KR102115290B1 - The distributing board including an automatic fire extinguishing equipment which is bursted in case of fire - Google Patents

Abstract

A switchboard equipped with an automatic fire extinguishing device that ruptures in the event of a fire according to the present invention includes a square base plate installed on a ceiling inside the switchboard; A guide bar that is erected in a vertical direction as a cylindrical bar and is fixed to the four corners of the upper base plate, respectively; A lower base plate having four corners fixedly installed at a lower end of the guide shaft and having a first gas passing hole through which carbon dioxide gas or Haron gas is passed; A fire extinguishing gas storage tube sandwiched between the upper base plate and the lower base plate, with four corners fixed to each of the guide shafts, and filled with carbon dioxide gas or Haron gas for extinguishing a fire therein; A tube support plate installed at a lower portion of the fire suppression gas storage tube and having four corners penetrating and fixed to each of the guide shafts and supporting a bottom surface of the fire suppression gas storage tube; A cylindrical bar with threads on the outer circumferential surface, vertically positioned between the upper base plate and the lower base plate, and the upper and lower ends fixed to the center of the upper base plate and the center of the lower base plate, respectively Screw bar which is axially rotated and passes through the center of the fire suppression gas storage tube and the tube support plate; Rotation means for rotating the screw bar in a clockwise or counterclockwise direction according to a control signal from a central control unit; It is mounted between the upper base plate and the fire suppression gas storage tube, and the four corners are inserted into each of the guide shafts through bearings and slided in the vertical direction, and the center is screwed to the screw bar so that the screw bar is When the shaft is rotated in one direction, it moves in the lower direction of the screw bar, whereas when the screw bar is rotated in the other direction, it moves in the upper direction of the screw bar, and the vertical moving plate is equipped with spikes protruding downward in the lower surface; A temperature sensing module in which two or more are installed inside the switchboard to measure the internal temperature of the switchboard in real time; And a central control unit that rotates the screw bar in one direction by operating the rotating means if the internal temperature of the switchboard measured through the temperature sensing module exceeds a predetermined temperature, and the internal temperature of the switchboard is caused by the internal fire of the switchboard. When it becomes high, the temperature sensing module measures the internal temperature of the switchboard and transmits it to a central control unit, and the central control unit operates the rotating means when the internal temperature of the switchboard measured by the temperature sensing module exceeds a predetermined temperature. When the screw bar is rotated in one direction, and when the screw bar is rotated in one direction, the up and down moving plate descends on the screw bar, and the spike integrally combined with the up and down moving plate pierces the fire suppression gas storage tube to extinguish the fire. The hole in the gas storage tube causes the carbon dioxide gas or Haron gas filled in the fire suppression gas storage tube to extinguish the fire inside the switchboard.

Description

The distributing board including an automatic fire extinguishing equipment which is bursted in case of fire}

The present invention relates to a switchboard equipped with an automatic fire extinguishing device that ruptures in the event of fire, and more specifically, to automatically extinguish a fire generated inside the switchboard by automatically rupturing the fire extinguishing container containing the fire suppression material in the event of a fire inside the switchboard. It relates to a switchboard equipped with an automatic fire extinguishing device that ruptures in the event of a fire.

소화기를 비치하거나, 전기실 천장에 화재 발생시 작동되는 하론 소화 설비나

소화 설비, 또는 청정 소화 설비를 설치하여 화재를 조기에 진화하고자 하였다.In general, electric rooms installed in power plants, substations, factories, or buildings, etc., around the switchboard to extinguish the fire.

Fire extinguishers, or fire extinguishers that operate in the event of a fire in the ceiling of the electrical room or

A fire extinguishing facility or a clean extinguishing facility was installed to extinguish the fire early.

In the switchboard or panel, various electrical components or wirings are complicatedly intertwined, and thus, there is a possibility that short circuits due to overcurrent or overheating occur in the switchboard, and there is a problem that a large fire may occur during internal ignition.

소화기를 통해 화재를 진압하기에는 한계가 있었고, 전기 설비 관리 인원이 부재중일 경우에는 사람의 손에 의해 조작되는

소화기가 무용지물이 될 수 있다는 문제점이 있었다.However, after the fire inside the electric room has spread greatly,

There was a limit to extinguish a fire through a fire extinguisher, and if there were no personnel in charge of managing electrical facilities, it was operated by human hands.

There was a problem that the fire extinguisher could be useless.

In addition, even if the fire extinguishing facility installed on the ceiling of the electric room is in operation, the switchboard is already burned, and there is a problem that the fire inside the switchboard cannot be completely extinguished by spraying extinguishing material from the outside.

가스가 충전된 인너탱크와, 상기 인너탱크의 외부면에 뾰족한 부위가 접촉되도록 한 격침을 내면 사방에 일체로 갖는 아우터 탱크로 구성된 플라스틱재의 소화 탱크를 설치하여서, 차량 충돌의 충격에 의해 상기 소화 탱크가 폭발되어 인너탱크 내의

가스가 확산되도록 한다.On the other hand, as the prior art of the present invention, the patent registration number "10-0229450", "Automatic fire extinguishing device for vehicle collision" has been filed and registered. Compression to the body of the part

A gas-filled inner tank and a plastic fire extinguishing tank consisting of an outer tank integrally formed in all directions are provided on the inner surface of the inner tank so that the pointed portion contacts the outer surface of the inner tank. Exploded inside the inner tank

Allow gas to diffuse.

Republic of Korea Patent Registration No. 10-0229450 (1999.11.01) Republic of Korea Patent Registration No. 10-1089240 (2011.12.05) Republic of Korea Patent Registration No. 10-1286756 (2013.07.16)

탱크를 자동으로 파열시켜 배전반 내부 화재를 조기에 진화할 수 있는 화재시 파열되는 자동 소화 장치가 내장된 배전반을 제공하는데 본 발명의 목적이 있다.Therefore, the present invention is installed in the switchboard when a fire occurs inside the switchboard to solve the above problems.

It is an object of the present invention to provide a switchboard equipped with an automatic fire extinguishing device that bursts in the event of a fire that can automatically ignite a fire inside the switchboard by automatically rupturing the tank.

A switchboard equipped with an automatic fire extinguishing device that is ruptured in a fire according to the present invention for achieving the above object includes a square upper base plate installed on a ceiling inside the switchboard; A guide bar that is erected in a vertical direction as a cylindrical bar and is fixed to the four corners of the upper base plate, respectively; A lower base plate having four corners fixedly installed at a lower end of the guide shaft and having a first gas passing hole through which carbon dioxide gas or Haron gas is passed; A fire extinguishing gas storage tube sandwiched between the upper base plate and the lower base plate, with four corners fixed to each of the guide shafts, and filled with carbon dioxide gas or Haron gas for extinguishing a fire therein; A tube support plate installed at a lower portion of the fire suppression gas storage tube and having four corners penetrating and fixed to each of the guide shafts and supporting a bottom surface of the fire suppression gas storage tube; A cylindrical bar with threads on the outer circumferential surface, vertically positioned between the upper base plate and the lower base plate, and the upper and lower ends fixed to the center of the upper base plate and the center of the lower base plate, respectively Screw bar which is axially rotated and passes through the center of the fire suppression gas storage tube and the tube support plate; Rotation means for rotating the screw bar in a clockwise or counterclockwise direction according to a control signal from a central control unit; It is mounted between the upper base plate and the fire suppression gas storage tube, and the four corners are inserted into each of the guide shafts through bearings and slided in the vertical direction, and the center is screwed to the screw bar so that the screw bar is When the shaft is rotated in one direction, it moves in the lower direction of the screw bar, whereas when the screw bar is rotated in the other direction, it moves in the upper direction of the screw bar, and the vertical moving plate is equipped with spikes protruding downward in the lower surface; A temperature sensing module in which two or more are installed inside the switchboard to measure the internal temperature of the switchboard in real time; And a central control unit that rotates the screw bar in one direction by operating the rotating means if the internal temperature of the switchboard measured through the temperature sensing module exceeds a predetermined temperature, and the internal temperature of the switchboard is caused by the internal fire of the switchboard. When it becomes high, the temperature sensing module measures the internal temperature of the switchboard and transmits it to a central control unit, and the central control unit operates the rotating means when the internal temperature of the switchboard measured by the temperature sensing module exceeds a predetermined temperature. When the screw bar is rotated in one direction, and when the screw bar is rotated in one direction, the up and down moving plate descends on the screw bar, and the spike integrally combined with the up and down moving plate pierces the fire suppression gas storage tube to extinguish the fire. The hole in the gas storage tube causes the carbon dioxide gas or Haron gas filled in the fire suppression gas storage tube to extinguish the fire inside the switchboard.

The switchboard equipped with an automatic fire extinguishing device that ruptures in the event of a fire according to the present invention made of such a configuration can automatically extinguish the fire inside the switchboard by automatically bursting the fire suppression gas storage tube installed inside the switchboard when a fire occurs inside the switchboard. .

In addition, since the present invention is a structure in which a fire suppressing gas storage tube is ruptured by descending a spike using a motor driving force when a fire occurs inside the switchboard, it is possible to solve the problem that the fire suppressing gas storage tube does not burst when a fire occurs.

In addition, when compared to the way that the fire suppression gas storage tube swells and bursts due to heat generated by the fire inside the switchboard, it is possible to detect the internal temperature of the switchboard directly and then rupture the fire suppression gas storage tube early through the spikes, thereby preventing internal damage to the switchboard. Can be minimized.

In addition, the present invention prevents the fire inside the switchboard from becoming a large-scale fire by initially suppressing the fire generated inside the switchboard.

Figure 1 is a combined perspective view of the present invention,
Figure 2 is an exploded perspective view of the present invention,
Figure 3 is a front view of the present invention,
Figure 4 is a control block diagram of the temperature sensing module,
5 is a control circuit diagram of the upper limit limiting circuit,
6 is a control block diagram of a central control unit,
Figure 7 is a control circuit diagram of the motor driver,

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

A switchboard equipped with an automatic fire extinguishing device that ruptures in the event of a fire according to the present invention includes, as shown in Figs. 1 to 3, a top base plate 3 of a square shape installed on the inside ceiling of the switchboard 1; Guide bars (5) that are erected in the vertical direction as a cylindrical bar (Bar) and are fixed to the four corners of the upper base plate (3), respectively; A lower base plate 9 having four corners fixedly installed at the lower end of the guide shaft 5 and passing through a first gas passing hole 7 through which carbon dioxide gas or Haron gas is passed; A fire suppression gas that is sandwiched between the upper base plate 3 and the lower base plate 9 and has four corners respectively fixed to the guide shaft 5 and filled with carbon dioxide gas or Haron gas for extinguishing a fire therein. Storage tube 11; A tube support plate 13 installed at a lower portion of the fire suppression gas storage tube 11 and having four corners penetrating and fixed to each of the guide shafts 5 and supporting a bottom surface of the fire suppression gas storage tube 11; As a cylindrical bar with threads on the outer circumferential surface, it is erected in a vertical direction between the upper base plate 3 and the lower base plate 9, and the upper and lower ends are respectively located at the center of the upper base plate 3 and Screw bar (15) axially rotated in a state fixed to the center of the lower base plate (9) and passing through the center of the fire suppression gas storage tube (11) and the tube support plate (13); Rotating means 19 for rotating the screw bar 15 in the clockwise or counterclockwise direction according to the control signal of the central control unit 17; It is mounted between the upper base plate (3) and the fire-fighting gas storage tube (11), and four corners are inserted into the respective guide shafts (5) through bearings and slide in the vertical direction. When the screw bar 15 is screwed to the screw bar 15 and the screw bar 15 is axially rotated in one direction, it is moved in the lower direction of the screw bar 15 while the screw bar 15 is axially rotated in the other direction. Up and down moving plate 23 is mounted in the upper direction of the screw bar 15 and the spike 21 is protruded downward in the lower surface; A temperature sensing module 25 in which two or more are installed inside the switchboard 1 to measure the internal temperature of the switchboard 1 in real time; And a central control unit for rotating the screw bar 15 in either direction by operating the rotating means 19 when the internal temperature of the switchboard 1 measured through the temperature sensing module 25 exceeds a predetermined temperature. 17), when the internal temperature of the switchboard 1 is increased due to the internal fire of the switchboard 1, the temperature sensing module 25 measures the internal temperature of the switchboard 1 and transmits it to the central control unit 17 And, the central control unit 17 operates the rotating means 19 when the internal temperature of the switchboard 1 measured by the temperature sensing module 25 exceeds a predetermined temperature to which the screw bar 15 is Rotate in one direction, and when the screw bar 15 is rotated in either direction, the up and down moving plate 23 descends on the screw bar 15 and is integrally coupled with the up and down moving plate 23 The spike 21 pierces the fire suppression gas storage tube 11 and makes a hole in the fire suppression gas storage tube 11, thereby causing the carbon dioxide gas or Haron gas filled in the fire suppression gas storage tube 11 to be inside the switchboard 1 Try to extinguish the fire.

As shown in Fig. 2, the vertical moving plate 23 is ruptured by the fire suppression gas storage tube 11 by a spike 21, so that carbon dioxide gas or Haron gas is discharged from the fire suppression gas storage tube 11. Two or more second gas passing holes 27 through which the carbon dioxide gas or the Haron gas pass when passing through are penetrated, and each of the second gas passing holes 27 has a cross-shaped spike fixing plate 29 in a cross shape. Mounted, the spike 21 is fixedly installed at the center of the bottom of the cross-shaped spike fixing plate 29.

The spike 21, as shown in Figures 2 to 3, is a cylindrical shape with a center through which the lower end is processed in the form of a blade or a blade to pierce the fire fighting gas storage tube 11.

In the center of the cruciform spike fixing plate 29, a gas discharge hole 31 communicating with the spike 21 is penetrated.

The present invention is the rotating means for stopping the vertical movement plate 23 when the vertical movement plate 23 has reached the upper limit line of the screw bar 15 or reached the lower limit line of the screw bar 15. The motor driver 85 provided in (19) further includes movement preventing means 33 for generating a control signal for stopping the motor 89 equipped in the rotating means 19, and the movement preventing means 33 As shown in Figure 2, as the shape of the translator, the upper end is fixedly installed on the inner ceiling of the switchboard 1, and the translator type bracket 35 is installed at a predetermined distance from the side of the vertical moving plate 23, and the translator type The upper limit switch installation plate 37 protruding from the upper portion of the bracket 35 in the direction of the space between the upper base plate 3 and the vertical moving plate 23, the upper and lower portions from the lower portion of the translator-shaped bracket 35. The lower limit switch installation plate 39 protruding in the direction of the space between the moving plate 23 and the fire suppression gas storage tube 11 is mounted on the bottom of the upper limit switch installation plate 37 and the upper and lower moving plates ( 23) the upper limit switch 41 (Limit Switch) that stops the rotating means 19 and stops the upper and lower moving plates 23 from rising any more when it comes into contact with the lower limit switch installation plate 39 ) Is mounted on the upper surface of the lower limit switch 43 (Limit Switch) to stop the rotating means 19 to stop the upper and lower moving plates 23 from falling further when it comes into contact with the upper and lower moving plates 23 ).

The fire suppression gas storage tube 11 is provided with a fire suppression gas storage space portion 45, which is projected convexly in the vertical direction and filled with carbon dioxide gas or Haron gas for fire extinguishing, and the fire suppression gas storage space portion ( 45) is arranged in a lattice form on the fire suppression gas storage tube (11).

As shown in FIG. 2, the tube support plate 13 is provided with a fitting hole 47 for a fire fighting gas storage space, into which the fire fighting gas storage space 45 is fitted.

The tube support plate 13 supports the fire suppression gas storage tube 11 so as not to elastically lower when the spike 21 presses the fire suppression gas storage tube 11.

As illustrated in FIG. 4, the temperature sensing module 25 detects the internal temperature of the switchboard 1 and then outputs a temperature sensing unit 49 that outputs a voltage corresponding to the detected internal temperature of the switchboard 1 ; A primary signal amplifying unit 51 for amplifying the minute voltage output from the temperature sensing unit 49; A reference voltage level adjusting unit 53 for adjusting a DC offset voltage level output from the primary signal amplifying unit 51; A secondary signal amplifying unit 55 for secondary amplifying the output signal output from the reference voltage level adjusting unit 53; A noise reduction unit 57 for reducing a noise component output from the secondary signal amplification unit 55; An upper limit limiting circuit part 59 that prevents a voltage output from the noise reduction part 57 from exceeding a preset upper limit voltage; And a lower limit limiting circuit unit 61 that prevents the voltage output from the noise reduction unit 57 from exceeding a preset lower limit voltage.

The upper limit limiting circuit part 59 includes a first resistor 63 having an input terminal connected to an output terminal of the noise reduction unit 57, as shown in FIG. 5; A diode 65 connected to the output terminal of the first resistor 63; And a constant voltage output unit 67 that outputs a constant voltage of a predetermined level to the cathode terminal of the diode 65, so that the voltage output from the noise reduction unit 57 is (the output voltage of the constant voltage output unit 67+ It is limited not to exceed 0.7) V.

The constant voltage output unit 67, as shown in Figure 5, the second resistor 69 is supplied with direct-current power to the input terminal; A cathode terminal is connected to the output terminal of the second resistor 69, and the anode terminal is grounded to convert the voltage output from the second resistor 69 to a Zener voltage to output a Zener diode 71 (Zener Diode); A first voltage divider resistor 73 having an input terminal connected to a cathode terminal of the Zener diode 71; A second voltage divider (75) having an output terminal grounded; The input terminal is connected to the output terminal of the first voltage divider resistor 73 and the output terminal is connected to the input terminal of the second voltage divider resistor 75 and the voltage and the first input voltage to the second voltage divider resistor 75 according to the internal resistance ratio. A variable resistor 77 for controlling voltage that outputs any voltage between voltage categories output from the divided voltage resistor 73 through the divided voltage output terminal; And an inverting input terminal and an output terminal connected to the non-inverting input terminal, converting the voltage output from the voltage divider output terminal of the variable voltage regulator 77 for input into a constant voltage, and then outputting it to the cathode terminal of the diode 65. It can be made of an amplifier (79).

The central control unit 17, as shown in Figure 6, the A / D conversion unit 81 for converting the analog voltage output from the temperature sensing module 25 into digital values, and the A / D conversion unit ( 81) the temperature conversion unit 83 for converting the digital value output from the internal temperature of the switchboard 1, and the internal temperature of the switchboard 1 converted through the temperature conversion unit 83 is the central control unit 17 It includes a motor driver operating unit 87 for operating the motor driver 85 equipped in the rotating means 19 when the temperature set in the exceeded.

The rotating means 19, as shown in Figures 1 to 3, the motor 89 and the motor 89 for rotating the axis clockwise or counterclockwise; A bevel gear unit 91 that transmits the rotational force of the shaft of the motor 89 to the screw bar 15; And a motor driver 85 that controls the motor 89 to rotate the shaft of the motor 89 in a clockwise or counterclockwise direction or stops the motor 89.

The motor driver 85, as shown in Figure 7, the first magnetic contactor (95) closing the first magnetic contactor main switch 107 that was opened when current was input to the internally installed magnet coil (Magnet Coil) )Wow; When the R-phase electric line is connected to the input terminal and the current is input to the magnet coil of the first magnetic contactor 95, the open switch is closed to continuously apply current to the magnet coil of the first magnetic contactor 95. A first magnetic contactor a contact switch 99 to be supplied; An input terminal is connected to the output terminal of the auxiliary contact a switch 99 of the first magnetic contactor, and when the current is input to the magnet coil of the second magnetic contactor 97, the switch that is closed is opened to open the first magnetic contactor ( 95) a second magnetic contactor auxiliary b-contact switch 105 to cut off the current input to the magnet coil; When current is input to the magnet coil of the first magnetic contactor 95, the switch is closed to flow current through the driving winding 115 of the single-phase motor 89, and the starting winding 117 of the single-phase motor 89 is provided. A first electromagnetic contactor main switch 107 connecting the R-phase electric line to the first input terminal and connecting the S-phase electric line to the second input terminal of the starting winding 117 to rotate the single-phase motor 89 in the forward direction; A second electromagnetic contactor (97) for closing the second magnetic contactor main switch (109) that was opened when a current was input to the internally installed magnet coil (Magnet Coil); When the R-phase electric line is connected to the input terminal and the current is input to the magnet coil of the second magnetic contactor 97, the switch that was open is closed to continuously apply current to the magnet coil of the second magnetic contactor 97. A second magnetic contactor auxiliary a contact switch 103 to be supplied; An input terminal is connected to the output terminal of the second a contactor auxiliary a contact switch 103 to open the closed switch when a current is input to the magnet coil of the first magnetic contactor 95 to open the second magnetic contactor. A first magnetic contactor auxiliary b contact switch 101 that blocks current input to the magnet coil of (97); And when the current is input to the magnet coil of the second magnetic contactor 97, the switch is closed to flow current through the driving winding 115 of the single-phase motor 89, and the starting winding 117 provided in the single-phase motor 89. A second magnetic contactor main switch 109 for rotating the single-phase motor 89 in the reverse direction by connecting the S-phase electric line to the first input terminal and connecting the R-phase electric line to the second input terminal of the starting winding 117 Includes.

As illustrated in FIG. 7, the motor driver operation unit 87 is connected in parallel with the first magnetic contactor auxiliary a contact switch 99, the input terminal is connected to the R phase electric line, and the output terminal is the second magnetic contactor. A first a contact connected to the input terminal of the auxiliary b contact switch 105 to close the open switch according to the control signal of the central control unit 17 to supply current to the magnet coil of the first electromagnetic contactor 95 A switch 111; The second magnetic contactor auxiliary a contact switch 103 is connected in parallel, the input terminal is connected to the R-phase electric line, the output terminal is connected to the input terminal of the first magnetic contactor auxiliary b contact switch 101, the central control unit 17 And a second a contact switch 113 for closing the open switch according to the control signal of) to supply current to the magnet coil of the second electromagnetic contactor 97.

As shown in FIG. 7, the lower limit limit switch 43 is connected to an output terminal of the second electronic contactor auxiliary b contact switch 105, and an output terminal of the magnet coil provided in the first electromagnetic contactor 95. It is connected to the input terminal and blocks the current input to the magnet coil of the first electromagnetic contactor 95 when it comes into contact with the up and down moving plate 23 so that the up and down moving plate 23 can no longer descend.

The upper limit limit switch 41, as shown in Figure 7, the input terminal is connected to the output terminal of the first magnetic contactor auxiliary b contact switch 101, the output terminal of the magnet coil provided in the second electromagnetic contactor (97) It is connected to the input terminal and blocks the current input to the magnet coil of the second electromagnetic contactor 97 when it comes into contact with the vertical moving plate 23 so that the vertical moving plate 23 can no longer rise.

The process in which the motor driver 85 is operated will be described with reference to FIG. 7 as follows.

If the internal temperature of the switchboard 1 measured by the temperature sensing module 25 due to an internal fire in the switchboard 1 exceeds the temperature set in the central control unit 17, the central control unit 17 contacts the first a The switch 111 is closed to flow current through the magnet coil of the first magnetic contactor 95, and the first magnetic contactor 95 closes the first magnetic contactor main switch 107 to rotate the motor 89 in the forward direction. By doing so, the vertical moving plate 23 is lowered to rupture the fire suppression gas storage tube 11.

At this time, when current flows into the magnet coil of the first magnetic contactor 95, the first magnetic contactor auxiliary a contact switch 99 is closed and the first magnetic contactor 95 is self-maintained and the first magnetic contactor is assisted. The b-contact switch 101 is opened to block the current input to the magnet coil of the second magnetic contactor 97.

In addition, when the lowered upper and lower moving plates 23 come into contact with the lower limit limit switch 43, the closed lower limit limit switch 43 is opened and the current input to the magnet coil of the first electromagnetic contactor 95 is opened. Shut off and stop the motor.

Meanwhile, when the second a contact switch 113 is closed in the state in which the lower limit switch 43 is open, current is input to the magnet coil of the second magnetic contactor 97 and the second magnetic contactor main switch ( 109) is closed, the motor 89 is rotated in the reverse direction and the vertical movement plate 23 is raised.

At this time, when a current is input to the magnet coil of the second magnetic contactor 97, the second electronic contactor auxiliary a contact switch 103 is closed and the second magnetic contactor 97 is self-maintained and at the same time the second electron The contactor auxiliary b-contact switch 105 is opened to block current input to the magnet coil of the first electromagnetic contactor 95.

In addition, when the raised upper and lower moving plates 23 come into contact with the upper limit limit switch 41, the closed upper limit limit switch 41 is opened to block current input to the magnet coil of the second electromagnetic contactor 97. Thus, the motor 89 is stopped.

The switchboard incorporating an automatic fire extinguishing device that ruptures in the event of a fire according to the present invention made of such a configuration automatically breaks the fire suppression gas storage tube installed inside the switchboard 1 when a fire occurs inside the switchboard 1 to thereby automatically rupture the switchboard 1 Internal fires can be extinguished early.

In addition, since the present invention is a structure in which the spike 21 is lowered by using the driving force of the motor 89 when the fire occurs inside the switchboard 1, the fire suppression gas storage tube 11 is ruptured, so the fire suppression gas is stored in the event of a fire. The problem that the tube 11 does not burst can be solved.

In addition, when compared to the fire-fighting gas storage tube 11 inflated and exploded by the heat generated by the fire inside the switchboard, the internal temperature of the switchboard 1 is directly detected and then fired through spikes 21 that are raised and lowered by a motor. Since the suppression gas storage tube 11 can be ruptured early, damage inside the switchboard 1 can be minimized.

In addition, according to the present invention, the fire generated inside the switchboard 1 is initially suppressed so that the fire inside the switchboard 1 does not become a large fire.

1. Switchgear 3. Upper base plate
5. Guide shaft 7. First gas passage hole
9. Lower base plate 11. Fire suppression gas storage tube
13. Tube base 15. Screw bar
17. Central control unit 19. Rotating means
21. Spike 23. Moving plate up and down
25. Temperature sensing module 27. Second gas passage hole
29. Cruciform spike fixing plate 31. Gas vent hole
33. Means of movement deterrence 35. Translator bracket
37. Upper limit switch installation plate 39. Lower limit switch installation plate
41. Upper limit limit switch 43. Lower limit limit switch
45. Fire-fighting gas storage space part 47. Fire-fighting gas storage space part fitting hole
49. Temperature sensing unit 51. Primary signal amplification unit
53. Reference voltage level adjustment unit 55. Secondary signal amplification unit
57. Noise reduction unit 59. Upper limit limiting circuit unit
61. Lower limit limit circuit 63. First resistor
65. Diode 67. Constant voltage output
69. Second resistor 71. Zener diode
73. First partial pressure resistance 75. Second partial pressure resistance
77. Variable resistor for voltage regulation 79. Op amp
81. A / D conversion unit 83. Temperature conversion unit
85. Motor driver 87. Motor driver operation
89. Motor 91. Bevel gear
93. Motor driver 95. First magnetic contactor
97. Second magnetic contactor 99. First magnetic contactor auxiliary a contact switch
101. First magnetic contactor auxiliary b-contact switch
103. Second magnetic contactor auxiliary a contact switch
105. Second magnetic contactor auxiliary b-contact switch
107. First magnetic contactor main switch 109. Second magnetic contactor main switch
111. First a contact switch 113. Second a contact switch

Claims (4)

The upper base plate 3 of a square shape installed on the inner ceiling of the switchboard 1;
Guide bars (5) that are erected in the vertical direction as a cylindrical bar (Bar) and are fixed to the four corners of the upper base plate (3) respectively;
A lower base plate 9 having four corners fixedly installed at the lower end of the guide shaft 5 and passing through a first gas passing hole 7 through which carbon dioxide gas or Haron gas is passed;
A fire suppression gas that is sandwiched between the upper base plate 3 and the lower base plate 9 and has four corners respectively fixed to the guide shaft 5 and filled with carbon dioxide gas or Haron gas for extinguishing a fire therein. Storage tube 11;
A tube support plate 13 installed at a lower portion of the fire suppression gas storage tube 11 and having four corners penetrating and fixed to each of the guide shafts 5 and supporting a bottom surface of the fire suppression gas storage tube 11;
As a cylindrical bar with threads on the outer circumferential surface, it is erected in a vertical direction between the upper base plate 3 and the lower base plate 9, and the upper and lower ends are respectively located at the center of the upper base plate 3 and Screw bar (15) axially rotated in a state fixed to the center of the lower base plate (9) and passing through the center of the fire suppression gas storage tube (11) and the tube support plate (13);
Rotating means 19 for rotating the screw bar 15 in the clockwise or counterclockwise direction according to the control signal of the central control unit 17;
It is mounted between the upper base plate (3) and the fire-fighting gas storage tube (11), and four corners are inserted into the respective guide shafts (5) through bearings and slide in the vertical direction. When the screw bar 15 is screwed to the screw bar 15 and the screw bar 15 is axially rotated in one direction, it is moved in the lower direction of the screw bar 15 while the screw bar 15 is axially rotated in the other direction. Up and down moving plate 23 is mounted in the upper direction of the screw bar 15 and the spike 21 is protruded downward in the lower surface;
A temperature sensing module 25 in which two or more are installed inside the switchboard 1 to measure the internal temperature of the switchboard 1 in real time;
And a central control unit for rotating the screw bar 15 in either direction by operating the rotating means 19 when the internal temperature of the switchboard 1 measured through the temperature sensing module 25 exceeds a predetermined temperature. 17),
When the internal temperature of the switchboard 1 is increased due to the internal fire of the switchboard 1, the temperature sensing module 25 measures the internal temperature of the switchboard 1 and transmits it to the central control unit 17, and the central control unit (17) rotates the screw bar (15) in either direction by operating the rotating means (19) when the internal temperature of the switchboard (1) measured by the temperature sensing module (25) exceeds a predetermined temperature. , When the screw bar 15 is rotated in one direction, the up and down moving plate 23 rides down the screw bar 15, and the spike 21 integrally coupled with the up and down moving plate 23 is By stabbing the fire suppression gas storage tube 11 and making a hole in the fire suppression gas storage tube 11, the carbon dioxide gas or Haron gas filled in the fire suppression gas storage tube 11 causes the fire inside the switchboard 1 to extinguish. ,
The vertical moving plate 23 is the carbon dioxide gas when the fire suppression gas storage tube 11 is ruptured by a spike 21 and carbon dioxide gas or Haron gas is ejected from the fire suppression gas storage tube 11 or Two or more second gas passage holes 27 through which the Haron gas passes are penetrated,
Each of the second gas passage holes 27 is provided with a cruciform spike fixing plate 29 in the form of a cross,
Spike 21 is fixedly installed at the center of the bottom of the cross-shaped spike fixing plate 29,
The spike 21 is a cylindrical shape with a center through which the bottom is processed in the form of a blade or a window to pierce the fire suppression gas storage tube 11,
In the center of the cross-shaped spike fixing plate 29, a gas discharge hole 31 communicating with the spike 21 is penetrated,
The fire suppression gas storage tube 11 is provided with a fire suppression gas storage space portion 45, which is projected convexly in the vertical direction and filled with carbon dioxide gas or Haron gas for fire extinguishing,
The fire fighting gas storage space portion 45 is disposed in a grid shape on the fire fighting gas storage tube 11,
A fire-fighting gas storage space fitting hole 47 through which the fire-fighting gas storage space portion 45 is fitted is penetrated through the tube support plate 13,
The tube support plate 13 supports the fire suppression gas storage tube 11 so as not to elastically descend when the spike 21 presses the fire suppression gas storage tube 11,
The central control unit 17 includes an A / D conversion unit 81 for converting the analog voltage output from the temperature sensing module 25 into digital values,
Temperature conversion unit 83 for converting the digital value output from the A / D conversion unit 81 to the internal temperature of the switchboard 1,
And a motor driver operating the motor driver 85 equipped in the rotating means 19 when the internal temperature of the switchboard 1 converted through the temperature conversion unit 83 exceeds the temperature set in the central control unit 17. It includes an operation unit 87,
The rotating means 19 includes a motor 89 for rotating the motor 89 axis clockwise or counterclockwise;
A bevel gear unit 91 that transmits the rotational force of the shaft of the motor 89 to the screw bar 15;
And a motor driver 85 that controls the motor 89 to rotate the shaft of the motor 89 in a clockwise or counterclockwise direction or stops the motor 89.
The rotating means (19) for stopping the vertical movement plate (23) when the vertical movement plate (23) has reached the upper limit line of the screw bar (15) or the lower limit line of the screw bar (15). The motor driver 85 equipped with further includes a movement preventing means 33 for generating a control signal for stopping the motor 89 equipped with the rotating means 19,
The movement blocking means 33 is a translator-shaped bracket 35 having an upper end fixedly installed on the interior ceiling of the switchboard 1 and spaced apart from the side of the vertical moving plate 23 by a predetermined distance,
The upper limit switch installation plate 37 protruding from the upper portion of the translator-shaped bracket 35 in the direction of the space between the upper base plate 3 and the vertical moving plate 23,
The lower limit switch installation plate 39 protruding from the lower portion of the translator-shaped bracket 35 toward the space between the vertical moving plate 23 and the fire suppression gas storage tube 11,
It is mounted on the bottom surface of the upper limit switch installation plate 37 and stops the rotating means 19 when it comes into contact with the upper and lower moving plates 23, thereby preventing the upper and lower moving plates 23 from rising any more. Limit switch (41) (Limit Switch),
And mounted on the upper surface of the lower limit switch installation plate 39 to stop the rotating means 19 when it comes into contact with the up and down moving plate 23 so that the up and down moving plate 23 can no longer descend. It includes a lower limit switch (43) (Limit Switch),
The temperature sensing module 25 includes a temperature sensing unit 49 that senses the internal temperature of the switchboard 1 and then outputs a voltage corresponding to the detected internal temperature of the switchboard 1;
A primary signal amplifying unit 51 for amplifying the minute voltage output from the temperature sensing unit 49;
A reference voltage level adjusting unit 53 for adjusting a DC offset voltage level output from the primary signal amplifying unit 51;
A secondary signal amplifying unit 55 for secondary amplifying the output signal output from the reference voltage level adjusting unit 53;
A noise reduction unit 57 for reducing a noise component output from the secondary signal amplification unit 55;
An upper limit limiting circuit part 59 that prevents a voltage output from the noise reduction part 57 from exceeding a preset upper limit voltage;
And a lower limit limiting circuit unit 61 that prevents the voltage output from the noise reduction unit 57 from exceeding a preset lower limit voltage.
The upper limit limiting circuit part 59 includes a first resistor 63 having an input terminal connected to an output terminal of the noise reduction unit 57;
A diode 65 connected to the output terminal of the first resistor 63;
And a constant voltage output unit 67 for outputting a constant voltage of a predetermined level to the cathode terminal of the diode 65,
It is limited so that the voltage output from the noise reduction unit 57 does not exceed (output voltage of the constant voltage output unit 67 +0.7) V,
The constant voltage output unit 67 includes a second resistor 69 to which DC power is supplied to the input terminal;
A cathode terminal is connected to the output terminal of the second resistor 69, and the anode terminal is grounded to convert the voltage output from the second resistor 69 to a Zener voltage to output a Zener diode 71 (Zener Diode);
A first voltage divider resistor 73 having an input terminal connected to a cathode terminal of the Zener diode 71; A second voltage divider (75) having an output terminal grounded;
The input terminal is connected to the output terminal of the first voltage divider resistor 73 and the output terminal is connected to the input terminal of the second voltage divider resistor 75 and the voltage and the first input voltage to the second voltage divider resistor 75 according to the internal resistance ratio. A variable resistor 77 for controlling voltage that outputs any voltage between voltage categories output from the divided voltage resistor 73 through the divided voltage output terminal;
And an inverting input terminal and an output terminal connected to the non-inverting input terminal, converting the voltage output from the voltage divider output terminal of the variable voltage regulator 77 for input into a constant voltage, and then outputting it to the cathode terminal of the diode 65. A switchboard incorporating an automatic fire extinguishing device that bursts in the event of a fire, characterized in that it consists of an amplifier (79).
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