CN212732642U - Novel high-efficient aerial fog nozzle - Google Patents

Abstract

The utility model relates to a novel high-efficiency aerial fog nozzle in the field of nozzles, which comprises an aerial fog nozzle body, wherein the aerial fog nozzle body comprises a front nozzle, a middle main pipe connected with the front nozzle, and a spray head component arranged at the tail end of the middle main pipe, and the middle main pipe is connected with the spray head component through a tail end water joint; the front-mounted nozzle is respectively provided with a liquid inlet and a gas inlet, the liquid inlet and the gas inlet are respectively connected with the middle main pipe and communicated with the tail end water connector through a tail end water nozzle, the spray head assembly comprises a flow distribution body connected with the tail end water connector, a tail end flow passage matched with the flow distribution body, a flow distribution core arranged on the tail end flow passage, an adjusting nut matched with the tail end flow passage and a spray head; the utility model discloses a can be abundant mix compressed air and liquid and carry out the secondary pressurization and spray away, improve the convenience of using, improve work efficiency, have better water conservation nature.

Description

Novel high-efficient aerial fog nozzle

Technical Field

The utility model relates to a nozzle in the nozzle field.

Background

Most of nozzles used in the domestic spray dust suppression industry are water mist nozzles, the flow is large, the humidification effect is far greater than the dust suppression adsorption effect, even if the nozzles are gas-water mixed type gas mist nozzles produced by part of manufacturers, gas-water mixing is not uniform, water particles are large, the large water particles directly flow out along the surfaces of the nozzles, the dust removal effect cannot be achieved, water resources are wasted, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel high-efficient aerial fog nozzle, this utility model can be abundant mix compressed air and liquid and carry out the secondary pressurization and spray away, improve the convenience of using, improve work efficiency, have better water conservation nature.

The purpose of the utility model is realized like this: a novel high-efficiency aerosol nozzle comprises an aerosol nozzle body, wherein the aerosol nozzle body comprises a front nozzle, a middle main pipe connected with the front nozzle, and a nozzle assembly arranged at the tail end of the middle main pipe, and the middle main pipe is connected with the nozzle assembly through a tail end water joint; leading nozzle is provided with inlet and air inlet respectively, inlet and air inlet are responsible for respectively with the centre and are connected and communicate with each other with terminal water swivel through terminal water injection well choke, the shower nozzle subassembly includes the reposition of redundant personnel of being connected with terminal water swivel, and the terminal runner that the cooperation reposition of redundant personnel set up sets up at the reposition of redundant personnel core of terminal runner, adjustment nut and the shower nozzle that the terminal runner of cooperation set up, still be provided with fixed cover in the centre on being responsible for.

When the utility model works, the liquid inlet is connected with liquid, the air inlet is correspondingly connected with compressed air, the liquid enters into the water inlet pipeline of the middle pipeline through the water inlet nozzle, the compressed air enters through the air inlet pipeline of the middle pipeline, finally, the liquid enters into the left horn mouth through the tail water nozzle, the compressed air enters into the left horn mouth through the gap between the tail water nozzle and the inner wall of the middle main pipe, the compressed air and the liquid are mixed at the left horn mouth, and then the compressed air enters into the right horn mouth through the pressurization of the middle circular pipeline and is released; the gas-liquid mixture after being released is divided by a plurality of groups of branch runners of the flow dividing core, enters the tail end runner and is then sprayed out.

The beneficial effects of the utility model reside in that, this utility model can be abundant mix compressed air and liquid and carry out the secondary pressurization and spray away, improve the convenience of using, improve work efficiency, have better water conservation nature.

As a further improvement of the utility model, in order to ensure the smoothness of the preposed nozzle during working and improve the mixing effect; the front nozzle comprises a front transverse flow passage and a front longitudinal flow passage respectively, the front transverse flow passage is communicated with the middle main pipe, the front longitudinal flow passages are provided with two groups and are respectively a liquid inlet and an air inlet, and the liquid inlet is arranged close to the inlet of the front transverse flow passage.

As a further improvement of the utility model, in order to ensure the reliable installation of the preposed nozzle and avoid the phenomena of water leakage and air leakage; a positioning pin is arranged between the liquid inlet and the air inlet and positioned at the top of the front nozzle, and sealing rings are respectively arranged at the liquid inlet and the air inlet; and a water inlet nozzle is also arranged in the downstream preposed transverse flow passage at the confluence position of the inlet of the transverse flow passage and the liquid inlet.

As a further improvement of the utility model, the middle main pipe is convenient for ventilation and water supply and then is fully mixed; the middle main pipe comprises a water inlet pipeline and an air inlet pipeline; the water inlet pipeline is connected with the middle main pipe and communicated with the tail end water nozzle, and the air inlet pipeline is communicated with the air inlet.

As a further improvement of the utility model, the secondary pressurization effect is good and the pressurization is stable; the middle main pipe is arranged circularly and comprises an inner layer, an outer layer and a tail end water nozzle connecting part arranged at the tail end of the middle main pipe; the inner layer is a water inlet pipeline and is communicated with the preposed nozzle, and the outer layer is a gas inlet pipeline and is communicated with the tail end water connector through a gap between the tail end water nozzle and the inner wall of the middle main pipe; the tail end water nozzle is also communicated with the tail end water connector.

As a further improvement of the utility model, the secondary pressurization is ensured, and the pressurization effect is improved; the tail end water joint comprises a left bell mouth, a middle circular pipeline and a right bell mouth, and the left bell mouth is communicated with the front nozzle; the right bell mouth is arranged corresponding to the shunt core; and a plurality of groups of branch flow channels are arranged in the flow dividing core.

As a further improvement of the utility model, the compressed air and the liquid can be fully and uniformly mixed; the flow dividing core is arranged in the flow dividing body, and the plurality of groups of branch flow passages are converged into the tail end flow passage.

As a further improvement of the utility model, the flow is convenient to adjust, and the stability and reliability of the work are improved; the adjusting nut is fixed at the tail end of the shunt body and used for adjusting the distance of the spray head.

Drawings

Fig. 1 is a side sectional view of the present invention.

Fig. 2 is a view of the present invention from direction a.

Wherein, 1 aerial fog nozzle body, 2 inlet, 3 water inlet mouths, 4 sealing rings, 5 locating pins, 6 preposition nozzles、7 air inlets, 8 air inlet pipelines, 9 water inlet pipelines, 10 fixed sleeves, 11 middle main pipes, 12 tail end water nozzles, 13 tail end water connectors, 14 flow dividing bodies, 15 flow dividing bodies, 16 adjusting nuts, 17 spray heads, 18 left horn mouths, 19 middle circular pipelines, 20 right horn mouths, 21 tail end flow passages, 22 front transverse flow passages, 23 front longitudinal flow passages and 24 flow passages.

Detailed Description

As shown in fig. 1-2, the object of the present invention is achieved by: a novel high-efficiency aerosol nozzle comprises an aerosol nozzle body 1, wherein the aerosol nozzle body 1 comprises a front nozzle 6, a middle main pipe 11 connected with the front nozzle 6, and a nozzle assembly arranged at the tail end of the middle main pipe 11, and the middle main pipe 11 is connected with the nozzle assembly through a tail end water joint 13; the front nozzle 6 is respectively provided with a liquid inlet 2 and a gas inlet 7, the liquid inlet 2 and the gas inlet 7 are respectively connected with a middle main pipe 11 and communicated with a tail end water connector 13 through a tail end water nozzle 12, the spray head assembly comprises a flow dividing body 14 connected with the tail end water connector 13, a tail end flow passage 21 arranged by matching with the flow dividing body 14, a flow dividing core 15 arranged on the tail end flow passage 21, an adjusting nut 16 and a spray head 17 arranged by matching with the tail end flow passage 21, and the middle main pipe 11 is also provided with a fixed sleeve 10; the front nozzle 6 comprises a front transverse flow passage 22 and a front longitudinal flow passage 23 respectively, the front transverse flow passage 22 is communicated with the middle main pipe 11, the front longitudinal flow passage 23 is provided with two groups which are respectively a liquid inlet 2 and an air inlet 7, and the liquid inlet 2 is arranged close to the inlet of the front transverse flow passage 22; a positioning pin 5 is arranged between the liquid inlet 2 and the air inlet 7 and positioned at the top of the front nozzle 6, and sealing rings 4 are respectively arranged at the liquid inlet 2 and the air inlet 7; a water inlet nozzle 3 is also arranged in a downstream preposed transverse flow passage 22 at the confluence of the inlet position of the transverse flow passage and the liquid inlet 2; the middle main pipe 11 comprises a water inlet pipeline 9 and an air inlet pipeline 8; the water inlet pipeline 9 is connected with the middle main pipe 11 and communicated with the tail end water nozzle 12, and the air inlet pipeline 8 is communicated with the air inlet 7; the middle main pipe 11 is arranged in a circular shape and comprises an inner layer, an outer layer and a tail end water nozzle connecting part arranged at the tail end of the middle main pipe 11; the inner layer is a water inlet pipeline 9 and is communicated with the preposed nozzle 6, and the outer layer is a gas inlet pipeline 8 and is communicated with a tail end water joint 13 through a gap between a tail end water nozzle 12 and the inner wall of the middle main pipe 11; the tail end water nozzle 12 is also communicated with a tail end water joint 13; the tail end water connector 13 comprises a left bell mouth 18, a middle circular pipeline 19 and a right bell mouth 20, and the left bell mouth 18 is communicated with the front nozzle 6; the right bell mouth 18 is arranged corresponding to the shunt core 15; a plurality of groups of branch flow passages 24 are arranged in the flow dividing core 15; the flow distributing core 15 is arranged in the flow distributing body 14, and a plurality of groups of branch flow passages 24 are gathered together in the tail end flow passage 21; the adjusting nut 16 is fixed to the end of the diverging fluid 14 and is used to adjust the distance of the spray head 17.

The utility model discloses during operation, inlet 2 inserts liquid, air inlet 7 corresponds and inserts compressed air, liquid enters into the water inlet pipe 9 of intermediate line through water inlet nozzle 3, and compressed air enters through the air inlet pipe 8 of intermediate line, and final liquid enters into left side bellmouth 18 through terminal water injection well choke 12, and compressed air enters into left side bellmouth 18 through the clearance between terminal water injection well choke 12 and the intermediate main pipe 11 inner wall, and compressed air and liquid mix in left side bellmouth 18, then enter into right side bellmouth 20 and release through the pressurization of middle circular pipeline 19; the gas-liquid mixture after being released is divided by a plurality of groups of branch flow passages 24 of the flow dividing core 15, enters the tail end flow passage 21 and then forms a mist to be sprayed out.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (5)

1. A novel high-efficiency aerosol nozzle comprises an aerosol nozzle body, and is characterized in that the aerosol nozzle body comprises a front nozzle, a middle main pipe connected with the front nozzle, and a nozzle assembly arranged at the tail end of the middle main pipe, wherein the middle main pipe is connected with the nozzle assembly through a tail end water joint; leading nozzle is provided with inlet and air inlet respectively, inlet and air inlet are responsible for respectively with the centre and are connected and communicate with each other with terminal water swivel through terminal water injection well choke, the shower nozzle subassembly includes the reposition of redundant personnel of being connected with terminal water swivel, and the terminal runner that the cooperation reposition of redundant personnel set up sets up at the reposition of redundant personnel core of terminal runner, adjustment nut and the shower nozzle that the terminal runner of cooperation set up, still be provided with fixed cover in the centre on being responsible for.

2. The novel high-efficiency aerosol nozzle according to claim 1, characterized in that: the front nozzle comprises a front transverse flow passage and a front longitudinal flow passage respectively, the front transverse flow passage is communicated with the middle main pipe, the front longitudinal flow passages are provided with two groups and are respectively a liquid inlet and an air inlet, and the liquid inlet is arranged close to the inlet of the front transverse flow passage.

3. The novel high-efficiency aerosol nozzle according to claim 2, characterized in that: a positioning pin is arranged between the liquid inlet and the air inlet and positioned at the top of the front nozzle, and sealing rings are respectively arranged at the liquid inlet and the air inlet; and a water inlet nozzle is also arranged in the downstream preposed transverse flow passage at the confluence position of the inlet of the transverse flow passage and the liquid inlet.

4. The novel high-efficiency aerosol nozzle according to claim 1, characterized in that: the middle main pipe comprises a water inlet pipeline and an air inlet pipeline; the water inlet pipeline is connected with the middle main pipe and communicated with the tail end water nozzle, and the air inlet pipeline is communicated with the air inlet.

5. The novel high-efficiency aerosol nozzle according to claim 1, characterized in that: the middle main pipe is arranged circularly and comprises an inner layer, an outer layer and a tail end water nozzle connecting part arranged at the tail end of the middle main pipe; the inner layer is a water inlet pipeline and is communicated with the preposed nozzle, and the outer layer is a gas inlet pipeline and is communicated with the tail end water connector through a gap between the tail end water nozzle and the inner wall of the middle main pipe; the tail end water nozzle is also communicated with the tail end water connector.

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