CN201260943Y - Device for mixing various kinds of liquids - Google Patents

Abstract

The utility model discloses a mixing device of multiple liquids, which comprises a plurality of liquid inlet pipes used for inputting the multiple liquids, a boosting device and an orifice restricted device, wherein the inlet of the boosting device is respectively communicated with the liquid inlet pipes through pipelines and is used for boosting pressure of premixed multiple liquids. The orifice restricted device comprises an input mixing chamber and an output mixing chamber, and the input mixing chamber is connected with the output mixing chamber; the input mixing chamber is provided with a liquid inlet, the output mixing chamber is provided with a liquid outlet, and the liquid inlet of the input mixing chamber is connected with the outlet of the boosting device. A clapboard separating the input mixing chamber from the output mixing chamber is arranged between the input mixing chamber and the output mixing chamber, and restricted orifices are arranged on the clapboard. Premixed liquid after boosting pressure forms high-speed jet flow at the back of the restricted orifices after flowing through the restricted orifices of the orifice restricted device, and the high-speed jet flow forms a vortex flow field, thereby the multiple liquids can be uniformly and fully mixed.

Description

The mixing arrangement of multiple liquid

Technical field

The utility model relates to two kinds and two or more liquid is carried out well-mixed device.

Background technology

In industrial production or scientific research process, usually need two or more liquid fully and is equably mixed, for immiscible two kinds of liquid or two or more liquid, this exists certain degree of difficulty.Thereby, needed badly a kind of can be with the well-mixed device of multiple liquid.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of mixing arrangement that two or more liquid can be carried out well-mixed multiple liquid.

The technical scheme that the utility model adopted is: the mixing arrangement of one kind of multiple liquid comprises:

Be used to import many liquid inlet ducts of multiple liquid;

Increasing apparatus, the inlet of this increasing apparatus is communicated with many liquid inlet ducts respectively by pipeline, the pressure of the multiple liquid after the premixed that is used to raise;

Pore throttling device comprises input mixing chamber and output mixing chamber, and the input mixing chamber links to each other with the output mixing chamber; The input mixing chamber is provided with the liquid inlet, and the output mixing chamber is provided with liquid outlet, and the liquid inlet of input mixing chamber links to each other with the outlet of increasing apparatus; Be provided with one between input mixing chamber and the output mixing chamber and will import mixing chamber and output mixing chamber dividing plate spaced apart from each other, on dividing plate, be provided with throttling pore.

The mixing arrangement of above-mentioned multiple liquid, input mixing chamber, output mixing chamber and throttling pore satisfy following condition: D2〉D1, D1〉2d, D2〉10d, wherein, D1 is the internal diameter of input mixing chamber, and D2 is the internal diameter of output mixing chamber, and d is the diameter of throttling pore.

Adopt above-mentioned technical scheme, after the premix behind the rising pressure flows through throttling pore, form high-speed jet in the throttling pore back, high-speed jet forms the eddy current flow field, thereby multiple liquid can full and uniformly be mixed, and forms emulsifying liquid.

Description of drawings

Fig. 1 is the structural representation of a kind of embodiment of pore throttling device of the present utility model;

Fig. 2 is the principle schematic of the mixed method of multiple liquid of the present utility model;

Fig. 3 is a kind of structural representation of embodiment of the mixing arrangement of multiple liquid of the present utility model.

Among the figure: 1. water inlet pipe 2. stop valves 3. flow control valves 4. flowmeters 5. check valves 6. oil-ins are managed 7. two position three-way valves, 8. flowmeters, 9. force (forcing) pumps, 10. Pressure gauges, 11. adjustable pressure overflow valves, 12. pore throttling device, 13. containers, 14. liquid level control switch, 15. check valves, 16. outlet valves, 17. emulsions and are exported 71. first interfaces, 72. second interfaces 73. the 3rd interface, 100. vortex field streamlines, 121. input mixing chambers, 122. output mixing chambers, 123. dividing plates, 124. throttling pore

The specific embodiment

Below in conjunction with accompanying drawing the utility model is made and to be further specified.

The mixing arrangement of multiple liquid of the present utility model comprises:

Be used to import many liquid inlet ducts of multiple liquid;

Increasing apparatus, the inlet of this increasing apparatus is communicated with many liquid inlet ducts by pipeline, the pressure of the multiple liquid after the premixed that is used to raise;

Pore throttling device comprises input mixing chamber and output mixing chamber, and the input mixing chamber links to each other with the output mixing chamber; The input mixing chamber is provided with the liquid inlet, and the output mixing chamber is provided with liquid outlet, and the liquid inlet of input mixing chamber links to each other with the outlet of increasing apparatus; Be provided with one between input mixing chamber and the output mixing chamber and will import mixing chamber and output mixing chamber dividing plate spaced apart from each other, on dividing plate, be provided with throttling pore.

A kind of preferred embodiment in, many liquid inlet ducts comprise one first liquid inlet duct and one second liquid inlet duct; Increasing apparatus is a force (forcing) pump; This mixing arrangement also comprises stop valve, two position three-way valve, container, liquid level control switch, check valve, emulsion outlet; Liquid level control switch is arranged on the inwall of container, and is electrically connected with stop valve and two position three-way valve respectively; First liquid inlet duct is communicated with successively by the inlet of pipeline with stop valve, force (forcing) pump; Second liquid inlet duct is communicated with successively by the inlet of pipeline with first interface, second interface and the force (forcing) pump of two position three-way valve; The pressurization delivery side of pump is communicated with the liquid inlet of input mixing chamber, and the liquid outlet of output mixing chamber is communicated with container by pipeline; Container is connected with the 3rd interface and the emulsion outlet of two position three-way valve respectively by pipeline, and check valve is arranged on the pipeline between the 3rd interface of container and two position three-way valve.

Fig. 1 shows the structural representation of a kind of embodiment of pore throttling device 2 of the present utility model.

The course of work of the present utility model is: earlier with multiple liquid premixed, and the pressure by the liquid after the increasing apparatus rising premixed; Liquid behind the rising pressure is entered in the input mixing chamber 121 of pore throttling device 2, and flow out throttling pore 124 backs that are arranged on the dividing plate 123 with the form of jet and flow into output mixing chambers 122.The operation principle of the mixed method of multiple liquid of the present utility model is as shown in Figure 2: after premix flows through throttling pore, form high-speed jet in the throttling pore back, high-speed jet forms eddy current as shown in Figure 2 flow field, thereby multiple premixed liquid is together fully mixed, form emulsifying liquid.The eddy current flow field of Fig. 2 has following characteristics:

1. Fig. 2 shows the vortex field streamline 100 on a certain cross section, and similar vortex field streamline is arranged on arbitrary cross section.

2.P1 big more with the ratio of P2, the flow velocity of orifice jet is high more, eddy current is strong more.

3. eddy current is strong more, mixes fully more, and it is good more to mix (emulsification) effect.

In order to make the liquid behind the rising pressure flow out the throttling pore that is arranged on the dividing plate with the form of high-speed jet, preferably, the liquid, input mixing chamber 121, throttling pore 124, the output mixing chamber 122 that enter in the input mixing chamber 121 satisfy following condition: P1〉10P2, D2〉D1, D1〉2d, D2〉10d; Wherein, P1 is for importing the pressure of the liquid behind the rising pressure in the mixing chamber, and P2 is the internal diameter of input mixing chamber for the atmospheric pressure in the output mixing chamber, D1, and D2 is the internal diameter of output mixing chamber, and d is the diameter of throttling pore.

Input mixing chamber 121 and output mixing chamber 122 can be the cylindrical shell shapes.

Throttling pore 124 can be the combination of circular hole, square hole, oblong aperture or other various aperture forms.

Fig. 3 shows a kind of structural representation of the specific embodiment of the mixing arrangement of multiple liquid of the present utility model, present embodiment has only provided water and two kinds of examples that liquid mixes mutually of oil, yet, it will be recognized by those skilled in the art that the utility model also is applicable to the fully mixing mutually of two or more liquid.As shown in the figure, oil flows into from oil-in pipe 6, through first interface 71, second interface 72 and the flowmeter 8 of triple valve 7, arrives the inlet of force (forcing) pump 9; Water flows into from water inlet pipe 1, through stop valve 2, flow control valve 3, flowmeter 4 and check valve 5, arrives the inlet of force (forcing) pump 9, and in the drawings, water and oil premixed in the pipeline of the inlet front of force (forcing) pump 9 form oil-water mixture.Oil-water mixture after pore throttling device 12 as shown in Figure 1, forms strong vortex field after force (forcing) pump 9 superchargings, profit is fully mixed, be emulsified state, emulsifying liquid enters container 13 subsequently, again through stop valve 16 and emulsion outlet 17, target approach device.Be provided with liquid level control switch 14 on the inwall of container 13, this liquid level control switch 14 is electrically connected with stop valve 2 and two position three-way valve 7 respectively.When the liquid level in the container 13 arrives upper control limit, liquid level control switch 14 sends signal, stop valve 2 is closed, stop into water, control two position three-way valve 7 simultaneously, stop to manage 6 oil-feeds, make the 3 73 interface of container 13, check valve 15, triple valve 7 and second interface 72, flowmeter 8, force (forcing) pump 9, pore throttling device 12, container 13, form an interior closed circuit from the oil-in.Otherwise when liquid level in the container arrived lower control limit, liquid level control switch 14 also sent signal, and stop valve 2 is opened, and two position three-way valve 7 is controlled in water inlet simultaneously again, manages 6 oil-feeds again from the oil-in, thereby satisfies the non-quantitation demand of destination apparatus to emulsion.The loop of force (forcing) pump 9, adjustable pressure overflow valve 11 is controlled in the reasonable range charge oil pressure of orifice restriction apparatus 12, if force (forcing) pump 9 is displacement pumps, then adjustable pressure overflow valve 11 can be protected the safety of force (forcing) pump 9 simultaneously.

Though description of the present utility model combines certain embodiments, but it should be understood by one skilled in the art that the utility model is not limited to embodiment described here, and can carry out various modifications and variations and do not deviate from spirit and scope of the present utility model.

Claims (4)

1. the mixing arrangement of one kind of multiple liquid is characterized in that, comprising:

Be used to import many liquid inlet ducts of described multiple liquid;

Increasing apparatus, the inlet of described increasing apparatus is communicated with described many liquid inlet ducts respectively by pipeline, the pressure of the multiple liquid after the premixed that is used to raise;

Pore throttling device comprises input mixing chamber and output mixing chamber, and described input mixing chamber links to each other with described output mixing chamber; The input mixing chamber is provided with the liquid inlet, and the output mixing chamber is provided with liquid outlet, and the liquid inlet of input mixing chamber links to each other with the outlet of increasing apparatus; Be provided with one between input mixing chamber and the output mixing chamber and will import mixing chamber and output mixing chamber dividing plate spaced apart from each other, on described dividing plate, be provided with throttling pore.

2. the mixing arrangement of one kind of multiple liquid as claimed in claim 1, it is characterized in that, described input mixing chamber, output mixing chamber and described throttling pore satisfy following condition: D2〉D1, D1〉2d, D2〉10d, wherein, D1 is the internal diameter of input mixing chamber, D2 is the internal diameter of output mixing chamber, and d is the diameter of throttling pore.

3. the mixing arrangement of one kind of multiple liquid as claimed in claim 1 is characterized in that,

Described many liquid inlet ducts comprise one first liquid inlet duct and one second liquid inlet duct;

Described increasing apparatus is a force (forcing) pump;

Described mixing arrangement also comprises stop valve, two position three-way valve, container, liquid level control switch, check valve, emulsion outlet; Described liquid level control switch is arranged on the inwall of described container, and is electrically connected with described stop valve and described two position three-way valve respectively;

Described first liquid inlet duct is communicated with successively by the inlet of pipeline with stop valve, force (forcing) pump; Described second liquid inlet duct is communicated with successively by the inlet of pipeline with first interface, second interface and the force (forcing) pump of two position three-way valve; The pressurization delivery side of pump is communicated with the liquid inlet of described input mixing chamber, and the liquid outlet of described output mixing chamber is communicated with container by pipeline; Described container is connected with the 3rd interface and the emulsion outlet of two position three-way valve respectively by pipeline, and described check valve is arranged on the pipeline between the 3rd interface of container and two position three-way valve.

4. the mixing arrangement of one kind of multiple liquid as claimed in claim 2 is characterized in that, described throttling pore is circular hole or rectangular opening.

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