JP3681862B2 - Open-type water discharge head - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an open-type water discharge head that is installed on a tunnel wall through which a vehicle passes and discharges pressurized fire extinguishing water from a fire extinguishing pump facility to a protected area such as a vehicle passage space in the event of a fire. The present invention relates to an open watering head having a dustproof structure that prevents dust from adhering and clogging.
[0002]
[Prior art]
Conventionally, as shown in FIG. 20, water spray equipment installed in a tunnel such as an expressway or a motorway is provided with an open water discharge head 102 on the upper part of the tunnel wall surface 100 on the side where the inspection passage 101 is installed. When a vehicle fire occurs by connecting to a fire extinguishing pipe 103 that supplies pressurized fire extinguishing water from a fire pump system, for example, a vehicle passage space 105 having a height of 5.7 m and a width of 6.4 m with respect to the road surface 104. Water spray with a width of 50 m in the length direction of the tunnel.
[0003]
[Problems to be solved by the invention]
In such a tunnel water spray facility, exhaust gas and dust accompanying the passage of a vehicle adhere to the open-type watering head 102 installed on the tunnel wall surface for a long time, and block the head opening to prevent water discharge. For this reason, a cap-shaped dust cover is attached to the head opening. When fire-extinguishing water is discharged from the open-type water spray head 102, the dust-proof cover is removed by the pressure. In addition, the dust cover is connected to the head body with a string or a cord so that it can be reused without losing it even if it is removed by water discharge for fire extinguishing.
[0004]
By the way, in such a tunnel water spray facility, inspection including actual water discharge is performed about once a year. When this inspection is performed, the dust-proof cover attached to the open-type water spraying head has been removed due to water discharge. Therefore, it is necessary to perform recovery work by fitting the dust-proof covers one by one after the inspection is completed. Become.
But figure 20 As shown in the figure, the open watering head 102 is installed at a high position near the tunnel ceiling so as to cover the vehicle traffic space 105 having a height of 5.7 m and a width of 6.4 m. Therefore, a catwalk, scaffolding, etc. must be prepared.
[0005]
For this reason, it takes time for the restoration work to fit the dust cover after inspection, and there is a risk of traffic accidents at the time of inspection, so lane restrictions are imposed, and lane restrictions must be continued even at the time of restoration. In addition to causing inconvenience, there were significant disadvantages such as requiring a large number of personnel for inspection.
Further, when water for fire extinguishing is sprinkled from the open-type water discharge head, water may hit the dustproof cover hanging and hinder water spraying, which may hinder effective water discharge.
[0006]
The present invention has been made in view of such conventional problems, and has a dust-proof cover structure that automatically opens when water is discharged and automatically closes when water is stopped, and eliminates the need for restoration work to fit the dust-proof gap. An object is to provide an open-type water discharge head.
[0007]
[Means for Solving the Problems]
In order to achieve this object, the present invention is configured as follows.
First, the present invention is directed to an open-type water discharge head that is connected to a fire extinguishing pipe that supplies pressurized fire-extinguishing water from a fire-extinguishing pump facility and that discharges pressurized fire-extinguishing water to a protection area in the event of a fire.
[0008]
In the present invention as such an open-type water discharge head, a cylindrical head body which is connected and fixed to a fire extinguishing pipe and opened on the tip side, and is slidably accommodated in the axial direction within the head body, and the water discharge pressure is reduced. A nozzle member that moves forward to the opening of the head main body against the urging member (spring) when received, and discharges water, a dust-proof cover that can be freely opened and closed at the opening of the head main body, and a nozzle member at the time of water discharge And a cover opening / closing mechanism that opens the dust-proof cover as the nozzle moves forward and closes the dust-proof cover as the nozzle member moves backward when water discharge is stopped.
[0009]
Here, for example, a rack and pinion mechanism is used as the cover opening / closing mechanism. In other words, a rack gear is formed in the direction of the outer peripheral axis of the nozzle member, a pinion gear meshing with the rack gear is rotatably disposed on the head body side, and the dust gear cover is opened and closed by rotating the pinion gear by the movement of the rack gear as the nozzle member slides. Let
According to such an open water discharge head of the present invention, the dust cover is automatically opened as the nozzle member moves forward during water discharge, and the dust cover is automatically moved as the nozzle member moves backward when water discharge is stopped. For example, when the open water discharge head of the present invention is used in a tunnel water spray facility, the dust cover is automatically closed if the water discharge is stopped when an inspection with actual water discharge is performed. This eliminates the need for a worker to insert a dust-proof cover that has been removed due to water discharge, so that the lane restrictions can be released immediately upon completion of the inspection. Furthermore, since the dust cap is opened to a position where water discharged from the nozzle opening does not hit, there is no possibility of causing a water spray failure by the waterproof cover.
[0010]
In another form of the open-type water discharge head of the present invention, a cylindrical head body that is connected and fixed to a fire extinguishing pipe and opened to the tip end side, and is housed slidably in the axial direction within the head body. When a pressure is applied, the nozzle member is moved forward to the head body opening against the urging member and discharged, and the nozzle member is attached to the head body opening and moved forward when the water is discharged. An elastic sheet member that is opened and closed by retreating the nozzle member when water discharge is stopped is provided with a dust-proof cover having radial cuts.
[0011]
This head structure is simple because it is only necessary to attach a dustproof cover made of a rubber sheet to the head opening. In addition, the nozzle automatically protrudes from the dustproof cover as the nozzle member moves forward during water discharge, and the dustproof cover closes and the nozzle is positioned behind the nozzle member when the water discharge is stopped. After stopping the water discharge in the inspection of the spraying equipment, there is no need to perform any recovery work such as inserting a dust cover that was removed by the water discharge, and the lane restrictions can be released promptly upon completion of the inspection.
[0012]
Moreover, in the open-type water discharge head according to another aspect of the present invention, a cylindrical head body that is fixedly connected to the fire extinguishing pipe and opened to the tip side, and a nozzle that is slidably accommodated in the axial direction in the head body Consists of members. This nozzle member A flange portion having a nozzle hole in the center is formed at one end; On the side Communicating with nozzle hole Side to discharge fire-fighting water nozzle With an opening, The flange is When the water discharge pressure is received, it moves forward to the opening of the head body against the biasing member nozzle The opening is exposed to the outside and water is discharged. nozzle The opening is retracted to a position where the opening is housed in the head body and closed, and the opening is closed.
[0013]
Also in this case, the nozzle member is accompanied by the forward movement of the nozzle member at the time of water discharge. of side nozzle The opening automatically opens, and when the water discharge is stopped, the side of the nozzle member moves backward. nozzle Since the opening fits inside the head body and automatically closes, after stopping the water discharge in the inspection of the tunnel water spray equipment, there is no need to perform any recovery work such as inserting a dust cover that was removed by the water discharge, Lane control can be released promptly upon completion of inspection.
[0014]
An open-type water discharge head according to another embodiment of the present invention is attached and fixed to a fire extinguishing pipe, with a head body having a nozzle hole at the tip and one end fixed to the nozzle hole opening of the head body. In addition, a dustproof cover made of an elastic member that is pushed away by the water discharge pressure during water discharge to open the nozzle opening and closes the nozzle hole by pressing with its own elastic force when water discharge stops is provided. .
[0015]
In this case, for example, a rubber dust proof cover can be supported and fixed in a cantilevered state in the nozzle hole opening of the head body. There is no need for any work to restore the dust cover that has been removed due to water discharge, and the lane restrictions can be released immediately after the inspection. Further, in the open-type water discharge head according to another embodiment of the present invention, a cylindrical head body which is fixedly connected to the fire extinguishing pipe and has a nozzle hole opened at the tip side, and a lower part which covers and fixes the lower side of the head body The cover, the upper side of the head main body and the nozzle hole are pivotally supported, and when water is discharged, it is rotated by pushing up the fire-extinguishing water from the opening of the head main body to open the nozzle hole to discharge water. And an upper cover that closes at a position that covers the nozzle hole by its own weight when water discharge is stopped.
[0016]
In this case, the upper cover is pushed up by the water discharge of fire extinguishing water against the lower cover fixed to the head body equipped with the nozzle holes and opens like a crocodile mouth. In the same way, after stopping the water discharge in the inspection of the tunnel water spray equipment, there is no need to perform any recovery work such as inserting a dust cover that has been removed by the water discharge, and the lane restrictions are immediately released at the end of the inspection it can.
[0017]
Furthermore, in an open-type water discharge head according to another embodiment of the present invention, one or a plurality of nozzle heads are mounted, and fire-extinguishing water supplied from a water supply port connecting a fire-extinguishing pipe is supplied to the nozzle head through an internal channel. The body, a rotating plate that is pivotally supported by the fire-extinguishing water flow path of the body and rotated by the supply of fire-extinguishing water, and a position where the nozzle head is covered when the water supply is stopped. And a cover that is rotated by a rotating plate during water supply and is rotated to a position that opens the water discharge side of the nozzle head.
[0018]
In this case, even when the body is provided with a plurality of nozzle heads such as a long throw head and a close throw head, a cover that can be opened and closed covering the entire nozzle heads is provided. It is automatically opened when fire-extinguishing water is supplied, automatically closed when fire-extinguishing water is stopped, and after stopping water discharge by inspection of the tunnel water spray facility, recovery is performed so that workers can fit the dust-proof cover removed by water discharge. No work is required, and lane restrictions can be released immediately after the inspection is completed.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an explanatory view of a first embodiment of an open-type water discharge head according to the present invention, and is shown in a half sectional view in the axial direction.
In FIG. 1, the open-type water discharge head 1A is an example of a nozzle slide type in which a nozzle member slides when water is discharged. In the open-type water discharge head 1A, a cylindrical outer cylinder 4 is fixed to the front end side of the head body 3 by screwing. A connection screw 5 for connecting to the fire extinguishing pipe is formed at the rear part of the head main body 3, and an inflow hole 6 is provided through the connection screw 5 in the axial direction.
[0020]
A nozzle member 7 is incorporated in the outer cylinder 4 screwed to the head body 3 so as to be movable in the axial direction. The nozzle member 7 includes an outer nozzle 8 and an inner nozzle 9. The outer nozzle 8 forms a guide flange 8a on the outer peripheral portion, and is guided and moved in the axial direction of the inner peripheral portion of the outer cylinder 4 by the guide flange 8a. A spring 10 is incorporated between the guide flange 8a and the overhanging portion 4a protruding from the inner tip of the outer cylinder 4 to hold the nozzle member 7 in a position retracted toward the head main body 3 shown in the figure.
[0021]
The inner nozzle 9 disposed on the inner side of the outer nozzle 8 is fixed by fitting the flange 9e into the stepped hole on the outer nozzle 8 side, and between the outer nozzle 8 and the outer peripheral surface of the inner nozzle 9, the tip The outer peripheral flow path 12 opened to the side is formed. The outer peripheral flow path 12 is connected to the internal flow path 9 a by the communication hole 9 b of the inner nozzle 9.
A spiral fin 11 is incorporated substantially at the center of the internal flow path 9a of the inner nozzle 9, and the water flow is swirled through the spiral fin 11 when water for fire extinguishing is discharged. A throttle portion 9d is formed on the tip side of the inner nozzle 9, and after the flow velocity is increased by the throttle portion 9d, the water for fire extinguishing can be discharged from the nozzle opening portion 13 to the outside.
[0022]
In the present invention, the nozzle / slide type open-type water discharge head 1A is provided with dust-proof covers 14a and 14b that are divided into two in the axial direction on the nozzle opening 13 side. The dustproof covers 14a and 14b have their base portions fixed to the gear shafts of the pinion gears 15a and 15b that are rotatably attached to the tip of the outer cylinder 4.
[0023]
The pinion gear 15 a meshes with a rack gear 16 a formed in the axial direction of the outer peripheral surface of the outer nozzle 8 constituting the nozzle member 7. The lower pinion gear 15b is also meshed with a rack gear 16b (not shown) formed in the axial direction of the outer peripheral surface of the outer nozzle 8 which is also located on the inner side.
FIG. 2 is a plan view of FIG. 1, and shows a relationship with a rack and pinion mechanism for opening and closing the dust cover 14a. The dustproof cover 14a has a bottomed semi-cylindrical shape in which a cylindrical cap is divided in the axial direction, and a pair of gear fixing portions 18 are formed on the base of the cover. The gear fixing portions 18 are connected to the gear shaft of the pinion gear 15a. 17 is fixed.
[0024]
The pinion gear 15a is incorporated in a gear housing portion 4b in which the distal end portion of the outer cylinder 4 is cut out in a rectangular shape. Assembling of the gear shaft 17 to the gear storage portion 4b is performed by forming a storage groove for storing the gear shaft 17 from the inner peripheral surface side of the gear storage portion 4b, and mounting the gear shaft 17 from the inside to the storage groove. By inserting the outer nozzle 8 of the nozzle member 7 as shown in FIG. 1, it is possible to mesh with the rack gear 16 a formed on the outer peripheral surface of the outer nozzle 8.
[0025]
FIG. 3 is an end view of the nozzle opening 13 side of FIG. 13 is closed, and pinion gears 15a and 15b for opening and closing the dustproof covers 14a and 14b are arranged above and below.
Next, the operation | movement at the time of watering of the open type water discharge head 1A of 1st Embodiment of FIG. 1 and watering stop is demonstrated. First, in the normal monitoring state in which water for fire extinguishing is not supplied, the nozzle member 7 is positioned in a state where it is retracted by a spring 10 in the outer cylinder 4 screwed and fixed to the head body 3 as shown in FIG. The pinion gear 15a meshed with the rack gear 16a formed in the axial direction of the outer peripheral surface by the retraction of the nozzle member 7 by the spring 10, that is, the retraction of the outer nozzle 8, causes the dust-proof covers 14a and 14b to pass through the nozzle opening shown in the figure. The part 13 is closed at a position for closing.
[0026]
When the fire extinguishing water is supplied to the inflow hole 6 as shown by the arrow in FIG. 4 due to a fire in the closed state of the nozzle opening 13 by the dust covers 14a and 14b as shown in FIG. The nozzle member 7 moves forward in response to the water pressure. When the nozzle member 7 moves forward, that is, when the outer nozzle 8 and the inner nozzle 9 move forward together, the pinion gears 15a and 15b are moved by the forward movement of the rack gears 16a and 16b formed in the axial direction of the outer nozzle 8. The dust-proof covers 14a and 14b, which are rotated outwardly and fixed to the gear shafts of the pinion gears 15a and 15b, are rotated as illustrated to open the nozzle openings 13.
[0027]
At this time, in the nozzle member 7 that has been compressed and moved forward to the position shown in the figure by compressing the spring 10 with the pressure of the fire-extinguishing water, the fire-extinguishing water that has passed through the internal flow path 9a of the inner nozzle 9 is provided in the middle. After swirling by the fins 11, the flow velocity is increased by narrowing down by the throttling portion 9 d and the water is discharged from the nozzle opening portion 13 to the outside.
At the same time, water for fire extinguishing is also supplied to the outer peripheral flow path 12 formed in the gap between the outer nozzle 8 and the inner nozzle 9 through the communication hole 9b from the inner flow path 9a, and the flange 9c formed at the tip of the inner nozzle 9 By the side, water for fire extinguishing is sprinkled. By spraying fire-extinguishing water from the external flow path 12 and the nozzle opening 13, water spraying is performed on the protection space having a sufficiently wide area.
[0028]
When fire of a vehicle or the like is extinguished by sprinkling fire extinguishing water from the open water discharge head 1A operated as shown in FIG. 4, the supply of pressurized fire extinguishing water to the open water discharge head 1A is stopped. When the supply of fire-extinguishing water is stopped, the nozzle member 7 in the state of FIG. 4 moves backward toward the head body 3 by the force of the spring 10 when the pressure due to the water pressure is lost.
[0029]
With the backward movement of the nozzle member 7, that is, the backward movement of the inner nozzle 9 and the outer nozzle 8, the pinion gears 15a and 15b are moved in accordance with the backward movement of the racks 16a and 16b formed in the axial direction of the outer nozzle 8 respectively. The dust-proof covers 14a and 14b, which are rotated inwardly and are opened in the lateral direction fixed to the gear shafts of the pinion gears 15a and 15b, are rotated to the state shown in FIG.
[0030]
As described above, in the embodiment of the open-type water discharge head 1A of FIG. 1, the dustproof covers 14a and 14b are automatically opened when the water for fire extinguishing is discharged, and the dustproof covers 14a and 14b are automatically closed when the water discharge is stopped. become.
When the dustproof covers 14a and 14b in FIG. 4 are opened, the dustproof covers 14a and 14b in the open state are exposed to water in order to open the dustproof covers 14a and 14b in the open state in order to open to a position that does not prevent the water spray completely retracted from the nozzle opening 13. There is no watering problem at all. Also, since it automatically opens when watering and automatically closes when watering stops, for example, when the open water discharge head 1A is used for tunnel water spray equipment, after the inspection with actual water discharge, the dust cover is automatically turned off when watering is stopped. Since 14a and 14b return to the closed position, there is no need for any recovery work for fitting the dust-proof cover to the head after the inspection is completed as in the prior art.
[0031]
FIG. 5 shows a second embodiment of the open-type water discharge head of the present invention. Like the first embodiment of FIG. 1, a nozzle slide type is taken as an example, but a simple structure using a rubber cover as a dust-proof cover and It is characterized by that.
FIG. 5A is a half sectional view in the axial direction of an open-type water discharge head 1B as a second embodiment of the present invention, and FIG. 5B shows an end view on the nozzle opening side. As in the first embodiment of FIG. 1, the open-type water discharge head 1 </ b> B has an outer cylinder 4 screwed and fixed to the front end side of the head body 3, and an outer nozzle 8 and an inner nozzle 9 are combined inside the outer cylinder 4. A nozzle member 7 is slidably incorporated, and a spring 10 is disposed therebetween. In addition, the nozzle body 3 has a connection screw 5 for the fire extinguishing pipe and has an inflow hole 6 formed therein.
[0032]
The inner nozzle 9 constituting the nozzle member 7 has a communication hole 9b communicating with the outer peripheral flow channel 12 between the inner flow channel 9a and the outer nozzle 8, and discharges water laterally at the tip side of the communication hole 12. The flange portion 9c is formed. A spiral fin 11 is disposed substantially at the center of the internal flow path 9a of the inner nozzle 9, a throttle portion 9d is formed on the tip side, and a nozzle opening 13 is formed following the throttle portion 9d.
[0033]
In the second embodiment of the present invention, such a nozzle slide type open-type water discharge head 1B has a dust-proof rubber cover 20 attached to the inner peripheral portion on the front end side in which the nozzle member 7 of the outer cylinder 4 is housed. Yes. As shown in the end view of FIG. 5B, the dust-proof rubber cover 20 has a plurality of cuts 21 radially from the center to form, for example, 12 fan-shaped sections 22. The ring-shaped outer peripheral portion of the dust-proof rubber cover 20 is fitted and fixed in a cover fitting groove 4c formed in the inner peripheral portion of the tip of the outer cylinder 4 as shown in FIG.
[0034]
Next, the operation of the open water discharge head 1B according to the second embodiment of FIG. 5 will be described. In a normal monitoring state where pressurized fire-extinguishing water is not supplied, the nozzle member 7 is in the initial position retracted toward the head body 3 side by the spring 10 as shown in FIG. The nozzle opening 13 is located behind the dust-proof rubber cover 20 attached to the dust-proof rubber cover 20, and the dust-proof rubber cover 20 is placed in a state where the section 22 divided by the notch 21 is closed as shown in the end view of FIG. Yes.
[0035]
When pressurized fire-extinguishing water is supplied to the open-type water discharge head 1B in the state of FIG. 5, the nozzle member 7 is moved forward by receiving water pressure as shown in FIG. The section 22 of the dust-proof rubber cover 20 is expanded and the tip of the nozzle member 7, that is, the gap between the inner peripheral portion of the outer nozzle 8 and the outer peripheral portion of the inner nozzle 9 is formed on the flange 9 c side of the inner peripheral flow path 12 a. The opening and the nozzle opening 13 at the tip of the inner nozzle 9 are opened to project outside the dust-proof rubber cover 20, and water for fire extinguishing is discharged.
[0036]
When the fire is extinguished and the supply of pressurized fire-extinguishing water is stopped in the water discharge state of FIG. 6, the nozzle member 7 moves backward to the initial position of FIG. For this reason, the nozzle opening 13 at the tip of the nozzle member 7 returns to the back of the dust-proof rubber cover 20, and the section 22 of the dust-proof rubber cover 20 that has been pushed back returns to its original state as shown in FIG. The nozzle opening 13 is closed.
[0037]
In the open-type water discharge head as the second embodiment of the present invention shown in FIGS. 5 and 6 with the dust-proof rubber cover 20 attached in this way, the dust-proof rubber cover 20 is attached in a simple structure, and water spraying is performed. Sometimes, the dust-proof rubber cover 20 is automatically opened and the dust-proof rubber cover 20 can be automatically closed when the watering is stopped.
6, the section 22 of the dust-proof rubber cover 20 that is spread open is positioned at a position that does not hinder water discharge from the tip side of the nozzle member 7. There are no obstacles. Of course, since the dust-proof rubber cover 20 is automatically closed when the water spray is stopped, a recovery operation for attaching the dust-proof rubber cover after the water spray is stopped as in the prior art is unnecessary.
[0038]
FIG. 7 shows a third embodiment of an open-type water discharge head according to the present invention. In this third embodiment, the nozzle is opened by the forward movement of the nozzle member during water discharge, and the nozzle member retreats when water discharge is stopped. The nozzle is closed by movement.
In an open-type water discharge head 1 </ b> C according to the third embodiment of the present invention shown in FIG. 7, an outer cylinder 24 is press-fitted and fixed to a head body 23. The head body 23 includes a connection screw 25 for the fire extinguishing pipe and an inflow hole 26 for introducing pressurized fire extinguishing water for the fire extinguishing pipe.
[0039]
A nozzle member 27 is slidably incorporated in the outer cylinder 24. The nozzle member 27 includes a flange portion 27 a on the head body 23 side. A spring 30 is assembled between the flange portion 27 a and the stepped hole on the inner periphery of the outer cylinder 24, and the nozzle member 27 is removed by pressing the spring 30. The cylinder 24 is held in the initial position withdrawn.
The nozzle member 27 has a structure extracted and shown in FIG. 8A is a front view of the nozzle member 27, FIG. 8B is a right side view, and FIG. 8C is a bottom view as seen from below. The nozzle member 27 has a cylindrical portion 27b following the flange portion 27a, and a side nozzle opening 28 is formed by cutting out the side surface of the cylindrical portion 27b in a wedge shape.
[0040]
A nozzle hole 29 is formed in the side nozzle opening 28 through the center from the flange 27a side. A surface of the side nozzle opening 28 facing the surface where the nozzle hole 29 is opened forms a deflector portion 32 cut away in an oblique direction. As is apparent from FIG. 8C, the deflector portion 32 forms a deflector surface 32b that is obliquely cut outward with the position facing the opening of the nozzle hole 29 as a head portion 32a.
[0041]
For this reason, the water for fire extinguishing which hits the deflector part 32 from the nozzle hole 29 is discharged to spread in the direction orthogonal to the axial direction by the deflector surface 32b which is cut down obliquely downward after being divided into left and right at the top part 32a. Is done.
Next, the operation of the open water discharge head 2A according to the third embodiment of FIG. 7 will be described. In a normal monitoring state where there is no supply of pressurized fire-extinguishing water, the nozzle member 27 is in a position housed inside the outer cylinder 24 by the force of the spring 30 as shown in FIG. The side nozzle opening 28 formed with the cutout is located inside the outer cylinder 24 and closed.
[0042]
When pressurized fire-fighting water is supplied in this state, as shown in FIG. The flange portion 27a of the nozzle member 27 is Under water pressure , While compressing the spring 30 Nozzle member 27 It moves forward and opens the side nozzle opening 28 to the outside from the tip of the outer cylinder 24. For this reason, the pressurized fire-extinguishing water that has passed through the nozzle hole 29 of the nozzle member 27 strikes the deflector portion 32, is fired in the direction of the deflector surface 32 b, and is discharged from the side nozzle opening 28 to the outside.
[0043]
When the fire is extinguished due to such a sprinkling state of the fire-extinguishing water, the supply of pressurized fire-extinguishing water is stopped, and the nozzle member 27 that has moved forward by the water pressure is moved backward by the force of the spring 30, and as shown in FIG. 27 is accommodated in the outer cylinder 24 and returned to the initial position, and the side nozzle opening 28 is also located in the outer cylinder 24 and is in a closed state.
Even in the open-type water discharge head 1C according to the third embodiment of the present invention shown in FIGS. 7 to 9, the side nozzle opening 28 is automatically opened by water supply of fire-extinguishing water and the fire-extinguishing water is sprinkled. When the supply of fire-fighting water is stopped, the side nozzle opening 28 automatically closes with the assembly of the nozzle member 27 with respect to the outer cylinder 24 and automatically closes. Therefore, a recovery operation is performed to close the nozzle opening during inspection. Is not necessary, and there is no watering obstacle because there is no member that prevents water spraying of the side nozzle opening 28 during water discharge.
[0044]
Further, as the nozzle member 27 is moved forward and backward in accordance with the pressure supply and stoppage of the fire-extinguishing water, the side nozzle opening 28 is opened and closed by the movement of the nozzle member 27 relative to the outer cylinder 24 on the head body 23 side. The movement of the nozzle member simultaneously realizes the function as a dust-proof cover, and the structure can be simplified by the amount that does not require a separate dust-proof cover.
[0045]
FIG. 10 is an explanatory view of an open water discharge head as a fourth embodiment of the present invention. 10A is a front view of an open water discharge head 1D of the fourth embodiment, FIG. 10B is a plan view, FIG. 10C is a cross-sectional view taken along line XX in FIG. D) is a side view of the nozzle opening side.
As shown in FIGS. 10A to 10C, the open-type water discharge head 1D of the fourth embodiment has a cylindrical nozzle body 33 following a connection screw 35 for the fire extinguishing pipe at the rear end. In the front shape of FIG. 10 (A) following the main body 33, the nozzle portion 34 is squeezed toward the tip side, and in the planar shape of FIG. A nozzle hole 37 following the inflow hole 36 is formed inside as shown by a broken line, and has a nozzle opening 38 at the tip.
[0046]
A dust-proof rubber cover 40 is fixed in a cantilevered state by a fixing pin 43 on the outside of the nozzle opening 38 of the nozzle portion 34. The dust-proof rubber cover 40 is incorporated in a cover storage portion 41 that is cut out in a rectangular shape at one end of the nozzle portion 34. The dust cover 40 has a structure shown in FIG. In FIG. 11, the dustproof cover 40 has guide walls 45 erected on both sides of a plate-like cover main body 44, one end side of the cover main body 44 is a fixing portion 46, and a pin insertion hole 47 is formed in the fixing portion 46. Forming.
[0047]
As is clear from the cross-sectional view of FIG. 10C, the dust-proof rubber cover 40 has a fixed portion 46 with respect to a cover mounting portion 42 that is integrally extended and formed on the tip side of the nozzle portion 34 of the open-type water discharge head 2B. The fixing pin 43 is fixed by crimping or the like and supported in a cantilever state. For this reason, the nozzle opening 38 of the nozzle hole 37 of the nozzle part 34 is closed by the portion of the cover body 44 in which the guide walls 45 are formed on both sides of the dustproof rubber cover 40.
[0048]
Next, operation | movement of the open-type water discharge head 1D used as 4th Embodiment of FIG. 10, FIG. 11 is demonstrated. In a normal monitoring state in which there is no supply of pressurized fire-extinguishing water, it is supported in a cantilevered state by a fixing pin 43 on the cover storage part 41 at the tip of the nozzle part 34 as shown in FIGS. The fixed dust-proof rubber cover 40 is pressed against the nozzle opening 38 by its own elastic force, thereby closing the nozzle opening 38.
[0049]
When pressurized fire-extinguishing water is supplied in this state, the dust-proof rubber cover 40 is fixed by the fixing pin 43 by receiving water pressure from the nozzle opening 38 of the fire-extinguishing water passing through the nozzle hole 37 as shown in FIG. It is bent with respect to the portion 46 and pushed outward, so that the nozzle opening 38 is opened. Further, when the fire is extinguished and the supply of pressurized fire extinguishing water is stopped, water discharge from the nozzle opening 38 is lost, so the dust-proof rubber cover 40 that has been pushed and bent as shown in FIG. Returning to the original shape, the nozzle opening 38 is closed.
[0050]
Even in the open-type water discharge head 1D of the fourth embodiment, the dust-proof rubber cover 40 is automatically opened by the water discharge of the fire extinguishing water, and when the water discharge is stopped, the dust-proof rubber cover 40 is automatically returned to the original position and the nozzle opening. The conventional restoration work of attaching a dust-proof rubber cover after stopping water discharge during inspection with actual water discharge, etc. becomes unnecessary. Further, when the water is discharged as shown in FIG. 12, the dust-proof rubber cover 40 is pushed and bent to the open position under the force of the water discharged from the nozzle opening 38, but the force for pushing and bending the dust-proof rubber cover 40 is very small compared to the water pressure. Even if water hits the dust-proof rubber cover 40, the water-splashing damage by the dust-proof rubber cover 40 is very small and there is almost no problem in practical use.
[0051]
FIG. 13 is an explanatory view of a tunnel water spray facility using the open water discharge head of the present invention. In FIG. 13, a fire extinguishing pipe 48 is supported and fixed to the tunnel wall surface 100 by mounting brackets, and a head unit 49 is attached to the fire extinguishing pipe 48. The head unit 49 has a composite head structure in which a slide-type open-type water discharge head 2A and a fixed-type open-type water discharge head 2B are mounted.
[0052]
As the slide-type open-type water discharge head 2A, either the open-type water discharge head 1A of the first embodiment of FIG. 1 or the open-type water discharge head 1B of the second embodiment of FIG. 5 is used. As the fixed open-type water discharge head 2B, the open-type water discharge head 1C shown in FIG. 7 can be used.
When the open-type water discharge head 1C of FIG. 7 is used for the fixed-type open-type water discharge head 2B in FIG. 13, the direction of the deflector portion 32 of FIG. 7 is arranged as shown by a broken line so that water can be discharged obliquely downward. To.
[0053]
FIG. 14 is an explanatory view seen from the head water discharge side of FIG. 13, and a slide-type open water discharge head 2A and a fixed open water discharge head 2B are arranged vertically on the head end 50 connected to the fire extinguishing pipe 48. You can see how they are doing.
FIG. 15 shows an open water discharge head 1E as a fifth embodiment of the present invention. In this embodiment, an upper cover 52 is provided on a nozzle portion 51 having a nozzle opening 58 formed integrally with the head body 50. And a lower cover 53, and an arm portion 52a of the upper cover 52 is rotatably attached to the lower cover 53 by a pin 54.
[0054]
The head main body 50 is connected to a fire extinguishing pipe by a screw portion 55, and when the fire-extinguishing water is pressurized and supplied in the event of a fire, the upper cover 52 is pushed up and opened by the fire-extinguishing water discharged from the nozzle opening 58 as shown in the figure. When the water discharge is stopped, the upper cover 52 closes the nozzle opening 58 by its own weight.
16 shows details of the open-type water discharge nozzle 1E shown in FIG. 15. FIG. 16A is a side view, FIG. 16B is a plan view, FIG. 16C is a front view, and FIG. A side view is shown with the section as a cross section.
[0055]
That is, the head main body 50 is formed with a cylindrical nozzle portion 51 on the tip side following the screw portion 55, an inflow hole 56 and a nozzle hole 57 are formed inside, and the tip of the nozzle hole 57 is the nozzle opening portion. 58. On the outside of the nozzle portion 51, an upper cover 52 and a lower cover 53 are provided so as to be divided vertically. In this cover division, the upper cover 52 is vertically divided at a position below the nozzle opening 58 so that the upper cover 52 is heavier than the lower cover 53.
[0056]
The lower cover 53 is fixed to the nozzle portion 51 of the nozzle body 50, but the upper cover 52 is configured so that a pair of arm portions 52a extending rearward can be rotated to an annular portion at the rear end of the lower cover 53 by pins 54. Wearing. The surface of the upper cover 52 that faces the nozzle opening 58 is cut away in an oblique direction to form a deflector surface 52b when the upper cover 52 is opened by water pressure.
[0057]
FIG. 17 shows an operating state of the open-type water discharge head 1E during water discharge. FIG. 17A shows a side view, and FIG. 17B shows a cross-sectional view of the side cover portion. When pressurized fire-extinguishing water is supplied to the inlet 56 of the open-type water discharge head 1E, fire-extinguishing water is discharged from the nozzle opening 58 through the nozzle hole 57, and the fire-extinguishing water released at this time hits the deflector surface 52b. Then, the upper cover 52 is pushed up as shown in the drawing and pivoted upward about the pin 54 to open the upper cover 52. When the water discharge is stopped, the upper cover 52 is lowered by its own weight, and the nozzle opening 8 is closed. In the open-type water discharge nozzle 1E according to the fifth embodiment, the water discharge distribution pattern can be changed to a required shape by changing the shape of the deflector surface 52b of the upper cover 52.
[0058]
Even in the open-type water discharge head 1E of the fifth embodiment, the upper cover 52 automatically opens like a crocodile mouth when water for fire extinguishing is discharged, and the upper cover 52 automatically returns to its original state when the water discharge is stopped. Thus, the nozzle opening 58 is closed, and the conventional restoration work of attaching the dustproof rubber cover after the water discharge stop at the time of inspection with the actual water discharge becomes unnecessary. Further, at the time of water discharge in FIG. 12, the upper cover 52 is pushed and bent to the open position under the force of water discharge from the nozzle opening 58, but the force to push up the upper cover 52 is very small compared to the water pressure. Even if water hits the upper cover 52, there is very little watering trouble and there is almost no problem in practical use.
[0059]
FIG. 18 shows an open-type water discharge head 1F according to a sixth embodiment of the present invention. In this embodiment, a cover that can be opened and closed with respect to a head unit having a plurality of nozzle heads as shown in FIGS. It is provided.
In FIG. 18A, a long throw head 63 and a close throw head 64 are attached to the body 60 of the open-type water discharge head 1F. On the side surface of the body 60, a water supply cover 61 having a water supply port 62 for connecting a water supply tank is fixed by bolting. Further, a cover 68 is mounted on the body 60 so as to be able to rotate upward, covering the long throw head 63 and the close throw head 64. The cover 68 is, for example, a transparent cover so that the inside can be seen.
[0060]
FIG. 18B is an explanatory diagram showing a state in which the water supply cover 61 in FIG. 18A is removed. Inside the body 60 is formed a head-side water supply port 65 that supplies fire-extinguishing water to the long-throw head 63 and the close-throw head 64, and the interior from the water supply port 62 indicated by the two-dot chain line to the head-side water supply port 65. A rotating plate 67 is attached to the flow path so as to be rotatable by a rotating shaft 66.
[0061]
The rotating shaft 66 is taken out of the body 60 through a seal bearing, and a cover 68 is attached to the shaft taking-out portion. The cover 68 is in a closed position that covers the long throw head 63 and the close throw head 64 with the rotary plate 67 positioned between the water supply port 62 and the head side water supply port 65 as shown. A cover weight 69 is fixed to the lower side of the cover 68.
[0062]
FIG. 19 shows a cover open state when fire-extinguishing water is supplied to the open / close water discharge head 1F of FIG. When fire-extinguishing water is supplied from the water supply port 62 of the water supply cover 61 in FIG. 19A, the fire-extinguishing water flows from the water supply port 62 into the head-side water supply port 65 as shown in FIG. 19B with the water supply cover 61 removed. Then, the rotating plate 67 is pushed and rotates counterclockwise, and the cover 68 is rotated counterclockwise by the rotating shaft 67, and the cover 68 is opened at a position where the near throw nozzle 63 and the near throw nozzle 64 are exposed.
[0063]
When the supply of fire-extinguishing water is stopped, the force to push the rotary plate 67 is lost, and the cover 68 in the open position is closed to a position where the far-throw head 63 and the near-throw head 64 shown in FIG.
In the open-type water discharge head 1F of the sixth embodiment, the cover 68 is automatically opened when the water is discharged, covering the entire long-throw head 63 and the near-throw head 64 mounted on the body 60, and automatically when the water discharge is stopped. It can be closed automatically, and there is no need for the restoration work of attaching a dustproof rubber cover as in the prior art after the stoppage of water discharge, such as during inspection with actual water discharge. Further, when the water is discharged, the cover 68 is opened to a position completely retracted from the front surface of the nozzle, so that there is no watering trouble caused by the fire-extinguishing water from the nozzle hitting the cover 68.
[0064]
The present invention is not limited to the above-described embodiment, and automatically operates the dustproof cover or a member corresponding to the dustproof cover when the fire-extinguishing water is supplied to open the nozzle opening, and corresponds to the dustproof cover or equivalent when the water discharge is stopped. If the member can be automatically closed, an appropriate structure can be taken.
Moreover, although said embodiment has taken the open type water discharge head used for a tunnel water spraying equipment as an example, it is not limited to this, It can apply similarly also to the open type sprinkler head for indoor.
[0065]
【The invention's effect】
As described above, according to the present invention, the dustproof cover or the member having the function of the dustproof cover is automatically activated when the water is discharged to open the nozzle opening, and the dustproof cover or a member corresponding thereto is provided when the water discharge is stopped. In order to automatically close the nozzle opening by operating to the original position, for example, when the open water discharge head of the present invention is used in a tunnel water spray facility, the water discharge should be stopped when an inspection with actual water discharge is performed. For example, the nozzle opening can be automatically closed with a dust cover or a member with a function equivalent to it, and there is no need for a restoration work for each worker to fit the dust cover that has been removed by actual water discharge as before. When the inspection is completed, the lane restrictions can be quickly released, and the traffic restrictions associated with the inspection can be greatly reduced.
[0066]
Further, in the present invention, when the dust cover is opened by water discharge, the dust cover or a corresponding member is opened at a position where it does not hit the water discharged from the nozzle opening. There is no fear of water spattering by the corresponding member, and the head water spraying performance can be sufficiently exhibited even if the dustproof cover has an automatic opening / closing function.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a first embodiment of the present invention.
FIG. 2 is a plan view of FIG.
FIG. 3 is an end view of the nozzle opening side of FIG.
4 is an explanatory diagram of the nozzle opening operation of the first embodiment of FIG. 1 due to water discharge.
FIG. 5 is an explanatory diagram of a second embodiment of the present invention.
6 is an explanatory diagram of the nozzle opening operation of the second embodiment of FIG. 5 due to water discharge.
FIG. 7 is an explanatory diagram of a third embodiment of the present invention.
FIG. 8 is an explanatory diagram of the nozzle member of FIG.
9 is an explanatory diagram of the nozzle opening operation of the third embodiment of FIG. 7 due to water discharge.
FIG. 10 is an explanatory diagram of a fourth embodiment of the present invention.
11 is a perspective view of the dust-proof rubber cover of FIG.
12 is an explanatory diagram of the nozzle opening operation of the fourth embodiment of FIG. 10 due to water discharge.
FIG. 13 is an explanatory diagram of a head unit of a tunnel water spray facility having a plurality of open-type water discharge heads according to the present invention.
FIG. 14 is an explanatory diagram showing FIG. 13 viewed from the spray side.
FIG. 15 is a perspective view of a fifth embodiment of the present invention.
FIG. 16 is an explanatory diagram when the water discharge is stopped according to the fifth embodiment of FIG. 15;
FIG. 17 is an explanatory diagram at the time of water discharge of the fifth embodiment of FIG.
FIG. 18 is an explanatory diagram when water discharge is stopped according to the sixth embodiment of the present invention.
FIG. 19 is an explanatory diagram at the time of water discharge of the sixth embodiment of FIG.
FIG. 20 is an explanatory diagram of tunnel water spray equipment
[Explanation of symbols]
1A, 1B: Open type water discharge head (nozzle slide type)
1C, 1D, 1E: Open type water discharge head (nozzle fixed type)
1F: Open-type water sprinkling head (composite head type)
2A: Slide type open water discharge head
2B: Fixed open water discharge head
3, 23: Head body
4, 24: outer cylinder
5, 25, 35: Connection screw
6, 26, 36: Inflow hole
7, 27: Nozzle member
8: Outer nozzle
10, 30: Spring
11: Spiral fin
12: External flow path
13, 23, 33, 58: Nozzle opening
14a, 14b: dust cover
15a, 15b: Pinion gear
16a, 16b: Rack gear
17: Gear shaft
18: Gear fixed part
20: Dust-proof rubber cover
21: Cutting
27: Nozzle member
28: Side nozzle opening
29: Nozzle hole
32: Deflector part
40: Dust-proof rubber cover
48: Fire extinguishing piping
49: Head unit
52: Top cover
53: Lower cover
60: Body
62: Water inlet
63: Long throw head
64: Near throw head
65: Head side water supply port
66: Rotating shaft
67: Rotating plate
68: Cover
100: Tunnel wall surface

Claims (6)

In an open-type water discharge head that is connected to a fire extinguishing pipe that supplies pressurized fire-fighting water from a fire-fighting pump facility, and that discharges pressurized fire-fighting water to a protected area in the event of a fire,
A cylindrical head body which is fixedly connected to the fire extinguishing pipe and opened to the tip side;
A nozzle member that is slidably housed in the axial direction in the head body, and that moves forward to the opening of the head body against the urging member when water discharge pressure is received;
A dust-proof cover attached to the opening of the head body so as to be freely opened and closed;
A cover opening / closing mechanism that opens the dustproof cover as the nozzle member moves forward during water discharge, and closes the dustproof cover as the nozzle member moves backward when water discharge stops;
Equipped with a,
The cover opening / closing mechanism forms a rack gear in the direction of the outer peripheral axis of the nozzle member, meshes with the rack gear on the head main body side and rotatably arranges the pinion gear, and the pinion gear is moved by the movement of the rack gear by the nozzle member. An open-type water discharge head characterized in that the dust-proof cover is opened and closed by rotating . In an open-type water discharge head that is connected to a fire-extinguishing pipe that supplies pressurized fire-extinguishing water from a fire-extinguishing pump facility, and that discharges pressurized fire-extinguishing water to a protected area in the event of a fire,
A cylindrical head body which is fixedly connected to the fire extinguishing pipe and opened to the tip side;
A nozzle member that is slidably housed in the axial direction in the head body, and that moves forward to the opening of the head body against the urging member when water discharge pressure is received, and discharges water;
A dust-proof cover that is attached to the opening of the head main body, is spread by the nozzle member that moves forward when water is discharged, opens, and closes by retreating the nozzle member when water is stopped; ,
An open-type water discharge head characterized by comprising In an open-type water discharge head that is connected to a fire extinguishing pipe that supplies pressurized fire-fighting water from a fire-fighting pump facility, and that discharges pressurized fire-fighting water to a protected area in the event of a fire,
A cylindrical head body which is fixedly connected to the fire extinguishing pipe and opened to the tip side;
Wherein said head is slidably received in the axial direction of the body, a flange portion formed at one end with a nozzle hole in the center, when the flange portion is subjected to water discharge pressure, against the urging member and moves forward to the opening of the head body, the interior of the nozzle hole communicating with the side nozzle openings exposed to the outside to discharge water, the head main body the side nozzle opening when water discharge is stopped is formed in a side surface A nozzle member that is retracted and moved to a closed position.
An open-type water discharge head characterized by comprising In an open-type water discharge head that is connected to a fire-extinguishing pipe that supplies pressurized fire-extinguishing water from a fire-extinguishing pump facility, and that discharges pressurized fire-extinguishing water to a protected area in the event of a fire,
A head body that is connected and fixed to a fire extinguishing pipe and has a nozzle hole at the tip,
Elasticity that is attached to the nozzle hole opening of the head body with one end fixed and is pushed away by the water discharge pressure when water is discharged to open the nozzle opening and closes the nozzle hole by pressing with its own elastic force when water discharge is stopped A dust cover made of materials,
An open-type water discharge head characterized by comprising In an open-type water discharge head that is connected to a fire extinguishing pipe that supplies pressurized fire-fighting water from a fire-fighting pump facility, and that discharges pressurized fire-fighting water to a protected area in the event of a fire,
A cylindrical head body connected and fixed to a fire extinguishing pipe and having a nozzle hole opened on the tip side;
A lower cover that covers and fixes the lower side of the head main body, and is pivotally supported so as to cover the upper side of the head main body and the nozzle holes. An upper cover that rotates by pushing up and opens the nozzle hole to discharge water, and closes to a position that covers the nozzle hole by its own weight when water discharge stops,
An open-type water discharge head characterized by comprising In an open-type water discharge head that is connected to a fire extinguishing pipe that supplies pressurized fire-fighting water from a fire-fighting pump facility, and that discharges pressurized fire-fighting water to a protected area in the event of a fire,
A body that is equipped with one or a plurality of nozzle heads and that supplies fire-extinguishing water supplied from a water supply port connecting a fire-extinguishing pipe to the nozzle head through an internal flow path;
A rotating plate that is pivotally supported by a rotating shaft in the flow path of the fire extinguishing water of the body, and rotates by the supply of fire extinguishing water;
A cover that is attached to a part of the rotating shaft that is taken out of the body, covers the nozzle head when water supply is stopped, and is rotated by the rotating plate when water is supplied to rotate to a position that opens the water discharge side of the nozzle head. When,
An open-type water discharge head characterized by comprising

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