RU217348U1 - SUPPLY VENTILATION VALVE - Google Patents

Abstract

The utility model relates to the field of ventilation and can be used as a valve for regulating the inflow of outside air into a room. The damper is designed to be installed on the sash of a window or door. SUBSTANCE: inlet ventilation damper comprises a hollow housing and a movable air flow control unit located in it, while the hollow housing includes upper and lower flat bases interconnected by end walls and a rear side wall, and the housing is made open on the front side, on the rear side wall of the housing a longitudinal slot is made, and the control unit is provided with a handle that can be inserted into the specified slot, and is made in the form of a hollow insert containing the upper and lower flat bases connected to each other by end walls and the rear side wall containing through holes made with the possibility of alignment with holes made on the rear side wall of the housing, when moving the insert with a handle relative to the housing. EFFECT: inlet ventilation valve providing sufficient air supply to the room by smoothly regulating the valve opening and having a rigid, durable structure.

Description

The utility model relates to the field of ventilation and can be used as a valve for regulating the inflow of outside air into a room. The damper is designed to be installed on the sash of a window or door.

Over time, the amount of carbon dioxide inside a closed room increases, which negatively affects the well-being and productivity of the people in it. Ventilation is essential to maintain a healthy indoor climate. However, ventilation by opening the window sashes leads to drafts, and also brings noise, dust, insects, and precipitation along with fresh air. The use of a fresh air damper ensures that fresh air enters the room without the need to open the window sashes.

A ventilation valve for supply ventilation is known (RF patent for utility model No. 181244, publ. 07/06/2018, IPC E06B 7/02), which includes a hollow body and a movable air flow control unit located in it. The hollow body of the valve contains the upper and lower flat bases, interconnected by the end walls and the rear side wall. The air flow control unit includes a movable bar and a driven damper, adjacent to each other with flat surfaces. The damper on the adjacent flat surface is provided with protrusions, and the strap on the mating flat surface is made with inclined guide grooves, while the transverse dimension and height of the damper protrusions correspond to the width and depth of the lath grooves. The upper and lower flat bases of the housing are made with longitudinal recesses in the entire length of the bases on the front side of the housing. The bar on the side is provided with a latch handle, which is made with the possibility of being inserted into the longitudinal slot on the rear side wall of the body, while the bar and the damper are provided with anti-friction protrusions on the flat surfaces adjacent to each other and on the opposite surfaces of their contact with the body.

The disadvantage of the known technical solution is the complexity and laboriousness of assembling the device, the presence of large open cavities between the movable air flow control unit and the hollow valve body, which leads to incomplete blocking of the air flow into the room when the valve is closed, the ingress of dust into the room and the accumulation of contaminants in these cavities, as well as freezing of the valve in winter, and this, in turn, adversely affects the operation of the valve and can lead to wear of the parts of the ventilation valve. Complete cleaning of the valve requires its dismantling, which leads to a significant amount of time spent on cleaning.

A ventilation valve for supply ventilation is known (RF patent for utility model No. 202122, publ. 03.02.2021, IPC F24F 7/00), including a hollow body and a movable air flow control placed in it. Hollow valve body contains upper and lower flat bases interconnected by end walls and back side wall, at that the body is made open on the front side, and a longitudinal slot is made on the rear side wall of the body. The upper and lower flat bases of the housing are made with longitudinal recesses in the entire length of the bases on the front side of the housing. The means for regulating the air flow is made in the form of a movable bar, provided on the side with a handle, which is made with the possibility of being inserted into the longitudinal slot on the rear side wall of the housing.

The disadvantage of the known technical solution is a small interval for regulating the air flow, as well as insufficient reliability of the valve due to the manufacture of the housing from a polymer material of small thickness, which causes the walls of the elongated housing to sag towards the center and stop the air flow control means. In addition, due to the small thickness of the movable bar, a complete blocking of the air flow is not ensured, which leads to freezing of the valve in winter and dust ingress in summer.

The technical task of the proposed solution is to create a simple and reliable design of the supply ventilation valve, which ensures the flow of a controlled amount of air into the room.

The technical result achieved by the utility model is a supply ventilation valve that provides sufficient air flow into the room directly through the air flow control unit and complete blocking of the air flow in the closed position, which has a rigid, durable structure.

The technical result is achieved by the fact that the supply ventilation valve contains a hollow housing and a movable air flow control unit located in it, while the hollow housing includes upper and lower flat bases connected to each other by end walls and a rear side wall, and the housing is made open on the front side , a longitudinal slot is made on the rear side wall of the housing, and the control unit is equipped with a handle that can be inserted into the specified slot and is made in the form of a hollow insert containing upper and lower flat bases interconnected by end walls and a rear side wall containing through holes , made with the possibility of alignment with the holes made on the rear side wall of the housing, when the insert is moved with the handle relative to the housing.

The utility model is illustrated by the drawings:

in fig. 1 shows a general view of the supply ventilation valve;

in fig. 2 shows a general view of the air flow control unit.

The supply ventilation valve 1 (Fig. 1) is made with the possibility of installation on a window or door sash and contains a hollow body 2 of an elongated rectangular section, including upper and lower flat bases interconnected by end walls and a rear side wall. On the front side, adjacent to the sash, the body 2 is made open. A slot 3 and a number of through holes 4 are made on the rear side wall of the housing 2. The slot is made of a rectangular or oval shape. Through holes 4 are made of the same shape and size and are placed at an equal distance from each other, equal to the size of the holes 4 in the longitudinal direction. The shape of the holes 4 can be selected as round, oval or rectangular. On the lower base of the housing 2 there are three fastening protrusions 5 with holes for fastening on the window sash.

Inside the housing 2 there is a movable air flow control unit (figure 2), which is a hollow insert 6 of an elongated rectangular section, including the upper and lower bases, interconnected by the end walls and the rear side wall, while the length of the insert 6 is less than the length of the housing by a value , at least equal to the size of the hole in the longitudinal direction, which ensures free movement of the insert 6 relative to the body 2. On the rear side wall there is a regulating flat handle 7 made in one piece with the insert 6, as well as a number of through holes 8, made with the possibility of combining with holes 4 by translational movement of the handle 7 in the longitudinal direction. The handle 7 can be placed in the slot 3 of the body 2 to control the degree of opening/closing of the valve, while the length of the slot 3 exceeds the width of the handle 7 at least by an amount equal to the size of the holes 4 in the longitudinal direction. On the lower base of the insert 6, a recess 9 is made for passing the air flow into the valve. Also, on the base of the insert 6 on the outer side, guide projections 10 are made, providing the possibility of smooth and easy movement along the inner side of the base of the housing 2.

Additionally, the claimed device can be equipped with a filter made of reticulated polyurethane foam placed inside the hollow insert 6.

The device works as follows

The supply ventilation valve 1 is installed on the inside of the window sash using double-sided adhesive tape, self-tapping screws/screws and holes for the mounting protrusions 5. When the window sash is closed, air enters the room through the ventilation duct formed by the gap between the window sash and the frame of the window unit, insertion cavity 6 and aligned holes 4 and 8 of body 2 and insert 6, respectively. The degree of opening of the valve is adjusted by means of the handle 7 of the insert 6, which is moved in the longitudinal direction relative to the slot 3 in the body 2 of the valve. The air flow enters the room directly through the aligned holes of the hollow body 2 and the hollow insert 6, otherwise the surfaces of the insert and the body fit snugly against each other and do not form channels for the passage of air between the body 2 and the insert 6. When the valve 1 is fully opened, the holes 8 of the insert 6 are fully aligned with the holes 4 of the body 2, and when the valve 1 is fully closed, the holes 8 are placed in the gaps between the holes 4 and are completely closed by the solid rear wall of the body 1, thus, the valve completely blocks the air flow into the room.

The incoming air provides air exchange in the room in conjunction with the ventilation ducts of the exhaust ventilation. To prevent the penetration of dust into the room through the specified holes of the insert and the valve body, the valve is additionally equipped with a filter. The filter is placed in a hollow insert with the possibility of removing it for cleaning/replacement without the need to dismantle the valve.

The implementation of the air flow control unit in the form of a hollow insert with holes made with the possibility of alignment with the holes of the hollow body by moving the insert with the help of a handle protruding into the room, makes it possible to simplify the assembly of the fresh air damper, and also provides a rigid structure due to the fact that the damper is actually double-thick ( body wall and insert wall) to prevent deflection of the valve material.

The degree of opening of the valve is controlled by the size of the aligned holes and the distance over which the holes are aligned. Thus, the regulation of the valve opening is possible both by the value corresponding to the complete alignment of the openings of the body and the valve, and their partial alignment, which allows you to choose the optimal ventilation mode for the room.

Claims (6)

1. The supply ventilation valve, configured to be installed on a window sash inside the room and containing a hollow body and a movable air flow control unit located in it, while the hollow body includes upper and lower flat bases interconnected by end walls and a rear side wall, moreover, the housing is made open on the front side, a longitudinal slot is made on the rear side wall of the housing, and the control unit is provided with a handle that can be inserted into the specified slot, characterized in that the air flow control unit is made in the form of a hollow insert containing upper and lower flat bases interconnected by end walls and a rear side wall containing through holes made with the possibility of alignment with the holes made on the rear side wall of the housing when the insert is moved relative to the housing using a handle. 2. The valve according to claim 1, characterized in that it is made with the possibility of installation on the window sash inside the room with the help of mounting protrusions made on the lower base of the housing. 3. The valve according to claim 1, characterized in that the holes made in the body and the insert have the same size and shape and are placed at an equal distance from each other, equal to the size of these holes in the longitudinal direction, while the holes are made round, oval or rectangular shape. 4. The valve according to claim 1, characterized in that the length of the body slot exceeds the width of the insert handle by at least an amount equal to the size of the holes in the longitudinal direction. 5. Valve according to claim 1, characterized in that the insert is provided with a filter made of foamed polyurethane foam. 6. The valve according to claim 1, characterized in that the insert contains guide projections made on the outer side of the bases.

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