KR102395968B1 - The structure of the terminal box for the information network of the apartment building linked with artificial intelligence - Google Patents

Abstract

The present invention relates to the structure of a terminal box for an information and communications network of an apartment building linked with artificial intelligence and, more specifically, to the structure of a terminal box for an information and communications network of an apartment building linked with artificial intelligence, which is an information and communications terminal box that builds an information and communications network in an apartment building, controls the standby power of power strips used in the household in conjunction with artificial intelligence, thereby preventing power waste, can be installed inside the concrete wall of a building or fixed and attached to the concrete wall of an apartment building, enables non-combustible material with improved fireproof performance to protect the terminal box in the event of a fire to prevent the terminal box from being lost even in the event of a fire, thereby providing communication functions. The structure comprises a controller (CT) for performing control so that no standby power is generated.

Description

The structure of the terminal box for the information network of the apartment building linked with artificial intelligence

The present invention relates to a structure of an information communication network terminal box for an apartment building in connection with artificial intelligence in the field of communication technology, and more particularly, it is an information communication terminal box for building an information communication network in an apartment house. It prevents power wastage by controlling the It relates to a structure of an information network terminal box for an apartment house linked with an improved artificial intelligence to protect the communication function by preventing the communication terminal box from being lost.

In general, a number of multi-outlets are used in each household in an apartment building, and in the case of a computer or set-top box, the standby waits for the next signal while consuming a certain amount of power unless the plug is unplugged even when the power is turned off. power will be consumed.

Since such standby power is wasted nationally as well, recently, each multi-outlet is equipped with a switch-type button, which is equipped with a function to turn it off one by one.

However, it is not easy for users to turn them on and off, and it is easy to forget them, so the efficiency is not very high.

Meanwhile, an information communication terminal box for constructing various communication lines is installed in an apartment house.

This information communication terminal box is a terminal box of the type that is mainly buried in the outer wall. In order to embed the information communication terminal box of this buried type into the wall, it is necessary to place and temporarily fix the location before pouring the wall concrete, then pour the concrete mortar and then cure it.

These information and communication terminal boxes are usually manufactured with a steel structure, but in recent years, they are often molded into a plastic structure due to the development of high-strength plastics. However, they have a limitation in that they are vulnerable to fire because of their lack of fire resistance.

Republic of Korea Patent Registration No. 10-2190190 (2020.12.07.) Integrated housing information and communication management system using artificial intelligence

The present invention was created to solve the problems in the prior art as described above, and it is an information communication terminal box for constructing an information and communication network in an apartment house. In addition, it can be installed inside the concrete wall of a building or fixedly attached to the concrete wall of a multi-family house and installed in the event of a fire, and the fire resistance is strengthened and non-combustible material protects the terminal box even in the event of a fire. Its main purpose is to provide a terminal box structure for an apartment housing information network connected with an improved artificial intelligence to protect the communication function by preventing it from being lost.

The present invention is a means for achieving the above object, one side of the wall 100, the communication terminal box 200 installed in an embedded form; Standby power controller 10 built in the communication terminal box 200 and capable of short-range wireless communication; Including, the multi-outlet 20 provided in the household, the current flowing in from the plug 22 flows to each outlet 26 through the current change detector 24 having a switching function. and the current change detector 24 is configured to transmit the sensed current value to the standby power controller 10 through the wireless communication module 28, and the wireless communication module 28 includes the standby power controller (10) a controller (CT) communicating wirelessly is built-in, the controller (CT) is connected to the current change sensor (24) to control;

The communication terminal box 200 is installed on the upper side of the communication terminal box 200 of the embedded wall 100 at a distance a screen box 300; a drum 320 installed inside the screen box 300; A fire screen 310 wound around the drum 320 and descending to the front of the communication terminal box 200 to cover, flame-retardant treatment; a gearbox 400 installed on one side of the screen box 300; a fire prevention motor 330 operating to wind or unwind the fire screen 310 via the gear box 400; It is installed on the fire prevention motor 330, and receives a signal from a fire alarm, a drive controller 340 for controlling the operation of the fire protection motor 330; provides

According to the present invention, as an information communication terminal box for constructing an information communication network in an apartment house, standby power of a multi-outlet used in a household is controlled in conjunction with artificial intelligence to prevent power wastage, and furthermore, it is installed inside a concrete wall of a building or installed in a multi-outlet house. It can be fixedly attached to the concrete wall and installed, and in the event of a fire, the fire-resistance performance is strengthened, so that non-combustible materials protect the terminal box so that the information communication terminal box does not disappear even in the event of a fire, so that the improved effect can be obtained to protect the communication function. there is.

1 is a schematic configuration diagram for explaining the standby power blocking function of the terminal box structure of the apartment housing information communication network connected with artificial intelligence according to the present invention.
2 is an exemplary view showing the overall configuration with a fire prevention function of the terminal box structure of the apartment housing information communication network connected with artificial intelligence according to the present invention.
3 and 4 are exemplary views showing an extract of the main part of FIG. 1 .

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

The apartment housing information communication network terminal box structure in connection with artificial intelligence according to the present invention includes a communication terminal box 200 installed in an embedded form on one side of the wall 100 as illustrated in FIG. 1 .

And, the communication terminal box 200 has a built-in standby power controller (10).

In this case, the standby power controller 10 may be a controller with a learning function in a neural network processing method, is configured to collect information in a short-range wireless communication method, and is configured to respond only to a specific signal.

In addition, all multi-outlets 20 provided in the household should be replaced with those having the following structure.

For example, the current flowing in from the plug 22 should be configured to flow to each outlet 26 through the current change detector 24 , and the current change detector 24 transmits the sensed current value to the wireless communication module 28 . ) is configured to transmit a specific signal through

To this end, the wireless communication module 28 has a built-in controller CT that wirelessly communicates with the standby power controller 10 , and the controller CT is also connected to the current change detector 24 .

In addition, the current change sensor 24 may be a kind of ammeter having a switch function.

Thus, if the current value transmitted from the multi-outlet 20 does not change for a certain period of time, for example, about 1 hour, it is determined that it is a standby power state, and the standby power controller 10 transmits an off signal and receives it. The controller CT activates the switch function of the current change detector 24 to switch it off, so that the power flowing in through the multi-outlet 20 is not distributed to each outlet 26 and is blocked so as not to generate standby power. do.

Through this, it is possible to prevent wastage of power consumption.

On the other hand, as in the examples of Figures 2 and 3, the screen box 300 is installed at an upper side of the communication terminal box 200 at an interval.

The screen box 300 is provided in a way that is fixed to the surface of the wall 100, not a buried structure.

The screen box 300 is a member having a fire screen 310 built-in, and a drum 320 is rotatably fixed inside the screen box 300, and the fire screen 310 is wound around the drum 320. kept as is

In addition, a fire prevention motor 330 is installed on one side of the screen box 300 with a gear box 400 interposed therebetween, and the fire prevention motor 330 is further provided with a drive controller 340 for controlling its driving. .

In particular, the drive controller 340 is connected to the fire alarm of the fire hydrant and detects when the fire alarm that has received a fire occurrence signal from the fire detector issues a fire alarm, the drive controller 340 operates the fire motor 330 . configured to do

Therefore, when a fire occurs in the vicinity of the communication terminal box 200 according to the present invention, the drive controller 340 immediately detects this and starts a fire prevention operation capable of protecting the communication terminal box 200 .

In this case, it is preferable that the fire alarm is connected to the main server of the apartment house so as to notify the facility manager, the supervisor, the management director, and the competent fire department at the same time in case of a fire alarm.

In addition, the fire screen 310 is configured to be as light as possible, and it is preferable to use a flame-retardant cloth type.

To this end, the fire screen 310 is a fabric made by weaving a filament spun with a mixed resin in which polycarbonate resin and polystyrene resin are mixed in a weight ratio of 1:2 with expanded graphite, aluminum hydroxide and PEBAX (Polyether-block-amide). A flame-retardant-treated product is used by immersing it in a mixture mixed in a weight ratio of 2:2:6 and then drying.

In this case, polycarbonate resin is a typical heat-resistant resin, and polystyrene resin is a typical fire-resistant resin.

In addition, since expanded graphite has a layered structure of graphite, when atoms or small molecules are inserted between the layers and heat is applied, it separates like an accordion and expands hundreds of times. Strengthens incombustibility.

In addition, aluminum hydroxide prevents hydrophobicization of the polymer and induces hydrophilization to increase bonding strength and enhance incombustibility.

In addition, PEBAX (Polyether-block-amide) has a small change in hardness even at low temperatures, excellent fatigue resistance, and has excellent molding processability due to its small specific gravity. It has excellent adhesion and good occlusion with expanded graphite, which rapidly increases incombustibility and fire resistance according to occlusion.

On the other hand, the upper surface of the screen box 300 is integrally provided with a fire protection liquid tank 500 filled with a fire protection liquid.

In addition, a buffer chamber BC is installed on the front side of the screen box 300 .

At this time, the fire protection liquid tank 500 is a rectangular box-shaped member, and a lower end surface of one end is provided with a pipe PP communicating with the buffer chamber BC, and the driving controller 340 is provided at the pipe pipe PP. A solenoid valve (SOL) controlled by opening and closing is installed, and a plurality of injection nozzles 510 are installed in the longitudinal direction on the lower end surface of the buffer chamber BC, and the end of the injection nozzle 510 is the fire screen ( 310) is bent at a certain angle so that it can be sprayed toward the outer surface.

In addition, a screw shaft 520 that rotates in place is installed in the fire protection tank 500 , and a push plate 530 is screw-coupled to one end of the screw shaft 520 .

In addition, one end of the screw shaft 520 is exposed to the outside through one end surface of the fire protection tank 500 in a sufficiently sealed state, and is gear-coupled to receive power from the inside of the gear box 400 .

At this time, as in the example of FIG. 4 , the first bevel gear BG1 is fixed to the exposed end of the screw shaft 520 inside the gearbox 400 , and the first bevel gear BG1 is the second bevel gear It is gear-coupled vertically to (BG2), and a third bevel gear (BG3) is fixed to the other end of the gear shaft (SF) of the second bevel gear (BG2), and the third bevel gear (BG3) is a motor shaft ( The fourth bevel gear BG4 fixed to 332 is gear-coupled vertically, and the drum shaft 322 protruding from the drum 320 is coupled to the motor shaft 332 .

Therefore, when the fire prevention motor 330 is driven, the drum 320 is rotated and the fire screen 310 is lowered while covering the front of the communication terminal box 200 to block the flame from coming in.

In addition, as the fire screen 310 is unfolded, the push plate 530 squeezes the fire protection liquid while moving to the opposite side according to the rotation of the screw shaft 520 .

In addition, since the solenoid valve SOL is opened at the same time, the squeezed fire protection liquid flows into the buffer chamber BC and then is sprayed to the outer surface of the fire screen 310 through each injection nozzle 510 to the fire screen 310 completely wet the outer surface of

That is, the outer surface of the fire screen 310 is coated with a fire protection liquid to further increase the fire protection function.

To this end, the fire protection liquid is composed of 15 parts by weight of barium carbonate, 10 parts by weight of rosin, 20 parts by weight of white clay nanopowder, 20 parts by weight of PVDF (polyvinylidene fluoride) and 20 parts by weight of carbon black with respect to 100 parts by weight of water. .

At this time, when the barium carbonate receives heat, it further promotes aggregation and strengthens the bonding force of the crystal structure to increase the fire resistance.

And, the rosin blocks oxygen by airtightening according to the formation of a surface film, and through this, enhances self-extinguishing properties in case of fire, thereby realizing a suffocation extinguishing function.

In addition, the white clay nanopowder is a powder having a nano-sized particle size and solidifies by high heat to form a fire resistant film, and through this, a non-combustible layer is made to enhance non-combustibility.

In addition, PVDF forms a fire resistant film as non-flammability, that is, non-combustibility, is rapidly increased through bonding with carbon provided from carbon black due to the piezoelectric properties of the β-phase and the high surface energy of nanoparticles.

In order to test the incombustibility when this fire protection liquid was sprayed, the fire protection properties were tested according to KS F 3504 by spraying the fire protection liquid on the fire screen 310 and then spraying the flame.

As a result of the test, it was judged as flame retardant class 1, and internal fire was also blocked and fire resistance properties were also confirmed.

Through this, it was confirmed that the communication terminal box according to the present invention can be perfectly protected.

100: wall 200: communication terminal box
300: screen box 400: gearbox
500: fire protection tank

Claims (1)

On one side of the wall 100, the communication terminal box 200 installed in an embedded form; A standby power controller 10 built in the communication terminal box 200 and capable of short-range wireless communication; Including, the multi-outlet 20 provided in the household, the current flowing in from the plug 22 flows to each outlet 26 through the current change detector 24 having a switching function. and the current change detector 24 is configured to transmit the sensed current value to the standby power controller 10 through the wireless communication module 28, and the wireless communication module 28 includes the standby power controller (10) a controller (CT) communicating wirelessly is built-in, the controller (CT) is connected to the current change sensor (24) to control; The communication terminal box 200 is installed on the upper side of the communication terminal box 200 of the embedded wall 100 at a distance a screen box 300; a drum 320 installed inside the screen box 300; A fire screen 310 wound around the drum 320 and descending to the front of the communication terminal box 200 to cover, flame-retardant treatment; a gearbox 400 installed on one side of the screen box 300; a fire prevention motor 330 operating to wind or unwind the fire screen 310 via the gear box 400; In the structure of a terminal box structure for an apartment information communication network connected with artificial intelligence, which is installed in the fire prevention motor 330, and receives a signal from a fire alarm to control the operation of the fire alarm motor 330;
The fire screen 310 is a fabric made by weaving a filament spun with a mixed resin in which polycarbonate resin and polystyrene resin are mixed in a weight ratio of 1:2. Expanded graphite, aluminum hydroxide and PEBAX (Polyether-block-amide) are 2: Flame-retardant treatment by immersion in the mixed mixture in a weight ratio of 2:6 and drying;
A fire protection liquid tank 500 filled with a fire protection liquid is integrally provided on the upper surface of the screen box 300 , and a buffer chamber BC is installed on the front surface of the screen box 300 , and the fire protection liquid tank 500 ) is a rectangular box-shaped member, and a passage pipe (PP) communicating with the buffer chamber (BC) is provided on the lower end surface of one end, and a solenoid valve (SOL) that is opened and closed by the drive controller (340) in the clearance pipe (PP) is installed, and a plurality of injection nozzles 510 are installed in the longitudinal direction on the lower end surface of the buffer chamber BC, and the ends of the injection nozzles 510 are sprayed toward the outer surface of the fire screen 310. It is bent at a certain angle so as to be able to, and a screw shaft 520 that rotates in place is installed inside the fire protection tank 500 , and a push plate 530 is screw-coupled to one end of the screw shaft 520 , , one end of the screw shaft 520 is exposed to the outside through one end surface of the fire protection tank 500 in a sealed state, and then is gear-coupled to receive power from the inside of the gear box 400;
A first bevel gear BG1 is fixed to the exposed end of the screw shaft 520 inside the gear box 400, and the first bevel gear BG1 is vertically coupled to the second bevel gear BG2. A third bevel gear BG3 is fixed to the other end of the gear shaft SF of the second bevel gear BG2, and the third bevel gear BG3 is a fourth bevel gear fixed to the motor shaft 332. It is vertically geared with the gear (BG4), and the drum shaft (322) protruding from the drum (320) is coupled to the motor shaft (332).

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