RU106939U1 - AIR VALVE (OPTIONS) - Google Patents

Abstract

 1. The air valve, comprising a frame mounted on it with a means of blocking the passage, characterized in that the means of blocking the passage is made in the form of a panel mounted to rotate on the first cylindrical hinge connecting the panel with the frame, and the panel is provided with at least , with one swivel bracket connected to the panel by a second cylindrical hinge. ! 2. The valve according to claim 1, characterized in that the axes of the first and second cylindrical hinges intersect at right angles. ! 3. The valve according to claim 1, characterized in that the bracket is made of a triangular plate. ! 4. The valve according to claim 1, characterized in that the bracket is made of a plate of the shape of a sector of a circle. ! 5. The valve according to claim 1, characterized in that the panel is provided with two swivel arms, the second swivel bracket connected to the panel by a third cylindrical hinge. ! 6. The valve according to claim 5, characterized in that the swivel arms are connected to the frame by fourth and fifth cylindrical joints, each swivel bracket made of two parts interconnected by a sixth and seventh cylindrical joints, and the sixth and seventh cylindrical joints are kinematically connected between by rods of linear drive. ! 7. An air valve comprising a frame mounted on it with a means of blocking the passage, characterized in that the means of blocking the passage is made in the form of a panel mounted to rotate on the first cylindrical hinge connecting the panel with the frame, and the valve is equipped with at least one swivel bracket connected to the frame by a second cylinder

Description

The inventive group of utility models relates to ventilation and is used to control the air flow, used mainly for cooling technological rooms, for example, container power plants.

A known air valve comprising a housing, a cowl mounted in its central part, a support ring with crescent-shaped rotary flaps and an actuator / SU 1809657, F24F 13/08, 1997 /. A feature of the known valve is that the support ring is located behind the fairing in the direction of air movement, while the flaps are equipped with stiffeners, and the actuator is made in the form of leads that connect the flaps to one another.

A disadvantage of the known valve is the increased resistance to air flow.

The closest in technical essence to the claimed air valve is a louvre type air valve containing a frame, the outer part of which is in a cross section in a U-shape, and plates mounted in a frame on hinges that do not move relative to it / RU 37188, F24F 13/15 2004 /. A distinctive feature of the valve is that it is equipped with an engine placed in one of the fragments of the outer part of the frame and connected to the plates by means of hinges movable relative to the frame, the male elements of which are placed on the ends of the plates with an offset relative to the male elements of non-moving hinges. And the covering elements of the movable hinges are made in an engine equipped with a spring stop with the possibility of interaction with a gear notch made on the inner wall of the said fragment of the outer part of the frame. This design is selected as a prototype. The disadvantage of the prototype is the increased resistance of the valve to air flow. This drawback is due to the presence of protective grilles, which must be installed on the valve to protect the opening from precipitation.

The author solved the problem of creating an air valve devoid of this drawback.

The technical result of the claimed utility model is to reduce the valve resistance to air flow.

To solve the problem, as well as to achieve the claimed technical result, an air valve is proposed according to the first embodiment, including a frame with means for blocking the passage section fixed to it. A distinctive feature of the proposed valve is that the means for blocking the passageway is made in the form of a panel mounted for rotation on a first cylindrical hinge connecting the panel with the frame, and the panel is equipped with at least one pivoting bracket connected to the panel by a second cylindrical hinge.

Additionally, it is proposed that the axes of the first and second cylindrical joints be crossed at right angles.

In addition, a bracket is made of a triangular-shaped plate or of a circle sector-shaped plate.

In addition, it is proposed that the panel be equipped with two swivel arms, with the second swivel arm connected to the panel with a third cylindrical hinge.

It is also additionally proposed that the swivel arms be connected to the frame by fourth and fifth cylindrical hinges, each swivel bracket being made of two parts interconnected by the sixth and seventh cylindrical hinges, and the sixth and seventh cylindrical hinges should be kinematically connected together by linear drive rods.

To solve the problem, as well as to achieve the claimed technical result, it is proposed according to the second embodiment an air valve comprising a frame with means for blocking the passage section fixed to it. A distinctive feature of the valve is that the means for blocking the passageway is made in the form of a panel mounted for rotation on the first cylindrical hinge connecting the panel with the frame, and the valve is equipped with at least one swivel bracket connected to the frame by a second cylindrical hinge.

Additionally, it is proposed that the axes of the first and second cylindrical joints be crossed at right angles.

In addition, it is proposed that the bracket be made from a plate of a triangular shape or from a plate of the shape of a sector of a circle.

In addition, it is proposed that the valve be equipped with a means to reduce the frictional force between the panel and the bracket, which can be made in the form of at least one roller mounted on an axis fixed to the bracket.

It is useful to kinematically associate the bracket with the drive turning the bracket around the axis of the second cylindrical hinge.

In addition, it is proposed that the panel be equipped with two swivel arms, with the second swivel arm connected to the frame by a third cylindrical hinge.

In addition, it is proposed that the second bracket be kinematically coupled to a rotational drive of the second bracket about the axis of the third cylindrical hinge.

It is also additionally proposed to rotate the first and second brackets constructively combine.

To solve the problem, as well as to achieve the claimed technical result, an air valve according to the third embodiment is proposed including a frame with means for blocking the passage section fixed to it. A distinctive feature of the valve is that the means for blocking the passageway is made in the form of a panel mounted for rotation on a cylindrical hinge connecting it to the frame, and the panel is connected to the frame by a flexible connection made of sheet material, for example, tarpaulin.

It is useful to make flexible communication so that it together with the panel forms a protective casing in the open position of the valve.

Figures 1 and 2 show valve designs according to the first embodiment, where 1 is a frame, 2 is a panel, 3 is a first cylindrical hinge, 4, 5 are swivel brackets, 6 is a second cylindrical hinge, 7 is a third cylindrical hinge, 8 is the fourth cylindrical hinge, 9 - the fifth cylindrical hinge, 10 - the sixth cylindrical hinge, 11 - the seventh cylindrical hinge, 12-linear drive.

Figures 3 and 4 show the embodiment of the valve according to the second embodiment, where 13 is the frame, 14 is the panel, 15 is the first cylindrical hinge, 16 and 17 are the swivel brackets, 18 is the second cylindrical hinge, 19 is the third cylindrical hinge, 20 is roller, 21 - axis, 22 - bracket rotation drive

Figure 5 shows the design of the valve according to the third embodiment, where 23 is the frame, 24 is the panel, 25 is the cylindrical hinge, 26 is the flexible connection.

The device according to the first embodiment (figures 1 and 2) works as follows. As can be seen from the drawing, the valve is a one-piece panel 2, which can be rotated around a horizontal axis 3 fixed on the frame 1 by a certain angle, and two side swivel brackets 4 and 5. Each of the brackets consists of two parts, one of which is connected by a cylindrical hinge 6 or 7 with a panel 2, and the other with a cylindrical hinge 8 or 9 with a frame. Between themselves, the parts of the swivel arms are connected by cylindrical hinges 10 and 11. The valve is installed in the ventilation opening of the room so that the panel opens outward. In the closed position (with non-working equipment), the valve closes the air passage through the opening and performs the function of thermal insulation of the room. At the same time, the lateral swivel arms 4, 5 are folded inside the room behind the panel 2. The valve is controlled by a drive 12 connected to the brackets 4 and 5. The drive unfolds the brackets 4 and 5, which, in turn, rotate (lift) the panel 2 In the open position of the valve (with the equipment running), the panel 2 and the side brackets 4, 5 become, respectively, the central and side panels of the casing, which protects the ventilation window from precipitation and replaces the protective grille. To increase the thermal insulation of the room, the valve panel can be made of the material used to isolate the room.

The device according to the second embodiment (figures 3 and 4) works as follows. As can be seen from the drawing, the valve is a one-piece panel 14, which can rotate around a horizontal axis 15 fixed to the frame 13 by a certain angle, and two side swivel arms 16 and 17, mounted on the frame with vertical cylindrical hinges 18 and 19. The valve is installed in the ventilation the opening of the room so that the panel opens outward. In the closed position (with non-working equipment), the valve closes the air passage through the opening and performs the function of thermal insulation of the room. In this case, the lateral rotary arms 16, 17 are located indoors behind the panel 14. The valve is controlled by an actuator 22 connected to the arms 16 and 17. The actuator rotates the brackets outward, which, in turn, rotate (raise) the arm. To reduce friction between the brackets and the panel, the brackets are equipped with rollers 20 mounted on the axes 21. In the open position of the valve (with the equipment running), the panel 14 and the side brackets 16, 17 become, respectively, the central and side panels of the casing, protecting the ventilation window from getting precipitation and replacement of the protective grill. To increase the thermal insulation of the room, the valve panel can be made of the material used to isolate the room.

The device according to the third embodiment (figure 5) works as follows. As can be seen from the drawing, the valve is a one-piece panel 24, which can be rotated around a horizontal axis 25 fixed to the frame 23 by a certain angle. The lateral edges of the panel are connected to the frame by a flexible connection 26. The valve is installed in the ventilation opening of the room so that the panel opens outward. In the closed position (with non-working equipment), the valve closes the air passage through the opening and performs the function of thermal insulation of the room. In this case, the flexible connection is located indoors behind the panel 24. When the valve is opened, the panel pulls the flexible connection. In the open position of the valve (with the equipment running), the panel and flexible connection become, respectively, the center and side panels of the casing, which protects the ventilation window from precipitation and replaces the protective grille. To increase the thermal insulation of the room, the valve panel can be made of the material used to isolate the room.

Claims (19)

1. The air valve, comprising a frame mounted on it with a means of blocking the passage, characterized in that the means of blocking the passage is made in the form of a panel mounted to rotate on the first cylindrical hinge connecting the panel with the frame, and the panel is provided with at least , with one swivel bracket connected to the panel by a second cylindrical hinge. 2. The valve according to claim 1, characterized in that the axes of the first and second cylindrical hinges intersect at right angles. 3. The valve according to claim 1, characterized in that the bracket is made of a triangular plate. 4. The valve according to claim 1, characterized in that the bracket is made of a plate of the shape of a sector of a circle. 5. The valve according to claim 1, characterized in that the panel is provided with two swivel arms, the second swivel bracket connected to the panel by a third cylindrical hinge. 6. The valve according to claim 5, characterized in that the swivel arms are connected to the frame by fourth and fifth cylindrical joints, each swivel bracket made of two parts interconnected by a sixth and seventh cylindrical joints, and the sixth and seventh cylindrical joints are kinematically connected between by rods of linear drive. 7. An air valve comprising a frame mounted on it with a means for blocking the passage, characterized in that the means for blocking the passage is made in the form of a panel mounted to rotate on a first cylindrical hinge connecting the panel with the frame, and the valve is equipped with at least , one swivel bracket connected to the frame by a second cylindrical hinge. 8. The valve according to claim 7, characterized in that the axes of the first and second cylindrical hinges intersect at right angles. 9. The valve according to claim 7, characterized in that the bracket is made of a triangular plate. 10. The valve according to claim 7, characterized in that the bracket is made of a plate of the shape of a circle sector. 11. The valve according to claim 7, characterized in that it is equipped with a means for reducing friction between the panel and the bracket. 12. The valve according to claim 11, characterized in that the means for reducing friction between the panel and the bracket is made in the form of at least one roller mounted on an axis mounted on the bracket. 13. The valve according to claim 7, or 8, or 9, or 10, or 11, or 12, characterized in that the bracket is kinematically connected to the drive of rotation of the bracket about the axis of the second cylindrical hinge. 14. The valve according to claim 7, characterized in that the panel is provided with two swivel arms, the second swivel bracket connected to the frame by a third cylindrical hinge. 15. The valve of claim 14, wherein the second bracket is kinematically coupled to a rotational drive of the second bracket about the axis of the third cylindrical hinge. 16. The valve according to clause 15, wherein the rotation actuators of the first and second brackets are structurally combined. 17. An air valve comprising a frame with means for blocking the passageway secured to it, characterized in that the means for blocking the passageway is made in the form of a panel mounted for rotation on a cylindrical hinge connecting it to the frame, and the panel is connected to the frame by flexible connection, made of sheet material. 18. The valve according to 17, characterized in that the panel is connected to the frame by a flexible connection made of tarpaulin. 19. The valve according to 17, characterized in that the flexible connection together with the panel forms a protective casing in the open position of the valve.