CN108672120A - A kind of wind power ganged nozzle of interlocking-type - Google Patents

Abstract

A kind of wind power ganged nozzle of interlocking-type, including jet body, nozzle, water main and air feed manifold, the jet body and nozzle are in tubular construction, the jet body both ends open, nozzle one end closing, another end opening, the open end of nozzle and the threaded one end of jet body connect, nipple top offers atomizing nozzle, the jet body is internally provided with geomantic omen mixing chamber close to one end of nozzle, the geomantic omen mixing chamber is connected with nozzle, geomantic omen mixing chamber is connected by water inlet pipe with water main, geomantic omen mixing chamber is connected by blast pipe with air feed manifold, water route locking assembly is provided on the water inlet pipe, wind path locking assembly is provided on the blast pipe.When the present invention makes any one in blast pipe and water inlet pipe inoperable situation occur, blast pipe and water inlet pipe are closed, and are more energy-saving and environmentally friendly, and reduce production cost, while water being effectively prevent to enter in blast pipe.

Description

A kind of wind power ganged nozzle of interlocking-type

Technical field

The present invention relates in coal mine digging depositing dust spraying apparatus technical field more particularly to a kind of interlocking-type it is wind power ganged Nozzle.

Background technology

A large amount of dust is will produce in coal mine digging, dust storm is especially will produce in mine, seriously endangers constructor The health of member, the main method that solves dust problem are to realize depositing dust by way of spraying.Current atomizing de-dusting There are many drawbacks for nozzle：1, when blast pipe and water inlet pipe have any one occur inoperable situation when, another according to It is so in running order, it is wasted so as to cause geomantic omen, generates noise, it is difficult to depositing dust.2, the hydraulic pressure in water inlet pipe under normal conditions It is 3-6 times of the wind pressure in blast pipe, when hydraulic pressure is big, water in the mixing chamber of geomantic omen can be into Gas inlet tube, so as to cause pressure wind It saves oneself, pneumatic equipment cannot use, and generate huge hidden danger.

Invention content

The purpose of the present invention is overcoming the shortcomings of above-mentioned technology, a kind of wind power ganged nozzle of interlocking-type is provided, blast pipe is made When there is inoperable situation with any one in water inlet pipe, blast pipe and water inlet pipe are closed, and play the role of interlocking, more Add energy conservation and environmental protection, reduces production cost, while water being effectively prevent to enter in blast pipe.

The technical solution adopted in the present invention is：A kind of wind power ganged nozzle of interlocking-type, including jet body, nozzle, water supply Manifold and air feed manifold, the jet body and nozzle in tubular construction, the jet body both ends open, one end seal of the nozzle It closes, another end opening, the open end of nozzle and the threaded one end of jet body connect, and nipple top offers atomizing nozzle, described to penetrate Fluid is internally provided with geomantic omen mixing chamber close to one end of nozzle, and the geomantic omen mixing chamber is connected with nozzle, geomantic omen mixing Chamber is connected by water inlet pipe with water main, and geomantic omen mixing chamber is connected by blast pipe with air feed manifold, the water inlet pipe On be provided with water route locking assembly, the water route locking assembly includes entering the wind shunt valve, vertical first be threaded through on water inlet pipe Sliding pipe and the first sliding tube being threaded through in the first sliding pipe, one end of first sliding pipe are closed by first baffle, The tube wall of the other end extends outward to form the first limiting stand, and first sliding tube is close to the closing of one end of first baffle and the end Portion is fixedly connected by the first spring with first baffle, and the other end of the first sliding tube is provided with matched with the first limiting stand First fixture block, by make the first fixture block be stuck on the first limiting stand to limitation the first sliding tube sliding position, described first The inside in one end of air inlet shunt valve is arranged in fixture block, and the other end for entering the wind shunt valve is connected with air feed manifold, and described first There are two the limbers that are oppositely arranged for setting on sliding tube, by making limbers be placed in or being not interposing in water inlet pipe, to make into Water in water pipe is able to flow or not flow；Wind path locking assembly, the wind path locking assembly packet are provided on the blast pipe It includes into water shunt valve, vertical the second sliding pipe being threaded through on blast pipe and the second sliding tube being threaded through in the second sliding pipe, One end of second sliding pipe is closed by second baffle, and the tube wall of the other end extends outward to form the second limiting stand, described Second sliding tube is closed close to one end of second baffle and the end is fixedly connected by second spring with second baffle, and second slides The other end of dynamic pipe be provided with matched second fixture block of the second limiting stand, by making the second fixture block be stuck on the second limiting stand To the sliding position of the second sliding tube of limitation, the inside in one end of water inlet shunt valve is arranged in second fixture block, and water inlet is other The other end of road pipe is connected with water main, and the ventilation hole being oppositely arranged there are two settings on second sliding tube passes through Ventilation hole is set to be placed in or be not interposing in blast pipe, to enable the wind in blast pipe to flow or not flow.

Water repellent component is provided between the blast pipe and geomantic omen mixing chamber, the water repellent component includes accommodating to manage, respectively It is arranged in the anti-water polo and large-diameter pipe for accommodating pipe both ends, small diameter tube, major diameter pipe outer wall patch is provided between anti-water polo and large-diameter pipe It is located on the inner wall for accommodating pipe, one end of the large-diameter pipe is connected with geomantic omen mixing chamber, and the other end is connected with small diameter tube, institute The diameter for stating anti-water polo is more than the diameter of small diameter tube, and the diameter of the large-diameter pipe is more than the diameter of small diameter tube, the anti-water polo Diameter is less than the internal diameter for accommodating pipe.

The diameter of the water inlet pipe is less than the diameter of water main.

The diameter of the blast pipe is less than the diameter of air feed manifold.

Compared with prior art, the invention has the advantages that：The present invention provides a kind of wind power ganged spray of interlocking-type Head, when any one in blast pipe and water inlet pipe being made inoperable situation occur, blast pipe and water inlet pipe are closed, more Energy conservation and environmental protection reduces production cost, while water being effectively prevent to enter in blast pipe, safer.

Description of the drawings

Fig. 1 is the structural schematic diagram of the present invention.

Specific implementation mode

It elaborates in the following with reference to the drawings and specific embodiments to the present invention.

Embodiment 1

As shown in Figure 1, a kind of wind power ganged nozzle of interlocking-type, including jet body 1, nozzle 2, water main 3 and air feed manifold 4, In tubular construction, 1 both ends open of the jet body, 2 one end of the nozzle is closed for the jet body 1 and nozzle 2, and the other end is opened Mouthful, the open end of nozzle 2 is connect with the threaded one end of jet body 1, and 2 top of nozzle offers atomizing nozzle 5, and the jet body 1 leans on One end of nearly nozzle 2 is internally provided with geomantic omen mixing chamber 6, and the geomantic omen mixing chamber 6 is connected with nozzle 2, geomantic omen mixing chamber 6 It is connected with water main 3 by water inlet pipe 7, geomantic omen mixing chamber 6 is connected by blast pipe 8 with air feed manifold 4, and wind and water exist Geomantic omen mixing chamber 6 is sprayed after mixing by nozzle 2.

Water route locking assembly 9 is provided on the water inlet pipe 7.

The water route locking assembly 9 includes air inlet shunt valve 907, vertical the first sliding pipe 901 being threaded through on water inlet pipe 7 With the first sliding tube 904 being threaded through in the first sliding pipe 901, one end of first sliding pipe 901 passes through first baffle 902 Closing, the tube wall of the other end extend outward to form the first limiting stand 903, and first sliding tube 904 is close to first baffle 902 One end is closed and the end is fixedly connected by the first spring 905 with first baffle 902, and the other end of the first sliding tube 904 is set Be equipped with 903 matched first fixture block 906 of the first limiting stand, by make the first fixture block 906 be stuck on the first limiting stand 903 from And the sliding position of the first sliding tube 904 is limited, the inside in one end of air inlet shunt valve 907 is arranged in first fixture block 906, The other end of air inlet shunt valve 907 is connected with air feed manifold 4, and there are two be oppositely arranged for setting on first sliding tube 904 Limbers 908, by making limbers 908 be placed in or be not interposing in water inlet pipe 7, to enable the water in water inlet pipe 7 to flow Or it does not flow.

When there is no wind in air feed manifold 4, the first spring 905 so that the first fixture block 906 far from the first limiting stand 903, from And limbers 908 is made to be not interposing in water inlet pipe 7, the first sliding tube 904 separates water inlet pipe 7 so that the water in water inlet pipe 7 can not It flows again, thus by 7 locking of water inlet pipe.

When having wind in air feed manifold 4, wind enters in air inlet shunt valve 907 and blast pipe 8, enters the wind in shunt valve 907 Wind pushes the first fixture block 906 to be moved to the direction of the first limiting stand 903, and the first spring 905 compression, the first fixture block 906 is stuck in the On one limiting stand 903, limbers 908 is placed in water inlet pipe 7, and the water in water inlet pipe 7 is flowed.

Wind path locking assembly 10 is provided on the blast pipe 8, the wind path locking assembly 10 includes water inlet shunt valve 1007, vertical the second sliding pipe 1001 being threaded through on blast pipe 8 and the second sliding tube being threaded through in the second sliding pipe 1001 1004, one end of second sliding pipe 1001 is closed by second baffle 1002, and the tube wall of the other end extends outward to form Two limiting stands 1003, second sliding tube 1004 is closed close to one end of second baffle 1002 and the end passes through second spring 1005 are fixedly connected with second baffle 1002, and the other end of the second sliding tube 1004 is provided with to be matched with the second limiting stand 1003 The second fixture block 1006, by making the second fixture block 1006 be stuck on the second limiting stand 1003 to second sliding tube 1004 of limitation The inside in one end of water inlet shunt valve 1007 is arranged in sliding position, second fixture block 1006, the another of shunt valve 1007 of intaking One end is connected with water main 3, and the ventilation hole 1008 being oppositely arranged there are two settings on second sliding tube 1004 passes through Ventilation hole 1008 is set to be placed in or be not interposing in blast pipe 8, to enable the wind in blast pipe 8 to flow or not flow.

When there is no water in water main 3, second spring 1005 so that the second fixture block 1006 far from the second limiting stand 1003, To make ventilation hole 1008 be not interposing in blast pipe 8, the second sliding tube 1004 separates blast pipe 8 so that the wind in blast pipe 8 It can not flow again, thus by 8 locking of blast pipe.

When having water in water main 3, water enters in water inlet shunt valve 1007 and water inlet pipe 7, in shunt valve 1007 of intaking Water push the second fixture block 1006 to the direction of the second limiting stand 1003 move, second spring 1005 compress, the second fixture block 1006 It is stuck on the second limiting stand 1003, ventilation hole 1008 is placed in blast pipe 8, and the water in blast pipe 8 is flowed.

Water repellent component 11 is provided between the blast pipe 8 and geomantic omen mixing chamber 6, the water repellent component 11 includes accommodating to manage 1101, it is separately positioned on the anti-water polo 1102 and large-diameter pipe 1103 for accommodating 1101 both ends of pipe, anti-water polo 1102 and large-diameter pipe 1103 Between be provided with small diameter tube 1104,1103 outer wall of large-diameter pipe is sticked on the inner wall for accommodating pipe 1101, the large-diameter pipe 1103 One end is connected with geomantic omen mixing chamber 6, and the other end is connected with small diameter tube 1104, and the diameter of the anti-water polo 1102 is more than path The diameter of pipe 1104, the diameter of the large-diameter pipe 1103 are more than the diameter of small diameter tube 1104, and the diameter of the anti-water polo 1102 is small In the internal diameter for accommodating pipe 1101.Wind enters small diameter tube 1104 by the gap between anti-water polo 1102 and receiving pipe 1101, enters back into Large-diameter pipe 1103 eventually enters into geomantic omen mixing chamber 6, and water is entered by large-diameter pipe 1103 in small diameter tube 1104, and anti-water polo 1102 hinders It has kept off water to enter in blast pipe 8, has played the role of non-return valve.

The diameter of the water inlet pipe 7 is less than the diameter of water main 3.

The diameter of the blast pipe 8 is less than the diameter of air feed manifold 4.

Embodiment 2

As shown in Figure 1, a kind of wind power ganged nozzle of interlocking-type, including jet body 1, nozzle 2, water main 3 and air feed manifold 4, In tubular construction, 1 both ends open of the jet body, 2 one end of the nozzle is closed for the jet body 1 and nozzle 2, and the other end is opened Mouthful, the open end of nozzle 2 is connect with the threaded one end of jet body 1, and 2 top of nozzle offers atomizing nozzle 5, and the jet body 1 leans on One end of nearly nozzle 2 is internally provided with geomantic omen mixing chamber 6, and the geomantic omen mixing chamber 6 is connected with nozzle 2, geomantic omen mixing chamber 6 It is connected with water main 3 by water inlet pipe 7, geomantic omen mixing chamber 6 is connected by blast pipe 8 with air feed manifold 4, and wind and water exist Geomantic omen mixing chamber 6 is sprayed after mixing by nozzle 2.

Water route locking assembly 9 is provided on the water inlet pipe 7.

The water route locking assembly 9 includes air inlet shunt valve 907, vertical the first sliding pipe 901 being threaded through on water inlet pipe 7 With the first sliding tube 904 being threaded through in the first sliding pipe 901, one end of first sliding pipe 901 passes through first baffle 902 Closing, the tube wall of the other end extend outward to form the first limiting stand 903, and first sliding tube 904 is close to first baffle 902 One end is closed and the end is fixedly connected by the first spring 905 with first baffle 902, and the other end of the first sliding tube 904 is set Be equipped with 903 matched first fixture block 906 of the first limiting stand, by make the first fixture block 906 be stuck on the first limiting stand 903 from And the sliding position of the first sliding tube 904 is limited, the inside in one end of air inlet shunt valve 907 is arranged in first fixture block 906, The other end of air inlet shunt valve 907 is connected with air feed manifold 4, and there are two be oppositely arranged for setting on first sliding tube 904 Limbers 908, by making limbers 908 be placed in or be not interposing in water inlet pipe 7, to enable the water in water inlet pipe 7 to flow Or it does not flow.

When there is no wind in air feed manifold 4, the first spring 905 so that the first fixture block 906 far from the first limiting stand 903, from And limbers 908 is made to be not interposing in water inlet pipe 7, the first sliding tube 904 separates water inlet pipe 7 so that the water in water inlet pipe 7 can not It flows again, thus by 7 locking of water inlet pipe.

When having wind in air feed manifold 4, wind enters in air inlet shunt valve 907 and blast pipe 8, enters the wind in shunt valve 907 Wind pushes the first fixture block 906 to be moved to the direction of the first limiting stand 903, and the first spring 905 compression, the first fixture block 906 is stuck in the On one limiting stand 903, limbers 908 is placed in water inlet pipe 7, and the water in water inlet pipe 7 is flowed.

Wind path locking assembly 10 is provided on the blast pipe 8, the wind path locking assembly 10 includes water inlet shunt valve 1007, vertical the second sliding pipe 1001 being threaded through on blast pipe 8 and the second sliding tube being threaded through in the second sliding pipe 1001 1004, one end of second sliding pipe 1001 is closed by second baffle 1002, and the tube wall of the other end extends outward to form Two limiting stands 1003, second sliding tube 1004 is closed close to one end of second baffle 1002 and the end passes through second spring 1005 are fixedly connected with second baffle 1002, and the other end of the second sliding tube 1004 is provided with to be matched with the second limiting stand 1003 The second fixture block 1006, by making the second fixture block 1006 be stuck on the second limiting stand 1003 to second sliding tube 1004 of limitation The inside in one end of water inlet shunt valve 1007 is arranged in sliding position, second fixture block 1006, the another of shunt valve 1007 of intaking One end is connected with water main 3, and the ventilation hole 1008 being oppositely arranged there are two settings on second sliding tube 1004 passes through Ventilation hole 1008 is set to be placed in or be not interposing in blast pipe 8, to enable the wind in blast pipe 8 to flow or not flow.

When there is no water in water main 3, second spring 1005 so that the second fixture block 1006 far from the second limiting stand 1003, To make ventilation hole 1008 be not interposing in blast pipe 8, the second sliding tube 1004 separates blast pipe 8 so that the wind in blast pipe 8 It can not flow again, thus by 8 locking of blast pipe.

When having water in water main 3, water enters in water inlet shunt valve 1007 and water inlet pipe 7, in shunt valve 1007 of intaking Water push the second fixture block 1006 to the direction of the second limiting stand 1003 move, second spring 1005 compress, the second fixture block 1006 It is stuck on the second limiting stand 1003, ventilation hole 1008 is placed in blast pipe 8, and the water in blast pipe 8 is flowed.

Water repellent component 11 is provided between the blast pipe 8 and geomantic omen mixing chamber 6, the water repellent component 11 includes accommodating to manage 1101, it is separately positioned on the anti-water polo 1102 and large-diameter pipe 1103 for accommodating 1101 both ends of pipe, anti-water polo 1102 and large-diameter pipe 1103 Between be provided with small diameter tube 1104,1103 outer wall of large-diameter pipe is sticked on the inner wall for accommodating pipe 1101, the large-diameter pipe 1103 One end is connected with geomantic omen mixing chamber 6, and the other end is connected with small diameter tube 1104, and the diameter of the anti-water polo 1102 is more than path The diameter of pipe 1104, the diameter of the large-diameter pipe 1103 are more than the diameter of small diameter tube 1104, and the diameter of the anti-water polo 1102 is small In the internal diameter for accommodating pipe 1101.Wind enters small diameter tube 1104 by the gap between anti-water polo 1102 and receiving pipe 1101, enters back into Large-diameter pipe 1103 eventually enters into geomantic omen mixing chamber 6, and water is entered by large-diameter pipe 1103 in small diameter tube 1104, and anti-water polo 1102 hinders It has kept off water to enter in blast pipe 8, has played the role of non-return valve.

The diameter of the water inlet pipe 7 is less than the diameter of water main 3.The diameter of the water main 3 is 7 diameter of water inlet pipe Three times.

The diameter of the blast pipe 8 is less than the diameter of air feed manifold 4.The diameter of the air feed manifold 4 is the three of blast pipe 8 Times.

Above-described embodiment based on the technical solution of the present invention, gives detailed embodiment and specifically operated Journey, but protection scope of the present invention is not limited to the above embodiments.

Claims (4)

1. a kind of wind power ganged nozzle of interlocking-type, including jet body（1）, nozzle（2）, water main（3）With air feed manifold（4）, The jet body（1）And nozzle（2）In tubular construction, the jet body（1）Both ends open, the nozzle（2）One end is closed, Another end opening, nozzle（2）Open end and jet body（1）Threaded one end connection, nozzle（2）Top offers atomizing nozzle （5）, it is characterised in that：The jet body（1）Close to nozzle（2）One end be internally provided with geomantic omen mixing chamber（6）, the wind Water mixing chamber（6）With nozzle（2）It is connected, geomantic omen mixing chamber（6）Pass through water inlet pipe（7）With water main（3）It is connected, geomantic omen Mixing chamber（6）Pass through blast pipe（8）With air feed manifold（4）It is connected, the water inlet pipe（7）On be provided with water route locking assembly （9）, the water route locking assembly（9）Including entering the wind shunt valve（907）, be vertically threaded through water inlet pipe（7）On the first sliding pipe （901）Be threaded through the first sliding pipe（901）The first interior sliding tube（904）, first sliding pipe（901）One end pass through First baffle（902）Closing, the tube wall of the other end extend outward to form the first limiting stand（903）, first sliding tube（904） Close to first baffle（902）One end closing and the end pass through the first spring（905）With first baffle（902）It is fixedly connected, First sliding tube（904）The other end be provided with and the first limiting stand（903）Matched first fixture block（906）, by making One fixture block（906）It is stuck in the first limiting stand（903）Above to the first sliding tube of limitation（904）Sliding position, it is described first card Block（906）Setting is in air inlet shunt valve（907）One end inside, enter the wind shunt valve（907）The other end and air feed manifold（4） It is connected, first sliding tube（904）There are two the limbers being oppositely arranged for upper setting（908）, by making limbers（908） It is placed in or is not interposing at water inlet pipe（7）In, to make water inlet pipe（7）In water be able to flow or not flow；The blast pipe（8）On It is provided with wind path locking assembly（10）, the wind path locking assembly（10）Including shunt valve of intaking（1007）, it is vertical be threaded through into Air hose（8）On the second sliding pipe（1001）Be threaded through the second sliding pipe（1001）The second interior sliding tube（1004）, described Second sliding pipe（1001）One end pass through second baffle（1002）Closing, the tube wall of the other end extend outward to form the second limit Platform（1003）, second sliding tube（1004）Close to second baffle（1002）One end closing and the end pass through second spring （1005）With second baffle（1002）It is fixedly connected, the second sliding tube（1004）The other end be provided with and the second limiting stand （1003）Matched second fixture block（1006）, by making the second fixture block（1006）It is stuck in the second limiting stand（1003）On to limit Make the second sliding tube（1004）Sliding position, second fixture block（1006）Setting is in water inlet shunt valve（1007）One end Inside, shunt valve of intaking（1007）The other end and water main（3）It is connected, second sliding tube（1004）On be provided with Two ventilation holes being oppositely arranged（1008）, by making ventilation hole（1008）It is placed in or is not interposing at blast pipe（8）In, to make into Air hose（8）In wind be able to flow or not flow.

2. a kind of wind power ganged nozzle of interlocking-type as described in claim 1, it is characterised in that：The blast pipe（8）With geomantic omen Mixing chamber（6）Between be provided with water repellent component（11）, the water repellent component（11）It is managed including accommodating（1101）, it is separately positioned on appearance Receive pipe（1101）The anti-water polo at both ends（1102）And large-diameter pipe（1103）, anti-water polo（1102）With large-diameter pipe（1103）Between be arranged There is small diameter tube（1104）, large-diameter pipe（1103）Outer wall, which is sticked, is accommodating pipe（1101）Inner wall on, the large-diameter pipe（1103）'s One end and geomantic omen mixing chamber（6）It is connected, the other end and small diameter tube（1104）It is connected, the anti-water polo（1102）Diameter it is big In small diameter tube（1104）Diameter, the large-diameter pipe（1103）Diameter be more than small diameter tube（1104）Diameter, the anti-water polo （1102）Diameter be less than accommodate manage（1101）Internal diameter.

3. a kind of wind power ganged nozzle of interlocking-type as described in claim 1, it is characterised in that：The water inlet pipe（7）Diameter Less than water main（3）Diameter.

4. a kind of wind power ganged nozzle of interlocking-type as described in claim 1, it is characterised in that：The blast pipe（8）Diameter Less than air feed manifold（4）Diameter.