JP3737020B2 - Water intake method and apparatus for fire fighting - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention is for sucking water from irrigation.Water intake method and apparatus for fire fightingIt is about.
[0002]
[Prior art]
  A conventional fire suction pipe and a water intake method using the same will be described. FIG. 7 shows a fire engine 90 with a water tank provided with a conventional suction pipe 91. The fire engine 90 has a water tank 93 for storing fire-extinguishing water 92, a pump 95 connected to the water tank 93 via a valve 94, and water discharged from the pump 95 toward a fire extinguishing target. The water discharge hose 96 with the nozzle 97 is provided. Further, the fire engine 90 has a suction pipe 91 for sucking out water 102 of the water 101 such as a river, a lake, a sea, a water tank, etc. by the pump 95 when the water 92 of the water tank 93 runs out. An ejector 98 is provided for sucking the water 102 of the water 101 to the pump 95 by sucking the air in the suction pipe 91 at the beginning when the 102 is used.
[0003]
  The suction pipe 91 is attached with a strainer 99 as a mouthpiece for removing the solid mixture in water at the end of the water inlet. Further, the water outlet side of the suction pipe 91 is connected to the suction side of the pump 95 via the valve 100. The ejector 98 is a pipe with a valve that connects the water outlet side of the suction pipe 91 and the discharge side of the pump 95.
[0004]
  Next, a conventional water intake method using the fire engine 90 will be described. It is assumed that the water inlet side of the suction pipe is immersed in the water 102 of the water supply 101.
(1) As shown in FIG. 7A, with the valve 100 closed and the valve 94 and the ejector 98 opened, the pump 95 is operated to discharge the water 92 in the water tank 93.
(2) Then, the air 103 in the suction pipe 91 is sucked out to the water discharge hose 96 side through the ejector 98 by the water flow flowing toward the water discharge hose 96 as shown in FIG. As a result, the water 102 of the water 101 is gradually sucked into the suction pipe 91.
(3) As shown in FIG. 3C, when the water 102 of the water 101 is sucked up to the vicinity of the valve of the ejector 98, the valve 100 is opened and the valve 94 and the valve of the ejector 98 are closed. Then, instead of the water 92 in the water tank 93, the water 102 in the water supply 101 is sucked up by the pump 95 through the suction pipe 91 and discharged from the nozzle 97 through the water discharge hose 96.
[0005]
  To use this water intake method, the following conditions must be satisfied.
(A) The water is being discharged at a pressure at which the ejector 98 can be used (ejector operating pressure).
(B) The state of (a) can be maintained until the suction pipe 91 is filled with water 102 by the ejector 98 (ejector operation time).
[0006]
  In order to satisfy the above conditions, the amount of water 92 in the water tank 93 of the fire engine 90 must be sufficient. This is because if the amount of water 92 in the water tank 93 is insufficient, the water discharge pressure will be insufficient, or the water 92 will disappear before the ejector operation time, and water discharge will not be continued.
[0007]
  Further, if the head from the pump 95 to the water supply 101 is large, the ejector operation time becomes long, and at this time, more water 92 is required in the water tank 93.
[0008]
[Problems to be solved by the invention]
  However, in general, the fire engine 90 with a water tank requires an ejector operating pressure of about 0.5 MPa or more due to its structure (about 0.25 to 0.42 MPa, which is a standard for fire fighting power, is insufficient). In order to cause this, for example, it is necessary to discharge water of 780 liters or more per minute with a water discharge hose 96 equipped with a nozzle 97 having a diameter of 23 mm. Further, as the ejector operating time, for example, about 1 minute 30 seconds in the case of a drop of 1 m and about 1 minute 40 seconds in the case of a drop of 2 m are required.
[0009]
  For example, if the amount of water loaded in the water tank 93 is 2000 liters, about 2 minutes and 30 seconds when discharging water with one discharge hose 96, about 1 minute and 17 seconds when discharging with two discharge hoses 96 Only water discharge time can be obtained. For this reason, when water is discharged with the two water discharge hoses 96, since the water discharge time is shorter than the ejector operation time, there is a problem that the ejector 98 cannot be used. In addition, even when water is discharged with one water discharge hose 96, the ejector 98 must be operated within one minute from the start of water discharge. If it takes time, there is a problem that switching to the water supply 101 fails. Further, if the valve 94 and the valve 100 are opened before the pump is operated by mistake in the work procedure due to the rapid fire extinguishing work, there is also a problem that the water 92 in the water tank 93 flows into the water 101 at a stretch. In actual fire extinguishing activities, after the water 92 in the water tank 93 has been reduced by about ½, the work to switch to the water supply 101 is often started, and the ejector operating time can be obtained only about half of the water discharge time. Often 98 cannot be used.
[0010]
  The object of the present invention is to solve the above-mentioned problems, and can take in water with a small amount of water even when low-pressure water discharge or when water discharge is stopped.Water intake method and apparatus for fire fightingIs to provide.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, the present inventionThe water intake method for fire fighting is
  A pump for water discharge,
  Piping for supplying water to the suction side of the pump;
  The water inlet side which is one end side is soaked in water of irrigation, and the water outlet side which is the other end side includes a suction side of the pump and a suction pipe connected to the pipe via a valve,
  The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
  Water intake for fire-fighting provided at the end on the water inlet side with a hole for communicating the inside of the suction pipe closed by the check valve when the check valve stops the flow in the discharge direction with water of water A water intake method for fire fighting using a device,
  Using the suction pipe in which the water inlet side is immersed in the water of the water, but is not filled with water,
  The valve is opened, and the water supplied through the pipe is caused to flow into the suction pipe from the water outlet side of the suction pipe, whereby the gas in the suction pipe is discharged from the water inlet side of the suction pipe and the water Filling the suction tube;
  A step of sucking up water from the water outlet side of the suction pipe by the pump together with water filled in the suction pipe;
Is included.
[0012]
  The water intake method for fire fighting of the present invention is
  A pump for water discharge,
  Piping for supplying water to the suction side of the pump;
  A water inlet side which is one end side is soaked in water of irrigation, and a water outlet side which is the other end side is connected to the suction side of the pump and the pipe via a first valve,
  The discharge side of the pump and the water outlet side of the suction pipe are connected via a second valve, and the water supplied via the pipe is pressurized by the pump and supplied to the water outlet side of the suction pipe With a bypass pipe,
  The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
  Water intake for fire-fighting provided at the end on the water inlet side with a hole for communicating the inside of the suction pipe closed by the check valve when the check valve stops the flow in the discharge direction with water of water A water intake method for fire fighting using a device,
  Using the suction pipe in which the water inlet side is immersed in the water of the water, but is not filled with water,
  The first valve is closed and the second valve is opened, and the suction pipe supplies the water supplied through the pipe by the pump from the water outlet side of the suction pipe through the pump and the bypass pipe. By allowing the gas in the suction pipe to be discharged from the water inlet side of the suction pipe and filling the suction pipe with the water by flowing into the suction pipe,
  Opening the first valve, closing the second valve, and sucking up the water from the water outlet side of the suction pipe together with water filled in the suction pipe by the pump;
Is included.
[0013]
  Moreover, the water intake device for fire fighting of the present invention is
  A pump for water discharge,
  Piping for supplying water to the suction side of the pump;
  A water inlet side which is one end side is soaked in water of irrigation, and a water outlet side which is the other end side is connected to the suction side of the pump and the pipe via a first valve,
  The discharge side of the pump and the water outlet side of the suction pipe are connected via a second valve, and the water supplied via the pipe is pressurized by the pump and supplied to the water outlet side of the suction pipe With a bypass pipe,
  The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
  When the check valve stops the flow in the discharge direction, a hole is provided at the end on the water inlet side for communicating the inside of the suction pipe closed by the check valve and water of irrigation water.
[0014]
  As said piping, the piping which supplies the water for fire extinguishing and the water of irrigation stored in the water tank with which an example fire engine is equipped to the suction side of the said pump is illustrated.
[0015]
  The water inlet side end of the suction pipe refers to an end on the side where the water is soaked in water.
[0016]
  The check valve is provided on a shaft provided in the width direction of the flow path and rotatably on the shaft, and the flow path is opened with respect to the flow in the suction direction so that the flow in the discharge direction is maintained. On the other hand, the aspect provided with the valve which closes the said flow path can be illustrated.
[0017]
  The shaft may be provided so as to pass through substantially the center of the flow path, and the valve may be divided and formed on both sides of the axis of the shaft.
[0018]
  The check valve can be exemplified by an aspect provided with a locking portion that locks the valves so that the valves do not open more than a predetermined angle.
[0019]
  Although it does not specifically limit as a way of providing the said hole, The following aspect can be illustrated.
(1) The aspect provided in the valve of the said non-return valve.
(2) The aspect provided in the wall of the said flow path.
[0020]
  Although it does not specifically limit as water supplied via the said piping, The water which mixed the fire extinguisher is also included. thisExamples of water include all pressurized water and non-pressure water that can be used for fire fighting. Specifically, the following aspect can be illustrated.
(1) The aspect which is the water loaded on the fire engine.
(2) The aspect which is the water taken out from the fire hydrant.
(3) The aspect which is the water stored by the water storage tank.
(4) A mode that is natural irrigation water such as rivers, lakes, and seas.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
  1 to 5 embody the present invention.1 shows a first embodiment.FIG. 4 shows a fire-fighting automobile 20 with a water tank provided with a suction pipe 1. The fire-fighting automobile 20 has a water tank 3 for storing water 2 for extinguishing fire, and a pump 5 connected to the water tank 3 through a valve 4. And the water discharge hose 6 with the nozzle 7 for discharging | emitting the water sent out from this pump 5 toward a fire extinguishing object is provided. Further, the fire engine 20 is provided with a suction pipe 1 for sucking up water of a water supply 11 such as a river, a lake, a sea, a water storage tank or the like by a pump 5 when the water 2 of the water tank 3 is used up.
[0022]
  As shown in FIG. 1, the suction pipe 1 is provided with a strainer 9 as a mouthpiece for removing a solid mixture in water via a medium 8 on the water inlet side 17. Further, the water outlet side 18 of the suction pipe 1 is connected to the suction side of the pump 5 via the valve 10.
[0023]
  As shown in FIGS. 1 to 3, the medium 8 allows the flow in the suction direction 15 to the suction pipe 1 and the flow in the discharge direction 16 from the suction pipe 1. And a check valve 22 provided inside the mediator body 21.
[0024]
  The mediator body 21 has a flow path 23 through which water flows, and a male screw portion 24 for connecting the strainer 9 is formed on the outer peripheral wall on the one end opening side. A female thread portion 25 for connecting the suction pipe 1 is formed on the inner peripheral wall of the inner wall. A plurality (eight in this embodiment) of protrusions 27 for facilitating and securing the strainer 9 or the suction pipe 1 are provided on the outer peripheral wall of the intermediate tool body 21 along the circumferential direction of the outer peripheral wall. They are arranged at equal intervals. An annular convex wall 26 is integrally formed along the circumferential direction of the inner peripheral wall substantially at the center in the length direction of the inner peripheral wall of the medium body 21.
[0025]
  The check valve 22 is provided on the surface of the convex wall 26 on the suction pipe connection side, the shaft 30 provided in the width direction of the flow path 23, and provided rotatably on the shaft 30. Has a flow path 23 (indicated by a two-dot chain line in FIG. 3), closes the flow path 23 for the flow in the discharge direction 16 (indicated by a solid line in FIG. 3), and a valve 31. The shaft 30 is provided so as to pass through the approximate center of the flow path 23, and both ends thereof are fixed to the surface of the convex wall 26 on the suction pipe connection side with screws 32. Further, a locking claw 33 is provided on one end side of the shaft 30 so as to extend toward the center of the flow path 23 toward the non-convex wall side of the shaft 30. This locking claw 33 is a locking portion that locks each valve 31 so that it does not open more than a predetermined angle (for example, about 90 °). FIG. 3 shows a state where the valve 31 is locked by a two-dot chain line. A washer 35 for adjusting the position of the valve 31 with respect to the axial direction of the shaft 30 is interposed on the other end side of the shaft 30. The valve 31 is divided and formed on both sides of the axis of the shaft 30, and each is pivotally attached to the shaft 30. Each valve 31 is formed with two through holes 36. The through hole 36 is a hole that communicates the space formed on the suction pipe side with respect to the check valve 22 and the external space when the check valve 22 stops the flow in the discharge direction 16. The check valve 22 and the through hole 36 are configured not to resist the flow in the suction direction 15 to the suction pipe 1 but to resist the flow in the discharge direction 16 from the suction pipe 1.
[0026]
  Next, a water intake method by the fire engine 20 configured as described above will be described with reference to FIGS. 4 and 5. It is assumed that the water inlet side of the suction pipe 1 is immersed in the water 11. Further, as shown in FIG. 4, the fire engine 20 has the valve 10 closed and the pump 5 is operated in a state in which the valve 4 is opened, so that the water 2 in the water tank 3 passes through the water discharge hose 6. It is assumed that the nozzle 7 is discharged.
[0027]
(1) As shown in FIG. 5A, when the valve 10 is opened, the water 2 in the water tank 3 flows into the suction pipe 1 and flows to the strainer 9 side, and pushes the air 40 in the suction pipe 1 to the strainer 9 side. . At this time, the valve 31 of the check valve 22 is closed by the pushed-out air 40 (state shown by a solid line in FIG. 3). Thereafter, the air 40 is pushed out to the strainer 9 side through the through hole 36 provided in the valve 31. Then, the air 40 in the suction pipe 1 is pushed out and the suction pipe 1 is filled with water 2. This state can be confirmed by the fact that the bubbles of the air 40 are not ejected from the strainer. At this time, since the valve 31 is closed and the inside of the suction pipe 1 and the water 12 side of the water supply 11 are only communicated with each other through the through hole 36, it is possible to prevent the water 2 in the suction pipe 1 from flowing out rapidly. it can. When the water 2 as a liquid flows into the suction pipe 1 from the water outlet side 18 of the suction pipe 1, the air 40 as a gas in the suction pipe 1 is discharged from the water inlet side 17 of the suction pipe 1 and the In this stage, the suction pipe 1 is filled with water 2.
[0028]
(2) When the suction pipe 1 is filled with water 2, the valve 4 on the water tank 3 side is closed. Then, the water 12 of the water supply 11 is sucked up by the pump 5 together with the water 2 in the suction pipe 1. Due to the water flow at this time, the check valve 22 is opened (indicated by a two-dot chain line in FIG. 3), and the water 12 of the water 11 flows in the suction direction 15 with almost no resistance. Then, the water 12 of the water supply 11 is sucked out to the pump 5 through the suction pipe 1 and discharged from the nozzle 7 through the water discharge hose 6. This is the step of sucking out the water 12 of the water supply 11 together with the water 2 from the water outlet side 18 of the suction pipe 1.
[0029]
  It should be noted that the water intake method of the present invention can be carried out not when the water is discharged as described above but also when the water discharge is stopped. At this time, the valve 4 is opened together with the valve 10 in the above (1), and the valve 4 on the water tank 3 side is closed and the pump 5 is operated in the above (2).
[0030]
  As described above, the water intake method for fire fighting according to the present invention includes a water discharge pump (5), a pipe for supplying water (2) to the suction side of the pump (5), and a water inlet side which is one end side is a water supply. A suction pipe (1), which is soaked in water (12) of (11), the water outlet side being the other end side connected to the suction side of the pump (5) and the pipe via a valve (10); The suction pipe (1) permits a flow in the suction direction to the suction pipe (1) and a check valve (22) for stopping the flow in the discharge direction from the suction pipe (1) is provided at the end on the water inlet side. The suction valve (22) is closed by the check valve (22) when the check valve (22) stops the flow in the discharge direction, and the water (11) water (12 ) With a water intake device provided with a hole (36) at the end on the water inlet side. The water inlet side is immersed in the water (12) of the irrigation (11), but the suction pipe (1) is not filled with water, and the valve (10) is opened. Then, the water (2) supplied through the pipe is caused to flow into the suction pipe (1) from the water outlet side of the suction pipe (1), whereby the gas (40) in the suction pipe (1) is caused to flow into the suction pipe. Discharging from the water inlet side of (1) and filling the suction pipe (1) with the water (2); and the water (2) filled in the suction pipe (1) by the pump (5) Sucking water (12) of water supply (11) from the water outlet side of the suction pipe (1).
[0031]
  In this example, the pipe corresponds to a pipe that supplies water (2) stored in the water tank (3) to the suction side of the pump (5) in FIG.
[0032]
  in this wayAccording to the present invention,Unlike the conventional ejector intake method, the water flow to the discharge hose 6 side is not used during discharge, so the conventional intake method cannot be used due to a problem with the amount of water loaded in the water tank 3 or when the discharge is stopped. The water can be taken from the water 11 with a small amount of water 2.
[0033]
  In addition, since the water 2 is flowed down by gravity, even when it is difficult to use the conventional water intake method, such as when there is a very large drop between the pump 5 and the upper surface of the water supply 11, Can easily take water. And the water supply 11 can be switched in a very short time. According to the results of experiments conducted by the inventors of the present application, for example, under the condition of a nozzle diameter of 23 mm and a water discharge pressure of about 0.2 MPa, the water consumption is extremely short, about 12 seconds for a drop of 1 m and about 31 seconds for a drop of 2 m. The water intake from 11 could be started.
[0034]
  Further, since the medium 8 is configured to stop the water flow in the discharge direction 16 by the check valve 22, the water 2 in the water tank 3 flows out to the water 11 at a stroke even if it takes time to switch the water 11 slightly. It is difficult for the situation to become impossible to discharge. Moreover, even if the work procedure is mistaken and the valve 4 and the valve 10 are opened when unnecessary, the water 2 in the water tank 3 will not flow into the water supply 11 at a stretch even if the fire fighting operation is rushed.
[0035]
  Further, the medium 8 is configured so that the check valve 22 allows the water flow in the suction direction 15 to open the flow path 23 and flow with almost no resistance. can do.
[0036]
  Moreover, since the mediating tool 8 is provided with the locking claw 33, the valve 31 is prevented from being biased and opened, and the vibration of the valve 31 at the time of high pressure and large-scale water discharge is suppressed, thereby suppressing the reduction in water intake efficiency. can do.
[0037]
  Further, since the mediating tool 8 has a simple structure, there is almost no fear of failure, and the function can be maintained sufficiently to lubricate the shaft 30 during daily maintenance.
[0038]
  Next, the structure which takes in water using a some suction pipe is shown as 2nd embodiment of this invention. FIG. 6 shows an example of this configuration. Two suction pipes 1a and 1b are connected to the suction side of the pump 5 through valves 10a and 10b, respectively, and four water discharge hoses 6a to 6d are provided. A bypass pipe 50 with a valve 51 is provided for connecting the point connected to the discharge side of the pump 5 through the valves 52a to 52d, the water outlet side of one suction pipe 1b, and the discharge side of the pump 5, respectively. It is different from 1st embodiment only in the point which is. Accordingly, the same parts as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.
[0039]
  Next, the water intake method by the fire engine configured as described above will be described. In addition, each water inlet side of suction pipe 1a, 1b shall be in the state immersed in the water supply 11. FIG. In the fire engine, the valve 10a, 10b, 51, 52c, 52d is closed, and the pump 5 is operated in a state where the valves 4, 52a, 52b are opened. , 6b through the respective nozzles.
[0040]
(1) When the valve 10a is opened, the water in the water tank 3 flows into one suction pipe 1a. And when the inside of one suction pipe 1a will be in the state filled with water, the valve | bulb 4 by the side of the water tank 3 will be closed. Then, the water 5 of the water supply 11 is sucked up by the pump 5 together with the water in the one suction pipe 1a and is sent out to the water discharge hoses 6a and 6b. The flow of water at this time is shown by solid arrows in FIG. This is the stage of sucking out the water 12 of the irrigation water 11 by the suction pipe 1a as a part of the plurality of suction pipes.
[0041]
(2) When the valve 51 provided in the bypass pipe 50 is opened, the water sent out from the pump 5 passes through the bypass pipe 50 and flows into the other suction pipe 1b. The flow of water at this time is shown by the dashed arrows in FIG. This causes the sucked out water 12 to flow into the suction pipe 1b from the water outlet side of the suction pipe 1b as a suction pipe other than the part of the suction pipe, so that air as gas in the suction pipe 1b is introduced from the water inlet side of the suction pipe 1b. This is a stage of discharging and filling the suction pipe 1b with water 12.
[0042]
(3) When the other suction pipe 1b is filled with water, the valve 51 is closed and the valve 10b is opened. Then, the water of the water supply 11 comes to be sucked up from one suction pipe 1a and the other suction pipe 1b. When the valves 52c and 52d are opened, water is also sent out to the water discharge hoses 6c and 6d. The flow of water at this time is shown in FIG. 6 by solid and two-dot chain arrows. This is the stage of sucking out the water 12 of the irrigation 11 together with the introduced water 12 from the water outlet side of the suction pipe 1b as a suction pipe other than the above-mentioned part.
[0043]
  As described above, the water intake device for fire fighting of the present invention includes a water discharge pump (5), a pipe for supplying water (12) to the suction side of the pump (5), and a water inlet side that is one end side is a water supply. A suction pipe (11) which is soaked in water (12) of (11) and whose water outlet side, which is the other end, is connected to the suction side of the pump (5) and the pipe via a first valve (10b) ( 1b) is connected to the discharge side of the pump (5) and the water outlet side of the suction pipe (1b) via the second valve (51), and the water (12) supplied via the pipe is A bypass pipe (50) for pressurizing by the pump (5) and supplying the suction pipe (1b) to the water outlet side, and the suction pipe (1b) has a flow in the suction direction to the suction pipe (1b). Allow the check valve (22) to stop the flow in the discharge direction from the suction pipe (1b) to the end on the water inlet side. In addition, when the check valve (22) stops the flow in the discharge direction, the suction pipe (1b) closed by the check valve (22) and the water (11) in the water (12) Are provided at the end on the water inlet side.
[0044]
  Moreover, the water intake method for fire fighting of this invention is a water intake method for fire fighting performed using the said water intake apparatus for fire fighting, Comprising: Although the water inlet side is immersed in the water (12) of the said water supply (11), The suction pipe (1b) that is not filled with the pipe is closed, the first valve (10b) is closed and the second valve (51) is opened, and the pump (5) is used to By flowing the water (12) supplied via the water into the suction pipe (1b) from the water outlet side of the suction pipe (1b) via the pump (5) and the bypass pipe (50), (1b) The gas (40) in the suction pipe (1b) is discharged from the water inlet side and the water (12) fills the suction pipe (1b), and the first valve (10b) is opened. And closing the second valve (51), The pump (5), and a step of sucking up the water (12) of the irrigation with water (12) filled in the吸管(1b) (11) from water outlet side of the吸管(1b).
[0045]
  In this example, the “pipe” corresponds to a pipe that supplies water (12) of water (11) to the suction side of the pump 5 through the suction pipe (1a) and the valve (10a) in FIG. ing.
[0046]
  According to this embodiment, the same effect as that of the first embodiment can be obtained. Furthermore, according to the present embodiment, the water sucked up through the one suction pipe 1a is configured to flow into the other suction pipe 1b through the bypass pipe 50. (1) For the other suction pipe 1b, The water intake can be started without using any of the water loaded in 3, and (2) the water pressurized by the pump 5 flows into the suction pipe 1b, so that the suction pipe 1b can be quickly filled with water. An effect can be obtained.
[0047]
  In addition, this invention is not limited to the said embodiment, For example, it can also be suitably changed and embodied as follows, for example in the range which does not deviate from the meaning of invention.
(1) By combining the mediating tool 8 and the strainer 9, the following mouthpiece is configured.
(1-1) A mouthpiece attached to the water inlet side of the suction pipe for sucking water of water, so as not to resist the flow in the suction direction to the suction pipe but to resist the flow in the discharge direction from the suction pipe Suction tube mouthpiece for fire fighting constructed.
(1-2) A flow path for flowing water, a check valve provided in the flow path, allowing the flow in the suction direction and stopping the flow in the discharge direction, and the check valve flowing in the discharge direction The mouthpiece for a fire-fighting suction pipe according to the above (1-1), comprising a space formed on the suction pipe side of the check valve and a hole communicating with the external space when the check valve is stopped.
[0048]
(2) By combining the suction pipe 1 with the mediating tool 8 and the strainer 9, the following suction pipe is configured.
(2-1) A suction pipe for sucking water of irrigation water, so that it does not resist the flow in the suction direction to the suction pipe at the water inlet side end, but resists the flow in the discharge direction from the suction pipe. Constructed suction pipe for fire fighting.
(2-2) A flow path for flowing water, a check valve provided in the flow path, allowing flow in the suction direction and stopping the flow in the discharge direction, and the check valve flowing in the discharge direction The suction pipe for fire fighting as described in (2-1) above, wherein the water inlet side end portion includes a hole that communicates the space closed by the check valve and the external space when the check valve is stopped.
[0049]
(3) A space formed on the suction pipe 1 side of the check valve 22 when the check valve 22 stops the flow in the discharge direction 16 instead of or together with the through hole 36 provided in the valve 31 and its As a hole that communicates with the external space, a hole that communicates the inner wall surface and the outer wall surface of the channel 23 is provided on the wall of the channel 23 on the suction pipe 1 side of the check valve 22.
[0050]
(4) Provide an ejector on the fire engine 20 as in the conventional example. If it carries out like this, even if it is difficult to respond | correspond with this invention like the situation where the height of the water surface of the water supply 11 is higher than the water surface of the water tank 3, it will become possible to take in water using an ejector. .
[0051]
(5) Use the present invention in a fire engine without a water tank or a fire engine in which water in the water tank is empty. In this case, use water from the tank of fire engines with other aquariums, water discharged from the water discharge hose of other fire engines, or water taken out from the water supply by pumps as the liquid that flows into the suction pipe. It can be illustrated.
[0052]
(6) Instead of the check valve 22, another check valve having a known structure should be adopted.
[0053]
(7) In 2nd embodiment, it is set as the structure provided with three or more suction pipes. In this case, about the suction pipe added to 2nd embodiment, the same bypass pipe 50 as the other suction pipe 1b of the embodiment shall be each provided.
[0054]
【The invention's effect】
  Of the present inventionWater intake method and apparatus for fire fightingAccording to the above, there is an excellent effect that water can be taken in with a small amount of water even when low-pressure water is discharged or when water discharge is stopped.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a suction pipe medium used in a water intake method for fire fighting according to a first embodiment of the present invention.
FIG. 2 is a front view of the mediator as seen from the suction tube side.
3 is a cross-sectional view taken along line III-III in FIG.
FIG. 4 is a diagram showing piping of a fire engine equipped with the medium.
FIG. 5 is a diagram showing the same water intake method for fire fighting.
FIG. 6 is a water intake method for fire fighting according to a second embodiment of the present invention.And equipmentFIG.
FIG. 7 is a view showing a water intake method using a conventional suction pipe.
[Explanation of symbols]
    1 suction pipe
    2 water
    3 Aquarium
    8 Mediator
    9 Strainer
  11 Water
  12 Water
  17 Water inlet side
  18 Water outlet side
  22 Check valve
  23 Flow path
  30 axes
  31 valves
  33 Claw
  36 Through hole
  40 air

Claims (3)

A pump for water discharge,
Piping for supplying water to the suction side of the pump;
The water inlet side that is one end side is soaked in water of irrigation, and the water outlet side that is the other end side includes a suction side of a pump and a suction pipe connected to the pipe via a valve,
The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
Water intake for fire-fighting provided with a hole at the end on the water inlet side for communicating the inside of the suction pipe closed by the check valve when the check valve stops the flow in the discharge direction with water A water intake method for fire fighting using a device,
Use the suction tube in which the water inlet side is immersed in the water of the water, but is not filled with water,
The valve is opened, and water supplied through the pipe is caused to flow into the suction pipe from the water outlet side of the suction pipe, thereby discharging the gas in the suction pipe from the water inlet side of the suction pipe and Filling the suction tube;
A step of sucking up water from the water outlet side of the suction pipe together with water filled in the suction pipe by the pump;
Intake methods for fire fighting. A pump for water discharge,
Piping for supplying water to the suction side of the pump;
A water inlet side which is one end side is soaked in water of irrigation, and a water outlet side which is the other end side is connected to the suction side of the pump and the pipe via a first valve,
The discharge side of the pump and the water outlet side of the suction pipe are connected via a second valve, and the water supplied via the pipe is pressurized by the pump and supplied to the water outlet side of the suction pipe With a bypass pipe,
The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
Water intake for fire-fighting provided with a hole at the end on the water inlet side for communicating the inside of the suction pipe closed by the check valve when the check valve stops the flow in the discharge direction with water A water intake method for fire fighting using a device,
Use the suction tube in which the water inlet side is immersed in the water of the water, but is not filled with water,
With the first valve closed and the second valve opened, the pump supplies water supplied through the pipe from the water outlet side of the suction pipe via the pump and the bypass pipe. By allowing the gas in the suction pipe to be discharged from the water inlet side of the suction pipe and filling the suction pipe with the water by flowing into the suction pipe,
Opening the first valve, closing the second valve, and sucking up the water from the water outlet side of the suction pipe together with the water filled in the suction pipe by the pump;
Intake methods for fire fighting. A pump for water discharge,
Piping for supplying water to the suction side of the pump;
A water inlet side which is one end side is soaked in water of irrigation, and a water outlet side which is the other end side is connected to the suction side of the pump and the pipe via a first valve,
The discharge side of the pump and the water outlet side of the suction pipe are connected via a second valve, and the water supplied via the pipe is pressurized by the pump and supplied to the water outlet side of the suction pipe Ba With an Ipass tube,
The suction pipe is provided with a check valve at the end on the water inlet side that allows a flow in the suction direction to the suction pipe and stops the flow in the discharge direction from the suction pipe.
Water intake for fire-fighting provided with a hole at the end on the water inlet side for communicating the inside of the suction pipe closed by the check valve when the check valve stops the flow in the discharge direction with water apparatus.

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