JPH0645679Y2 - Jet pump - Google Patents

Description

[Detailed Description of the Invention] Industrial field of application The present invention relates to a jet pump used for transporting sediment such as sand and sludge settling in a sand basin of a water treatment facility including a sewerage facility. Is.

2. Description of the Related Art Jet pumps can be used to lift up objects that are pumped up, such as sand that has settled at the bottom of a sand basin or sludge in a pit. Conventional jet pumps have a receiving pipe that opens toward the pump-up target such as sand and sludge, and a jet nozzle that injects jet water into the receiving pipe and sucks the pump-up target into the receiving pipe. The ones are common.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the above conventional configuration, the sand pumping performance of the jet pump is greatly affected by the jetting force of the jet water, which is high-pressure water, into the receiving pipe and the amount of the jet water. And this is largely due to the performance of the jet water pump that sends the jet water to the jet nozzle, but the diameter of the jet nozzle of the jet nozzle that jets the jet water and the diameter of the opening of the receiving pipe that receives this jet water. And the relationship between the ejection port and the distance between the opening and the opening also have an effect without rake.

The present invention solves the above problems, and an object of the present invention is to provide a jet pump having improved sand lifting performance.

Means for Solving the Problems In order to solve the above problems, the present invention is directed to a receiving pipe which is arranged with its lower end opening facing the sediment of a sand basin of a water treatment facility, and below the receiving pipe. It is arranged facing the opening of the receiving pipe,
In a jet pump having a jet nozzle for injecting a jet jet from the jet hole toward the inside of the receiving pipe, a jet water jet hole for jetting jet water into the jet hole of the jet nozzle and air around the jet water jet hole A jet nozzle is provided so that the opening end of the ejection hole is located at a predetermined distance l _O from the opening end of the receiving pipe, and the diameter of the opening of the receiving pipe is D _P , The diameter of the jet water jet hole of the jet nozzle is D _J ,
The distance between the receiving pipe, the opening end, and the opening end of the ejection hole is set to l _J , the value of D _P / D _J is set to 1.2 to 4, and the value of l _J / D _J is set to 1 to 10. .

Action In the above configuration, the jet water ejected from the ejection hole of the jet nozzle sucks in air from the communication port, and once becomes a gas-liquid two-phase jet jet, and becomes a mixed fluid of sand and water in the sand basin. After being released, it is sucked into the receiving pipe together with the sand and water near the opening of the receiving pipe. At this time,
If D _P / D _J <1.2, the gap between the jet jet and the opening of the receiving pipe becomes too small, and the jet jet protrudes from the receiving pipe, and the suction of the sediment into the receiving pipe becomes poor. Also,
If D _P / D _J > 4, the gap between the opening of the receiving pipe and the jet jet becomes too large, and the effect of the ejector generated in the receiving pipe by the jet jet becomes small, so that sand settling and water absorption are sufficient. Can't go to. Then l _J /
If D _J <1, the inlet of the settling sand formed between the receiving pipe and the jet nozzle becomes too small, and blockage occurs at the inlet due to the settling of sand in the sediment, sludge, or coarse particles. . If l _J / D _J > 10, the jet jet diffuses by the time it reaches the opening of the receiving pipe, and the force of sucking the sediment into the receiving pipe by the jet jet decreases. Therefore, the value of D _P / D _J is 1.2
By setting the values of ~ 4 and l _J / D _J to 1 to 10, the sand pumping performance of the jet pump can be optimized.

Embodiment An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, a settling 2 is retained in a settling pit 1 of a settling basin in a state of being mixed with water. A jet pipe receiving pipe 3 is arranged with its lower end opened so as to face the sediment 2. Below the opening 4 of the receiving pipe 3, a jet nozzle 6 having an ejection hole 5 capable of ejecting a jet jet A toward the inside of the receiving pipe 3 is provided so as to face the opening 4. A drive water pipe 7 that supplies jet water B that is high-pressure water is connected to the lower end side of the jet nozzle 6.
An air chamber 8 communicating with the ejection hole 5 is formed on the peripheral side of the jet nozzle 6, and an air pipe 9 whose one end is open to the atmosphere is connected to the air chamber 8. The jet hole 5 is formed wider than the jet water jet hole 11 for jetting the jet water B into the jet hole 5 with the communication port 10 of the air chamber 8 as a boundary. Then, the diameter of the opening 4 of the receiving pipe 3 is D _P , the diameter of the ejection hole 5 is D _O , the diameter of the jet water ejection hole 11 is D _J, and the opening end of the receiving pipe 3 and the opening end of the ejection hole 5 are the distance between the l _O, the distance between the opening end of the opening end and the jet vents 11 of the receiving tube 3 as l _J, 1 the values of D _P / D _J and D _P / D _O.
2 to 4, l _J / D _J and l _O / D _O have values of 1 to 10, and l _O / D _{P has} a value of 0.8 to 5.

The operation of the above configuration will be described below. Jet water B supplied from the drive water pipe 7 to the jet nozzle 6
Is jetted toward the inside of the receiving pipe 3 from the jet water jet hole 11. When the jet water B passes through the jet hole 5, the jet water B is introduced from the communication port 10 around the jet water jet hole 11 into the air chamber 8
The suction of air through the air pipe 9 suppresses the occurrence of cavitation, and the jet hole 5 forms a jet jet A together with the sucked air and jets it into the settling sand 2. The jet jet flow A thus jetted is sucked into the receiving pipe 3 together with the sand 2 and water in the vicinity of the opening 4 of the receiving pipe 3. The characteristics of the pump efficiency η of the jet pump at this time are shown in FIGS. 2 and 3. As is clear from FIGS. 2 and 3, when the value of D _P / D _J is 1.2 to 4 and the value of l _J / D _J is 1 to 10, the value of pump efficiency η is considered to be good. Become. By the way, when D _P / D _J <1.2, the gap between the jet jet A and the opening 4 of the receiving pipe 3 becomes too small, and finally a part of the jet jet A overflows, and the sand 2 falls into the receiving pipe 3. Sucks in bad. If D _P / D _J > 3, the gap between the opening 4 of the receiving pipe 3 and the jet jet A becomes too large, and the jet jet A causes the receiving pipe 3
The effect of the ejector generated in the
Backflow occurs downward on the inner wall side of the receiving pipe, and it becomes impossible to fully suck the sand 2 and water. Next, if l _J / D _J <1, the opening of the suction port formed between the receiving pipe 3 and the ejection hole 5 becomes narrower, and a coarse object and clogging by the settling sand 2 occur. If l _J / D _J > 10, the jet jet A diffuses by the time it reaches the opening 4 of the receiving pipe 3, and the force of sucking the sand 2 into the receiving pipe 3 by the jet jet A decreases.

Next, Fig. 4 shows the sand lifting pressure H _J and the sand lifting amount Q _J of the jet pump.
Shows the relationship. In FIG. 4, a is a value of l _J / D _J of 1 to
10 shows the characteristics of this embodiment in which the values of D _P / D _J are 1.2 to 4, and b shows the characteristics at other values. Therefore, as is clear from FIG. 4, according to the present embodiment, both the lifting pressure and the lifting amount are increased at the same time,
The sand pumping performance of the jet pump can be improved.

In addition, the lump of the settled sand 2 sucked into the receiving pipe 3 is
Even if the diameter is D _P or more, the lump is made to collide with the lower end of the receiving pipe 3 by the pushing force of the jet jet A, deformed or crushed, and easily pushed into the receiving pipe 3. further,
Even if it is a coarse object having a length of the receiving pipe 3 that is greater than or equal to the diameter D _P ,
Deformable items such as ropes and vinyl are pushed into the receiving pipe 3 together with the sand 2.

As described above, according to the present invention, the value of D _P / D _J is 1.2 to
4, By setting the value of l _J / D _J to 1 to 10, the sand pumping performance of the jet pump can be improved and optimized.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of the present invention, FIGS. 2 and 3 are diagrams showing characteristics of pump efficiency η of a jet pump, and FIG. 4 is a pumping sand pressure and a pumping sand amount of a jet pump. It is a figure which shows the relationship of. 1 ... Settling pit, 2 ... Settling, 3 ... Receiving pipe, 4 ... Opening, 6 ... Jet nozzle, 11 ... Jet water jet hole,
A: Jet jet, B: Jet water.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Nagasaku Yamaguchi 1-2-47 Shikizu East, Naniwa-ku, Osaka City, Osaka Prefecture Kubota Iron Works Co., Ltd. (72) Nobutaka Sakurai Shiritsu, Nanaya-ku, Osaka City, Osaka Prefecture East 1-2 chome 47 Kubota Iron Works Co., Ltd. (56) References Japanese Patent Publication No. 17687/47

Claims (1)

[Scope of utility model registration request] 1. A receiving pipe which is arranged with a lower end opening facing a sediment in a sand basin of a water treatment facility, and is arranged below the receiving pipe so as to face the opening of the receiving pipe and is directed toward the inside of the receiving pipe. In a jet pump provided with a jet nozzle for injecting a jet jet from the jet nozzle, a jet water jet hole for jetting jet water into the jet nozzle and a communication for sucking air around the jet water jet hole A jet nozzle is provided so that the opening end of the ejection hole is located at a predetermined distance l _O from the opening end of the receiving pipe, the diameter of the opening of the receiving pipe is D _P , and the jet water ejection hole is Is D _J , and the distance between the receiving pipe and the opening end and the opening end of the jet water ejection hole is l _J , and the value of D _P / D _J is 1.2 to 4 and the value of l _J / D _J is A jet pump characterized by being configured as 1 to 10.