CN203113495U - Drainage device used for oxygen steaming tank - Google Patents

Abstract

The utility model discloses a drainage device used for an oxygen steaming tank. The drainage device comprises a first chamber, a second chamber, a pipeline pump, a water inlet pipe, a water guiding pipe, a water carrying pipe and a water outlet pipe, wherein the second chamber is arranged outside the first chamber, the water inlet pipe is communicated with the second chamber, the pipeline pump is respectively communicated with the second chamber and the first chamber through the water guiding pipe and the water carrying pipe, the water outlet pipe is communicated with the first chamber, a first air hole is formed in a water outlet end of the water carrying pipe, a second inlet hole communicated with the first air hole is formed in the top of the second chamber, the horizontal height of the water outlet end of the water carrying pipe is higher than the height of the pipeline pump, the height of the second inlet hole is not lower than that of the pipeline pump, and the volume of the second chamber is larger than that of the water inlet pipe. The drainage device has the advantage of being easy to maintain and clean.

Description

A kind of for the dewatering installation that steams the oxygen pond

Technical field

The utility model relates to steaming oxygen pond, relates in particular to a kind of for the dewatering installation that steams the oxygen pond.

Background technology

The conventional tubing pump of current main employing extracts the water that steams in the oxygen pond, because the water temperature of steaming in the oxygen pond is higher, usually can make faults such as tubing pump leaks, gas leakage, and application life is shorter.In addition, after a drainage works finished, tubing pump quit work, and the water in tubing pump and the pipe can flow backward in the pond; Before new drainage works begins, need in outlet pipe and tubing pump, pour water, otherwise because atmospheric effect, tubing pump can't be extracted the water in the pond out.Therefore, existing tubing pump has the shortcoming that fault is many, the life-span short and use inconvenience.

To this, the applicant has invented a kind of dewatering installation and can address the above problem, but because second chamber is arranged at first chamber interior, this device also exists maintenance, the inconvenient defective of cleaning.

The utility model content

The utility model purpose: the utility model provides the dewatering installation of a kind of easy maintenance and cleaning.

Technical scheme: the dewatering installation for steaming oxygen pond of the present utility model comprises first chamber, second chamber, tubing pump, water inlet pipe, aqueduct, flow pipe and outlet pipe, described water inlet pipe is communicated with second chamber, described tubing pump passes through aqueduct respectively, flow pipe is communicated with described second chamber and first chamber, described outlet pipe is communicated with first chamber, the water side of described flow pipe is provided with first pore, the top of second chamber is provided with second air inlet that is communicated with described first pore, described second chamber is arranged at the outside of second chamber, the level height of described flow pipe water side is higher than the height of tubing pump, the height of described second pore is not less than the height of described tubing pump, and the volume of described second chamber is greater than the volume of water inlet pipe.

Described second chamber comprises barrel-like body and the end cap that removably connects, and is general, is detachably connected as flange and connects.

Adopt flange to be connected between described aqueduct and tubing pump, second chamber.

Adopt flange to be connected between described flow pipe and tubing pump, first chamber.

The volume of described second chamber is more than 1.5 times of water inlet pipe volume.

The height of described outlet pipe is not less than the height of the water side of described flow pipe.

Beneficial effect: drainage pump of the present utility model has maintenance and advantage easy to clean, can further increase the service life.

Description of drawings

Fig. 1 is structural representation of the present utility model.

The specific embodiment

As shown in Figure 1, dewatering installation of the present utility model comprises first chamber 1 and is arranged at second chamber 2 of the first chamber outside that water inlet pipe 4 and second chamber 2 are communicated in its bottom.The bottom of second chamber 2 has delivery port, aqueduct 5 is communicated with second chamber by this delivery port, the water side of aqueduct 5 is communicated with tubing pump 3, tubing pump 3 is sent water into first chamber 1 by flow pipe 6, the water side 61 of flow pipe is provided with first pore 8, stack 8 is communicated with first chamber by this flow pipe, and the top of second chamber 2 is provided with second air inlet 9 that is communicated with first pore.The level height of flow pipe water side 61 is higher than the height of tubing pump.The volume of second chamber 2 is greater than the volume of water inlet pipe 4.

When using for the first time, owing in the water inlet pipe 4 air is arranged, so air is pumped to earlier in second chamber 2, because the volume of second chamber 2 is greater than the volume (volume of second chamber is specially 1.5 times of water inlet pipe volumes among this embodiment) of water inlet pipe 4, when so the water in second chamber 2 is not drained as yet, water in the pond namely is drawn into second chamber 2, so remain full of water state in the tubing pump 3.Tubing pump 3 is sent into first chamber 1 with water by flow pipe 6, with the increase of rate of water added, by the time during certain altitude, water will be discharged along outlet pipe 7.In draining, the part air in second chamber also is pulled away.In the time of in working order, the water of first cavity can enter into second chamber 2 by first pore 8, second pore 9, produces a backflow, so the flux of first pore 8, second pore 9 can not be too big, prevents that capacity of returns is bigger.

When the water in the pond has been arranged, turn off tubing pump 3, under atmospheric effect (siphonage), air pushes back in the pond water is reverse along outlet pipe 7, slowly enters air in first chamber 1, when the horizontal plane in first chamber is lower than the air inlet port of tracheae 8, air enters water inlet pipe 4 along first pore 8 and second pore 9, when entering air in certain amount, the atmospheric pressure in first chamber equals the atmospheric pressure in the water inlet pipe 4, and water stops to flow.This dewatering installation can guarantee to be full of in the tubing pump water, and namely horizontal plane is between first plane 101 and second plane 102.When drainage works next time, need not in tubing pump, to pour water.After work is finished, water refluxes, gas flows into water inlet pipe from tracheae, in order in water inlet pipe, to produce air chamber faster, stop water to be siphoned off, the diameter of first pore 8, second pore 9 and tube connector all can not be too little, so that air can arrive water inlet pipe faster, makes the air pressure balance at two ends.

All adopt flange to connect in this embodiment between aqueduct 5 and tubing pump 3, second chamber 2.Also adopt flange to connect between flow pipe 6 and tubing pump 3, first chamber 1.Because second chamber is arranged on the outside, can take maintenance and cleaning easily apart.

Claims (7)

1. dewatering installation that be used for to steam the oxygen pond, it is characterized in that, comprise first chamber (1), second chamber (2), tubing pump (3), water inlet pipe (4), aqueduct (5), flow pipe (6) and outlet pipe (7), described water inlet pipe (4) is communicated with second chamber (2), described tubing pump (3) is respectively by aqueduct (5), flow pipe (6) is communicated with described second chamber (2) and first chamber (1), described outlet pipe (7) is communicated with first chamber (1), the water side of described flow pipe (61) is provided with first pore (8), the top of second chamber (2) is provided with second air inlet (9) that is communicated with described first pore (8), described second chamber (2) is arranged at the outside of second chamber (1), the level height of described flow pipe water side (61) is higher than the height of tubing pump (3), the height of described second pore (9) is not less than the height of described tubing pump, and the volume of described second chamber (2) is greater than the volume of water inlet pipe (4).

2. as claimed in claim 1 for the dewatering installation that steams the oxygen pond, it is characterized in that: described second chamber (2) comprises barrel-like body and the end cap that removably connects.

3. as claimed in claim 1 for the dewatering installation that steams the oxygen pond, it is characterized in that: the employing flange is connected between described aqueduct (5) and tubing pump (3), second chamber (2).

4. as claimed in claim 1 for the dewatering installation that steams the oxygen pond, it is characterized in that: the employing flange is connected between described flow pipe (6) and tubing pump (3), first chamber (1).

5. as claimed in claim 2 for the dewatering installation that steams the oxygen pond, it is characterized in that: the described flange that is detachably connected as connects.

6. as claimed in claim 1 for the dewatering installation that steams the oxygen pond, it is characterized in that: the volume of described second chamber (2) is more than 1.5 times of water inlet pipe volume.

7. as claimed in claim 1 for the dewatering installation that steams the oxygen pond, it is characterized in that: the height of described outlet pipe (7) is not less than the height of the water side (61) of described flow pipe.

Images