JPS608580A - How to bleed air from the suction pipe - Google Patents

Abstract

PURPOSE:To prevent the rotation of a pump in air and the generation of cavitation, by discharging air in a suction pipe through a valve by the pressure of water in a tank and closing the valve by a check valve when the suction pipe is filled with water. CONSTITUTION:When a level of water in a tank 5 lowers to cause air to flow into a suction pipe 7, the air in the suction pipe 7 is compressed by the pressure of water as the level of the water in the tank 5 rises up. Then the compressed air forces a ball 13 to be lifted, being allowed to flow into a valve main unit 12, further forces a lifter 22 to be pressed upward against a spring 23, thus the air is allowed to flow in a circulative hole 24 and an air bleed passage 18, being discharged to the outside. If the water in the tank 5 reaches a level above a valve 9, the inside of the suction pipe 7 is filled with water. As a result, an air vent 16 is closed by allowing the water in the suction pipe 7 to flow into the valve main unit 12 with a rise of the level of the water so as to lift a float 13 till it is adapted to a tip 15.

Description

[Detailed description of the invention] The present invention relates to a method for venting air from a suction tube.

When attempting to drain water from a water storage tank using a drainage pump, if there is air in the suction pipe that connects the tank to the pump's intake port, the air will be sucked into the pump and the pump will run dry, causing cavitation. .

Therefore, the present invention 1 provides a method for venting air from a suction pipe that solves the problems mentioned above, and the feature is that a check valve is installed at an appropriate place in the suction pipe that connects the water storage tank and the suction port of the drainage pump. A vent valve is provided, and the valve is positioned 1:00 degrees above the normal water level of the tank, and the air in the suction pipe is discharged through the valve by the water pressure of the water in the tank, so that the suction pipe is filled with water. Sometimes it gets stuck in a check valve, forcing the valve to close. According to this method, even if air enters the suction pipe, when the water level in the tank reaches the normal water level, the air in the suction pipe is automatically exhausted through the valve by the water pressure, and the pump This eliminates the risk of dry running and prevents cavitation from occurring.

Further, when the suction 1aP13 is filled with water, the valve is closed by the check valve, and there is an effect that the water in the suction pipe is not discharged.

Hereinafter, one embodiment of the present invention will be described based on the drawings. This example is applied to a semi-submersible type 7,1 upper workbench, and <1)/, ? Platform, (2) is a mail order, (3) i is a user, (4H, Z column, (
5) A water storage tank installed inside the Haplat Home O) that stores ballast water, etc. (6) is a drainage pump installed at the top of the column (4), and (7) is a water storage tank installed inside the column (4). The suction pipe connects the suction port of the pump (6) to the lower part of the tank (5), and its center is bent upward so that a person can pass through. The drain pipe (9) extends from the outlet to the outside of the column (4), and (9) is an air vent valve with a check valve (10) installed at a suitable location in the center of the suction pipe (7), with the following configuration. That is, (b) is the outlet connected to the suction pipe (7), @
is the valve body whose lower end threaded hole is screwed into the discharge port (b),
Q is a spherical float placed inside the valve body (2), α◆ is a cap that is screwed into the upper end screw hole of the valve body @, and αQ is an air vent O formed in the center of the cap αΦ.
1 and is a chip. Further, the check valve includes a valve body O whose lower end male threaded portion is screwed into the upper end female threaded portion of the air vent tS, and a lower large diameter portion of the air vent passage pi formed in the center of the valve body (171). The stop ring 01 screwed into the large diameter part, the stop ring b in the large diameter part, the 0 ring &) supported on the seat plate, and the lower I7]i are arranged in the large diameter part so as to be movable up and down. It consists of an elevating body that can come into contact with the ring Qυ, a spring that urges the elevating body downward, and a spring cover with a circulation hole that covers the spring. There is.

In the above configuration, the water level in the tank (5) becomes low;
Even if there is air in the suction pipe (7), the intake pipe (5)
(Accordingly, the water pressure in the suction pipe (7) is rising, so the air in the suction pipe (7) is compressed as shown in Figure 2, and the compressed air pushes up the ball Q3 and enters the valve body O. , the elevating body is further pushed up against the force of the spring, and the water is discharged to the outside through the circulation hole (■) and the air vent passage (c).Then, the water level in the tank (5) is raised to
), the air in the suction pipe (7) is completely eliminated and the inside of the suction pipe (7) is filled with water. As the water level rises, the water in the suction pipe (7) reaches zero in the valve body.
However, the water causes the float α4 to rise and contact the tip OQ, closing the air vent oQ, so that no further water enters the valve body (2). Next, when the pump (6) is operated in such a state, the water in the tank (5) is sucked into the pump (6) via the suction pipe (7), and is discharged to the sea surface via the drain 1ii7 (g). It is something that will be done.

At that time, the inside of the suction pipe (7) becomes negative pressure, the inside of the valve body (6) is also depressurized, and even if the float (l: is 0 ring ρ
Since the valve body (2) is in pressure contact with the valve body (2), air will not enter from the outside into the valve body (2).

As described above, according to the present invention, even if air enters the suction pipe, when the water level in the tank reaches the normal level,
Due to the water pressure, the air in the suction pipe is automatically discharged through the valve, which prevents the pump from operating as desired (((), which prevents the occurrence of cavitation. Also, the air in the suction pipe is When the suction pipe becomes full, the valve is closed by the check valve, which has the effect of preventing water from being discharged from the suction pipe.

[Brief explanation of drawings]

The figure shows one embodiment of the present invention, and FIG. 1 is a schematic vertical cross section of 1ti
Fig. I and Fig. 2 are longitudinal sectional views of the main parts showing the air venting state, and Fig. 8 is a longitudinal sectional view of the main parts showing the valve closed state. (5)...Water tank, (6)...Drain pump, (
7)...Suction pipe, (9)...Air vent valve, Q9
... Check valve agent Yoshihiro Morimoto Procedural amendment (spontaneous) 1゜8/7, 1988 Patent Application No. 117714 2, Title of invention Method for venting air from suction pipe 3, Amendments to be made Relationship to the patent case Patent applicant name (511) III Tatsuzosen Co., Ltd. 4, Agent
Date 6, Month, Day 6, 1999, Number of inventions increased by 8 due to amendment, Scope of claims in the description of the amendment, Detailed description of the invention in the separate statement M, page 1, line 15 1. Correct the statement ``υ drainage by a drainage pump'' to ``1' water supply by a water pump.'' ■Page 1, line 18, insert ``Unable to send water promptly'' between ``Next'' and [Kihe'bite]. ■In the second line of page 2, correct the phrase ``drainage pump'' to read ``l° water supply pump''. ■Page 2, line 7 to line 8 of the same page, the phrase ``Tobeni...pulp'' is replaced by ``Sometimes, the air bleed pulp is closed, and when the pressure in the suction pipe reaches fM, the air bleed pulp is removed by the check valve. ” he corrected. ■Page 2, line 12, insert ``Water can be supplied immediately'' between ``It runs out'' and ``Caviar''. ■Page 2, line 14, ``check valve'' is corrected to ``air bleed pulp.'' ■Page 2, line 15, ``Not ejected'' should be corrected to ``Do not eject.'' ■Page 5, line 3, 1'' Correct the statement ``Discharged to the sea surface via the drainage pipe (8)'' to ``Supplied via the water pipe (8)''. (9) In the second line of page 3, correct the phrase "ballast water" to read "cooling water." [F] Page 3, line 3, 1-Drain water pump”
and 1'i'J stop. ■Page 3, line 6, ``Discharge'' is corrected to ``Discharge port''. 0 Page 3, 7th stone, correct the word ``drain pipe'' to read ``water pipe.'' Q3 Section 5, line 3, the phrase “is discharged to the sea surface via drainage pipe (8)” is replaced with “
"Water is supplied via water supply g(8)". In the 13th line of the 5th page of the gauze, insert ``Water can be delivered quickly'' between ``It's low'' and ``Cavitation.'' ■Page 5, line 15, ``Check valve'' is corrected to ``Air purge pulp.'' ■Page 5, line 16, ``Not ejected'' is corrected to 1' not blown out. 3. Brief description of drawings in the specification column O, page 6, line 3, replace "(6)...drain pump," with "(6)..."
"Suisui Honda," he corrected. 4. Part of the drawing, Figure 1, is corrected as shown in the attached sheet. 2. Scope of Claims■ A non-returning air-bleeding pulp is provided at the center of the suction pipe connecting the water storage tank and the inlet of the flooding pump, and the pulp is positioned below the normal water level of the tank. 1. A method for venting air from a suction pipe, characterized in that the air in the suction pipe is discharged through the pulp by the water pressure inside the suction pipe, and the venting pulp is closed by a stop valve. Figure 1

Claims (1)

[Claims] ■A vent valve with a check valve is installed at a suitable location on the suction port that connects the water storage tank and the suction port of the drainage pump, and the valve is located below the normal water level of the tank, so that the water in the tank A method for venting air from a suction pipe, characterized in that the air in the suction pipe is discharged through a valve by water pressure, and when water fills in the suction pipe, the water gets stuck in a check valve and closes the valve.