KR20220116878A - Side Wall Type Dry Pendant Sprinkler - Google Patents

Abstract

The present invention relates to a sidewall type dry pendant sprinkler with improved durability, which comprises: a housing assembly (202); a body assembly (204) coupled to a lower end of the housing assembly (202); a plunger unit (206) having a tube cap (109); a seat holder unit (208); and a frame assembly (210).

Description

Side Wall Type Dry Pendant Sprinkler

The present invention relates to a sidewall type dry pendant sprinkler, and more specifically, to a sidewall type dry pendant sprinkler, which is a dry pendant type installed on a wall in a place where there is a risk of freezing due to low outside temperature. A sidewall type dry dryer with improved durability to prevent corrosion during inflow, improve durability by using fusible alloy, increase the amount of fire water supplied to the sidewall type dry pendant sprinkler, and prevent vortex to supply and maintain a constant supply. It is about pendant sprinklers.

In general, in order for a fire to proceed continuously, an ignition source, oxygen, and a chain reaction with combustibles must exist, and any one of combustibles, an oxygen supply source, or a chain reaction, such as blocking the supply of oxygen or blocking the chain reaction of combustion If it can be removed, the fire can be extinguished. Based on this principle, fire-fighting equipment for extinguishing a fire at an early stage in case of a fire in various buildings or factories is installed and used in the protection object or protection area.

Existing fire extinguishing equipment directly sprays fire extinguishing water within the combustion range so that the object to be protected is cooled by the heat of evaporation of the fire extinguishing water, and at the same time, a water system that induces a suffocation effect around the object to be protected by the water vapor generated as the fire water evaporates. It can be roughly divided into fire extinguishing equipment and gas-based fire extinguishing equipment that uses inert gas as an extinguishing agent to maintain the concentration of oxygen within the combustion range at about 15% or less.

In the case of water-based fire extinguishing equipment and gas-based fire extinguishing equipment as described above, there are various types according to the type of place where the facility is installed or the type of protection object.

In the event of a fire, the fire extinguishing system transfers fire-fighting water or fire-fighting agent from a storage tank in which fire-fighting water or agent is stored at high pressure through a pipe, so that the fire-fighting water or agent is sprayed through the spray nozzle installed in the protection object or area to be protected. can be seen to be mostly the same.

Sidewall type dry pendant sprinklers installed inside buildings are widely used by spraying nozzles. In general, dry type (also called open type) and wet type (or sealed type) are used for spraying fire extinguishing water or chemical. also referred to as an expression).

Wet sidewall dry pendant sprinklers are mainly used in general homes, apartments, and shopping malls to prevent fires, and are filled with fire extinguishing water. As the so-called 'Cold Soldering' phenomenon appeared, a problem occurred that prevented the initial fire suppression.

In addition, the dry sidewall type dry pendant sprinkler (dry pendant type) is configured so that fire extinguishing water is ejected when the thermal plate is released by heat.

As a conventional dry fire extinguishing system, there is a "side wall type dry pendant sprinkler head" (Registration Office No. 0384962 for the Republic of Korea).

Such a conventional side wall type dry pendant sprinkler head had a problem that the inflow of fire extinguishing water was reduced by preventing the inflow of fire water because the coil spring was disposed below the inlet hole. There was a problem in that the inflow of fire extinguishing water was reduced as the water passage cross-section became smaller.

In addition, the conventional dry pendant sidewall type dry pendant sprinkler has a problem in that it is frozen in winter or easily damaged by the external environment by using a glass bulb, making it impossible to use the sidewall type dry pendant sprinkler.

Republic of Korea Registered Utility Model Publication No. 20-0384962 Republic of Korea Patent Publication No. 10-1943015

The present invention has been devised to solve the above problems, and the present invention eliminates the bottleneck caused by the vortex formation in the fire extinguishing water, and thereby interlocks the spring in the housing assembly with the seat holder unit to increase the amount of fire extinguishing water. An object of the present invention is to provide a sidewall type dry pendant sprinkler for excellently improving durability and handling by installing it as much as possible and attaching the fusible alloy to the head and installing it at the lower end.

An object of the present invention is to provide a sidewall type dry pendant sprinkler that maintains a constant flow rate of water at an inlet and thus can stably supply fire extinguishing water.

The present invention improves the durability and lifespan of the device and improves the operation performance by guiding the pipe socket of the sprinkler to move linearly, thereby preventing the occurrence of being caught inside during the upward movement of the pipe socket and moving it linearly. An object of the present invention is to provide a sidewall type dry pendant sprinkler for

An object of the present invention is to provide a sidewall type dry pendant sprinkler in which a glass frame type sprinkler and a flush type sprinkler are combined.

The present invention provides a sidewall type dry pendant sprinkler comprising a frame assembly (210) and a head assembly (212), wherein the head assembly is detached by the heat sensing of a heat-sensitive plate installed in the head assembly and a fire extinguishing liquid is sprayed,

a housing assembly 202 installed so that the extinguishing liquid is introduced through the channel hole 20 and supplied to the sidewall deflector 120; a body assembly 204 coupled to the lower end of the housing assembly 202; a plunger unit 206 installed inside the body assembly 204 and having a tube cap 109 for passing the digestive fluid; a seat holder unit 208 inserted and coupled to the upper end of the housing assembly 202 and configured to maintain a uniform flow rate when the extinguishing liquid passes and a constant injection speed when the extinguishing liquid is sprayed; and a frame assembly 210 coupled to an inner upper end of the housing assembly 202, wherein the housing assembly 202 includes: a cylindrical out pipe 102; The in-pipe 104 is coupled to the inner side of the out-pipe 102 and provided with a passage hole 20 through which the digestive fluid flows, and the head assembly 212 has a first heat-sensitive plate 138 and a second sensor. The heat plate 134 is coupled to detect heat when a fire occurs to sense that the extinguishing liquid is sprayed, and the seat holder unit 208 includes: a spring 112; a spring guide 111 coupled to the lower portion of the spring 112 to support the spring; a pipe socket 114 having a cylindrical shape; A seat holder 116 seated and coupled to the upper portion of the pipe socket 114 is provided so that the spring 112 is elastically resilient between the lower portion of the pipe socket 114 and the upper portion of the spring guide 111 . characterized by being

The pipe socket 114 is made of a cylindrical body 42, and an extension 44 having a predetermined inclination to stably supply the flow rate to the inner lower portion of the body 42 is formed, the body A pressing flange 49 protruding outwardly is formed in the middle portion of 42 , the spring 112 is coupled to the lower portion of the pressing flange 49 , and a hollow disk is formed in the lower portion of the spring 112 . A spring guide 111 of the shape is coupled and installed to elastically press the spring 112 , and a stopper protrusion 46 fixed to the upper surface of the in-pipe 104 of the housing assembly is provided on the outer lower end of the body 42 . ) is formed, and a coupling portion 48 is formed at the lower portion of the stopper protrusion 46 to be inserted and fixed in the coupling hole 21 of the in-pipe 104 .

The plunger unit 206 includes an upper body 41 and a lower body 43, and a cylindrical tube cap 109 having a pin hole 45 passing through the lower body 43 in the transverse direction; a fixing pin 39 inserted and fixed in the pin hole 45; The upper body 32 is fixed to the inner part of the lower body 43 by the fixing pin 39 , and the lower body 36 is coupled to the coupling hole 25 formed at the inner lower end of the lower body 106 . It is preferable to include the side wall plunger 108 installed to maintain watertightness, but to distribute and supply the extinguishing liquid flowing upward by the pressure into which the extinguishing liquid flows to the center and left and right sides.

The tube cap 109 is formed in a cylindrical shape, the upper body 41 having a seating portion 47 formed thereon and opened up and down; It extends under the upper body 41 and is formed to be branched into both sides and is composed of a lower body 43 having a pin hole 45 penetrating in the transverse direction, so that when the extinguishing liquid is supplied, it flows around the fixing pin 39 It is preferable that the extinguishing liquid is distributed and supplied.

As described above, the sidewall type dry pendant sprinkler of the present invention has an effect of excellently improving durability, has an excellent effect of management and maintenance due to convenient handling, and uniformly distributes the amount of fire extinguishing water supplied to the inside of the sidewall type dry pendant sprinkler. It has the effect of securing a wide range of fires that can be extinguished by supplying it stably, and it has the effect of quickly extinguishing the fire by increasing the amount of extinguishing liquid.

The present invention has the effect of improving the durability of the device by preventing pinching of the pipe socket, extending the lifespan, and excellently improving the operating performance.

1 is a perspective view showing the structure of a sidewall type dry pendant sprinkler of the present invention;
Figure 2 is an assembly cross-sectional view showing the structure of the side wall type dry pendant sprinkler of the present invention;
Figure 3 is an overall exploded cross-sectional view showing the structure of the sidewall type dry pendant sprinkler of the present invention;
Figure 4 is a partial exploded cross-sectional view showing the structure of the side wall type dry pendant sprinkler of the present invention
5 is an exploded perspective view showing the structure of a sidewall type dry pendant sprinkler of the present invention;
6 is an exploded perspective view showing the structure of the plunger unit of the present invention;
7 is an exploded perspective view showing the structure of the seat holder unit of the present invention;
8 is an exploded perspective view showing the structure of the head assembly of the present invention;
9 is a state diagram showing the operation of the sprinkler of the present invention
10 is a state diagram showing the operation of the plunger unit of the present invention
11 is a cross-sectional view showing the structure of a pipe socket of another embodiment of the sprinkler of the present invention;
12 is an enlarged view showing the operation of the sprinkler pipe socket of the present invention
13 is an assembly cross-sectional view showing the structure of a sidewall type dry pendant sprinkler according to another embodiment of the present invention;
14 is an overall exploded cross-sectional view showing the structure of a sidewall type dry pendant sprinkler according to another embodiment of the present invention;
15 is a partially exploded cross-sectional view showing the structure of a sidewall type dry pendant sprinkler according to another embodiment of the present invention;

In describing the specific embodiments below, various specific contents have been prepared to more specifically explain and help the understanding of the invention. However, a reader having enough knowledge in this field to understand the present invention may recognize that it can be used without these various specific details. In some cases, it is mentioned in advance that parts which are commonly known and not largely related to the invention in describing the invention are not described in order to avoid confusion in describing the invention.

The present invention provides a sidewall type dry pendant sprinkler comprising a frame assembly (210) and a head assembly (212), wherein the head assembly is detached by the heat sensing of a heat-sensitive plate installed in the head assembly and a fire extinguishing liquid is sprayed,

a housing assembly 202 installed so that the extinguishing liquid is introduced through the channel hole 20 and supplied to the sidewall deflector 120; a body assembly 204 coupled to the lower end of the housing assembly 202; a plunger unit 206 installed inside the body assembly 204 and having a tube cap 109 for passing the digestive fluid; a seat holder unit 208 inserted and coupled to the upper end of the housing assembly 202 and configured to maintain a uniform flow rate when the extinguishing liquid passes and a constant injection speed when the extinguishing liquid is sprayed; and a frame assembly 210 coupled to an inner upper end of the housing assembly 202, wherein the housing assembly 202 includes: a cylindrical out pipe 102; The in-pipe 104 is coupled to the inner side of the out-pipe 102 and provided with a passage hole 20 through which the digestive fluid flows, and the head assembly 212 has a first heat-sensitive plate 138 and a second sensor. The heat plate 134 is coupled to detect heat when a fire occurs to sense that the extinguishing liquid is sprayed, and the seat holder unit 208 includes: a spring 112; a spring guide 111 coupled to the lower portion of the spring 112 to support the spring; a pipe socket 114 having a cylindrical shape; A seat holder 116 seated and coupled to the upper portion of the pipe socket 114 is provided so that the spring 112 is elastically resilient between the lower portion of the pipe socket 114 and the upper portion of the spring guide 111 . characterized by being

The pipe socket 114 is made of a cylindrical body 42, and an extension 44 having a predetermined inclination to stably supply the flow rate to the inner lower portion of the body 42 is formed, the body A pressing flange 49 protruding outwardly is formed in the middle portion of 42 , the spring 112 is coupled to the lower portion of the pressing flange 49 , and a hollow disk is formed in the lower portion of the spring 112 . A spring guide 111 of the shape is coupled and installed to elastically press the spring 112 , and a stopper protrusion 46 fixed to the upper surface of the in-pipe 104 of the housing assembly is provided on the outer lower end of the body 42 . ) is formed, and a coupling portion 48 is formed at the lower portion of the stopper protrusion 46 to be inserted and fixed in the coupling hole 21 of the in-pipe 104 .

The plunger unit 206 includes an upper body 41 and a lower body 43, and a cylindrical tube cap 109 having a pin hole 45 passing through the lower body 43 in the transverse direction; a fixing pin 39 inserted and fixed in the pin hole 45; The upper body 32 is fixed to the inner part of the lower body 43 by the fixing pin 39 , and the lower body 36 is coupled to the coupling hole 25 formed at the inner lower end of the lower body 106 . It is preferable to include the side wall plunger 108 installed to maintain watertightness, but to distribute and supply the extinguishing liquid flowing upward by the pressure into which the extinguishing liquid flows to the center and left and right sides.

The tube cap 109 is formed in a cylindrical shape, the upper body 41 having a seating portion 47 formed thereon and opened up and down; It extends under the upper body 41 and is formed to be branched into both sides and is composed of a lower body 43 having a pin hole 45 penetrating in the transverse direction, so that when the extinguishing liquid is supplied, it flows around the fixing pin 39 It is preferable that the extinguishing liquid is distributed and supplied.

Hereinafter, a specific embodiment according to the sidewall type dry pendant sprinkler of the present invention will be described.

1 is a perspective view showing the structure of the sidewall type dry pendant sprinkler of the present invention, FIG. 2 is an assembled cross-sectional view showing the structure of the sidewall type dry pendant sprinkler of the present invention, and FIG. 3 is the structure of the sidewall type dry pendant sprinkler of the present invention It is a partial exploded cross-sectional view showing a, and FIG. 4 is an overall exploded cross-sectional view showing the structure of the sidewall type dry pendant sprinkler of the present invention.

5 is an exploded perspective view showing the structure of the sidewall type dry pendant sprinkler of the present invention, FIG. 6 is an exploded perspective view showing the structure of the plunger unit of the present invention, and FIG. 7 is an exploded perspective view showing the structure of the seat holder unit of the present invention It is an exploded perspective view, and FIG. 8 is an exploded perspective view showing the structure of the head assembly of the present invention.

In addition, Figure 9 is a state diagram showing the operation of the sprinkler of the present invention, Figure 10 is an operational state diagram showing the operation of the plunger unit of the present invention, Figure 11 is another embodiment of the sprinkler of the present invention showing the structure of a pipe socket It is a cross-sectional view, and Figure 12 is an enlarged view showing the operation of the sprinkler pipe socket of the present invention.

13 is an assembled cross-sectional view showing the structure of a sidewall type dry pendant sprinkler according to another embodiment of the present invention, and FIG. 14 is an overall exploded cross-sectional view showing the structure of a sidewall type dry pendant sprinkler according to another embodiment of the present invention. It is a partial exploded cross-sectional view showing the structure of a sidewall type dry pendant sprinkler of another embodiment of the present invention.

When the sidewall type dry pendant sprinkler of the present invention is described with reference to FIGS. 1 to 15, the sidewall type dry pendant sprinkler 100 of the present invention, as shown in FIGS. 1 to 2, includes a housing assembly 202 and , a body assembly 204 installed under the housing assembly 202 , a head assembly 212 installed at an upper end of the housing assembly 202 , and a frame assembly 210 installed while surrounding the head assembly 212 . includes

A body assembly 204 is coupled to a lower end of the housing assembly 202 , and a plunger unit 206 is inserted into an inner portion of the body assembly 204 .

The seat holder unit 208 is coupled and installed inside the upper end of the housing assembly 202, and the head assembly 212 is coupled and installed at the upper end of the housing assembly 202, preferably, the upper portion of the seat holder unit 208. do.

In addition, a frame assembly 210 for dispersing and dispersing the extinguishing liquid by the sidewall deflector 120 is installed on the outer side of the head assembly 212 .

In addition, the head assembly 212 includes a coupling unit 214 and a heat-sensitive plate unit 216 .

3 to 5, as shown in FIG. 3, a housing assembly 202 having a cylindrical shape is formed, and the housing assembly 202 is formed in a cylindrical shape. A pipe 102 and an in-pipe 104 coupled to the inside from the lower portion of the out-pipe 102 are provided.

The out pipe 102 is made of a cylindrical body 10, the inner portion is penetrated up and down, the inner lower portion is formed with a receiving portion 11, the inner upper portion is formed with a coupling portion 12, its lower end An annular body fastening portion 13 and a locking groove 14 are formed on the outer peripheral surface, and a locking jaw 15 is formed on the outer peripheral surface of the outer lower end thereof.

At this time, a spring fixing chuck 17 is formed on the inner circumferential surface located at the lower end of the coupling part 12 .

The body fastening part 13 is provided with an external thread and is fastened to the inner peripheral surface of the upper end of the body assembly 204 described above.

Further, a fastening part 16 is formed on the inner upper end inner circumferential surface of the body 10 , and a plurality of female threads are formed on the inner circumferential surface of the fastening part 16 , and the frame assembly 210 described above is inserted and fastened.

The in-pipe 104 is received and coupled to the receiving portion 11 formed on the inner side of the out-pipe 102 .

The in-pipe 104 is made of a cylindrical body 18, and a passage hole 20 is formed in the inner part to pass vertically through the digestive fluid, and a coupling hole 21 is formed in the inner upper end of the inner peripheral surface. have.

The lower end of the pipe socket 114 to be described later is coupled to the coupling hole 21 .

On the other hand, as described above, after the in-pipe 104 is coupled to the receiving part 11 of the out-pipe 102 and installed, the body assembly 204 is disposed on the outer periphery of the lower end of the out-pipe 102 of the housing assembly 202 . combined is installed.

The body assembly 204 includes a plunger unit 206 and a lower body 106, and the plunger unit 206 includes a side wall plunger 108, a tube cap 109, an O-ring 110 and a fixing pin ( 39) is provided.

The lower body 106 is made of a cylindrical body 22, a coupling hole 24 penetrating up and down is formed in an inner portion of the body 22, and a fastening part is formed at an inner upper end of the coupling hole 24. 26 is formed, a coupling protrusion 28 is formed at a lower end of the fastening part 26 , and a coupling protrusion 30 is formed at an upper end of the fastening part 26 .

In addition, a small-diameter coupling hole 25 is formed in the lower portion of the coupling hole 24 , and the lower end of the side wall plunger 108 is coupled to the coupling hole 25 .

A female thread is formed in the fastening part 26 , and the body fastening part 13 of the out pipe 102 is fastened and installed.

At this time, the engaging protrusion 15 of the out pipe 102 is coupled and fixed to the engaging projection 28 so as not to be pushed upward, and the engaging protrusion 30 is fitted into the engaging groove 14 and seated. .

The upper end of the sidewall plunger 108 is coupled to the coupling hole 24 of the lower body 106 .

The side wall plunger 108 of the plunger unit 206 is composed of a cylindrical upper body 32 and a lower body 36, and is located in the middle between the upper body 32 and the lower body 36. A disk-shaped flange portion 34 is formed.

In addition, a coupling groove 40 is formed in the lower portion of the lower body 36 so that an O-ring is coupled thereto.

The O-ring 110 is coupled to the coupling groove 40 of the side wall plunger 108 formed as described above to maintain the fluid tightness so that the fluid does not leak.

A pin hole 38 is formed in the upper body 32 to penetrate in the transverse direction.

A fixing pin 39 is fitted into the pin hole 38 , and the lower end of the tube cap 109 is connected to the fixing pin 39 , and is installed to rotate in the front and rear directions around the fixing pin 39 .

In addition, the tube cap 109 is composed of a cylindrical upper body 41 and a lower body 43 that is extended to the lower portion of the upper body 41 and is formed to be branched on both sides, and the lower body (43) A pin hole 45 is formed through the left and right sides, and a seating portion 47 is formed in the central inner portion of the upper body 41 .

It is preferable that the lower end of the in-pipe 104 is coupled and seated on the seating portion 47 .

In the body assembly 204 formed as described above, the plunger unit 206 is provided on the inner side of the body 22, and when the head assembly 212 is detached, the digestive fluid is pushed up and the opening of the lower body 43 is opened. It flows upward while passing in both directions, and the introduced extinguishing liquid is ejected upward through the passage hole 20 of the in-pipe 104 and collides with the sidewall deflector 120 of the frame assembly 210 to be described later and disperses while being dispersed. of the dispersion is carried out.

Next, a seat holder unit 208 is provided at the upper end of the out pipe 102 of the housing assembly 202, and the seat holder unit 208 is formed in the coupling hole 21 formed in the upper inner side of the in pipe 104. This is made to be fitted.

The seat holder unit 208 includes a spring guide 11 , a spring 112 , a pipe socket 114 , and a seat holder 116 .

The pipe socket 114 is made of a cylindrical body 42, an inner lower portion of the body 42 is formed with an extension 44 formed to penetrate up and down, and a stopper protrusion 46 is formed at the outer lower portion. is formed, and a coupling portion 48 is formed at a lower portion of the stopper protrusion 46 .

In addition, a pressing flange 49 is formed on the top of the stopper protrusion 46 so as to protrude outward.

The extension portion 44 is formed so as to extend downwardly from the inner middle portion of the body 42 and is extended to have a predetermined inclination.

At this time, it is preferable that the predetermined inclination formed in the extension part 44 is formed in the range of 1 to 5 degrees to appropriately reduce the flow rate and to prevent vibration or vibration at the same time. Because, when it is less than 1 degree, the incoming fire extinguishing liquid becomes smaller than the flow hole 20 of the in-pipe 104, so the flow is blocked or cut off as pressure is suddenly applied, and when it is wider than 3 degrees, the incoming fire extinguishing liquid suddenly Due to the smaller flow path, the orifice phenomenon is greatly generated, so that the control of the flow rate is incomplete, and vibration, vibration, and shock are generated.

A spring 112 is coupled to a lower portion of the pressure flange 49 , and the spring guide 111 is coupled to a lower portion of the spring 112 .

In this case, the spring guide 111 is fitted to the upper outer surface of the in-pipe 104 and is installed to be fixed to the spring fixing jaw 17 of the out-pipe 102 .

Then, the seat holder 116 is fixed to the upper end of the body 42 of the pipe socket 114 is coupled.

The seat holder 116 of the seat holder unit 208 is formed of a disk-shaped body 50, and a seating groove 52 is formed on the lower surface of the body 50 on the outer surface.

The upper surface of the body 42 is coupled to the seating groove 52 , and the body 50 of the seat holder 116 is fitted and fixed to cover the upper surface of the body 42 .

Subsequently, the frame assembly 210 is fastened to the fastening part 16 formed at the upper end of the out pipe 102 of the housing assembly 202 .

The frame assembly 210 includes a frame 118 made of a glass material, a sidewall deflector 120 , and a screw 122 .

The frame 118 is provided with a frame body 54 having an arcuate shape, and a screw hole 55 penetrating up and down and having a screw thread formed therein to enable fastening is provided at the upper center of the frame body 54 .

A cylindrical coupling body 57 is formed at the lower end of the frame body 54 , a coupling hole 56 is formed vertically through the inside of the frame body 54 , and a coupling part 58 is formed on the outer circumferential surface of the coupling body 57 . do.

A socket guide part 59 is formed on the inner side of the coupling body 57 .

The socket guide part 59 refers to the inner circumferential surface of the coupling hole 56 , and in this case, the socket side part 59 is formed to have a predetermined inclination (A).

The predetermined inclination A is preferably formed at 1 degree to 3 degrees, and when it is less than 1 degree, the pressure flange 49 of the pipe socket 114 is caught and the operation is not smooth, and more than 3 degrees When it is large, the pressure flange 49 of the pipe socket 114 flows to the left and right to generate noise due to vibration and decrease linearity.

That is, by giving a taper with a predetermined inclination (A), the pipe socket is prevented from being caught in the inner part during operation, and thereby serves as a guide to move in a linear motion during operation.

On the other hand, the outer peripheral end surface of the pressing flange 49 may be formed by being cut diagonally so as to be assembled parallel to the socket guide part 59 formed at the predetermined inclination A and slide along the inclined taper, at this time The inclined cross section is preferably made at the same angle as 1 degree to 3 degrees.

The fastening part 58 of the coupling body 57 formed as described above is fastened with the fastening part 16 formed inside the upper end of the above-described out pipe 102, and the fastening part 58 and the fastening part 16 are installed. It is installed in a male-female fastening method to maintain the same diameter. That is, the inner surface of the upper end of the out pipe 102 protrudes in the inner direction, and a groove is formed at the upper end of the fastening part of the coupling body 57, and the male and female fastening is made by fitting them as irregularities.

In addition, the sidewall deflector 120 is fastened to the upper portion of the frame 118 by a screw 122 , and the sidewall deflector 120 is sprayed while dispersing the extinguishing liquid flowing in through the channel hole 20 . For this purpose, a disc-shaped deflector body 60 is formed, and a side wall portion 64 formed by standing upright on one side of the deflector body 60 is formed, and the body 60 and the side wall portion 64 are formed. are connected and fixed to each other by a connecting portion 62 formed to be inclined.

The frame assembly 210 is installed to fix the head assembly 212, and the head assembly 212 detects heat and is installed to fix the head assembly 212 until the fusible alloy 140 melts and separates. do.

The head assembly 212 includes a coupling unit 214 and a heat-sensitive plate unit 216 .

The coupling unit 214 includes a row coupling 124 , a retaining ring 126 , and a top coupling 128 .

The heat-sensitive plate unit 216 includes a torsion spring 130 , a screw 132 , an insulating washer 134 , a first heat-sensitive plate 136 , and a second heat-sensitive plate 138 .

In addition, a fusible alloy 140 and a locking screw 142 that are installed on the first heat-sensitive plate 136 to be melted by a predetermined heat are provided.

The row coupling 124 is composed of a cylindrical upper body 66 and a lower body 68, and a flange portion formed to protrude in the outer circumferential direction in the middle of the upper body 66 and the lower body 68 ( 70) is made.

The central inner portions of the upper body 66 and the lower body 68 are formed to penetrate vertically, and a fastening hole 72 is formed in the inner center of the lower body 68 .

In addition, a ring support portion 74 is formed on the outer side of the upper surface of the flange portion 70 .

The ring support portion 74 is inclined to have a predetermined inclination in the outward direction.

The retaining ring 126 is placed on the ring support portion 74 of the row coupling 124 to support the lower portion, and the outer peripheral side has a coupling hole formed in the frame body 54 of the frame 118 described above. 56) is installed so as to be in close contact with the inner circumferential surface, and the top coupling 128, which will be described later, is made to press from the upper surface, thereby supporting, adhering, and pressurizing from three surfaces to maintain oil-tightness.

In addition, the top coupling 128 has a cylindrical body 76 is formed, and a flange portion 78 protruding outwardly is formed on the outer periphery of the lower end of the body 76 , A ring pressing portion 80 having a predetermined inclination inward is formed at the end, and a fastening hole 82 penetrating in the vertical direction is formed in the center.

The top coupling 128 is made to be positioned above the row coupling 124 and is coupled and installed by a screw to be described later.

The ring pressing part 80 maintains the oil-tightness by pressing and pressing the upper part of the retainer ring 126 in the upper direction, and is installed so that the efficiency is greatly improved by being in close contact with the ring support part 74 at the upper part and the lower part.

The torsion spring 130 is elastically installed to be positioned inside the frame 118 while being fitted to the outside of the top coupling 128 .

The screw 132 is for coupling the above-described top coupling 128 and the row coupling 124 , and the top coupling 128 is positioned above the row coupling 124 , the screw 132 is inserted and fastened into the fastening hole 82 of the top coupling 128 and the fastening hole 72 of the row coupling 124 .

The insulating washer 134 has a disk shape and is located on the upper surface of the top coupling 128 .

The second heat-sensitive plate 136 has a hat-shaped body 84, a disc-shaped pressing part 86 is formed outside the lower end of the body 84, and is convex upwardly inside the center. A coupling portion 88 is formed.

Preferably, the insulating washer 134 is inserted into the coupling part 88 .

The first heat-sensitive plate 138 has a bowl-shaped body 90 concavely formed in the central portion, and a screw coupling portion 92 is formed in the central portion of the body 90, and a fastening hole penetrating vertically. A 94 is formed to pass through the body 90 .

The fusible alloy 140 has a disk shape, is installed to be interpolated into the screw coupling portion 92 formed in the body 90 of the first heat-sensitive plate 138 , and is melted by heat.

The locking screw 142 is installed to fix the fusible alloy 140 after the interpolation of the fusible alloy 140 into the first heat-sensitive plate 138 , and is fastened to prevent the extinguishing liquid flowing through the passage hole 20 from leaking.

4 and 5 , the plunger unit 206 is inserted into the inner side to install the body assembly 204 , and the housing assembly 202 is inserted and installed inside the body assembly 204 .

At this time, it is preferable that the lower end of the in-pipe 104 of the housing assembly 202 is inserted and installed into the seating portion 47 of the tube cap 109 .

A seat holder unit 208 is coupled to the housing assembly 202 and fixed to the coupling hole 21 of the in-pipe 104 coupled to the inside of the out-pipe 102 .

It is preferable that a stepped portion is formed in the coupling hole 21 , and the lower surface of the pipe socket 114 of the seat holder unit 208 is fixed to the stepped portion so as not to fall downward, and the pipe socket 114 is fixed. ) of the coupling portion 48 is installed so as to be caught on the upper surface of the in-pipe 104, and is installed to prevent the separation to the lower portion.

A spring 112 is press-coupled to a lower portion of the pressure flange 49 protruding outward of the pipe socket 114 to elastically act, and a spring guide 111 is installed to a lower portion of the spring 112 by coupling. do.

The spring 112 is preferably an actuating spring that operates the seat holder unit 208, and reacts faster at the upper end than the existing state formed at the lower end to quickly separate the head so that the right fire extinguishing liquid can be sprayed in the event of a fire. will be.

In the case of the head without the spring 112 as described above, there is a problem in that the head assembly is caught on the glass frame during operation and an operation error occurs, but the spring 112 is strongly repulsed and the head assembly is strongly pushed and bounced off. is solved

In addition, the frame assembly 210 is fastened to the upper end of the housing assembly 202 . That is, the fastening part 58 formed on the frame body 54 of the frame assembly 210 is fastened to the fastening part 16 formed inside the upper end of the out pipe 102 .

In the sidewall type dry pendant sprinkler 100 installed as described above, the fusible alloy 140 installed on the first and second heat-sensitive plates 138 and 136 for sensing external heat in the event of a fire melts and falls by the heat, so that the head assembly 212 is released to the outside of the frame assembly 210 by the elasticity of the torsion spring 130, the coupling unit 214 pressing the seat holder unit 206 is released, and the coupling unit 214 is As soon as it is released, the pressing force acting on the seat holder 116 of the seat holder unit 208 disappears, and the fire extinguishing liquid moves left and right around the fixing pin 39 by the plunger unit 206 installed at the lower end of the housing assembly 202 . is branched in the direction, and the extinguishing liquid rises through the passage hole 20 and pushes up the seat holder unit 208, and at the same time, the spring 112 resiliently acts upward and pushes the seat holder 116 away. At the same time, it is emitted to the outside toward the sidewall deflector.

In addition, the extinguishing liquid emitted while pushing up the seat holder 116 collides with the sidewall deflector 120 provided in the frame assembly 210 to disperse spray.

6 to 8, first, Figure 6 is an exploded perspective view showing the structure of the plunger unit 206 of the present invention, the plunger unit 206 is installed in the body assembly 204 As a bar, the plunger unit 206 has a side wall plunger 108 is formed, an O-ring 110 is coupled to the lower end of the side wall plunger 108 to require airtightness and watertightness, and the body of the side wall plunger 108 ( 32), a fixing pin 39 is inserted in the transverse direction, and a tube cap 109 is coupled to rotate in the left and right direction as indicated by the arrow around the fixing pin 39, and the in-pipe 104 is In the state where the coupling is made from the top to the bottom, the digestive fluid flows in and rotates in either direction in either direction to open the inlet, and the side wall plunger 208 is rotated to one side and fixed to open, so the digestive fluid is supplied upward through the in-pipe. this is done

7 is an exploded perspective view showing the structure of the seat holder unit 208 of the present invention. The seat holder unit 208 coupled to the housing assembly 202 includes a spring guide 111, a spring 112, It includes a pipe socket 114 and a seat holder 116 , and the pipe socket 114 is installed by being fitted in the upper inner portion of the in-pipe 104 of the housing assembly 202 .

A stopper protrusion 46 and a coupling part 48 are formed outside the lower end of the body 42 of the pipe socket 114, and the coupling part 48 is connected to the coupling hole 21 of the in-pipe 104. It is inserted and installed so that the stepped portion of the stopper protrusion 46 is caught and fixed to the upper surface of the in-pipe 104 .

At this time, the seat holder 116 is coupled to the upper surface of the pipe socket 114 , and the seating groove 52 of the seat holder 116 is at the upper end of the through hole formed inside the body of the pipe socket 114 . fitting is joined

A spring 112 is compressed and installed so that the spring 112 is resilient upwardly at the lower portion of the pressure flange 49 protruding from the middle outer portion of the pipe socket 114, and the spring guide 111 is coupled to the lower portion of the spring 112. is installed to maintain the elastic pressing force of the spring 112 .

The spring 112 elastically installed in this way is in a pressurized state until the head assembly 212 is detached, and is made to rebound elastically upward as the head assembly is detached.

The pipe socket 114 is formed in the form of an orifice having a narrow diameter in the inlet portion to uniformly supply the extinguishing liquid introduced from the rear to the deflector and to prevent the flow rate from decreasing while passing through the body assembly, and is narrow in the tapered extension portion. It is formed to have a flow to the aperture.

Next, FIG. 8 is an exploded perspective view of the head assembly 212 of the present invention, in which first and second heat-sensitive plates 38 and 136 are installed to be coupled to the frame assembly 210 and to detect heat when a fire occurs. The head assembly 212 includes a coupling unit 214 and a heat-sensitive plate unit 216 .

The coupling unit 214 includes a row coupling 124 , a top coupling 128 coupled and installed on the top of the row coupling 124 , and seated on an upper surface of the row coupling 124 , and and a retainer ring 126 installed to be coupled to a lower surface of the top coupling 128 , wherein the retainer ring 126 is supported by a ring support portion 74 of the row coupling 124 , It is installed to require airtightness and watertightness while being pressed by the ring pressing portion 80 of the top coupling 128 .

In addition, a torsion spring 130 is installed on the outer side of the top coupling 128 .

The top coupling 128 and the row coupling 124 are fastened and fixed by means of a screw 132 , and an insulating washer 134 is mounted on an upper surface of the top coupling 128 to be installed.

Next, a heat-sensitive plate unit 216 is installed on the upper surface of the coupling unit 214 as described above. The heat-sensitive plate unit 216 includes a second heat-sensitive plate 136 and a first heat-sensitive plate 138 . and a fusible alloy 140 and a locking screw 142 .

The first heat-sensitive plate 138 is coupled to the upper portion of the second heat-sensitive plate 136 so as to be covered, and the insulating washer 134 is coupled and installed inside the lower inner side of the second heat-sensitive plate 136 .

A fusible alloy 140 is coupled and installed in the upper center of the first heat-sensitive plate 138 , and the fusible alloy 140 is pressed by a locking screw 142 .

The locking screw 142 is fastened to the center of the first and second heat-sensitive plates 138 and 136, and at the same time, the first and second heat-sensitive plates 138 and 136 are interlocked to operate. installed is preferred.

Next, Figure 9 is a state diagram showing the operation of the sprinkler of the present invention, Figure 10 is an operational state diagram showing the operation of the plunger unit of the present invention, Figure 11 is another embodiment of the sprinkler of the present invention showing the structure of a pipe socket It is a cross section.

As shown in FIG. 9, the sprinkler 100 of the present invention senses heat from the head 212, the head 212 is separated, the spring 112 is resilient and rises, and the seat holder unit 114 is pushed up. , by pulling the plunger unit 206, the extinguishing fluid is rapidly introduced into the housing assembly.

At this time, the plunger 108 of the plunger unit 206 is fixed by rotating in one direction, and the extinguishing liquid is discharged upward through the in-pipe 104 of the housing assembly.

The extinguishing liquid passes through the inside of the in-pipe and passes through the tapered lower extension 44 of the pipe socket 114 of the seat holder unit, increasing the speed and forming a vortex and exits.

As shown in FIG. 10 , in the plunger unit 206 , the plunger 108 and the tube cap 109 are connected by a fixing pin 39 , and the plunger 108 is connected to one side by the fixing pin 39 . As it rotates in the direction, it is opened and digestive juices flow in.

As shown in FIG. 11, the pipe socket 114 is formed in the form of an orifice having a narrow inlet diameter so as to uniformly supply the extinguishing liquid introduced from the rear to the deflector and prevent the flow rate from decreasing as it passes through the body assembly, It is formed to have a narrow aperture in the tapered extension 44 .

At this time, a plurality of orifice slits 53 are formed in the extension portion 44 of the narrow diameter portion of the upper end, and the orifice slit 53 passes through the extension portion 44 formed in a taper having a predetermined inclination and has a narrow diameter cylindrical shape. It is installed so that the extinguishing fluid discharged to the outside is sprayed at a uniform speed by the deflector by preventing the vortex that occurs when passing through the expansion part 44, speeding up the flow rate of the extinguishing fluid that has been slowed down as it passes through the body assembly, and giving straightness. .

12 is an enlarged view showing the operation of the pipe socket of the sprinkler according to the present invention. As the head assembly 212 is detached, the spring 112 installed in the lower part of the seat holder unit 208 is released and the pipe socket 114 is released. ) is pushed up.

The pipe socket 114 moves along the socket guide part 57 while resiliently protruding upward.

At this time, the pressure flange 49 of the pipe socket 114 is guided by the socket guide part 57 to advance and move according to a predetermined inclination, so that the pipe socket 114 is moved without being caught in the inner part, so that the operation is fast and smooth. this is done

As such, the socket guide portion 57 prevents the pipe socket 114 from being pinched, thereby improving the durability, lifespan, and operation performance of the sprinkler.

13 to 15, as shown in FIG. 13, a housing assembly 202 having a cylindrical shape is formed. The housing assembly 202 has a cylindrical shape. It has an out pipe 102 formed of , and an in pipe 104 coupled to the inside from the lower part of the out pipe 102 .

The out pipe 102 is made of a cylindrical body 10, the inner portion is penetrated up and down, the inner lower portion is formed with a receiving portion 11, the inner upper portion is formed with a coupling portion 12, its lower end An annular body fastening portion 13 and a locking groove 14 are formed on the outer peripheral surface, and a locking jaw 15 is formed on the outer peripheral surface of the outer lower end thereof.

At this time, a spring fixing chuck 17 is formed on the inner circumferential surface located at the lower end of the coupling part 12 .

The body fastening part 13 is provided with an external thread and is fastened to the inner peripheral surface of the upper end of the body assembly 204 described above.

Further, a fastening part 16 is formed on the inner upper end inner circumferential surface of the body 10 , and a plurality of female threads are formed on the inner circumferential surface of the fastening part 16 , and the frame assembly 210 described above is inserted and fastened.

The in-pipe 104 is received and coupled to the receiving portion 11 formed on the inner side of the out-pipe 102 .

The in-pipe 104 is made of a cylindrical body 18, and a passage hole 20 is formed in the inner part to pass vertically through the digestive fluid, and a coupling hole 21 is formed in the inner upper end of the inner peripheral surface. have.

The lower end of the pipe socket 114 to be described later is coupled to the coupling hole 21 .

On the other hand, as described above, after the in-pipe 104 is coupled to the receiving part 11 of the out-pipe 102 and installed, the body assembly 204 is disposed on the outer periphery of the lower end of the out-pipe 102 of the housing assembly 202 . combined is installed.

The body assembly 204 includes a plunger unit 206 and a lower body 106, and the plunger unit 206 includes a side wall plunger 108, a tube cap 109, an O-ring 110 and a fixing pin ( 39) is provided.

The lower body 106 is made of a cylindrical body 22, a coupling hole 24 penetrating up and down is formed in an inner portion of the body 22, and a fastening part is formed at an inner upper end of the coupling hole 24. 26 is formed, a coupling protrusion 28 is formed at a lower end of the fastening part 26 , and a coupling protrusion 30 is formed at an upper end of the fastening part 26 .

In addition, a small-diameter coupling hole 25 is formed in the lower portion of the coupling hole 24 , and the lower end of the side wall plunger 108 is coupled to the coupling hole 25 .

A female thread is formed in the fastening part 26 , and it is fastened with the body fastening part 13 of the out pipe 102 .

At this time, the engaging protrusion 15 of the out pipe 102 is coupled and fixed to the engaging projection 28 so as not to be pushed upward, and the engaging protrusion 30 is fitted into the engaging groove 14 and seated. .

The upper end of the sidewall plunger 108 is coupled to the coupling hole 24 of the lower body 106 .

The side wall plunger 108 of the plunger unit 206 is composed of a cylindrical upper body 32 and a lower body 36, and is located in the middle between the upper body 32 and the lower body 36. A disk-shaped flange portion 34 is formed.

In addition, a coupling groove 40 is formed in the lower portion of the lower body 36 so that an O-ring is coupled thereto.

The O-ring 110 is coupled to the coupling groove 40 of the side wall plunger 108 formed as described above to maintain the fluid tightness so that the fluid does not leak.

A pin hole 38 is formed in the upper body 32 to penetrate in the transverse direction.

A fixing pin 39 is fitted into the pin hole 38 , and the lower end of the tube cap 109 is connected to the fixing pin 39 , and is installed to rotate in the front and rear directions around the fixing pin 39 .

In addition, the tube cap 109 is composed of a cylindrical upper body 41 and a lower body 43 that is extended to the lower portion of the upper body 41 and is formed to be branched on both sides, and the lower body (43) A pin hole 45 is formed through the left and right sides, and a seating portion 47 is formed in the central inner portion of the upper body 41 .

It is preferable that the lower end of the in-pipe 104 is coupled and seated on the seating portion 47 .

In the body assembly 204 formed as described above, the plunger unit 206 is provided on the inner side of the body 22, and when the head assembly 212 is detached, the digestive fluid is pushed up and the opening of the lower body 43 is opened. It flows upward while passing in both directions, and the introduced extinguishing liquid is ejected upward through the passage hole 20 of the in-pipe 104 and collides with the sidewall deflector 120 of the frame assembly 210 to be described later and disperses while being dispersed. of dispersed dispersion is carried out.

Next, a seat holder unit 208 is provided at the upper end of the out pipe 102 of the housing assembly 202, and the seat holder unit 208 is formed in the coupling hole 21 formed in the upper inner side of the in pipe 104. This is made to be fitted.

The seat holder unit 208 includes a spring guide 11 , a spring 112 , a pipe socket 114 , and a seat holder 116 .

The pipe socket 114 is made of a cylindrical body 42, an inner lower portion of the body 42 is formed with an extension 44 formed to penetrate up and down, and a stopper protrusion 46 is formed at the outer lower portion. is formed, and a coupling portion 48 is formed at a lower portion of the stopper protrusion 46 .

In addition, a pressing flange 49 is formed on the top of the stopper protrusion 46 so as to protrude outward.

The extension portion 44 is formed so as to extend downwardly from the inner middle portion of the body 42 and is extended to have a predetermined inclination.

At this time, it is preferable that the predetermined inclination formed in the extension part 44 is formed in the range of 1 to 5 degrees to appropriately reduce the flow rate and to prevent vibration or vibration at the same time. Because, when it is less than 1 degree, the incoming fire extinguishing liquid becomes smaller than the flow hole 20 of the in-pipe 104, so the flow is blocked or cut off as pressure is suddenly applied, and when it is wider than 3 degrees, the incoming fire extinguishing liquid suddenly Due to the smaller flow path, the orifice phenomenon is greatly generated, so that the control of the flow rate is incomplete, and vibration, vibration, and shock are generated.

A spring 112 is coupled to a lower portion of the pressure flange 49 , and the spring guide 111 is coupled to a lower portion of the spring 112 .

In this case, the spring guide 111 is fitted to the upper outer surface of the in-pipe 104 and is installed to be fixed to the spring fixing jaw 17 of the out-pipe 102 .

Then, the seat holder 116 is fixed to the upper end of the body 42 of the pipe socket 114 is coupled.

The seat holder 116 of the seat holder unit 208 is formed of a disk-shaped body 50, and a seating groove 52 is formed on the lower surface of the body 50 on the outer surface.

The upper surface of the body 42 is coupled to the seating groove 52 , and the body 50 of the seat holder 116 is fitted and fixed to cover the upper surface of the body 42 .

Subsequently, the frame assembly 210 is fastened to the fastening part 16 formed at the upper end of the out pipe 102 of the housing assembly 202 .

The frame assembly 210 includes a frame 118 made of a glass material, a sidewall deflector 120 , and a screw 122 .

The frame 118 is provided with a frame body 54 having an arcuate shape, and a screw hole 55 penetrating up and down and having a screw thread formed therein to enable fastening is provided at the upper center of the frame body 54 .

A cylindrical coupling body 57 is formed at the lower end of the frame body 54 , a coupling hole 56 is formed vertically through the inside of the coupling body 57 , and a coupling part 58 is formed on the outer circumferential surface of the coupling body 57 . do.

The fastening part 58 of the coupling body 57 formed as described above is fastened with the fastening part 16 formed inside the upper end of the above-described out pipe 102, and the fastening part 58 and the fastening part 16 are installed. It is installed in a male-female fastening method to maintain the same diameter. That is, the inner surface of the upper end of the out pipe 102 protrudes in the inner direction, and a groove is formed at the upper end of the fastening part of the coupling body 57, and the male and female fastening is made by fitting them as irregularities.

In addition, the sidewall deflector 120 is fastened to the upper portion of the frame 118 by a screw 122 , and the sidewall deflector 120 is sprayed while dispersing the extinguishing liquid flowing in through the channel hole 20 . For this purpose, a disc-shaped deflector body 60 is formed, and a side wall portion 64 formed by standing upright on one side of the deflector body 60 is formed, and the body 60 and the side wall portion 64 are formed. are connected and fixed to each other by a connecting portion 62 formed to be inclined.

The frame assembly 210 is installed to fix the head assembly 212, and the head assembly 212 detects heat and is installed to fix the head assembly 212 until the fusible alloy 140 melts and separates. do.

The head assembly 212 includes a coupling unit 214 and a heat-sensitive plate unit 216 .

The coupling unit 214 includes a row coupling 124 , a retaining ring 126 , and a top coupling 128 .

The heat-sensitive plate unit 216 includes a torsion spring 130 , a screw 132 , an insulating washer 134 , a first heat-sensitive plate 136 , and a second heat-sensitive plate 138 .

In addition, a fusible alloy 140 and a locking screw 142 that are installed on the first heat-sensitive plate 136 to be melted by a predetermined heat are provided.

The row coupling 124 is composed of a cylindrical upper body 66 and a lower body 68, and a flange portion formed to protrude in the outer circumferential direction in the middle of the upper body 66 and the lower body 68 ( 70) is made.

The central inner portions of the upper body 66 and the lower body 68 are formed to penetrate vertically, and a fastening hole 72 is formed in the inner center of the lower body 68 .

In addition, a ring support portion 74 is formed on the outer side of the upper surface of the flange portion 70 .

The ring support portion 74 is inclined to have a predetermined inclination in the outward direction.

The retaining ring 126 is placed on the ring support portion 74 of the row coupling 124 to support the lower portion, and the outer peripheral side has a coupling hole formed in the frame body 54 of the frame 118 described above. 56) is installed so as to be in close contact with the inner circumferential surface, and the top coupling 128, which will be described later, is made to press from the upper surface, thereby supporting, adhering, and pressurizing from three surfaces to maintain oil-tightness.

In addition, the top coupling 128 has a cylindrical body 76 is formed, and a flange portion 78 protruding outwardly is formed on the outer periphery of the lower end of the body 76 , A ring pressing portion 80 having a predetermined inclination inward is formed at the end, and a fastening hole 82 penetrating in the vertical direction is formed in the center.

The top coupling 128 is made to be positioned above the row coupling 124 and is coupled and installed by a screw to be described later.

The ring pressing part 80 maintains the oil-tightness by pressing and pressing the upper part of the retainer ring 126 in the upper direction, and is installed so that the efficiency is greatly improved by being in close contact with the ring support part 74 at the upper part and the lower part.

The torsion spring 130 is elastically installed to be positioned inside the frame 118 while being fitted to the outside of the top coupling 128 .

The screw 132 is for coupling the above-described top coupling 128 and the row coupling 124 , and the top coupling 128 is positioned above the row coupling 124 , the screw 132 is inserted and fastened into the fastening hole 82 of the top coupling 128 and the fastening hole 72 of the row coupling 124 .

The insulating washer 134 has a disk shape and is located on the upper surface of the top coupling 128 .

The second heat-sensitive plate 136 has a hat-shaped body 84, a disc-shaped pressing part 86 is formed outside the lower end of the body 84, and is convex upwardly inside the center. A coupling portion 88 is formed.

Preferably, the insulating washer 134 is inserted into the coupling part 88 .

The first heat-sensitive plate 138 has a bowl-shaped body 90 concavely formed in the central portion, and a screw coupling portion 92 is formed in the central portion of the body 90, and a fastening hole penetrating vertically. A 94 is formed to pass through the body 90 .

The fusible alloy 140 has a disk shape, is installed to be interpolated into the screw coupling portion 92 formed in the body 90 of the first heat-sensitive plate 138 , and is melted by heat.

The locking screw 142 is installed to fix the fusible alloy 140 after the interpolation of the fusible alloy 140 into the first heat-sensitive plate 138 , and is fastened to prevent the extinguishing liquid flowing through the passage hole 20 from leaking.

14 and 15 , the plunger unit 206 is inserted into the inner side to install the body assembly 204 , and the housing assembly 202 is inserted and installed inside the body assembly 204 .

At this time, it is preferable that the lower end of the in-pipe 104 of the housing assembly 202 is inserted and installed into the seating portion 47 of the tube cap 109 .

A seat holder unit 208 is coupled to the housing assembly 202 and fixed to the coupling hole 21 of the in-pipe 104 coupled to the inside of the out-pipe 102 .

It is preferable that a stepped portion is formed in the coupling hole 21 , and the lower surface of the pipe socket 114 of the seat holder unit 208 is fixed to the stepped portion so as not to fall downward, and the pipe socket 114 is fixed. ) of the coupling portion 48 is installed so as to be caught on the upper surface of the in-pipe 104, and is installed to prevent the separation to the lower portion.

A spring 112 is press-coupled to a lower portion of the pressure flange 49 protruding outward of the pipe socket 114 to elastically act, and a spring guide 111 is installed to a lower portion of the spring 112 by coupling. do.

The spring 112 is preferably an actuating spring that operates the seat holder unit 208, and reacts faster at the upper end than the existing state formed at the lower end to quickly separate the head so that the right fire extinguishing liquid can be sprayed in the event of a fire. will be.

In addition, the frame assembly 210 is fastened to the upper end of the housing assembly 202 . That is, the fastening part 58 formed on the frame body 54 of the frame assembly 210 is fastened to the fastening part 16 formed inside the upper end of the out pipe 102 .

In the sidewall type dry pendant sprinkler 100 installed as described above, the fusible alloy 140 installed on the first and second heat-sensitive plates 138 and 136 for sensing external heat in the event of a fire melts and falls by the heat, so that the head assembly 212 is released to the outside of the frame assembly 210 by the elasticity of the torsion spring 130, the coupling unit 214 pressing the seat holder unit 206 is released, and the coupling unit 214 is As soon as it is released, the pressing force acting on the seat holder 116 of the seat holder unit 208 disappears, and the fire extinguishing liquid moves left and right around the fixing pin 39 by the plunger unit 206 installed at the lower end of the housing assembly 202 . is branched in the direction, and the extinguishing liquid rises through the passage hole 20 and pushes up the seat holder unit 208, and at the same time, the spring 112 resiliently acts upward and pushes the seat holder 116 away. At the same time, it is emitted to the outside toward the sidewall deflector.

In addition, the extinguishing liquid emitted while pushing up the seat holder 116 collides with the sidewall deflector 120 provided in the frame assembly 210 to disperse spray.

The present invention described as above is not limited to the preferred embodiment as described above, and it is common in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims of the present invention. Those of skill in the art will, of course, be able to implement variations in various materials and shapes, and such changes will be within the scope of the claims described as key elements of the present invention.

10,18,22,32,42: body 11: receiving part
12: coupling part 14: locking groove
16: fastening part 17: spring fixed jaw
20: flow hole 21: coupling hole
24,25: coupling hole 26: fastening part
28: coupling jaw 30: coupling protrusion
32: upper body 34: flange portion
36: lower body 38: pin hole
39: fixing pin
40: coupling groove 41: upper body
43: lower body 44: extended part
45: pin ball 46: stop projection
47: seating part 48: coupling part
49: pressurized flange 51: straight guide
52: seating groove 53: orifice slit
54: frame body 55: tapered part
56: coupling hole
58: fastening part 59: socket guide part
60: deflector body 62: connection part
64: side wall 66: upper body
68: lower body 70: flange portion
72: fastening hole 74: support part
76: body 78: flange portion
80: ring pressing part 82: fastening hole
84, 90: body 86: press
88: coupling part 92: screw coupling part
94: fastener
100: sprinkler 102: out pipe
104: in-pipe 106: lower body
108: side wall plunger 109: tube cap
110: O-ring 111: spring guide
112: spring 114: pipe socket
116: seat holder 118: frame
120: side wall deflector 122: screw
124: low coupling 126: retaining ring
128: top coupling 130: torsion spring
132: screw 134: insulation washer
136: second heat-sensitive plate 138: first heat-sensitive plate
140: fusible alloy 142: locking screw
202: housing assembly 204: body assembly
206: plunger unit 208: seat holder unit
210: frame assembly 212: head assembly
214: coupling unit 216: heat-sensitive plate unit

Claims (5)

A sidewall type dry pendant sprinkler comprising a frame assembly (210) and a head assembly (212), wherein the head assembly is detached by the heat sensing of a heat-sensitive plate installed in the head assembly and fire extinguishing liquid is sprayed, the sidewall type dry pendant sprinkler comprising:
a housing assembly 202 installed so that the extinguishing liquid is introduced through the channel hole 20 and supplied to the sidewall deflector 120;
a body assembly 204 coupled to the lower end of the housing assembly 202;
a plunger unit 206 installed inside the body assembly 204 and having a tube cap 109 for passing the digestive fluid;
a seat holder unit 208 inserted and coupled to the upper end of the housing assembly 202 and configured to maintain a uniform flow rate when the extinguishing liquid passes and a constant injection speed when the extinguishing liquid is sprayed;
Including a frame assembly 210 coupled to the upper inner portion of the housing assembly 202,
The housing assembly 202,
a cylindrical out pipe 102;
and an in-pipe 104 that is coupled to the inner side of the out-pipe 102 and has a passage hole 20 through which the extinguishing liquid flows,
A first heat-sensitive plate 138 and a second heat-sensitive plate 134 are coupled to the head assembly 212 to detect heat when a fire occurs to detect that a fire extinguishing liquid is sprayed;
The seat holder unit 208,
a spring 112;
a spring guide 111 coupled to the lower portion of the spring 112 to support the spring;
a pipe socket 114 having a cylindrical shape;
A seat holder 116 seated and coupled to the upper portion of the pipe socket 114 is provided so that the spring 112 is elastically resilient between the lower portion of the pipe socket 114 and the upper portion of the spring guide 111 . A sidewall type dry pendant sprinkler, characterized in that it becomes.
The method of claim 1,
The pipe socket 114 is,
Consisting of a cylindrical body 42, an extension 44 having a predetermined inclination is formed in the inner lower portion of the body 42 to stably supply a flow rate,
A pressing flange 49 protruding outwardly is formed in the middle of the body 42,
The spring 112 is coupled to the lower portion of the pressing flange 49 , and a hollow disk-shaped spring guide 111 is coupled to the lower portion of the spring 112 to elastically press the spring 112 . become,
A stopper protrusion 46 fixed to the upper surface of the in-pipe 104 of the housing assembly is formed on the lower outer portion of the body 42, and a coupling portion 48 is formed at the lower portion of the stopper protrusion 46 to form the in-pipe. Sidewall type dry pendant sprinkler, characterized in that it is inserted and fixed in the coupling hole (21) of (104).
The method of claim 1,
The plunger unit 206,
a cylindrical tube cap 109 comprising an upper body 41 and a lower body 43 and having a pin hole 45 passing through the lower body 43 in the transverse direction;
a fixing pin 39 inserted and fixed in the pin hole 45;
The upper body 32 is fixed to the inner part of the lower body 43 by the fixing pin 39 and the lower body 36 is coupled to the coupling hole 25 formed at the inner lower end of the lower body 106, a sidewall plunger (108) installed to maintain watertightness;
A sidewall type dry pendant sprinkler, characterized in that it is installed to distribute and supply the fire extinguishing liquid flowing in the upper direction to the center and left and right sides by the pressure of the extinguishing liquid flowing in.
The method of claim 1,
The tube cap 109,
an upper body 41 formed in a cylindrical shape, having a seating portion 47 formed thereon, and opened up and down;
It extends under the upper body 41 and is formed to be branched into both sides and is composed of a lower body 43 having a pin hole 45 penetrating in the transverse direction, so that when the extinguishing liquid is supplied, it flows around the fixing pin 39 A sidewall type dry pendant sprinkler, characterized in that the extinguishing liquid is distributed and supplied.
The method of claim 1,
The pipe socket 114 is,
an upper body 41 formed in a cylindrical shape, having a seating portion 47 formed thereon, and opened up and down;
It extends under the upper body 41 and is formed to be branched into both sides and is composed of a lower body 43 having a pin hole 45 penetrating in the transverse direction, so that when the extinguishing liquid is supplied, it flows around the fixing pin 39 A sidewall type dry pendant sprinkler, characterized in that the extinguishing liquid is distributed and supplied.

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