CS239067B1 - Self-locking air valve - Google Patents

Abstract

The purpose of the solution is a self-locking air valve for controlling machinery and devices. The essence of the solution lies in the fact that a piston 8 is slidably mounted in the cylinder with a seal. The piston is pressed by a safety spring in the direction from the cap to the stop ring. The stop ring separates the cylinder from the chamber, further connected to the outlet from the chamber and the inlet to the chamber. The inlet is widened into the seat of the body. The piston with the seal is additionally provided with a centering cavity narrowed by a seat. A closing spring is inserted into the centering cavity. The closing spring is mounted with one end on the piston and the other end on the valve stem.

Description

The invention relates to a self-cleaning air valve for controlling machinery and apparatus.

There are known air valves used to open and close the air flow to machinery and apparatus, where in one position the air passage through the valve is opened, after the control lever is moved to the other position the air passage is closed and the duct after the valve is vented. Mostly the valves are used to control machinery that is adjusted by the supply of compressed air. At other times, the compressed air supply starts rotating or sliding. This operation is interrupted by moving the control lever to the second position. In operation, the following malfunctioning condition may also arise when there is a gradual air leak or shutdown of the air source by the operator. The machine stops automatically but the valve lever remains in the open position. This alignment of the lever may be critical when, for example, another uninformed operator resumes the air supply, believing that the valve is in the closed position. Thereafter, after a certain delay due to an increase in the air pressure to the value required to activate the machinery, the machinery starts to run, which may lead to accidents or even accidents. In order to prevent accidents, written warnings describing the way of handling are addressed.

The above-mentioned drawbacks are overcome by the self-locking air valve according to the invention. The self-locking valve is most commonly used to control instruments and entire machinery. The essence of the invention is that a piston with a seal is displaceably mounted in the cylinder. The piston is pushed by the locking spring away from the cap on the stop ring. A stop ring separates the cylinder from the chamber, further connected to the chamber exit and chamber entry.

- 2 239 097

The inlet is extended to the housing seat. In addition, the piston with the seal is provided with a centering cavity narrowed by the seat · A closing spring is inserted into the centering cavity. The closing spring is supported by one end on the piston rod and the other end on the valve stem. The piston rod is pivoted into the piston on the pin. The shaft at the upper end is fitted with a sealing ring a. • The sealing foot is pushed to the body seat by a closing spring. • The cap is fixed to the body by screws. In an alternative valve arrangement, the cap is screwed into the valve body.

The advantage of the self-locking air valve according to the invention is that it not only ensures air passage through the valve in the open position, but also closes the air passage after the control lever has been moved to the second position. vent valve. In addition, it has an additional function of automatically returning the control lever from the open position to the second closed position when the air pressure drops. This additional function automatically shuts down the machinery when the air pressure drops, so that no injury or an accident can occur after the compressed air is restored · Another advantage of the self-locking air valve is that it can only be moved to the open position when air reaches the pressure value which puts the machinery into operation.

The self-locking air valve according to the invention is shown in the attached schematic drawing.

In the valve body 2 there is an annular stop 17 separating the cylinder 1 from the chamber 18 having an outlet 20 and an inlet 10 with the seat 16 of the body 2. Inside the cylinder 1 is inserted a locking spring 2 »resting on the cap 14 and support ring 11 of the piston. the outer cylindrical part of the piston 6 is a seal 6 of the piston dilution cavity 19, a closing spring 8 being inserted between the piston rod 12, pivotally mounted on the pin 13 and the valve stem 2. On the valve stem 2, a sealing ring 1 and a sealing foot 6 are pushed into the seat 15 of the piston 2 by a closing spring 8. The inlet 10 including the supply pipe to the air reservoir is filled with compressed air up to the sealing foot 6; connected by piping to the machinery and through chamber 18 the centering cavity 12 β through the atmosphere.

• 3,239,067

When the operator moves with the piston rod 12, the piston 2 compresses the locking spring%. At the same time, during this movement, the closing spring 8 still presses the sealing foot & into the seat 16 of the body 2. 2, the valve stem 2 together with the sealing ring χ and the sealing foot 6 begin to move away from the seat 16 of the body 2. Compressed air enters the inlet 10 into the chamber 18 and the outlet 20 into the machinery, thereby actuating it. At the same time, however, the compressed air presses on the surface of the piston 2 and if the force from the air pressure is greater than the force bias of the safety spring 8, the valve automatically remains in the open position. When the operator pushes the piston rod 12 and the piston 2 towards the chamber 18, the sealing foot 18 first engages the seat 16 of the body 2. Further movement moves the seat 15 of the piston 2 away from the sealing ring χ. This opens the passage between the chamber 18 and the centering cavity 19 and compressed air escapes from these spaces around the pin 13 into the atmosphere. A similar situation occurs with a valve held open by compressed air when the compressed air drops. With decreasing air pressure, the force acting on the piston χ decreases. As soon as this force is less than the pretensioning of the locking spring 2, the locking spring 2 compresses the piston 2. First, the sealing foot 6 abuts the seat 16 of the body 2 and the sealing ring χ moves away from the seat 15 of the piston 2. · Έ-ή ¹¹ the passage between the chamber 18, the centering cavity 19 and the compressed air from these spaces escapes around the pin 1β into the atmosphere. The value of the air pressure at which the valve closes automatically can be determined by changing the diameter of the piston 2. or by changing the spring 2 * The spring preload can also be changed by screwing the cap 14 or by delimiting the supporting ring 11 of the piston 2.

Claims (3)

SUBJECT OF THE INVENTION 239 067 A self-locking air valve, used to operate machinery and apparatus, characterized in that a piston (3) is displaceably mounted in a cylinder (1) of the housing (2) and is pushed away from the cap (14) by a locking spring (9) over a support ring (11) on the stop ring (17) separating the cylinder (1) from the chamber (18), which is longer connected to the outlet (20) and the inlet (10), extended into the seat (1.6) of the body (2), wherein the piston (3) with the seal (4) on the outer cylindrical portion is additionally provided with a centering cavity (19) with a seat (15) in which a closing spring (8) is inserted between the pivoted on the pin (13) of the piston rod (12) ) and between the valve stem (5) on which the sealing ring (7) and the sealing foot (6) are pressed against the seat (16) of the body (2). Self-locking air valve according to claim 1, characterized in that the cap (14) is fastened to the body (2) by screws (21). Self-locking air valve according to claim 1, characterized in that the cap (14) is screwed into the body (2).