CN108939972A - Built-in liquid dispersal device - Google Patents

Abstract

The present invention provides a kind of built-in liquid dispersal devices, including liquor holding vessel, force (forcing) pump and disperser, disperser includes the disperser shell being mounted on medium supervisor, it is mounted on disperser shell and is connected to the connecting tube of disperser shell, one end connect the other end with force (forcing) pump and protrudes into the liquor energy storage canister in connecting tube and being fixed in connecting tube, it is installed at least three jet pipes that liquor energy storage canister protrudes into one end in connecting tube, nozzle that is identical as jet pipe quantity and being separately mounted at least three jet pipes, central axes of the connecting tube perpendicular to disperser shell, different spray nozzles are not conllinear on the end face of connecting tube, projection of at least three jet pipes on the cross section of disperser shell is not overlapped, projection of the different spray nozzles on the cross section of disperser shell is located at the different location of the cross section of disperser shell, the present invention is actively Dispersion efficiency is high, and covering comprehensively, is uniformly dispersed, and overhauls conveniently, is suitable for cold environment weather.

Description

Built-in liquid dispersal device

Technical field

The invention belongs to liquid dispensing technology fields, and in particular to a kind of built-in liquid dispersal device.

Background technique

The enterprises such as current each chemical industry, oil field, oil refining, food, medicine, smelting, power generation, tap water, sewage treatment, environmental protection exist In production process, needed in many cases to injection liquid auxiliary reality or water in medium pipeline.

Currently, being all made of the form of being passively dispersed when needing to inject liquid auxiliary reagent or water in medium pipeline.Such as Fig. 1 institute Show, liquor or water are connected by pipeline 2 with force (forcing) pump 4 by storage tank 5, and force (forcing) pump 4 and the face Dou dispersion pipe 3 are connected by pipeline 2 It connects, the face Dou dispersion pipe 3 inserts the center for reaching medium pipeline 1, pressurized 4 pressurization of pump of the liquor or water come out from storage tank 5 Afterwards, the face Dou dispersion pipe 3 is flowed by pipeline 2, then liquor or moisture is scattered in main medium pipeline 1 by the face Dou dispersion pipe 3. As shown in Fig. 2, the outlet end of the face Dou dispersion pipe 3 is located at the center of medium pipeline, therefore, medium pipeline is close to the position of tube wall The liquid that setting can not be added covers.The shortcomings that being passively dispersed is: the liquid reagent being distributed in medium supervisor can only It is dispersed in medium supervisor center, medium supervisor center is also the region that flow rate of liquid is most fast in medium is responsible for, and from medium The farther away inside pipe wall surrounding liquid reagent in supervisor center can not cover, and area coverage is small, and dispersion is uneven, rate of dispersion Slowly, the problems such as low efficiency, causes unstable product quality, equipment seriously corroded.When force (forcing) pump uses metering pump, also will cause Discontinuity dispersion, white space easy to form is without reagent.And there is also maintenance difficulties, the cost of overhaul for the mode that this kind is passively dispersed With the disadvantages of high, the repair time is long.

Summary of the invention

The present invention is to carry out to solve the above-mentioned problems, and it is an object of the present invention to provide a kind of Active dispersion, coverage rate are reachable 100%, it is uniformly dispersed, it is high-efficient, and overhaul convenient, the built-in liquid dispersal device suitable for cold environment weather.

The present invention provides a kind of built-in liquid dispersal devices, for auxiliary liquid reagent or water injected media to be responsible for In characterized by comprising liquor holding vessel, for storing auxiliary liquid reagent or water；

Force (forcing) pump is connect for providing the conveying power of auxiliary liquid reagent or water with the liquor holding vessel；And

Disperser, comprising: the disperser shell that is mounted on medium supervisor, be mounted on the disperser shell and It is connected to the connecting tube of the disperser shell, one end connect the other end with the force (forcing) pump and protrudes into the connecting tube and be fixed on Liquor energy storage canister in the connecting tube, at least three are installed in the liquor energy storage canister and protrude into one end in the connecting tube Jet pipe, and the nozzle that is separately mounted to the jet pipe on identical as the jet pipe quantity,

Wherein, perpendicular to the central axes of the disperser shell, all jet pipes store up the connecting tube in the liquor The position that energy tank protrudes on the end face in the connecting tube is not conllinear, and at least three jet pipes are in the disperser shell Cross section on projection be not overlapped, it is in the disperser shell after the different nozzles protrudes into the disperser shell Cross section on projection be located at the disperser shell cross section different location.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, Its being projected on the cross section of the disperser shell is described after the different nozzles protrudes into the disperser shell Position distribution on the cross section of disperser shell are as follows: at least three nozzles are not arranged collinearly, the nozzle not being arranged collinearly In at least three to the disperser shell inner walls minimum range be the disperser shell radius 1/6~1/4, and There are three two adjacent nozzles of nozzle relative to institute in nozzle at 1/6~1/4 of radius apart from the disperser shell The angle between the center of circle of the cross section of disperser shell is stated not less than 90 °.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, The jet pipe is 3, and the distance of center line of three jet pipes apart from the liquor energy storage canister is identical, and three jet pipes Angularly it is arranged,

One of jet pipe is located on the maximum gauge of the cross section of the disperser shell, and the jet pipe is in the dispersion Projection on the cross section of device shell is located at other two jet pipes between the projection on the cross section of the disperser shell.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, The ejection end of three nozzles protrude into the disperser shell it is interior after be located at the cross section of the disperser shell At 1/12~1/8,3/8~5/8 and the 7/8~11/12 of maximum gauge.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, The ejection end of three nozzles is located at the cross-sectional area of the disperser shell after protruding into the disperser shell At 1/10,1/2 and the 9/10 of maximum gauge.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, Its being projected on the cross section of the disperser shell after the different nozzle protrudes into the disperser shell Position distribution on the cross section of the disperser shell are as follows: the most narrow spacing of the inner wall of different nozzle to the disperser shell From 1/6~1/4 of the radius for the disperser shell, and angularly it is arranged between nozzle two-by-two.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, The liquor strainer valve for auxiliary liquid reagent or water to be filtered is additionally provided between the force (forcing) pump and the disperser Group.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, Total valve is additionally provided between the liquor filtering valve group and the disperser.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, The liquor energy storage canister protrudes into one end in the connecting tube and the tube wall of the disperser shell is tangent.

Further, it in built-in liquid dispersal device provided by the invention, can also have the following features: wherein, It is connected between the force (forcing) pump and the liquor energy storage canister by pipeline, the pipeline and the liquor energy storage canister are solid using flange The connecting pin of fixed connection, the liquor energy storage canister and the pipeline is provided with hubbed flange,

The liquor energy storage canister is fixedly connected with the connecting tube using flange, is fixed with plane on the liquor energy storage canister The fixed one end of flange, the connecting tube and the liquor energy storage canister is provided with plane W.N flange.

The present invention provides following advantages:

Related built-in liquid dispersal device according to the present invention, because installing disperser shell on main medium pipeline Body, connecting tube are mounted on disperser shell, and one end of liquor energy storage canister is protruded into connecting tube, and liquor energy storage canister is located at connecting tube One end at least three jet pipes are installed, multiple jet pipes protrude into the position on the end face in connecting tube not altogether in liquor energy storage canister Line, and projection of at least three jet pipes on the cross section of disperser shell is not overlapped, and a nozzle is respectively mounted on each jet pipe, Its projection on the cross section of disperser shell is located at disperser shell after different nozzles protrudes into disperser shell Cross section different location, therefore, nozzle can be responsible for from the different location and medium of the cross section being responsible for relative to medium The different location of interior liquid flow direction is to medium ejector charge auxiliary liquid reagent or water, so that the auxiliary liquid being added Reagent or water energy care for the cross section for covering entire medium supervisor, coverage rate up to 100%, and in identical auxiliary liquid reagent or Under the dosage of water, liquor effect can promote 50%, and Active dispersion is high-efficient；And external liquid dispersion device behaviour of the invention Make simply, securely and reliably, without especially maintenance, not limited by any condition can be installed and used；Maintenance is convenient, without dynamic Fire can be replaced directly, improve security reliability, and the labor intensity of employee is significantly reduced.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for injecting the device of liquid auxiliary reagent or water into medium pipeline in the prior art；

Fig. 2 is the partial sectional view that dispersion pipe protrudes into medium pipeline in the prior art；

Fig. 3 is the structural schematic diagram of built-in liquid dispersal device in the embodiment of the present invention；

Fig. 4 is amplification-partial sectional view of disperser in the embodiment of the present invention；

Fig. 5 is the structural schematic diagram of liquor energy storage canister in the embodiment of the present invention, jet pipe and nozzle；

Fig. 6 is the right view for removing face-flange in Fig. 5 in liquor energy storage canister；

Fig. 7 is a kind of arrangement view of the nozzle on the cross section of disperser shell；

Fig. 8 is another arrangement view of the nozzle on the cross section of disperser shell.

Specific embodiment

It is real below in order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention Example combination attached drawing is applied to be specifically addressed built-in liquid dispersal device of the invention.

Built-in liquid dispersal device 100 is used to for auxiliary liquid reagent or water injected media being responsible in 200, no temperature Limitation also facilitates and keeps the temperature to device when weather is colder, and auxiliary liquid reagent or water need to keep the temperature.Such as Fig. 3 institute Show, built-in liquid dispersal device 100 includes: liquor energy storage canister 10, force (forcing) pump 20 and disperser 30.Liquor energy storage canister 10 passes through Pipeline 61 is connect with force (forcing) pump 20, and force (forcing) pump 20 is connect by pipeline 62 and 63 with disperser 30.

Liquor energy storage canister 10 is for storing auxiliary liquid reagent or water.Auxiliary liquid reagent or water in liquor energy storage canister 10 Force (forcing) pump 20 is flowed by pipeline.Force (forcing) pump 20 is for providing the conveying power of auxiliary liquid reagent or water.Force (forcing) pump 20 will be auxiliary Liquid reagent or water is helped to squeeze into disperser 30 by pipe high-pressure.

As shown in figure 4, disperser 30 for will auxiliary liquid reagent or water injected media supervisor 200 in.Disperser 30 wraps It includes: liquor energy storage canister 31, disperser shell 32, connecting tube 33, at least three jet pipes and nozzle identical with jet pipe quantity.

Disperser shell 32 is mounted on medium supervisor 200, and disperser shell 32 is identical as the diameter of medium supervisor 200 Pipe, when specific installation, 32 access medium of disperser shell is responsible on 200, as the section of a pipe of medium supervisor 200, Liquid passes through disperser shell 32 when flowing in medium supervisor 200.

Connecting tube 33 is mounted on disperser shell 32, is hollow pipe among connecting tube 33, is connected to disperser shell 32. Connecting tube 33 is arranged perpendicular to the central axes of disperser shell 32, i.e., sets perpendicular to the direction of liquid flowing in medium supervisor 200 It sets.

One end of liquor energy storage canister 31 is connect with force (forcing) pump 20 by pipeline 62 and 63, and the other end protrudes into connecting tube 33, Liquor energy storage canister 31 is fixed in connecting tube 33 after protruding into connecting tube 33.By force (forcing) pump 20 flow out auxiliary liquid reagent or After water enters liquor energy storage canister 31, liquor energy storage canister 31 reduces the flow velocity of auxiliary liquid reagent or water, pressure increases, for auxiliary Liquid reagent or water flow nozzle energy accumulation.

In the present embodiment, as shown in figure 4, liquor energy storage canister 31 protrudes into one end in connecting tube 33 and disperser shell 32 Tube wall it is tangent.That is the extended surface phase of the right side of liquor energy storage canister 31 tube wall corresponding with 32 upper connector 33 of disperser shell It cuts.

In the present embodiment, one end of liquor energy storage canister 31 and force (forcing) pump 20 connects by pipeline 62 and 63, pipeline 63 and Liquor energy storage canister 31 is fixedly connected using flange, wherein the connecting pin of liquor energy storage canister 31 and pipeline 63 is provided with hubbed flange 311。

In the present embodiment, liquor energy storage canister 31 is fixedly connected with connecting tube 33 using flange, solid on liquor energy storage canister 31 Surely there is face-flange 312, one end that connecting tube 33 and liquor energy storage canister 31 are fixed is provided with plane W.N flange 331.

Such as Fig. 4, protruded on an end face of connecting tube 33 as shown in figure 5, jet pipe is mounted on liquor energy storage canister 31, all jet pipes It is not conllinear that the position on the end face in connecting tube 33 is protruded into liquor energy storage canister 31, and at least three jet pipes are in disperser shell Projection on 32 cross section is not overlapped.

Nozzle is identical as the quantity of jet pipe, and nozzle is separately mounted on different jet pipes, and different nozzles protrudes into disperser Its projection on the cross section of disperser shell 32 is located at the difference of the cross section of disperser shell 32 after in shell 32 Position.The length of jet pipe is configured according to the position that nozzle mounted thereto needs to protrude into disperser shell 32.

In the present embodiment, it is on the cross section of disperser shell 32 after different nozzles protrudes into disperser shell 32 The cross section for being projected in disperser shell 32 on position distribution are as follows: at least three nozzles are not arranged collinearly, are not arranged collinearly Nozzle at least three to disperser shell 32 inner walls distance be disperser shell 32 radius 1/6~1/4, and away from There are three cross section of the nozzle relative to disperser shell 32 in nozzle at 1/6~1/4 of radius from disperser shell 32 The center of circle between angle be not less than 90 °, optimal, which is angularly arranged.

In the present embodiment, jet pipe is 3, and nozzle is 3.Three nozzles 35a, 35b, 35c are separately mounted to three sprays On pipe 34a, 34b, 34c.As shown in fig. 6, the distance of the center line of three jet pipes 34a, 34b and 34c apart from liquor energy storage canister 31 It is identical, and three jet pipes 34a, 34b and 34c are angularly arranged.As shown in fig. 7, jet pipe 34b is located at the transversal of disperser shell 32 On maximum gauge on face, and projection of the jet pipe 34b on the cross section of disperser shell 32 is located at jet pipe 34a and jet pipe 34c Between the projection on the cross section of disperser shell 32.Specifically, three jet pipes 34a, 34b and 34c are in disperser shell 32 Cross section on projection spaced set, i.e., as shown in fig. 7, intermediate jet pipe 34b to both sides jet pipe 34a and 34c away from From identical.As shown in fig. 7, the ejection end of three nozzles 35a, 35b, 35c are located at dispersion after protruding into disperser shell 32 At 1/12~1/8,3/8~5/8 and the 7/8~11/12 of the maximum gauge of the cross-sectional area of device shell 32.Optimal, three sprays The ejection end of mouth 35a, 35b, 35c are located at the cross section of disperser shell 32 maximum after protruding into disperser shell 32 is straight At 1/10,1/2 and the 9/10 of diameter.Therefore, three nozzles 35a, 35b, 35c can be from the cross sections relative to medium supervisor 200 Different location and medium supervisor 200 in liquid flow direction two positions to medium supervisor 200 in injection auxiliary liquid examination Agent or water, area coverage is wide, and Active dispersion effect is good.

Certainly, jet pipe may be 4,5 etc., when the quantity of jet pipe is greater than three, at least three jet pipes be needed to exist Projection on the cross section of disperser shell 32 is not overlapped, optimal, and each jet pipe is on the cross section of disperser shell 32 Projection is not overlapped.

In the present embodiment, it is on the cross section of disperser shell 32 after different nozzles protrudes into disperser shell 32 The cross section for being projected in disperser shell 32 on position distribution can be with are as follows: different nozzles is interior to disperser shell 32 The minimum range of wall is the 1/6~1/4 of 32 radius of disperser shell, and is angularly arranged between nozzle two-by-two.With three nozzles For, as shown in figure 8, the angle between nozzle is 120 ° two-by-two, the most narrow spacing of the inner wall of each nozzle to disperser shell 32 At the 1/5 of the radius for being respectively positioned on disperser shell 32.

In short, different nozzles protrudes into its rear being projected on the cross section of disperser shell 32 in disperser shell 32 Position on the cross section of disperser shell 32 is distributed approximately evenly on cross section, the liquid that all nozzles are sprayed The liquid in medium supervisor 200 is completely covered.

In the present embodiment, optimal, three nozzle 35a, 35b, 35c selections can eject the nozzle of flat fan-shaped surface.

In the present embodiment, liquor filtering valve group 40, liquor strainer valve are additionally provided between force (forcing) pump 20 and disperser 30 Group 40 is for auxiliary liquid reagent or water to be filtered, and force (forcing) pump 20 and liquor filtering valve group 40 are connected by pipeline 62, liquid It is connected between agent filtering valve group 40 and disperser 30 by pipeline 63.Specifically, liquor filtering valve group 40 includes that two parallel connections connect The y-type filter 41 and 42 on the pipeline between force (forcing) pump 20 and disperser 30 is connect, the liquid of each y-type filter flows into end A valve is respectively provided with liquid outlet.

In the present embodiment, it is additionally provided with total valve 50 between liquor filtering valve group 40 and disperser 30, total valve 50 exists Opening when auxiliary liquid reagent or water is added in liquid in needing to be responsible for medium is not needing to add the liquid in medium supervisor Closing when entering auxiliary liquid reagent or water.

Use process: when needing to auxiliary liquid reagent or water is added in medium supervisor 200, total valve 50 is opened, and is added Press pump 20 starts, and the liquid stored in liquor energy storage canister 10 enters force (forcing) pump through piping 61, after pressurized 20 pressurization of pump of liquid It is filtered after valve group 40 filters by liquor and enters liquor energy storage canister 31, then by being distinguished respectively by jet pipe 34a, 34b, 34c Into nozzle 35a, 35b, 35c, by nozzle 35a, 35b, 35c respectively from the difference of the cross section relative to medium supervisor 200 The different location that position and medium are responsible for liquid flow direction in 200 sprays auxiliary liquid reagent or water into medium supervisor 200, The liquid of injection is in flat sector shape, so that the liquid in overwrite media supervisor 200, Active dispersion efficiency are high comprehensively.

When not needing to auxiliary liquid reagent or water is added in medium supervisor 200, total valve 50 is closed, closes force (forcing) pump 20。

Above embodiment is preferred case of the invention, the protection scope being not intended to limit the invention.

Claims (10)

1. a kind of built-in liquid dispersal device, for will be in auxiliary liquid reagent or water injected media supervisor, which is characterized in that Include:

Liquor holding vessel, for storing auxiliary liquid reagent or water；

Force (forcing) pump is connect for providing the conveying power of auxiliary liquid reagent or water with the liquor holding vessel；And

Disperser, comprising: the disperser shell that is mounted on medium supervisor is mounted on the disperser shell and is connected to The connecting tube of the disperser shell, one end connect the other end with the force (forcing) pump and protrude into the connecting tube and be fixed on described Liquor energy storage canister in connecting tube, at least three are installed in the spray that the liquor energy storage canister protrudes into one end in the connecting tube Pipe, and the nozzle that is separately mounted to the jet pipe on identical as the jet pipe quantity,

Wherein, the connecting tube is perpendicular to the central axes of the disperser shell, and all jet pipes are in the liquor energy storage canister The position protruded on the end face in the connecting tube is not conllinear, and at least three jet pipes are in the cross of the disperser shell Projection on section is not overlapped, its cross in the disperser shell after the different nozzles protrudes into the disperser shell Projection on section is located at the different location of the cross section of the disperser shell.

2. built-in liquid dispersal device according to claim 1, it is characterised in that:

Its being projected on the cross section of the disperser shell after the different nozzles protrudes into the disperser shell Position distribution on the cross section of the disperser shell are as follows: at least three nozzles are not arranged collinearly, are not arranged collinearly The minimum range of at least three inner walls for arriving the disperser shell is the 1/6~1/4 of the disperser shell radius in nozzle, And there are three two adjacent nozzles of nozzle relative to institute in the nozzle at the 1/6~1/4 of the disperser shell radius The angle between the center of circle of the cross section of disperser shell is stated not less than 90 °.

3. built-in liquid dispersal device according to claim 2, it is characterised in that:

The jet pipe is 3, and the distance of center line of three jet pipes apart from the liquor energy storage canister is identical, and described in three Jet pipe is angularly arranged,

One of jet pipe is located on the maximum gauge of the cross section of the disperser shell, and the jet pipe is in the disperser shell Projection on the cross section of body is located at other two jet pipes between the projection on the cross section of the disperser shell.

4. built-in liquid dispersal device according to claim 3, it is characterised in that:

The ejection end of three nozzles protrude into the disperser shell it is interior after be located at the transversal of the disperser shell At 1/12~1/8,3/8~5/8 and the 7/8~11/12 of the maximum gauge in face.

5. built-in liquid dispersal device according to claim 4, it is characterised in that:

The ejection end of three nozzles is located at the cross section of the disperser shell after protruding into the disperser shell Maximum gauge 1/10,1/2 and 9/10 at.

6. built-in liquid dispersal device according to claim 1, it is characterised in that:

Its throwing on the cross section of the disperser shell after the different nozzle protrudes into the disperser shell Position distribution of the shadow on the cross section of the disperser shell are as follows: the inner wall of different nozzle to the disperser shell is most Small distance is the 1/6~1/4 of the radius of the disperser shell, and is angularly arranged between nozzle two-by-two.

7. built-in liquid dispersal device according to claim 1, it is characterised in that:

The liquor mistake for auxiliary liquid reagent or water to be filtered is additionally provided between the force (forcing) pump and the disperser Trap valve group.

8. built-in liquid dispersal device according to claim 7, it is characterised in that:

Total valve is additionally provided between the liquor filtering valve group and the disperser.

9. built-in liquid dispersal device according to claim 1, it is characterised in that:

The liquor energy storage canister protrudes into one end in the connecting tube and the tube wall of the disperser shell is tangent.

10. built-in liquid dispersal device according to claim 1, it is characterised in that:

It is connected between the force (forcing) pump and the liquor energy storage canister by pipeline, the pipeline and the liquor energy storage canister use method Orchid is fixedly connected, and the connecting pin of the liquor energy storage canister and the pipeline is provided with hubbed flange,

The liquor energy storage canister is fixedly connected with the connecting tube using flange, is fixed with planar process on the liquor energy storage canister The fixed one end of orchid, the connecting tube and the liquor energy storage canister is provided with plane W.N flange.