JPH07100223A - Nozzle holder - Google Patents

Abstract

PURPOSE: To provide a nozzle holder, particularly a fire extinguishing nozzle holder suitable for fitting multiple spray nozzles. CONSTITUTION: This nozzle holder is constituted of a valve rod which is a member having a function as a plug preventing the flow of water from a water feed pipe to a spray nozzle until the spray nozzle is used and a trigger element, and a glass valve is used for the trigger element. When an intervention section is formed at a nozzle fitting section or a nozzle holder main body is replaced, the angle between the axis of a nozzle holder and the axis of the spray nozzle can be adjusted or changed. The nozzle holder can be surely operated with simple structure when it is used. The nozzle can be fitted at various angles, and it is made adaptable for use under various conditions such as the space condition for spraying.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nozzle holder, and particularly to a nozzle holder having a high water pressure, for example, 102 to 204 kg / cm ² (100 to 200 ba).
The nozzle holder applicable to the spray head used in the fire extinguishing sprinkler system operated in r).

[0002]

2. Description of the Related Art As a conventional technique of such a nozzle holder, for example, International Publication No. WO92 / 1537 of International Application is known.
The one described in Japanese Patent Publication No. 0 is known. According to this nozzle holder, the spindle is slidably arranged in the spray head, the lower end is supported by the releasing means (trigger element), and an annular space is formed between the outer periphery of the spindle and the holder. A communication hole that communicates is formed. Here, by equalizing the cross-sectional area of the valve opening with which the upper end of the spindle is in contact with the cross-sectional area of the annular space to offset and eliminate the load applied to the spindle from the pressure in the water supply pipe, the spindle is lowered by the spring, that is, When the release means is destroyed by urging in the release direction, the spindle is pushed down by the urging force of this spring, the valve opening is released, and the fire extinguishing water is sprayed and emitted from the nozzle installed at a predetermined angle. It is what

[0003]

However, in such a prior art, since the spring is used as a force for pushing down the spindle in order to release the water supply in the sealed state, it is originally intended to extinguish a fire only in an emergency. In the object of the present invention operating in many cases, it is often not used for a long time, and the biasing force of the spring may be in a state where the desired biasing force cannot be obtained due to fatigue or oxidation or other factors, There is a problem as a component of fire extinguishing equipment that is required to operate, and a short cycle inspection is required. There is also a problem that the structure becomes complicated and the manufacturing cost becomes high.

Further, since the nozzle is fixedly mounted and the injection angle is constant, there is nothing that can be used under various conditions such as space conditions for injection.

However, even though it is used under high pressure, it usually operates by raising the water supply pressure after a fire is detected, and the trigger element is only required to withstand the low pressure when it is not operating. is there. Therefore,
From this point of view, the present invention is to solve the above problems, and to provide a nozzle holder that can be reliably operated by breaking the trigger element with a simple structure even under high water pressure, and eject from all nozzles. The amount of water
An object of the present invention is to provide a nozzle holder that can be easily adapted even when the space conditions in which water is to be sprayed are different.

[0006]

SUMMARY OF THE INVENTION In accordance with the present invention, the above object is to provide a breakage defining an inflow opening, a plurality of outflow openings to which any spray nozzles are attached, and an extension. An axially mounted valve rod supported by a possible trigger element, one end of which in the non-actuated position slides the valve passage of the partition to close the inlet opening. The valve rod is in a dynamically closed state, the other end of the valve rod is slidably inserted into the guide socket, and the one end of the valve rod is provided with a means for receiving the other end of the trigger element. A nozzle holder in which a chamber is formed around the rod, which is closed by the partition and the guide socket and communicates with all the outlet openings. Together they are more resolved, the above objects can be achieved.

The trigger element used in the nozzle holder of the present invention is made of glass and is generally embodied as a glass bulb, which is generally broken when a predetermined temperature is reached.

The guide socket is fixed to the wall of the chamber, and the valve rod is slidably inserted in a guide hole formed at the center of the guide socket in a sealed state by a seal member. The guide socket is mounted in an annular groove formed in the wall of the chamber. The annular groove is a step formed in the wall of the chamber and a trigger screwed to the step from below. It may be formed with the upper end of the holding member of the element.

By making the cross-sectional area of the valve passage at least equal to the total cross-sectional area of the injection holes of all spray nozzles, the feed water pressure (quantity) and the injection pressure (quantity) are balanced, and their axial lengths are balanced. By making the length shorter than the length of the trigger element in the axial direction, when the trigger element is broken, the upper end of the valve rod comes off from the valve passage and falls downward, resulting in a seal between the valve rod and the valve passage. It surely prevents the water supply from flowing into the chamber.

Also, two or more different inclined positions can be occupied with respect to the axis of the nozzle holder by mounting an adjustable medium portion on the outlet side opening or by mounting a replaceable nozzle holder body. Therefore, it can be easily adapted for use under various conditions such as different space conditions. As the medium portion, for example, a flexible hose or an articulated connecting tube member such as a compressed air coupling can be used.

Further, even if the intermediate portion is formed by a spherical body having a conducting hole, if the nozzle is mounted on the outflow side of the conducting hole, the nozzle can be freely moved in both horizontal and vertical directions. The injection direction of can be changed. This spherical main body is attached to the nozzle holder main body with a fixed washer and at least one fixing screw, and the diameter of the spherical main body is smaller than the diameter of the outlet side opening of the nozzle holder main body and the diameter of the through hole in the fixed washer. It can be mounted as a slightly larger one.

[0012] Furthermore, by attaching to the water supply pipe through a joint, the pipe can be attached even when the pipe diameter is different, and the arrangement of the outlet side opening is different in place of the intermediate portion, and the joint is different. The jetting angle of the nozzle can also be adjusted by providing at least two replaceable nozzle holder bodies that are sealingly attached to the.

[0013]

The present invention will now be described in more detail with reference to the accompanying drawings. 2 and 3 do not show the internal structure of the spray head for the sake of brevity,
This is the same as shown in FIG.

As shown in FIG. 1, the nozzle holder comprises a housing 1 formed as a single body (nozzle holder body), which housing is provided with an inflow side opening 2 in which a screw thread is formed and which has a sprinkler system. The housing can be screwed to the water supply pipe 3 forming a part of the. For this attachment, a flat shape portion that can be gripped and rotated by a tool such as a spanner is formed on the upper portion 20 of the housing 1, and the lower portion has an inverted truncated cone shape, and the upper peripheral surface of the cone is the axial line of the nozzle holder body. To have a certain inclination angle selected with respect to. A plurality of, for example, six outflow-side openings 90 are formed on this peripheral surface, and nozzle attachments each of which has a screw thread for screwing and locking an arbitrary spray nozzle 8 are formed on the outer edge portions thereof. The part 9 is formed. Here, in the spray nozzle 8 equipped with, for example, a fine hole filter attached to the nozzle attachment portion 9, the axis B thereof forms an angle α with the axis A of the housing 1.
And its angle is the same as the angle the peripheral surface makes with the axis A.

Inside the housing 1, a solid valve rod 4 is mounted slidably in the axial direction. The upper end of the valve rod is slidably and is inserted and fitted in a sealed state to the inflow side opening 2 side there are the central valve passage 5 formed in the partition portion 1 ¹ of the housing 1. The lower end side of the valve rod is slidably inserted in the guide hole 11b formed in the center of the guide socket 11 (by the seal member 13), while the guide socket 11 is inserted by the seal member 12. and it is fixed slightly spaced below the housing 1 from the partition portion 1 ¹ in sealed state.

[0016] the valve rod 4 around between the partition portion 1 ¹ and the guide socket 11, together with the cylindrical chamber 7 is formed, which communicates with all of the outlet-side opening 90. The guide socket 11 is fitted into a step 11a formed on the wall of the chamber 7, and the lower end thereof is pressed and supported by a holding member 16 described later.

The guide socket is the valve rod 4
It may be a non-slidable, hermetically mounted piston like a piston that slides integrally along the wall of the chamber 7 in a sealed manner. Of course, in such a case, a step is not formed on the inner wall of the chamber, and it is formed extremely smooth. In either case, the guide socket 11 forms the bottom of the chamber 7 so that no liquid permeates the guide socket and leaks out of the chamber 7. Since the valve rod 4 is a solid body, the liquid does not leak over the guide socket via the valve rod.

The space portion of the outer from the guide socket 11, i.e. the space portion below in Figure 1, a threaded central opening 1 ² formed in the housing, the nipple doubling as a support member of the trigger element 15 in its interior The holding member 16 is shaped like a screw. The trigger element 15 is embodied as a glass valve filled with water in a state of forming a part of the valve rod 4, and the upper end of the trigger element 15 is fitted into the recess 14 formed in the lower end surface of the valve rod. The lower end is inserted and supported in the recess formed in the holding member 16. The reason why the plurality of openings 17 are formed around the holding member is to facilitate the action of the ambient air, that is, the heat at the time of fire on the glass bulb 15 made of glass.

The valve rod 4, the glass valve 15 and the holding member 16 are valve passages through which water is introduced at the upper end of the valve rod as a plug member when the spray head is in the non-actuated position as shown in FIG. 5 closed completely,
Further, the glass bulb 15 is formed in a size and shape that can withstand the water pressure from the water supply pipe 3 when the ambient temperature is room temperature.

The holding member 16 is a glass bulb 15
In order to finely adjust the axial position of the glass rod, and further the axial position of the valve rod 4, a recess for supporting the lower end of the glass bulb is not provided in the holding member itself, but a screw hole is formed in the lower portion of the holding member. It is possible to adjust the supporting position of the lower end of the glass bulb by screwing a bolt-shaped member there and projecting it upward, and forming a recess in the upper end of the bolt-shaped member.

When a fire occurs and hot air strikes and the liquid in the glass bulb 15 is exposed to a high temperature higher than a preset temperature, the glass bulb bursts and the valve rod 4 (the valve rod and the guide socket are integrated with each other). In both cases, the water pressure in the water supply pipe 3 causes the water pressure in the water supply pipe 3 to be rapidly lowered, and the upper end of the water supply pipe 3 is disengaged from the water supply pipe to open a passage from the water supply pipe to allow water to flow freely. Thus, the water from the water supply pipe 3 reaches the spray nozzle 8 equipped with the filter 10 attached to the nozzle attachment portion 9 through the chamber 7 and the outlet side opening 90 and is jetted. The temperature condition at which the glass bulb is broken can be set by changing the material and thickness of the glass tube constituting the glass bulb and the ratio of the amount of enclosed water.

The cross sectional area of the valve passage 5 is at least equal to the total cross sectional area of the injection holes of all the nozzles, and the axial length L thereof is the axial length L of the glass bulb 15.
^It is shorter than ¹ . As a result, the balance between the water supply pressure or amount and the injection pressure or amount is maintained, and after the glass valve is broken, the upper end of the valve rod 4 is reliably disengaged from the valve passage 5 to open the water supply passage.

The area which can be reached by spraying water from all the spray nozzles 8 in the spray head has the axis B of the spray nozzle relative to the axis A of the nozzle holder, although there are other factors such as water pressure. Depends on the angle α. 2 to 6 show another embodiment of the present invention, which is arranged so that the nozzle head can have different inclination angles with respect to the axis A of the nozzle holder. This is to avoid the need to store and store several different types of spray heads for different applications.

FIG. 2 illustrates two embodiments, one of which is not a direct attachment of the spray nozzle 8 to the housing 1 but is embodied as a short articulating piece of tube member 9 ² . The portion is screwed to the housing. Parts of this kind are commercially available as "articulated couplings for compressed air" or "ball couplings for compressed air". Also, the other are those attached via an intermediary section and the flexible hose 9 ¹ short spray nozzle. In these cases,
The spray nozzles mounted on the free ends of the mediators can be set in any desired orientation (generally, of course, the same spray head will be equipped with mediators of the same type).

FIG. 3 shows a case where the mediating portion is composed of a spherical main body 9a. The spherical main body 9a has a through hole 9a ¹ formed along its diameter, and the outside of the through hole is formed. A nozzle mounting portion formed of a screw thread is formed at the end portion. The spherical main body 9a is formed by slightly expanding the opening end of the outflow side opening 91 of the nozzle holder, and is rotatably mounted there through a sealing ring 9b ¹ and is retained and held by a fixed washer 80. There is.

That is, the through hole 9a ¹ has the same diameter as the outflow side opening 90 in the embodiment shown in FIG. 1, but the outflow side opening 91 of the nozzle holder body in this embodiment is larger. The diameter is formed, but the diameter is slightly smaller than the diameter of the spherical main body 9a. Further, the axis B of the nozzle can take any inclined position between the rotation limit positions B ¹ and B ² on both sides.
Can be oriented substantially horizontally or vertically.

The fixed washer 80 has a through hole 80 ^{1 at} its center.
Is formed (see FIG. 3b), and the diameter of the through hole 80 ¹ is slightly smaller than the diameter of the spherical body 9a, and is formed to be the same as the diameter of the outflow side opening 91, for example. In the illustrated embodiment, the fixed washer 80 is held by three fixing screws 80a which are inserted into the small holes 80a ¹ formed in the washer and screwed into the nozzle holder body 1. Loosen the fixing screw to adjust the position of the spherical main body 9a, and then tighten the screw again so that the spherical main body 9a will be the sealing ring 9.
It is pressed against b ¹ and fixed at the selected rotation or tilt position.

The fixing means of the fixing washer 80 can be, for example, in the form of a single fixing screw 80a for engaging a hook 80b shown by an imaginary line with the band 80b ¹ portion (see FIG. 3a).

4, 5 and 6 show a further embodiment, in which the nozzle holder is not manufactured as a single body with the means for mounting it on the water supply pipe (inlet opening 2 in FIG. 1). However, it is applied when a separate means for attaching to the water supply pipe is required. In this embodiment, as shown only in FIG. 4, the tubular member is provided with a joint 1a having threads formed on both inner and outer surfaces. This joint comprises various nozzle holder bodies 1b ¹ , 1b ² or 1b ³ having different angles α ¹ , α ² , α ³ (30 °, 45 °, 60 ° in the illustrated embodiment) with different nozzle mounting angles. It has a mounting portion 21 for mounting.

Of course, the coupling between the joint and the nozzle holder main body can be achieved by some modes other than the above, for example, by the insertion fixing method. Also, the nozzle holder body 1b ¹ , 1b ² or 1b ³
In addition to making the inclination angles different, the nozzle mounting portion may have another aspect, for example, the number and / or the size of the nozzle mounting portion can be changed.

The fitting 1a can be attached to the water supply pipe 3 in a conventional manner (it can also be attached to a wall and a ceiling),
The nozzle holder most suitable for the situation of each installation space can be attached.

[0032]

As described above, according to the present invention, it is possible to provide a nozzle holder having a simple structure and surely operating during use.

Furthermore, the nozzles can be attached at various angles, and it is possible to provide a useful nozzle holder that can be used under various conditions such as space conditions for jetting.

[Brief description of drawings]

FIG. 1 is a partial vertical sectional view showing a first embodiment of a nozzle holder according to the present invention.

FIG. 2 is a front view showing a second embodiment of the nozzle holder according to the present invention.

3A is a partially enlarged sectional view of a third embodiment of a nozzle holder according to the present invention, and FIG. 3B is a plan view of a fixed washer in FIG. 3A.

FIG. 4 is a partial vertical sectional view showing a fourth embodiment of the nozzle holder according to the present invention.

FIG. 5 is a vertical cross-sectional view similar to FIG. 4, but showing a portion of a nozzle holder with a different spray nozzle mounting angle.

FIG. 6 is a vertical cross-sectional view similar to FIG. 5, but showing a portion of a nozzle holder in which the spray nozzle mounting portion is further different in inclination angle.

[Explanation of symbols]

1 Housing 1 ¹ Partition 1 ² Center Opening 1a Joint 1b ¹ , 1b ² , 1b ³ Nozzle Holder Main Body 2 Inlet Side Opening 3 Water Supply Pipe 4 Valve Rod 5 Valve Passage 7 Chamber 8 Spray Nozzle 9 Nozzle Mounting 9 ¹ Flexible Hose 9 ² articulated tube member 9a spherical member 9a ¹ through hole 10 filter 11 guide socket, 11a step 11b guide hole 15 glass valve 16 holding member 80 fixed washer 80 ^{1 through} hole

Claims (11)

[Claims] 1. A bearing supported by an inlet opening (2), a plurality of outlet openings (90) to which optional spray nozzles (8) are mounted, and a destructible trigger element (15) defining an extension. And a valve rod (4) axially attached to the partition (1) to close the inflow side opening when one end of the valve rod is in the inoperative position.
The valve passage (5) of ( ¹ ) is slidably closed, the other end of the valve rod is slidably inserted into the guide socket (11), and one end is carried by the holding member (16). Means (14) for receiving the other end of the holding trigger element (15)
And a chamber (7) formed around the valve rod, which is closed by the partition and the guide socket and communicates with all outlet openings. Nozzle holder for the head. 2. The guide socket according to claim 1, wherein the guide socket is fixed to a wall of the chamber, and the valve rod is slidably inserted in a central guide hole (11b) of the guide socket. Nozzle holder. 3. The nozzle holder according to claim 1, wherein the guide socket is mounted in an annular groove (11a) formed in the wall of the chamber. 4. The method according to claim 1, wherein the annular groove is formed by a step on the wall of the chamber, and the guide socket is held in place by the holding member (16) of the trigger element. Nozzle holder described in 3. 5. The cross sectional area of the valve passage (5) is at least equal to the total cross sectional area of the injection holes of all spray nozzles (8), the axial length (L) of which is the axial length of the trigger element. The length is shorter than (L ¹ ).
Nozzle holder given in any 1 paragraph of thru / or 4. 6. outflow side opening, adjustable intermediary portion (9 ^1, 9
⁽² , 9a) or by mounting the replaceable nozzle holder body (1b ¹ , 1b ² , 1b ³ ), at least two different inclinations with respect to the nozzle holder axis (A). The nozzle holder according to any one of claims 1 to 5, wherein the nozzle holder occupies a position. 7. A nozzle holder according to claim 6, wherein the mediating portion is constituted by a flexible hose (9 ^1). 8. The nozzle holder according to claim 6, mediated unit is characterized by being composed by articulating the tube member such as a coupling for compressed air (9 ^2). 9. A spherical body, wherein the medium portion has a through hole (9a ¹ ).
(9a), a nozzle is mounted on the outflow side of the conduction hole, and the spherical body rotates into the outflow side opening (91) with a fixed washer (80) and at least one fixing screw (80a). The nozzle holder according to claim 6, which is mounted so as to be capable. 10. The outlet side opening (91) of the nozzle holder body.
And the diameter of the through hole (80 ¹ ) in the fixed washer are
The nozzle holder according to claim 9, which is slightly smaller than the diameter of the spherical body. 11. A fitting (1) for attaching to a water supply pipe (3)
a) and at least two replaceable nozzle holder bodies (1b ¹ , 1b ² , 1b ³ ) having different outflow-side opening arrangements and sealingly attached to the fitting. Item 7. The nozzle holder according to item 6.