CN102179070B - Continuous quick debubbling device for monitoring water quality on line - Google Patents

Abstract

The invention discloses a continuous quick debubbling device for monitoring water quality on line, which comprises a debubbling guiding container, a water inlet and a water outlet which are formed at two ends of the bottom of the debubbling guiding container, a plurality of stages of guiding parts arranged in the debubbling guiding container at intervals, and a rotameter arranged at the water inlet, wherein the guiding parts comprise guiding upper plates and guiding lower plates arranged at intervals in turn; a gap is formed between the bottom ends of the guiding upper plates and the bottom of the debubbling guiding container; the bottom ends of the guiding lower plates are connected with the bottom of the debubbling guiding container, while the top ends are positioned in the middle of the debubbling guiding container; and a continuous guiding chamber is formed between adjacent guiding upper plate and guiding lower plate. The continuous quick debubbling device for monitoring water quality on line can continuously, quickly and effectively remove bubbles from liquid, and is simple in structure, safe and reliable.

Description

A kind of device for continuously and rapidly defoaming for monitoring water quality on line

Technical field

The present invention relates to a kind of defoaming device, refer in particular to a kind of device for continuously and rapidly defoaming for monitoring water quality on line, belong to water quality monitoring equipment.

Background technology

Monitoring water quality on line is as a kind of supervision of novel environment friendly and measure the technology of pollutant in water body, the kind of pollutant in water body, concentration and the variation tendency of each pollutant can be detected, the evaluating water quality situation.In the process of monitoring water quality on line, when utilizing high-pressure hydraulic pump by water sample suction water quality monitoring equipment, because the pressure of the water sample that is drawn into water quality monitoring equipment reduces, thereby the air release that makes to incorporate water sample out, is easy to produce a large amount of bubbles.If utilize optical method for measuring water quality parameter such as turbidity, chlorophyll fluorescence etc., these bubbles will cause scattering to the light in water body, thereby cause the water quality parameter of measuring distortion.

For this reason, also having had some at present can be with the device that removes bubble, as the disclosed a kind of defoaming device that separates of Chinese patent literature " the degassed and defoaming device that CN101500692A is integrated ".But the shortcoming of this churning deaerator is complicated structure, and cost of manufacture is higher, has significantly increased production cost, and this device can not be realized the water sample continuously and rapidly defoaming.

Summary of the invention

The purpose of this invention is to provide a kind of device for continuously and rapidly defoaming for monitoring water quality on line, can uninterruptedly remove fast and effectively continuously bubble in liquid, simple in structure, safe and reliable.

For achieving the above object, technical scheme of the present invention is to provide a kind of device for continuously and rapidly defoaming for monitoring water quality on line, and it comprises deaeration water conservancy diversion container, water inlet, delivery port and is disposed on some grades of diversion components in this deaeration water conservancy diversion container; Wherein, described diversion component comprises successively spaced water conservancy diversion upper plate and water conservancy diversion lower plate; Between the bottom of the bottom of described water conservancy diversion upper plate and deaeration water conservancy diversion container, gap is set; The bottom of described water conservancy diversion lower plate is connected with the bottom of deaeration water conservancy diversion container, and the top of this water conservancy diversion lower plate is positioned at the intermediate altitude place of deaeration water conservancy diversion container; Between described adjacent water conservancy diversion upper plate in twos and water conservancy diversion lower plate, form continuous water conservancy diversion chamber.

Described water inlet and delivery port are separately positioned on the two ends, bottom of deaeration water conservancy diversion container.

The top of described deaeration water conservancy diversion container is opened wide and is arranged, and with atmosphere, communicates.

The both sides of described water conservancy diversion upper plate and water conservancy diversion lower plate all are connected with the madial wall of described deaeration water conservancy diversion container.

Described water conservancy diversion upper plate and all vertical settings of water conservancy diversion lower plate.

The top of described water conservancy diversion upper plate flushes with the height of deaeration water conservancy diversion container.

20 continuous water conservancy diversion chambers are set at least in described deaeration water conservancy diversion container, i.e. spaced ten grades of diversion components at least successively.

Described water conservancy diversion chamber is continuous annular compartment, or continuous rectangle chamber, or and continuous cavity that form spaced by the diversion component of other shapes.

In described water conservancy diversion upper plate and previous stage diversion component in the distance of water conservancy diversion lower plate and this water conservancy diversion upper plate and diversion component at the corresponding levels the ratio of distances constant of water conservancy diversion lower plate be 1:3.

Further, device for continuously and rapidly defoaming of the present invention also comprises a spinner flowmeter, and it is arranged on water inlet, and the liquid water stream that makes to flow into deaeration water conservancy diversion container is stabilized in 200 to 750 ml/min.

Device for continuously and rapidly defoaming provided by the present invention, be applicable to the continuously and rapidly defoaming in various monitoring water quality on line processes.This defoaming device has adopted deflector cleverly, therefore contrasts prior art, and its structure is very simple, is easy to realize; Save simultaneously energy consumption, cheap for manufacturing cost, simple and convenient operation and maintenance; And safe and reliable, the effect of eliminating bubble in liquid is obvious fast.

The accompanying drawing explanation

Fig. 1 is for the structural representation of the device for continuously and rapidly defoaming of monitoring water quality on line in the present invention.

The specific embodiment

Below in conjunction with Fig. 1, describe a preferred embodiment of the present invention in detail.

As shown in Figure 1, be the structural representation of described device for continuously and rapidly defoaming for monitoring water quality on line, it comprises deaeration water conservancy diversion container 5; Be separately positioned on water inlet 1 and the delivery port 2 at the two ends, bottom of this deaeration water conservancy diversion container 5; Be disposed on some grades of diversion components in this deaeration water conservancy diversion container 5; And the spinner flowmeter 6 that is arranged on described water inlet 1 place.

Wherein, the top of described deaeration water conservancy diversion container 5 is opened wide and is arranged, and with atmosphere, communicates.

Described diversion component comprises successively spaced water conservancy diversion upper plate 3 and water conservancy diversion lower plate 4.The both sides of described water conservancy diversion upper plate 3 and water conservancy diversion lower plate 4 all are connected with the madial wall of described deaeration water conservancy diversion container 5, on technique is made, are to make water conservancy diversion upper plate 3, water conservancy diversion lower plate 4 and deaeration water conservancy diversion container 5 one-body molded.Further, the bottom of described water conservancy diversion upper plate 3 arranges near the bottom of deaeration water conservancy diversion container 5, namely between the bottom of the bottom of this water conservancy diversion upper plate 3 and deaeration water conservancy diversion container 5, gap is set, and the top of water conservancy diversion upper plate 3 flushes with the height of deaeration water conservancy diversion container 5.The bottom of described water conservancy diversion lower plate 4 is connected with the bottom of deaeration water conservancy diversion container 5, and the top of this water conservancy diversion lower plate 4 is positioned at the intermediate altitude place of deaeration water conservancy diversion container 5.Between described adjacent water conservancy diversion upper plate 3 in twos and water conservancy diversion lower plate 4, form continuous water conservancy diversion chamber.

In a preferred embodiment of the present invention, described water conservancy diversion upper plate 3 and all vertical settings of water conservancy diversion lower plate 4.

In another preferred embodiment of the present invention, 20 continuous water conservancy diversion chambers are set at least in described deaeration water conservancy diversion container 5, i.e. spaced ten grades of diversion components (10 water conservancy diversion upper plates 3 and 10 water conservancy diversion lower plates 4) at least successively.

In another preferred embodiment of the present invention, described water conservancy diversion chamber can be continuous annular compartment, or continuous rectangle chamber, or and continuous cavity that form spaced by the diversion component of other shapes.

In another preferred embodiment of the present invention, in described water conservancy diversion upper plate 3 and previous stage diversion component in the distance of water conservancy diversion lower plate 4 and this water conservancy diversion upper plate 3 and diversion component at the corresponding levels the ratio of distances constant of water conservancy diversion lower plate 4 be 1:3.As shown in Figure 1, namely set water conservancy diversion upper plate 3 and Guide and flow down distance between plate 4 for X, the distance of setting between this water conservancy diversion upper plate 3 and right side water conservancy diversion lower plate 4 is Y, X:Y=1:3 so.

In another preferred embodiment of the present invention, the liquid water stream that described spinner flowmeter 6 makes to flow into deaeration water conservancy diversion container 5 is stabilized in 200 to 750 ml/min.

When described device for continuously and rapidly defoaming work, first open slowly water inlet 1, make to need to remove water inlet 1 inflow of the liquid of bubble by deaeration water conservancy diversion container 5 one side bottoms, and the water intake velocity of the spinner flowmeter 6 close observation water inlets 1 by being arranged on water inlet 1 place, the liquid water stream that makes to flow into deaeration water conservancy diversion container 5 is stabilized in 200 to 750 ml/min, thereby avoids the flow rate of liquid that enters too fast and overflow across the top of the water conservancy diversion upper plate 3 of first order diversion component.First order water conservancy diversion upper plate 3 forces downward liquid flow at this moment, makes the gap of liquid between first order water conservancy diversion upper plate 3 bottoms and deaeration water conservancy diversion container 5 bottoms flow into first order water conservancy diversion chamber 101.After liquid enters this grade water conservancy diversion chamber 101, along the space between first order water conservancy diversion upper plate 3 and first order water conservancy diversion lower plate 4, continue upwards to flow; Liquid is in the process that upwards flows, and the bubble in current, because buoyancy rises to liquid surface, simultaneously due to the reduction of liquid to pressure in bubbles, makes the bubble explosion.When liquid overflows across the top of first order water conservancy diversion lower plate 4 and flows in second level water conservancy diversion chamber 102, second level water conservancy diversion upper plate 3 still forces downward liquid flow, and makes the gap of liquid between water conservancy diversion upper plate 3 bottoms, the second level and deaeration water conservancy diversion container 5 bottoms flow into next stage water conservancy diversion chamber.So move in circles, liquid is every during through a water conservancy diversion chamber, its contained bubble is filtered step by step, final when the liquid priority after at least 20 water conservancy diversion chambers, its contained bubble is eliminated gradually, the liquid of final not bubbles flows out from the delivery port 2 of deaeration water conservancy diversion container 5 opposite side bottoms, thereby completes fast continuously deaeration.

Device for continuously and rapidly defoaming provided by the present invention, be applicable to the continuously and rapidly defoaming in various monitoring water quality on line processes.This defoaming device has adopted deflector cleverly, therefore contrasts prior art, and its structure is very simple, is easy to realize; Save simultaneously energy consumption, cheap for manufacturing cost, simple and convenient operation and maintenance; And safe and reliable, the effect of eliminating bubble in liquid is obvious fast.

Although content of the present invention has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.After those skilled in the art have read foregoing, for multiple modification of the present invention with to substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (7)

1. device for continuously and rapidly defoaming for monitoring water quality on line, it is characterized in that, comprise: deaeration water conservancy diversion container (5), water inlet (1), delivery port (2), spinner flowmeter (6) and be disposed on some grades of diversion components in this deaeration water conservancy diversion container (5); Wherein,

The top of described deaeration water conservancy diversion container (5) is opened wide and is arranged, and with atmosphere, communicates;

Described diversion component comprises successively spaced water conservancy diversion upper plate (3) and water conservancy diversion lower plate (4);

Between the bottom of the bottom of described water conservancy diversion upper plate (3) and deaeration water conservancy diversion container (5), gap is set;

The bottom of described water conservancy diversion lower plate (4) is connected with the bottom of deaeration water conservancy diversion container (5), and the top of this water conservancy diversion lower plate (4) is positioned at the intermediate altitude place of deaeration water conservancy diversion container (5);

Between described adjacent water conservancy diversion upper plate (3) in twos and water conservancy diversion lower plate (4), form continuous water conservancy diversion chamber; 20 continuous water conservancy diversion chambers are set at least in described deaeration water conservancy diversion container (5), i.e. spaced ten grades of diversion components at least successively;

Described spinner flowmeter (6) is arranged on water inlet (1) and locates, and the liquid water stream that makes to flow into deaeration water conservancy diversion container (5) is stabilized in 200 to 750 ml/min.

2. device for continuously and rapidly defoaming as claimed in claim 1, is characterized in that, described water inlet (1) and delivery port (2) are separately positioned on the two ends, bottom of described deaeration water conservancy diversion container (5).

3. device for continuously and rapidly defoaming as claimed in claim 1, is characterized in that, the both sides of described water conservancy diversion upper plate (3) and water conservancy diversion lower plate (4) all are connected with the madial wall of described deaeration water conservancy diversion container (5).

4. device for continuously and rapidly defoaming as claimed in claim 3, is characterized in that, described water conservancy diversion upper plate (3) and all vertical settings of water conservancy diversion lower plate (4).

5. device for continuously and rapidly defoaming as claimed in claim 4, is characterized in that, the top of described water conservancy diversion upper plate (3) flushes with the height of deaeration water conservancy diversion container (5).

6. device for continuously and rapidly defoaming as claimed in claim 1, it is characterized in that, in described water conservancy diversion upper plate (3) and previous stage diversion component in the distance of water conservancy diversion lower plate (4) and this water conservancy diversion upper plate (3) and diversion component at the corresponding levels the ratio of distances constant of water conservancy diversion lower plate (4) be 1:3.

7. device for continuously and rapidly defoaming as claimed in claim 1, is characterized in that, described water conservancy diversion chamber is continuous annular compartment, or continuous rectangle chamber.

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