RU2386876C2 - Ventilation air-tight valve - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is intended for use in systems of premises ventilation, in particular for covers that require higher safety in case of sharp rise of air medium pressure. Ventilation air-tight valve comprises cylindrical body. Inside body there is a rotary plate installed. Plate is hingedly fixed in double-arm lever. Lever is connected by axis to stand rigidly fixed in central part of plate. Between lever and plate there is at least one spring installed. One end of spring is connected to plate closer to its peripheral part. The other end of spring is connected to lever. Lever is rigidly installed on shaft. Shaft is displaced aside from central axis of plate and is located between axis, by means of which lever is joined to stand, and point of spring fixation to spring. Lever is arranged from two parallel arranged plates. Plates are connected to each other by means of plate, which is longitudinal relative to shaft, and bushing, which is rigidly set on shaft. Longitudinal plate is connected to spring. Space is arranged between parallel plates. It contains end of stand and axis of stand connection to lever.

EFFECT: improved tightness of valve and efficiency of its operation, simplification of its design.

3 cl, 2 dwg

Description

This technical solution relates to safety shut-off valves used mainly in ventilation systems of rooms, in particular shelters, requiring increased safety in case of a sharp increase in air pressure in which the shelters are located. Technical solutions can also be used in ventilation systems of buildings and structures.

Known hermetic ventilation valves, each of which is characterized by the presence of a housing, inside which a rotary plate is mounted, pivotally mounted on the housing with the possibility of rotation in the housing and fit to it, while the plate has the means of its rotation in the housing (SU 416503, 11.25.1974; SU 431369, 02.01.1973; RU 67231, 10/10/2007; RU 65602, 08/10/2007; RU 2248485, 03/20/2005; WO 9520735, 08/03/1995).

Known technical solutions do not fully meet the conditions of their work in severe conditions of large alternating loads due to their insufficient tightness and reliability.

The technical result of the invention is to increase the tightness of the valve and its reliability, as well as simplifying the design.

This result was obtained by a hermetic vent valve, characterized by the presence of a cylindrical body, inside of which there is a rotary plate pivotally mounted on a two-arm lever, connected by an axis to a rack rigidly fixed on the central part of the plate, at least one spring is installed between the lever and the plate one end of which is connected with the plate closer to its peripheral part, and the other end of the spring is connected with a lever, the latter is rigidly mounted on the shaft, which is offset to the side of the central the plate in such a way that the shaft is located between the axis through which the lever is connected to the rack and the point of attachment of the spring to the lever, the latter is made of two parallel plates connected to each other by a plate longitudinal with respect to the shaft and a sleeve rigidly mounted on the shaft, while the longitudinal plate is connected with the spring, and between the parallel plates there is a space in which the end of the rack and the axis of connection of the rack with the lever are located.

The longitudinal plate is located on the peripheral part of the lever farthest away from the plate, and it has means for attaching the ends of the springs to it, the other ends of which are connected to the plate by means of a fastener that is farthest from the center of the plate in a place that is closer to the edge of the plate.

In the holes of the parallel lever plates there is an axis connecting the lever with the stand; in the cross section of the valve, each parallel plate has a triangular shape with two truncated vertices, a longitudinal plate is fixed on one side of such a triangle from its central geometric axis, a shaft is located on the other side of the triangle, on the third side of the triangle is the axis of the connection of the lever with the rack.

1 shows a valve in longitudinal section,

figure 2 is a view of figure 1.

The valve is characterized by the presence of a cylindrical body 1 (Fig. 1), inside which a rotary plate 2 is mounted, pivotally mounted on a two-arm lever 3, connected by an axis 4 with a rack 5 rigidly fixed on the central part of the plate, at least one is installed between the lever and the plate spring 6 (in the example of the valve there are several springs), one end 7 of each spring is connected to the plate closer to its peripheral part, and the other end 8 of each spring is connected to the lever 3. The latter is rigidly mounted on the shaft 9, which is shifted to the side well, from the central axis 10 of the plate in such a way that the shaft 9 is located between the axis 4, by means of which the lever 3 is connected to the stand 5, and the attachment point of each spring 6 to the lever 3. The latter is made of two parallel plates 11 (figure 2) connected between each other a longitudinal (relative to the shaft) plate 12 and a sleeve 13 rigidly mounted on the shaft 9. The longitudinal plate 12 is connected with the springs 6, and between the parallel plates 11 there is a space in which the end of the rack 5 is located (Fig. 1) and the axis 4 rack connections with lever 3.

The longitudinal plate 12 is located on the peripheral part of the lever 3, which is farthest away from the plate 2, and it has means 14 for attaching the ends of the springs 6 to it, the other ends of which are connected to the plate by means of fasteners 15 remote from the center of the plate, closer to its edge.

In the holes of the parallel plates 11 of the lever 3 (FIG. 2), an axis 4 is mounted connecting the lever 3 with the strut 5. In the cross section of the valve, each parallel plate 11 (FIG. 1) has a triangular shape with two truncated vertices. A longitudinal plate 12 is fixed on one side of the triangle of each parallel plate 11 from its central geometric axis, and a shaft 9 is located near the other side of the triangle of each parallel plate 11. The axis 4 of the connection of the lever with the arm 5 is located near the third side of the triangle.

The valve body has flanges 16, which are connected by connecting elements 17 through the sealing rings 18 to the flanges 19 of the ducts of the ventilation system.

The shaft 9 (figure 2) is connected by a clutch with a driven gear 20 located in the gear housing 21. The drive gear (not shown) of the gearbox is connected to the shaft rotation drive 22, in particular to an electric motor. The shaft rotation limiter 23 is fixed with a pin on the shaft 9, which is made in the form of a ring worn on the shaft, having a stop located with the possibility of interaction with the gear housing element 21. The gear housing 21 is rigidly connected to the valve housing 1. The gear housing has a cylindrical part 24, in which the end of the shaft 9 is located. The cylindrical part 24 of the gear housing is cut into the cylindrical housing 1 and connected to it so that the end of the cylindrical part 24, made stepwise with the upper stage 25, is located in the inner contour of the housing 1 the valve in the circuit of the limiter 23. In the valve body 1 are fixed supporting sleeves 26, in which the ends of the shaft 9 are located. The bushings and the shaft are sealed from the external environment with O-rings. The valve is made large, requiring considerable effort to open and close the plate and a significant effort to compress it through the sealing ring 27 of the plate to the flange 19. The shaft 9 is connected to the plates 11 key 28.

The valve operates as follows.

In the open position of the valve, the plate 2 (Fig. 1) is located horizontally, and an air opening (not shown) is formed between it and the flange 16 of the housing 1. In this case, one part of the plate is in the hole of the flange, and the other part of the plate is in the valve body. From increasing air pressure in the housing 1 increases air pressure. To exclude the passage of air through the valve, the shaft turning actuator 22 rotates the plate 2, which, after rotation, fits snugly against the flange 16 by the sealing ring 27, and the passage of air having excessive pressure or harmful fractions to the shelter is stopped. When closing the plate, the shaft 9 is rotated clockwise, while the two-arm lever 3 is turned, which acts on the rack 5 and rotates it together with the plate 2 and the axis 4 clockwise from the open position of the plate to the closed position. At the end of the rotation of the shaft 9, the two-arm lever compresses the springs 6 to the design state, after which the plate moves horizontally towards the flange. At the end of the movement, the plate is pressed firmly against the flange 19 and is fixed in this position by a latch (not shown). The greater the air pressure to the right of the plate, the stronger the plate is pressed against the flange 16, and at the same time it is constantly fixed in a pressed position to the flange 19 with a latch, which eliminates the departure of the plate from the flange. When the plate is rotated at the end of its rotation, when the plate is oriented to its working position, it makes a complex movement, and when compressing the springs 6, gaps are selected in the joints of the axis 4, rack 5, lever 3, and the plate 2 uniformly and reliably compresses the sealing ring 27 and tightly presses it to the seat or seat of the flange 16. When the plate is closed, the springs 6 are constantly in a compressed state, which makes it possible, in the case of alternating shock air loads on the plate 2 and the lever 3, to constantly press the lever 3 towards the plate and holding it in a spring state. In this case, the second shoulder of the lever 3 during its rotation from the action of shock loads is fixed by the aforementioned lock located in the transmission circuit of the torque from the drive 22 to the plate 2. When the stop of the shaft rotation limiter 23 (FIG. 2) is in the upper stage 25 of the cylindrical part of the housing 21 gear drive 22 is turned off.

When opening the plate 2, the shaft 9 is rotated counterclockwise, having previously disconnected the actuator 22 from the latch. In this case, the shaft rotates the two-arm lever 3 in the indicated direction, the springs 6 are wrung out, the plate together with the strut 5 and the axis 4 moves away from the flange 16. Then the lever 3 is rotated together with the plate, which occupies a horizontal position. The rotation of the plate is carried out by the handle in the case of a manual drive turning the plate.

Thanks to the presented valve arrangement and its structural solution, a simple design of a large-sized valve with a plate drive from an electric motor, which is included in the operation from the operation of air pressure sensors (not shown), is obtained. Moreover, the uniformity of compression of the sealing ring 27 significantly increases the tightness of the valve and the reliability of its operation with relative simplicity of design.

Claims (3)

1. Hermetic ventilation valve, characterized by the presence of a cylindrical body, inside which a rotary plate is mounted, pivotally mounted on a two-arm lever, connected by an axle to a rack rigidly fixed on the central part of the plate, at least one spring is installed between the lever and the plate, one the end of which is connected to the plate closer to its peripheral part, and the other end of the spring is connected to the lever, the latter is rigidly mounted on the shaft, which is offset to the side from the center axis of the plate in such a way that the shaft is located between the axis through which the lever is connected to the stand, and the point of attachment of the spring to the lever, the latter is made of two parallel plates connected to each other by a plate longitudinal with respect to the shaft and a sleeve rigidly mounted on the shaft, while the longitudinal plate is connected with a spring, and between the parallel plates, a space is formed in which the end of the rack and the axis of connection of the rack with the lever are located. 2. The valve according to claim 1, characterized in that the longitudinal plate is located on the peripheral part of the lever farthest away from the plate and it has means for attaching to it the ends of the springs, the other ends of which are connected to the plate by means of a fastening element farthest from the center of the plate , in a place closer to the edge of the plate. 3. The valve according to claim 1, characterized in that in the holes of the parallel lever plates there is an axis connecting the lever to the stand, in the cross section of the valve each parallel plate has a triangular shape with two truncated vertices, on one side of such a triangle from its central geometric axis fixed longitudinal plate, on the other side of the triangle there is a shaft, on the third side of the triangle is the axis of the connection of the lever with the rack.

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