CN110665319A

CN110665319A - Water-gas distributor

Info

Publication number: CN110665319A
Application number: CN201911047391.1A
Authority: CN
Inventors: 张增光
Original assignee: Shaanxi Fenghua Environment Engineering Co Ltd
Current assignee: Shaanxi Fenghua Environment Engineering Co Ltd
Priority date: 2019-10-30
Filing date: 2019-10-30
Publication date: 2020-01-10

Abstract

The invention provides a water-air distributor, which comprises a shell, a water path flow dividing pipe and an air path flow dividing pipe, wherein the water path flow dividing pipe and the air path flow dividing pipe are both arranged in the shell; one end of the waterway flow dividing pipe is communicated with one end of a first connecting pipe through a waterway electromagnetic valve, and the other end of the first connecting pipe penetrates through one side wall of the shell and then extends out of the shell; one end of the air path flow dividing pipe is communicated with one end of a second connecting pipe through an air path electromagnetic valve, and the other end of the second connecting pipe penetrates through one side wall of the shell and then extends out of the shell; the other end of the water path flow dividing pipe is communicated with the other end of the gas path flow dividing pipe through a rubber pipe; and a purging electromagnetic valve is arranged at one end of the rubber tube close to the gas path flow dividing pipe. The water-gas distributor can effectively adjust the pressure and flow of water gas conveyed to each nozzle, ensures that each nozzle achieves the optimal spraying state, has the functions of blowing and freezing prevention, and can be normally used in winter.

Description

Water-gas distributor

Technical Field

The invention relates to the field of environmental protection and dust removal, relates to a spraying dust suppression technology, and particularly relates to a water-gas distributor.

Background

In places such as coal, thermoelectricity, steel making, ports and the like where materials need to be crushed, screened and transferred, dust pollution is serious, adverse effects on the environment are caused, and spraying dust suppression equipment is generally needed to be configured to suppress dust flying through sprayed water mist. In the spray dust suppression equipment, a water-air distributor is an important component for distributing a water pipe and an air pipe into multiple paths to be conveyed to each spray nozzle. In winter, after the water-gas distributor stops working, residual water in the pipeline is easy to freeze, and the phenomenon of spraying failure occurs, so that the normal use of the spraying dust suppression equipment is influenced.

Disclosure of Invention

The invention aims to provide a water-gas distributor. The water-gas distributor can effectively adjust the pressure and flow of water gas conveyed to each nozzle, ensures that each nozzle reaches the optimal spraying state, has the functions of blowing and freezing prevention, and can be normally used in winter.

In order to achieve the above purpose, the invention provides the following technical scheme:

the water-gas distributor is characterized by comprising a shell, a water path flow dividing pipe and a gas path flow dividing pipe, wherein the shell is of a box structure, and the water path flow dividing pipe and the gas path flow dividing pipe are arranged in the shell; one end of the waterway flow dividing pipe is communicated with one end of a first connecting pipe through a waterway electromagnetic valve, and the other end of the first connecting pipe penetrates through one side wall of the shell and then extends out of the shell; one end of the air path flow dividing pipe is communicated with one end of a second connecting pipe through an air path electromagnetic valve, and the other end of the second connecting pipe penetrates through one side wall of the shell and then extends out of the shell; the other end of the water path flow dividing pipe is communicated with the other end of the gas path flow dividing pipe through a rubber pipe; and a purging electromagnetic valve is arranged at one end of the rubber tube close to the gas path flow dividing pipe.

Further, in the above-described water vapor distributor, a water passage pressure regulating valve is provided at the other end of the first connecting pipe.

Further, in the above-mentioned water-air distributor, a first check valve is disposed between the waterway solenoid valve and the waterway shunt pipe.

Further, in the above-mentioned aqueous vapor distributor, a second check valve is disposed at one end of the rubber tube close to the water path diversion tube.

Further, in the above-mentioned aqueous vapor distributor, an air channel pressure regulating valve is disposed between the air channel solenoid valve and the air channel shunt tube.

Further, in the water-air distributor, 1-12 water outlet holes are formed in the water path diversion pipe; the gas path flow dividing pipe is provided with 1-12 gas outlet holes; the top end of the shell is provided with 1-12 corrugated pipe joints.

Further, in the above-mentioned water-air distributor, a ball valve is disposed on each of the water outlet holes.

Further, in the above-mentioned water and air distributor, the other ends of the first connecting pipe, the second connecting pipe, the water path shunt pipe and the air path shunt pipe all penetrate through the side wall of the housing and are fixed on the housing through nuts.

Further, in the above-mentioned aqueous vapor distributor, each of the air outlet holes is provided with a quick connector.

Further, in the above-mentioned moisture distributor, a door openable is provided at a front side of the housing.

The analysis shows that the invention discloses a water-gas distributor, which comprises the following working processes:

when spraying is needed, the waterway electromagnetic valve and the waterway electromagnetic valve are in an open state, the purging electromagnetic valve is in a closed state, a water source conveyed by the spraying dust suppression host sequentially passes through the waterway pressure regulating valve, the first connecting pipe, the waterway electromagnetic valve and the first check valve and then enters the waterway shunt pipe, and the waterway shunt pipe divides the water source into multiple paths of water sources needed by treatment points for use by the nozzles. The air source conveyed by the spraying dust suppression host machine sequentially passes through the second connecting pipe, the air path electromagnetic valve and the air path pressure regulating valve and then enters the air path shunt pipe, and the air path shunt pipe divides the air source into multiple paths of air sources required by treatment points for use by the nozzles.

After the spraying, close the water route solenoid valve, when needs sweep, the gas circuit solenoid valve continues to open, open the solenoid valve that sweeps, compressed air in the gas circuit reposition of redundant personnel gets into in the water route reposition of redundant personnel through sweeping the solenoid valve in proper order, rubber tube and second check valve back, sweep the intraductal residual water in the water route reposition of redundant personnel, spout the intraductal residual water of pipeline (PU pipe) between water route reposition of redundant personnel and water route shunt tubes to the nozzle by the nozzle, prevent that remaining water is frozen in water route shunt tubes and the PU pipe.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

1. dustproof, waterproof, rust-resistant casing, greatly increased aqueous vapor distributor's life.

2. The pressure and the flow of the water and the air which are delivered to each nozzle can be effectively adjusted, and each nozzle is ensured to reach the optimal spraying state.

3. Has the functions of blowing and freezing prevention and can be normally used in winter.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. Wherein:

fig. 1 is a schematic structural diagram according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of an embodiment of the present invention.

Fig. 3 is a left side view schematically illustrating an embodiment of the present invention.

Description of reference numerals: 1, a shell; 2, a waterway pressure regulating valve; 3 a waterway electromagnetic valve; 4 a waterway shunt pipe; 5, a water inlet; 6 a first connecting pipe; 7, a ball valve; 8 a first check valve; 9, a rubber tube; 10 air inlet; 11 gas path electromagnetic valve; 12, a gas path pressure regulating valve; 13 gas path shunt tubes; 14 purging the electromagnetic valve; 15 a second check valve; 16 quick-connect connector; 17 a bellows joint; 18 pairs of filaments; 19 a nut; 20 flat gaskets; 21 a spring washer; 22 doors; 23 second connecting pipe.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. The various examples are provided by way of explanation of the invention, and not limitation of the invention. In fact, it will be apparent to those skilled in the art that modifications and variations can be made in the present invention without departing from the scope or spirit thereof. For instance, features illustrated or described as part of one embodiment, can be used with another embodiment to yield a still further embodiment. It is therefore intended that the present invention encompass such modifications and variations as fall within the scope of the appended claims and equivalents thereof.

In the description of the present invention, the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are for convenience of description of the present invention only and do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. The terms "connected," "connected," and "disposed" as used herein are intended to be broadly construed, and may include, for example, fixed and removable connections; they may be directly connected or indirectly connected through intermediate members, and specific meanings of the above terms will be understood by those skilled in the art as appropriate.

As shown in fig. 1 to 3, according to an embodiment of the present invention, there is provided a water and gas distributor, including a housing 1, a water path flow dividing pipe 4 and a gas path flow dividing pipe 13, wherein the housing 1 is of a box structure, the water path flow dividing pipe 4 and the gas path flow dividing pipe 13 are both disposed in the housing 1, one end of the water path flow dividing pipe 4 is communicated with one end of a first connecting pipe 6 through a water path solenoid valve 3, the other end of the first connecting pipe 6 passes through one side wall of the housing 1 and then extends outward to the outside of the housing 1, and an inner hole at the other end of the first connecting pipe 6 is a water; one end of the gas path shunt tube 13 is communicated with one end of a second connecting tube 23 through a gas path electromagnetic valve 11, the other end of the second connecting tube 23 passes through one side wall of the shell 1 and then extends out of the shell 1, and an inner hole at the other end of the second connecting tube 23 is a gas inlet 10; the waterway electromagnetic valve 3 is a DN20 electromagnetic valve, and the waterway electromagnetic valve 3 is used for opening or closing the water flow entering the waterway shunt pipe 4; the air path electromagnetic valve 11 is a DN20 electromagnetic valve, and the air path electromagnetic valve 11 is used for opening or closing the compressed air entering the air path shunt tube 13; the other end of the water path shunt pipe 4 is communicated with the other end of the air path shunt pipe 13 through a rubber pipe 9; the rubber tube 9 is preferably a high-pressure rubber tube, and the specification of the high-pressure rubber tube is DN15 and the length of the high-pressure rubber tube is 300 mm. The one end that rubber tube 9 is close to gas circuit shunt tubes 13 is provided with the solenoid valve 14 that sweeps, the solenoid valve 14 that sweeps is DN15 solenoid valve, after the spraying, close water route solenoid valve 3, when needs sweep water route shunt tubes 4, open and sweep solenoid valve 14, compressed air can get into water route shunt tubes 4 by rubber tube 9, sweep residual water in the water route shunt tubes 4, make residual water in the water route shunt tubes 4 spout by the nozzle, and then prevent that residual water in the water route shunt tubes 4 from freezing the unable spraying phenomenon of appearance because the temperature is low excessively.

Further, be provided with water route air-vent valve 2 at the other end of first connecting pipe 6, water route air-vent valve 2 is DN15 air-vent valve, water route air-vent valve 2 is used for adjusting the pressure of the water that gets into water route shunt tubes 4, there is the regulation hole water route air-vent valve 2 upper portion, when the pressure of the water that needs to adjust and get into water route shunt tubes 4, insert the regulation hole with the allen key, clockwise rotation can increase the pressure of intaking, the pressure of intaking that anticlockwise rotation can be adjusted for little, ball valve 7 is all installed to every delivery port of water route shunt tubes 4 shunt tubes simultaneously, can be according to the on-the-spot spraying situation, adjust. In order to facilitate the operation of the waterway pressure-regulating valve 2, the waterway pressure-regulating valve 2 is installed on a pipe outside one side of the case 1.

Further, because water route solenoid valve 3 closes the back, only can cut off the water entering water route shunt tubes 4 of main water pipe, reverse then can not play the closing action, when sweeping, compressed air gets into water route shunt tubes 4 after, can reverse through water route solenoid valve 3 entering main water pipe, consequently, be provided with first check valve 8 between water route solenoid valve 3 and water route shunt tubes 4, first check valve 8 is DN20 check valve, first check valve 8 can guarantee that rivers are by main water pipe to the one-way flow of direction of water route shunt tubes 4. When sweeping, the first check valve 8 can prevent compressed air from entering the main water pipe communicated with the waterway pressure regulating valve 2 through the waterway shunt pipe 4, so that the water pump of the system is caused to intake air, and the system cannot work normally.

Furthermore, the purge solenoid valve 14 can only be closed in one direction, that is, after the purge solenoid valve 14 is closed, the compressed air in the air path shunt pipe 13 can be cut off from entering the rubber hose 9, but the water in the water path shunt pipe 4 can enter the air path shunt pipe 13 through the rubber hose 9, so that a second check valve 15 is arranged at one end of the rubber hose 9 close to the water path shunt pipe 4, and the second check valve 15 is a DN15 check valve. During normal spraying, the second check valve 15 can prevent water in the water path diversion pipe 4 from flowing into the air path diversion pipe 13 through the rubber pipe 9.

Further, an air path pressure regulating valve 12 is arranged between the air path electromagnetic valve 11 and the air path shunt pipe 13, the air path pressure regulating valve 12 is a DN20 pressure regulating valve, and the air path pressure regulating valve 12 can regulate the pressure of the compressed air entering the air path shunt pipe 13. The upper part of the air path pressure regulating valve 11 is provided with a pressure regulating handle, the pressure of the compressed air entering the air path shunt pipe 13 can be reduced by clockwise rotation, and the pressure of the compressed air entering the air path shunt pipe 13 can be increased by anticlockwise rotation within the air supply pressure range. Because each air outlet is connected with the air path shunt pipe 13, the pressure of the air outlet is also adjusted.

Furthermore, 1-12 water outlet holes are formed in the waterway shunt tube 4; the gas path shunt pipe 13 is provided with 1-12 gas outlet holes; the top of casing 1 is provided with 1-12 bellows joint 17, and every bellows joint 17 can a bellows of high-speed joint, and the PU pipe with apopore and venthole intercommunication can pass bellows joint 17 and get into the bellows, and the bellows can protect the PU pipe and avoid the pipeline confusion, makes the pipeline pleasing to the eye clean and tidy. The PU pipe is communicated with the nozzle, and sprays outwards through the nozzle, wherein the spray comprises gas provided by the gas outlet and liquid provided by the water outlet. The number of the water outlet holes on the water path shunt tubes 4, the number of the air outlet holes on the air path shunt tubes 13 and the number of the corrugated pipe joints 17 at the top end of the shell 1 are all the same.

The nozzle is 304 stainless steel materials, and is installed at the front end of the universal ball component, and the air passage and the water passage which are distributed by the water-gas distributor are respectively inserted into the quick-inserting connectors at the rear part of the universal ball spherical joint through the PU pipe, at the moment, water and compressed air are conveyed to the inside of the atomizing nozzle through the inner hole of the universal ball spherical joint, and the water is conveyed to the front end of the nozzle by high-speed airflow to vibrate the sheet, and then the sheet is crushed into micron-sized water mist and.

Every apopore and every venthole divide equally and do not communicate with a PU pipe respectively in aqueous vapor distributor, a PU pipe with one of them apopore intercommunication and a PU pipe with one of them venthole intercommunication get into a bellows simultaneously at the one end of a bellows joint 17 inside, the other end of bellows is connected with universal ball, because the one end of two PU pipes of being connected with a apopore and a venthole respectively all is connected with a universal ball-shaped joint, and then make the nozzle on every universal ball all communicate with water route shunt tubes 4 and gas circuit shunt tubes 13. Preferably, the PU pipe is a phi 8PU pipe, has good wear resistance, oil resistance and aging resistance, smooth inner wall, small liquid resistance and small bending radius, is easy to install and is convenient to cut according to the actual situation on site.

Furthermore, each water outlet is provided with a ball valve 7, the ball valves 7 can independently adjust the amount of water delivered to each nozzle, and the opening angles of the ball valves 7 can be adjusted according to the field spraying conditions so as to adjust the flow. Each air outlet is provided with a quick-connection-peg 16, and the quick-connection-pegs 16 can conveniently and quickly connect the air outlet with the PU pipe.

Further, the first connecting pipe 6 and the second connecting pipe 23 both penetrate through one side wall of the shell 1 and are fixed on one side wall of the shell 1 through the nut 19; the other end of the water path shunt pipe 4 and the other end of the air path shunt pipe 13 are fixed on the other side wall of the shell 1 through nuts 19 after passing through the other side wall of the shell 1, and flat gaskets 20 and spring gaskets 21 are arranged between the nuts 19 and the shell 1, so that the fixation is firmer.

Further, the front side of the housing 1 is provided with an openable door 22, and the operation of the water and gas distributor can be visually checked by opening the door 22.

Furthermore, the shell 1 is made of 304 stainless steel with the thickness of 1.5 mm, and has the characteristics of rust prevention, attractiveness, dust prevention, water prevention and the like. The service life of the water-gas distributor is greatly prolonged. The water path pressure regulating valve 2 and the first connection pipe 6, the water path solenoid valve 3 and the first check valve 8, and the gas path solenoid valve 11 and the gas path pressure regulating valve 12 may be connected by a pair of wires 18, respectively.

The valve pipe fittings of the water-gas distributor are in threaded connection, and the connection surface needs to be wound with a raw material belt or sealant so as to prevent water leakage and gas leakage.

Specifically, water route air-vent valve 2 is connected through the counter-thread with the 6 other end (left end) of first connecting pipe, and one end (right-hand member) of first connecting pipe 6 is the external screw thread, and the internal thread hole of directly twisting water route solenoid valve 3 after one end (right-hand member) of first connecting pipe 6 passes casing 1, and first check valve 8 is the internal thread, connects through the counter-thread between water route solenoid valve 3 and the first check valve 8, and the one end (left end) of water route shunt tubes 4 is the internal thread hole that the external screw thread directly twisted first check valve 8.

The left side of the air path electromagnetic valve 11 is connected with the second connecting pipe 23 through threads, the right side of the air path electromagnetic valve 11 is connected with the air path pressure regulating valve 12 through a screw 18, one end (left end) of the air path shunt pipe 13 is provided with external threads, and one end (left end) of the air path shunt pipe 13 is directly screwed into an internal threaded hole of the air path pressure regulating valve 12.

The other end (right end) of the water path shunt pipe 4 penetrates through the shell 1 and then is connected with the left side of the second check valve 15 through a wire, the other end (right end) of the air path shunt pipe 13 penetrates through the shell 1 and then is connected with the left side of the purging electromagnetic valve 14 through a wire, and the right side of the second check valve 15 and the right side of the purging electromagnetic valve 14 are connected through a rubber pipe 9.

The working process of the water-gas distributor is as follows:

when spraying is needed, the waterway electromagnetic valve 3 and the air passage electromagnetic valve 11 are in an open state, the purging electromagnetic valve 14 is in a closed state, a water source conveyed by the spraying dust suppression host sequentially passes through the waterway pressure regulating valve 2, the first connecting pipe 6, the waterway electromagnetic valve 3 and the first check valve 8 to enter the waterway shunt pipe 4, and the waterway shunt pipe 4 divides the water source into multiple paths of water sources needed by treatment points for use by nozzles. The air source conveyed by the spraying dust suppression host machine sequentially passes through the second connecting pipe 23, the air path electromagnetic valve 11 and the air path pressure regulating valve 12 and then enters the air path shunt pipe 13, and the air path shunt pipe 13 divides the air source into multiple paths of air sources required by treatment points for use by nozzles.

After spraying, the water path electromagnetic valve 3 is closed, when purging is needed, the gas path electromagnetic valve 11 is continuously opened, the purging electromagnetic valve 14 is opened, compressed air in the gas path shunt pipe 13 sequentially passes through the purging electromagnetic valve 14, the rubber pipe 9 and the second check valve 15 and then enters the water path shunt pipe 4 (the compressed air stops moving at the first check valve 8), residual water in the water path shunt pipe 4 is purged, and the residual water in the water path shunt pipe 4 and a pipeline (PU pipe) between the water path shunt pipe 4 and a nozzle is sprayed out through the nozzle.

1. the dustproof, waterproof and antirust shell 1 greatly prolongs the service life of the water-gas distributor.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The water-air distributor is characterized by comprising a shell, a water path shunt pipe and an air path shunt pipe, wherein,

the shell is of a box body structure, and the water path flow dividing pipe and the air path flow dividing pipe are arranged in the shell;

one end of the waterway flow dividing pipe is communicated with one end of a first connecting pipe through a waterway electromagnetic valve, and the other end of the first connecting pipe penetrates through one side wall of the shell and then extends out of the shell;

one end of the air path flow dividing pipe is communicated with one end of a second connecting pipe through an air path electromagnetic valve, and the other end of the second connecting pipe penetrates through one side wall of the shell and then extends out of the shell; the other end of the water path flow dividing pipe is communicated with the other end of the gas path flow dividing pipe through a rubber pipe;

and a purging electromagnetic valve is arranged at one end of the rubber tube close to the gas path flow dividing pipe.

2. The water-gas distributor according to claim 1,

and a waterway pressure regulating valve is arranged at the other end of the first connecting pipe.

3. The water-gas distributor according to claim 1,

a first check valve is arranged between the waterway electromagnetic valve and the waterway shunt pipe.

4. The water-gas distributor according to claim 1,

and a second check valve is arranged at one end of the rubber tube close to the waterway shunt tube.

5. The water-gas distributor according to claim 1,

and a gas circuit pressure regulating valve is arranged between the gas circuit electromagnetic valve and the gas circuit flow dividing pipe.

6. The water-gas distributor according to claim 1,

1-12 water outlet holes are formed in the waterway diversion pipe;

the gas path flow dividing pipe is provided with 1-12 gas outlet holes;

the top end of the shell is provided with 1-12 corrugated pipe joints.

7. The water gas distributor according to claim 6,

each water outlet is provided with a ball valve.

8. The water-gas distributor according to claim 1,

the first connecting pipe, the second connecting pipe, the other end of the water path flow dividing pipe and the other end of the air path flow dividing pipe all penetrate through the side wall of the shell and are fixed on the shell through nuts.

9. The water gas distributor according to claim 6,

each air outlet is provided with a quick connector.

10. The water-gas distributor according to claim 1,

the front side of the housing is provided with a door that can be opened.