KR101114956B1 - Cable grand and ground equipment box including that - Google Patents

Abstract

PURPOSE: A cable grand and a ground equipment box including the same are provided to block moisture or dust by forming an elastic piece in a first penetration hole formed on a pad. CONSTITUTION: An opening is formed in the center of a fixing plate. The fixing plate is fixed to the bottom of a case. A pad(40) has a first penetration hole(42) through which an underground cable penetrates. A recess(44) is formed around the first penetration hole on the pad. An elastic piece(45) is formed on the upper side or lower side of the first penetration hole.

Description

Cable grand and ground equipment box including that}

The present invention relates to a cable gland used for the ground withdrawal point of the underground cable and a ground equipment enclosure including the same, more specifically, to individually hold the cables coming up from the ground, even if the cable is bent or bent around the cable It relates to a cable gland and a ground installation enclosure including the same that can maintain a confidential state.

Conventionally, power lines and communication lines of distribution systems have been processed and installed in telegraph poles, thereby acting as a factor that hinders the urban landscape. In recent years, aesthetics have been improved by embedding power lines and communication lines in the ground.

Cables, such as power lines and telecommunication lines, which are buried underground, are drawn out to the ground for connection to power and communication facilities. For example, underground cables are introduced into ground equipment such as ground transformers, street lamp distribution boxes, traffic signal controllers, and communication repeaters.

Figure 1 shows an example of underground cable to the ground installation. Referring to FIG. 1, an inlet through which the underground cable 12 is introduced is formed in the case 10 of the ground facility. The underground cable 12 is connected to a terminal block or a power facility in the case 10.

By the way, although the street lamp distribution box or other ground facilities are designed to protect the internal facilities from the outside to prevent the ingress of moisture or dust, the case where the underground cable 12 is introduced, the airtight structure is weak. There is a problem. This causes ground moisture, dust, salt, etc. to enter the market facilities and cause corrosion or malfunction of the facilities.

Conventionally, the blocking film 14 may be installed as shown in FIG. 1 to prevent this, but the number of underground cables 12 drawn into the ground is large, and the number of underground cables 12 is not constant depending on the ground equipment. There is a problem that it is practically impossible to block the moisture or dust in the ground in airtight with (14).

In addition, in some cases, the perimeter of the underground cable 12 may be finished with liquid silicone. However, the airtightness may be released due to repeated removal and re-installation of the underground cable 12 due to the increase or decrease of ground equipment and maintenance. There is this.

The present invention is to hold the underground cable to the ground individually and airtight to effectively block the ingress of moisture, dust, salt, etc. in the ground, and to maintain the air tightness for each cable even in the event of deformation such as cable bends in particular The purpose is to provide a cable gland with a new structure and a ground installation enclosure including the same.

Cable gland according to an embodiment of the present invention, in the cable gland is installed on the bottom surface of the case housing the ground facilities to bind the underground cable that is introduced into the case, the opening is formed in the center and the case bottom surface Fixed plate fixed; And a pad installed in an opening of the fixing plate and having a plurality of first through holes through which underground cables pass. A groove is formed along the circumference of the first through hole on the upper or lower surface of the pad. An elastic piece having a play is formed in the upper end or the lower end of the first through hole by the groove.

In the cable gland according to another embodiment of the present invention, a reinforcing plate having a second through hole having a wider cross section than the first through hole is provided at a position corresponding to the first through hole.

Cable gland according to another embodiment of the present invention, the pad is insert injection molding with the reinforcing plate inserted therein.

Cable gland according to another embodiment of the present invention, a cover for opening and closing the first through hole is formed in the upper portion of the first through hole.

Cable gland according to another embodiment of the present invention, the cover is a coupling portion coupled to the upper surface of the pad, the soft pivot portion extending from the coupling portion, the cover portion covering the upper portion of the first through hole, It is formed to be convex to the lower side of the cover portion is composed of a through-hole plug inserted into the first through hole.

Cable gland according to another embodiment of the present invention, the lower portion of the first through hole is formed with a cable insertion groove formed concave to have a larger diameter than the first through hole.

In the cable gland according to another embodiment of the present invention, the lower end portion of the first through hole is formed with a curved insertion guide portion so as to increase in diameter toward the lower end.

Cable gland according to another embodiment of the present invention, the groove is formed on the upper and lower surfaces of the pad along the circumference of the first through hole, respectively, the elastic piece is formed in the upper end and the lower end of the first through hole, respectively .

The ground equipment enclosure according to an embodiment of the present invention includes the above-mentioned cable gland, and introduces underground cables through the cable glands therein, and has a ground equipment to which the underground cables are connected.

According to the cable gland of the present invention and the ground equipment enclosure including the same, by forming a resilient piece having a clearance by a recess in the first through hole formed in the pad, the resilient piece is deformed according to the deformation of the cable to grip the cable and surround the cable. By maintaining the airtightness of the moisture, there is an effect that can block the moisture, dust, salt, etc. from entering the ground.

Further, according to the present invention, by insert injection molding the reinforcing plate in the pad, it is possible to increase the strength of the cable gland and to improve durability.

Further, according to the present invention, the unused first through hole can be blocked using a cover, and the idle first through hole can be blocked using the cover even after dismantling of the cable, so that the idle first on the pad can be blocked. Even if there is a through-hole there is an effect that can block the penetration of moisture and the like.

Further, according to the present invention, grooves are formed on the upper and lower surfaces of the pad, respectively, and the elastic pieces are formed by the grooves, thereby providing a higher airtight force against deformation of the cable inserted into the first through hole. It can be wrapped around the cable, there is an effect that can more completely block the intrusion of moisture, etc. into the ground equipment enclosure at the inlet of the underground cable.

1 is a photograph showing an example of the ground withdrawal of the conventional underground cable,
2 is a perspective view showing an installation state of a cable gland according to the present invention;
3 is an exploded perspective view showing an embodiment of the present invention;
4 is a cross-sectional view showing an example in which a first through hole is formed on a pad in the present invention;
Figure 5 is a cross-sectional view illustrating the opening and closing operation of the cover in Figure 4,
6 is a cross-sectional view illustrating a state in which the underground cable is inserted into the first through hole,
7 is a cross-sectional view illustrating an inclined state of the inserted underground cable, and
8 is a cross-sectional view illustrating another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same or corresponding components will be denoted by the same reference numerals regardless of the reference numerals and redundant description thereof will be omitted.

2 is a perspective view showing an installation state of a cable gland according to the present invention. Referring to this, the underground cable 12 embedded in the ground is introduced into the bottom surface of the case 10 in which the ground facilities are accommodated, and the cable gland 20 of the present invention is installed therein.

The underground cable 12 means a cable in which power cables, communication cables, and other cables are embedded in the ground. Ground equipment is a facility such as a ground transformer, a street lamp distribution box, a traffic signal controller, a communication repeater, etc., and is a facility in which the underground cable 12 is introduced from a manhole or an underground pipeline.

Referring to Figure 2, the cable gland 20 of the present invention is a fixed plate 30 is fixed to the bottom surface of the case 10 of the ground equipment, and the underground cable 12 is installed in the center of the fixed plate 30 The pad 40 includes a plurality of first through holes 42 therethrough.

Preferably, the pad 40 is formed of a silicon material, or a material having similar elasticity and elastic restoring force. As shown in the exploded perspective view of FIG. 3, a reinforcing plate 70 is installed inside the pad 40 to prevent the shape of the cable gland from being greatly deformed.

Referring to FIG. 3, the fixing plate 30 has an opening 32 in which the pad 40 is coupled to a center thereof, and a bolt coupling hole 36 for fixing to the bottom surface of the case 10 along a circumference thereof. ) Is formed. That is, the fixing plate 30 is configured to fix the pad 40 to the bottom surface of the case 10.

In FIG. 3, the pad 40 and the reinforcing plate 70 are spaced apart from each other, but in reality, the reinforcing plate 70 is accommodated in the pad 40. To this end, the pad 40 has a sufficient thickness to accommodate the reinforcing plate 70 therein. The pad 40 is formed with a first through hole 42 through which the underground cable 12 is inserted, and a second through hole having a larger diameter than that of the first through hole 42 at a corresponding position of the reinforcing plate 70. 72 is formed. Preferably, the pad 40 is insert injection molded with the reinforcing plate 70 of the illustrated shape inserted into the pad 40.

The first through holes 42 formed on the pads 40 are individually openable and closed by the cover 80. Referring to FIG. 3, a cover coupling hole 90 capable of coupling the cover 80 is formed at the rear of each first through hole 42. And the engaging portion 82 of the lid to be described later is coupled to the lid coupling hole (90).

The first through hole 42 formed on the pad 40 may have various sizes and shapes corresponding to the size and shape of the underground cable 12. In the illustrated example, 25 first through holes 42 having the same diameter are formed, but the first through holes 42 are divided into a group through which a large-diameter cable passes and a group through a small-diameter cable. It may be arranged.

On the other hand, in addition to the underground cable, the signal gland may be further bound to the cable gland. These signal lines have a very small diameter and usually consist of two strands of signal lines. The cable gland of the present invention may include a signal line through hole 43 through which such signal lines pass. As shown, eight signal line through holes 43 are formed at one side of the pad 40. In addition, eight signal line through holes 43 are formed on the reinforcing plate 70.

The reinforcing plate 70 is formed of a metal material or a material having high rigidity. The reinforcement plate 70 is for preventing a problem such as crushing or crying in the process of inserting the underground cable 12 in which the pad 40 formed of a silicon material is inserted. The second through hole 72 formed on the reinforcing plate 70 is to prevent the pad form inside the first through hole 42 from being severely deformed, and has a wider cross-section than the first through hole 42. Or caliber). In FIG. 3, the second through hole 72 is illustrated in a circular shape, but this is just one example and may have various shapes such as an ellipse or a hexagon.

4 to 8 are cross-sectional views showing embodiments of the present invention. With reference to these drawings, in the present invention will be described with respect to the configuration of the first through-hole 42, the elastically pressing the outer peripheral surface of the underground cable 12 to hold the airtight.

4 to 7 are examples in which the depth of the first through hole 42 is smaller than the thickness of the pad 40, and in the embodiment of FIG. 8, the thickness of the pad 40 is the first through hole 42. Here is an example designed to be equal to the depth of).

First, referring to FIG. 4, it can be seen that the first through hole 42 of the pad 40 has a smaller diameter than the second through hole 72 of the reinforcing plate 70 inserted therein. In addition, in the illustrated example, the groove 44 is formed around the first through hole 42 on the lower surface of the pad 40. Preferably, the groove 44 is formed to be concentric with the cross section of the first through hole 42. And the groove 44 is formed with a projection having a clearance in the lower portion of the first through hole (42). This protrusion is an elastic piece 45.

More specifically, referring to Figure 4, the lower portion of the first through hole 42, the cable insertion groove 52 is formed to facilitate the insertion of the cable. The cable insertion groove portion 52 is a groove having a diameter larger than that of the underground cable 12 and formed in a concave depth. Therefore, the underground cable 12 drawn in from the basement can be conveniently inserted into this cable insertion groove 52.

As shown in the figure, the lower end portion of the first through hole 42 is formed with a curvature insertion guide portion 48 so that the diameter becomes wider toward the lower end. Therefore, the underground cable 12 inserted into the cable insertion groove 52 is inserted in the process of being inserted into the first through hole 42, so as to slide along the insertion guide portion 48, so that the underground cable 12 is easily inserted. Can be performed.

The cover 80 is coupled to the upper portion of the first through hole 42. Cover 80 is a means for opening and closing the first through hole 42, the underground cable 12 is not inserted into the first through hole 42, and after the underground cable 12 is inserted When separated, all the first through-holes 42 are sealed. Preferably, the cover 80 is formed of the same silicone material as the pad 40, is fixed to the pad 40 by bonding with a silicone adhesive, or integrally injected in the process of injection molding the pad 40.

The upper portion of the first through hole 42 is formed with a cover insertion groove 54 into which the cover 80 is inserted, and the through hole stopper 88 of the cover 80 is inserted therein. Therefore, the cover 80 is not easily separated when coupled to the first through hole 42.

Referring to FIG. 4, the cover 80 has one end coupled to an upper surface of the pad 40 to form a coupling portion 82. The coupling portion 82 of the cover 80 is inserted and coupled to the cover coupling hole 90 of the upper surface of the pad 40. And the weak rotation portion 84 extends from the coupling portion 82. The soft pivot 82 is formed to be thin in thickness so that the cover 80 can be easily rotated and opened.

A cover portion 86 extending from the soft pivot portion 84 and covering the upper portion of the first through hole 42 is formed, and a through hole stopper 88 is formed convexly under the cover portion 86. The through hole stopper 88 is a portion inserted into the cover insertion groove 54 as described above.

As shown in FIG. 4, the first through hole 42 is normally blocked by a cover. That is, since the cable is not inserted or the cable is removed, the idle first through-hole 42 is blocked by the cover 80, through which it is possible to prevent moisture, dust, salt, and the like into the ground equipment enclosure. In this state, as shown in FIG. 5, the cover 80 is rotated about the coupling part 82 and opened and closed.

FIG. 6 illustrates a state in which a cable is inserted into the structure shown in FIG. 4. Referring to Figure 6, when the underground cable 12 is inserted from the bottom up, the cover 80 is automatically opened by the force inserted. The cover 80 is flipped open based on the soft pivot 84 as shown in FIG. The inner circumferential surface of the first through hole 42 pressurizes the outer surface of the underground cable 12 in an airtight manner.

At this time, when the underground cable is actually inserted, it is inclined to either side based on the vertical direction as shown in FIG. In addition, after the installation of the underground cable 12 is completed, the inclination angle of the underground cable 12 may increase due to the tension applied to the underground cable 12 as shown in FIG. 7. For example, even when the underground cable 12 is inserted as shown in FIG. 6, the underground cable 12 may be disposed to be inclined in the opposite direction as when inserted, as shown in FIG. 7.

However, in the present invention, since the elastic piece 45 has a clearance as much as the space of the recess 44 in the rear, as shown in Figs. The whole inner peripheral surface of the ball 42 changes shape in response to the deformation of the underground cable 12. Accordingly, airtightness can be maintained even when the underground cable 12 is changed in shape.

8 shows another embodiment of the present invention. Unlike the embodiment of Figures 4 to 7, the lower portion of the first through hole 42 may not be formed a separate cable insertion groove. In addition, the cover 80 may be inserted directly on the upper side of the first through hole 42 without forming a separate cover insertion groove.

Further, as shown in FIG. 8, grooves 44 and 46 may be formed on the upper and lower surfaces of the pad 40 along the circumference of the first through hole 42, respectively. Then, the elastic pieces 45 and 47 are formed on the upper and lower portions of the first through hole 42, respectively. As such, when the elastic pieces 45 and 47 are formed on the upper and lower portions of the first through hole 42, the first through hole 42 can be removed even when the inserted shape of the underground cable 12 is large. Airtightness can be increased. In addition, airtightness can be maintained at the cable insert even when the underground cable is severely bent or bent.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention. You will understand. Therefore, it is not intended that the invention be limited to the above-described embodiment, but the present invention includes all embodiments within the scope of the following claims.

10 case 12 underground cable
30: fixing plate 32: opening
36: bolt coupling hole 40: pad
42: first through hole 43: signal line through hole
44: groove 45: elastic piece
46: groove 47: elastic piece
48: insertion guide portion 52: cable insertion groove
54: cover insertion groove 70: reinforcement plate
72: second through hole 73: signal line through hole
80: cover 82: coupling portion
84: weak rotation part 86: cover part
88: through hole plug 90: cover coupling hole

Claims (9)

In the cable gland is provided on the bottom surface of the case housing the ground equipment, and to bind the underground cable to the inside of the case,
A fixing plate having an opening formed at a center thereof and fixed to the bottom of the case; And
A pad provided in the opening of the fixing plate and having a plurality of first through holes through which the underground cable passes;
A groove is formed on the upper or lower surface of the pad along a circumference of the first through hole, and an elastic piece having a clearance by the groove is formed at the upper end or the lower end of the first through hole.
The method of claim 1,
The cable gland, characterized in that the reinforcing plate is formed in the pad in the position corresponding to the first through hole is formed with a second through hole of a wide cross section compared to the first through hole.
The method of claim 2,
The pad is a cable gland, characterized in that the insert injection molding with the reinforcing plate inserted therein.
The method of claim 1,
Cable gland, characterized in that a cover for opening and closing the first through hole is formed in the upper portion of the first through hole.
The method of claim 4, wherein
The cover has a coupling portion coupled to the upper surface of the pad, a soft pivot portion extending from the coupling portion, a cover portion covering the upper portion of the first through hole, and a convex portion formed under the cover portion to be convex. Cable gland, characterized in that consisting of a through-hole plug inserted into the ball.
The method of claim 1,
A cable gland having a lower portion of the first through hole is formed with a cable insertion groove is formed concave to have a wider diameter than the first through hole.
The method of claim 1,
The cable gland is formed in the lower end of the first through-hole curvature insertion guide portion is formed so that the diameter becomes wider toward the lower end.
The method of claim 1,
The groove is formed in each of the upper and lower surfaces of the pad along the circumference of the first through hole, the cable gland, characterized in that the resilient piece is formed in each of the upper end and the lower end of the first through hole.
A ground equipment enclosure comprising the cable gland according to any one of claims 1 to 8, and having an underground cable introduced therein through the cable gland therein, and equipped with ground equipment to which the underground cable is connected.

Images