FI69347C - VENTIL - Google Patents

Description

The present invention relates to a valve for controlling the flow in a pipe of flexible cross-section of flexible material, which valve comprises two or more traction wires surrounding the pipe from outside it and in which the pipe can be constricted so that its opening shape remains unrestrained.

Valves whose operation is based on the compression of a pipe made of a flexible material are in most cases designed in such a way that the pipe is first compressed to an oval cross-section and then, when the compression is continued, it is completely flattened. Such a solution is particularly suitable in cases where the function of the valve is only to open and close the pipe.

On the other hand, there are also cases where there is a need to regulate the flow in a flexible pipe by throttling the pipe, i.e. by regulating the size of its opening at the valve. In this case, it is advantageous if the choke can be performed without changing the shape of the opening, i.e. so that the opening retains its circular shape regardless of the degree of the choke. Namely, the smallest possible flow resistance is achieved with the circular opening, and in addition, when used, for example, in a cyclone outlet channel, such a valve does not break the vortex in the flow passing through it.

One solution is known for constricting a flexible pipe with a circular cross-section so that the opening of the pipe retains its round shape at the constriction point. The solution is based on the use of compression pieces surrounding the pipe and a pressure chamber, i.e. the movement of said pieces by means of the pressure prevailing in the chamber. However, the disadvantage of this solution is its high cost as well as its susceptibility to faults.

GB application 0 090 378 further discloses a throttle valve in which a pipe body of flexible material is surrounded by wires, the ends of which are attached to annular members rotating relative to each other. The throttling of the tubular body is thus provided by the rotational movement of the annular members.

The object of the present invention is to provide an even simpler and more reliable solution for strangling a flexible pipe without changing the shape of its opening. The invention is characterized in that the tension cables with which the pipe is constricted are bent mainly in the shape of the letter U and placed against opposite sides of the pipe so that the cables together surround the pipe and the cables are connected to two frame bodies which move in a straight line relative to each other. with which the wires can be pulled in opposite directions.

When the operation of the valve according to the invention is based on the movement of the traction cables provided by the linearly movable body cap1a, the valve is simple, reliable and inexpensive. Preliminary experiments have shown that the valve operates reliably, keeping the orifice of the pipe substantially round over a wide choke area.

A preferred embodiment of the invention is characterized in that the choke 1 consists of three tension cables adjacent in the pipe direction, the middle of which is opposite to the outermost ones so that the middle wire surrounds the pipe on one side and the outermost wires on the other side. Such an arrangement provides a uniform constriction on the pipe which best keeps the shape of the pipe opening unchanged.

The invention will now be described in more detail by way of example with reference to the accompanying drawing, in which

Figure 1 shows a pipe of flexible material and a valve according to the invention with which the pipe can be throttled in order to regulate the flow therein,

Figure 2 shows the pipe and the throttle members of the valve with the pipe throttled, and 3 69347

Figure 3 shows a side view of the throttled pipe and the throttle members of the valve.

Figure 1 shows in cross-section a pipe 1 of circular cross-section made of a flexible material, such as rubber or plastic, and a valve 2 for regulating the flow in the pipe. The adjustment takes place by throttling the pipe 1 so that its opening retains its substantially circular shape.

The means by which the throttling of the pipe 1 is provided consist in the valve 2 of traction wires 3 which are bent around the pipe so that their shape substantially corresponds to the letter U. The traction sheaves 3 are arranged symmetrically with respect to the pipe 1 so that they curve around the pipe on its opposite sides and together surround the pipe. It can be seen from Figure 3 that the valve comprises three traction cables 3 adjacent in the direction of the pipe 1, the middle of which is located opposite the outermost ones so that the middle wire surrounds the pipe on one side and the outermost wires on the other side.

The throttling of the pipe 1 by means of pulling wires 3 takes place by pulling the middle wire surrounding the pipe on one side and the outermost wires surrounding the other side in opposite directions. In Fig. 1, the traction cables 3 are in their initial position, where the pipe 1 is not subjected to constriction. The situation in which the pipe 1 is constricted by the tension provided by the traction cables 3 is shown in Figures 2 and 3. As can be seen from Figure 2, the shape of the opening 4 of the pipe 1 remains substantially round at the constriction point.

In order to achieve a throttling movement of the pipe 1 of the traction cables 3, the cables are connected in the valve to two body pieces 5, 6 which are movable relative to each other. The movement is effected by a threaded tightening member 7 connecting the body pieces 5, 6, which moves the piece 6 under the control of the rods 8 belonging to the piece 5.

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The valve 2 shown can also be used as shut-off valves, in which case the body members 5 and 6 act as shut-off members. The tube 1 is closed by pressing the body pieces 5, 6 against each other so that the tube is flattened between them.

It will be clear to a person skilled in the art that the various embodiments of the invention are not limited to the example shown but may vary within the scope of the appended claims. Thus, for example, the threaded tightening member 7 shown can be replaced by a hydraulically, pneumatically or electrically operated tightening member.

Claims (2)

A valve (2) for controlling the flow in a pipe (1) of flexible cross-section of flexible material, which valve comprises two or more pull cables (3) which surround the pipe from outside it and with which the pipe can be strangled so that its opening (4) the shape remains substantially unchanged at the throttling point, characterized in that the tensioning wires (3) are bent mainly in the shape of the letter U and placed against opposite sides of the pipe (1) so that the wires surround the pipe together and the wires are connected in two straight lines; to the frame body (5, 6) with which the wires can be pulled in opposite directions. Valve according to Claim 1, characterized in that the body parts (5, 6) are connected to one another by means of a threaded tightening element (7) which provides a rectilinear movement of the body parts relative to one another. Valve according to Claim 1 or 2, characterized in that the throttling elements consist of three traction cables (3) adjacent in the direction of the pipe (1), the middle of which is opposite to the outermost ones so that the middle wire surrounds the pipe on one side and the outermost cables on the other.