RU2713992C1 - Ventilation valve for plenum ventilation - Google Patents

Abstract

FIELD: ventilation and air conditioning.

SUBSTANCE: present invention relates to plenum ventilation devices. Ventilation valve of plenum ventilation includes a hollow body and a movable unit for regulating the air flow. Hollow valve body comprises upper and lower flat bases interconnected by end walls and rear side wall. On the front side the housing is open, and on the rear side wall of the housing there is a longitudinal cutout. Air flow regulating unit includes movable plate and driven gate adjoining to each other by flat surfaces. Shutter on adjacent flat surface is provided with projections, and plate on mating flat surface has inclined guide slots. Crosswise size and height of flap ledges correspond to width and depth of slots of the plate. Upper and lower flat bases of the housing are made with longitudinal recesses throughout the length of the bases from the front side of the housing. Lid on lateral side is equipped with handle-latch, which is made with possibility of being inserted into longitudinal slot on rear side wall of housing. Plank and shutter on adjacent flat surfaces and on opposite surfaces of their contact with housing are equipped with antifriction projections. On the side of the plank opposite its lateral side with the latch handle there are cuts in the lath enclosing the guide slots on the part of their length, at that the sections of the plank with the guide slots are made with the possibility of elastic deformation under the applied force.

EFFECT: higher flexibility of the plenum valve control unit with simultaneous increase of the device movable parts interaction elasticity, as well as expansion of the ventilation valves range.

4 cl, 4 dwg

Description

The present invention relates to forced ventilation devices used for air exchange between the environment and residential or industrial premises, or structures. The claimed valve can be used to provide natural ventilation of residential premises or the internal space of industrial buildings and structures for various purposes when it is installed on the outlet of a slotted ventilation channel made in the design of a window block, door block or made in the wall of a building to ensure regulation of air flow from the external media through said through ventilation duct.

During the operation of industrial or residential premises, the content of carbon dioxide in the air inside a closed room increases over time due to, among other things, the breathing of people in the room. The increased content of carbon dioxide in the air of the room affects the well-being and productivity of people, therefore, the air in the room must be replaced with fresh air from the environment by ventilation or ventilation. When airing by opening and closing the window sashes, a problem arises in that drafts arise and noise, dust and other contaminants can enter the room with the outside air. In addition, the cost of heating or cooling the room increases, and people in the room may feel discomfort due to drafts and sudden changes in temperature and become sick.

Thus, there is a need to provide controlled air exchange with the environment without opening the shutters of the window unit while maintaining the comfort and safety of operation of the room.

The prior art ventilation valve for fresh air ventilation (see patent RU 2605375 C2, IPC E06B7 / 02, published December 20, 2016) contains a hollow body and a movable flow control unit located therein. A disadvantage of the known technical solution is the complexity of the installation, requiring a through hole in the window unit.

As the closest analogue (prototype) of the claimed fresh air ventilation valve, the ventilation valve of the fresh air ventilation device for window blocks made of polymeric materials, disclosed in the patent specification RU 181244 (IPC F24F13 / 18, E06B7 / 02, published on July 6, 2018, is selected) ) The known ventilation valve is made with the possibility of installation from the inside on the sash of the window unit and includes a hollow body containing upper and lower flat bases with longitudinal samples, as well as two end walls and a rear side wall. In the cavity of the casing there is a movable unit for regulating the air flow, which includes a movable bar and a driven flap adjacent to each other by flat surfaces. The flap on the adjacent flat surface is provided with protrusions, and the bar on the reciprocal flat surface is made with inclined guide grooves, and the transverse size and height of the flap protrusions correspond to the width and depth of the grooves of the bar.

In some cases, for example, in the case of a gap between the bases of the installed valve and the frame of the window unit that is less than the shutter stroke provided by the valve design, or in the absence of parallelism between the surface of the closed wing on which the valve is mounted and the surface of the frame of the window unit into which the shutter rests in the closed position; excessive efforts can be exerted by the user on the valve handle to bring the handle to its extreme position. The actual stroke of the damper in such cases will prevent the handle from reaching this position, as the shutter will abut against the frame of the window unit, while the user does not see the shutter rests or not, and they will make efforts to bring the handle to the extreme position, which will result in damage to the valve. Thus, the disadvantages of the known technical solutions include the lack of reliability of the supply ventilation valve, the lack of structural flexibility to various designs of window units and flaws in the ease of use.

The technical problem to which the present invention is directed is to create a fresh air ventilation valve having high reliability, versatility and ease of use.

The technical result achieved by using the claimed invention is to increase the flexibility of the movable unit for regulating the supply ventilation valve while increasing the elasticity of the interaction of the moving parts of the device, as well as expanding the range of ventilation valves.

The technical problem is solved, and the technical result is achieved due to the fact that the ventilation valve of the fresh air ventilation system includes a hollow body and a movable air flow control unit located therein. The hollow valve body contains upper and lower flat bases, interconnected by end walls and the rear side wall, with the front side of the body made open and a longitudinal slot made on the rear side wall of the body. The air flow control unit includes a movable bar and a driven flap adjacent to each other with flat surfaces. The flap on the adjacent flat surface is provided with protrusions, and the bar on the reciprocal flat surface is made with inclined guide grooves, while the transverse size and height of the flap protrusions corresponds to the width and depth of the grooves of the bar. The upper and lower flat bases of the housing are made with longitudinal samples in the entire length of the bases from the front of the housing. The strap on the side is provided with a latch handle, which is configured to be inserted into a longitudinal slot on the rear side wall of the housing. The damper and bar on adjacent flat surfaces and on opposite surfaces of their contact with the housing are equipped with anti-friction protrusions. The bar on the side, the opposite side of the side with a latch handle, is made with cutouts bordering the guide grooves to parts of their length, and sections of the bar with guide grooves are capable of elastic deformation under the influence of the applied force.

The presence in the plank of cutouts bordering the guide grooves to parts of their length and the execution of the plank sections with guide grooves with the possibility of elastic deformation under the influence of the applied force provides the flexibility of the entire movable assembly as a whole and increases the elasticity of interaction between the strap and the shutter. When the user exerts excessive force, for example, in the cases described above, to bring the latch handle to the edge of the slot, the shutter, after it rests in the frame of the window unit, will begin to press its protrusions on the guide grooves of the strip, which, due to the presence of free space of the cutouts and their elasticity , in turn, will begin to flex elastically. This will reduce the pressure on the shutter and the load on its protrusions and guide grooves of the strap, protect them from destruction, and bring the latch handle to the edge of the slot to the user.

When installing the valve indoors as a ventilation channel for air passage, preferably, a cavity is used between the frame and the sash of the window unit, called false-backlash.

To facilitate mounting the ventilation valve on the window unit and increase its noise-proofing properties, the case of the ventilation valve can be equipped with a self-adhesive sealant adjacent to the window unit along the sample along the entire length of the case, and the case with at least two adjacent to the sash of the window unit protrusions. The projections of the housing are made at the ends with flanges, on which holes are made for attaching the ventilation valve to the sash of the window unit. To ensure exact matching of the samples of the ventilation valve with the outlet of the ventilation channel and to eliminate bending of the case of the ventilation valve, and, consequently, to increase its reliability, versatility, and ease of use, its case, from the side adjacent to the sash of the window unit, can be equipped with one or several additional protrusions also made at the ends with flanges with holes for attaching the ventilation valve to the sash of the window unit.

The protrusions of the flap interacting with the bar can be made of cylindrical shape with a diameter of at least 2 mm, which eliminates their breakdown during operation of the ventilation valve. Anti-friction protrusions can be made in the form of embossed strips with a height of 0.05 to 0.3 mm and a width of 0.1 to 0.5 mm, oriented parallel to the direction of movement of the bar relative to the valve, parallel to the direction of movement of the plate relative to the body and parallel to the direction of movement of the valve relative to the body. In other words, the anti-friction protrusions on the surface of the shutter in contact with the bar are evenly distributed and are made parallel to the guide grooves. Antifriction protrusions on the surface of the damper in contact with the housing are evenly distributed and are made in the transverse direction. The surface of the strip in contact with the housing is provided with at least one anti-friction protrusion made in the longitudinal direction. By means of anti-friction protrusions, the friction surface area between the parts of the ventilation valve is reduced, and therefore, the friction force, which prevents the movement of the bar and the shutter, is reduced.

To provide flexibility and resistance to the efforts of the guide grooves applied by the user, they are bordered with cutouts, and preferably, the cutouts are made no more than half the length of the guide grooves. The smaller the length of the cuts, the less flexibility the guide grooves.

Further, the present invention is illustrated by the following drawings.

In FIG. 1 shows a ventilation valve in general.

In FIG. 2 shows a top view of the housing of the ventilation valve and the air flow control unit in an exploded state.

In FIG. 3 shows a bottom view of the vent valve body and the air flow control unit in disassembled condition.

In FIG. 4 shows an example of the execution of the strap in various projections.

In accordance with the present invention, the ventilation valve 1 of the supply ventilation (see Fig. 1) is configured to be mounted on a window unit.

In FIG. 2 and 3 show in detail the design of the ventilation valve 1 in the disassembled state. The valve comprises a hollow body 2, including upper and lower flat bases (not indicated by positions in the drawing), interconnected by end walls and the rear side wall (also not indicated by positions). On the front side adjacent to the sash of the window unit, the casing 2 is made open, while the upper and lower flat bases of the casing 2 are made with longitudinal samples 3 in the entire length of the bases on the side of their contact with the sash of the window block. The lower base of the housing 2 at the edges is made with two main mounting tabs 4 and one or more additional mounting tabs 5 for mounting (depending on the length of the valve body). The mounting tabs 4 and 5 are provided at the ends with flanges. Flanges are made with holes (for example, for self-tapping screws) for fastening the ventilation valve 1 to the sash of the window unit. It is desirable that the mounting tabs 4 and 5 have a thickness of 2 mm or more, which eliminates their breakdown during installation and operation.

Inside the housing 2 there is a movable unit for regulating the air flow, including a movable bar 6 and a driven flap 7, adjacent to each other with flat surfaces. The flap 7 on the flat surface facing the strip 6 is provided with protrusions 8, and the strip 6 on the counter surface is made with inclined guide grooves 9, and the lateral size and height of the protrusions 8 of the flap 7 correspond to the width and depth of the grooves 9 of the strip 6. The protrusions 8 are preferably made cylindrical shape with a diameter of not less than 2 mm to avoid damage during operation.

To install and ensure the movement of the airflow control unit in the housing 2, a longitudinal slot 10 is made in its rear side wall, and the movable strip 6 is provided with a latch handle 11 on the side face that is adapted to be inserted into the longitudinal slot 10 on the rear side wall of the housing 2 due to the flexibility and elasticity of the material of the housing 2. The range of movement of the handle-latch 11 and, therefore, the strap 6 is limited by the length of the slot 10. The position of the handle-latch 11 at one end of the slot 10 corresponds to the extreme position of the protrusions 8 of the shutter 7 in the grooves 9 of the strip 6, in which the shutter 7 is completely inside the housing 2 and does not overlap the clearance of the samples 3. The position of the latch handle 11 at the opposite end of the slot 10 corresponds to the other extreme location of the protrusions 8 of the shutter 7 in the grooves 9 of the strip 6 in which the shutter 7 is pulled out of the housing 2 to completely overlap the lumen of the samples 3. In this case, in some cases, for example, in the case of a lumen between the bases of the installed valve 1 and the frame of the window unit less than the stroke of the shutter 7 provided by the design valve 1, or in the case where there is no parallelism between the surface of the closed sash on which the valve is mounted and the surface of the frame of the window block, into which the shutter should rest in the closed position, i.e. in the case when the shutter 7 in the closed position does not abut the frame, but only partially, one of its ends, excessive efforts can be exerted by the user on the latch handle 11 to bring the latch handle 11 to the extreme position in the slot 10 . In the mentioned cases, the really possible stroke of the shutter 7 will prevent the handle-latch 11 from being brought to this position, because the shutter 7 will abut against the window unit frame. To prevent damage to the shutter 7, strap 6 and valve 1 as a whole, when the user tries to bring the latch handle 11 to the extreme position, cutouts 12 are made in the strip 6 on the side opposite to the side on which the latch handle is located, bordering the guide grooves 9 on the part of their length (figure 4). The cutouts 12 are made no more than half the length of the guide grooves 9. The presence of such cutouts 12 makes it possible to make sections of the bar with the guide grooves 9 elastically deformable under the action of the force applied to the bar 6 through the handle-latch 11, and provides increased elasticity of interaction between the bar and the shutter.

To reduce friction during movement of the shutter 7 and reduce the forces exerted by the user on the handle-latch 11, the strap 6 and the shutter 7 are provided on adjacent flat surfaces, as well as on opposing surfaces where they come in contact with the housing 2, antifriction protrusions 13. The anti-friction protrusions 13 can be made in the form of embossed strips with a height of 0.05 to 0.3 mm and a width of 0.1 to 0.5 mm. Preferably, the anti-friction protrusions 13 are oriented parallel to the direction of movement of the strip 6 relative to the housing 2, parallel to the direction of movement of the strip 6 relative to the valve 7 and parallel to the direction of movement of the valve 7 relative to the housing 2.

The ventilation valve of fresh air ventilation operates as follows. Air from the street through the ventilation channel enters the valve 1, which with the help of its movable unit controls the amount of incoming air. The bore of the air supply channel is smoothly controlled by moving the shutter 7. The movement of the shutter 7 is carried out by the interaction of the protrusions 8 located on the shutter 7 and the guide grooves 9 located on the bar 6, into which these protrusions 8 are inserted. The bar 6 is set in motion by the user by moving the latch handle 11. Since the guide grooves 9 are tilted and the longitudinal movement of the shutter 7 is limited by the housing 2 of the ventilation valve 1, moving the handle latch 11 in the slot 10 along the housing 2 leads to a lateral movement of the shutter 7, which completely opens, or partially or completely overlaps the samples 3 in the housing 2 of the ventilation valve 1, thereby changing the cross section of the channel for supplying air to the room. In the case of an uneven clearance in the closed position between the frame and the sash of the window unit, when the lumen between the bases of the valve 1 mounted on the sash and the surface of the frame of the window unit is uneven, or in the case when the clearance is less than the stroke of the shutter 7 provided by the design of the valve 1, the overlap density the air supply channel is provided by the presence in the plank 6 of the cutouts 12 bordering the guide grooves 9 on the part of their length and the implementation of sections of the plank 6 with the guide grooves 9 with the possibility of elastic deformation under the influence effort. Thus, an increase in the elasticity of the interaction of the strap 6 and the shutter 7 and the flexibility of the entire movable assembly as a whole, with subsequent more uniform closure of the air supply channel, are ensured. When the user exerts excessive force, for example, in the above cases, to bring the handle-latch 11 to the edge of the slot 10, the shutter 7, after it rests against the frame of the window unit, will begin to press with its protrusions 8 on the guide grooves 9 of the strip 6, which, due to the presence of the free space of the cutouts 12 and their elasticity, in turn, will begin to bend elastically. This will reduce the pressure on the shutter 7 and the load on its protrusions 8 and the guide grooves 9 of the strap 6, and will protect them from destruction. In this case, the user will be able to freely bring the latch handle 11 to the edge of the slot 10.

The incoming air provides air exchange in the room in conjunction with the ventilation channels of the exhaust ventilation, including with mechanical motivation, or other exhaust ventilation systems.

The design of the claimed ventilation valve for supply ventilation when installed on window units is characterized by ease of assembly, installation and operation, requires a minimum of mechanical effort when moving the latch handle to control air flow and regardless of the quality and installation conditions (size and uniformity of the clearance between the valve bases and frame window unit) has high reliability and durability.

The claimed valve can be used to provide natural ventilation of both residential premises and the internal space of offices and other industrial premises, buildings and structures for various purposes, including can be used in the construction of greenhouses and pavilions when it is installed at the exit of slotted ventilation ducts. Slotted channels can be made not only in window blocks, but also in door blocks or in the walls of buildings and structures, in particular under window sills and in other places, with the possibility of air flow from the external environment. And with any installation method, the claimed valve provides high reliability, versatility and ease of use by increasing the strength of the movable unit for regulating the supply ventilation valve with a simultaneous increase in the elasticity of interaction of the moving parts of the device. The claimed valve expands the range of ventilation valves.

Claims (11)

1. The ventilation valve of the supply ventilation, including a hollow body and a movable air flow control unit disposed therein, wherein the hollow valve body contains upper and lower flat bases connected to each other by the end walls and the rear side wall, and on the front side the body is open and a longitudinal slot is made on the rear side wall of the body, the air flow control unit includes a movable bar and a driven flap adjacent to each other with flat surfaces, the shutter on the adjacent flat surface is provided with protrusions, and the strip on the reciprocal flat surface is made with inclined guide grooves, while the transverse size and height of the protrusions of the shutter corresponds to the width and depth of the grooves of the strip, the upper and lower flat bases of the housing are made with longitudinal samples in the entire length of the bases from the front of the housing, the strip on the side is provided with a latch handle, which is configured to be inserted into a longitudinal slot on the rear side wall of the housing, characterized in that on the side of the plank opposite its lateral side with a latch handle, cuts are made in the plank bordering the guide grooves to parts of their length, and sections of the strap with guide grooves are capable of elastic deformation under the influence of the applied force. 2. The ventilation valve according to claim 1, characterized in that it is made with the possibility of installation on the sash of the window unit indoors. 3. The ventilation valve according to claim 2, characterized in that for fastening to the casement of the window unit, the lower base of the ventilation valve body is provided with mounting protrusions with flanges on which holes for mounting are made. 4. The ventilation valve according to claim 1, characterized in that the cutouts are made not more than half the length of the guide grooves.

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