KR102126195B1 - folding up-type freeze and burst protection facility for fire-fighting piping of buildings - Google Patents

Abstract

The present invention relates to a fold type freeze prevention facility for a fire-fighting pipe of a building. The fold type freeze prevention facility for the fire-fighting pipe of the building of the present invention includes a freeze prevention control box, a left heat transfer panel, a right heat transfer panel, an energized connection terminal bar, and upper and lower end heating rods. The present invention has an effect of efficiently preventing freeze of the fire-fighting pipe.

Description

Folding up-type freeze and burst protection facility for fire-fighting piping of buildings}

The present invention relates to a folding type freeze prevention facility for fire fighting piping of buildings, and more specifically, it is folded and stored at one side during normal use, and then opened only when used to transmit heat to all sections of the fire fighting piping to effectively prevent freezing of the fire fighting piping. It relates to a folding type freeze prevention facility for fire fighting piping of buildings that can.

In general, a fire hydrant for connecting a fire hose is installed in the interior and exterior of the building in the event of a fire, and a water supply pipe for fire fighting is provided along the pillar or wall of the building to guide water in the water tank to the fire hydrant. In particular, in the case of high-rise buildings, water tanks are mainly installed on the roofs of buildings in order to ensure a smooth supply of water to a fire hydrant installed on each floor.

However, when the temperature drops below zero, as in winter, the water inside the fire water supply pipe freezes, or when the cold is severe, the fire water supply pipe freezes.

In the event of a fire in this state, there was a problem that the supply of water for firefighting would not be smoothly done, resulting in greater damage.

On the other hand, recently, in order to prevent freezing of the water supply pipe for fire fighting, there is a case where an electric heating wire is wired inside the water supply pipe for fire fighting. When electricity is supplied to the wired heating wire as described above, the heating wire is heated to increase the temperature inside the water supply pipe for fire fighting to prevent freezing of water. The heating wire that is wired inside the water supply pipe for firefighting is mainly used for wrapping with a synthetic resin or rubber coating.

However, since the coating of the heating wire wired inside the water supply pipe for firefighting is corroded when a predetermined time has elapsed, there has been a hassle that must be replaced every two years for safety. That is, there is a problem in that excessive input of manpower and cost is required due to the regular replacement of heating wires.

In order to solve this problem, "the water tank 110 installed on the roof of the building, the fire pipe 100 vertically piped while connected to the water supply pump, the top of the fire pipe 100 and the water tank 110 is connected The tank connecting pipe 510, a plurality of fire hydrants 120 provided for each floor of the building, and a connecting pipe 130 connecting the fire hydrants 120 to the fire pipes 100, respectively. In the prevention device, further comprising a circulation guide pipe 500 having a smaller diameter in parallel with the fire pipe 100, the upper end of the circulation guide pipe 500 is perpendicular to the tank connecting pipe 510 Is connected, the lower end is connected to the lower end of the fire pipe 100 in a state bent in a'b' shape; an upper check valve 520 is installed at the upper end of the circulation induction pipe 500 and a lower end at the lower end. Check valve 530 is installed at the top

Is operated to be opened only in the direction in which it flows toward the circulation induction pipe 500, and is configured to operate to be opened only in the direction discharged toward the fire pipe 100 at the bottom; A solenoid valve 540 that is electromagnetically open and closed is installed at the inlet of the water tank 110; The heating wire C is wound at a predetermined length outside the lower side of the circulation induction pipe 500, and the lead wire L drawn out from the heating wire C is a controller 550 provided inside the fire hydrant 120 installed on the first floor. Is connected with; The controller 550 is further provided with a timer 560, and a temperature sensor 570 is also installed to be configured to provide temperature information to the controller 550; The solenoid valve 540 is also electrically connected to the controller 550 so that the solenoid valve 540 is configured to lock when controlling the heating wire C with a timer 560; A local heater 600 is further installed at the upper end of the fire pipe 100 to configure the heating function to be dual, but the local heater 600 is formed in a'TT' shape and the lower end is provided in an open state. It includes a heated heater housing (610), the inside of the opened lower end is embedded with a heating wire (H) is sealed with a cap 620 of the same material, the heating wire (H) is built in the upper heating wire (H ) A heating controller 630 is installed in a partitioned state from the installation space, and a heating timer 660 is connected to the heating controller 630 to timingly control the operating time of the heating wire H, and the heater housing ( The top of 610) is closed with a cover 650, and a temperature measuring sensor 640 is installed on the top surface of the cover 650, so that the heating controller 630 is in accordance with the detected value of the temperature measuring sensor 640. It is configured to operate the heating wire (H); A lower portion of the fire pipe 100 further includes a discharge unit 700 that is divided into a part of the fire pipe 100 and connected by a screw-in type, but inside the fire pipe 100, high information (BOS) is integrated. The fixing bolt 720 penetrating the lower end of the bypass guide block 710 constituting the discharge unit 700 is formed through the molding, and is bolted through the center of the high information (BOS), and the bypass guide block 710 is formed in a'U' shape, a drain port 730 is formed on the opposite side of the opening, an external drain pipe 740 is connected to the drain port 730, and a drain valve is provided to the external drain pipe 740. (750) is installed, the fire protection pipe (100), the outer peripheral surface of the drain controller (760) is further installed, the drain controller (760) is provided with an external temperature detector (770) is configured to detect the external temperature, , Inside the drain controller 760, a timer is built in and configured to control timing, and a drain detection sensor 780 is installed in a part of the outer drain pipe 740 to determine whether there is drainage flowing through the outer drain pipe 740. It is configured to check, the drain controller (760) is connected to the drain valve (750) and the drain sensor (780) is electrically connected to the external temperature detector (770) when the detected temperature falls below zero drain valve ( 750) As the minute opening, the fire extinguishing piping freeze prevention device of the building is characterized in that it is configured to discharge the part of the extinguishing water inside the fire extinguishing pipe 100 so that the extinguishing water flows and does not freeze." Patent Registration No. 10-1707109 No. (2017.02.16. announcement) was launched.

However, such a conventional fire prevention device for fire fighting pipes is provided with an electric heating wire (C) outside the circulation induction pipe 500 while controlling with the controller 550 installed with the temperature sensor 570 while freezing the fire pipe 100. Although it prevented, only a portion of the fire pipe 100 can be prevented from being frozen by the heating wire C, and the fire pipe 100 in which the heating wire C is not installed is generated by the freezing, resulting in the freezing of the fire pipe 100 There was a problem that can not be prevented.

In addition, the installation and operation of the heating pipe (C) in the entire fire pipe (100) has a cost problem that requires a lot of fuel costs, such as installation and operating costs of electricity.

(Patent Document 001) (KR) Korean Patent Registration No. 10-1707109 (Announcement of Feb. 16, 2017)

The present invention is to solve the problems as described above, and in normal use, it is folded and stored on one side and then opened only when used to transmit heat to the entire section of the firefighting piping, so that the section for firefighting piping of buildings that can effectively prevent the freezing of the firefighting piping The purpose is to provide an anti-freezing facility.

The problem to be solved by the present invention is not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is a water tank installed on the roof of a building, a fire pipe which is vertically piped while being connected to a water pump, a tank connector connecting the top of the fire pipe and a water tank, and a building In the fire fighting freeze prevention device of a building having a plurality of fire hydrants provided for each floor of, and a connector for connecting each fire hydrant to each fire pipe,

It is a rectangular parallelepiped that is divided into front and rear sides at one end of the fire fighting piping and enclosed in the front and rear sides while surrounding the fire fighting piping. A pipe temperature sensor is formed to detect the pipe temperature on the outer surface of the fire pipe, and a power line is connected to the pipe temperature sensor. A freeze prevention control box in which a controller for supplying power to and supplying power to the heating power lines of the + and-poles connected to the power line is connected when the temperature transmitted by the power supply is below a set value;

A metal plate body having a rectangular thermal conductivity is formed in the center, and a heat transfer plate body having a "요" shaped contact element is formed in close contact with the fire pipe, and a right horizontal through hole is formed in a cylindrical shape on the upper right side of the heat transfer plate body. A left heat transfer panel having a top right heat transfer pipe horizontally fixed by welding, and a bottom left heat transfer pipe having a left horizontal tube through the inside of a cylindrical shape on the bottom left end;

A metal plate body having a rectangular thermal conductivity is formed in the center of the heat transfer plate body having a contact element having a "요" shape in close contact with the fire-fighting pipe, and a cylindrical shape is formed on the upper left side of the heat transfer plate body in a cylindrical shape. The upper left side heat pipe having the left horizontal through hole formed on the right horizontal through hole extension line is welded and fixed horizontally, and the lower right side cross section has a cylindrical shape and the right horizontal through hole formed on the left horizontal through hole extension line of the lower left side heat pipe inside. A lower right heat transfer panel having a right heat transfer panel welded and fixed horizontally;

The left and right side heat transfer panels are located at the front and rear side cross sections and the right and left side heat transfer panels, respectively. One side terminal hole is formed on the left horizontal tube through the extension line of the upper left side heat pipe of the panel, one side terminal ring is formed on the inner surface of one side terminal hole, and one side terminal ring is connected to the terminal line, and on the other end, the left side horizontal tube hole of the left side heat pipe of the left side heat transfer panel and the right side thermoelectric tube The other side terminal hole is formed on the right horizontal tube through the extension line on the right side of the lower right side heat transfer tube of the single panel, and the other side terminal ring is formed on the inner side of the other side terminal ring to be electrically connected to the left side heat transfer panel and the right side heat transfer panel. A front and rear side energizing connection terminal bar continuously forming energizing connections; And

The heating power wire and both ends are energized to generate heat, and a head portion is formed at one end, and one side terminal hole of the front-rear side conductive connection terminal bar and the upper right-hand heat pipe of the left heat transfer panel and the right horizontal tube hole and the upper end of the right heat transfer panel The left side heat pipe is inserted and rotated through the left side horizontal through hole to be fixed with a nut at the mating part of the other end, and the other side terminal hole of the front and rear side conducting connection terminal bar and the top right side heat pipe of the left side heat transfer panel and the right side horizontal through hole The upper left side heat pipe of the right side heat transfer panel is rotated and inserted through the left horizontal tube through the nut to the mating part of the other end and fixed to the nut at the other end. It has a feature that has an upper and lower end heating rod.

As described above, the present invention has an effect of effectively preventing the freezing of the fire fighting pipe by transferring heat to the entire section of the fire fighting pipe by folding it on one side and storing it only in normal use.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be performed by anyone having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

1 is an exploded perspective view showing a fastening form of a folding type freeze prevention facility for fire fighting piping of a building, which is an embodiment of the present invention;
Figure 2 is a combined perspective view showing the construction of the folding type freeze protection facility for fire fighting piping of an embodiment of the present invention,
Figure 3 is a plan view showing the construction of the folding type freeze prevention facility for fire fighting piping of an embodiment of the present invention,
Figure 4 is a side view showing the construction state of the construction of a folding type freeze prevention facility for fire fighting piping of an embodiment of the present invention,
Figure 5 is a perspective view showing the construction of the folding type freeze prevention facility for fire fighting piping of an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice. The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

In the drawings, parts not related to the description are omitted in order to clearly describe the present invention, and the same reference numerals are attached to the same or similar elements throughout the specification. The scope of rights of the present invention should not be interpreted as being limited by the embodiments described in the text, and since the embodiments can be variously modified and have various forms, the scope of rights of the present invention can realize technical ideas. It should be understood to include equivalents.

Throughout the specification of the present invention, when a part is “connected” to another part, this includes not only the case of “directly connecting”, but also “indirectly connecting” with other members interposed therebetween. Also, when a part is said to "include" a certain component, this means that other components may be further included rather than excluding other components, unless otherwise stated.

Terms used in the present invention are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. And should be interpreted as a concept.

In addition, the optional terms in the embodiments below are used to distinguish one component from other components, and the component is not limited by the terms. Hereinafter, in describing the present invention, detailed descriptions of related well-known technologies that may unnecessarily obscure the subject matter of the present invention are omitted.

The folding type freeze prevention facility for fire fighting piping of a building of the present invention includes a water tank (not shown) installed on the roof of a building, a fire pipe 60 vertically connected to a water pump, and a fire pipe 60 A tank connecting pipe (not shown) connecting the top of the water tank (not shown), a number of fire hydrants (not shown) provided for each floor of the building, and a fire pipe (60) for each fire hydrant (not shown) If the temperature detected by the tube temperature sensor (14) connected to the tube and the tube temperature sensor (14) is below the set value, the front and rear side energizing connecting bars (40, 40a) are used to connect the upper and lower heating rods (50, 50a). When it is above the operating well and installed, the freeze prevention control box 10, the right heat transfer panel 30, and the upper and lower ends of the heating rods 50 and 50a are continuously and axially connected to a plurality of the upper and lower ends, so that the fire pipe 60 The left side heat transfer panel 20 and the left side heat transfer panel 20, which are unfolded and used and stored in a folded state, radiate heat to the fire pipe 60 during operation of the top and bottom heat exchanger rods 50 and 50a, thereby extinguishing the fire pipe 60. The right heat transfer panel 30 to prevent freezing, and the front and rear side energizing connection terminal bars 40 and 40a which are electrically connected to the heating power lines 13 and 13a to connect and energize the power using a plurality of upper and lower end heating rods 50 and 50a. ), and is supplied with power by the front and rear side energizing connection terminal bars (40, 40a) to generate heat when energized, and is composed of upper and lower heating rods (50, 50a) that generate heat in the upper and lower parts of the fire pipe (60).

The freeze prevention control box 10 is a rectangular parallelepiped that is divided into front and rear sides at one end of the fire fighting pipe 60, and is coupled to the front and rear sides while surrounding the fire fighting pipe 60, thereby increasing the pipe temperature on the outer surface of the fire fighting pipe 60. If the sensing tube temperature sensor 14 is formed, the power line 12 is connected, and the temperature transmitted by the tube temperature sensor 14 is below a set value, the heating of the + and-poles connected to the power line 12 The power supply line 12 is supplied with power to the power supply lines 13 and 13a to energize the power supply line, and the controller 11 is returned to the home position when the setting is abnormal.

The left heat transfer panel 20 is a metal plate body having a rectangular heat conductivity, and a heat transfer plate body 21 having a “∩” shape of a contact element 21a that is in close contact with the fire pipe 60 is formed in the center. The upper right side heat pipe 22 having a right horizontal through hole 22a inside is cylindrically welded and fixed horizontally on the right upper end face of the heat transfer plate body 21, and a left horizontal through hole inside is cylindrical in the lower left section. The lower left heat transfer pipe 23 having 23a is horizontally fixed by welding.

The right side heat transfer panel 30 is a metal plate body having a rectangular thermal conductivity, and a heat transfer plate body 31 having a “∩” shape of a contact element 31a in which the fire pipe 60 is inserted and in close contact is formed at the center. The upper left heat transfer tube 32 having a left horizontal through hole 32a formed on an extension line of a right horizontal through hole 22a of the upper right heat transfer tube 22 in a cylindrical shape on the left upper end surface of the heat transfer plate body 31 This horizontal welding is fixed, and the lower right side heat transfer tube 33 has a right horizontal through hole 33a formed on an extension line of the left horizontal tube through hole 23a of the lower left heat exchange tube 23 in a cylindrical shape on the lower right end surface. Welded horizontally.

The front and rear side energizing connection terminal bars 40 and 40a are respectively located at the front and rear side cross-sections of the left heat transfer panel 20 and the front and rear side cross-sections of the right side heat transfer panel 30, thereby energizing and connecting power inside the non-conductor. A terminal connecting line 41 is formed, and at one end, the upper right heat pipe 22 of the left heat transfer panel 20 is a right horizontal tube through 22a and an upper left heat pipe 32 of the right heat transfer panel 30 is left horizontal tube through 32a ) One side terminal hole 42 is formed on the extension line, and one side terminal ring 42a which is electrically connected to the terminal connection line 41 is formed on the inside surface of the one side terminal hole 42, and the other end has a lower end of the left side heat transfer panel 20. The left side heat pipe 23, the left side horizontal through hole 23a and the right side right side heat transfer panel 33 of the right side heat transfer panel 30, the right side side through hole 33a extend, and the other side terminal hole 43 is formed and the other side terminal ring ( 43a) On the inner side, the terminal connecting wire 41 and the other terminal ring 43a, which is electrically connected, are formed to form continuous energizing connection in the longitudinal direction from the front and rear side cross-sections of the left and right heat transfer panels 20 and 30. .

The upper and lower end heating rods (50, 50a), the heating power wires (13, 13a) and both ends are energized and connected to the heat generating body, a head portion (51) is formed at one end, and the front and rear side energizing connection terminal bar ( 40, 40a) one side terminal hole 42 and the upper right side heat pipe 22 of the left heat transfer panel 20, the right horizontal through hole 22a and the upper left side heat pipe 32 of the right side heat transfer panel 30, left horizontal The through-hole 32a is rotatably inserted through and fixed to the mat fastening part 52 of the other end with a nut 52a, and the other terminal hole 43 of the front-rear side energized connection terminal bar 40, 40a And the left and right heat transfer panel (20) of the upper right heat transfer tube (22) right horizontal through hole (22a) and the upper left side heat transfer tube (32) of the right heat transfer panel (30) left horizontal through hole (32a) is inserted to enable rotation through By fastening and fastening to the mat fastening part 52 of the other end with a nut 52a, it is electrically connected to the heating power wires 13 and 13a of-and + poles through the front and rear side energizing connection terminal bars 40 and 40a. Fever

In the present invention, a plurality of left heat transfer panels 20 and right heat transfer panels 30 are normally freeze-controlled in the state in which the upper and lower ends are continuously axially coupled by the upper and lower end heating rods 50 and 50a. When folded and stored at one side and the temperature falls below zero, the user fires a plurality of left and right heat transfer panels 20 and right and left heat transfer panels 30 that are axially coupled to the upper and lower ends by upper and lower heating rods 50 and 50a. It is possible to effectively prevent the freezing of the fire fighting pipe 60 in winter by spreading the heat in the entire section of the fire fighting pipe 60 that can be opened in the longitudinal direction of the pipe 60.

The drawings attached to the present embodiment and the present specification merely show a part of the technical spirit included in the present invention, and can be easily inferred by those skilled in the art within the scope of the technical spirit included in the specification and the drawings of the present invention. It is apparent that all possible modifications and specific examples are included in the scope of the technical spirit of the present invention.

The scope of the present invention is indicated by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be interpreted to be included in the scope of the present invention.

10: Freeze prevention control box 11: Controller
12: Power line 13,13a: +Positive-pole heating power line
14: Pipe temperature sensor
20: left heat transfer panel 21: heat transfer plate body
21a: close contact part 22: upper right heating tube
22a: Right horizontal tube through 23: Lower left heat pipe
23a: Left horizontal through hole
30: right side heat transfer panel 31: heat transfer plate body
31a: close contact part 32: upper left heat transfer tube
32a: left horizontal through hole 33: bottom right heat transfer tube
33a: Right horizontal through hole
40, 40a: front and rear side energized connection terminal bar 41: terminal heat connection
42: one side terminal hole 42a: one side terminal ring
43: other terminal hole 43a: the other terminal ring
50, 50a: Upper and lower heating rod 51: Head
52: nut fastening portion 52a: nut
60: fire fighting piping

Claims (1)

A water tank installed on the roof of the building, a fire pipe 60 vertically piped while being connected to a water pump, a tank connector connecting the top of the fire pipe 60 and a water tank, and provided on each floor of the building In the fire fighting freeze prevention device of a building having a plurality of fire hydrants, and a connector for connecting each fire hydrant to the fire pipe (60),
A pipe temperature sensor 14 that detects the pipe temperature from the outer surface of the fire pipe 60 is a rectangular parallelepiped that is divided into front and rear sides at one end of the fire pipe 60 and wraps around the fire pipe 60 and is coupled to the front and rear sides. When the power line 12 is formed and the temperature transmitted by the tube temperature sensor 14 is less than or equal to the set value, the power line is connected to the + and-pole heating power lines 13 and 13a connected to the power line 12 A freezing control control box 10 in which a controller 11 for supplying power to the power supply 12 is formed;
A metal plate body having a rectangular thermal conductivity is formed in the center of the heat transfer plate body (21) having a contact element (21a) of the "∩" shape in which the fire pipe (60) is inserted and is in close contact with the upper right side of the heat transfer plate body (21) The upper right heat exchanger tube 22 having a right horizontal through hole 22a inside is cylindrically welded to the surface, and a lower left heat exchanger tube having a left horizontal through hole 23a inside in a cylindrical shape on the lower left side. 23) the left heat transfer panel 20 is fixed to the horizontal welding;
A metal plate body having a rectangular thermal conductivity is formed in the center of the heat transfer plate body 31 having a close contact portion 31a having a “∩” shape in which the fire pipe 60 is inserted and in close contact, and the top left side of the heat transfer plate body 31 On the surface, the upper left heat transfer tube 32 having a left horizontal through hole 32a formed on an extension line of the right horizontal through hole 22a of the upper right heat transfer tube 22 in a cylindrical shape is welded and fixed horizontally, and the lower right cross section. The right side heat transfer panel (33) having a right side horizontal through hole (33a) formed on an extension line of the left horizontal through hole (23a) of the bottom left side heat pipe (23) in a cylindrical shape is welded and fixed to the right side. 30);
The left and right heat transfer panels 20 are positioned on the front and rear side cross-sections of the left heat transfer panel 20 and the front and rear side cross-sections of the right side heat transfer panel 30, respectively. 20) the upper right side heat pipe 22, the right horizontal through hole 22a and the upper left side heat pipe 32 of the right side heat transfer panel 30, the left side horizontal through hole 32a extends, and one side terminal hole 42 is formed and one side On the inner surface of the terminal hole 42, one terminal ring 42a, which is electrically connected to the terminal connection line 41, is formed, and at the other end, the lower left side heat pipe 23 of the left side heat transfer panel 20, the left horizontal through hole 23a and the right side The lower right side heat pipe 33 of the thermal front panel 30 is formed with the other side terminal hole 43 formed on the right horizontal tube through hole 33a and is connected to the terminal connecting wire 41 on the inner surface of the other side terminal ring 43a. The other side terminal ring (43a) is formed, the left heat transfer panel 20 and the right heat transfer panel 30, the front and rear side energizing connection terminal bar (40, 40a) to form a continuous energizing connection in the longitudinal direction; And
The heating power wires 13, 13a and both ends are electrically connected to each other to generate heat, and a head portion 51 is formed at one end, and one side hole 42 of the front and rear side energizing connection terminal bars 40, 40a And the left and right heat transfer panel (20) of the upper right heat transfer tube (22) right horizontal through hole (22a) and the upper left side heat transfer tube (32) of the right heat transfer panel (30) left horizontal through hole (32a) is inserted to enable rotation through By fastening and fastening with the nut 52a to the mat fastening part 52 of the other end, the other end terminal hole 43 of the front and rear side energizing connection terminal bars 40 and 40a and the upper right side of the left heat transfer panel 20 Heat pipe 22, the right horizontal through hole (22a) and the upper left side heat transfer tube (32) of the right side heat transfer panel (30) can be pivotally inserted into the left horizontal tube through hole (32a) to the mating part (52) of the other end. The upper and lower heating rods (50, 50a) which are connected to the heating power wires (13, 13a) of the-and + poles through the front and rear side energizing connection terminal bars (40, 40a) while being fastened and fixed with the nuts (52a) are heated. Foldable freeze prevention facility for fire fighting piping of buildings, characterized by being equipped.

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