KR102192285B1 - a splinkler head for a melting fuse - Google Patents

Abstract

The present invention relates to a fuse-melting sprinkler head having a structure to spray fire extinguishing water by opening a drain port by melting a fuse by heat during initial fire extinguishing.
In particular, when the balancer descends due to melting of the fuse, the drain port is ultimately opened quickly to effectively extinguish the initial fire, and at the same time, the fuse is cooled by the extinguishing water before the drain port is completely opened, and the drain port is not opened. It is trying to dramatically improve a fatal problem that has not been achieved.

Description

Fuse melting sprinkler head {a splinkler head for a melting fuse}

The present invention relates to a fuse melting sprinkler head to effectively extinguish an initial fire with a structure so that the initial fire extinguishing of a fire is effectively extinguished with a structure such that a drain port is opened by fuse melting by heat when a fire occurs and spraying water for extinguishing.

The fuse melting type sprinkler head is installed on the ceiling of the living space with product features that consider the aesthetics of the interior, so that the sprinkler head operates at the location where the fire heat is immediately detected as the fire heat is transferred in case of a fire to spray fire extinguishing water. It is installed and operated.

For this function, it is composed of a connector installed on a connector connected to a branch pipe of a firefighting pipe, a deflector hidden on the lower inner circumferential surface in peacetime by forming a support jaw inward on the lower inner circumferential surface and a heat sensing unit exposed to the outside.

In order to maintain airtightness at the drain of the connector, the upper side of the plunger, which has packing such as an O-ring or gasket, installed as an airtight device forms the bottom of the drain, and the body of this plunger is installed through the center of the deflector to deflect when spraying fire extinguishing water. Will form the bottom of.

On the other hand, when the fuse coupled to the heat sensing unit is melted by the heat of fire, when the balancer is lowered, the structure using the ring as a support forms a structure such that the ring is closed inward and the airtight device is released. This structure has a problem that the pulling speed is slow due to excessive frictional force in contact with the inclined surface of the balancer. To improve this, instead of a ring, to reduce friction, a number of balls are used as a support distributed in a circular shape like a ring.

These supports depend on the support jaws of the body to form the basis of the complete coupling structure of the sprinkler head. When the support is retracted, the hold, balancer, and heat sensing unit are separated and separated from the body by a barrel, and at the same time, the deflector and the flanger are lowered. The fire extinguishing structure is formed so that the discharge port of the connection port is opened so that the fire extinguishing water can be sprayed through deflect.

In such a conventional structure, the fuse of the heat sensing unit is melted and the fire extinguishing water, which is always under strong water pressure, leaks almost at the same time, and the cold soldering phenomenon continues to cool and hardens before the fuse is sufficiently melted. It is a reality that the fire has progressed and the structure is being re-injected by the fire that has already developed.

In the present invention, the molten fuse is hardened by the cold soldering phenomenon by the extinguishing water leaking out during the initial extinguishing period when a fire occurs, so that the flanger cannot be sufficiently lowered, and the discharge port is blocked to extinguish the fire, and only after raising the fire in this state. Fuses that are cooled by heat to fire extinguishing water are generally used even with fatal defects in which the exhaust port is completely opened after being melted by receiving a temperature much higher than the specified standard.

These molten fuse sprinkler heads are mainly of early reaction type and must meet the special requirements of extinguishing immediately in a low temperature state in case of fire. Nevertheless, the fact is that the fuse is partially melted at an early stage of its function, and soon becomes a cold soldering state, so it cannot perform its function. This is a conventional product that obscures the purpose and purpose of the early reaction.

Therefore, in order to solve such a fatal problem in the related art, the effect of cold soldering is minimized so that the plunger and deflect are lowered so that the outlet of the connector is sufficiently opened, so that the expected effect of the early reaction can be satisfied.

In the present invention, in the conventional structure, when the balancer descends due to the melting of the melting fuse by the heat sensing unit, the load of the balancer is simply light, so that the falling time of the balancer is relatively gradually lowered depending on the melting rate of the melting fuse. Even though the balancer does not sufficiently descend during the delayed time, a gap is opened in the airtight device of the outlet port, and the effect of cold soldering due to leakage of fire extinguishing water is minimized to solve the conventional problem.

To this end, an elastic body is inserted and installed like a spring washer between the hold and the balancer. This elastic body exerts a repulsive force up and down, and before the balancer descends a certain part, it relies on the balancer to support the hold to maintain airtightness, and at the same time, when the balancer starts to descend, the balancer is forced to resilience based on the hold. We try to solve it by constructing a structure that allows it to descend quickly by passing in person.

In this case, before the balancer descends due to melting of the melting fuse, the repulsive force of the contracted elastic body acts as a force to maintain the position by supporting the flanger upward, and at the same time, the repulsive force of the elastic body acts to lower the balancer intact. This is because the balancer and heat sensing unit promote separation and delay the time of the airtight device, but rather shorten the opening time with high completion of the outlet and minimize the effect of cold soldering on the melting fuse, which is the intrinsic purpose and function of an effective sprinkler head. It is possible to expect the most effective response to the initial extinguishing of a fire.

1 is a representative view of the present invention,
Figure 2 is a half cross-sectional view of another invention of the present invention,
Figure 3 is a half-sectional view of the reduction of parts of the present invention.
Figure 4 is a half sectional view of the operation step of the detachable portion by the metal ball support of the present invention.
Figure 5 is a half sectional view of the operation step of the detachable part by the spring support of the present invention.

In terms of the external shape of the fuse melting sprinkler, the upper head is connected to the supply pipe of the firefighting pipe, and the connection port 60 is formed with an outlet 61 inside, and the sprinkler head in the middle is annular in order to incorporate the operating device. The heat sensing unit 30 is divided into a body portion 10 formed with a support jaw 11 consisting of a protruding jaw facing toward the body, and consists of a heat-sensitive plate 31 at the bottom of the body and a melt-type fuse 32 bonded to the heat-sensitive plate. do.

On the other hand, if the internal components are classified, the operating device built into the body of the housing is configured to form a pressure structure with the lower end of the outlet by installing the packing 52 and the packing installed at the top to secure airtightness with the outlet of the connector. The airtight part 50 that forms a combined body with the flanger 70, which is a support for the pressure structure of the flanger and is located on the upper part of the detachable body 23 so that the support body 21 forms an internal structure, and the body It is installed on the upper part of the support jaw (11) of the support body (21) and the support body (21), which operates in a constricted structure when detached, by the compression of the mound structure of the detachable body when fixed and In the shape and structure of the detachable body 23 is configured to be combined and fixed over the support jaws of the body, and when the fuse is melted, the detachable body descends and the support body is composed of a detachable part 20 configured to collapse or fall off.

The packing constituting the airtight part is generally to use an O-ring (51b) or a plate ring (52b) having elasticity, and to install it, an installation groove (71) structure is formed in order to effectively insert the packing at the top of the flanger. In general, the O-ring has a C-shaped installation groove 71a on the side, and in the case of a plate ring, an installation structure of a convex-shaped installation groove 71b at the top of the flange is common. When a stronger connection is required, a screw connection structure is used. Based on this structure, a packing is inserted between the lower end of the outlet of the connector and the upper end of the flanger to form an airtight portion with a pressure-coupled structure.

As for the support 21 constituting the detachable part 20, it is common to use a circular spring 21a having one side cut off or a plurality of small metal balls 21b distributed in a circular manner. Of course, the metal ball is used by configuring the hold (22a) formed with a guide groove for efficient placement and movement of the ball. Both of the upper supports must form an open shape when fixed with the support jaws of the body, and form a structure that is closed when separated from the support jaws of the body. As shown in Fig. 5, the spring is closed, combined with the upper part of the detachable body, and descends into a union, but as shown in Fig. 4, the metal ball exits the space between the hold and the detachable body and descends separately. It is based on the same core structure in which the shape is opened and fixed, and is closed and separated.

The origin of the operation so that the detachable part is disassembled as above is when the detachable body supported by the fuse in a solid state changes from a solid to a liquid state by the heat of the thermal plate 31 of the heat sensing unit and the detachable agent descends. The start of the sprinkler head is achieved by disassembling the detachable part, but the trigger of the operation is ultimately triggered by the fuse melting.

The heat sensing unit has a structure in which a solid fuse 32 that is melted by heat at a temperature above a certain temperature is installed on the upper side of the heat sensitive plate, and when the fuse is melted, the detachable body descends.

On the other hand, the deflector 40 built into the body is caught on the support jaw of the body when descending by the operation of the sprinkler head and a locking ring 41 provided with a locking jaw having a horizontal cross section or an a-shaped ring at the top, and the deflector plate 42 ) Can form a structure that allows the flanger to move up and down by fixing the flanger to the upper plate or forming a hole in the center of the base.

In particular, the present invention has a structure that shortens the response time to the fire as much as possible considering that the importance of early suppression in fire suppression is an absolute factor based on the above conventional structure, and is caused by a cold soldering phenomenon due to delay of the conventional fire reaction. In order to achieve a structure that minimizes the conventional problem of operating the additional incomplete operation after the fire has developed excessively, the structure of the detachable portion is improved and changed.

To this end, the structure of the detachable part 20 is formed of a coil spring made of a metal coil between the upper hold 22 and the lower detachable body 23, or a spring washer or elasticity that includes a plate ring having an elastic structure by forming an elastic structure. The solution is to be solved by inserting an elastic body 24 having recovery properties such as an elastic ring made of synthetic rubber as a material. Such an elastic body transmits a force that pushes the hold and the detachable body in opposite directions by means of an elastic force. Once the fuse melts from solid to liquid due to a fire, it forcibly diffuses the gap between the hold and the detachable body. First, the detachable body is lowered, and at the same time, the fixed position of the hold is maintained at a constant time to delay the time of water leakage from the outlet.

In this case, while the conventional detachable body has a structure in which the falling speed and reaction entirely dependent on its own weight is delayed, the present invention is forcibly received by the elastic body to allow it to fall quickly without delay, and in the prior art, it leaks with a time delay. While it was difficult to avoid the cold-solding phenomenon with the discharged fire extinguishing water, the present invention pushes the hold until the detachable body reaches a certain level even if the fuse melts, eventually delaying the time for the water to leak out and opening the outlet quickly. Eventually, it is possible to minimize the obstacles to digestion and suppression caused by cold salting.

In such a structure, when the spring is adopted as a support, the elastic body is installed so that the elastic body is located inside the circle formed by the spring, and in the structure where the support is distributed in a circle to form a support body with a plurality of metal balls, the elastic body is located inside the circle formed by these balls. Install it to do. In the above structure, the support and the elastic body are installed in the same layer between the hold and the detachable body. In general, a structure with a spring as a support as shown in Fig. 2 is easy to install a flanger on the deflect plate, and a structure with a metal ball as a support as shown in Fig. 2B is a hole formed in the center of the deflect plate. It is easy to install the ranger so that it penetrates.

On the other hand, if the deflector 4a is formed with the deflect lower part as the hold 22b as shown in Fig. 3a, the conventional independent part can be omitted. In this case, the flanger and The deflect has a fixed coupling relationship with each other and at the same time attempts to establish a coupling relationship with the detachable body and the heat-sensitive part. In addition, if the lower portion of the flanger is formed as a hold 22c as shown in Fig. 3b, in this case, the structure is installed through the center of the deflector, so the detachable part that forms a structure that allows the flanger to move up and down independently of the deflector. Will be configured. Of course, in the case of using a metal ball as a support, a guide groove 22a for a ball for insertion and movement of the ball is formed in the lower portion of the deflector and the flanger to replace them.

When this structure is achieved, the hold, which is a separate part, is omitted, thereby reducing the cost and assembly cost of the hold.

Body (10), detachable part (20), heat sensing part (30), deflect (40), airtight part (50), connector (60), flanger (70), elastic body (24), hold (22) , Support (21), detachable body (23), support jaw (11).

Claims (6)

The upper part is fastened to the fire fighting water supply pipe and a connector formed with a drain hole in the center; A body extending in a circular shape from the middle of the connector to form an outer housing and forming at least one annularly inwardly protruding support jaw at the inner lower end; An airtight portion composed of a circular packing member that forms an installation groove for packing in the upper end and is installed in close contact between the lower end of the connector outlet and the upper end of the flanger and a plunger for transmitting a pressing force to the packing; A sensing unit formed by a heat-sensitive plate exposed to the lower part of the body to detect fire heat and a fuse that is installed in close contact with the heat-sensitive plate and melted by heat; It is located on the upper side of the fuse and is installed to support the support. When the fuse melts, it is installed between the detachable body and the hold, which is installed between the detachable body and the hold, and the hold that fixes the support by combining with the detachable body and the detachable body that descends. A detachable portion consisting of a support body that is opened and fixed to the support jaw of the body; In the fuse melting sprinkler head consisting of a deflector that forms a locking jaw so as to span the support jaw of the body and disperses the fire extinguishing water at the outlet,
Fuse melting sprinkler head, characterized in that it consists of a detachable part consisting of an internally coupled elastic body with a circular ring-shaped elastic body with an elastic restoring force on the outside and between the hold and the detachable body and the holding and detachable body. . The upper part is fastened to the fire fighting water supply pipe and a connector formed with a drain hole in the center; A body extending in a circular shape from the middle of the connector to form an outer housing and forming at least one annularly inwardly protruding support jaw at the inner lower end; An airtight portion composed of a circular packing member that forms an installation groove for packing in the upper end and is installed in close contact between the lower end of the connector outlet and the upper end of the flanger and a plunger for transmitting a pressing force to the packing; A sensing unit formed by a heat-sensitive plate exposed to the lower part of the body to detect fire heat and a fuse that is installed in close contact with the heat-sensitive plate and melted by heat; It is located on the upper side of the fuse and is installed to support the support. When the fuse melts, it is installed between the detachable body and the hold, which is installed between the detachable body and the hold, and the hold that fixes the support by combining with the detachable body and the detachable body that descends. A detachable portion consisting of a support body that is opened and fixed to the support jaw of the body; In the fuse melting sprinkler head consisting of a deflector that forms a locking jaw so as to span the support jaw of the body and disperses the fire extinguishing water at the outlet,
A hold and a detachable body in which a plurality of ball guide grooves for installation and movement of the ball are distributed in a circular shape, and a support body in which a plurality of balls are distributed in the guide groove of the hold in a circular shape on the outside between the detachable body are installed. A fuse melting sprinkler head, characterized in that the inner side of the circular shape is composed of a detachable part in which an elastic body in a circular ring shape with elastic restoring force is internally coupled. The method of claim 1,

A fuse melting sprinkler head, characterized in that the lower surface of the deflector is held as a detachable part, and a flanger is installed on the upper surface of the deflector to connect and combine the flanger, the deflector, the attachable and detachable part, and the heat-sensitive part. The method of claim 1,
A fuse melting sprinkler head, characterized in that the lower surface of the flanger is formed as a hold to form a detachable part, and a structure that penetrates the groove formed in the center of the deflector is integrally connected to the detachable part and the heat-sensitive part. The method of claim 2,
A fuse melting sprinkler head, characterized in that the lower surface of the deflector is held as a detachable part, and a flanger is installed on the upper surface of the deflector to connect and combine the flanger, the deflector, the attachable and detachable part, and the heat-sensitive part. The method of claim 2,
A fuse melting sprinkler head, characterized in that the lower surface of the flanger is formed as a hold to form a detachable part, and a structure that penetrates the groove formed in the center of the deflector is integrally connected to the detachable part and the heat-sensitive part.

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