JP4781787B2 - Exhaust valve - Google Patents

Description

  The present invention opens the valve when water is fed into the pipe, exhausts the air in the pipe, closes when the exhaust is finished, and opens when the pressure in the piping system drops to a vacuum state. The present invention relates to an exhaust valve that breaks a vacuum state by introducing external air.

  A conventional exhaust valve forms a valve chamber with an inlet opening at the bottom and an outlet opening at the top of the casing, forming a valve seat between the valve chamber and the outlet, and projecting inward to the valve chamber wall. A float receiver that has a rib and is formed inside the rib with a bottomed, almost cylindrical shape with a through hole that communicates the inside and outside of the bottom is fixed, and the float is placed in the float receiver in a free state. The upper end of the float receiver is positioned at substantially the same height as the upper end of the float, and a communication path is provided between the upper end of the float receiver and the valve casing above it. This exhaust valve is in an open state in which when the water is first fed into the pipe, the float is separated from the valve seat and descends, and the air in the pipe flowing into the valve chamber from the inlet is drawn from the space between the ribs. Exhaust to the outlet through the communication path and through the float receiver. When exhaust is finished and the water in the pipe flows into the valve chamber from the inlet, the float floats by the water flowing into the float receiver from the space between the ribs through the communication passage and through the through hole. Sit down and close. Also, when the pressure in the piping system decreases and the vacuum state is reached, the float moves away from the valve seat and descends, and external air flowing into the valve chamber from the outlet is passed through the through hole and through the communication passage. The vacuum state is broken by introducing it into the pipe from the inlet through the space between the ribs.

The conventional exhaust valve has a problem that, when water suddenly flows into the valve chamber from the inlet, the float floats late and leaks from the outlet. This is because, when water suddenly flows in, a part of the air that has passed through the communication path collides with the upper wall of the valve chamber and rebounds to bias the float downward.
Japanese Utility Model Publication No. 51-54263

  Therefore, the technical problem of the present invention is to provide an exhaust valve that does not cause water leakage even when water suddenly flows into the valve chamber from the inlet.

The technical means of the present invention taken in order to solve the above technical problem is to form a valve chamber having an inflow opening in the lower part and an outflow opening in the upper part in the casing, and between the valve chamber and the outflow opening. A valve seat is formed, a rib projecting inward is formed on the inner wall of the valve chamber, and a float receiver with a bottomed, almost cylindrical shape with a through hole communicating with the inside and outside is fixed inside the rib. The float is arranged in a free state, and the upper end of the float receiver is arranged away from the upper valve casing, and a communication path is provided between the upper end of the float receiver and the upper valve casing to communicate the inside and outside of the float receiver. And a part of the upper end of the float receiver is formed lower than the other part of the upper end of the float receiver .

In the present invention, the upper end of the float receiver is disposed away from the upper valve casing, and a communication passage is provided between the upper end of the float receiver and the upper valve casing to communicate the inside and outside of the float receiver. By forming a part of the upper end lower than the other part of the upper end of the float receiver, even if water suddenly flows into the valve chamber from the inflow port, the force that biases the float downward can be weakened. This produces an excellent effect of not causing water leakage.

In the present invention, the upper end of the float receiver is disposed away from the upper valve casing, and a communication passage is provided between the upper end of the float receiver and the upper valve casing to communicate the inside and outside of the float receiver. Since a part of the upper end is formed lower than the other part of the upper end of the float receiver, a part of the water flowing into the float receiver through the communication path from the space between the ribs flows into the float receiver from a lower position. be able to. Therefore, even when water suddenly flows into the valve chamber from the inlet, the amount of water that collides with the upper wall of the valve chamber and rebounds and biases the float downward can be reduced. Therefore, the force for urging the float downward can be weakened, and water leakage does not occur.

  An embodiment showing a specific example of the above technical means will be described (see FIG. 1). A lid 2 is fastened to the main body 1 with a bolt 3 to form a casing having a valve chamber 4 therein, and an outflow pipe 5 is screwed to the lid 2. An inflow port 6 is formed in the lower part of the main body 1, and an outflow port 7 is formed in the lid 2. An annular mounting member 9 is fixed to the lid 2 with four screws 10 with a valve seat 8 interposed therebetween. The main body 1 integrally has four ribs 11 projecting inwardly on the inner wall of the valve chamber 4, and a bottomed substantially cylindrical float receiver 12 is fixed to the inside of the rib 11 by a snap ring 13. A spherical float 14 is disposed in the float receiver 12 in a free state.

Float receiving 12 have a hole 15 for communicating the inside and outside at the bottom. The float receiver 12 has an upper end spaced apart from the upper lid 2, thereby providing a communication path 16 that communicates between the upper end and the upper lid 2. Float receiving 12 is formed slightly above the center of the float 14 with a portion 12b of the upper end lowered position, Rukoto forming shape at substantially the same height as the upper end of the float 14 in the other part 12a of the upper end lowered position Thus, the upper end portion 12b is formed lower than the upper end other portion 12a.

  The operation of the exhaust valve of the above embodiment is as follows. First, when water is fed into the pipe, the float 14 is separated from the valve seat 8 and is lowered to rest on the bottom wall of the float receiver 12. As a result, the air in the pipe flowing into the valve chamber 4 is exhausted from the space between the ribs 11 through the communication passage 16 and from the through hole 15 through the float receiver 12 to the outlet 7. Then, when the exhaust is finished and the water in the pipe flows into the valve chamber 4 from the inlet 6, the water flowing into the float receiver 12 from the space between the ribs 11 through the communication path 16 and through the through hole 15. The float 14 rises, sits on the valve seat 8 and closes. This prevents water leakage.

  Even if the water in the pipe suddenly flows into the valve chamber 4 from the inlet 6, a part of the water flowing into the float receiver 12 through the communication path 16 from the space between the ribs 11 starts from the lower position in the float receiver 12. Flow into. Therefore, the amount of water that collides with the upper wall of the valve chamber 4 and rebounds and urges the float 14 downward is reduced, and the force that urges the float 14 downward can be weakened, so water leakage does not occur. When the pressure in the piping system is reduced to a vacuum state, the float 14 moves away from the valve seat 8 and descends to be in a valve opening state on the bottom wall of the float receiver 12. Thereby, the external air flowing into the valve chamber 4 is introduced into the pipe from the inlet 6 through the space between the communication passage 16 and the rib 11 and from the float receiver 12 through the through hole 13 into the pipe. Destroy.

Sectional drawing of the exhaust valve of the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body 2 Lid 4 Valve chamber 5 Outflow pipe 6 Inlet 7 Outlet 8 Valve seat 9 Mounting member 11 Rib 12 Float receptacle 14 Float 15 Through-hole 16 Communication path

Claims (1)

In the casing, a valve chamber is formed with an inlet opening at the bottom and an outlet opening at the top, a valve seat is formed between the valve chamber and the outlet, and a rib protruding inward is formed on the valve chamber wall. A float receiver with a bottomed, almost cylindrical shape with a through-hole communicating inside and outside is fixed to the inside of the bottom, and the float is placed in the float receiver in a free state. The upper end of the float receiver is connected to the upper valve casing. A communicating passage is provided between the upper end of the float receiver and the valve casing above the float receiver so as to communicate the inside and outside of the float receiver, and a part of the upper end of the float receiver is lower than the other part of the upper end of the float receiver. An exhaust valve characterized by being formed .

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