CN103861326A - Three-dimensional and multi-point continuous push cyclone water distribution structure - Google Patents

Abstract

The invention discloses a three-dimensional and multi-point continuous push cyclone water distribution structure mainly comprising a cyclone barrel, wherein at least three water inlets are formed in the outer wall of the cyclone barrel; a plurality of water inlets are arranged in the axial direction of the cyclone barrel at equal angles; the water inlets are flat openings; the water inlet direction is tangent with the arc surface on the outer wall of the cyclone barrel; the height positions of the plurality of water inlets in the longitudinal section of the cyclone barrel are different, namely a spacing distance is formed in the longitudinal direction; the spacing distance of the water inlets in the longitudinal section of the cyclone barrel is calculated, simulated and adjusted according to the water quality condition. The water inlets of which the cross sections are symmetrical and the distances in the longitudinal section are adjustable are formed in the cyclone barrel, so that water flow enters the cyclone barrel from a multi-point tangent direction of each water inlet when inflowing , so as to form rotational flow, and the lasting time of the effective cyclone action is further prolonged by virtue of the continuous push action of feeding water at the different distances, the oil-water phase separation efficiency is improved, and the oil-water separation effect is improved.

Description

The continuous pushing-type eddy flow cloth water-bound of a kind of three-dimensional multi-point

Technical field

The present invention relates to profit two-phase and separate hydrocyclone, specifically the continuous pushing-type eddy flow cloth water-bound of a kind of three-dimensional multi-point.

Background technology

Profit two-phase separates hydrocyclone water intake mode and cloth water-bound directly has influence on eddy flow effect and the duration of current in cyclone, be mostly unidirectional or bi-directional symmetrical arrangement form at the water inlet cloth water-bound of use at present, and water inlet height is in vertical direction identical, this single, the effective cyclonic action duration of conventional water distribution version is short, water-oil separating efficiency is low, especially in the situation that water profit density contrast is less, treatment effect is often poor.

Summary of the invention

The object of the present invention is to provide a kind of three-dimensional multi-point to continue pushing-type eddy flow cloth water-bound, can further extend the rear effectively cyclonic action duration of hydrocyclone water inlet, improve the separative efficiency of profit two-phase, improve oil-water separation.

In order to reach above-mentioned purpose, the present invention has adopted following technical scheme, and a kind of three-dimensional multi-point continues pushing-type eddy flow cloth water-bound, mainly comprises whirl cylinder, on described whirl cylinder outer wall, is provided with at least three water inlets, and this water inlet is communicated to whirl cylinder inner chamber.

Described whirl cylinder is cylindrical tube shape, and described multiple water inlets are equal angle setting at the axial direction of whirl cylinder.

Described water inlet is flat mouthful of shape, and water inlet direction is all tangent with whirl cylinder outer wall cambered surface.

Described multiple water inlet residing height and position on whirl cylinder longitudinal section is different, has spacing distance at longitudinal direction.

The spacing at described water inlet interval on whirl cylinder longitudinal section is calculated, is simulated and adjust according to water water quality situation.

Compared to prior art, the present invention has following beneficial effect:

The present invention because being provided with cross section symmetry, water inlet that longitudinal section spacing is adjustable on whirl cylinder, in the time of water inlet, current tangentially enter whirl cylinder from each water inlet multi-point, form eddy flow, and rely on that different spacing enters water continuously push away effect, further extend effective cyclonic action duration, improve the separative efficiency of profit two-phase, improve oil-water separation.

Accompanying drawing explanation

Fig. 1 is the continuous pushing-type eddy flow cloth water-bound cross-sectional structure schematic diagram of three-dimensional multi-point;

Fig. 2 is the continuous pushing-type eddy flow cloth water-bound vertical section structure schematic diagram of three-dimensional multi-point.

In figure: 1, whirl cylinder; 2, water inlet; 3, water inlet; 4, water inlet.

The specific embodiment

Relevant detailed description of the present invention and technology contents, coordinate accompanying drawing to be described as follows, but accompanying drawing only provides the use of reference with explanation, is not used for the present invention to be limited.

As shown in Figure 1-2, a kind of three-dimensional multi-point continues pushing-type eddy flow cloth water-bound, and it comprises cylindrical whirl cylinder, and at uniform three water inlets 2,3,4 of whirl cylinder 1 peripheral space.Certainly also can arrange more than three according to the quantity of actual conditions water inlet.

Described water inlet direction is all tangent with whirl cylinder outer wall cambered surface, water inlet is arranged at whirl cylinder periphery solid space, position symmetry on whirl cylinder cross section, the certain distance of location interval on whirl cylinder longitudinal section, the spacing at water inlet interval on whirl cylinder longitudinal section can be calculated, simulate and adjust according to water water quality situation.

In sum, cause is at uniform more than three or three water inlet of whirl cylinder peripheral space, in the time of water inlet, current tangentially enter whirl cylinder from each water inlet multi-point, form eddy flow, and rely on that different spacing enters water continuously push away effect, further extend effective cyclonic action duration, improve the separative efficiency of profit two-phase, improve oil-water separation.

The foregoing is only preferred embodiment of the present invention, non-in order to limit the scope of the claims of the present invention, other use the equivalence of patent spirit of the present invention to change, and all should all belong to the scope of the claims of the present invention.

Claims (5)

1. the continuous pushing-type eddy flow cloth water-bound of three-dimensional multi-point, is characterized in that, mainly comprises whirl cylinder, on described whirl cylinder outer wall, is provided with at least three water inlets, and this water inlet is communicated to whirl cylinder inner chamber.

2. the continuous pushing-type eddy flow cloth water-bound of the three-dimensional multi-point of one according to claim 1, is characterized in that, described whirl cylinder is cylindrical tube shape, and described multiple water inlets are equal angle setting at the axial direction of whirl cylinder.

3. the continuous pushing-type eddy flow cloth water-bound of the three-dimensional multi-point of one according to claim 1, is characterized in that, described water inlet is flat mouthful of shape, and water inlet direction is all tangent with whirl cylinder outer wall cambered surface.

4. the continuous pushing-type eddy flow cloth water-bound of the three-dimensional multi-point of one according to claim 1, is characterized in that, described multiple water inlets residing height and position on whirl cylinder longitudinal section is different, has spacing distance at longitudinal direction.

5. the continuous pushing-type eddy flow cloth water-bound of the three-dimensional multi-point of one according to claim 1, is characterized in that, the spacing at described water inlet interval on whirl cylinder longitudinal section is calculated, simulated and adjust according to water water quality situation.

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