KR101315723B1 - Power distributing board for power supply arrangement of apartment house - Google Patents

Abstract

PURPOSE: A distribution panel for the stable power arrangement of an apartment house is provided to rapidly suppress fire when the fire breaks out by an electrical accident by comprising a fire sensing sensor and a fireplug inside. CONSTITUTION: A base panel is formed with an insulating material. The base panel is fixed inside a shield case. A branch circuit (3) is installed at the base panel. The branch circuit has an input terminal (3a) and an output terminal (3b). A switching device (4) connects or disconnects the branch circuit.

Description

POWER DISTRIBUTING BOARD FOR POWER SUPPLY ARRANGEMENT OF APARTMENT HOUSE}

The present invention relates to a switchboard for a stable power distribution of a multi-unit house, more specifically by providing a fire sensor and a fire hydrant inside the protective case can be quickly suppressed during the electric fire due to damage to the incoming, outgoing line Improved multi-unit housing to minimize the burnout of wired lead-out and lead-out wires by spreading the flames through the lead-out and lead-out lines, and to measure smoothly and stably without disconnection of the lead-in wire when measuring the torsional strength of the power-side lead-in wire The switchboard for the stable power supply layout of the.

In general, the switchboard for branching the supply power supply to the customer as shown in Figure 1, the base panel 2 of the insulating material is fixed to the interior of the protective case (1); A branch circuit (3) installed in the base panel (2) and having an input terminal (3a) and an output terminal (3b); It is provided with the switchgear 4 which is provided in the middle part of the branch circuit 3, and connects or interrupts the branch circuit 3. As shown in FIG.

And, the terminals (3a, 3b) formed on the primary side and the secondary side of the branch circuit (3) lead, lead wires (5, 6) are connected, respectively, lead, lead wires (5, 6) is 1 It is divided into a power supply side lead-in line 5 connected to the vehicle side and a branch side lead-out line 6 connected to the secondary side, and outputs the power supplied through the power supply side lead-in line 5 through the branch side lead-out line 6. .

In the conventional distribution panel as described above, a part of the electric wire is cut off to cause an electric short circuit, or a penetrating water flows into the inner side of the cover wire which has lost the protection function due to aging, and is in contact with a current flowing wire, resulting in a short circuit and a short circuit. Since there is a problem that the wires wired inside are all burned out at one time, there is a need for a method for quickly extinguishing a fire.

On the other hand, the conventional switchgear as described above is a problem that when using the lead, the lead wires (5, 6) for a long time, the physical properties such as the strength or resistance of the cable can be changed due to aging or deterioration of the lead, lead wires (5, 6) In addition, the connection part of the lead-out and lead wires 5 and 6 and the terminals 3a and 3b is frequently loosened during use.

In order to solve this problem, it is necessary to continuously inspect and manage the incoming and outgoing ships (5,6). However, since many switchboards are usually installed, it is quite difficult to continuously inspect and manage the incoming and outgoing ships (5,6). There was a difficult problem.

Therefore, in the event of a fire, it is quickly extinguished to minimize the damage caused by the fire, while the incoming and outgoing wires 5 and 6 are aging or deteriorated, or the connection between the incoming and outgoing wires 5 and 6 and the terminals 3a and 3b is loose. There is a need for an easy way to see what is happening.

Patent registration No. 1034566 (2011.05.04.) "Distribution panel for the stable power distribution of public housing" has been disclosed by the necessity as described above.

Patent No. 1034566 disclosed in the prior art is configured so as to minimize the loss of the wiring in the event of fire by connecting the fire hydrant through a fire detection function, and also to check the tension periodically to ensure safe management.

However, in the tension check configuration, when the lead wire in which a constant tension is maintained is forcibly flowed, the lead wire easily breaks (breaks) between the clamp and the strength measuring mechanism, which is fixed thereto. In particular, the clamp or the like simply fixes the lead wire. Due to its structure, the buffering capacity is low, and if a forcing force is applied, the possibility of breaking around the support point increases, which in turn exposes the disadvantage of adversely affecting the function of the periodic test.

Patent Registration No. 10-1034566 (2011.05.04.) "Switchboard for stable power layout of public housing"

The present invention has been made to solve the above problems, and in the event of a fire in the protective case to quickly extinguish it, minimizing the burning of all the wires wired, deterioration of the wire or connection between the wire and the terminal The purpose of the present invention is to provide a switchboard for a stable power layout of a multi-family house that can easily check the status, but especially maintain the structurally stable state when checking the deterioration state of the wire.

The present invention is a means for achieving the above object, the base panel 2 of the insulating material is fixed to the interior of the protective case (1); A branch circuit (3) installed in the base panel (2) and having an input terminal (3a) and an output terminal (3b); A switch 4 provided at an intermediate portion of the branch circuit 3 to connect or disconnect the branch circuit 3, and each of the terminals 3a and 3b formed on the primary side and the secondary side of the branch circuit 3, respectively. Notice that the power supply lead 5 and the branch lead wire 6 are connected to branch the electricity supplied through the power supply lead 5 to the branch circuit 3 to output through the branch lead wire 6. In switchboard of; The switchgear (4) is composed of an electronic switch (4) for connecting or shielding the branch circuit (3) in accordance with the control signal of the control unit (70); The clamp 10 which is provided on the base panel 2 and can be fixed by inserting the middle portion of the lead wire 5: It is provided in the clamp 10 and measures the temperature of the lead wire 5 and outputs it to the control unit 70. Wiring temperature measuring sensor 20: connected to the lead wire (5) and measuring the power supplied through the lead wire (5) power measuring means 30 for outputting to the control unit 70: the power side of the base panel (2) A guide rail 41 fixed to the lead line 5 in a direction crossing the extension direction; A slide block 42 movably installed on the guide rail 41; A support block 43 provided on the slide block 42 and having an insertion groove 43a on which one side of the power supply line 5 is inserted and fixed; A pressure sensor 44 provided between the slide block 42 and the support block 43; Equipped with a reciprocating drive mechanism 45 connected to the slide block 42 to reciprocate the slide block 42 back and forth, it is connected to the middle portion of the lead wire 5 and is controlled by the control unit 70 and the lead wire 5 ) And the control unit to measure the pressure applied to the support block 43 when the slide block 42 is reciprocated by the reciprocating drive mechanism 45 as well as to bend by pressing in the lateral direction Strength measuring mechanism 40 for outputting to 70: Fire detection sensor 50, which is provided on one side of the protective case 1 and detects when a fire occurs and outputs a fire detection signal to the control unit 70: Control unit A fire hydrant having an injection valve 61 which is operated and controlled by a hydrant operation signal of 70, and the fire extinguishing liquid filled therein is injected into the protection case 1 through the injection valve 61 to extinguish the fire zone. 60: from the wiring temperature measuring sensor 20 and the power measuring means 30 The measured value of each input is compared with the reference value set in advance, but when the temperature of the lead wire 5 is abnormally increased compared to the power supplied through the lead wire (5) operation control of the strength measuring mechanism (40) The strength of the lead wire 5 is measured, and it is determined whether the lead wire 5 is deteriorated or the connection state between the lead wire 5 and the terminal 3a is poor according to the measured result. Outputs different alarm signals, and if the temperature of the lead wire 5 exceeds the reference value, the switch 4 is immediately turned off to cut off the power supply, and the fire detection signal is received from the fire detection sensor 50 to provide a fire hydrant. Control unit 70 for operation control of 60: further comprises an alarm means (80) which is operation controlled by the control unit 70 to emit sound to the outside, the clamp 10 and the support block 43 The inner diameter of the buffer member 100 for fixing the lead wire 5 is Being fitted, the buffer member 100 is formed of silicon in a tubular shape, the filling hole 220 is formed on a portion of the outer peripheral surface, a portion is made of a cut shape; The cut portion of the shock absorbing member 100 is connected to the connector 200, and the connector 200 is formed of a cylindrical fixed body 210 and a cylindrical fastening body 230; The fixed body 210 has a hook fixing part 215 formed at both ends at intervals from the inner diameter to the outer diameter at the first jaw 212, the second jaw 214, and the second jaw 214, respectively; One end of the fastening body 230 is fitted to the fixed body 210 while the inclined surface extending inclined from the first jaw fitting portion 232, the first jaw fitting portion 232 is caught on the first jaw (212) ( 234); The cut openings of the shock absorbing member 100 are inserted into the fixed body 210 in the state in which the cut openings are inserted into the inner diameter of the fastening body 230 and then inverted to be in contact with the outer diameter. Provides a switchboard for a stable power distribution of the multi-family housing, characterized in that configured to be engaged between and sealed between (230).

According to the present invention, by providing a fire detection sensor and a fire hydrant in the protective case, it is possible to quickly extinguish an electric fire due to the damage of the lead-out and lead-out wires. You can minimize the burn of all lines.

In addition, if the temperature of the wiring rises abnormally compared to the power supplied through the wiring, the strength of the wiring is measured by means of a strength meter to determine whether the temperature rise is due to the deterioration of the wiring or a poor connection state between the wiring and the terminal. It has a merit that it can safely and accurately judge and output different alarm signals according to the judgment result so that the administrator can cope with it properly.

1 is a block diagram showing a general switchboard.
Figure 2 is a block diagram showing a switchboard for a stable power distribution of the multi-family house according to the present invention.
Figure 3 is a block diagram showing the interrelationship between each component in the switchboard for a stable power distribution of the multi-unit house according to the invention.
Figure 4 is a reference diagram showing a separate extract of the clamp in the switchboard for a stable power distribution of the multi-unit housing according to the present invention.
5 and 6 is a reference diagram showing a switchboard for a stable power distribution of the multi-family house according to the present invention.
Figure 7 is an exemplary partial cross-sectional view showing a reinforcement example that complements the structure of the strength measuring mechanism for a stable power arrangement of the multi-family house according to the present invention.

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

Prior to the description of the present invention, the following specific structures or functional descriptions are exemplified only for the purpose of describing the embodiments according to the inventive concept, and the embodiments according to the inventive concept may be implemented in various forms. It should not be construed as limited to the embodiments described in the specification.

In addition, the embodiment according to the concept of the present invention may be variously modified and may have various forms, specific embodiments will be illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention uses the previously registered Patent No. 1034566 which will be described later. Therefore, the features of the device configuration described below are all those described in the registered patent No. 1034566.

However, the present invention further includes a content of preventing the lead wire from being disconnected or peeling off by further adding a cushioning member to the clamp and the support block in the configurations disclosed in the Patent No. 1034566, which is the core Achieve its structural features.

Therefore, the device configuration, features and operation relations described below will be referred to the contents of the Patent No. 1034566 as it is, and will be described in detail with respect to the configuration associated with the main features of the present invention at the rear end.

2 to 6, the switchboard for a stable power distribution of the multi-unit housing according to the present invention, the base panel 2 of the insulating material is fixed to the interior of the protective case (1); A branch circuit (3) installed in the base panel (2) and having an input terminal (3a) and an output terminal (3b); A switch 4 provided at an intermediate portion of the branch circuit 3 to connect or disconnect the branch circuit 3, and each of the terminals 3a and 3b formed on the primary side and the secondary side of the branch circuit 3, respectively. The power supply side lead line 5 and the branch side lead line 6 are connected to the branch circuit 3 to branch the electricity supplied through the power supply line 5 to output through the branch side lead line 6 Same as before.

At this time, the switch 4 is an electronic switch 4 for connecting or shielding the branch circuit 3 in accordance with the control signal output from the control unit 70 to be described later, the power supplied through the power supply lead 5 If it rises above the specified power value, it is desirable to configure it to function as a breaker to disconnect the circuit. Since the electronic switch 4 as described above is already widely applied in the art, a detailed description thereof will be omitted.

In addition, the switchboard for a stable power distribution of the multi-unit housing according to the present invention, the base panel (2) is provided with a clamp (10) to be fixed to the middle portion of the lead wire (5); A wire temperature sensor 20 provided in the clamp 10 and measuring the temperature of the lead wire 5 and outputting the measured temperature to the control unit 70; A power measurement means 30 connected to the lead wire 5 and measuring the power supplied through the lead wire 5 and outputting the measured power to the control unit 70; An intensity measuring mechanism 40 connected to an intermediate portion of the power supply lead 5 to pressurize the power supply lead 5 in the lateral direction so as to bend; A fire detection sensor 50 provided at one side of the protective case 1 and detecting the occurrence of a fire and outputting a fire detection signal to the control unit 70; With the injection valve 61 which is operated and controlled by the hydrant operation signal of the control unit 70, the extinguishing liquid filled therein is injected into the protection case 1 through the injection valve 61 to extinguish the fire zone. Fire hydrant 60 and; It is electrically connected to the wiring temperature measuring sensor 20, the power measuring means 30, the strength measuring instrument 40 and the fire detection sensor 50, and operates the switch 4, the fire hydrant 60 and the alarm means 80. A control unit 70 for controlling; It should be noted that the alarm means 80 which is operation controlled by the control unit 70 is further provided with reinforcement.

As shown in FIG. 4, the clamp 10 is provided in the base panel 2 so that the middle portion of the power supply side lead line 5 can be fitted and fixed. In the embodiment of the present invention is fixed to the upper surface of the base panel 2, is located outside the input terminal (3a) of the primary side, the upper surface is formed with a concave groove 11 is inserted into the power supply side lead line 5 is formed concave groove Insert the power supply side lead wire (5) into (11) so that it does not move.

The wiring temperature measuring sensor 20 is a known temperature sensor and is electrically connected to the control unit 70. In the embodiment of the present invention is installed in the concave groove 11 of the clamp 10, exposed inward, in close contact with the circumferential surface of the power supply lead 5 fixed to the clamp 10 to adjust the temperature of the power supply lead 5 It measures continuously and delivers the measured value to the control unit 70.

The power measuring means 30 is connected to the input terminal 3a of the primary side to measure the power supplied through the power supply lead 5, that is, the watt, and is supplied through the power supply lead 5. Measures the power outputs to the control unit 70.

Various power measuring means are used, and the installation and connection positions may be changed in various ways depending on the type of power measuring means to be applied, and thus the drawings are not shown in the detailed description and the drawings.

Referring to FIG. 5, the strength measuring mechanism 40 includes a guide rail 41 fixed to the power supply side lead line 5 of the base panel 2 in a direction crossing the extension direction; A slide block 42 movably installed on the guide rail 41; A support block 43 provided on the slide block 42 and having an insertion groove 43a on which one side of the power supply line 5 is inserted and fixed; A pressure sensor 44 provided between the slide block 42 and the support block 43 and measuring the pressure applied to the support block 43 and outputting the pressure to the control unit 70; It is composed of a reciprocating drive mechanism 45 connected to the slide block 42 for reciprocating the slide block 42 back and forth.

According to an embodiment of the present invention, both sides of the upper surface of the slide block 42 are provided with support portions 42a for supporting both sides of the support block 43, and the support blocks 43 are laterally disposed between the support portions 42a. It is installed to be slidable, the pressure sensor 44 is positioned between the support 42a and the support block 43 is configured to measure the force that the support block 43 is pressed in the lateral direction.

The reciprocating drive mechanism 45 is composed of a screw shaft 45a coupled to the slide block 42 to be parallel to the guide rail 41, and a drive motor 45b for forcibly rotating the screw shaft 45a.

According to the exemplary embodiment of the present invention, when the screw shaft 45a is forcibly rotated through the drive motor 45b, the slide block 42 installed on the screw shaft 45a is disposed in the rotational direction of the drive motor 45b. As a result, they move forward or backward.

Therefore, as shown by a dotted line in FIG. 6, when the slide block 42 is reciprocated by the reciprocating drive mechanism 45 and the middle portion of the power supply lead wire 5 is pushed to one side, it is supported by the power supply lead wire 5. A resistance force is generated in the block 43, and the pressure sensor 44 measures the pressure applied to the support block 43 to indirectly measure the torsional strength of the power supply-side lead wire 5.

The strength measuring mechanism 40 uses that the strength of the wire changes when the lead wire 5 is deteriorated. When the strength of the lead wire 5 measured using the pressure sensor 44 becomes abnormally high or weak, It can be determined that the lead wire 5 is deteriorated.

Inside the protective case (1), the fire detection sensor 50 is installed on the upper surface of the protective case (1), and detects the heat generated during the fire to output a fire detection signal to the control unit (70); The fire hydrant 60 is controlled by the control unit 70 to inject fire extinguishing liquid into the fire zone to extinguish the fire.

The fire sensor 50 is a conventional heat sensor, the lead wires (5, 6) is damaged by rodents, such as rats, and a part of the wires are broken to cause a fire due to electrical short circuit or to protect due to aging When a fire occurs due to a short circuit or a short circuit due to infiltration water flowing into the inside of the insulated wire which has lost its function and causing a short circuit, a heat sensor, that is, a fire sensor 50, generates high-temperature heat generated during the fire. It detects and transmits a fire detection signal to the control unit (70).

Accordingly, the control unit 70 receiving the fire detection signal from the fire detection sensor 50 transmits the hydrant operation signal to the injection valve 61 of the hydrant 60 disposed at the inner upper end of the protective case 1. Thus, the extinguishing liquid is injected through the injection valve 61 into the inside of the protective case 1 in which the inlet / outlet lines 5 and 6 are wired to extinguish the fire quickly.

The fire hydrant 60 is made of a steel container with a hard outer surface, and is filled with a fire extinguishing agent and compressed air or a non-combustible gas (nitrogen, carbon dioxide, halogen gas) liquefied at a high pressure, and one side of the container is filled inside. The injection valve 61 for controlling the outflow of the extinguishing agent and incombustible gas is installed.

In the exemplary embodiment of the present invention, when the hydrant operation signal is input from the control unit 70, the inlet of the injection valve 61 is opened, and at this time, the extinguishing agent and the non-combustible gas filled in the steel container are discharged by internal pressure. 61. The inlet and the outgoing line 5 and 6 are injected into the inside of the protective case 1 wired through the inlet so as to extinguish the fire area for a moment, thereby minimizing the damage caused by the fire. have.

The control unit 70 receives the respective measured values from the wiring temperature measuring sensor 20 and the power measuring means 30 and compares them with the reference values set in advance, compared to the power supplied through the lead wire 5. When the temperature of (5) rises abnormally, the strength measuring mechanism 40 is operated to measure the strength of the lead wire 5, and according to the measured result, whether the lead wire 5 is deteriorated or It is determined whether the connection state between the terminals (3a) is bad, and outputs different alarm signals to the alarm means 80 according to the determined result, and if the temperature of the lead wire 5 exceeds the reference value, the electronic switch 4 immediately It turns off the power supply. In addition, the control unit 70 receives the internal temperature from the internal temperature measuring sensor 50 and performs a function of controlling the fan 60 when the internal temperature is equal to or greater than the reference value.

In more detail, if the power supplied through the power supply lead 5 is within a reference value (acceptable range), the temperature of the power supply lead 5 maintains a temperature similar to the internal temperature of the protective case 1. do. In addition, the control unit 70 may abnormally increase the temperature of the lead wire 5 with respect to the internal temperature of the protective case 1 while the power supplied through the power supply lead wire 5 is within a reference value (acceptable range). In this case, it means that a serious deterioration occurs in the lead wire 5 or the connection of the lead wire 5 and the input terminal (3a) is loosened.

Accordingly, the control unit 70 receives the measured value from the wiring temperature measuring sensor 20 and compares the measured value with a preset reference value. When the temperature of the lead wire 5 is abnormally high, the power measuring means 30 If the electric power supplied through the power supply side lead-out line 5 is measured and the electric power is below the reference value (permissible range), the reciprocating drive mechanism 45 of the strength measuring mechanism 40 is operated to measure the power supply side lead-in line 5. While receiving the pressure value from the pressure sensor 44 while pushing in the direction to measure the strength of the power supply side lead wire (5).

When the measured strength of the power supply side lead wire 5 is higher or lower than the set reference value (normal value), the control unit 70 determines that the power supply side lead wire 5 is deteriorated to notify the degradation of the lead wire 5. If a warning signal is output and the strength of the power supply lead 5 does not differ significantly from the set reference value, the connection between the power supply lead 5 and the primary input terminal 3a is loosened and the resistance increases accordingly. It is determined that the temperature of the power supply side lead wire 5 has risen, and the connection of the lead wire 5 outputs a warning signal informing the phase.

In addition, the warning signal outputs a control signal for controlling the electronic switch 4 when the temperature of the lead wire 5 rises above the prescribed value, and turns off the electronic switch 4 provided in the branch circuit 3 to turn off the electric power. The supply will be shut off at the source.

On the other hand, the incoming and outgoing ships (5, 6) are damaged by rodents such as rats, and a part of the lead wires are broken, causing a fire due to an electric short circuit, or an outgoing or outgoing ship (5, 6) that has lost its protective function due to aging. When a fire occurs due to a short circuit and a short circuit due to infiltration of water penetrating into the current, the fire detection sensor 50 detects the high temperature heat generated in the event of fire and the fire detection signal to the control unit 70. The control unit 70, which receives the fire detection signal from the fire detection sensor 50, transmits the fire hydrant operation signal to the injection valve 61 of the hydrant 60 disposed at the inner upper end of the protective case 1. Fire extinguishing fluid is injected through the injection valve 61 into the inside of the protective case (1) in which the incoming and outgoing wires (5, 6) are wired, thereby extinguishing the fire zone for a moment to minimize the damage caused by the fire. .

The alarm means 80 is connected to the control unit 70 by wireless or wired, by receiving a warning signal output from the control unit 70 to emit sound to the outside, deterioration or connection of the incoming line 5 to the manager Alerts can be alerted so managers can follow up quickly.

The switchboard capable of confirming the state of the fixed wiring of the present invention configured as described above is provided with a fire detection sensor 50 and a fire hydrant 60 inside the protective case 1, and the lead and lead wires 5 and 6 are provided. Can be extinguished quickly in the event of an electrical fire due to damage to the fire), and the flame spreads along the lead and lead wires (5,6) to minimize the burning of all the lead and lead wires (5,6). .

In addition, when the temperature of the power supply lead 5 is abnormally increased compared to the internal temperature of the case 1, the strength of the power supply lead 5 is measured by using the strength measuring mechanism 40 to deteriorate the power supply lead 5. After determining whether the lead wire (5) is not connected to the input terminal (3a) is generated incorrectly, and outputs a different warning signal to the alarm means 80 according to the determination result, the administrator There is an advantage that can accurately grasp the state of (5) and take action accordingly.

In addition, by connecting the control unit 70 of the various switchboards to the alarm means 80 can be effectively checked the state of the lead wire 5 connected to the various switchboards at once.

In addition to this configuration, the present invention further includes a shock absorbing member 100 as shown in FIGS. 7 and 8 to enable stable and accurate measurement while preventing breakage or disconnection of the lead wire 5 during operation of the strength measuring mechanism 40. .

In particular, since the strength measuring mechanism 40 is for testing the deterioration by forcing the lead wire 5 to flow by the driving force of the drive motor 45b, because of the portion firmly held by the clamp 10, the actual lead wire ( 5) There is a disadvantage in that it is not possible to accurately measure only the tension to be applied, and in the state in which excessive tension is applied, the support block 43 suddenly breaks, and the risk of disconnection is very high.

In the present invention, in view of this point, even when the force applied to the clamp 10 (generated by the driving motor), or even when the force is transmitted to the support block 43, the lead wire (5) in a stabilized state by buffering it By accurately measuring the tension applied to the lead wire 5 is configured to more accurately measure whether the degradation of the lead wire (5).

To this end, the present invention is provided with a buffer member 100 of the form as shown in Figure 7 (a), (b), (c).

The buffer member 100 is seated on the inner circumferential surface of the clamp 10 or the support block 43, that is, the inner diameter.

Therefore, the lead wire 5 is fixed on the clamp 10 or the support block 43 under the buffer member 100.

At this time, the buffer member 100 is formed in the form of a tube.

In this case, the tube-type buffer member 100 may be filled with air, or liquid such as water may be filled.

In particular, the tube-type shock absorbing member 100 is preferably formed of a silicone material in order to prevent such a high risk of loss of function because it is easy to tear and break when composed of known vinyl.

Here, the reason why the shock absorbing member 100 is made of a silicon-shaped silicon material without using the spring is because the spring performs a simple shock absorbing function, but the distortion is severe when measuring the tension of the lead wire 5, but the present invention This is because the member 100 is capable of transmitting a uniform and constant strain force in all directions in the radial direction when deformation of the drop line 5 enables more accurate measurement without distortion of the applied external force.

Since the shock absorbing member 100 is in the form of a tube, it should be arranged in a shape surrounding the lead wire 5, which is an electric wire. To this end, the buffer member 100 can be fitted in the middle of the lead wire 5 unless the tube is fitted to the lead wire 5 from the beginning. none.

Therefore, in the present invention, a part of the tube is cut off, and it is easy to connect them to the lead wire 5 so that it is easy to install, but it is important to configure the sealing property so that the fluid filled therein does not leak.

To this end, a further embodiment according to the present invention uses the connector 200 of the form as shown in Figure 7 (b), (c) in a state in which a portion of the length of the buffer member 100 is cut.

The connector 200 includes a fixed body 210 and a fastening body 230 connected to both sides of the fixed body 210.

At this time, the fixed body 210 and the pair of fastening body 230 are all formed in a cylindrical shape, and in particular, a filling hole 220 communicating with the inside is formed on a part of the outer circumferential surface of the fixed body 210.

The filling hole 220 is a means for supplying and filling a fluid into the tubular buffer member 100, and is generally the same as the structure of the filling hole provided in the tube for playing with water.

In addition, the first jaw 212 is formed at both ends of the fixed body 210 in the same structure to correspond to each other.

The first jaw 212 is formed to be cut from the inner diameter of the fixed body 210 toward the outer diameter, and the second jaw 214 is further formed at intervals from the first jaw 212 and the multi-stage jaw Has a structure.

In addition, the hook fixing part 216 protruding toward the center of the inner diameter is integrally formed at the end of the fixed body 210, that is, the second jaw 214.

On the other hand, one side end of the fastening body 230 coupled to both ends of the fixed body 210 is inserted into the fixed body 210, the first jaw fitting portion 232 to be caught on the first jaw (212) ) Is formed, the inclined surface 234 is inclined upwardly from the first jaw fitting portion 232 is formed to have a diameter corresponding to the second jaw 214, and then has a structure extending horizontally again.

Accordingly, when the front end of the fastening body 230 is fitted to the fixed body 210, the first and second jaws 212 and 214 and the first jaw fitting part 232 and the inclined surface have a shape as shown in FIG. As the 234 is engaged, the hook fixing part 216 is finally bound to the hook fixed to the rear end of the fastening body 230.

According to the present invention, when such a binding process is performed, one end of the tube-type shock absorbing member 100 is inserted into the inner diameter of the fastening body 230 in advance, and then the end of the tube-shaped shock absorbing member 100 is closed. Inverted to face the outer diameter of the fastening body 230, and when the above-described fastening process is performed in that state, the opening of the shock-absorbing member 100 in the form of an inverted tube between the fixed body 210 and the fastening body 230 It has a stable sealing structure in the state interposed in the state, and can be interconnected without fear of leakage.

Accordingly, when the fluid is filled through the filling port 220, the tube-shaped buffer member 100 is changed into an elastic body.

Here, if the filling port 220 is located on the empty space (S) provided in the lower portion of the clamp 10 it is possible to install more secure assembly.

Meanwhile, in the present invention, at least one strain gauge 140 is installed in the space between the buffer member 100 and the inner wall of the clamp 10 so that the shock absorbing member 100 is broken or torn to lose elasticity. It also includes a function to detect and stop the driving of the drive motor 45b to prevent breakage of the lead wire 5.

In addition, according to the structure of the present invention, the wiring temperature measuring sensor 20 is disposed between the lead wire 5 and the buffer member 100, but if the space of the groove shape is made on the inner diameter side of the buffer member 100 is more safe and smooth It is expected to be installed.

In addition, the leader line 142 drawn out from the strain gauge 140 is connected to the control unit 70.

Thus, when the driving force of the driving motor 45b is applied to the support block 43 starting from the clamp 10 and the lead wire 5 is forcibly deformed in the form as shown in FIG. 6, the lead wire 5 at the inner diameter of the clamp 10. While the buffer member 100 is bent between the bending line 5 is bent to support the maximum buffer within the elastic limit, the deformation force is uniformly transmitted in the radial direction.

Therefore, even if a specific point of the lead wire 5 bited by the clamp 10 or the support block 43 is subjected to excessive force, breakage or disconnection of the portion is prevented.

1: protective case 2: base panel 3: branch circuit
4: switchgear 5: lead-in 6: lead-out
10: clamp 20: wiring temperature measuring sensor 30: power measuring means
40: strength measuring instrument 50: fire detection sensor 60: fire hydrant
70: control unit 80: alarm means 100: buffer member
110: inner side 120: outer side 130: elastic piece

Claims (1)

A base panel 2 made of an insulating material which is installed and fixed inside the protective case 1; A branch circuit (3) installed in the base panel (2) and having an input terminal (3a) and an output terminal (3b); A switch 4 provided at an intermediate portion of the branch circuit 3 to connect or disconnect the branch circuit 3, and each of the terminals 3a and 3b formed on the primary side and the secondary side of the branch circuit 3, respectively. Notice that the power supply lead 5 and the branch lead wire 6 are connected to branch the electricity supplied through the power supply lead 5 to the branch circuit 3 to output through the branch lead wire 6. In switchboard of; The switchgear (4) is composed of an electronic switch (4) for connecting or shielding the branch circuit (3) in accordance with the control signal of the control unit (70); The clamp 10 which is provided on the base panel 2 and can be fixed by inserting the middle portion of the lead wire 5: It is provided in the clamp 10 and measures the temperature of the lead wire 5 and outputs it to the control unit 70. Wiring temperature measuring sensor 20: connected to the lead wire (5) and measuring the power supplied through the lead wire (5) power measuring means 30 for outputting to the control unit 70: the power side of the base panel (2) A guide rail 41 fixed to the lead line 5 in a direction crossing the extension direction; A slide block 42 movably installed on the guide rail 41; A support block 43 provided on the slide block 42 and having an insertion groove 43a on which one side of the power supply line 5 is inserted and fixed; A pressure sensor 44 provided between the slide block 42 and the support block 43; Equipped with a reciprocating drive mechanism 45 connected to the slide block 42 to reciprocate the slide block 42 back and forth, it is connected to the middle portion of the lead wire 5 and is controlled by the control unit 70 and the lead wire 5 ) And the control unit to measure the pressure applied to the support block 43 when the slide block 42 is reciprocated by the reciprocating drive mechanism 45 as well as to bend by pressing in the lateral direction Strength measuring mechanism 40 for outputting to 70: Fire detection sensor 50, which is provided on one side of the protective case 1 and detects when a fire occurs and outputs a fire detection signal to the control unit 70: Control unit A fire hydrant having an injection valve 61 which is operated and controlled by a hydrant operation signal of 70, and the fire extinguishing liquid filled therein is injected into the protection case 1 through the injection valve 61 to extinguish the fire zone. 60: from the wiring temperature measuring sensor 20 and the power measuring means 30 The measured value of each input is compared with the reference value set in advance, but when the temperature of the lead wire 5 is abnormally increased compared to the power supplied through the lead wire (5) operation control of the strength measuring mechanism (40) The strength of the lead wire 5 is measured, and it is determined whether the lead wire 5 is deteriorated or the connection state between the lead wire 5 and the terminal 3a is poor according to the measured result. Outputs different alarm signals, and if the temperature of the lead wire 5 exceeds the reference value, the switch 4 is immediately turned off to cut off the power supply, and the fire detection signal is received from the fire detection sensor 50 to provide a fire hydrant. Control unit 70 for controlling the operation 60: further comprises an alarm means 80 for operation controlled by the control unit 70 to emit sound to the outside,
An inner diameter of the clamp 10 and the support block 43 is fitted with a buffer member 100 for fixing the lead wire 5,
The buffer member 100 is formed of silicon in a tubular shape, the filling hole 220 is formed on a portion of the outer peripheral surface, a portion is made of a cut form;
The cut portion of the shock absorbing member 100 is connected to the connector 200, and the connector 200 is formed of a cylindrical fixed body 210 and a cylindrical fastening body 230;
The fixed body 210 has a hook fixing portion 216 is formed at both ends at intervals from the inner diameter to the outer diameter at the first jaw 212, the second jaw 214, and the second jaw 214, respectively;
One end of the fastening body 230 is fitted to the fixed body 210 while the inclined surface extending inclined from the first jaw fitting portion 232, the first jaw fitting portion 232 is caught on the first jaw (212) ( 234);
The cut openings of the shock absorbing member 100 are inserted into the fixed body 210 in the state in which the cut openings are inserted into the inner diameter of the fastening body 230 and then inverted to be in contact with the outer diameter. Switchgear for a stable power distribution of the multi-family housing, characterized in that configured to be engaged between and sealed between (230).

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