KR200222227Y1 - water mist spray nozzle - Google Patents

Abstract

The present invention relates to a nozzle for spraying water fog, the upper and lower openings have a coupling portion 102 is provided on the outer surface and a guide flow path 101 through which the water flowing through the external water supply pipe is provided, the guide flow path A water inflow member (100) configured to gradually widen in a downward direction from a predetermined position of the cross section (101); A water holding member 110 having an upper and lower opening and a receiving portion 113 formed therein to be coupled to the water inflow member 100 to generate a predetermined acceleration force and a rotational force in the water transferred through the water inflow member 100. ); A water inlet hole 122 is formed in a portion of the lower portion opened and coupled to the water receiving member 110 and protruded toward the receiving portion 113 to accelerate and generate a rotational force in the receiving portion 113. A pressure generating member 120 generating a predetermined pressure in a process of flowing in through the water inlet hole 122; And, the injection member 130 is formed in the opening of the pressure generating member 120 is formed expansion unit 134 for spraying the water contained in the pressure generating member 120 in the shape of a fog of a predetermined pressure; A water fog spray fire extinguishing nozzle configured is a technical subject matter. Accordingly, water is used as a fire extinguishing solution, but there is an advantage of minimizing water particles to be sprayed, and spraying water in a mist shape even under low pressure to suppress general fires and oil fires by using fog penetration and air blocking force.

Description

Water mist spray nozzle

The present invention relates to a nozzle, and more specifically, to use water as a fire extinguishing agent, to minimize the water particles to be sprayed and to spray water in the form of fog even under low pressure by using the fog penetration and air barrier force of the general fire and The present invention relates to a nozzle for extinguishing water fog, which also suppresses an oil fire.

In general, when a fire occurs, a fire truck or a fire extinguisher is used to extinguish a fire.

For fire extinguishing, water is used as a fire extinguishing agent, and water is used as a fire extinguishing agent using a sprinkler and a water spraying facility.

The method using a sprinkler according to the prior art is largely divided into a dry type and a wet type by installing a sprinkler head and spraying predetermined water through the sprinkler head.

In the dry type, water is emptied in the supply pipe and head of the sprinkler head, and after the alarm on the receiving panel is triggered by the fire monitor, the fire water supply pump is connected to the fire truck's water inlet by automatic or manual operation, Extinguish fire. Here, typically, 80 liters of water per minute are sprinkled from the head of one sprinkler.

In the wet type, the thermal expansion glass tube fuse or heat fuse melted after detecting heat in the sprinkler head blocks the head injection port, and the supply pipe is filled with water to maintain a constant pressure. In a fire, water is sprayed through the head as the sprinkler head fuses off after it receives heat. Here, 80 liters of water are sprinkled onto the head of a sprinkler.

However, the above prior art has a problem described below.

First, since water particles are injected through the sprinkler head, it is impossible to use the oil fire.

Second, the amount of water used for extinguishing is excessive, there are problems such as secondary damage due to a large amount of water spray, that is, flooding, electrical accidents.

Third, there is a problem that a separate water tank and a high pressure pump are required to send water over a long distance by using a high pressure method of the automation equipment, that is, a conventional nozzle that consumes a lot of water.

Therefore, the present invention was devised to solve the above problems, using water as a fire extinguishing agent, but to minimize the water particles to be injected and to spray the water dispersed in the mist form even under low pressure to improve the penetration and air blocking force of the fog It is an object of the present invention to provide a nozzle for extinguishing water fog spraying to extinguish general fire and oil fire.

1-front view of the water fog spray fire extinguishing nozzle according to the present invention.

2-longitudinal section view.

3-exploded cross-sectional view.

4-flow diagram of water.

<Description of Symbols for Major Parts of Drawings>

100: water inlet member 101: guide flow path

102: coupling portion 102a: male thread for water inlet pipe coupling

103: female thread for coupling the water holding member 110: water holding member

111: protrusion 112: male thread

113: accommodating part 114: female thread for coupling the pressure generating member

115: base jaw 120: pressure generating member

121: male thread mountain 122: water inlet hole

123: protrusion protrusion 124: female thread for the injection member coupling

130: injection member 131: support

132: male thread 133: nozzle

134: extension

The present invention for achieving the above object, the upper and lower openings in the shape of the outer surface A water inlet member having a coupling part and having a guide flow path through which water introduced through the external water supply pipe flows, the cross section of the guide flow passage gradually widening downward from a predetermined position; A water receiving member having an upper and lower openings coupled to the water inflow member and having an accommodation portion formed therein so as to generate a predetermined acceleration and rotational force in the water transferred through the water inflow member; A water inlet is formed in a portion of the lower part which is opened and coupled to the water receiving member and protrudes toward the receiving part, and thus, the water accelerated in the receiving part and introduced into the water through the water inlet is generated. A pressure generating member for generating a pressure; The water mist spraying and extinguishing nozzle comprising a spray member is provided in the opening of the pressure generating member is formed expansion portion for spraying the water contained in the pressure generating member in the shape of a mist of a predetermined pressure.

Here, the water inlet member, the external male water inlet pipe coupling male thread formed on the coupling portion; It is preferable that it further comprises a female thread for coupling the water holding member formed on the lower inner peripheral surface.

And, the water receiving member, the male thread formed on the upper outer peripheral surface; It is preferably configured to further include; a female thread for coupling the pressure generating member formed on the lower inner peripheral surface.

In addition, the pressure generating member, the male thread formed on the outer peripheral surface; It is preferably configured to further include; female thread for coupling the injection member formed on the inner peripheral surface.

Accordingly, there is an advantage of extinguishing not only general fires but also oil fires by spraying water used as a fire extinguishing fluid under low pressure under a low pressure.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of a water fog spray fire extinguishing nozzle according to the present invention, Figure 2 is a longitudinal cross-sectional view, Figure 3 is an exploded cross-sectional view, Figure 4 is a flow diagram of water.

As shown, the fire extinguishing nozzle according to the present invention is largely composed of a water inlet member 100, the water receiving member 110, the pressure generating member 120, and the injection member 130.

First, the water inflow member 100 will be described.

The water inflow member 100 is configured in a substantially cylindrical shape with the upper and lower openings. And there is provided a guide flow path 101 through which the water flowing through the external water supply pipe flows and is configured such that the cross-sectional area of the guide flow path 101 is predetermined wider from the predetermined position going downward. A coupling portion 102 is formed on the upper portion of the water inflow member 100, and an external water supply pipe is coupled to the coupling portion 102. That is, an external water inlet pipe coupling male thread 102a is formed on the outer circumferential surface of the coupling portion 102 so that the water inflow member 100 and the external water supply pipe are coupled by screwing.

A plurality of female threads 103 are formed on the lower inner circumferential surface of the water inflow member 100 so that the water receiving member 110, which will be described later, is screwed to the lower inner circumferential surface of the water inflow member 100. It is installed in the form.

The water receiving member 110 is configured in a substantially cylindrical shape with the upper and lower openings. And the upper end portion of the water receiving member 110 is formed with an annular protrusion 111 projecting upward along the end portion and a plurality of male threads 112 are formed along the outer circumferential surface on the outer circumferential surface of the protrusion 111. Male thread 112 is coupled to the female thread 103 for coupling the water receiving member of the water inflow member 100.

Water introduced along the guide flow path 101 of the water inflow member 100 is accommodated in the water receiving member 110, and the cross-sectional area of the space is different in the internal space of the water receiving member 110. A wider receiver 113 is formed.

A plurality of pressure generating member coupling female threads 114 are formed along the inner circumferential surface of the lower inner circumferential surface of the water receiving member 110, and the pressure generating member 120, which will be described later, is screwed to the female thread 114. In addition, a pressure generating member 120 is formed on the inner circumferential surface of the water accommodating member 110 and has a support protrusion 115 having a predetermined protrusion inwardly along the inner circumferential surface thereof and is screwed to the inner circumferential surface of the water receiving member 110. This prevents indefinite coupling to the upper side of.

The pressure generating member 120 is formed in a substantially cylindrical shape with the lower side opened and a plurality of male threads 121 are formed along the circumferential surface of the lower circumferential surface of the pressure generating member 120 to allow the male thread 121 to be formed. The water generating member 110 is screwed with the female thread thread 114 for coupling the pressure generating member. That is, the pressure generating member 120 is coupled to the water receiving member 110 in a form accommodated in the water receiving member 110. And the water inlet hole 122 is formed on the circumferential surface of the pressure generating member 120, the water received in the water receiving member 110 through the water inlet hole 122 is inside the pressure generating member 120 Flows into. That is, the water obtained the predetermined rotational force and the acceleration force in the receiving portion 113 in the water receiving member 110 is supplied to the water inlet hole 122 of the pressure generating member 120 is provided with a predetermined pressure.

In addition, the lower end portion of the pressure generating member 120 is formed with a protrusion protrusion 123 protruding in an annular shape to the inside, the outer side of the pressure generating member 120 along the lower end, which will be described later on the inner circumferential surface of the protrusion protrusion 123. Female thread 124 for injecting member coupling is formed.

The injection member 130 is formed in a substantially cylindrical shape having an upper and lower openings and a support part 131 provided at a lower portion thereof, and an external thread 132 is formed on an outer circumferential circumferential surface of the injection member 130 to allow the external thread 132 to be formed. ) Is screwed with the female thread 124 of the protrusion 123. Here, the upper and lower openings of the injection member 130 become the injection holes 133.

When the injection member 130 is screwed to the protruding projection 123, the upper end of the support portion 131 is in close contact with the lower end of the protruding projection 123, the injection member 130 is the pressure generating member 120 When coupled to the control to be coupled to only a predetermined portion.

And the injection hole 133 formed in the injection member 130 has a predetermined wider portion 134 than the upper portion is formed at the lower end so that the water sprayed through the injection hole 133 passes through the expansion portion 134 and spreads. That is, it is sprayed while spreading in a fog shape.

The operation effect by the above configuration is as described later.

First, the user screws the water inflow member 100, the water receiving member 110, the pressure generating member 120 and the injection member 130. Then, the external water supply pipe is coupled to the coupling portion 102 of the water inflow member 110.

Then water is supplied from the external water supply pipe. Wherein the water supply pressure is maintained about 10 to 15kgf / cm ² . The supplied water flows into the water receiving member 110 along the guide flow path 101 formed in the water inflow member 100. Water introduced into the water receiving member 110 flows into the receiving portion 113 formed inside the water receiving member 110 and along the outer circumferential surface of the pressure generating member 120 protruding toward the receiving portion 113 side. Rotation, i.e., vortexing, generates the desired rotational force and acceleration. The water vortexed in the receiving portion 113 maintains the same flow state at each point and the pressure also maintains the same state at each point. Water vortexed in the receiving part 113 should be discharged to a predetermined entrance and exit, and is introduced into the pressure generating member 120 through a water inlet hole 122 formed in the pressure generating member 120.

In this process, a predetermined pressure is formed in the water flowing into the pressure generating member 120. And the water introduced into the pressure generating member 120 is rotated in a vortex shape along the inner peripheral surface of the pressure generating member 120, the water inside the pressure generating member 120 by the vortex in the position. Irrespective of the same pressure, the binding force between the water molecules is reduced. That is, the cohesion of water molecules is reduced. Water that was vortexed inside the pressure generating member 120 is sprayed to the outside through the injection hole 133 formed in the lower portion of the pressure generating member 120, and the expansion part 134 formed in the lower portion of the injection hole 133. As it passes through, it spreads in a radial fog shape.

At this time, the injection pressure injected through the injection port 133 is always maintained a constant value by the vortex of water made in the pressure generating member 120, the pressure is about 10 ~ 15kgf / cm ² or so. Water is weakened by the vortex inside the pressure generating member 120, and the water is weakened and sprayed in a fog shape. / min, the injection angle is about 80 ° ~ 120 °, and the injection distance is about 4m.

The present invention by the above configuration, the first fire extinguishing agent has the effect of being able to extinguish general fires and oil fires while using water.

Second, since it is sprayed into the mist particles through the nozzle, the process changes to the steam at the fog state, and the process takes place instantaneously, so it takes at least 538 kcal of heat momentarily and takes much more heat than water, so the fire suppression ability Excellent effect

Third, when the fire is extinguished, the pressure of the fire is lowered due to the lack of oxygen, so that the spray injected in the form of mist particles is naturally moved toward the lower air pressure, thereby making it possible to extinguish the side of the fire.

Fourth, since the mist particles trap the fluid soot and dust to sink to the floor to minimize the damage caused by soot and dust.

Fifthly, by minimizing the amount of water used, there is also an effect that can prevent secondary flooding damage and electric shock due to electrical leakage.

Claims (4)

The coupling part 102 is provided on the outer surface of the upper and lower openings, and the guide flow path 101 through which the water flowing through the external water supply pipe flows is provided. And water inlet member 100 configured to gradually widen; A water holding member 110 having an upper and lower opening and a receiving portion 113 formed therein to be coupled to the water inflow member 100 to generate a predetermined acceleration force and a rotational force in the water transferred through the water inflow member 100. )Wow; A water inlet hole 122 is formed in a portion of the lower portion opened and coupled to the water receiving member 110 and protruded toward the receiving portion 113 to accelerate and generate a rotational force in the receiving portion 113. A pressure generating member 120 generating a predetermined pressure in a process of flowing in through the water inlet hole 122; And, And an injection member 130 installed in the opening of the pressure generating member 120 and having an expansion portion 134 formed therein for spraying water contained in the pressure generating member 120 into a fog shape at a predetermined pressure. Water fog spray fire extinguishing nozzles. According to claim 1, wherein the water inflow member 100, An external water inlet pipe coupling male thread 102a formed in the coupling portion 102; Water mist spraying fire extinguishing nozzles, characterized in that it further comprises; female threaded thread (103) for water receiving member coupling formed on the lower inner peripheral surface. According to claim 1, The water receiving member 110, A male thread 112 formed on an upper outer circumferential surface thereof; Water mist spraying fire extinguishing nozzles, characterized in that it further comprises ;; According to any one of claims 1 to 3, The pressure generating member 120, A male screw thread 121 formed on an outer circumferential surface thereof; Water mist spraying fire extinguishing nozzles, characterized in that it further comprises; injection member coupling female thread mountain (124) formed on the inner circumferential surface.