are made, as well as a rotary damper located in the housing, equipped with an integral axis mounted on supports in the recesses housing, while the housing is equipped with a base mated with the housing along the periphery to form the air inlet and outlet cavities separated by the specified damper, and is equipped with a slider installed with the possibility of translational movement and kinematically connected with the damper with the possibility of its rotation, and the damper axis is made of circular cross-section along its entire length and is installed in longitudinal recesses made in the body.

Preferably, the shutter is shaped with a profile formed by a flat shelf having bent segments on both sides of the interaction area with the slider, which is provided with protrusions with curved portions of gripping the ribs of the flat plate of the shutter between the bent segments of the latter for its rotation on the axis during the translational movement of the slider.

Preferably, the air inlet channels are formed in the side walls of the housing, and the outlet channels are formed by the bottom of the housing and the base.

Preferably, the base and body are made of polymeric material and are provided with guides located to form a gap for the movement of the slider.

Preferably, the valve is provided with a filtering device made with two removable filters mounted on the base on either side of the slider.

Preferably, slots are made between the projections of the slider to ensure their elasticity when interacting with the cylindrical pivot axis of the shutter.

Preferably, the slider is provided with a handle.

In the drawing, Fig. 1 shows a general view of the ventilation valve for window blocks, Fig. 2 - details of the sea otter in bulk from both sides, Fig. 3 is a front view of the valve, Fig. 4 is a section B-B in Fig. 3, and Fig. ... 5 - section A-A in Fig. 3, in Fig. 6 - front view of the body, in Fig. 7 - section C-C in Fig. 6, in Fig. 8 - full profile (working part) of the damper, in Fig. 9 shows the profile of the shutter of the flat shelf of the shutter between the bent sections, FIG. 10 is a slider, Fig. 11 is a view of a valve with filters installed in three projections, Fig. 12 is an operation of installing a base on a housing with a slider and a damper, Fig. 13 is a section A-A in Fig. 12, Fig. 14 - section B-B according to Fig. 12, Fig. 15 is a diagram of the passage of air into the room when the valve is open.

The ventilation valve for window blocks contains a base 1, a position 2, a rotary damper 3 and a housing 4 open on one side with a side wall 5 and an upper surface (wall) 6.

The damper 3 is made with a profile formed by a flat shelf 7, having bent segments 8 located on both sides of its middle section, the middle section has a bar 17 for interacting with the slider 2. The slider 2 is kinematically connected to the damper 3 and is installed with the possibility of translational movement for action to the flap 3, located in the body along the side wall 5.

The damper 3, equipped with an integral axis 9 installed in the recesses 10 of the housing 4, while the axis 9 of the damper 3 is made of circular cross-section along its entire length and installed in the longitudinal recesses 10 made in the inner rib 11 of the housing 4.

The base 1 is mated with the housing 4 by latches (not indicated) along the periphery of the wall 5 to form the air inlet and outlet cavities separated by the damper 3.

The slider 2 is equipped on one side with two lateral protrusions 12 that act as spring elements, with smoothly curved sections (grooves) for gripping the ribs of the bar (shelf) 17 of the shutter 3 between the bent segments 8 of the latter for its rotation on the axis 9 with the translational movement of the slider 2.

The body 4 is made with fastening holes 13, 14 on both sides.

The channels 15 for air inlet into the valve cavity are made on the upper surface 6 of the housing 4, and the channels 16 for air discharge into the room from the valve outlet cavity are formed by the side wall 5 of the housing 4 and the base 1.

The base 1 and the body 4 are provided with trapezoidal flat guides 18, 19 protruding towards the air outlet, arranged in parallel with the formation of a gap for moving the slider 2.

Valve parts are made of polymer material designed for operation of the product at temperatures from -40 to + 60 ° C, resistant to ultraviolet radiation.

The body 4 and the slider 2 are provided with guiding ribs (not indicated) for assembling the valve.

The valve is equipped with a filtering device made with two removable filters 20 installed on the base 1 on both sides of the slider 2.

Slots are made between the side protrusions 12 of the slider 2 to ensure their elasticity when interacting with the strip 17 of the shutter 3.

Slider 2 is equipped with a handle 21.

The assembly of the ventilation valve for window blocks is carried out in the following order

Install the shutter 3 with the pivot pin 9 into the corresponding recesses 10 of the housing 4.

Install the slider 2 into the body 4, aligning the grooves of the projections 12 with the edge of the flat shelf 7 of the profile of the shutter 3, and move the slider 2 to the "open" position, while both parts will connect

Install the base 11. To do this, it is necessary to align the hole on the protrusion of the base 11 with the ribs on the slider 2 and at the same time the guides 18, 19 and connect the base 11 with the body 4 with latches.

The ventilation valve is built into the window unit as shown in Fig. 15 and is fixed with screws installed in the fastening holes 13, 14.

The ventilation valve for window units is operated as follows.

The valve has two operating states - open and closed. The control of the states from closed to open and back is carried out manually by moving the slider 2 by the handle 21 at a distance L. With the position of the slider 2 moved to the right (according to Fig. 15), the damper 3 rotates on the axis 9 at an angle α, the bent segments 8 of its profile open from the base 1, connecting the inlet and outlet channels 15, 16, while the valve opens.

In the open position, the air flow through the channels 15, 16 of the valve passes into the room.

With the reverse movement of the slider 2, the shutter 3 rotates on the axis 9, then the segments 8 of its profile rest on the base 1 and block the air flow into the room through the channel 16.

In the extreme positions, the shutter 3 is held by the slider 2.

The claimed technical solution expands the arsenal of ventilation devices used for air exchange between the external atmosphere and the internal premises of industrial or residential buildings, by creating an alternative design with high reliability and ease of use. At the same time, noise reduction from the air passage is achieved, an increase in maintainability due to access to moving parts from inside the room, as well as an easier opening / closing of the valve by the user.

Claims (7)

1. A ventilation valve for window blocks, comprising a housing with a side wall and an upper surface in which channels for the passage of air are made, as well as a rotary damper located in the housing, equipped with an integral axis mounted on supports in the housing recesses, characterized in that the body is equipped with a base mated with the body around the periphery to form the air inlet and outlet cavities separated by the specified damper, and is equipped with a slider installed with the possibility of translational movement and kinematically connected with the damper with the possibility of its rotation, and the damper axis is made of circular cross-section along its entire length and is installed in longitudinal recesses made in the body. 2. The valve according to claim 1, characterized in that the damper is shaped with a profile formed by a flat shelf having bent segments on both sides of the interaction area with the slider, which is provided with protrusions with curved sections of gripping the ribs of the flat shelf of the damper between the bent segments of the latter for its rotation on the axis with translational movement of the slider. 3. The valve according to claim 1, characterized in that the air inlet channels are made in the side walls of the body, and the outlet channels are formed by the bottom of the body and the base. 4. The valve according to any one of claims 1 to 3, characterized in that the base and the body are made of polymeric material and are provided with guides located with the formation of a gap for the movement of the slider. 5. The valve according to any one of claims 1 to 3, characterized in that it is provided with a filtering device made with two removable filters installed on the base on both sides of the slider. 6. A valve according to any one of claims 1 to 3, characterized in that slots are made between the projections of the slider to ensure their elasticity when interacting with the cylindrical axis of rotation of the shutter. 7. A valve according to any one of claims 1 to 3, characterized in that the slider is provided with a handle.

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