KR102157724B1 - Anti-vibration structure of communication terminal box for building - Google Patents

Abstract

The present invention relates to a vibration-proof structure of a communication terminal box for a building. According to the present invention, the vibration-proof structure of a communication terminal box for a building comprises: a box cover; a buffer member including a first spring holder (31), a second spring holder (32), and a coil spring (33); a first cable holder; and a second cable holder. According to the present invention, damage or deformation due to impact can be prevented.

Description

Anti-vibration structure of communication terminal box for building

The present invention relates to a vibration-proof structure of a communication terminal box for construction, and more particularly, prevents the occurrence of problems such as breakage or damage to the terminal box and disconnection or poor connection of a communication cable connected to the terminal box even from earthquakes or strong external impacts. It is related to the vibration-proof structure of the communication terminal box for construction that can be used.

In general, a communication terminal box is an assembly of connection terminals that facilitate connection or disconnection between a trunk line and a subscriber by installing on a telephone pole, an indoor or outdoor wall, or an underground wall, and is installed everywhere where communication is required.

The communication terminal box is provided in the form of a box, and a space large enough to fit the communication terminal box is formed in advance on the wall of a building, and it is inserted and constructed, or the terminal box body is fixed to the wall using bolts, etc. Is mainly used.

That is, the communication terminal box is installed in the form of a case exposed to the outside or in a form buried in concrete in the wall during construction or remodeling of a building, and installation and maintenance of the communication device is performed by using the door opened to the outside.

The double buried communication terminal box is embedded in the wall during concrete pouring and curing, and the front is fixed at the same position as the formwork, and afterwards, the communication equipment is installed and screwed with the opening and closing door installed to facilitate opening and closing by being rotatably coupled to one side of the enclosure. Is being used.

In this way, the communication terminal box, whether buried or protruding, is provided with a door to open and close the front open front of the terminal box body of an empty box type, while various communication devices are built into the terminal box body.

Through the communication cable terminal box structure of Registration Patent No. 1007896 (2011.01.06.), the connection method of the communication cable branching from the outdoor terminal box to each home is provided as a connector connection method to simplify connection replacement and to effectively protect the connector. I have a bar.

When the cable is connected by a connector connection method, the connection is very easy, and the connection state can be safely protected from external factors such as rainwater and dust, and the construction time can be sufficiently shortened.

However, even in the prior art connection method, the terminal box is separated from the building when an earthquake or building collapse occurs, and the cable is inevitable when the terminal box is separated, so there is a problem in that communication cannot be performed when communication is required.

(Document) Registered Patent No. 1007896 (2011.01.06.)

Accordingly, the present invention is to solve the above problem, and the present invention is to damage the terminal box body and the cable connected to the terminal box body even if it is separated from the building by a severe impact from the outside such as an earthquake or damaged by a severe impact on the terminal box body. The purpose of this is to provide a dustproof structure of a communication terminal box for construction that allows a safe connection state to be maintained by preventing or disconnection.

In order to achieve the above object, the vibration-proof structure of the communication terminal box for construction according to the present invention is provided in a terminal box having an external cable introduced from the outside of the terminal box main body, an internal cable drawn out to the interior, and a terminal body to which each cable is connected. , A box cover fixed to the building while surrounding the outside so as to be spaced apart from the terminal box body at various intervals; A shock absorber provided so that a coil spring is inserted into the inside of the first spring holder and the second spring holder of different diameters provided to be expandable and contracted in the space between the terminal box main body and the box cover and connected to be movable in the axial direction absence; While provided between the box cover facing the upper portion of the terminal box body, an external cable that is introduced to the outside is wound in a coil shape with a predetermined length, and a connector terminal connected to one end of the external cable is provided on the side of the terminal box body. A cylindrical first cable holder that is connected to the connector holder and is a material capable of bending deformation so that one side of the main surface is vertically cut to allow insertion of the external cable; An extension cable that is provided between the box cover facing it from the bottom of the terminal box body is wound inside a certain length in a coil shape, and a connector terminal connected to one end of the extension cable is located on the side of the terminal box body. It is connected to the connector holder and is made of a cylindrical second cable holder that allows one side of the main surface to be vertically cut to allow insertion of the internal cable as a material capable of bending deformation, and the buffer member is bent while having a cushioning force. It is made of a deformable material, and the first spring holder and the second spring holder are adhered and fixed at the rear, upper and lower portions and both sides of the terminal box body and the box cover facing each other, and the terminal box body and the box cover Between the doors of, the spring holder on one side is adhesively fixed only to the door of the box cover.

The first spring holder, the second spring holder, the first cable holder, and the second cable holder are made of a material capable of elasticity and bending deformation such as rubber or silicone.

The coil springs inserted into the first spring holder and the second spring holder provided between the terminal box body and the door of the box cover allow both ends of the coil springs to be adhesively fixed to the first spring holder and the second spring holder.

The vibration-proof structure of the communication terminal box for construction of the present invention according to the above configuration allows the terminal box body to be three-dimensionally elastically supported inside the box cover, so that even if an earthquake or external shock is applied to the box cover, the shock is substantially buffered in the terminal box body. Prevent damage or deformation caused by impact.

In addition, the present invention allows a stable connection state to be maintained while the extra cables wound around the first cable holder and the second cable holder are released even if the box cover fixed to the building is out of the fixed position. It prevents communication disconnection due to damage to maintain stable communication performance.

1 is a front sectional view illustrating a vibration-proof structure of a communication terminal box for a building according to the present invention
2 is a side cross-sectional view illustrating a vibration-proof structure of a communication terminal box for a building according to the present invention
3 is an exploded perspective view illustrating an enlarged buffer member in the vibration-proof structure of a communication terminal box for construction according to the present invention
4 is an enlarged perspective view of a main part illustrating a structure of a cable holder in a vibration-proof structure of a communication terminal box for construction according to the present invention
5 is a plan cross-sectional view illustrating a buffer member formed between the terminal box body and the door of the box cover in the vibration-proof structure of the communication terminal box for construction according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention.

The scope of the present invention should not be construed as being limited by the embodiments described in the text.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the embodiments, the same reference numerals are assigned to the same components, and in some cases, the description of the same reference numerals will be omitted.

1 is a front cross-sectional view illustrating a vibration-proof structure of a communication terminal box for construction according to the present invention, and FIG. 2 is a side cross-sectional view illustrating a vibration-proof structure of a communication terminal box for construction according to the present invention.

As illustrated, the present invention is largely composed of a terminal box body 10, a box cover 20, a buffer member 30, a first cable holder 40, and a second cable holder 50.

In the present invention, the terminal box body 10 includes an external cable 11 introduced from the outside, an internal cable 12 drawn into the interior of the building, and a terminal body to which the external cable 11 and the internal cable 12 are connected. It is a configuration to be provided.

Connector holders (not shown) to which the outer cable 11 and the inner cable 12 are connected to each other are provided on the upper and lower surfaces of the terminal box main body 10.

Accordingly, the connector terminals 13 are respectively connected to the end of the outer cable 11 and the end of the inner cable 12 so that the connection is made by connecting the connector with the connector holder of the terminal box body 10.

The terminal box body 10 is provided with various connection structures in which the external cable 11 and the plurality of extension cables 12 are connected in the internal terminal body, and the configuration of the terminal box body 10 is similar to that of the previous configuration. Do.

Accordingly, in the present invention, first, the box cover 20 is provided outside the terminal box body 10.

The box cover 20 is formed to have a size larger than that of the terminal box body 10 so that a predetermined distance is spaced apart from the outer surface of the terminal box body 10.

That is, the box cover 20 has a shape to be spaced apart from the front and rear surfaces of the terminal box main body 10, the upper and lower surfaces, and both side surfaces of the terminal box main body 10 formed of a hexahedral body at various intervals between faces facing each other.

In this way, the buffer member 30 is connected between the surfaces formed to face each other with the terminal box main body 10 accommodated in the interior of the box cover 20 so that the spaced apart distance is kept constant.

The buffer member 30 of the present invention includes a first spring holder 31 and a second spring holder 32 having different diameters as shown in FIG. 3 and a coil spring 33 inserted therebetween.

The first spring holder 31 and the second spring holder 32 are formed to have a length greater than 1/2 of the space gap between the outer surface of the terminal box body 10 and the inner surface of the box cover 20, respectively.

Therefore, the first spring holder 31 and the second spring holder 32 have the ends of the terminal box body 10 and the box cover 20 that face each other and are fixed to each other by adhesion, and a portion with a small diameter between the open ends. Is inserted into a large part and connected so as to overlap each other, and the coil spring 33 is inserted inside, so even if the distance between the first spring holder 31 and the second spring holder 32 is reduced, the internal coil spring 33 As it contracts, the impact applied to the box cover 20 is alleviated to reduce the impact applied to the terminal box main body 10.

However, the first spring holder 31 and the second spring holder 32 are formed of a material capable of bending deformation so that not only an expansion/contraction action in the axial direction but also a torsion deformation is possible.

Meanwhile, in the drawing, the first spring holder 31 is attached to the terminal box body 10 and the second spring holder 42 is attached to the box cover 20, but is not limited thereto, and the position You can also change

These buffer members 30 are provided as a plurality of the front and rear surfaces of the terminal box body 10, upper and lower surfaces, and both sides, respectively, and the first spring holder 31 and the second spring holder 32 inside the box cover 20. ) To stably support the terminal box body 10 by the support force and the elasticity of the coil spring 33.

Connector holders are formed on the upper and lower surfaces of the terminal box body 10 supported by the buffer member 30, respectively, and the first cable holder 40 and the first cable holder 40 as shown in FIG. 4 in a direction perpendicular to the connector holder. A second cable holder 50 is provided.

Among them, the first cable holder 40 is provided between the box cover 20 facing it from the top of the terminal box body 10, and the outer cable 11 drawn from the outside from the top of the box cover 20 is coiled from the inside. A predetermined length is wound in a shape, and the second cable holder 50 is provided between the box cover 20 facing it from the lower portion of the terminal box main body 10, and is inserted from the lower portion of the box cover 20 ( 12) This coil shape is configured so that a certain length is wound inside.

In the first cable holder 40 and the second cable holder 50, the ends through which the external cable 11 and the internal cable 12 are drawn out are formed to have holes only with a diameter that allows the cable to be drawn in and out. Cables wound in a shape must be pulled out from the outside with a certain pressure or more so that they can be withdrawn.

In addition, the connector terminals 11a and 12a are connected to the ends of the outer cable 11 and the inner cable 12 on the side of the terminal box body 10 so that they can be connected to the connector holder, respectively. 12a) is preferably provided so as to protrude outward from the ends of the first cable holder 40 and the second cable holder 50.

In particular, the first cable holder 40 and the second cable holder 50 can be bent and deformed in the same way as the first spring holder 31 and the second spring holder 32 of the buffer member 30 and have elasticity. It is preferable to be formed of a material such as rubber or silicone, and the cut wires 41 and 51 are formed on the main surface of one side, so that the outer cable 11 and the inner cable 12 twisted in a coil shape from the outside are easily inserted. To be able to do it.

The first cable holder 40 and the second cable holder 50 may be formed in a cylindrical shape as shown, but may be formed in a polygonal shape such as a square.

On the other hand, in the present invention, the buffer member 30 provided between the terminal box body 10 and the door 13 and 21 of the box cover 20 is adhered to only the side of the box cover 20 as shown in FIG. 5, The terminal box body 10 is separated so that the end of the first spring holder 31 is in close contact only when the door 21 on the box cover 20 side is closed.

The operation and effect of the vibration-proof structure of the communication terminal box for construction of the present invention according to the above configuration will be described in more detail as follows.

The prevention structure of the communication terminal box for construction according to the present invention is to be supported by the buffer member 30 from the box cover 20 while the exterior of the terminal box body 10 in which the terminal body is built is covered by the box cover 20. By doing so, the shock transmitted through the box cover 20 while mitigating the shock from the outside in the box cover 20 is buffered by the buffer members 30 connecting the box cover 20 and the terminal box body 10 By making it possible to prevent almost any impact from being transmitted to the terminal box body 10, communication through the terminal box body 10 can be stably provided.

In particular, even in a serious situation where the box cover 20 itself is separated from the original installation position or separated from the wall due to earthquake or building damage, the box cover 20 is separated from the wall as well as the impact applied to the box cover 20 A strong tensile force is generated in the external cable 11 and the internal cable 12 connected to.

When the tensile force generated in the outer cable 11 and the inner cable 12 exceeds a certain level, the first cable holder 40 and the second cable holder 50 accommodating the tensile force generated cables were wound in a coil shape. The cable will come loose.

As the cable, in which a certain or more tensile force is generated, is released from the cable holders 40 and 50, the tensile force is no longer increased, so that damage or disconnection of the cable can be prevented.

In this way, even in the event of a disaster, it is possible to stably maintain communication by preventing damage to the terminal box body 10 and the external cable 11 and the extension cable 12 connected to the terminal box body 10 as much as possible. You can get rid of the worry of disruption.

In particular, communication disruption during a disaster may result in a very dangerous situation that may cause the timing of emergency measures to be missed when an emergency patient occurs, so maintaining communication until the end plays a decisive role in preventing a larger disaster.

Therefore, the present invention provides a very useful effect of preventing communication disruption due to disasters such as earthquakes or building collapse or damage, so that you can always be prepared for emergency situations and at the same time respond to emergency situations in a timely manner. Is done.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

10: terminal box body
11: external cable 12: internal cable
13: door
20: box cover
21: door
30: cushioning member
31: first spring holder 32: second spring holder
33: coil spring
40: first cable holder
41: incision
50: second cable holder
51: incision

Claims (3)

In a terminal box having an external cable 11 drawn in from the outside of the terminal box main body 10, an internal cable 12 drawn out into the room, and a terminal body to which each cable is connected,
A box cover 20 fixed to the building by covering the exterior so as to be spaced apart from the outer surface of the terminal box body 10 at various intervals while being formed in a larger size than the terminal box body 10;
In a space separated between the terminal box body 10 and the box cover 20, the rear surface, the upper and lower parts, and both sides facing each other are adhesively fixed to each other so as to be elastically provided, and are connected to be movable in the axial direction. A buffer member 30 comprising a first spring holder 31 and a second spring holder 32 having a diameter and a coil spring 33 inserted therein, and made of a material capable of bending deformation while having a cushioning force;
The external cable 11, which is provided between the box cover 20 facing it from the top of the terminal box main body 10, is wound inside the external cable 11 in a coil shape, and the external cable 11 The connector terminal 11a connected to one end of the terminal box is connected to the connector holder on the side of the terminal box body 10 and is a material capable of bending deformation so that one side of the main surface is vertically cut so that the external cable 11 can be inserted. A cylindrical first cable holder 40;
The extension cable 12, which is provided between the box cover 20 facing it from the lower portion of the terminal box main body 10 and is drawn into the room, is wound inside a certain length in a coil shape, and the extension cable 12 The connector terminal 12a connected to one end of the terminal box is connected to the connector holder on the side of the terminal box body 10, and is a material capable of bending deformation so that one side of the main surface is vertically cut so that the extension cable 12 can be inserted. It is made of a tubular second cable holder 50,
Between the terminal box body 10 and the front door 13 and 21 of the box cover 20, the spring holder on one side is adhesively fixed to only the door 21 of the box cover 20,
The first spring holder 31 provided between the door 13 and 21 and the coil spring 33 inserted into the second spring holder 32 have both ends of the first spring holder 31 and the second Dustproof structure of the communication terminal box for construction to be adhered and fixed to the spring holder 32.
The method according to claim 1, wherein the first spring holder (31), the second spring holder (32), the first cable holder (40) and the second cable holder (50) are a material capable of elasticity and bending deformation such as rubber or silicone. Dustproof structure of the communication terminal box for construction to be achieved as
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