KR20180000374U - Movable foam generating system - Google Patents

Abstract

 The present invention relates to a mobile cannula generating system, comprising: a drug reservoir for storing a drug; A reservoir transfer cart for movably supporting the medicine reservoir; A catcher solution mixing unit provided at an upper portion of the drug reservoir and mixing the digestion water and the drug to generate a catcher solution; And a hopper spraying unit for spraying the sprayed water to the outside by mixing the catcher solution with air, wherein the catcher solution mixing unit is connected to the upper part of the medicament reservoir, A box; A fire extinguishing water supply pipe detachably connected to the fire extinguishing water supply hose and having an opening / closing lever on an upper surface thereof; And a venturi tube which is formed by a catcher solution conveying pipe whose one end is disposed in contact with the fire extinguishing water conveying pipe and the other end is engaged with the superficial dust separating passage connected to the fire extinguishing water supply pipe, The inner wall surface of the mixing box is provided with a connection hole for discharging the medicine from the medicine reservoir. The inner wall of the mixing box is provided with a connection hole for connecting the fire extinguishing water conveyance pipe and the catcher solution to the inside of the conduit, A plurality of mixing protrusions are radially formed on the discharge end of the fire extinguishing water discharge pipe where the fire extinguishing water conveying pipe is in contact with the conveying pipe and are formed between the mixing protrusions and the fire extinguishing water discharging end, The medicine introduced into the discharge port through the connection hole is discharged to the digesting water transfer path Mixed with fire-fighting water to go, and which is characterized in that the solution is formed in which the catcher catcher solution to which the solution moves through the catcher songgwan.

Description

[0001] MOVABLE FOAM GENERATING SYSTEM [0002]

The present invention relates to a mobile cannula generating system, and more particularly to a mobile cannula generating system capable of controlling the mixing ratio of fire extinguishing water and medicine according to the concentration and specific gravity of the drug.

Fire extinguishers are provided for early suppression in the event of a fire. They are classified into water extinguishers, acid / alkaline extinguishers, reinforced liquid extinguishers, halogen compound extinguishers, carbon dioxide extinguishers, powder fire extinguishers, and foam fire extinguishers. In addition, depending on the release method of the extinguishing agent, it may be divided into a pressure extinguisher and an accumulator extinguisher.

Each fire extinguisher is selectively used to match the characteristics of the fire.

Among them, the fire extinguisher has advantages that it can be used in underground space, tunnel fire, etc. by eliminating the problems of fire extinguishers (powder, carbon dioxide, halogen compounds) that may cause asphyxiation in the confined spaces.

In the foam fire extinguisher, a collection of fine bubbles formed by foaming a mixture of fire water and a certain amount of chemical agent by air blows the surface of the combustible material and blocks the air, thereby effecting the aseptic digestion.

An example of a conventional fire extinguisher is disclosed in " Intelligent Multi-Agent Compressed Air Freshener ", Publication No. 10-2016-0002621.

The conventional fire extinguisher has a disadvantage in that it is not easy to move because of its total volume, which makes it difficult to access the fire extinguisher near the fire point outside the installation place.

In addition, the conventional fire extinguisher has a disadvantage in that the entire structure is complicated because a separate reservoir is provided with a membrane, a separate medicine feed pump, or a compressed air pressure to discharge the medicine.

The object of the present invention is to solve the above-mentioned problems, and to provide a mobile clogging system which can be easily moved to a fire site by a wheel.

Another object of the present invention is to provide a mobile cannula generating system capable of attracting a drug by the movement pressure and speed of the digestive water and improving the drug attracting effect.

Another object of the present invention is to provide a mobile cannulation system capable of controlling the mixing amount of the digestive juices and the medicines mixed therewith.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The object of the present invention described above can be achieved by a mobile cannulation system. The mobile cancellation system of the present invention comprises: a drug reservoir in which a drug is stored; A reservoir transfer cart for movably supporting the medicine reservoir; A catcher solution mixing unit provided at an upper portion of the drug reservoir and mixing the digestion water and the drug to generate a catcher solution; And a hopper spraying unit for spraying the sprayed water to the outside by mixing the catcher solution with air, wherein the catcher solution mixing unit is connected to the upper part of the medicament reservoir, A box; A fire extinguishing water supply pipe detachably connected to the fire extinguishing water supply hose and having an opening / closing lever on an upper surface thereof; And a venturi tube which is formed by a catcher solution conveying pipe whose one end is disposed in contact with the fire extinguishing water conveying pipe and the other end is engaged with the superficial dust separating passage connected to the fire extinguishing water supply pipe, The inner wall surface of the mixing box is provided with a connection hole for discharging the medicine from the medicine reservoir. The inner wall of the mixing box is provided with a connection hole for connecting the fire extinguishing water conveyance pipe and the catcher solution to the inside of the conduit, A plurality of mixing protrusions are radially formed on the discharge end of the fire extinguishing water discharge pipe where the fire extinguishing water conveying pipe is in contact with the conveying pipe and are formed between the mixing protrusions and the fire extinguishing water discharging end, The medicine introduced into the discharge port through the connection hole is discharged to the digesting water transfer path Mixed with fire-fighting water to go, and which is characterized in that the solution is formed in which the catcher catcher solution to which the solution moves through the catcher songgwan.

According to an embodiment of the present invention, the mixing box is spaced apart from the venturi-accommodating hole, and a medicament flow space in which the medicament to be moved to the venturi accommodating hole stays is formed at a certain depth, and a bottom surface of the medicament- And a medicament inlet hole through which the medicament is drawn and a medicament outlet hole through which the medicament introduced into the medicament flow space from the medicament inlet hole is discharged to the vent hole are respectively passed through the medicament inlet hole and the medicament reservoir, And the medicament stored in the medicament reservoir is sucked into the medicament suction pipe by the pressure of the high pressure water extinguished through the extinguishing water transfer path, .

According to an embodiment of the present invention, the apparatus may further include a medicine inflow amount adjusting cap detachably inserted into the medicine flow space and controlling a mixing amount of the medicine supplied to the venturi receiving hole according to a depth inserted into the medicine flow space.

According to one embodiment, the fork dispenser includes a catcher solution transfer hose coupled to the catcher solution mixing part to move the catcher solution; And a spray nozzle provided at an end of the catcher solution transfer hose to form a bubble by mixing the catcher solution and air introduced from the outside, and spraying the formed bubble to the outside.

According to one embodiment, the storage tank transfer cart comprises: a cart frame on which the medicine reservoir is seated; A plurality of feed wheels coupled to a lower portion of the cart frame; A handle extended to an upper portion of the cart frame to grip a hand; And a nozzle receiving pipe provided at one side of the cart frame to receive the jetting nozzle.

According to the present invention, since the medicine storage tank is seated in the storage tank transfer cart to which the transfer wheels are coupled, the mobile capsule system can be easily moved to the area where the fire occurred.

In addition, the agent can be attracted by the movement pressure of the water for fire fighting water without using a venturi tube for discharging the medicine to the outside. At this time, it is possible to control the difference in the diameter of the venturi pipe to improve the attraction performance of the medicine.

In addition, the mobile cannula generation system according to the present invention can control the mixing ratio of the drug to be mixed with the digestion water by controlling the insertion depth of the medicine inflow amount control cap inserted into the medicine flow space. Accordingly, the mixing ratio of the medicines can be adjusted immediately in the field of fire according to the situation.

1 is a perspective view showing the overall configuration of a mobile cannula generating system according to the present invention,
FIG. 2 is a perspective view showing the structure of a medicine reservoir of the mobile cannula generating system according to the present invention,
FIG. 3 is an exploded perspective view illustrating the structure of the catcher solution mixing portion of the mobile cannula generating system according to the present invention,
4 is a cross-sectional view showing a cross-sectional structure along the AA line of the catcher solution mixing portion,
5 is a cross-sectional view showing a cross-sectional structure taken along the line BB in Fig. 4,
FIGS. 6 to 8 are illustrations showing an example of a result of simulating the mixing process of the digestive water and the medicament in the venturi tube of the mobile cannula generating system according to the present invention.

In order to fully understand the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

1 is a perspective view showing the overall configuration of a mobile can forming system 1 according to the present invention. As shown in the drawings, the mobile cancellation system 1 according to the present invention includes a drug reservoir 100 in which a drug (A) for clogging is stored, a reservoir transport cart 200 (200) for movably supporting the drug reservoir 100, A catcher solution mixer 400 disposed above the drug reservoir 100 to mix the drug A and digestion water B to generate a catcher solution C, And an over-disperse part (300) for foaming and spraying the generated catcher solution (C) to the outside.

2 is a perspective view showing the structure of the medicine storage tank 100. As shown in FIG. As shown in the figure, the medicine storage tank 100 includes a storage tank body 110 in which the medicine A is stored, and a level gauge 120 provided outside the storage tank body 110.

The reservoir body 110 has a receiving space in which the medicine is received. The catcher solution mixing part 400 is coupled to the upper part of the reservoir body 110. The medicine suction pipe 415 of the catcher solution mixing unit 400 extends into the reservoir body 110 to move the drug A in the reservoir body 110 to the catcher solution mixing unit 400.

A drug injection port 111 is provided on the upper surface of the reservoir body 110 and a drug seal cap 130 is detachably coupled to the drug insertion port 111.

A level gauge 120 is provided outside the reservoir body 110. The user determines whether the medicine A is replenished through the water level of the medicine A displayed on the level gauge 120.

The storage tank transfer cart 200 movably supports the medicine storage tank 100. 1, the storage tank transfer cart 200 includes a cart frame 210 on which a medicine reservoir 100 is placed, a handle 230 extending from the top of the cart frame 210, And a reservoir coupling ring 220 formed to enclose the medicament reservoir 100 from the reservoir reservoir 230 to confine the position of the medicament reservoir 100.

The cart frame 210 is formed of a plate-like material, and the main feed wheel 211 and the auxiliary feed wheel 213 are rotatably coupled.

The handle 230 is formed to extend upwardly at one end of the cart frame 210. The handle 230 is extended to a position where a general adult can hold it by hand. A plurality of reservoir coupling rings 220 are provided along the longitudinal direction of the handle 230. The reservoir coupling ring 220 is wrapped around the outside of the medicine reservoir 100 and then fastened by a fastening member (not shown) to tightly bind the medicine reservoir 100.

The handle 230 is provided with a hose hanger 240 on which the catcher solution transfer hose 310 is supported and a nozzle receiving pipe 250 for receiving the spray nozzle 320.

The spray gun part (300) mixes air with the catcher solution (C) generated in the catcher solution mixing part (400) and discharges it to the outside. The spray gun part 300 includes a catcher solution transfer hose 310 connected to the catcher solution mixing part 400 and a spray nozzle 320 provided at the end of the catcher solution transfer hose 310 for spraying foam spray solution to the outside, . The injection nozzle 320 is stored in the nozzle receiving tube 250 as shown in FIG. 1 when not in use, and is separated from the nozzle receiving tube 250 when the fire is extinguished.

The catcher solution mixing unit 400 mixes the medicine A and the digestive water B in the medicine reservoir 100 to generate the catcher solution C. The catcher solution mixing unit 400 according to the present invention draws the drug A from the drug reservoir 100 according to the supply rate of the digestion water B to generate a catcher solution and adjusts the mixing ratio of the drug A .

3 is an exploded perspective view showing the catcher solution mixing unit 400 in an exploded configuration. 3, the catcher solution mixing unit 400 includes a mixing box 410 fixedly coupled to the upper surface of the storage tank main body 110, a mixing box 410 accommodated in the mixing box 410, A venturi pipe 420 for mixing the water B and the water B to generate a catcher solution C, a fire extinguishing water supply pipe 430 for supplying fire extinguishing water B to the venturi pipe 420, (440) that adjusts the mixing ratio through volume control of the medicament flow space 412 (see FIG. 4) of the medicament (A).

The mixing box 410 is formed with a cap coupling hole 411 through which the medicine inflow amount adjusting cap 440 is inserted. A fixed volume fluid flow space 412 (refer to FIG. 4) is provided so as to communicate with the cap coupling hole 411. The medicine flow space 412 is formed to communicate with the medicine path guide plate 413.

4 is a cross-sectional view showing a cross-sectional structure taken along the line A-A of the mixing box 410. As shown in Fig. Referring to the enlarged plan view of FIG. 3 and FIG. 4, a drug flow space 412 is formed so as to be depressed to a certain depth from the cap engagement hole 411. On the surface of the drug path guide plate 413, a medicine inflow hole 413a and a medicine discharge hole 413c are formed so as to be spaced apart from each other.

4, the medicine inflow hole 413a is formed to communicate with the medicine suction pipe 415 and is connected to the medicine inflow path 413b for introducing the medicine A into the medicine inflow hole 413a, The hole 413c is connected to the discharge passage connecting hole 417a and the medicine discharge passage 413d communicated with the venturi receiving hole 417. [

When the fire extinguishing water B is moved at a high speed by the venturi pipe 420, the medicine A in the medicine reservoir 100 is attracted to the medicine suction pipe 415 by the moving pressure of the fire extinguishing water. The medicine A moved to the medicine suction pipe 415 stays in the medicine flow space 412 via the medicine inflow path 413b. Then, it is guided to the medicine discharge path 413d through the medicine discharge hole 413c and supplied to the venturi receiving hole 417 through the discharge path connection hole 417a.

The agent A supplied to the venturi receiving hole 417 flows into the venturi pipe 420 and then mixed with the water B to form the catcher solution C. [

The venturi receiving hole 417 is formed through the center of the venturi pipe 420. A vent hole connecting hole 417a and a venturi fastening member insertion hole 417b are formed on the inner wall surface forming the venturi receiving hole 417. [ The discharge passage connecting hole 417a is connected to the medicine discharge passage 413d formed to communicate with the medicine flow space 412.

The venturi fastening member insertion hole 417b is formed through the outside of the mixing box 410 as shown in Figs. A venturi coupling member (not shown) (not shown) is inserted into the venturi coupling member insertion hole 417b to connect the fire fighting water feeding pipe 423 and the catcher solution feeding pipe 421, which form the venturi pipe 420, And is fixed in the receiving hole 417.

On the other hand, at both sides of the mixing box 410, a storage tank coupling end 418 is formed. The box fixing member 418b (see FIG. 2) is inserted into the reservoir body 110 through the fixing member insertion hole 418a to fix the mixing box 410 to the medicine reservoir 100 .

The venturi pipe 420 allows the fire extinguishing water (B) and the medicament (A) to be mixed to produce the catcher solution (C). The venturi pipe 420 according to the present invention is configured such that the agent A of the medicine storage tank 100 is attracted and mixed with the digestive water B by the moving speed and pressure of the digestive water B, .

The venturi pipe 420 includes a fire extinguishing water conveying pipe 423 coupled to the fire extinguishing water supply pipe 430 and a catcher solution conveying pipe 421 coupled with the catcher solution conveying hose 310. 5 is a cross-sectional view showing a sectional configuration of the venturi pipe 420 taken along the line B-B in Fig.

The catcher solution transfer pipe 421 supplies the catcher solution C mixed with the fire extinguishing water pipe 423 to the catcher solution transfer hose 310. The catcher solution transfer passage 421 has a catcher solution transfer path 421b formed therein along the longitudinal direction. A portion of the catcher solution contacting the discharging water discharge end 423b at the delivery pipe 421 is referred to as a catcher solution inlet end 421c and the catcher solution delivery end 421c is located in a direction opposite to the catcher solution inlet end 421c, Is referred to as a catcher solution discharge end 421d.

At this time, the diameter of the catcher solution transfer path 421b is gradually increased from the catcher solution inflow end 421c as shown in Fig. 5 and then maintained at a constant diameter (r2 < r1).

The diameter r2 of the catcher solution transfer path 421b at the catcher solution inlet end 421c and the diameter r3 of the fire extinguishing water conveyance path 423a at the fire extinguishing water discharge end 423b are formed to be equal to each other Or r3 < r2.

As shown in FIGS. 3 and 5, the fire extinguishing water conveying pipe 423 is inserted into the mixing box 410. The fire extinguishing water conveying pipe 423 supplies the fire extinguishing water B supplied through the fire extinguishing water feeding pipe 430 to the catcher solution conveying pipe 421 side.

A fire extinguishing water conveying path 423a is formed along the longitudinal direction of the fire extinguishing water conveying pipe 423 and a fire extinguishing water discharge end 423b is formed at one end of the fire extinguishing water conveying path 423a, And a mouth end 423d is formed. The fire water discharge end 423b is disposed so as to face the catcher solution inlet end 421c of the catcher solution transfer pipe 421. [

Here, as shown in FIG. 5, the fire extinguishing water conveyance path 423a is formed such that its diameter becomes gradually narrower toward the fire extinguishing water discharge end 423b (r4 > r3). The speed and pressure (static pressure) of the extinguishing water B supplied through the extinguishing water conveying path 423a become higher than the speed distribution of the extinguishing water discharging end 423b as the diameter of the extinguishing water conveying path 423a becomes constant and gradually becomes narrower Is maximized and the pressure distribution is minimized.

The fire extinguishing water discharge end 423b is provided with a plurality of mixing protrusions 423c radially arranged around the fire extinguishing water conveyance passage 423a. The mixing protrusions 423c are formed so as to protrude so that when the catcher solution inlet end 421c and the fire water discharge end 423b are disposed opposite to each other as shown in FIG. A) can be introduced into the space 423e.

The medicine A introduced into the venturi receiving hole 417 through the discharge port connection hole 417a flows between the catcher solution inlet end 421c and the discharge water discharge end 423b and flows from the discharge water discharge end 423b And mixed with the extinguishing water (B) to be discharged. Thereby, the catcher solution (C) is generated by mixing the digestion water (B) and the drug (A).

Here, the moving speed of the fire extinguishing water B moving along the fire extinguishing water conveyance path 423a by the venturi shape of the fire extinguishing water conveyance path 423a formed in the venturi pipe 420, that is, The moving pressure (dynamic pressure) is maximized at the digestion water discharge end 423b.

The medicine A stored in the medicine storage tank 100 in the negative pressure state (gauge pressure reference) is sucked into the medicine suction pipe 415 by the reduction of the static pressure of the venturi shaped part of the fire extinguishing water conveyance path 423a due to the flow of the water for fire fighting, Is introduced to the venturi receiving hole 417 through the medicine discharge path 413d via the space 412. [

A plurality of sealing members 424 are provided on the outer peripheral surface of the fire extinguishing water conveying pipe 423 and the catcher solution conveying pipe 421 to maintain airtightness with the venturi receiving holes 417.

The fire extinguishing water supply pipe 430 is connected to a fire extinguishing water hose (not shown) of the fire hydrant to supply the fire extinguishing water B to the fire extinguishing water conduit 423. The mobile cannula generation system 1 according to the present invention is movably provided by a storage tank transfer cart 200.

When a fire occurs, the user or the fire fighter combines a fire extinguishing water hose (not shown) or a fire extinguishing water hose (not shown) of the fire hydrant near the fire occurrence site to the rear end 433 of the fire extinguishing water supply pipe 430.

At this time, the fire extinguishing water supply pipe 430 is provided with an opening / closing lever 431 for opening and closing the duct. When the opening / closing lever 431 is opened, the fire extinguishing water B is supplied to the venturi pipe 420, the medicine A is attracted by the supply pressure of the fire extinguishing water B, C) is generated.

The medicine inflow adjusting cap 440 is inserted into the medicine flow space 412 through the cap fitting hole 411 to adjust the amount of the medicine A to be transferred to the medicine flow space 412. Whereby the mixing ratio of the digesting water (B) and the medicament (A) to be mixed can be controlled.

3, the medicine inflow adjusting cap 440 includes a cap body 441 positioned at an upper portion of the mixing box 410 and a medicine inflow amount controlling portion 412 extending from the lower portion of the cap body 441 to the medicament flowing space 412 And includes a flow space insertion end 443 to be inserted.

The cap body 441 is provided with a diameter larger than that of the cap engagement hole 411, so that the cap engagement hole 411 is mounted. The cap body 441 is formed so that the operator can easily grasp and rotate it by hand. The flow space insertion end 443 is inserted into the drug flow space 412 to adjust the volume of the drug flow space 412.

The length h of the flow space insertion end 443 is formed to correspond to the height h1 of the drug flow space 412 and the diameter is formed to be smaller than the diameter of the drug flow space 412 by a predetermined length. When the worker inserts the flow space insertion end 443 deeply into the medicine flow space 412, the space through which the medicine A can flow through the medicine inlet hole 413a becomes narrow, so that the venturi receiving hole 417 The amount of the drug (A) to be transferred to the drug (A) decreases. Conversely, if the flow space insertion end 443 is inserted shallowly into the medicine flow space 412, the space in which the medicine A can stay is widened, so that the amount of the medicine A transferred to the venturi receiving hole 417 More.

By adjusting the depth at which the operator inserts the flow space insertion end 443 into the medicine flow space 412, the mixing ratio of the fire water B and the drug (A) to be mixed can be adjusted at the fire site. The operator can form a uniform catcher solution (C) by adjusting the mixing ratio of the digesting water (B) and the drug (A) to be mixed in consideration of the concentration and kind of the drug (A)

The use process of the mobile can forming system 1 according to the present invention having such a configuration will be described with reference to Figs. 1 to 5. Fig.

The medicine reservoir 100 is seated on the upper part of the reservoir transport cart 200 and the reservoir reservoir 100 is secured to the reservoir transport cart 200 by using the reservoir coupling ring 220. Then, the medicine (A) is injected into the medicine inlet (111) of the medicine storage tank (100). The user can check the amount of the medicine (A) filled in the inside through the level gauge (120).

A mixing box 410 is fixed to the upper part of the medicine reservoir 100 and a venturi pipe 420 is coupled to the inside of the mixing box 410. The fire extinguishing water delivery pipe 423 of the venturi pipe 420 is coupled to the inside of the fire extinguishing water supply pipe 430 and the catcher solution discharge end 421d of the catcher solution transfer pipe 421 is coupled to the catcher solution transfer hose 310 do. The catcher solution transfer hose 310 has a predetermined length and is provided with an injection nozzle 320 at an end thereof.

The injection nozzle 320 is received and supported by the nozzle receiving tube 250. If no fire occurs, the mobile gun system 1 waits in this state.

When a fire occurs, the mobile gun system 1 is moved to the fire site. The user or firefighter grasps the handle 230 to move the storage tank transfer cart 200.

Upon reaching the fire scene, the fire extinguishing water supply hose (not shown) of the fire hydrant is coupled to the rear end 433 of the fire extinguishing water supply pipe 430.

The user or the firefighter separates the injection nozzle 320 from the nozzle receiving pipe 250 and opens the open / close valve 431. The fire extinguishing water B is moved from the fire extinguishing water supply hose (not shown) to the venturi pipe 420 through the fire extinguishing water supply pipe 430 by opening the opening / closing valve 431.

As the diameter of the fire extinguishing water conveyance path 423a is gradually narrowed, the speed and the dynamic pressure force of the fire extinguishing water B moving through the fire extinguishing water conveying pipe 423 are increased. A suction pressure is generated by the moving pressure of the water B to attract the medicine A in the medicine storage tank 100.

FIG. 6 is a graph showing the movement paths of the fire extinguishing water (B), the chemical agent (A) and the catcher solution (C) moving through the venturi pipe (420) FIG. 7 and FIG. 8 are diagrams showing experimental results of simulating the mesh structure of FIG. 6. FIG.

Here, it is a simulation result when the diameter r3 of the catcher solution conveying path 421b is 25 mm at the venturi inlet, that is, the catcher solution inlet end 421c.

As shown in FIGS. 7 and 8, the pressure (static pressure) of the extinguishing water B moving through the extinguishing water conveyance path 423a gradually decreases toward the extinguishing water discharge end 423b, The venturi effect is maximized and the agent (A) and the digestive water (B) are mixed in the venturi receiving hole 417 and then recovered via the catcher solution transfer path 421b of the catcher solution inflow end 421c , The speed is maximized as it goes from the fire extinguishing water discharge path 423a to the fire extinguishing water discharge end 423b, and then gradually decelerated.

When the diameter r2 of the catcher solution transfer path 421b of the venturi pipe 420 is adjusted differently, the attracting performance of the drug A may be different. Accordingly, it is possible to design the optimal diameter r2 of the venturi pipe 420 based on the simulation results such as the velocity distribution, the vector distribution, and the total wired distribution according to the type and concentration of the drug (A).

When the catcher solution C is discharged, the operator checks the uniformity and concentration of the catcher solution C, adjusts the insertion depth of the chemical agent inflow amount control cap 440, ) Can be controlled.

The catcher solution C discharged along the catcher solution transfer pipe 421 is moved along the catcher solution transfer hose 310 and then mixed with the air at the injection nozzle 320 to be foamed and discharged to be sprayed on the fire scene, I will quell.

As described above, the movable cannula generation system according to the present invention can easily move to the area where the fire occurs because the medicine reservoir is seated in the storage tank transport cart having the transport wheels.

In addition, the agent can be attracted by the movement pressure of the water for fire fighting water without using a venturi tube for discharging the medicine to the outside. At this time, it is possible to control the difference in the diameter of the venturi pipe to improve the attraction performance of the medicine.

In addition, the mobile cannula generation system according to the present invention can control the mixing ratio of the drug to be mixed with the digestion water by controlling the insertion depth of the medicine inflow amount control cap inserted into the medicine flow space. Accordingly, the mixing ratio of the medicines can be adjusted immediately in the field of fire according to the situation.

The embodiments of the mobile capsule forming system of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. You will know. Therefore, it is to be understood that the present invention is not limited to the form described in the foregoing description. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims. It is to be understood that the appended claims are intended to cover all such modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: mobile capsule formation system 100: drug storage tank
110: storage tank main body 111: drug inlet
120: level gauge 130: drug sealing cap
200: storage tank transport cart 210: cart frame
211: main feed wheel 213: auxiliary feed wheel
220: storage tank coupling ring 230: handle
240: Hose hanger 250: Nozzle receiving pipe
300: dispersing chamber 310: catcher solution conveying hose
320: injection nozzle 400: catcher solution mixing part
410: mixing box 411: cap coupling ball
412: medicine flow space 413: drug path guide plate
413a: drug inflow hole 413b: drug inflow path
413c: Drug discharge hole 413d: Drug discharge route
415: chemical suction pipe 417: venturi receiving hole
417a: Discharge connection hole 417b: Venturi connection member insertion hole
418: Storage tank coupling end 418a: Fixing member insertion hole
418b: box fixing member 420: venturi pipe
421: Catcher solution transfer pipe 421a: Mixing box insertion end
421b: catcher solution conveying path 421c: catcher solution inlet end
421d: Catcher solution discharge end 421e:
423: fire fighting water pipe 423a: fire fighting water pipe
423b: fire water discharging end 423c: mixing projection
423d: Feeding for digestion 423e: Mixing space
424: sealing member 430: fire-fighting water supply pipe
431: opening / closing lever 433: rear end
440: Medicine inflow control cap 441: Cap body
443: Floating space insertion end

Claims (5)

A drug reservoir in which the drug is stored;
A reservoir transfer cart for movably supporting the medicine reservoir;
A catcher solution mixing unit provided at an upper portion of the drug reservoir and mixing the digestion water and the drug to generate a catcher solution;
And a sprayer coupled to the catcher solution mixing part to mix the catcher solution and air to spray the generated foam to the outside,
The catcher solution mixing portion includes:
A mixing box coupled to an upper portion of the medicine reservoir and having a venturi receiving hole formed therethrough;
A fire extinguishing water supply pipe detachably connected to the fire extinguishing water supply hose and having an opening / closing lever on an upper surface thereof;
And a venturi pipe formed in a catcher solution conveying pipe, one end of which is in contact with the fire extinguishing water conveying pipe and the other end is formed of a catcher solution conveying pipe connected to the fire extinguishing water supply pipe,
Wherein the inner wall surface of the mixing box forming the venturi receiving hole is provided with a discharge passage connecting hole through which the medicine flows from the medicine storage tank,
Wherein the fire extinguishing water conveying pipe and the catcher solution conveying pipe are respectively provided with a fire extinguishing water conveying passage and a catcher solution conveying passage so that the diameter gradually decreases toward the direction in which the fire extinguishing water conveying pipe and the catcher solution contact each other, A plurality of mixing projections are radially formed on the discharge end of the water to be discharged,
And a medicine introducing space formed between the mixed protrusions and the discharge end of the digestive water is mixed with digestive juice flowing through the digestive effusion passage to form a catcher solution, And the catcher solution is moved through the catcher.
The method according to claim 1,
The mixing box is spaced apart from the venturi-containing space and has a predetermined depth of the medicament flow space in which the medicament to be moved to the venturi-
A bottom wall of the medicament flow space is formed with a medicament inlet hole connected to the medicament reservoir to introduce the medicament and a medicament vent hole for discharging medicines flowing into the medicament flow space from the medicament inlet hole to the vent hole, ,
The medicine inflow hole and the medicine reservoir are connected by a medicine suction pipe,
The medicine discharge hole and the discharge passage hole are connected by a medicine discharge passage,
Wherein the medicine stored in the medicine storage tank is sucked into the medicine suction pipe by the pressure of the high-pressure fire water flowing along the fire extinguishing water transfer path.
3. The method of claim 2,
Further comprising a medicine inflow amount adjusting cap detachably inserted into the medicine flow space and controlling a mixing amount of the medicine supplied to the venturi receiving hole according to a depth inserted into the medicine flow space.
4. The method according to any one of claims 1 to 3,
The post-
A catcher solution transfer hose coupled to the catcher solution mixing part to move the catcher solution;
And a spray nozzle provided at an end of the catcher solution transfer hose to form a bubble by mixing the catcher solution and air introduced from the outside, and spraying the formed bubble to the outside.
5. The method of claim 4,
The storage tank transfer cart comprises:
A cart frame on which the medicine reservoir is seated and fixed;
A plurality of feed wheels coupled to a lower portion of the cart frame;
A handle extended to an upper portion of the cart frame to grip a hand;
And a nozzle accommodating tube provided at one side of the cart frame to receive the injection nozzle.

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