KR20110135525A - A sprinkler head of fuse type - Google Patents

Abstract

PURPOSE: A fuse type sprinkler head is provided to prevent a fuse from being hardened by leaking water and to perform an exact sprinkling operation. CONSTITUTION: A fuse type sprinkler head comprises: a body(14) supplying water through a drain; a valve(20) in which the upper end thereof is inserted into the drain of the body; a frame(16) in which a jaw is formed in the inner cylindrical surface of the lower end part; a separation part which supports the bottom of a valve and is separated from the bottom of the frame; a thermal sensor which is combined in a state of being coupled with the separation part; and a deflector(30) which disperses sprayed water.

Description

Fuse Sprinkler Head {A Sprinkler Head of Fuse Type}

The present invention relates to a fuse-type sprinkler head, and in particular, the present invention has been improved to prevent the fuse is cooled and re-solidified by the fire water leaked by a fine operation before the fuse is completely melted in the event of fire.

Generally, a fire extinguishing system is installed in a building in case of fire. The most common type of fire extinguishing system is a fuse-type sprinkler head.

The fuse-type sprinkler head transmits heat generated when the heat-sensitive plate of the sprinkler head is fired to the fuse built in the fuse-type sprinkler head in a state where a firefighter having a predetermined pressure is always charged inside the pipe. By melting, it operates to inject fire water supplied from the drain pipe disposed in the ceiling.

However, the general fuse-type sprinkler head described in the background art operates finely while the fuse at the initial stage of the fire is partially melted by the heat, and the fire water is leaked. Hardening made it difficult for the sprinkler head to operate correctly.

As a result, the fuse-type sprinkler head loses its function as a fire-fighting device configured to be suitable for extinguishing the initial fire, resulting in a state in which the fire is not initially suppressed and the fire is enlarged.

The present invention has been invented to solve the problems of the prior art as described above, and has been improved to prevent the non-operation by firefighters leaking during the initial fire.

In the present invention for achieving the above object, the heat sensing unit is provided with a first heat-sensitive plate around the lower end and the bent portion is formed to form a shaft tube narrowing the inner diameter from the middle to the upper direction, and the coupling groove of the cylinder A fuse provided along the inner circumference of the cylinder in a state of being inserted between the first heat-sensitive plate and the fuse piston flange based on a flange of the fuse piston inserted into the cylinder to be fixed to the detachment part; A fuse-type sprinkler head having a structure spaced vertically between the bent portion of the cylinder and the flange of the fuse piston is provided.

As another example, the heat sensing unit includes a cylinder having a first heat sensing plate provided around a lower end thereof, and having a bent portion formed to form an axial tube whose inner diameter is narrowed from the middle to the upper direction thereof, and inserted into a coupling groove of the cylinder to allow the cylinder to be detached from the cylinder. A fuse disposed along the inner circumference of the cylinder tube in a state disposed between the upper outer surface of the fuse piston and the inner surface of the shaft tube of the cylinder which are fastened to the release portion so as to be fixed, and a vertical direction between the bent portion of the cylinder and the flange of the fuse piston A fuse-type sprinkler head having a structure spaced apart from each other is provided.

As described above, the fuse-type sprinkler head of the present invention prevents the fuse from cooling down and re-solidifying by a fireman leaking with fine operation before the fuse is completely melted in the event of a fire due to the new type of arrangement structure of the fuse. As a result, it can be expected that the correct watering action can be made accordingly.

1 is a partial cross-sectional view showing a pre-operational state of a fuse-type sprinkler head according to a first embodiment of the present invention.
2 is a partial cross-sectional view showing a state after the operation of the fuse-type sprinkler head shown in FIG.
3 is an enlarged cross-sectional view of A of FIG. 1.
Figure 4 is a partial cross-sectional view showing a pre-operational state of the fuse-type sprinkler head according to the second embodiment of the present invention.
5 is an enlarged cross-sectional view of B of FIG. 4.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the fuse-type sprinkler head according to the present invention will be described in detail.

[First Embodiment]

1 is a partial cross-sectional view showing a state before the operation of the fuse-type sprinkler head according to the first embodiment of the present invention, Figure 2 is a partial cross-sectional view showing a state after the operation of the fuse-type sprinkler head shown in FIG. Is shown. 3 is an enlarged cross-sectional view of A of FIG. 1.

As shown in Figures 1 to 3, the fuse-type sprinkler head 10 has a body 14 is fastened to the drain pipe 12 is disposed, the frame 16 is screwed to the lower end of the body 14, A valve 20 located inside the frame 16 and closing the bottom drain 18 of the body 14 in a closed state, and mounted in the frame 16, the frame 16 by melting the fuse 22 And a heat sensing portion 26 coupled to the separating portion 24 and having a fuse 22 therein, which is separated from the opening portion 24 to open the drain 18.

On the other hand, the deflector 30 located inside the socket 28 of the body 14, the sprinkling piece 32 bent upward so that the water present in the drain 18 of the body 14 can be sprayed radially ) Are spaced apart from each other along the circumference.

Accordingly, the sprinkler 34 is formed between the sprinkling pieces 32 adjacent to each other. In addition, it is configured to include a guide portion 38 is connected to the lower end of the sprinkling piece 32 and formed in a hollow so that the spring fixing bolt 36 passes through the center.

Deflector 30 configured as described above of the valve 20 in the state that the spring fixing bolt 36 disposed inside the socket 28 through the hollow of the conical coil spring 40 and the guide portion 38 through the coupling respectively The position is fixed by being fastened in the lower part.

Accordingly, the spring fixing bolt 36 is pushed upward, and the valve 20 is inserted into the body 14 by the transmitted force to block the drain hole 18.

At the same time, the conical coil spring 40 is compressed with elasticity between the spring fixing bolt 36 and the deflector 30.

The socket 16 of the body 14 is screwed to the frame 16 made of a cylindrical shape, the screw thread that can be fastened to the socket 28 on the outer peripheral surface of the upper end of the frame 16 to take this fastening structure ( 42) is formed.

A guide 44 is mounted on the inside of the frame 16, which guides 44 to surround the guide portion 38 of the deflector 30 and the outside of the sprinkling piece 32 to accommodate the same. The pieces 46 have a structure that is bent upwardly with a distance from each other along the circumference of the circumference, and the center of the guide 44 is formed hollow.

The hollow diameter of the guide 44 is preferably smaller than the diameter of the guide portion 38 of the deflector 30 and larger than the bolt head diameter of the spring fixing bolt 36.

A detachment part 24 is positioned below the guide 44, and the detachment part 24 is mounted in a state disposed at a lower end of the frame 16.

The detachment part 24 is positioned below the guide 44 and in contact with the ball 48, and is positioned below the sandwich plate 50 to close the bottom of the frame 16. A plurality of balls positioned at the edge of the ball balancer 52 in contact with the ball balancer 52, the locking jaw 54 formed in the lower inner side of the frame 16, the holding plate 50, and the ball balancer 52. 48 and the fixing plate 56 is coupled to pass through the center of the sandwich plate 50 and the ball balancer 52.

The heat sensing unit 26 is coupled to the lower end of the fixing bolt 56 coupled to penetrate the pinching plate 50 and the ball balancer 52 as shown in FIG. A cylinder 60 to be provided, second and third heat-sensitive plates 62 and 64 which are respectively penetrated and coupled to the circumference of the cylinder 60 in a state disposed above the first heat-sensitive plate 58, and the cylinders. A fuse piston 68 inserted into the coupling groove 66 of the 60 and fastened to the fixing bolt 56, the flange 70 of the fuse piston 68, the inner surface of the cylinder 60, and the first heat-sensitive plate 60. The fuse 22 is provided in the position which contacts all the upper surfaces of 58.

Specifically, the cylinder 60 has a structure in which a bent portion 74 is formed to form a shaft tube 72 having a first heat-sensitive plate 58 at a lower end thereof and a narrow inner diameter from the middle to the upper direction. The fuse piston 68 of the fuse 60 is inserted into the coupling groove 66 of the cylinder 60 and fastened to the fixing bolt 56 on the detachable part 24 so that the cylinder 60 can be fixed to the detachable part 24. The fuse 22 is disposed between the flange 70 and the upper surface of the first heat sink 58, and is provided along the inner circumference of the cylinder 60.

In addition, between the bent portion 74 of the cylinder 60 and the flange 70 of the fuse piston 68 is spaced in the vertical direction, the outer periphery of the cylinder 60, the second and third thermal plate 62, 64 are each through-coupled.

Hereinafter will be described the operating relationship of the fuse-type sprinkler head 10 configured as described above. First, when a fire occurs, the fuse 22 is melted while the first to third heat-sensitive plates 58, 62, 64 and the cylinder 60 are heated by heat caused by the fire.

Accordingly, when the fuse 22 starts to melt, the bonding force between the fuse 22 and the cylinder 60 becomes gradually weakened, and the cylinder 60 gradually increases due to the elasticity of the conical coil spring 40. You will descend.

When the cylinder 60 is gradually lowered as described above, the water exiting part 24 and the valve 20 are also lowered together, so that the fire water leaks finely between the sprinkling pieces 32 of the deflector 30). At this time, the fuse 22 that is being melted has a short leakage path to the outside and the fire water heat transfer path distance is far from the water spray piece 32, so that the low-temperature heat of the leaked fire water is transferred to the fuse 22 in the melting process. The melt in 22 will leak out quickly.

In addition, the fuse 22 is located on the upper surface of the first thermal plate 58, so that the heat of fire can be quickly transmitted and quickly melted, thereby preventing the malfunction of the fuse 22 being cooled by the leaking firewater to harden. do. That is, rapid melting and rapid leakage of the fuse 22 is achieved.

When the fuse 22 is completely melted, the bent portion 74 of the descending cylinder 60 comes into contact with the flange 70 of the fuse piston 68.

As such, the ball balancer 52 is also lowered while the cylinder 60 is lowered. At the same time, the ball 48, which was caught on the locking jaw 54 of the frame 16, is gathered to the inner center, and the locking is completely released. As a result, the conical coil spring 40 that is compressed is also fully extended.

Accordingly, the components constituting the departure part 24 and the heat sensing part 26 including the guide 44 are all separated from the frame 16 completely, and the drain 18 of the body 14 is removed. The valve 20 that has been blocked is completely lowered and positioned in the state of being caught by the locking jaw 54. As a result, the firefighters existing in the drain 18 are sprayed radially through the spraying pieces 32 forming the sidewalls of the deflector 30. (See Fig. 3)

[Second Embodiment]

When the fuse-type sprinkler head 70 according to the second embodiment described below is compared with the fuse-type sprinkler head 10 in the first embodiment, the fuse 22 is used in the heat sensing unit 26 of the first embodiment. Is disposed on the upper surface of the first thermal plate 58 so as to contact both the flange 70 of the fuse piston 68, the inner surface of the cylinder 60, and the first thermal plate 58, but the heat sensing portion of the second embodiment In the reference numeral 88, the fuse 84 is provided in a state where the fuse 84 is located between the inner surface of the shaft tube 72 of the cylinder 60 and the upper outer surface of the upper end of the fuse piston 82.

Specifically, as shown in FIGS. 4 and 5, the cylinder 60 has a first heat sensing plate 58 around the bottom of the cylinder 60, similar to the first embodiment, and has an inner diameter narrowed from the middle to the upper direction. The bent portion 74 is formed to form a groove.

The upper outer surface and the shaft tube 72 of the fuse piston 82 is inserted into the coupling groove 66 of the cylinder 60 and fastened to the release portion 24 so that the cylinder 60 may be fixed to the release portion 24. The fuse 84 is disposed between the outer surfaces, and the bent portion 74 of the cylinder 60 and the flange 86 of the fuse piston 82 have a structure spaced apart in the vertical direction.

Accordingly, in the first embodiment, as the melting of the fuse 22 proceeds, leakage begins, and the bent portion 74 of the cylinder 60 moves toward the flange 70 of the fuse piston 68 by the amount of the leakage. In the second embodiment, although the operation is gradually made, the heat transfer cross-sectional area of the shaft tube 72 joined to the fuse 84 is reduced compared to the first embodiment, so that the melting of the fuse 84 proceeds slowly.

Accordingly, the fine operation is not performed at the initial stage of the melting of the fuse 84, so that the leak of the firefighter is not made at all.

In addition, the fuse piston 82 is formed by the complete fusion of the conical coil spring 40 when the bonding force does not overcome the repulsive force of the conical coil spring 40 due to the gradual melting of the fuse 84. With the lowering of the state, the bonding force between the cylinder 60 and the fuse piston 82 is completely lost, so that the watering operation as in the first embodiment is performed.

Since other components are the same as those of the first embodiment, detailed descriptions of the components described in the first embodiment will be omitted and the same reference numerals as those given in the first embodiment will be given.

10, 80: fuse type sprinkler head 12: drain pipe
14 body 16 frame
18: drain 20: valve
22, 84: fuse 24: leaving part
26, 88: heat detection unit 28: socket
20: deflector 32: watering
34: sprinkler 36: spring fixing bolt
38: guide part 40: conical coil spring
42: thread 44: guide
46: Guide 48: Ball
50: gripping plate 52: ball balancer
54: locking jaw 56: fixing bolt
58: first thermal plate 60: cylinder
62: second thermal plate 64: third thermal plate
66: coupling groove 68, 82: fuse piston
70, 86: Flange 72: Shaft pipe
74: bend

Claims (2)

A body which is fastened to a drain pipe and supplies water through a drain hole formed inside, a valve fitted with an upper end to a drain hole of the body, a frame accommodating the valve in a state fastened to the body, and having a locking jaw formed at a lower inner circumferential surface thereof; Supporting the lower end of the valve so that the upper end of the valve is inserted into the drain hole in the state of being caught on the locking jaw of the frame, and when the built-in fuse is melted by heat, it is separated from the lower part of the frame and disposed below the leaving part A fuse-type sprinkler including a heat sensing unit coupled to the detaching unit and a deflector disposed inside the frame and dispersing the water sprayed through the drain hole in a state in which the heat sensing unit falls when the heat sensing unit is detached and over the locking jaw; In the head,
The heat sensing unit is provided with a first heat-sensitive plate around the lower end of the cylinder having a bent portion is formed to form an axial tube narrowing the inner diameter from the middle to the upper direction,
Along the inner circumference of the cylinder in a state of being disposed between the first heat-sensitive plate and the fuse piston flange relative to the flange of the fuse piston is inserted into the coupling groove of the cylinder and fastened to the leaving portion so that the cylinder can be fixed to the leaving portion. A fuse provided,
A fuse-type sprinkler head, characterized in that the structure is spaced in the vertical direction between the bent portion of the cylinder and the flange of the fuse piston.
A body which is fastened to a drain pipe and supplies water through a drain hole formed inside, a valve fitted with an upper end to a drain hole of the body, a frame accommodating the valve in a state fastened to the body, and having a locking jaw formed at a lower inner circumferential surface thereof; Supporting the lower end of the valve so that the upper end of the valve is inserted into the drain hole in the state of being caught on the locking jaw of the frame, and when the built-in fuse is melted by heat, it is separated from the lower part of the frame and disposed below the leaving part A fuse-type sprinkler including a heat sensing unit coupled to the detaching unit and a deflector disposed inside the frame and dispersing the water sprayed through the drain hole in a state in which the heat sensing unit falls when the heat sensing unit is detached and over the locking jaw; In the head,
The heat sensing unit is provided with a first heat-sensitive plate around the lower end of the cylinder having a bent portion is formed to form an axial tube narrowing the inner diameter from the middle to the upper direction,
A fuse inserted along the inner circumference of the cylinder tube in a state of being inserted between the upper outer surface of the fuse piston and the inner shaft tube of the cylinder inserted into the coupling groove of the cylinder so that the cylinder is fixed to the release portion;
A fuse-type sprinkler head, characterized in that formed in the vertical spaced apart between the bent portion of the cylinder and the flange of the fuse piston.

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