KR101774772B1 - System for detecting leakage of gas in apartment house - Google Patents

Abstract

According to an embodiment of the present invention, a system for detecting a leakage of gas in an apartment house comprises a space for common use and a plurality of exclusive spaces. Provided is the system for detecting a leakage of gas in an apartment house, which prevents an additional gas leakage within the exclusive spaces when confirming a gas leakage within the exclusive spaces, and at the same time, quickly disperses the leaking gas to be discharged to the outside. Therefore, occurrence of a large-scale accident caused by a gas leakage can be prevented.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001]

The present invention relates to a gas leakage accident prevention system, and more particularly, to a gas leakage accident prevention system for a common house including a common space and a plurality of exclusive spaces.

Generally, city gas or LPG gas used as cooking fuel in each household has very high risk of explosion. Therefore, it is necessary to pay close attention to its use and handling. However, since gas use is frequently used, Sometimes the importance is sometimes forgotten, and sometimes it is also possible to go out without closing the intermediate valve even when going out.

In this case, there is no room for rethinking to be more careful because it causes problems such as gas explosion and the like. However, in everyday life, There are many cases that do not become a living thing.

Generally, a gas appliance such as a gas range and a gas boiler is configured to be operated by a gas supplied through a gas pipe connected to a gas source of a city gas or LPG gas. At the end of the gas pipe, A gas intermediate valve for opening and closing is provided so as to shut off the gas when the gas is not used.

However, the gas is often leaked to the opening / closing gas intermediate valve, the connecting hose, and the gas appliance which are installed to block or supply the gas supply as described above, and this may lead to a safety accident such as a gas explosion .

In addition, even if the valve is shut off to shut off the gas supply after gas leakage is detected, if the dedicated space of the apartment is closed, the leaked gas remains in the exclusive space before the valve shutoff, There is still a risk of accident occurrence.

Korean Patent Publication No. 10-2006-0004230 (published on January 12, 2006)

Disclosure of the Invention The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner, It is possible to provide a gas leakage accident prevention system for a apartment house which can be automatically discharged to the outside within a predetermined time.

In addition, it is possible to provide a gas leakage accident prevention system for a apartment house which can operate normally even if a fatal error occurs in a control module for controlling a gas leakage accident prevention system in a apartment house.

As a means for solving the above-mentioned problems, a gas leakage accident prevention system for a multi-unit house according to an embodiment of the present invention is a system for preventing gas leakage accidents in a multi-unit housing including a common space and a plurality of dedicated spaces, A floor slab constituting the floor of the dedicated space; A reduction material (200) applied on the bottom slab to prevent interlayer vibration noise; Detecting means (300) for detecting the state of the private space and the state of the resident in the private space; A first control module (400a) for calculating a current state of the private space and the resident based on detection contents of the detection means (300), the first control module (400a) operating on a first operation process basis; A second control module (400b) for calculating a current state of the resident of the private space based on the detection contents of the detection means (300), and operating on a second operation process different from the first operation process; The first control module 400a and the second control module 400b are connected to the first control module 400a and the second control module 400b to detect whether there is an abnormality in the first control module 400a and the second control module 400b, A control module abnormality determination module 600 for controlling on / off of at least one of the first control module 400a and the second control module 400b; And drive means (500) provided in the dedicated space and driven based on the calculated content of at least one of the first control module (400a) and the second control module (400b), wherein the reduction material A short plate 210 disposed on the upper portion and formed of any one material selected from PE, PP, and PVC; A plurality of steel bands 220 horizontally attached to the lower portion of the short pillar 210 at predetermined intervals and processed into a strip shape; An EVA band 230, which is a rod-like polymer obtained by vertically and vertically attaching a plurality of bars on the upper and lower sides of the steel band 220 and copolymerizing ethylene and vinyl acetate monomer; A heat insulating material block 240 formed of a material selected from the group consisting of polyurethane, EPS, and PE foam, which is attached at regular intervals between the EVA bands 230 and enhances strength and heat insulation effect; And a lower slab 250 attached to the lower portion of the heat insulating material block 240. The detecting means 300 is disposed between the lower portion of the end plate 210 and the EVA band 230, A pressure sensor 310 for detecting the amount of change of the downward pressure applied to the frame 210; A noise measurement sensor 320 for measuring a noise due to a floor impact of the dedicated space; An activity sensor 330 for sensing the amount of activity of a resident of the private space; And a gas sensing sensor (340) for sensing a gas inside the dedicated space, wherein the driving means (500) comprises an output device (500) for alarming the occupant based on the calculation result of the control module 510); A gas breaker (520) installed in a piping connected to a gas device inside the dedicated space and controlled automatically based on a result of the calculation by the control module (400); And at least one window opening / closing unit 530 that is automatically opened and closed based on a result of the calculation of the control module 400. The first control module 400a and the second control module 400b may be configured to display, An input unit 410 receiving information detected by the detection unit 300; A determination unit (420) for determining the current internal state or the state of the occupant based on the signals transmitted to the input unit; A verification data output unit 430 for transmitting a signal from the determination unit 420 to the control module abnormality determination module 600; And a driving unit 440 for controlling the driving unit 500 based on a result of the determination by the determination unit 420 and the control module abnormality determination module 600. The gas circuit breaker 520 is connected to both ends An electric cock 521 for opening and closing the gas piping V connected to the gas equipment inside the dedicated space, a step motor 522 for controlling the bi-directional rotation operation of the electric cock 521, A charging unit 523 for charging the rechargeable battery that applies power to the step motor 522 even if the rechargeable battery 521 is shut off, a touch screen 524 for displaying the rotating operation state of the electronic rechargeable battery 521, The window opening and closing unit 530 includes a rack gear 70 formed on the window frame 20 and a driving gear 50 driven by the reduction motor 40 on the window 10, So that the window 10 is automatically closed by the engagement of the window A space portion 11 opened to the rail 21 of the window frame 20 is formed in the frame 10 and the frame 30 fitted to the space portion 11 is provided with the deceleration motor 40 And the driving gear 50, which is rotated by the decelerating motor 40, is engaged with the rack gear 70 by the height adjusting means 60.

The control module abnormality determination module 600 includes a first verification data input unit 610 receiving the first verification data from the verification data output unit 430 of the first control module 400a; A second verification data input unit 620 receiving the second verification data from the verification data output unit 430 of the second control module 400b; A comparing unit 630 comparing the first verification data and the second verification data; An abnormality determination unit (640) for determining whether at least one of the first control module (400a) and the second control module (400b) is abnormal based on the comparison result of the comparison unit; And a control module operation selection unit 430 for controlling the driving unit 440 of the first control module 400a and the driving unit 440 of the second control module 400b based on the determination result of the abnormality determination unit 640. [ (650).

The determination unit 420 includes an inter-layer noise determination unit 421 for determining whether or not an inter-layer noise is generated based on the detection results of the pressure sensor 310, the noise measurement sensor 320, and the activity amount sensor 330; A resident fall determination unit (422) for determining whether or not the occupant has fallen based on the detection result of the pressure sensor (310), the noise measurement sensor (320), and the activity amount sensor (330); And a gas leakage determining unit 423 for determining whether or not a gas leakage occurs in the dedicated space based on the detection result of the gas sensing sensor 340. The driving unit 430 may include an inter- 421) and an output device driver (441) for controlling the output device (510) to output a warning sound based on a result of the determination by the gas leakage determination unit (423); A communication unit 442 for transmitting the address of the private space and the status information of the current resident to the external emergency unit 540 based on the judgment result of the resident falling determination unit 422; A step motor control unit (443) for controlling power supply to the step motor based on the detection result of the gas detection sensor (340); And a window opening / closing control unit (444) for sending a control signal to the deceleration motor based on the detection result of the gas sensing sensor (340).

According to the embodiment of the present invention, when gas leakage is detected in a private space of a dwelling unit, the gas existing in the private space is automatically discharged to the outside quickly It is possible to prevent the occurrence of gas accidents in the private space of the apartment house.

In addition, the present system has two control modules, and two control modules are operated by different operating systems or the H / W bases of the two control units are different, so that even if a fatal error occurs in any one of the control modules, The reliability of the accident prevention system due to gas leakage can be improved.

FIG. 1 is a block diagram showing a gas leakage accident prevention system (hereinafter referred to as 'the present system') of a multi-unit house according to an embodiment of the present invention.
Fig. 2 is a view showing a laminated structure of a reducing agent in the present system. Fig.
Figs. 3 to 5 are block diagrams showing the detailed configuration of the control module of the present system.
6 is a block diagram showing a detailed configuration of a control module abnormality determination module in the present system.
7 is a view showing a gas circuit breaker in the present system.
8 to 12 are views showing a window opening / closing unit of the present system.

Hereinafter, the configuration and operation according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description with reference to the accompanying drawings, the same reference numerals denote the same elements regardless of the reference numerals, and redundant description thereof will be omitted. The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

Hereinafter, this structure will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a gas leakage accident prevention system (hereinafter referred to as 'the present system') of a apartment house according to an embodiment of the present invention, FIG. 2 is a view showing a lamination structure of a reduction agent in the present system, FIG. 6 is a block diagram showing a detailed configuration of a control module abnormality determination module of the present system, and FIG. 7 is a block diagram showing a detailed configuration of a control module And FIG. 8 to FIG. 12 are diagrams showing a window opening / closing unit of the present system.

A gas leakage accident prevention system of a multi-family house according to an embodiment of the present invention is a system for preventing a gas leakage accident in a multi-family house including a common space and a plurality of private spaces. As shown in FIGS. 1 and 2, A lowering material 200, a detecting means 300, a control module 400, and a driving means 500, which are mounted on the floor slab.

The reduction material 200 is constructed on a floor slab constituting a floor of a dedicated space in each exclusive space in order to prevent interlayer vibration noise.

As shown in FIG. 2, the abatement material 200 includes a short plastic 210 formed of synthetic resin or PVC, an EVA band 230 attached to the bottom of the short plastic 210, A steel band 220 attached at a predetermined interval to a lower portion of the steel band 220 at a predetermined interval, a PU block 240 attached at a predetermined interval below the steel band 220, And a pressure sensor (not shown) disposed between the lower portion of the short pillar 210 and the EVA band 230 and detecting a change amount of the downward pressure applied to the short pillar 210 310).

It is preferable that the short pillar 210 is disposed on the uppermost layer so that the first generated vibration is uniformly dispersed to the left or right side and is processed to have a thickness of 5 to 10 mm.

The material of the short pillar 210 is a polymer obtained by copolymerizing ethylene and a vinyl acetate monomer, and is preferably a synthetic resin sheet or PVC, and a material having equivalent properties can be used instead.

A plurality of the EVA bands 230 are disposed at a predetermined interval in a rectangular shape below the short pillar 210, and the EVA bands 230 are formed of a synthetic resin foam in a block state composed of closed cells.

A plurality of EVA bands 230 are formed on upper and lower sides of a steel band 220 to be described later.

The EVA band 230 serves to attenuate the vibration transmitted through the upper portion of the EVA band 230 by rotating the vibration direction at an angle of 90 deg. The EVA band 230 may be formed of a synthetic resin foam having a density of 30 to 500 kg / m 3 and having a width of 5 to 50 mm and a thickness of 5 to 50 mm.

Since the steel band 220 is formed by processing a thin steel plate into a band shape and has a high rigidity, the vibration transferred to the EVA band 230 is linearly substituted in the steel band 220.

In other words, the steel band 220 attached between the upper and lower portions of the EVA band 230 attenuates vibration with strong rigidity.

Meanwhile, the steel band 220 is formed of a leaf spring structure for absorbing and dispersing an upper shock that causes inter-layer noise, and has a thickness of 0.5 to 1.5 mm, a width of 5 to 25 mm, and a tensile strength of 75 to 100 kg / It is preferable to use it.

The PU block 240 is formed between the spaces between the EVA bands 230, which are attached to the lower part of the steel band 220 at a predetermined interval.

The PU block 240 is installed to remove the resonance phenomenon and increase the heat insulation effect or the thermal insulation effect.

The PU block 240 preferably has a density of 10 to 100 kg / m3 synthetic foam blowing agent composed of continuous and closed cells of 50 to 250 mm in width and 5 to 50 mm in thickness.

The lower slab 50 is formed at the bottom of the above-mentioned structure layer, and a commonly used material can be used.

That is, according to the present invention, firstly generated vibration of the upper part is uniformly dispersed in a uniform distribution in the first pillar 210, and linearly displaces the vibration equally divided in the EVA band 230 in the second order.

The displaced advanced vibration is dispersed by rotating the direction of the vibration by 90 degrees to the advanced motion crossed by the steel band 220 having a strong rigidity, and the vibration dispersed by the steel band 220 is transmitted to the EVA band The final vibration transmitted to the lower slab 250 by rotating the vibration direction of the upper portion by 90 degrees in the upper slab 30 causes the first large vibration energy to be exhausted as much as possible.

The interlayer vibration noise reduction material formed by the above structure not only suppresses the transmission of sound but also transmits the mass impact (floor impact of people, objects, etc.) of the upper layer to the concrete structure of the floor, It is possible to block interlayer noise at the source.

The detection means 300 may include a pressure sensor 310, a noise measurement sensor 320, an activity amount sensor 330 and a gas detection sensor 340 disposed in the reduction material 200 as shown in Fig. have.

The pressure sensor 310 can detect a change amount of the pressure applied to the floor by the occupant of the exclusive space by detecting the amount of change of the downward pressure applied to the short plate 210 of the reduction material 200. [

The noise measurement sensor 320 performs a function of detecting a noise generated by the floor impact of the dedicated space.

The activity sensor 330 senses the amount of activity of a resident in the private space, and the activity sensor 330 may be a camera or an infrared sensor.

And detects the internal gas in the dedicated gas sensing sensor 340.

1, the control module 400 includes two control modules 300, that is, a first control module 400a and a second control module 400b. Further, the first control module 400a, And a control module abnormality determination module 600 for controlling the first control module 400a and the second control module 400b. Details of the control module abnormality determination module 600 will be described later.

As shown in FIG. 3, the control module 400 includes an input unit 410, a determination unit 420, and a driving unit 440.

The input unit 410 receives the detection information of the pressure sensor 310, the noise measurement sensor 320, the activity amount sensor 330, and the gas detection sensor 340 described above.

The determination unit 420 performs a function of determining the state of the private space or the occupant based on the information transmitted to the input unit 410. Based on the determination result of the determination unit 420, The control unit 420 controls the driving unit 500. Details of the determination unit 420 and the driving unit 440 will be described later.

The driving means 500 is installed in the dedicated space and is driven based on the calculation contents of the control module 400 and is connected to the output device 510, the gas breaker 520 and the window opening / closing unit 530 ) And the like.

The output device 510 is preferably a speaker capable of sounding an alarm to a resident based on the calculation result of the control module 400. [

The gas circuit breaker 520 is installed in a piping connected to the gas equipment inside the dedicated space and is automatically opened and closed based on the calculation result of the control module 400.

The gas circuit breaker 520 may include an electronic cock 521, a step motor 522, a charging unit 523, and a touch screen 524, as shown in FIG.

The electronic cock 521 functions to open and close the gas piping V connected to the gas equipment inside the dedicated space at both ends.

Specifically, the electronic cock 521 closes the gas valve when rotated to one side and blocks or unblocks the gas by opening the gas valve when rotating to the other side.

Specifically, the stepping motor 522 is controlled by the stepping motor 522 in the bidirectional direction according to a drive control signal for closing the gas valve or a drive control signal for opening the gas valve, So that the electronic cock 521 is driven to close or open the gas valve.

When gas above a certain reference concentration is detected by the gas detection sensor 340, the control module 400 applies a drive control signal for closing the gas valve to the stepper motor 522.

Then, the step motor 522 rotates in accordance with the drive control signal for closing the gas valve and rotates the electronic cock 521 to close the gas valve. Accordingly, when an abnormality is detected due to gas leakage, 520) automatically closes the gas valve.

According to an additional aspect of the invention, the gas circuit breaker 520 may further include a touch screen 524.

The touch screen 524 displays a gas valve opening / closing state, and displays operation buttons including a power button and a release button to perform user input / output.

Accordingly, the user can easily understand the gas valve opening / closing status through the touch screen 524, can operate the operation buttons including the power button and the release button to turn on / off the power, Or the like can be easily performed.

According to an additional aspect of the present invention, the gas circuit breaker 520 may further include a charging unit 523.

The charging unit 523 charges the rechargeable battery that applies power to the gas circuit breaker 520, and the rechargeable battery is preferably a super capacitor.

Accordingly, the gas circuit breaker 520 is powered by the rechargeable battery that is charged through the charger 523, so that even when the commercial power source is shut down in an emergency, the gas circuit breaker 520 operates normally to assure the gas shutoff stability.

8 to 12, the window opening / closing unit 530 is formed with a space portion 11 opened to the rail 21 side of the window frame 20 below the window 10, and the space portion 11 And a frame 30 fixed to the inside of the window 10 is provided.

A decelerating motor 40 is provided in the frame 30 and a connecting gear 43 connected to the decelerating motor 40 through first and second bevel gears 41 and 42 is provided.

The connecting gear 43 is coaxially connected to the second bevel gear 42 on the center shaft 44 fixed to the frame 30 and rotatably supported on the center shaft 44, And a variable shaft 51 is provided at the free ends of the levers 52. The lever 52 is provided with a variable shaft 51 at its free end.

A driving gear 50 is rotatably supported on one side of the variable shaft 51 and the driving gear 50 is engaged with the connecting gear 43 to receive the power of the deceleration motor 40.

The window frame 20 is formed with a rack gear 70 to which the driving gear 50 is engaged and the driving gear 50 is rotated about a center shaft 44 connected to the lever 52, And a height adjustment means 60 for adjusting the height of the engagement with the rack gear 70.

The rack gear 70 may be separately manufactured and assembled to the window frame 20, or may be integrally formed when the window frame 20 is injected.

As shown in FIG. 12, the window frame 20 is extruded and presses a part of the window frame 20 with a mold 72 in the form of a rack gear before hardening.

At this time, if a pedestal 73 for holding a circular shape is inserted into the window frame 20, a rack gear 70 is formed on the surface of the window frame. When the rack gear is formed, the mold 72 and the pedestal 73 are separated from the window frame 20 and the drain holes 71 and 22 are pierced below the rack gear 70 and the rail 21, .

The window 10 has a structure in which the roller 12 provided at both ends of the lower portion is placed on the rail 21 of the window frame 20. The diameter of the roller 12 and the height of the rail 21 The height adjustment means 60 is required to adjust the height of the coupling between the driving gear 50 and the rack gear 70 in consideration of this difference.

Further, the height adjusting means 60 has a purpose of allowing the driving gear 50 to closely contact the rack gear 70 so that power transmission can be reliably performed without riding over the gear.

The height adjusting means 60 is provided with a bolt portion 62 through a bearing 61 rotatably fitted in the central portion of the variable shaft 51. The bolt portion 62 has a support pipe 63 .

The support tube 63 is fixed to the frame 30 through the hinge part 64 at the end and the lock nut 65 is fastened to the bolt part 62 to limit the moving distance of the support tube 63 .

The control unit 31 is connected to the touch switch mounted on the periphery of the window frame 20 so that the window 30 can be opened or closed. And serves to supply and cut off power to the motor 40. [

Further, the user senses the moment when the user pushes or pulls the window 10 to manually open and close the window, and supplies power to the deceleration motor 40.

Therefore, even when the window is manually opened and closed, the deceleration motor 40 is operated and the window 10 is automatically opened and closed by the electric power.

Since the reduction ratio of the reduction motor 40, the coupling gear 43 and the driving gear 50 is such that the rotation is transmitted in a reverse direction, the driving gear 50 is rotated instantaneously when the window 10 is manually pushed or pulled And a sensing sensor 32 for sensing the rotation of the frame 30 to detect the rotation of the frame 30 to input a control signal to the control unit 31. [

Therefore, the control unit 31 supplies power to the deceleration motor 40 according to an input signal of the sensing sensor 32 when the door is manually opened or closed.

The window opening / closing unit 530 configured as described above has a structure in which the frame 30 is installed inside the window 10, so that it does not protrude to the outside, so that it does not occupy a space in the window and does not hurt the aesthetics.

In addition, since windows are automatically opened and closed individually when installed in each window, ventilation and opening / closing performance are more convenient than conventional automatic windows.

9, when the decelerating motor 40 is operated, the window opening / closing unit 530 of the present system rotates the connecting gear 43 through the first and second bevel gears 41 and 42, The driving gear 50 engaged with the connecting gear 43 is rotated. Therefore, the window 10 is automatically opened and closed while the driving gear 50 rides over the rack gear 70.

The driving gear 50 is fixed to the rack gear 70 by fixing the height thereof in a three-point supporting manner of the center shaft 44, the variable shaft 51 and the hinge portion 64, There is no overcrowding and power transmission is ensured.

In the process of installing the frame 30, the engagement of the driving gear 50 and the rack gear 70 is made by the height adjusting means 60.

The bolt portion 62 is inserted into and withdrawn from the support pipe 63 as the lock nut 65 engaged with the bolt portion 62 is released and the variable shaft 51 is connected to the lever 52 The coupling height between the driving gear 50 and the rack gear 70 can be adjusted.

The decelerating motor 40 is a worm gear and a lead screw type motor so as to rotate the driving gear 50 and the decelerating motor 40 when the window is manually pushed down at a gear ratio of 150: Do not use the reducer.

The deceleration motor 40 is composed of a planetary gear, a spur gear and a helical gear type speed reducer so that the gear can be reversely rotated when the window is manually operated, so that the configuration is simple. In particular, You can open it manually.

Hereinafter, the determination unit 420 and the driving unit 440, which are detailed components of the control module 400 described above with reference to FIGS. 4 and 5, will be described in more detail.

As shown in FIG. 4, the determination unit 420 specifically includes an interlayer noise determination unit 421, a resident fall determination unit 422, and a gas leakage determination unit 423.

The interlayer noise determination unit 421 determines whether interlayer noise is generated based on the detection results of the pressure sensor 310, the noise measurement sensor 320, and the activity amount sensor 330.

For example, when the change amount of the pressure to the floor detected by the pressure sensor 310 is greater than a preset value and the noise measured by the noise measurement sensor 320 is greater than a preset value, the inter- ) May determine that an interlayer noise is being generated by the current resident.

The inter-floor noise determining unit 421 can determine that the inter-floor noise is being generated by the current occupant only when the activity sensor 330 continues to perform the activity of the occupant over a predetermined time.

Therefore, even if the change amount of the pressure applied to the floor detected by the pressure sensor 310 is larger than a preset value and the noise measured by the noise measurement sensor 320 is larger than a preset value, If it is confirmed that the occupant is proceeding the noise generating operation in less than one second, the interlayer noise determination unit 421 may determine that the interlayer noise is not occurring.

That is, by preventing the temporary shock from being regarded as the interlayer noise act, it is possible to prevent the alarm from being activated in a situation where the warning is unnecessary.

The occupant breakage determination unit 422 is also determined based on the detection results of the pressure sensor 310, the noise measurement sensor 320, and the activity amount sensor 330 as in the interlayer noise determination unit 421, It is judged whether or not the occupant falls.

For example, if the occupant suddenly falls or falls within the private space, the pressure sensor 310 will sense a change in the large pressure applied to the floor, and the noise measurement sensor 320 will also sense sounds above a predetermined size Will be.

In this situation, when the activity sensor 330 detects that there is no movement such that the occupant exceeds the predetermined time, the occupant falling determination unit 422 determines that the occupant is unable to perform the behavior due to an abnormality in the body of the occupant .

The gas leakage determination unit 423 performs a function of determining whether or not gas leakage occurs in the dedicated space based on the detection result of the gas detection sensor 340.

Specifically, when the gas detection sensor 340 disposed in the dedicated space determines that the gas concentration inside the dedicated space is greater than a predetermined value, the gas leakage determination unit 423 determines that the gas leakage .

5, the driving unit 440 may include an output device driving unit 441, a communication unit 442, a step motor control unit 443, and a window opening / closing control unit 444.

The output device driving unit 441 controls the output device 510 to output a warning sound and an alarm sound based on the determination result of the interlayer noise determination unit 421. [

For example, when the interlayer noise determination unit 421 determines that the current occupant is generating interlayer noise, the output device driver 441 controls the output device 510 so that the output device 510 outputs a warning sound .

The communication unit 442 transmits the address of the private space in which the resident resides and the status information of the resident to the external emergency unit 540 based on the determination result of the resident falling determination unit 422. [

That is, when the fall determination unit 422 determines that the occupant is collapsed and the behavior is impossible, the communication unit 442 transmits the situation information and the address information of the resident to the emergency institution 540 so that the emergency agency 540 Allow the resident to be transferred quickly.

The step motor control unit 443 performs a function of transmitting a control signal to the step motor 522 included in the gas circuit breaker 520 based on the determination result of the gas leakage determination unit 423, Based on the determination result of the gas leakage determination unit 423, sends a control signal to the deceleration motor 40 of the window opening / closing unit 530. [

Specifically, when the gas leakage determination unit 423 determines that gas in the dedicated space has leaked, the step motor control unit 443 applies a drive signal to the step motor 522 provided in the gas circuit breaker 520 The electronic cock 521 is rotated based on the rotation of the step motor 522 so that the gas pipe V is closed so that the gas is no longer leaked in the exclusive space.

At the same time, the window opening / closing control unit 444 opens the window by applying a current to the decelerating motor 40 of the window opening / closing unit 530 so that the gas inside the exclusive space can go out.

As a result, it is possible to prevent further gas leakage in the dedicated space, and at the same time, the already leaked gas is quickly dispersed and discharged to the outside, thereby preventing a large accident caused by gas leakage.

Meanwhile, even if the gas leakage accident prevention system is constructed as described above, the control module 400 may be damaged due to intrusion of external viruses, or an error may occur in the hardware of the control module 400 itself or the operation program itself for various reasons have.

In this case, even if the gas is leaked, it can not be properly detected, and even if it is detected correctly, there is a risk of a serious accident because the rapid response process does not proceed.

Accordingly, in order to prevent the above-described problems, the gas leakage accident prevention system of a multi-unit house according to an embodiment of the present invention includes a control module 400 for controlling two control modules, that is, a first control module 400a and a second control module 400b.

Specifically, the first control module 400a and the second control module 400b are control modules that implement the same functions and include all of the input unit 410, the determination unit 420, and the driving unit 440 described above.

If an abnormality occurs in any one of the first control module 400a and the second control module 400b, the other control module that operates normally controls the gas leakage accident prevention system.

However, when the first control module 400a is infected by the virus inflow from the outside, the second control module 400b may also be infected with the virus by the first control module 400a, There is a need.

Accordingly, the first control module 400a and the second control module 400b can perform the same functions, but it is possible to set different operating processes of the first control module 400a and the second control module 400b desirable.

For example, the first control module 400a may be operated by Windows of Microsoft Corporation, and the second control module 400b may be operated by Apple's OSX.

Further, the first control module 400a and the second control module 400b may have different hardware configurations. For example, the first control module 400a may be manufactured based on a PLC (Programmable Logic Controller) , And the second control module 400b may be fabricated on an FPGA (Field Programmable Gate Array) basis.

Meanwhile, the gas leak accident prevention system of the apartment house according to an embodiment of the present invention further includes a control module abnormality determination module 600.

The control module abnormality determination module 600 detects abnormality of the first control module 400a and the second control module 400b and detects abnormalities of the first control module 400a and the second control module 400b And controls the ON / OFF of at least one of the first control module 400a and the second control module 400b.

6, the control module abnormality determination module 600 includes a first verification data input unit 610, a second verification data input unit 620, a comparison unit 630, an abnormality determination unit 640, And a control module operation selection unit 650.

The first verification data input unit 610 receives the first verification data from the verification data output unit 430 of the first control module 400a and the second verification data input unit 620 receives the first verification data from the second control module 400a. And receives the second verification data from the verification data output unit 430 of the second verification unit 400b.

The comparison unit 630 compares the first verification data and the second verification data and the abnormality determination unit 640 compares the first verification data and the second verification data with the first control module 400a and the second control module 400b based on the comparison result of the comparison unit 630. [ (400b) is abnormal.

The control module operation selecting unit 650 controls the driving unit 440 of the first control module 400a and the driving unit 440 of the second control module 400b based on the determination result of the abnormality determination unit 640 .

For example, when the first verification data and the second verification data are the same as the comparison result in the comparison unit 630, the abnormality determination unit 640 determines whether the first control module 400a and the second control module 400b It is judged that it is operating normally.

In contrast, when the first verification data and the second verification data are not identical as a result of the comparison in the comparison unit 630, the abnormality determination unit 640 determines whether the first control module 400a and the second control module 400b One of them judges that it is not normal.

If there is no reference data, it is possible to check which control module of the first control module 400a or the second control module 400b is abnormal. However, if there is no reference data, The unit 650 should operate with the resident's safety as a top priority.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

200: Reducing material
300:
400: control module
400a: first control module
400b: second control module
500: driving means
600: Control module abnormality determination module

Claims (3)

A system for preventing gas leakage accidents in a shared house including a common space and a plurality of dedicated spaces,
A bottom slab constituting the bottom of the dedicated space;
A reduction material (200) applied on the bottom slab to prevent interlayer vibration noise;
Detecting means (300) for detecting the state of the private space and the state of the resident in the private space;
A first control module (400a) for calculating a current state of the private space and the resident based on detection contents of the detection means (300), the first control module (400a) operating on a first operation process basis;
A second control module (400b) for calculating a current state of the resident of the private space based on the detection contents of the detection means (300), and operating on a second operation process different from the first operation process;
The first control module 400a and the second control module 400b are connected to the first control module 400a and the second control module 400b to detect whether there is an abnormality in the first control module 400a and the second control module 400b, A control module abnormality determination module 600 for controlling on / off of at least one of the first control module 400a and the second control module 400b; And
And driving means (500) provided in the dedicated space and driven based on calculation contents of at least one of the first control module (400a) and the second control module (400b)
The abatement material may include a short pillar 210 disposed on the top and formed of any one material selected from among PE, PP, and PVC; A plurality of steel bands 220 horizontally attached to the lower portion of the short pillar 210 at predetermined intervals and processed into a strip shape; An EVA band 230, which is a rod-like polymer obtained by vertically and vertically attaching a plurality of bars on the upper and lower sides of the steel band 220 and copolymerizing ethylene and vinyl acetate monomer; A heat insulating material block 240 formed of a material selected from the group consisting of polyurethane, EPS, and PE foam, which is attached at regular intervals between the EVA bands 230 and enhances strength and heat insulation effect; And a lower slab 250 attached to the lower portion of the heat insulating block 240,
The detecting means 300 includes a pressure sensor 310 disposed between a lower portion of the end plate 210 and the EVA band 230 and detecting a change amount of a downward pressure applied to the end plate 210; A noise measurement sensor 320 for measuring a noise due to a floor impact of the dedicated space; An activity sensor 330 for sensing the amount of activity of a resident of the private space; And a gas sensing sensor (340) for sensing gas inside the dedicated space,
The driving unit 500 includes an output unit 510 that sounds an alarm to the occupant based on a calculation result of the control module 400; A gas breaker (520) installed in a piping connected to a gas device inside the dedicated space and controlled automatically based on a result of the calculation by the control module (400); And at least one window opening / closing unit (530) that is automatically opened and closed based on the calculation result of the control module (400)
The first control module 400a and the second control module 400b include an input unit 410 receiving information detected by the detection unit 300; A determination unit (420) for determining the current internal state or the state of the occupant based on the signals transmitted to the input unit; A verification data output unit 430 for transmitting a signal from the determination unit 420 to the control module abnormality determination module 600; And a driving unit (440) for controlling the driving unit (500) based on the determination result of the determination unit (420) and the control module abnormality determination module (600)
The gas circuit breaker 520 includes an electronic cock 521 for opening and closing gas piping V connected to gas equipment inside the dedicated space at both ends thereof and a control unit 521 for controlling the bidirectional rotation operation of the electronic cock 521 A charging unit 523 that charges the charging battery that applies power to the stepper motor 522 even when the commercial power supply is shut off; a charging unit 523 that displays the rotating operation state of the electroniccock 521, And a touch screen 524 for performing user input / output,
The window opening and closing unit 530 is provided with a rack gear 70 on the window frame 20 and a drive gear 50 driven by the deceleration motor 40 is installed on the window 10, 10 is formed to be automatically opened and closed and a space portion 11 opened to the rail 21 side of the window frame 20 is formed inside the window 10 and is inserted into the space portion 11 And the driving gear 50 rotated by the decelerating motor 40 is fixed to the rack gear 70 by means of the height adjusting means 60. [ Gas leakage accident prevention system.
The method of claim 1, wherein the control module abnormality determination module (600)
A first verification data input unit 610 receiving the first verification data from the verification data output unit 430 of the first control module 400a;
A second verification data input unit 620 receiving the second verification data from the verification data output unit 430 of the second control module 400b;
A comparing unit 630 comparing the first verification data and the second verification data;
An abnormality determination unit (640) for determining whether at least one of the first control module (400a) and the second control module (400b) is abnormal based on the comparison result of the comparison unit; And
A control module operation selection unit (not shown) for controlling the driving unit 440 of the first control module 400a and the driving unit 440 of the second control module 400b based on the determination result of the abnormality determination unit 640 650);
A gas leakage accident prevention system for a residential house including the gas leakage prevention system.
The method of claim 2,
The determination unit 420 includes an inter-layer noise determination unit 421 for determining whether or not an inter-layer noise is generated based on the detection results of the pressure sensor 310, the noise measurement sensor 320, and the activity amount sensor 330; A resident fall determination unit (422) for determining whether or not the occupant has fallen based on the detection result of the pressure sensor (310), the noise measurement sensor (320), and the activity amount sensor (330); And a gas leakage determination unit (423) for determining whether or not gas leakage occurs in the dedicated space based on the detection result of the gas detection sensor (340)
The driving unit 440 includes an output device driver 441 for controlling the output device 510 to output a warning sound based on the determination result of the inter-layer noise determination unit 421 and the gas leakage determination unit 423, ); A communication unit 442 for transmitting the address of the private space and the status information of the current resident to the external emergency unit 540 based on the judgment result of the resident falling determination unit 422; A step motor control unit (443) for controlling power supply to the step motor based on the detection result of the gas detection sensor (340); And a window opening / closing control unit (444) for sending a control signal to the deceleration motor based on the detection result of the gas detection sensor (340).

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