KR102066180B1 - Fire protction system - Google Patents

Abstract

The present invention relates to a fire prevention system which is implemented to quickly notify fire when the fire occurs in a building and to minimize damage to human life caused by flame or smoke generated by the fire. The fire prevention system includes a fire alarm transmitter for notifying a fire situation to the outside using light or sound when a fire detection signal is received from a fire detection sensor installed indoors.

Description

Fire protection system {FIRE PROTCTION SYSTEM}

The present invention relates to a fire protection system, and more particularly, to a fire protection system that is notified quickly when a fire occurs in the building, and to a fire protection system implemented to minimize the human injury caused by the fire or smoke caused by the fire will be.

In general, a fire alarm transmitter is installed so that power is input into a metal casing and an outgoing switch is provided on the outside so that an alarm bell sounds and an alarm light is turned on by the outgoing switch.

However, the conventional fire alarm transmitter is limited to a function of simply notifying the fact of fire through light and sound, and in addition, there is no function to help people evacuate, so in the dark scene after a fire occurs at night or on the nature of the scene. At times when the lights were turned off or at night, there was a dangerous situation because they could not find a passageway to evacuate.

In this case, a separate lighting device for guiding the evacuation route may be provided. However, since it is usually installed to be turned on by the general power of the building, there is a problem that it is not helpful to evacuate in case of power failure due to a fire. Lighting the lights with the power supply was not enough to induce people to evacuate in a safe direction.

In addition, the hose-type winger is used for the purpose of access control for safety or induction of people and vehicles at general work sites, but it is not used at fire sites because it does not have a function to induce human evacuation in case of emergency. Even though it was installed at some sites and used in a fire, it did not function to induce evacuation and did not work in conjunction with a fire alarm, so it was not helpful for evacuation in case of emergency.

Furthermore, in case of emergency evacuation due to power outage, explosion accident, leakage of dangerous goods, etc., there is no function of guiding or guiding the evacuation route in the dark. This was required.

In the meantime, the above-described background art is technical information possessed by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily known technology disclosed to the general public before the application of the present invention. .

Korean Utility Model Model No. 20-2000-0027190 Korean Utility Model Model No. 20-2009-0012619

One side of the present invention can be installed irrespective of the position of the wire protruding on the wall, do not need a punching work for connecting the wire, facilitate the wiring work, and combine the work separately so that the cover does not protrude to the body It is easy to proceed and looks aesthetically clean, and it provides a fire protection system that enables the replacement of the broken parts by reassembly of the installed inner plate in case of failure.

In addition, by actively and efficiently exchange the upper smoke and the lower smoke of the fire door in the place where the fire occurs, it provides a fire protection system that can minimize the human injury in the space.

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

Fire protection system according to an embodiment of the present invention, when the fire detection signal is received from a fire detection station installed in the room; a fire alarm transmitter to notify the outside of the fire situation using light or sound; includes.

In one embodiment, the fire alarm transmitter, the body is shaped like a housing; A plate-shaped cover connected to the front of the main body so as to be opened and closed; Receiving unit for receiving a fire detection signal from the fire detection line; A notification unit driven according to the notification control signal to notify the outside that a fire has occurred by using light or sound; And a system controller configured to generate a notification control signal for controlling driving of the transmitter and transmit the notification signal to the notification unit when the fire detection signal is received by the reception unit.

In one embodiment, the fire protection system according to an embodiment of the present invention, penetrated through the wall of the building, the ventilation amount is controlled in accordance with the output signal received from the system control unit to smoke in the space where the fire occurred Or it may further include an air conditioning apparatus for discharging to the outdoors.

In one embodiment, the air conditioning apparatus, the air inlet passages are formed through the wall of the building so that the air flows in and out between the indoor space and the outdoor space connecting the indoor space and the outdoor space; And a blower installed in an inner space of the air inlet passage and configured to introduce air into or discharge air from an indoor space or an outdoor space according to an output signal received from the system controller. Can be.

In one embodiment, the blowing unit, the first ventilation line is formed by at least one fan is installed in a row in the left and right direction connected to each other and individually operated by the output signal received from the system control unit; A second ventilation line installed below the first ventilation line and connected to each other in a horizontal direction and formed by at least one fan operated individually by an output signal received from the system control unit; And a third ventilation line installed at a lower side of the third ventilation line and connected to each other in a row in a horizontal direction and formed by at least one fan operated individually by an output signal received from the system control unit. It may include.

In one embodiment, the air blowing unit, the first space and the second ventilation line for the inlet or discharge of air by the first ventilation line in the space of the front end and the rear end of the first ventilation line and the second ventilation line. A first partition installed in an inner space of the air inflow passage so as to be separated into a second space for inflow or discharge of air by the air; And the air inlet passage so as to separate the spaces at the front end and the rear end of the second vent line and the third vent line into a third space for inflow or exhaust of air by the second space and the third vent line. The second partition is installed in the inner space of the; may further include.

In one embodiment, the air conditioning apparatus, the first measuring unit is installed at the inlet and outlet of the first space to measure the occurrence of fire or the concentration of smoke; A second measuring unit installed at an inlet and an outlet of the second space to measure whether a fire occurs or a concentration of smoke; And a third measuring unit installed at an inlet and an outlet of the third space to measure whether a fire occurs or a concentration of smoke.

In one embodiment, the system control unit reads whether the fire from the first measuring unit, the second measuring unit or the third measuring unit has occurred or the concentration of the smoke, and if it is read that the fire has occurred In order to prevent the smoke generated from filling the ceiling to the floor of the space, at the initial stage of the fire, only the first ventilation line is operated to move the smoke located above to the space where the fire does not occur through the first space. When the smoke flows through the second space even when the first ventilation line is operated, the second ventilation line is additionally operated together with the first ventilation line to supply the smoke to the first space and the air. The fire is discharged to the space where no fire is generated through the second space, and smoke is generated even when the first ventilation line and the second ventilation line are operated. When the gas flows through the third space, the third ventilation line is additionally operated together with the first ventilation line and the second ventilation line to cause smoke to flow through the first space, the second space, and the third space. It can be discharged into a space where no fire has occurred.

In one embodiment, the fire protection system according to an embodiment of the present invention, may further include a fire door is installed in the opening of the building to prevent the expansion or combustion of the fire.

In one embodiment, the fire door, the door frame is installed in the opening of the building; A door that is connected to the door frame so as to be rotatable and opens and closes an opening; A first ventilation unit installed at an upper part of the door and allowing air located at an upper side of the outdoor to pass through the door and into the room, or allowing air located at the upper side of the door to pass through the door and to flow out to the outside; And a second ventilation unit installed at a lower portion of the door and allowing air positioned at the lower side of the door to pass through the door and into the room, or allowing air positioned at the lower side of the door to pass through the door and to flow out to the outside. can do.

In one embodiment, the first ventilator, the indoor side of the upper opening formed in the upper portion of the door, the upper opening to open or allow the air to flow in or out through the door, or the air through the door A first opening / closing unit which blocks the upper opening so that inflow or outflow of the gas may be blocked; Is installed on the outdoor side of the upper opening, opening the upper opening to allow the air to flow in or out through the door, or blocking the upper opening to block the inflow or outflow of air through the door 2 opening and closing portion; And a blower installed between the first opening and closing portion and the second opening and closing portion and driven according to a driving control signal to allow the outdoor air to flow into the indoor air or the air to flow out of the indoor air. .

In one embodiment, the first opening and closing portion, the opening and closing frame is installed along the inner surface of the upper opening; A plurality of sliding grooves extending in up and down directions along both inner surfaces of the opening and closing frame and spaced apart from other sliding grooves in the front and rear directions; And shielding wings installed on the plurality of sliding grooves so as to be slidably movable in the up and down direction, and a wall for shielding the upper opening so as to block the inflow or outflow of air is provided on the upper side and the lower side. Can be.

In one embodiment, the shielding blade, one side and the other side is provided with a sliding bar connected to the sliding groove, respectively, sliding bar to move in the vertical direction along the sliding groove; An upper wing forming a wall which is connected to the upper side of the sliding bar so as to be rotatable in the front-rear direction; And a lower wing that forms a wall that is connected to the rear side of the sliding bar so as to be rotatable in the front-rear direction.

In one embodiment, the first opening and closing portion is installed on the upper side and the lower side of the opening and closing frame, and guides the upper side of the upper wing to rotate forward as the upper wing is lifted, or as the lower wing is lowered A rotation induction unit for inducing the lower side of the lower wing to rotate forward; And an elastic support unit installed at an upper side and a lower side of the rotation induction unit installed at an upper side thereof to absorb an impact generated between the upper wing or the lower wing and the rotation induction unit using an elastic force. It may further include.

In one embodiment, the rotation induction portion, extending from one side of the opening and closing frame to the other side, may form an inclined surface so that the upper wing or the lower wing can be rotated forward.

In one embodiment, the upper blade or the lower blade, may be provided with at least one wheel in the upper or lower portion to reduce the friction with the inclined surface of the rotation guide portion.

In one embodiment, the upper wing may be formed to be inclined so that the front and rear widths decrease as the lower portion facing the lower wing goes downward to prevent collision with the upper portion of the lower wing while rotating.

In one embodiment, the lower wing may be formed to be inclined so that the front and rear widths as the upper side facing the upper wing in the upper direction to prevent collision with the lower portion of the upper wing while rotating.

According to one aspect of the present invention described above, it is not necessary to drill a wire for connecting the wire, to facilitate the wiring work, and to separate the cover so that the cover does not protrude into the main body, the operation is easy to proceed and aesthetically clean, installed in case of failure It provides the effect of improving the work efficiency by removing the inner plate and replacing and replacing only broken parts.

In addition, the present invention by supplying the additional air volume required when opening the fire door by checking the fire door opening state, there is an effect that can prevent the formation of under differential pressure that can enter the smoke, when switching to the fire door closed state, immediately output By shortening the duration of transient peak differential pressure, it is possible to keep the evacuation route such as an attached room safe from smoke.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the scope apparent to those skilled in the art from the following description.

1 is a view showing a schematic configuration of a fire protection system according to an embodiment of the present invention.
2 and 3 are views showing a fire protection system according to another embodiment of the present invention.
4 is a view illustrating the blower of FIG. 3.
5 is a diagram illustrating a connection relationship between a first partition and a second partition.
6 is a view showing the elastic support of FIG.
7 to 11 are views showing the connection of the respective components of the elastic support of FIG.
12 is a view showing a fire protection system according to another embodiment of the present invention.
FIG. 13 is a view illustrating a first ventilation part of FIG. 12.
14 and 15 are views illustrating an embodiment of the first opening and closing part of FIG. 13.
FIG. 16 is a view showing the shield wing of FIG. 14.
17 is a view showing another embodiment of the first opening and closing part of FIG. 13.
It is a figure explaining the driving method of the shielding blade of FIG.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 is a view showing a schematic configuration of a fire protection system according to an embodiment of the present invention.

Referring to FIG. 1, a fire protection system according to an embodiment of the present invention includes a fire alarm transmitter 10.

The fire alarm transmitter 10 notifies the outside of the fire situation by using light or sound when a fire detection signal is received from a fire detection center (not shown in the drawing for convenience of description) installed indoors, the main body 11, A cover 12, a receiver 13, a notification unit 14, and a system controller 15 are included.

The main body 11 is manufactured in the shape of a housing | casing, is installed in the wall of a building, and the front opening part is opened and closed by the cover 12.

The cover 12 is connected to the front surface of the main body 11 so as to be openable and open to open and close the opening of the main body 11.

The receiving unit 13 receives a fire detection signal from the fire detection line, and transmits the received fire detection signal to the system control unit 15.

The notification unit 14 is driven according to the notification control signal transmitted from the system control unit 15 to inform the outside that a fire has occurred using the light 14a or the sound 14b.

When the fire detection signal is received by the receiver 13, the system controller 15 generates a notification control signal for controlling the driving of the transmitter and transmits the signal to the notification unit 14.

Fire protection system according to an embodiment of the present invention having the configuration as described above, do not need a punching work for connecting the wire, facilitate the wiring work, the work proceeds by combining separately so that the cover does not protrude to the body It is easy and aesthetically clean, and in case of failure, it is possible to improve the work efficiency by removing the installation inner plate and replacing and replacing only the failed parts.

2 and 3 are views showing a fire protection system according to another embodiment of the present invention.

2 and 3, a fire protection system according to another embodiment of the present invention includes a fire alarm transmitter 10 and an air conditioner 20. Here, since the fire alarm transmitter 10 is the same as the component of FIG. 1, the description is abbreviate | omitted.

The air conditioning apparatus 20 is installed to penetrate a wall of the building, and the air volume is controlled in accordance with an output signal received from the system controller 15 to discharge smoke in a space where a fire has occurred, indoors or outdoors, and an air inflow passage. 21 and a blower 22.

The air inflow passage 21 is formed through the wall of the building so that air can flow in and out between the indoor space and the outdoor space, thereby connecting the indoor space and the outdoor space, and a blower 22 is installed in the internal space.

The air blowing unit 22 is installed in the interior space of the air inflow passage 21, and each fan is driven in accordance with the output signal received from the system control unit 15 to introduce air in the direction of the indoor space or the outdoor space, Exhaust air from indoor or outdoor spaces.

Referring to FIG. 4, the air blowing unit 22 includes a first ventilation line 221, a second ventilation line 222, and a third ventilation line 223.

The first ventilation line 221 is formed by at least one fan arranged in rows in the left and right directions and connected to each other and individually operated by an output signal received from the system controller 15.

At least one second vent line 222 is installed at a lower side of the first vent line 221 and is connected to each other by being arranged in a left and right direction and operated individually by an output signal received from the system controller 15. It is formed by the above fan.

At least one third vent line 223 is installed below the third vent line 223 and is connected to each other by being arranged in a left and right direction and operated individually by an output signal received from the system controller 15. It is formed by the above fan.

The blower 22 may further include a first partition 224 and a second partition 225.

The first partition 224 may include a space at a front end and a rear end of the first vent line 221 and the second vent line 222 in order to introduce or discharge air into the air by the first vent line 221. 226 and the second ventilation line 222 is installed in the inner space of the air inlet passage 21 to be separated into the second space 227 for the inlet or outlet of the air.

In the second partition 225, the air at the front and rear ends of the second vent line 222 and the third vent line 223 is introduced into the air by the second space 227 and the third vent line 223. It is installed in the inner space of the air inlet passage 21 to be separated into the third space 228 for discharge.

The air conditioning apparatus 20 having the above-described configuration may further include a first measuring unit 23, a second measuring unit 24, and a third measuring unit 25 (see FIG. 3).

 The first measuring unit 23 is provided at the inlet and the outlet of the first space 226 to measure the occurrence of fire or the concentration of smoke.

The second measuring unit 24 is provided at the inlet and the outlet of the second space 227 to measure whether a fire has occurred or the concentration of smoke.

The third measuring unit 25 is provided at the inlet and the outlet of the third space 228 to measure the occurrence of fire or the concentration of smoke.

In one embodiment, the system control unit 15 reads the occurrence of the fire or the concentration of the smoke delivered from the first measuring unit 23, the second measuring unit 24 or the third measuring unit 25, If it is read that a fire has occurred, in order to prevent the smoke generated by the fire from filling up the floor to the floor of the space, only the first ventilation line 221 is operated at the beginning of the fire so that the smoke located above is first The air is discharged through the space 226 to the space where no fire is generated, and in the case of the operation of the first ventilation line 221, when the smoke flows through the second space 227, the first ventilation line 221 and In addition, the second ventilation line 222 is further operated to discharge the smoke through the first space 226 and the second space 227 into the space where no fire occurs, and the first ventilation line 221 and the second ventilation line 222. Smoke also passes through the third space 228 in the case of the operation of the ventilation line 222. In case of inflow, the third vent line 223 is further operated together with the first vent line 221 and the second vent line 222 to emit smoke to the first space 226, the second space 227, and the second vent line 222. The three spaces 228 may be discharged into a space where no fire has occurred.

That is, each of the ventilation lines, as shown in FIG. 2, controls the flow of air W1 flowing into or out of the first space 226 through the control of the first ventilation line 221, or the second ventilation line 221. Control the flow of air (W2) flowing into or out of the second space 227 through the control of the ventilation line 222, or flows into or into the third space 228 through the control of the third ventilation line 223 It is possible to control the flow (W3) of the air flowing out.

5 is a diagram illustrating a connection relationship between a first partition and a second partition.

Referring to FIG. 5, the first partition 224 and the second partition 225, an upper side of the first partition 224, and lower corners of the second partition 225, each of the first partition 224 may use elastic force. 224 or the elastic support 400 for supporting the second partition 225 is installed.

6 is a view showing the elastic support of FIG.

Referring to FIG. 6, the elastic support part 400 includes an upper plate 410, a case 420, and an upper plate support part 430.

The upper plate 410 supports a wall of the first partition 224, the second partition 225, or the air inflow passage 21, which is formed in a flat shape and seated on the upper side, and is supported by the upper plate support 430. .

The case 420 is spaced apart from the lower side of the upper plate 410 and forms an inner space for installing the upper plate support part 430.

The upper plate supporter 430 is installed in the inner space of the case 420, and an upper portion thereof is exposed to the upper side of the case 420 to support the upper plate 410 using elastic force.

The elastic support part 400 having the above-described configuration has a plurality of elastic support parts disposed between the first partition 224 and the second partition 225 in the internal space of the air inflow passage 21, and thus, the first elastic support part 400 uses the elastic force. By supporting the partition 224 and the second partition 225, even when deformation of the first partition 224 or the second partition 225 due to fire occurs, the first partition 224 and the second partition 225. ) Can not be damaged and maintain its shape stably.

7 to 11 are views showing the connection of the respective components of the elastic support of FIG.

Referring to FIG. 7, the upper plate support part 430 includes a first support part 431 and a plurality of second support parts 432a, 432b, 432c, and 432d.

The first support part 431 supports the center of the upper plate 410, and supplies the filling liquid to the plurality of second support parts 432a, 432b, 432c, and 432d as the upper plate 410 descends. .

The second support parts 432a, 432b, 432c, and 432d are respectively installed at the lower sides of the corners of the upper plate 410, and move upward and downward to support the corners of the upper plate 410 using elastic force, and the upper plate 410 As the) is lowered, movement in the vertical direction is braked by the filling liquid supplied from the first support part 431.

The upper plate support portion 430 having the above-described configuration efficiently supports the upper plate 410 using elastic force by using the first support portion 431 and the plurality of second support portions 432a, 432b, 432c, and 432d. can do.

The first support part 431 includes a first pivotal fastening part 4311, a first connecting ball 4312, a first support bar 4313, a filling liquid tank 4314, and a connection pipe 4315. .

As shown in FIG. 8, the first pivot fastening part 4311 is installed at the center portion of the lower surface of the upper plate 410, and forms a spherical inner space to connect the first connection balls 4312.

The first connecting ball 4312 is formed in a spherical shape corresponding to the shape of the internal space of the first pivot fastening portion 4311, is installed to be rotatable in the internal space of the first pivot fastening portion 4311, and the first Supported by a support bar 4313.

The first support bar 4313 extends from the lower portion of the first connecting ball 4312 to the inner space of the filling tank 4314 in a downward direction to support the first connecting ball 4312, and the upper plate 410. As it descends, it descends together and compresses the filling liquid contained in the filling liquid tank 4314 in the downward direction.

Filling tank 4314 is formed in a cylindrical shape is installed in the inner space of the case 420, the filling liquid is received in the sealed inner space, the lower portion of the first support bar 4313 is inserted into the inner space When the upper plate 410 is lowered, as the lower portion of the first support bar 4313 descends from the upper side of the inner space, the filling liquid is compressed to be supplied to the second support part 432 through the connecting pipe 4315.

At this time, the first support bar 4313 is a rubber corresponding to the shape of the inner space of the filling liquid tank 4314 so that the filling liquid contained in the inner space of the filling liquid tank 4314 can be compressed in the same manner as the driving method of the syringe. Packing material P may be formed on the lower side.

The connecting pipe 4315 extends from the lower part of the filling liquid tank 4314 to each of the second supporting portions 432a, 432b, 432c, and 432d to form a passage through which the filling liquid flows.

Hereinafter, the second support part 432 will be described.

The second support part 432 includes a second pivotal fastening part 4321, a second connection ball 4322, a second support bar 4323, an elastic support part 4324, and a lift adjusting part 4325.

As shown in FIG. 8, the second pivot fastening part 4321 is installed at a corner of the lower surface of the upper plate 410, and forms a spherical inner space to connect the second connection balls 4322.

The second connection ball 4322 is formed in a spherical shape corresponding to the shape of the internal space of the second pivotal fastening portion 4321, and is installed to be rotatable in the internal space of the second pivotal fastening portion 4321, and the second Supported by support bars 4323.

The second support bar 4323 extends from the lower portion of the second connection ball 4322 to the inner space of the case 420 in a downward direction to support the second connection ball 4322, and to the elastic support part 4324. Is supported.

The elastic support part 4324 is provided below the second support bar 4323 to support the second support bar 4323 in the inner space of the case 420 by using an elastic force.

The elevating adjustment part 4325 is formed in the shape of a circular tube that forms the through hole 4325h in the vertical direction, and the second support bar 4323 is inserted into the through hole 4325h, and the upper plate 410 is lowered. In this case, as the filling liquid is supplied to the internal space through the connecting pipe 4315 and expanded, the size of the through hole 4325h is reduced to fasten the second support bar 4323 not to move.

In one embodiment, the elevating control unit 4325 has an outer wall 4325o to expand in the inward direction in which the through hole 4325h is located as the filling liquid is supplied to the inner space as shown in FIG. 11. It may be formed of a hard material, and the inner side 4325i facing the second support bar 4323 may be formed of a material that can expand or contract.

The upper plate support part 430 having the above-described configuration supports the upper plate 410 by using the first support part 431 and the plurality of second support parts 432a, 432b, 432c, and 432d, and forms an elastic force. By using a plurality of second supports 432a, 432b, 432c, and 432d, each corner of the top plate 410 is basically supported, and the top plate 410 is an elastic force of each of the second supports 432a, 432b, 432c, and 432d. When the first support 431 is lowered by lowering the pressure, the filling solution contained in the first support 431 is compressed and supplied to each of the second support parts 432a, 432b, 432c, and 432d, which are being lowered together. Due to expansion due to the supply of the filling liquid, the lowering of each of the second supporting parts 432a, 432b, 432c, and 432d is prevented, and the lowering of the upper plate 410 is gradually increased.

That is, the upper plate 410 is initially supported using only the elastic force of each of the second support parts 432a, 432b, 432c, and 432d, but is supplied from the first support part 431 as the first support part 431 descends together. The downward driving of the upper plate 410 is reduced by adding up to a resistance value generated by the adhesion force due to the filling liquid.

12 is a view showing a fire protection system according to another embodiment of the present invention.

Referring to FIG. 12, a fire protection system according to another embodiment of the present invention includes a fire alarm transmitter 10, an air conditioning apparatus 20, and a fire door 30. Here, since the fire alarm transmitter 10 and the air conditioning apparatus 20 are the same as the component of FIG. 2, the description is abbreviate | omitted.

The fire door 30 is installed in the opening of the building to prevent the expansion or combustion of the fire, and includes a door frame 31, a door 32, a first ventilation unit 33, and a second ventilation unit 34. do.

The door frame 31 is provided in the opening part of a building, and is connected to the inner space so that the door 32 can be rotated by connecting means, such as a hinge or a hinge.

The door 32 is connected to the door frame 31 so that one side can be rotated, the opening and closing is opened, the first ventilating part 33 is installed at the upper part, and the second venting part 34 is provided at the lower part.

The first ventilation unit 33 is installed at the upper part of the door 32 and, as the output is controlled by the above-described system control unit 15, the door 32 is opened for air, flame or smoke located at the upper side of the outside. Air, flames or smoke passing through and introduced into the room or located above the room passes through the door 32 and flows out to the outside.

The second ventilation part 34 is installed at the lower part of the door 32, and as the output is controlled by the system control unit 15 described above, the door 32 is opened for air, flame or smoke located at the lower side of the outside. Air, flame or smoke that passes through and enters the room or located below the room passes through the door 32 and flows out.

The fire door 30 having the above-described configuration is also capable of minimizing human injury in the space by actively and efficiently exchanging the upper smoke and the lower smoke of the fire door where the fire is generated. Provides a control method for control equipment.

FIG. 13 is a view illustrating a first ventilation part of FIG. 12.

Referring to FIG. 13, the first ventilator 33 includes a first opening and closing portion 331, a second opening and closing portion 332, and a blower 333.

The first opening / closing part 331 is installed on the indoor side of the upper opening formed in the upper part of the door 32, and opens the upper opening so that air, flame or smoke can flow in or out through the door 32, or the door The upper opening is blocked so that the inflow or outflow of air, flame or smoke through (32) can be blocked.

The second opening / closing part 332 is installed on the outdoor side of the upper opening and opens the upper opening so that air, flame, or smoke can flow in or out through the door 32, or air, flame through the door 32. Or the upper opening is blocked so that the inflow or outflow of smoke can be blocked.

The air blowing unit 333 is provided with a ventilation means such as at least one fan, as shown in Figure 13, at least one is installed between the first opening and closing portion 331 and the second opening and closing portion 332, the system described above According to the driving control signal transmitted from the control unit 15, the ventilation means or the like is driven to inflow the outdoor air, flame or smoke into the room or outflow the indoor air, flame or smoke to the outside.

The first ventilator 33 having the above-described configuration usually improves aesthetics by covering the blower 333 using the first opening and closing portion 331 and the second opening and closing portion 332, and in case of fire or Only when ventilation is required, the air blower 333 may be exposed to the outside.

14 and 15 are views illustrating an embodiment of the first opening and closing part of FIG. 13.

14 and 15, the first opening / closing portion 331 according to an embodiment includes an opening / closing frame 3311, a plurality of sliding grooves 3312, and shielding vanes 3313.

The opening / closing frame 3311 is formed in a shape corresponding to the shape of the upper opening (for example, a square tunnel shape, etc.), is installed along the inner surface of the upper opening, and the sliding grooves 3312 are formed along both inner surfaces. It is formed and opened and closed by at least one shielding blade 3313.

The sliding grooves 3312a, 3312b, and 3312c extend upward and downward along both inner surfaces of the opening and closing frame 3311, and are spaced apart from other sliding grooves 3312a, 3312b, and 3312c in the front-rear direction, and each sliding groove Shielding blades 3313a, 3313b, and 3313c are connected to 3312a, 3312b, and 3312c.

The shielding blades 3313a, 3313b, and 3313c are installed in the sliding grooves 3312a, 3312b, and 3312c so as to be slidably moved in the vertical direction, respectively, and the upper portion to block inflow or outflow of air, flame, or smoke. Walls for shielding the openings are provided on the upper side and the lower side.

The first opening and closing portion 331 having the configuration as described above, the plurality of shielding vanes 3313a, 3313b, 3313c by moving the up and down direction under the control of the user by adjusting the degree of opening of the upper opening by air, flame or It is possible to control the amount of smoke or the flow of smoke.

That is, when the respective shielding vanes 3313a, 3313b, and 3313c are listed in the up-down direction without crossing each other, the upper opening will be completely blocked, but if each of the shielding vanes 3313a, 3313b, and 3313c intersect, The opening is the maximum opening.

FIG. 16 is a view showing the shield wing of FIG. 14.

Referring to FIG. 16, the shielding wing 3313 includes a sliding bar 33131, an upper wing 33132, and a lower wing 33133.

The sliding bar 33131 has one side and the other side connected to sliding grooves 3312 formed on one side and the other side of the inner side of the opening / closing frame 3311, respectively, and sliding in the vertical direction along the sliding grooves 3312. The upper wing 33132 is installed at the upper portion, and the lower wing 33133 is installed at the lower portion.

The upper blade 33132 forms a wall which is connected to the upper side of the sliding bar 33131 so as to be rotatable in the front-rear direction.

The lower blade 33133 forms a wall that is connected to the lower side of the sliding bar 33131 so as to be rotatable in the front-rear direction.

In one embodiment, the upper wing 33132 has a lower portion facing the lower wing 33133 in a downward direction to prevent the upper wing 33132 from colliding with the upper portion of the lower wing 33133 while rotating as shown in FIG. 18. The front and rear widths may be formed to be inclined.

In one embodiment, the lower wing 33133 is rotated as shown in FIG. 18 while the upper portion facing the upper wing 33132 goes upward in order to prevent the lower wing 33132 from colliding with the lower portion of the upper wing 33132. The front and rear widths may be formed to be inclined.

17 is a view showing another embodiment of the first opening and closing part of FIG. 13.

Referring to FIG. 10, the first opening and closing portion 331 according to another embodiment may include an opening and closing frame 3311, a plurality of sliding grooves 3312, a shielding blade 3313, a rotation induction part 3314, and an elastic support part 500. It includes. Here, since the opening / closing frame 3311, the plurality of sliding grooves 3312, and the shielding blades 3313 are the same as those of the components of FIG. 15, description thereof will be omitted.

The rotation induction part 3314 is provided at an upper side and a lower side of the opening / closing frame 3311, and guides the upper side of the upper wing 3132 to rotate forward as the upper wing 3132 is lifted, or the lower wing 3133 is moved. As it is lowered, the lower side of the lower wing 3133 is induced to rotate forward.

In one embodiment, the rotation induction part 3314 is installed to extend from one side of the opening and closing frame 3311 to the other side, the inclined surface (S) so that the upper wing 3132 or lower wing 3133 can be rotated forward. Can be formed.

In one embodiment, the upper wing 3132 or lower wing 3133 has at least one upper or lower portion to reduce friction with the inclined surface S of the rotation induction part 3314 as shown in FIG. 9. The wheel 33134 may be provided.

That is, when the shielding blade 3313 descends along the sliding groove 3312, when the lower blade 3133 meets the inclined surface S of the rotation induction part 3314, the shielding blade 3313 is rotated along the inclined surface S. In addition, when the shielding blade 3313 moves up and down along the sliding groove 3312, when the upper blade 3132 meets the inclined surface S of the rotation induction part 3314, the shielding blade 3313 rotates along the inclined surface S.

Accordingly, the shielding wing 3313 can be moved more upward or downward than the upper wing 3132 or the lower wing 3133 is fixedly installed to further improve the opening and closing degree of the upper opening. .

The elastic support part 500 is provided in the upper side and the lower side of the rotation induction part 3314 installed in the upper side and the lower side of the rotation induction part 3314 provided in the upper side, and uses the elastic force with the upper blade | wing 3132 or lower wing 3133, respectively. The shock generated between the rotation induction portions 3314 is absorbed.

The term '~' used in the above embodiments refers to software or a hardware component such as a field programmable gate array (FPGA) or an ASIC, and '~' plays a role. However, '~' is not meant to be limited to software or hardware. '~ Portion' may be configured to be in an addressable storage medium or may be configured to play one or more processors. Thus, as an example, '~' means components such as software components, object-oriented software components, class components, and task components, and processes, functions, properties, procedures, and the like. Subroutines, segments of program patent code, drivers, firmware, microcode, circuits, data, databases, data structures, tables, arrays, and variables.

The functionality provided within the components and 'parts' may be combined into a smaller number of components and 'parts' or separated from additional components and 'parts'.

In addition, the components and '~' may be implemented to play one or more CPUs in the device or secure multimedia card.

The above-described embodiments are for illustrative purposes, and those skilled in the art to which the above-described embodiments belong may easily change to other specific forms without changing the technical spirit or essential features of the above-described embodiments. I can understand. Therefore, it is to be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected by the present specification is represented by the following claims rather than the above description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

1: fire protection system
10: fire alarm transmitter
20: air conditioning system
30: fire door

Claims (2)

When the fire detection signal is received from the fire detection sensor installed in the room; a fire alarm transmitter for notifying the outside of the fire situation using light or sound; includes,
The fire alarm transmitter, the main body of the enclosure shape; A plate-shaped cover connected to the front of the main body so as to be opened and closed; Receiving unit for receiving a fire detection signal from the fire detection line; A notification unit driven according to the notification control signal to notify the outside that a fire has occurred by using light or sound; And a system controller configured to generate a notification control signal for controlling driving of the transmitter and transmit the notification signal to the notification unit when the fire detection signal is received by the receiver.
Is installed through the wall of the building, the air conditioning is controlled according to the output signal received from the system control unit air conditioning device for discharging the smoke in the space where the fire occurs, indoors or outdoors;
The air conditioning apparatus includes: an air inflow passage penetrating and formed through a wall of a building to allow air to flow in and out between an indoor space and an outdoor space, thereby connecting the indoor space and the outdoor space; And a blower installed in the interior space of the air inlet passage and configured to introduce air into the indoor space or the outdoor space or discharge the air from the indoor space or the outdoor space according to the output signal received from the system controller. ,
The blower may include: a first vent line formed by at least one fan arranged in rows in left and right directions and connected to each other and individually operated by an output signal received from the system controller; A second ventilation line installed below the first ventilation line and connected to each other in a horizontal direction and formed by at least one fan operated individually by an output signal received from the system control unit; And a third ventilation line installed at a lower side of the second ventilation line and connected to each other by forming a row in left and right directions and formed by at least one fan operated individually by an output signal received from the system controller. Include,
The blower may be configured to provide a space between the front and rear ends of the first and second ventilation lines and a first space for introducing or discharging air by the first ventilation line and the air by the second ventilation line. Or a first partition installed in an inner space of the air inflow passage so as to be separated into a second space for discharge; And the air inlet passage so as to separate the spaces at the front end and the rear end of the second vent line and the third vent line into a third space for inflow or exhaust of air by the second space and the third vent line. The second partition is installed in the inner space of the; further includes,
The air conditioning apparatus includes: a first measuring unit installed at an inlet and an outlet of the first space to measure whether a fire occurs or a concentration of smoke; A second measuring unit installed at an inlet and an outlet of the second space to measure whether a fire occurs or a concentration of smoke; And a third measuring unit installed at an inlet and an outlet of the third space to measure whether a fire occurs or a concentration of smoke.
The system controller reads whether or not a fire occurred from the first measuring unit, the second measuring unit, or the third measuring unit, or the concentration of the smoke, and when the fire is read, smoke generated by the fire In order to prevent the floor from being filled from the ceiling to the floor, only the first ventilation line is operated at the initial stage of the fire, and the smoke located at the upper side is discharged through the first space into a space where no fire has occurred. In the case of the operation of the first ventilation line, when the smoke flows through the second space, the second ventilation line is additionally operated together with the first ventilation line to transmit the smoke through the first space and the second space. The air is discharged into the space where no fire is generated, and smoke is also generated in the third space even when the first ventilation line and the second ventilation line are operated. In case of inflow of water, the third ventilation line is additionally operated together with the first ventilation line and the second ventilation line so that smoke is not generated through the first space, the second space, and the third space. To the space,
It further includes a fire door is installed in the opening of the building to prevent the expansion or combustion of the fire,
The fire door, the door frame is installed in the opening of the building; A door that is connected to the door frame so as to be rotatable and opens and closes an opening; A first ventilation unit installed at an upper part of the door and allowing air located at an upper side of the outdoor to pass through the door and into the room, or allowing air located at the upper side of the door to pass through the door and to flow out to the outside; And a second ventilation unit installed at a lower portion of the door and allowing air positioned at the lower side of the door to pass through the door and into the room, or allowing air positioned at the lower side of the door to pass through the door and to flow out to the outside. ,
The first ventilator may be installed at an indoor side of an upper opening formed at an upper portion of the door, and may open the upper opening to allow the air to flow in or out through the door, or the inflow or outflow of air through the door may be performed. A first opening / closing portion blocking the upper opening to be blocked; Is installed on the outdoor side of the upper opening, opening the upper opening to allow the air to flow in or out through the door, or blocking the upper opening to block the inflow or outflow of air through the door 2 opening and closing portion; And a blower installed between the first opening and closing portion and the second opening and closing portion and driven according to a driving control signal to allow the outdoor air to flow into the indoor air or the air to flow out of the indoor air.
The first opening and closing portion, the opening and closing frame is installed along the inner surface of the upper opening; A plurality of sliding grooves extending in up and down directions along both inner surfaces of the opening and closing frame and spaced apart from other sliding grooves in the front and rear directions; And shielding wings installed on the plurality of sliding grooves so as to be slidably movable in the up and down direction, and a wall for shielding the upper opening so as to block the inflow or outflow of air is provided on the upper side and the lower side. ,
The shielding blade, one side and the other side of the sliding bar is connected to the sliding groove, respectively, sliding bar for sliding in the vertical direction along the sliding groove; An upper wing forming a wall which is connected to the upper side of the sliding bar so as to be rotatable in the front-rear direction; And a lower wing forming a wall that is connected to the lower side of the sliding bar so as to be rotatable in the front-rear direction.
The first opening and closing part is installed on the upper side and the lower side of the opening and closing frame, and guides the upper side of the upper wing to rotate forward as the upper wing is lifted, or the lower side of the lower wing as the lower wing is lowered A rotation induction unit for inducing to rotate forward; And an elastic support unit installed at an upper side and a lower side of the rotation induction unit installed at an upper side thereof to absorb an impact generated between the upper wing or the lower wing and the rotation induction unit using an elastic force. More,
The rotation induction part extends from one side of the opening and closing frame to the other side, and forms an inclined surface so that the upper wing or the lower wing can be rotated forward.
The upper wing or the lower wing, at least one wheel on the upper or lower to reduce the friction with the inclined surface of the rotation induction portion,
The upper wing is formed to be inclined so that the front and rear widths are narrowed while the lower portion facing the lower wing goes downward to prevent collision with the upper portion of the lower wing while rotating.
And the lower wing is formed to be inclined so that the front and rear widths thereof become narrower while the upper part facing the upper wing goes upward in order to prevent the lower wing from colliding with the lower part of the upper wing. delete

Images