RU147326U1 - CHECK VALVE - Google Patents

Abstract

1. The non-return valve installed in the air channel of the ventilation system of the room and containing: - a tubular body, one end of which is closed by a cover, and the other has a part with a reduced inner diameter, acting as a valve seat; - a valve made in the form of a ball and placed inside the tubular body with the possibility of free movement between the cover of the specified housing and the valve seat; - fasteners provided on the tubular body and hermetically secure the valve in the air channel with a gap and between the wall of the tubular body and the wall of the air channel; - at least one hole made in the wall of the tubular body and allowing air to pass from the valve seat into the gap between the wall of the specified body and the wall of the air channel in case the valve is displaced from the valve seat under the action of the air flow from an external source. 2. The non-return valve according to claim 1, characterized in that the fastening means are configured to enable the installation of a non-return valve in the air channel with a circular, rectangular or oval cross-section. The non-return valve according to claim 2, characterized in that the fastening means comprise a truncated cone, the larger base of which is made possible to interact with the inner surface of the wall of the air channel, and the smaller base is a continuation of part of the tubular body with a reduced inner diameter. The non-return valve according to any one of claims 1 to 3, characterized in that the fastening means comprise ribs made on the outer surface of the tubular body and configured to interact with

Description

The utility model relates to an air ventilation system, namely to check valves of ventilation systems of state institutions, enterprises, offices, apartments or cottages, where the control of air inflow into the premises and its extraction to the outside is ensured.

With forced mechanical ventilation, air exchange occurs due to the pressure difference created by the fan. This method of ventilation has several advantages, since it provides the possibility of preliminary cleaning of air from dust and bringing its temperature and humidity to the required values. Moreover, air conditioning can be carried out automatically, i.e. in the absence of a person in the room. Mechanical ventilation of the room allows you to supply the required amount of air and limit its output, triggered by the signal of the respective sensors and lowering to a certain level of CO ₂ or air humidity in the room.

Mechanical ventilation systems of rooms are used, as a rule, in combination with a check valve, the function of which is to allow the discharge of forced air into the room and to prevent it from going outside, in particular, after turning off the forced ventilation system. Meanwhile, in modern ventilation systems, non-return valves installed inside the ventilation ducts have a structure that is difficult to manufacture and install, which also reduces the reliability of their operation.

The check valve (US 5797426 A, 08/25/1998) used in a ventilation system is known in the art, which comprises a tubular body, one end of which is closed by a lid, a shutter made in the form of a ball and placed inside the tubular body with the possibility of free movement inside it and overlapping the openings of the channel of the ventilation system, and the fastening means provided on the tubular valve body. The body of the known valve is made mesh, so that when the shutter opens a hole under the pressure of the working medium in the channel, the specified working medium has the ability to exit through the openings of the mesh body. In the absence of pressure of the specified working medium, the shutter closes the hole, and air or other external medium cannot enter the ventilation system through the specified channel.

Due to the design features, the known valve can only be worn on the end of the pipe of the ventilation system, for example, for connecting to the outlet openings of the condensate moisture drain system on air conditioners, which ensures the condensate drain and prevents the ingress of outside air. In most cases, one place to install a check valve in the ventilation system is not enough, in addition, there is no possibility of installing a known valve inside the ventilation duct.

The objective of the utility model is to develop a check valve with a simple reliable design for installation anywhere in the air duct of the ventilation system.

The technical result is to increase the reliability of the ventilation system.

The problem is solved, and the technical result is achieved by the fact that the check valve installed in the air channel of the ventilation system of the room contains a tubular body, one end of which is closed by a lid, and the other has a part with a reduced inner diameter, acting as a valve seat;

- a shutter made in the form of a ball and placed inside the tubular body with the possibility of free movement between the cover of the specified body and the valve seat;

- fasteners provided on the tubular body and hermetically fixing the valve in the air channel with a gap between the wall of the tubular body and the wall of the air channel;

- at least one hole made in the wall of the tubular body and allowing air to pass from the valve seat into the gap between the wall of the specified body and the wall of the air channel if the shutter is displaced from the valve seat due to air flow from an external source.

The fastening means provide the ability to install a check valve in the air channel with various cross-sectional shapes, for example, round, rectangular, oval, etc.

For example, for an air channel with a round cross-sectional shape, the fastening means may contain a truncated cone, the larger base of which along the entire perimeter interacts directly with the inner surface of the wall of the air channel, and the smaller base is a continuation of part of the tubular body with a reduced inner diameter.

In this case, the fastening means may additionally contain ribs made on the outer surface of the tubular body along all or part of its length and interacting directly with the inner surface of the wall of the air channel.

The utility model is illustrated by the figure, which shows the proposed check valve installed in the air channel of the ventilation system.

The figure shows the air channel of the ventilation system with a wall 1 in which a check valve 2 is installed. The specified valve 2 contains a tubular body 3, one end of which is closed by a cover 4, and the other end has a part with a reduced inner diameter, which forms a seat 5 of valve 2. B the specified housing 3 with the possibility of free movement between the cover 4 and the part with a reduced inner diameter mounted shutter 6, made in the form of a ball.

For fixing the non-return valve 2 in the air channel of the ventilation system on the tubular body 3, fastening means are provided that hermetically fix the non-return valve 2 in the air channel, providing a gap between the outer surface of the wall of the tubular body 3 and the inner surface of the wall 1 of the air channel. The indicated fastening means may have a different design and shape corresponding to the cross-sectional shape of the air channel, for example, round, rectangular, oval, etc.).

In the embodiment shown in the figure (an air channel with a round cross section is shown), the fastening means comprise a truncated cone 7, the larger base of which along the entire perimeter interacts directly with the inner surface of the wall 1 of the air channel, and the smaller base is a continuation of the part with a reduced inner diameter of the tubular body 3 Thus, the truncated cone 7, in fact, is part of the tubular body 3. It is worth pointing out that for the normal operation of the proposed check valve 2 means to epleniya should comprise an element with a similar function of the truncated cone 7, but may be varied performance. For example, for an air channel with a square cross-section, it can be made in the form of a transverse protrusion extending around the entire perimeter of the outer surface of the wall of the tubular body 3, or in the form of a truncated pyramid with a square base.

For additional fixation and rigidity of the check valve 2, as well as centering of its part with the cover 4, the fastening means may include ribs 8 made on the outer surface of the tubular body 3 along all or part of its length. The ribs 8, as well as the truncated cone 7, interact with the inner wall 1 of the air channel. The number of ribs 8 can be different (from 2 or more) depending on the required stiffness and the required fixing force of the check valve 2. The gap between the outer surface of the wall of the tubular body 3 and the inner surface of the wall 1 of the air channel is ensured by the difference in diameter of the larger base of the truncated cone 7, that is, the transverse size of the air channel, and the transverse size of the tubular body 3.

At least one hole 9 is made in the wall of the tubular body 3, through which air is passed from the seat 5 of the non-return valve 2 into the gap between the outer surface of the wall of the said housing 3 and the inner surface of the wall 1 of the air channel in case the shutter 6 is displaced from the saddle 5 the specified valve 2 under the action of air flow from an external source.

For the effective operation of the check valve 2, the diameter of the shutter 6 must be less than the internal size of the specified housing 3, preferably 1 mm Under such conditions, the shutter 6 moves without interference inside the tubular body 3, but it is able to reliably close the hole formed by the saddle 5.

For normal ventilation, the check valve 2 is expediently made of plastic by stamping, with the shutter 6 made of dense foam, that is, materials that are neutral to moisture and temperature, and used in combination with a duct fan.

For hot environments up to 200 ° C, this valve 2 should be made of high alloy steel by stamping, with a shutter 6 made of silicon dioxide airgel, neutral to temperature and humidity, while using a radial fan.

When installing check valve 2 in rooms with high humidity (in pools, laundries, showers, etc.), it is necessary to improve adjacency and tightness. Why, on the edge of the element (truncated cone) of the check valve 2 interacting with the wall 1 of the air channel, a rubber gasket can be provided (not shown in the figure). Moreover, to drain the resulting condensate 4 mm above the abutment of the specified edge to the air channel in its wall 1, a hole is made. A tube is installed in this hole, through which condensate is discharged into the sewer system or the roof drainage system.

The wall of the tubular body 3 of the check valve 2 should preferably have a thickness of 2-3 mm, and the specified valve 2 should be made in different diameters and sizes, corresponding, for example, to a standard line of standard sizes of ventilation ducts, i.e. 100, 150, 200, 250, 300 mm and so on. It is also worth noting that the proposed check valve 2 can be used as a supply valve.

The proposed utility model works as follows.

The non-return valve 2 is installed in the air channel of the ventilation system and is fixed there by means of fastening, for example, by means of a truncated cone 7 and ribs 8 provided on the tubular body 3. The non-return valve 2 is oriented so that the end of the tubular body 3 with the cover 4 is on the side return air flow that must be shut off.

The truncated cone 7, interacting with the edge of its larger base with the inner surface of the wall 1 of the air duct of the ventilation system, tightly fixes the check valve 2 in it and also directs the air flow into the tubular body 3. The ribs 8 also interact with the specified inner surface the walls 1 of the air channel, increasing the friction force, due to which the specified valve 2 is fixed, and also part of the tubular body 3 with the cover 4 is rigidly centered in the air channel.

Thus, when the external air supply source is turned on, the shutter 6 installed in the tubular body 3 moves to the cover 4, opening a hole in the seat 5. Air enters the tubular body 3 and through at least one hole 9 in its wall and the gap between the outer wall surface of the specified housing 3 and the inner surface of the wall 1 of the air channel is directed further along the air channel of the ventilation system. After turning off the external air supply, the shutter 6, under its own weight or under the influence of a reverse air flow, the passage of which must be excluded, closes the hole in the saddle 5 and prevents the air from leaving the room on the street, i.e. to where it is taken from.

To summarize what is written as follows. The valve is installed inside the ventilation duct and therefore does not have a separate external housing. It works only while inside the ventilation duct. Therefore, it is a simple and optimal complement to the path of air passing in the ventilation duct. It does not require alteration of the ventilation duct by complicating the fastening system - it is simply inserted and that’s it.

The proposed utility model can be installed in any free part of the air channels of the ventilation system. At the same time, due to the simplicity of the design of the proposed valve, the time spent on its manufacture and installation of the check valve is reduced, which together leads to increased reliability of both the check valve and the ventilation system as a whole. In addition, the proposed design of the check valve during operation produces less noise, which reduces the noise emitted by the entire ventilation system.

Claims (5)

1. The check valve installed in the air channel of the ventilation system of the room and containing: - a tubular body, one end of which is closed by a cover, and the other has a part with a reduced inner diameter, acting as a valve seat; - a shutter made in the form of a ball and placed inside the tubular body with the possibility of free movement between the cover of the specified housing and the valve seat; - fasteners provided on the tubular body and hermetically fixing the valve in the air channel with a gap between the wall of the tubular body and the wall of the air channel;  - at least one hole made in the wall of the tubular body and allowing air to pass from the valve seat into the gap between the wall of the specified body and the wall of the air channel if the shutter is displaced from the valve seat due to air flow from an external source. 2. The non-return valve according to claim 1, characterized in that the fastening means are configured to enable the installation of a non-return valve in the air channel with a circular, rectangular or oval cross-section. 3. The check valve according to claim 2, characterized in that the fastening means comprise a truncated cone, the larger base of which is made possible to interact with the inner surface of the wall of the air channel, and the smaller base is a continuation of a portion of the tubular body with a reduced inner diameter. 4. The check valve according to any one of claims 1 to 3, characterized in that the fastening means comprise ribs made on the outer surface of the tubular body and configured to interact with the inner surface of the wall of the air channel. 5. The check valve according to claim 4, characterized in that said ribs are made along all or part of the length of the tubular body.

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