JPS6392364A - Water discharge tool and apparatus for fire extinguishment - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a fire extinguishing water spray tool and a water spray device used for spraying water while adding and mixing a slurry of super absorbent resin as a fire extinguishing agent to pressurized water in the event of a fire. Regarding.

[Conventional technology] In recent building fires in condominiums, etc., not only the fire itself causes damage to the floor where the fire occurred and its surroundings, but also water damage to the floor below the floor where the fire occurred due to large amounts of water being sprayed.
This has become a major social problem.

Recently, as a method to deal with such water damage, a method has been developed to add and mix so-called super absorbent resins, which are used in soil water retention agents and absorption improvers for sanitary materials, to fire extinguishing water to turn the water into a gel. A fire extinguishing method using water containing this super absorbent resin (Japanese Unexamined Patent Publication No. 56-076966), a fire extinguishing agent made by adding a super absorbent resin to water, and a water-soluble method such as carboxymethyl cellulose have already been studied. A fire extinguishing agent that uses a thermoplastic polymer compound to impart tackiness, or a sulfate or other heat-resistant inorganic organic compound to impart anti-rekindle properties (Japanese Patent Laid-Open No. 56-049167); A fire extinguishing agent that improves extinguishing power without reducing the desired high water absorption of the super absorbent resin by adding a super absorbent resin to water together with phosphorus and urea (excluding yellow phosphorus) 61-1
No. 54578) have been proposed.

In this way, in the technology of using super absorbent resin for fire extinguishing, the super absorbent resin absorbs a large amount of water, for example 200 to 2000 times its own weight, and is used for extinguishing a gel in a gelled state. It is expected that it will have an excellent cooling effect and air connection effect based on the covering effect of the gel over a long period of time, as well as an excellent water damage prevention effect based on the water retention effect of the gel.

However, unlike the case of adding a normal fire extinguishing agent, it is extremely difficult to add and mix a superabsorbent resin to pressurized water while discharging the water, and this poses a major problem in practical use. In other words, since the product form of superabsorbent resin is originally powder or fiber, it is technically difficult to add it smoothly to pressurized water, and it rapidly gels when it comes into contact with water. If the fluidity of the water decreases and it becomes clogged inside the fire extinguishing water spray tool or water spray device or in the pipes, this will cause a pressure loss.

On the other hand, in an attempt to solve the above-mentioned problems, a fire extinguishing method has been proposed (Japanese Patent Application Laid-Open No. 58-200758) in which a slurry made of a super absorbent resin and an organic solvent is mixed with water and water is sprayed. According to this method, the superabsorbent resin is made into a slurry and has fluidity, so it is relatively easy to add and mix it to pressurized water, for example, by suction based on the action of an ejector pump, and it is also relatively easy to add and mix it into pressurized water. Since the superabsorbent resin is covered with an organic solvent, it does not immediately gel when added to pressurized water, but gels delayed after water is released, effectively fighting fires. Be expected.

[Problem that the invention seeks to solve]

However, with the conventional method of adding and mixing the superabsorbent resin slurry to pressurized water, if the water spraying is stopped or the pressure balance between the superabsorbent resin slurry and the pressurized water is lost during water spraying, the pressurized water inside the fire extinguishing water sprayer enters the inside of the slurry passageway exit force for introducing the superabsorbent resin slurry, contacts the superabsorbent resin slurry in the slurry passage and gels, and if the slurry passage becomes clogged, the pressure There were problems such as losses. However, the occurrence of pressure loss due to clogging in the slurry passage depends on the smooth addition and mixing of the superabsorbent resin slurry during water discharging. The desired effect was not sufficiently obtained, and this made it difficult to put into practical use the technology of adding and mixing superabsorbent resin to pressurized water and discharging the water.

An object of the present invention is to prevent the occurrence of pressure loss due to clogging in the slurry passage due to water intrusion when adding and mixing superabsorbent resin slurry to pressurized water and discharging the water.
It is an object of the present invention to provide a fire extinguishing water spraying tool and a water spraying device that enable smooth addition and mixing of superabsorbent resin slurry during water spraying.

Another object of the present invention is to provide a fire extinguishing water spray tool and a water spray device that enable the practical application of the pending technique of adding and mixing a super absorbent resin to pressurized water and spraying the water.

[Technical means to solve problems]

The fire extinguishing water spray device according to the present invention includes a pressurized water passage that introduces pressurized water, a slurry passage that merges with the pressurized water passage and introduces superabsorbent resin slurry, and a slurry passage that is provided at the outlet end of the slurry passage and flows into the slurry passage. a check valve that prevents backflow of the fluid; a mixing chamber that mixes the introduced pressurized water with the superabsorbent resin slurry introduced through the check valve; It consists of a water outlet that sprays pressurized water mixed with slurry.

Further, the fire extinguishing water discharging device according to the present invention includes a pressurized water passage for introducing pressurized water, a slurry passage that is merged with the pressurized water passage and introduces superabsorbent resin slurry, and a slurry passage that is provided at the outlet end of the slurry passage. A check valve that prevents fluid from flowing back into the interior, a mixing chamber that mixes the introduced pressurized water and the super-absorbent resin slurry introduced through the check valve, and a super-absorbent resin slurry that extends into the mixing chamber. A fire extinguishing water spray device consisting of a water discharge port that sprays pressurized water mixed with a synthetic resin slurry, a pressurized water supply means for supplying water to a pressurized water passage, a slurry tank and a liquid sending pump,
It consists of a slurry supply means for supplying super absorbent resin slurry to the slurry passage.

In the present invention, the super absorbent resin refers to, as is already well known,
It is made of an electrolyte polymer that is insolubilized by low-density crosslinking and has an ionic group, and it absorbs a large amount of water and turns into a gel. Examples of such super absorbent resins include saponified starch-acrylonitrile graft copolymers,
These include starch-acrylate graft copolymers, crosslinked polyacrylates, vinyl alcohol-acrylate block copolymers, crosslinked polyhinyl alcohols, and crosslinked carboxymethyl cellulose salts.

The water absorption capacity (weight after water absorption/weight before water absorption) of the super absorbent resin is preferably selected to be 500 or more in order to obtain a good water damage prevention effect.If it is less than 500, the gel may cause a fire. Even if the water adheres to the object, it is likely to separate and leak. In addition, the final use concentration of superabsorbent resin is 10% of water.
It is preferably in the range of 0.1 to 2 parts by weight, particularly 0.3 to 1 part by weight relative to 0 parts by weight.

As a method for slurrying the superabsorbent resin, an organic dispersion medium can be used as is known in the art. Although the blending ratio of the two is not uniformly limited, in general, a slurry containing about 1 to 10 parts by weight of the organic dispersion medium per 1 part by weight of the superabsorbent resin is convenient for liquid feeding and other handling. As the organic dispersion medium, a super absorbent resin or an organic liquid with a low absorption capacity (weight after absorption/weight before absorption) is used to avoid gelation and loss of fluidity. Toxic,
The material is selected taking into consideration flammability, combustibility, ease of post-processing after extinguishing a fire, economic efficiency, etc.

Examples of such an organic dispersion medium include one or more organic solvents selected from methanol, ethanol, ethylene glycol, glycerin, propylene glycol, other monohydric or polyhydric alcohols, and various glycol ethers. You can also use animal or vegetable oils, kerosene, etc.

Incidentally, the organic dispersion medium in the present invention may contain a small amount of water as long as it maintains a slurry state.

In addition to its original role as a slurry dispersion medium, such an organic dispersion medium acts as a slurry dispersion medium, and as is generally known, when a superabsorbent resin slurry is added to water and mixed, the organic dispersion medium acts as a dispersion medium for water and a superabsorbent resin. It has the effect of slightly delaying the gelation time of the superabsorbent resin by intervening in the water, so if it becomes clogged inside the fire extinguishing water spray tool or water spray device, piping, water hose, etc. due to rapid gelation, it will reduce the pressure loss. It also contributes to preventing the occurrence of. Note that water-insoluble organic dispersion media such as animal and vegetable oils and kerosene can further delay gelation time compared to water-soluble ones.

Adding a fire extinguishing agent to the above-mentioned superabsorbent resin slurry or pressurized water, such as one or more insoluble phosphorus compounds selected from phosphorus excluding yellow phosphorus, polyphosphoric acid amide, and ammonium polyphosphate. This makes it possible to prevent re-ignition and reduce the amount of water sprayed when extinguishing a fire, promoting prevention of water damage, shortening extinguishing time, and reducing extinguishing costs. In general, when preparing the superabsorbent resin slurry, by adding, for example, about 1 to 10% by weight of a dispersion stabilizer such as anhydrous silica or Kanai Zetsuken, the superabsorbent resin and other dispersoids in the slurry can be reduced. It is possible to prevent sedimentation, improve the dispersion state, and roughly stabilize the dispersion state over time, and in turn, it is possible to prevent sedimentation, improve the dispersion state, and roughly stabilize the dispersion state over time. Facilitates addition and mixing of super absorbent resin slurry. Furthermore, a tackifier, a surfactant, and other auxiliary components may be added to the superabsorbent resin slurry as necessary. In addition, the above-mentioned additives such as fire extinguishing agents, dispersion stabilizers, and other additives must be used in a manner that does not increase the ionic strength of the solution surrounding the superabsorbent resin, so as not to inhibit the superabsorbency of the superabsorbent resin. It is preferable to select from.

]2 [Operation of the invention] Pressurized water is supplied to the pressurized water passage of the fire extinguishing water spray device from a fire hydrant or by pressurizing water in a water tank using a water pump. In addition, the superabsorbent resin is put into a slurry tank together with an organic solvent and, if necessary, a dispersion stabilizer and other additive components, and is turned into a slurry, which is then supplied to the slurry passage of the fire extinguishing water spray device by a liquid pump. .

The superabsorbent resin slurry in the slurry passage is added to and mixed with the pressurized water in the pressurized water passage in the mixing chamber of the fire extinguishing water spray device, and the pressurized water mixed with the superabsorbent resin slurry is discharged from the water outlet, and after the water is discharged, It turns into a gel and covers the fire target, producing the desired effect.

The check valve installed at the outlet end of the slurry passage is
Restricting fluid flow to only one direction, ie from the slurry passageway to the mixing chamber. Therefore, even if water spraying is stopped or the pressure balance between the superabsorbent resin slurry and the pressurized water is disrupted during water spraying, the water in the fire extinguishing water sprayer will flow back into the slurry passageway from the exit and enter the slurry passageway. This prevents the occurrence of pressure loss due to clogging in the slurry passageway, which would otherwise cause an undesirable phenomenon such as gelation within the slurry passage.

〔Example〕

The present invention will be specifically explained below based on Examples.

<Example 1> Fig. 1 is a schematic side view of an example of a fire extinguishing water spray tool and water spray equipment according to the present invention, and Fig. 2 is an enlarged half-sectional view taken along line △-A in Fig. 1. water tank (1), water pump (2), and slurry tank (
3) and a plunger type liquid pump (4), and is also equipped with a hose reel (5) and a fire extinguishing water spray device (6).

The water tank (1) has a water intake cock (7) and a water pump (2).
), and the hose reel (5) by sequentially opening the water discharge cock (8).
It is piped to the first pipe opening (9) at the end, and the water discharge cock (
8) A running water detector (10) is attached to the outlet. A double hose (11) is unwound from the hose reel (5) (
), and its double hose (11) is wrapped around the outer hose (
12) and passed therein1. : Consists of a medium hose (13), with the first tube opening (9) at the end of the hose reel (5).
) is connected to the end of the outer hose (12). Hey,
Water (WT) is stored in the water tank (1) in preparation for water discharge.

In addition, the slurry tank (3) is equipped with an agitator (14),
Liquid suction cock (15), liquid sending pump (4), liquid discharging valve (
16) @ Sequentially valved and piped to the second cylindrical port (17) at the other end of the hose reel (5). The second tube mouth (17) is
The inner hose (1) is passed through the outer hose (12) through the connecting pipe (18) arranged inside the hose reel (5).
3) Connected to the end. Further, a safety valve (19) is attached to the discharge side of the liquid sending pump (4), and piping is provided so that the discharged liquid from the safety valve (19) flows back to the slurry tank (3). Zarani, liquid pump (4)
is provided on the suction side of the slurry tank (3) in parallel with the cleaning liquid supply port (20) or the cleaning valve (21),
In addition, there is a drain outlet (22) at the bottom of the slurry tank (3).
) is provided together with a drain valve (23). In addition, in preparation for water discharge, superabsorbent resin slurry (SL) is prepared in the slurry tank (3) as described above.

The liquid feeding pump (4) and the stirrer (14) are driven by a common prime mover (24). The rotation of the prime mover (24) is controlled by a driving pulley (25), a transmission belt (26a),
The information is sequentially transmitted to the agitator drive pulley (27), and the agitator (
14) Gear box (28)! Through slurry tank (3)
Rotate the stirring blade (29) inside. At the same time, the rotation of the agitator drive pulley (27) is selectively transmitted to the intermediate pulley (31) via the electromagnetic clutch (30), and further to the transmission belt (26b) and the liquid feed pump drive pulley (32). The liquid feed pump (4) is operated. The electromagnetic clutch (30) performs attachment/detachment operations using a detection signal from the flowing water detector (10) in the water circuit described above as an input signal. This running water detector (10) is
Any device that detects flowing water in a water circuit and outputs a signal is sufficient, and there are no restrictions on the detection position or detection principle.

Double hose (11) wound on the above hose reel (5)
The end of the fire extinguisher is connected to a fire extinguishing water spray device (6). The fire extinguishing water spray tool (6) is composed of a nozzle adapter (33), a nozzle adapter 1 connected thereto, and a hand line nozzle (34). In the nozzle adapter (33), the rear shell (35) has a cylindrical shape that widens toward the tip, and its narrow opening is connected to the outer hose (12) by a known connecting fitting (not shown). In addition, the front shell (36)
has a tapered cylindrical shape, and its wide opening is used to secure the intermediate plate (37) inside by pressing the rear shell (35).
It is screwed together with the wide mouth part of the O-ring (38) IF! :
The narrow opening is connected to the hand line nozzle (34) by a known connecting fitting (not shown). The intermediate plate (37) fixed as described above has a shaft hole (39) in the center and a pressurized water passage hole (40) around the periphery.

The core tube (41) is inserted into the shaft hole (39) of the intermediate plate (37) from the rear shell (35) side to the front shell (36).
) side, and the valve casing (43) of the check valve (42) is screwed from the front shell (36) side, and the intermediate plate (37) is inserted through the packing (44).
It is fixed to. In addition, a core tube (41) with a thread cut on the surface opened on the rear shell (35) side, a presser sleeve (45) screwed into the middle hose (13) and a thread cut on the inside, or a middle hose ( 13) is coated to tighten it. Check valve (42)
is a tapered cylindrical valve casing (43), a slurry passage hole (46) bored in the side wall of the valve casing (43), and a core tube (41) installed inside the valve casing (43). A ball (47) and its pole (47) that opens and closes the opening end! Core tube (
The compression coil spring (48) is always biased in the closing direction of the
).

In general, the hand line nozzle (34) has a conventionally known structure, and includes a shutoff valve (49) provided in a flow path of pressurized water mixed with superabsorbent resin slurry (SL), ) It has a water discharge control lever (50) that opens and closes the V and performs water discharge or stop water discharge operations, a water discharge port (51) provided at the outlet of the channel, and a handle (52) that supports the main body during water discharge. .

In the above, the outer hose (12), the rear shell (35)
), the middle hose (13), and the core tube (41) form a pressurized water passage (53), and the middle hose (13)
, the core tube (41), and the check valve (42) form a slurry passageway (54), and the front shell (36), the core tube (41), and the check valve (42) form a slurry passageway (54).
) and the space up to the water outlet (51) inside the hand line nozzle (34) is a mixing chamber (55) V for mixing pressurized water and super absorbent resin slurry (SL).

In addition, if pressurized water and superabsorbent resin slurry (SL) are fed into one unit using the double hose (11) as described above, there is no need to handle multiple hoses individually when discharging water, and therefore, there is no need to handle the hoses separately at the fire scene. There is no problem of tangles or overlaps, so it is easy to prepare for water spray and dispose of after extinguishing a fire.
Also, the workability of water spraying is improved. In that case, instead of the hose reel (5), the pressurized water piping and the super absorbent resin slurry (S L) piping are bundled together, and they are connected to the outer hose (12) and the inner hose (13) of the double hose (11). ) may be a header configured to be connected to each. On the other hand, both fluids may be sent separately using ordinary hoses and then combined at the fire extinguishing water spray device (6).

In the above configuration, first, when the prime mover (24) is started, the agitator (14) is activated and the slurry tank (3) is activated.
) The super absorbent resin slurry = (SL) is stirred. At that time, the electromagnetic clutch (30) is not connected, so the rotation of the prime mover (24) is not transmitted to the liquid pump (4). Next, while supporting the fire extinguishing water spray tool (6) with the handle (52), move the water spray control lever (50)! When the water is pulled, the water (WT) in the water tank (1) is fed under pressure by the water pump (2), and water is sprayed for fire extinguishing through the hose reel (5) and the outer hose (12) of the double hose (1). Reaching the tool (6),
Pressurized water passage (53) 7j in the rear shell (35)
Water flows into the mixing chamber (55) in the front shell (36) through the pressurized water passage hole (40) of the intermediate plate (37), and is discharged to the outside from the water outlet (51) of the hand line nozzle (34). .

At the same time that pressurized water is supplied to the water circuit as described above, a detection signal is output from the flowing water detector (10), and the electromagnetic clutch (30) is connected depending on the detection signal, causing the rotation of the prime mover (24) or the liquid feeding. The liquid is transmitted to the pump drive pulley (32) and the liquid feeding pump (4) is activated. If the slurry supply means is configured to operate in conjunction with the pressurized water supply means in this manner, it is convenient because there is no need to manually operate the slurry supply means each time water is discharged or water discharge is stopped. Note that a mechanism other than the one described above may be adopted as the interlocking mechanism between the two means.

When the liquid feeding pump (4) operates, superabsorbent resin slurry (SL) is fed under pressure and the hose reel (5),
It reaches the fire extinguishing water spray device (6) through the middle hose (13) of the double hose (11).

The super absorbent resin slurry (S L) further passes through the slurry passage (54) in the core tube (41) provided in the fire extinguishing water spray device (6), and then passes through the pole (47) at the check valve (42). At the same time as the core tube (41) is compressed against the compression coil spring (48), the open end of the core tube (41) is opened, and the slurry passage hole (46) of the valve casing (43) is opened.
into the mixing chamber (55) in the front shell (36);
The water is mixed with the pressurized water and discharged to the outside from the water discharge port (51) of the Hashido line nozzle (34). At this time, in order to prevent the superabsorbent resin slurry (SL) mixed with the pressurized water from gelling in the fire extinguishing water spray device (6), be within 3 m from the mixing chamber (55) or the tip of the water outlet (51). It is preferable that it is in

In addition, if the water discharge is stopped or the pressure balance between the super absorbent resin slurry (SL) and the pressurized water is disrupted during water discharge, the check valve (42) will immediately operate and the pole (47) will be activated by the compression coil spring (48). By Core Tube (41)
Since the opening end is closed and the slurry passageway (54) is blocked, water is prevented from entering the slurry passageway (54) from the pressurized water passageway (53) or the mixing chamber (55) and causing gelation. Ru.

After water spraying, all slurry circuits and equipment are cleaned in preparation for next use. First, the remaining 1 and the superabsorbent resin slurry (SL) in the slurry tank (3) are removed from the drain outlet (22), and if necessary, an organic solvent such as ethylene glycol is removed from the pipes inside and around the slurry tank (3). Washed with Furthermore, a similar organic solvent is supplied from the cleaning liquid supply port (20) and the water discharge port (51) of the hand line nozzle (34) is supplied by the liquid feed pump (4).
), and is sent to various piping, hose reels (5), medium hoses (13), fire extinguishing water equipment (
6) Other equipment is cleaned.

<Example 2> Fig. 3 is a schematic side view of another example of the fire extinguishing water spray tool and water spray device according to the present invention, and shows the same pressurized water supply means (not shown) and slurry supply as in Example 1. Pressurized water and super absorbent resin slurry (SL) obtained by a means (not shown) are separately sent to the fire extinguishing water spray device (6a) by a pressurized water hose (56) and a slurry hose (57). In the fire extinguishing water spray device (6a), a pressurized water hose (56) is connected to the pressurized water passage (53a) entrance of the hand line nozzle (34a), and is connected to the pressurized water passage (53a) by operating the water spray control lever (50a). A shutoff valve (49a) that opens and closes is provided, and a water outlet (51a) is provided at the extended end of the pressurized water passage (53a).

Furthermore, the pressurized water passage (
The shutoff valve (49a) and water outlet (51a) in 53a)
a), a slurry tube (58) forming a slurry passage (54a) is inserted from the outside toward the water outlet (51a), and a check valve (42a) is installed at the tip of the slurry tube (58). A mixing chamber (55a) is attached between the check valve (42a) and the water outlet (51a).
) is formed. Also, slurry tube (58)
A slurry hose (57) is connected to the rear end, and a slurry shutoff valve (59) is provided roughly in front of the rear end.

In the above case as well, the slurry passage (54
a) is connected to the pressurized water passage (5) via the check valve (42a).
3a) and superabsorbent resin slurry (S L )
The water is mixed into pressurized water in the mixing chamber (55a) and is discharged to the outside from the water outlet (51a). In this example, a pressurized water hose (56) and a slurry hose (57)
Because they are not integrated like the double hoses mentioned above, for example, the slurry supply means and the pressurized water supply means are not installed on the same fire engine, or a fire hydrant is used as the pressurized water supply means. This is particularly useful when the slurry supply means and pressurized water supply means are installed at different locations. In that case, if it is difficult to link the slurry supply means with the pressurized water supply means, the slurry shutoff valve (59) may be manually opened and closed in response to the opening and closing of the pressurized water shutoff valve (49a). Note that when such manual operation is performed using the liquid discharge valve (16) in Example 1, snow protection or operation of the slurry shutoff valve (59) is not necessary.

It goes without saying that the present invention is not limited to the above embodiments, but is limited by the scope of the claims, and that various changes, substitutions, and modifications can be made within the scope of achieving the objectives of the present invention. .

〔Effect of the invention〕

As described above, in the fire extinguishing water spray tool and water spray device according to the present invention, since the check valve is provided at the outlet end of the slurry passage of the fire extinguishing water spray tool, it is possible to stop water spraying or to prevent water from rising during water spraying. Even if the pressure balance between the water-absorbing resin slurry and the pressurized water is disrupted, water will not enter the slurry passage and cause a blockage, thereby preventing pressure loss from occurring.

Therefore, when water is sprayed intermittently when extinguishing a fire,
Even if the pressure balance of the fluid is disrupted during water discharging, the smooth addition and mixing of superabsorbent resin slurry during water discharging is always ensured.Therefore, the practical application of technology for adding and mixing superabsorbent resin to pressurized water and discharging water. becomes possible.

[Brief explanation of the drawing]

FIG. 1 is a schematic side view of an example of the fire extinguishing water spray tool and water spray device according to the present invention, FIG. 2 is an enlarged half-sectional view taken along line A-A in FIG. 1, and FIG. 3 is a fire extinguishing water spray according to the present invention. It is a side schematic diagram of another example of a tool and a water spray device. <Explanation of main symbols> ]...Water tank, 2...Water pump, 3...
Slurry tank, 4...liquid pump, 6.6a...
・Fire extinguishing water cannon, 10...running water detector, 1]
...Double hose, 14...Agitator, 42.
42a... Check valve, 51.51a... Water discharge 0.53, 53a... Pressurized water passage, 54.54
a...Slurry passage, 55.55a-...Mixing chamber, WT-...Water, SL...Super absorbent resin slurry and above Patent applicant Morita Pump Co., Ltd. Representative Patent attorney Atsushi Ando Figure 2 Figure 3

Claims (1)

[Claims] 1. A pressurized water passage that introduces pressurized water, a slurry passage that merges with the pressurized water passage and introduces superabsorbent resin slurry, and a slurry passage that is provided at the outlet end of the slurry passage and that supplies fluid to the inside of the slurry passage. check valve to prevent backflow of
A mixing chamber that mixes the introduced pressurized water and the superabsorbent resin slurry introduced through the check valve, and a water outlet that extends into the mixing chamber and injects the pressurized water mixed with the superabsorbent resin slurry. A water cannon for fire extinguishing. 2. The fire extinguishing water spray device according to claim 1, which includes a slurry passage within the pressurized water passage. 3. The fire extinguishing water spray device according to claim 1, wherein the mixing chamber is located within 3 m from the tip of the water outlet. 4. A pressurized water passage that introduces pressurized water, a slurry passage that joins the pressurized water passage and introduces superabsorbent resin slurry, and a reverse passage that is provided at the outlet end of the slurry passage and prevents fluid from flowing back into the slurry passage. stop valve,
A mixing chamber that mixes the introduced pressurized water and the superabsorbent resin slurry introduced through the check valve, and a water outlet that extends into the mixing chamber and injects the pressurized water mixed with the superabsorbent resin slurry. A fire extinguishing water spray device consisting of a pressurized water supply means for supplying water to a pressurized water passage, and a slurry supply means for supplying superabsorbent resin slurry to the slurry passage, including a slurry tank and a liquid sending pump. 5. The fire extinguishing water spray device according to claim 4, wherein a slurry passage is provided within the pressurized water passage. 6. The fire extinguishing water spray device according to claim 4, wherein the mixing chamber is located within 3 m from the tip of the water outlet. 7. The fire extinguisher according to claim 4, wherein the pressurized water and the superabsorbent resin slurry are transferred to the pressurized water passage and the slurry passage, respectively, by a double hose consisting of an internal slurry hose and an external pressurized water hose. Water spray device. 8. The fire extinguishing water spray device according to claim 4, wherein the pressurized water and the superabsorbent resin slurry are transferred to the pressurized water passage and the slurry passage, respectively, by separate hoses. 9. The fire extinguishing water spray device according to claim 4, wherein the slurry supply means operates in conjunction with the pressurized water supply means. 10. The fire extinguishing water spray device according to claim 9, which detects flowing water in the water circuit and supplies super absorbent resin slurry to the slurry passage. 11. The water spray system for fire extinguishing according to claim 4, wherein a cleaning liquid supply port is provided on the suction side of the liquid pump in parallel with the slurry tank.