KR101199519B1 - Cable tray for preventing electric shock drawing at substation - Google Patents

Abstract

PURPOSE: A substation power cable insulation tray is provided to prevent electric shock accidents due to a short circuit of a cable in advance by simultaneously applying a high strength metal tray and an insulating cable holder. CONSTITUTION: A pair of vertical bars(101,102) is installed at regular distances. A plurality of horizontal bars(103) is installed at regular distances along the longitudinal direction of the vertical bar. A plurality of holder fixing unit(104) is formed on the horizontal bar at regular distances. A cable holder(1) is installed on one or more holder fixing units. The cable holder maintains a cable(L) at regular distances from the vertical bar and the horizontal bar.

Description

CABLE TRAY FOR PREVENTING ELECTRIC SHOCK DRAWING AT SUBSTATION}

The present invention relates to a substation drawout power cable insulation tray for supporting a plurality of cables for accommodating high voltage power drawn in and out of a substation. A substation drawer input and output power cable insulating tray.

In general, a plurality of wires for supplying power to the interior of the ceiling, walls, etc. of the building is wired, these wires are guided by the cable tray and branched at a desired position and connected to the switchboard for power connection.

In particular, in the case of substations, cable trays for guiding high voltage cables are used. Conventional cable trays for guiding such high-voltage wires have a structure in which a pair of main frames are installed at regular intervals, and support frames are assembled at regular intervals between these main frames.

The mainframe has a structure in which the upper flange and the lower flange are formed at the upper and lower ends of the web, the support frame is formed in the channel shape, the curling portion (bent and folded portion) is formed at the end and is assembled to the main frame by bolts In the state where the main frame is fixed to a wall such as a building, a plurality of electric wires are guided by being seated on the support frame.

In general, a large number of electric wires are guided at an electric place of use such as a building to draw out power required for power, electric light and electric heating equipment, and a worker climbs directly on the cable tray or climbs a ladder, The other worker supplies the cable from the other side and performs the wiring work to place the individual cable according to the designated wiring path.

However, such a conventional cable tray occupies a large area as it is fixed to the ceiling in a plane, and when a large number of cables are wired, a plurality of cable trays are complicatedly installed on the ceiling, and the appearance is not beautiful. After long periods of contact with each other, the cable sheaths are squeezed or aged, or rats break the cable sheaths, exposing the conductors inside the wires. These exposed conductors come into contact with the metal cable trays, Workers are often subjected to safety accidents such as electric shocks.

In order to solve this problem, a cable tray made of a high strength synthetic resin has emerged. However, such a tray also has a weak strength to support a large number of high load cables, there was a problem that is easily broken.

Therefore, it is necessary to solve the insulation problem for the above-mentioned safety accident while using the existing metal cable tray.

As a prior art that solves some of these problems, there is a patent application No. 10-2003-75355 (2003.10.28.), "Structure for preventing high voltage electric cable insulation using a tray box and a concrete box".

However, the prior art still leaves a problem that it is impossible to store individual cables and is difficult to apply when the diameter of the cable changes.

In order to solve the above problems, the present invention is to provide a substation draw-out power cable insulation tray that is implemented to favor the insulation while applying the existing high-strength metal cable tray.

In addition, an object of the present invention is to provide a substation drawout power cable insulation tray that is implemented to prevent workers from accidents caused by electric shock.

In addition, the present invention provides a substation draw-out power cable insulation tray that is easy to install the cable and has an insulation function to prevent electrical leakage to the tray and to prevent safety accidents such as electric shock in advance to contribute to improved product reliability. The purpose is to provide.

The present invention devised to solve the above object is a pair of vertical bars spaced apart at regular intervals and formed of a metal material; A plurality of horizontal bars installed at a predetermined interval along a longitudinal direction of the vertical bars to maintain a constant distance between the vertical bars and to form a cable receiving space together with the vertical bars; It includes a cable holder (1) of the insulating material is installed on at least one of the holder mounting holes and the holder mounting holes formed in the horizontal bar at a predetermined interval to maintain a constant distance from the vertical bar, the horizontal bar and the cable (L) But

The cable holder 1 includes a first holder; A second holder coupled to the first holder by a hinge, the second holder having the same shape as the first holder installed to open and close the hinge by a rotation axis; It is installed to be movable inside the first holder and the second holder, the fluid supporting the cable (L) between the first holder and the second holder and the fluid and the first holder and the first between A compression coil spring installed between two holders to pressurize the fluid in the cable mounting direction;

The first holder and the second holder is a rectangular holder body; A mounting body extending downward from the holder body and inserted into the holder mounting hole when the first and second holders are closed together; A mounting groove formed in the holder body in a 'c' shape to accommodate the fluid; A pair of guide grooves formed to have locking jaws formed on the upper and lower surfaces of the mounting groove and protruding to a portion of the outer surface of the mounting body are formed to be mounted in a locking groove formed in the holder mounting hole. Includes a locking projection,

The fluid (30, 40) is a fluid body that is inserted into the mounting groove of each of the first and second holder; Including a curved groove formed on the cable support surface of the fluid body and a pair of protrusions protruding from the upper and lower surfaces of the fluid body and seated in the guide groove to guide the flow,

After the fluid is seated in the mounting groove is pressed in the cable mounting direction by the compression coil spring is installed so as not to be separated by the locking jaw,

The first and second holders may be configured to support the cable L by the groove of the fluid when the first and second holders are closed about the rotation axis of the hinge, and then inserted into the holder mounting hole of the horizontal bar.

Substation draw-out power cable insulation tray according to the present invention may be generated by applying electricity to the tray by the leakage of the cable by applying a separate insulated cable holder that can support the cable at the same time to apply the existing high-strength metal tray It is effective to prevent an electric shock accident.

In addition, since it can be simply applied to the existing tray, the operator is implemented to facilitate the cable installation, there is an effect that the cables applied by the cable holder can be neatly arranged.

1 is a perspective view of a cable tray according to a preferred embodiment of the present invention;
2 is an exploded perspective view of a cable holder applied to the cable tray of FIG. 1 according to the present invention;
3 is a cross-sectional view of main parts of a cable holder applied to the cable tray of FIG. 1 according to the present invention; And
4 is a side view showing a state in which the cable holder is mounted on the cable tray of FIG. 1 according to the present invention; And
5 is a side view showing a state in which the cable is applied by the cable holder to the cable tray of Figure 1 according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a perspective view of a cable tray 100 according to a preferred embodiment of the present invention.

Referring to FIG. 1, although the cable tray 100 for guiding and supporting the cable L is illustrated as a single product, a plurality of cable trays 100 may be installed on a predetermined channel. Moreover, such cable tray 100 is preferably formed of a high strength metal, which is more advantageous when used in substations or the like where a large number of cables with high loads are applied. The high strength metal described above may include high strength aluminum, plated steel, and the like.

The cable tray 100 described above is installed between a pair of vertical bars 101 and 102 and a pair of vertical bars 101 and 102 that are installed at a predetermined interval, so that the pair of vertical bars 101 and 102 are fixed to each other. It includes a plurality of horizontal bars 103 leading to. The horizontal bar 103 may be fixed by a process of screw fastening or riveting, which is not shown, with the vertical bars 101 and 102, and the cables are connected by the vertical bars 101 and 102 and the horizontal bar 103. A space for supporting and guiding is formed.

The horizontal bar 103 is provided with a cable holder 1 according to an embodiment of the present invention.

Since the cable holder 1 is installed at any one or more holder mounting holes 103 of the holder mounting holes 103 formed at regular intervals on the horizontal bar 103 to guide the cable L, the operator may have a predetermined distance at a desired position. Cable (L) can be aligned.

Since the cable holder 1 supports the cable L and is installed to be spaced apart from the metal cable tray 100 at regular intervals, the insulating outer shell of the cable L is corroded or the rat is caught and the conductor of the cable is exposed. Even if the contact with the cable tray 100 is not energized or short-circuited. Therefore, the cable holder 1 is preferably formed of an insulating material such as synthetic resin. More preferably, the cable holder 1 may be formed of a flame retardant polyvinyl chloride (PVC) or crosslinked polyethylene (XLPE) material which is flame retardant and insulating.

2 is an exploded perspective view of a cable holder 1 applied to the cable tray 100 of FIG. 1 according to an embodiment of the present invention, and FIG. 3 is a cable tray 100 of FIG. 1 according to an embodiment of the present invention. It is sectional drawing of the principal part of the cable holder 1 applied to).

2 and 3, the cable holder 1 according to the present invention is separated into a first holder 10 and a second holder 20 to facilitate the installation of the cable (L), and the first holder 10 and The second holder 20 is installed to be opened and closed by a hinge 60 of a general configuration.

In the drawing, since the first holder 10 and the second holder 20 have the same configuration, the configuration of the first holder 10 will be mainly described, and each case will be described when necessary.

The first holder 10 includes a holder body 11 and a mounting body 12 extending downward from the holder body 11. The holder body 11 has a mounting groove 111 having a 'c' shape inwardly, and the mounting groove 111 is provided with a fluid 30 that can flow in the mounting direction. The fluid 30 has a curved groove 312 is formed on the cable support surface 311 so as to support the outer circumferential surface of the cable (L) to be fixed, it is installed to be pressed in the direction of the cable.

Therefore, the pair of guide grooves 113 are formed in the lower surface 112 of the mounting groove 111 of the first holder 10 described above, and the fluid body (2) may be seated and guided in the guide groove 113. 30, a pair of guide protrusions 316 are formed. Similarly, a pair of guide grooves 113 are also formed on the upper surface of the mounting groove 111, and a pair of guide protrusions 316 are formed on the upper surface 315 of the fluid 30 to protrude from the fluid 30. It can induce a stable flow.

The guide groove 113 described above is formed to have a locking step 114 to prevent the guide protrusion 316 of the mounted fluid 30 is completely flowed out of the first holder 10 to be separated. In addition, the fluid 30 is pressed between the fluid 30 and the inner surface 116 of the mounting groove 111 of the first holder 10 through a plurality of compression coil springs 50 in the direction in which the cable is mounted. I did it. Accordingly, spring support grooves 314 and 116 for supporting the compression coil spring 50 are formed in the rear surface 313 of the fluid 30 and the inner surface 115 of the mounting groove 111 of the first holder 10. Each is formed.

On the other hand, similar to the first holder 10, the second holder 20 is provided with the same fluid (40 in Fig. 4) is pressed by the compression coil spring 50 as described above, the first holder 10 ) And the second holder 20 are installed to be opened and closed mutually by a predetermined hinge (60). Therefore, when the first holder 10 and the second holder 20 are closed to each other, each of the mounting bodies 12 and 22 extending downwards is in contact with each other and is in contact with each other. The mounting bodies 12 and 22 of the second holder 20 may be inserted into the holder mounting holes 104 formed at the horizontal bar 103 of the cable tray 100 at the same time.

In addition, the fluids 30 and 40 installed to be pressurized in the directions facing each other in the first holder 10 and the second holder 20 have curved grooves 312 and 412 formed on the cable support surfaces facing each other. Therefore, the cable (L) can be supported while being in close contact with the outer peripheral surface of the curved cable. At this time, when the diameter of the cable (L) is larger than the grooves (312, 412) of each fluid (30, 40) is pushed to the outer peripheral surface of the cable fluid (30, 40) into the mounting groove of each holder (10, 20) The fluids 30 and 40 are retracted under constant pressing force. However, the mounting bodies 11 and 12 of the respective holders 10 and 20 may be in close contact with each other, and the fluids 30 and 40 when the holders are mounted in the holder mounting holes 104 of the horizontal bar 103 in close contact with each other. ) Is pressed in the direction of the mutual cable, so that the mounting bodies 12 and 12 of the respective holders 10 and 20 are pressed against the holder mounting holes 104 of the horizontal bar 103 by receiving a pressing force to be spread outward from each other. Can be fixed. More preferably, the engaging protrusion 121 is formed on the outer circumferential surface of each of the mounting bodies 12 and 22, and the engaging groove 105 is formed on the inner surface of the holder mounting hole 104 of the horizontal bar 103 to be coupled to the mounting body. When the bodies 12 and 22 are inserted into the mounting holes 104, the locking protrusions 121 may be coupled to the locking grooves 105 in the interlocking manner to assist in firmly fixing the cable holder 1. .

4 is a side view illustrating a state in which the cable holder 1 is mounted to the cable tray 100 of FIG. 1 according to the present invention, and FIG. 5 is a cable holder (FIG. 5) to the cable tray 100 of FIG. 1 according to the present invention. It is a side view which shows the state in which the cable L was applied by 1).

4 is a state diagram before the cable is mounted, Figure 5 is a state diagram attached to the cable.

Referring to FIG. 4, the cable holder 1 may be mounted on the holder mounting hole 104 formed on the horizontal bar 103 of the cable tray even before the cable is mounted. In addition, referring to FIG. 5, even when the cable L is mounted, the cable holder 1 may be mounted on the holder mounting hole 104 formed on the horizontal bar 103 of the cable tray 100. There is no change in the external shape of the cable holder 1.

This is because the fluids 30 and 40 installed in the first and second holders 10 and 20 of the cable holder 1 depressurize the compression coil spring 50 in the mounting grooves 111 of the respective holders 10 and 20. This is because it can be retracted by the cable (L) that is naturally mounted while receiving.

As shown in FIG. 5, when the cable L is applied to the cable tray 100, the operator opens each holder 10, 20 of the cable holder 1 about the hinge 50. After each of the holders (10, 20) in a way to wrap the cable (L) is retracted. At this time, when the diameter of the cable (L) is larger than the radius of curvature of the grooves (312, 412) of each fluid (30, 40) the fluid (30, 40) is retracted into the mounting groove of each holder (10, 20) At this time, when the operator presses the cable holder 1 further and closes the holders 10 and 20 completely, the holders 10 and 20 of the cable holder 1 are hinged by the compression coil spring 50. 50) are applied to each other by the rotation axis.

In this state, the operator can fix the cable holder 1 to the desired mounting hole of the plurality of mounting holes 104 formed on the horizontal bar 103 of the cable tray 100 by a force fitting method. At this time, since the locking protrusion 121 formed in the mounting body 12 is caught by the locking groove 105 formed in the mounting hole 104, the solid mounting is completed. Although not shown, the same locking groove is formed in the mounting body 22 of the first holder 20.

Therefore, the cable L is disposed in a state spaced apart from the metal cable tray 100 by a predetermined interval by the insulating cable holder 1, the cable holder (1) in succession to each horizontal bar (103) As a result, the cable does not come into contact with the cable tray 100 as a whole to perform the insulation function.

These embodiments of the invention may be variously modified while remaining in the scope of the claims. In other words, there may be many other ways in which the invention may be practiced without departing from the scope of the following claims.

1: cable holder 10: first holder
11: holder body 12: (first holder) mounting body
20: 2nd holder 21: (2nd holder) holder body
22: (second holder) mounting body 30, 40: fluid
31: fluid body 50: compression coil spring
60: hinge 100: cable tray
101, 102: vertical bar 103: horizontal bar
104: holder mounting hole 105: locking groove
111: mounting groove 112: lower side
113: guide groove 114: locking jaw
115: inner side 311: cable support surface
312: groove

Claims (1)

A pair of vertical bars 101 and 102 spaced apart at regular intervals and formed of a metal material;
A plurality of vertical bars are installed at regular intervals along the longitudinal direction of the vertical bars 101 and 102 to maintain a constant distance between the vertical bars 101 and 102 and form a cable receiving space together with the vertical bars 101 and 102. A plurality of horizontal bars 103;
A plurality of holder mounting holes 104 formed at predetermined intervals on the horizontal bar 103; And
Is installed in at least one of the holder mounting holes 104 includes a cable holder (1) of an insulating material to maintain a constant distance from the cable (L) to the vertical bar (101, 102), horizontal bar 103,

The cable holder 1,
A first holder 10;
A second holder 20 coupled to the first holder 10 and the hinge 60 and having the same shape as the first holder 10 installed to open and close the hinge 60 by a rotation axis;
It is installed to be movable inside the first holder 10 and the second holder 20, and when the first holder 10 and the second holder 20 is closed, the cable (L) between the Supporting fluids 30 and 40; And
Compression coil spring installed between the fluid (30, 40) and the inside of the first holder 10 and the second holder 20 to press the fluid (30, 40) in the mounting direction of the cable (L) 50, and

The first holder 10 and the second holder 20,
Rectangular holder bodies 11 and 21;
Mounting bodies 12 and 22 extending downward from the holder bodies 11 and 21 to be inserted into and mounted in the holder mounting holes 104 when the first and second holders 10 and 20 are closed together;
A mounting groove 111 formed in the holder body 12 and 22 to have a 'c' shape to accommodate the fluid 30 and 40 to be movable;
A pair of guide grooves 113 formed to have locking jaws 114 formed on upper and lower surfaces of the mounting groove 111; And
It includes a locking protrusion 121 is formed to protrude on a portion of the outer surface of the mounting body (12, 22) to be mounted to the locking groove 105 formed in the holder mounting hole 104 in a interference fit method,

The fluid 30, 40,
A fluid body 31 inserted into and mounted in each mounting groove 111 of the first and second holders 10 and 20;
Curved grooves 312 and 412 formed on the cable support surface 311 of the fluid body 31; And
Including a guide protrusion 316 protruding from each of the upper and lower surfaces of the fluid body 31 and seated in the guide groove 113 to guide the flow,

The fluids 30 and 40 are seated in the mounting groove 111 and then pressurized in the cable mounting direction by the compression coil spring 50, and are installed so as not to be separated by the locking step 114.
When the first and second holders 10 and 20 are closed about the rotation axis of the hinge 60, the cables L are supported by the grooves 312 and 412 of the fluids 30 and 40. Subsequently, the substation draw-out power cable insulation tray, characterized in that the insertion insert into the holder mounting hole 104 of the horizontal bar (103).

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