KR20090008729U - Cable tray - Google Patents

Abstract

The present invention is a tray that organizes and guides various power lines and communication cables installed on the ground and underground, such as inside a building or subway, and the cylindrical body is divided into reinforcement bases that support and support the cables while holding both side rails together. The rollers are installed at both ends of the side rails in the horizontal and vertical curved side rail sections except the straight side rail sections installed and installed according to the type, and the cylindrical body is reinforced by the cable load when the cable is moved. It is intended to provide a cable tray that is easy to move the cable by rotating the base along the axis, and the cable is moved in contact with the roller at the cable contact point to prevent the cable from breaking.

Description

Cable tray

According to the present invention, a cylindrical body divided into reinforcement bands and outer peripheries arranged at equal intervals over the length of the side rails while supporting both side rails between two side rails constituting the cable tray is divided according to the type of cable. When the cable is installed in the cable tray, the cylindrical body supporting and supporting the cable is rotated along the reinforcement shaft by the cable load when the cable is moved. And the cable that has been moved has been assigned to some of the divided cylindrical bodies of the divided cylindrical bodies, and is fixed and placed on it. It is easy to move, and it is installed in the cable tray. In the side rail section curved horizontally and vertically except for the side rail section, rollers are installed at both ends of the side rail, and the cable moves together with the roller rotation while the cable is press-bonded to the roller during the lane shift. By doing so, the present invention relates to a cable tray provided so as to prevent a covering rupture of the cable generated during the movement of the cable.

As shown in FIGS. 8 and 9, a conventional cable tray has a cable to each reinforcing bar 52 itself arranged at equal intervals over the length of the side rails 51 while supporting both side rails 51). (53) is in a state in which the support is placed on top of the cable 53 construction during the construction of the cable 53 due to the friction force with the fixed reinforcing rod 52 in the movement of the cable 53 is difficult to move the cable 53 and 53) The cable 53 is moved while the side rail 51 surface and the cable 53 are in direct contact in the side rail 51 section formed at the time of the movement so that the covering rupture of the cable 53 occurs. There has been a problem.

The present invention is to solve the problems of the prior art in the installation of the cable in the cable tray in the installation, each side rail is held at the same intervals while holding and supporting both side rails are supported by each reinforcement shaft supporting the cable When the cylindrical body is inserted into the reinforcing band, the number of cylindrical cylinders is inserted into the reinforcing band at the periphery of the reinforcing rod with different number of cylinders depending on the cable type. Cylindrical body divided into can be rotated together to facilitate the movement of the cable. The completed movement of the cable is fixed while being assigned to some divided cylindrical body of the cylinder. Moving of additional cable later by using extra cylindrical cylinder rotation It can be carried out in an easy state, and when the tray is installed, it is curved in the horizontal and vertical direction except for the straight side rail section when there is a bypass installation due to various structures formed at the installation point and the narrow installation place. Side rail section The cable contact surface is moved with the rotation of the roller while the cable contact surface is in contact with the roller by the rollers installed vertically at both ends of the side rails to prevent the cable rupture that occurs during the cable movement. There is a purpose.

In order to solve the difficulty of the cable lane in the cable construction process during the cable construction process and the breakage of the sheath of the cable occurring during the movement of the cable in the cable tray according to the present invention, In order to prevent the cable from being placed on the reinforcing bar itself fixed to the side rails, the reinforcing bar rotates around the reinforcing bar by the load of the cable when the cable is moved so that the cable can be easily moved. Irrespective of the cylindrical body and the cylindrical body assigned to the existing cable that is already installed and fixed in the cylindrical body, only the extra cylindrical body is rotated in the cable movement at the time of additional cable construction, The cylinder is divided into a number of pieces and the cable type can be easily processed. The side rail is not installed in a straight line instead of being installed in a straight line when it is necessary to bypass the installation due to various structures formed at the narrow place and installation place of the tray due to the installation characteristics of the tray. Since it is installed in a curved shape in the vertical direction, both inner ends of the side rails of the bending section can be prevented by breaking the friction with the curved surface of the side rail to which the cable sheath is in contact during the cable movement process. It is solved by constructing the roller provided in the part.

In the cable tray according to the present invention, the inner ends of both side rails, which are angled sections except the straight sections of the side rails, are inserted in a state where a plurality of cylindrical bodies are inserted into the reinforcing bands arranged at equal intervals and fixed to both side rails. The rollers are installed on the cable, so the cable movement can be easily performed regardless of the lane of the cable construction, and the cable covering can be completely protected during the movement, thereby reducing the time and cost of the cable construction.

1 is a perspective view of a tray according to the present invention.

Figure 2 is a top view of the tray according to the present invention.

3 is a cross-sectional view taken along the line AA ′ of FIG. 2.

4 is a cross-sectional view taken along the line BB ′ shown in FIG. 2.

Figure 5 is a whole plan state of the present invention according to the cable movement.

Figure 6 is a cross-sectional view of the line C-C 'shown in Figure 5 as the cable moves.

Figure 7 is a detailed state diagram of the D indicator line shown in Figure 5 according to the cable movement.

8 is a cross-sectional view of a conventional cable movement.

9 is a plan view according to the conventional cable movement

** Description of symbols for important parts of drawings **

11: side rail 12: reinforcement stand

13: cylindrical body 14: reinforcing plate

15 hole (a, b) 16 bolt (a, b)

17: roller 18: cylinder

19: rubber ring 21: support rod

22: engaging projection 23: washer

24 nut 25 support member

31 cable 100: cable tray

* Description of Conventional Code

51: side rail, 52: reinforcement, 53: cable

In the present invention, the cylindrical body 13 is inserted at the periphery of each of the plurality of reinforcing bars 12 fixed at equal intervals between the two side rails 11 and the inserted cylindrical body 13 is a large number. The movable cable 31 can be rotated alone in a divided state, and rollers 17 are installed at both inner ends of the side rails 11, which are curved curved sections except for the straight sections of the both side rails 11, to contact each other. It is characterized by consisting of a tray 100 which becomes a rotatable configuration by a).

1 is a perspective view showing a cable tray according to the present invention.

Figure 2 is a plan view of the entire tray of the present invention.

3 is a cross-sectional view taken along the line AA ′ of FIG. 2.

4 is a cross-sectional view taken along the line B-B 'shown in FIG.

Figure 5 shows the tray of the present invention according to the cable movement in a full plane state.

FIG. 6 is a sectional view taken along line C-C 'of FIG. 5 according to cable movement.

FIG. 7 is an enlarged view of the D indicator line shown in FIG. 5 according to the cable movement.

8 is a cross-sectional view of a conventional cable movement compared to FIG. 6.

FIG. 9 illustrates a planar state according to a conventional cable movement compared to FIG. 7.

In the cable tray 100 configuration according to the present invention, as shown in Fig. 1, both side of the pair of side rails 11 in the lower direction in a row arranged at equal intervals between the plurality of side rails 11 It is fixed to the rail 11, each of the reinforcing rods 12, the cylindrical body 13 is inserted in its circumference, so that each can be inserted into a divided form so as to be able to rotate alone.

The tray 100 needs to be installed in a detour due to various structures configured at the installation site as well as a narrow problem of the installation site. Therefore, the tray 100 is not only required to have a straight shape but also a curved shape curved in the horizontal and vertical direction. 11) During installation, the curved side rails 11 are installed in a state connected with the straight side rails 11 as shown in FIG. 2 to avoid various structures.

As shown in FIG. 2, the reinforcement is arranged in a line at equal intervals in both the straight line section and the curved line section. Two rollers 17 are fixed to the inner ends of both side rails 11, which are inserted in the state in which the cylindrical body 13 is divided by the base 12 and is bent in the horizontal and vertical direction except the straight section. It will be installed.

The reinforcing bar 12 arranged between the two side rails 11 and the cylindrical body 13 inserted around the reinforcing bar 12 are shown in FIG. 3, which is a cutaway cross-sectional view of the line AA ′ shown in FIG. 2. As shown, both outer ends of the reinforcement stand 12 are coupled with the lower inner ends of both side rails 11, and both inner ends of the reinforcement stand 12 are coupled with the reinforcement plate 14 inserted into the inner ends thereof. In this case, the bolt 16a is inserted into and coupled with the spiral bolting hole 15a formed in the side rail 11, the reinforcing bar 12, and the reinforcing plate 14, and the cylindrical body ( 13) is a configuration in which each of the circumference of the reinforcement stand 12 is inserted into a state divided into a plurality of rotatable alone.

The lower end of the supporting rod 21 is fixed to the lower side rail 11 as shown in FIG. 4, which is a cutaway cross-sectional view of the line B-B 'shown in FIG. 2, at the inner ends of both side rails 11 except for a straight line. It is fixed while being inserted into a bolting hole (not shown) formed in the joined support member 25, and the support member 25 is bound by the lower side rail 11 and the bolt 16b, and the support rod ( The roller 17 is inserted in the state in which the roller 17 was inserted with 21 as the vertical axis, and the cylinder 18 and the cylinder 18 which formed the through-hole 15b so that the vertical support rod 21 can be inserted in the roller 17 are inserted. Consisting of the rubber ring 19 attached to the outer periphery of the outer periphery of the lower support rod 21 of the roller 17, the washer 23 is inserted into the locking projection 22 formed on the lower end of the support rod 22 Thus, the cylinder 18 of the roller 17 is in a state of being fitted to the washer 23, the upper end of the support rod 22 protruding from the top of the roller 17 The spiral is formed to this configuration, the fastening of the coupling nut 24 with washer 23.

Hereinafter, an embodiment will be described.

Example

When the tray 100 according to the present invention is installed as shown in FIG. 5, the side rails 11 of the tray 100 are configured as straight sections and curved sections. In FIG. 5, the side rails 11 are provided for convenience. The bending section of) is shown only horizontally in the planar state.

When the cable 31 is mounted on the cylindrical body 13 arranged between the side rails 11 and pulled in the direction of movement of the cable 31 for the cable 31 moving operation, the side of the cable 31 is the side rail ( The roller 17, which is installed at the inner end of the side rail 11, which is the bending section of 11), is moved in a compressed state, and the bottom of the cable 31 is supported while being moved while being in contact with the cylindrical body 13. do.

When the cable 31 is moved, the cylindrical body 13 supporting the cable 31 acts in the direction of movement of the cable 31 as shown in FIG. 6, which is a cutaway cross-sectional view of the line C-C 'shown in FIG. 5. Due to the force and the load thereof, the reinforcing bar 12 is rotated in the direction of movement of the cable 31 by the axis, so that the friction of the movement of the cable 31 is reduced, so that the movement of the cable 31 is easily performed. Become,

At the same time, in FIG. 7, which is an enlarged detail of the D-mark line shown in FIG. 5 together with FIG. 6, the side rails 11 except for the straight section in the side rails 11 of the tray 100 when the cable 31 is moved. The cover of the mobile cable 31 is placed on the roller 17 inserted into the support rod 21 fixed to the support member 25 fixed by the bolt 16b at the bottom of the side rail 11 in the horizontal bending section of the Since the roller 17 moves in contact with the rotation, the movement of the cable 31 is completed in a state in which the sheath of the cable 31 remains intact and not ruptured.

* The explanation is as follows.

After the movement is completed, the cable is fixed to a cylinder which is divided into a plurality of cylindrical bodies, and is fixed while being assigned to the cylinder corresponding to the edge thereof. By using the rotation, the movement of the additional cable can be easily carried out together, and the sheath is also kept intact, without rupture, so that the movement of the additional cable can be easily performed.

Claims (3)

In the cable tray for guiding the cable according to the construction of the cable, each reinforcement arranged in equal intervals between the pair of side rails by the force and the load acting in the cable moving direction while supporting the cable during the cable moving operation Cylindrical element 13 rotated around the axis to facilitate the cable movement, and the cylindrical body 13 installed at the periphery of each reinforcing rod and the side rail surface friction of the bending section where the moving cable is in contact with each other are attenuated. A cable tray comprising: rollers (17) provided at both inner ends of side rails, which are horizontally vertical bending sections, except for a straight section of side rails, which prevents cable rupture from occurring. The cylindrical body 13 according to claim 1, In addition to the cylindrical body assigned to the existing cable that is already fixedly installed, the additional cylindrical rotation that can be rotated alone can be used to facilitate further movement in the future additional cable construction. Cable tray, characterized in that divided into a plurality of differently inserted into the reinforcement stand. The roller 17 according to claim 1, With the roller inserted so that the roller can be mounted and rotated vertically on the inner side of the side rail of the bend section, a spiral that can be fastened with a nut is formed to prevent the roller from falling off and the roller can be caught by the lower end of the roller. Cable tray, characterized in that consisting of a support bar (21) that is an insertion member of the roller formed by the engaging projection.