KR101739101B1 - The distribution panel including a cable supporting apparatus of earthquake-proof function - Google Patents

Abstract

The present invention relates to a distribution board with an earthquake-proof cable support capable of suppressing damage to a cable as much as possible. The distribution board with an earthquake-proof cable support according to the present invention comprises: an outer case (11); an outer upper cover (15); a tension spring (17); a cable support moving body (21); and a cable support rod (23).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an earthquake-

More particularly, the present invention relates to a switchboard having an anti-seismic cable support device, and more particularly, to a switchboard with a cable support device having an anti-seismic function, and more particularly, To a switchgear having a cable supporting device of an earthquake-proof function.

Generally, the magnitude of the seismic force that affects buildings when an earthquake occurs varies depending on the structural characteristics such as the height, shape, or material of the building, and the earthquake is more likely to occur in high- It can affect.

Fields requiring on-line / real-time processing systems, such as industrial information processing control devices, OA devices and related auxiliary facilities In particular, in fields where utility is high such as electric power, nuclear power, water treatment, aviation, railroad, etc., Is growing even higher.

In this case, the vibrations are transmitted to the enclosure of the telecommunication equipment or the enclosure of the transmission and distribution cabin, and the high-priced equipment installed inside the telecommunication equipment or the switchboard Various devices may be damaged.

In addition, as shown in FIG. 17, one part of the cable is fixed in the switchboard and the other part of the cable is pulled out of the switchboard through the cutting hole of the switchboard and then tied to the cable tray outside the switchboard There is a problem that the cable may be damaged due to tension or shrinkage of the cable when the switchboard is shaken in a situation where there is a problem that one end of the cable that is electrically coupled to one part of the switchboard may be turned off.

Further, when the switchboard is tilted in one direction, there is a problem that the cable can be tilted or tangled with the switchboard in one direction.

Further, in the above situation, when the switchboard is shaken to the left or right, the edge of the cutting hole presses the outer circumferential surface of the cable, so that the cable covering can be peeled off. As the wire covering is peeled off, Resulting in accidents and short-circuiting accidents.

On the other hand, as a prior art of the present invention, a "method of constructing an electrical switchboard" of the patent registration number "10-0655135" includes a main breaker for a main wiring and a circuit breaker, The method includes the steps of fixing an electric switchboard box having a front surface portion and an engagement hole formed in both side surfaces and a bottom surface portion to a formwork, The electric switchboard box and the spring case are embedded in the concrete, and the spring is connected to the spring case through the respective engagement holes, and the electrical switchboard Are placed in an electrical cabinet box, The dampers are slidably moved to a damper case fixed to an electric power distribution board and an oil damper case accommodated in the damper case, And a piston rod having one end connected to the piston and the other end contacting the spring.

Korea Patent Registration No. 10-0655135 (2006.12.08) Korea Patent Registration No. 10-1620065 (2016.05.11)

In order to solve the above problems, the present invention has been made in view of the above circumstances in which one part of the cable is fixed in the switchboard, the other part of the cable is pulled out of the switchboard through the cutting hole of the switchboard, An object of the present invention is to provide an electrical switchboard having an earthquake-proof cable support device capable of minimizing the damage of a cable by minimizing a tension width or a contraction width of the cable when the switchboard is shaken when the switchboard is tied to a cable tray outside the switchboard. have.

In order to accomplish the above object, the present invention provides a switchboard having an anti-seismic cable support device, the switchboard having a cutting hole for passing the cable through the switchboard to the switchboard or for routing the cable to the outside of the switchboard, It absorbs the vibration transmitted by the cable when vibration is applied to the switchboard due to earthquake or external impact. It prevents the cable inserted in the cutting hole from being tilted or stuck in one direction. When the vibration is extinguished, Wherein the cable supporting device has a hollow shape and the upper surface thereof is opened and the first cable passage hole is passed through so as to allow the cable to pass therethrough, An outer case mounted inside the switchgear; An outer upper cover covering the upper surface of the outer case in a plate form and communicating with the first cable passage hole and passing through the second cable passage hole through which the cable passes; A spring in the form of a coil that is elastically contracted or expanded and restored; a tension spring having one end mounted on the inner peripheral side surface of the outer case and four or more mounted on the inner peripheral side surface of the outer case; A cable supporting moving body which is slid in a state of being mounted in the outer case and whose outer circumferential surface is connected to the other end of the tension spring and which communicates with the first and second cable passing holes, ; And a cable support bar fixed to the third cable passage hole and connected to the cable passing through the third cable passage hole. The cable support bar holds the cable when the switchboard is shaken by an earthquake or an external shock, The moving body slides in the direction opposite to the tilting direction of the switchboard to prevent the cable from being tilted and damaged and the tension spring is expanded or contracted by being guided by the cable supporting moving body to elastically hold the cable supporting moving body and absorb the vibration transmitted through the cable When the switchboard is retracted due to the vibration transmitted to the switchboard, the cable support moving body is moved to the initial position by the resilient restoring force of the tension spring.

When the switchboard is tilted in one direction due to an earthquake or an external shock, the cable support moving body to which the cable is coupled slides in a direction opposite to the direction in which the switchboard is tilted, At the same time, the tension spring resiliently holds the cable supporting moving body to buffer the vibration transmitted by the cable and prevent the cable from leaning in the direction of tilting of the switchboard.

Further, when the vibration applied to the switchboard is lost, the cable supporting movable body is slid to the original position by the elastic restoring force of the tension spring, thereby returning the cable position to the original position.

Therefore, in the switchboard with the cable support device of the seismic function according to the present invention, one part of the cable is fixed in the switchboard, the other part of the cable is pulled out of the switchboard through the cutting hole of the switchboard, If the cable exiting to the outside is tied to a cable tray outside the switchboard and the switchboard is shaken up, down, front, back, left, and right, the cable can be minimally stretched or shrunk to minimize damage to the cable And it is possible to prevent the cable from being tilted or stuck in one direction.

1 is a conceptual diagram of the present invention,
2 is a view showing a cable supporting device mounted on an upper part of a switchboard,
3 is an exploded view of a cable support device,
4 is an exploded perspective view of the cable supporting device,
5 is an exploded perspective view of a cable supporting moving body,
6 is an exploded perspective view of the cable supporting device,
7 is a longitudinal sectional view of the moving device,
8 is a top view of the cable support device with the outer top cover removed,
9 is a longitudinal sectional view of the cable supporting device,
10 is a view showing a bus duct mounted on a cable supporting movable body,
11 is an exploded perspective view of the cable supporting device and the bus duct,
12 is a vertical cross-sectional view of the cable supporting device and the bus duct integrally combined,
13A and 13B are diagrams showing the state of the cable supporting moving body and the tension spring when the switchboard is tilted forward due to an earthquake or an external impact,
14A and 14B are diagrams showing the state of the cable supporting moving body and the tension spring when the switchboard is inclined rearward due to an earthquake or an external impact,
15A and 15B are diagrams showing the state of the cable supporting moving body and the tension spring when the switchboard is tilted to the left by an earthquake or an external shock,
16A and 16B are diagrams showing the state of the cable supporting moving body and the tension spring when the switchboard is tilted to the right by an earthquake or an external impact,
FIG. 17 is a view for explaining that when a conventional switchboard is shaken by an earthquake or an external shock, a cable installed in a conventional switchboard is pulled or contracted, thereby causing cable damage.

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

As shown in Figs. 1 to 4, the switchboard having the cable supporting device according to the present invention has a structure in which the cable 3 is inserted into the switchboard 1 through the switchboard 1 or the cable 3 And a cutting hole 5 for cutting off the cable 3 when the switchboard 1 is vibrating due to an earthquake or an external shock when the switchboard 1 is mounted on the switchboard 1, So as to prevent the cable 3 inserted in the cutting hole 5 from being tilted or stuck in one direction and to move the position of the cable 3 to the original position when the vibration is extinguished The cable support device (7) has a three-dimensional shape and has a top surface opened and a first cable passage hole (9) so as to allow the cable (3) to pass therethrough. ) Through It said switchgear (1), an outer case 11 mounted on the interior and; And a second cable through hole 13 through which the cable 3 is passed while being covered with the open upper surface of the outer case 11 and communicating with the first cable through hole 9, (15); A spring having a coil spring which is elastically contracted or expanded and restored and which has one end mounted on the inner circumferential surface of the outer case 11 and four or more mounted on the inner circumferential surface of the outer circumferential surface of the outer case 11 ); The cable 3 is slid in a state of being mounted in the outer case 11 and the outer circumferential surface thereof is connected to the other end of the tension spring 17 and communicated with the first and second cable passage holes 9 and 13, And a third cable passage hole 19 which is fixed to the third cable passage hole 19 as a bar bar and which is fixed to the third cable passage hole 19, And a cable support rod 23 to which a cable 3 passing therethrough is bound and when the switchboard 1 is shaken by an earthquake or an external shock, the cable support moving body 21 holding the cable 3 tilts the switchboard 1 The cable 3 is prevented from being tilted or damaged and the tension spring 17 is expanded or contracted by being led by the cable supporting movable body 21 to elastically hold the cable supporting movable body 21 The vibration transmitted to the cable (3) The cable supporting movable body 21 is positioned by the resilient restoring force of the tension spring 17 when the control panel 1 is absorbed and the vibration transmitted to the switchboard 1 disappears and the switchboard 1 returns to the original position, .

As shown in FIG. 4, the outer case 11 has a rectangular parallelepiped shape with its top surface opened. Both ends of the upper and lower sides of the outer case 11 are provided with a translator-type bolt fixing piece 25 bent in the form of a translator. The outer upper cover 15 is bolted to the operator-side bolt fixing piece 25. [

An upper bolt assembly hole (27) penetrates through the outer upper cover (15) so as to be bolted to the inside of the power distribution board (1).

Further, side bolt assembly holes 29 are formed on both side walls of the outer case 11 facing each other so as to be bolted to the inside of the power distribution board 1.

As shown in FIG. 5, the cable supporting and moving body 21 includes a cable supporting movable body upper plate 31 having a plate-shaped third cable passage hole 19 penetrating therethrough, A cable supporting movable body lower plate 33, which is disposed parallel to the cable supporting movable body upper plate 31 with a predetermined height interval therebetween and through which the third cable passing hole 19 passes, 3 cable through hole 19 and the upper end thereof is in contact with the edge of the third cable passage hole 19 formed in the cable supporting moving body upper plate 31, An intermediate connecting piece 35 to which the other end of the tension spring 17 is connected to the circumferential surface, an upper ballhole 37 penetrating the four corners of the cable supporting moving body upper plate 31, Facing cable A lower ball hole 39 penetrating through four corners of the lower movable base plate 33 and a pair of upper and lower ball rollers 41, The ball of the lower ball roller 43 inserted into the upper ballhole 37 is inserted into the lower ballhole 39 and the upper surface of the housing 51 is fixed to the cable supporting moving body upper plate 31, The bottom of the lower ball roller 43 is rolled while the bottom of the upper ball roller 41 is in contact with the bottom of the outer upper cover 15, 11 and a moving device 45 which is rolled in a state in which the moving device 45 is mounted on the moving device.

As shown in FIG. 5, four or more protrusions are protruded in the outer direction of the intermediate connecting piece 35 and are connected to the other end of the tension spring 17 in a one-to-one ratio on the side surface of the intermediate connecting piece 35 And the other spring fixed connection piece 48 can be additionally mounted.

The spring-receiving hole 50 is passed through the other-side spring-fixing connecting piece 48 so that the hooking hook formed at the other end of the tension spring 17 is inserted.

As shown in FIG. 4, the inner side wall of the outer case 11 is provided with four or more one-side spring fixing connecting pieces 47 protruding in the direction of the cable supporting moving body 21, One end of the tension spring 17 is fixed at a ratio of 1: 1.

At this time, the spring-insertion hole 50 is passed through the one-side spring fixing connecting piece 47 so that the hook formed on one end of the tension spring 17 is inserted.

As shown in FIG. 6, the other-side spring fixing connecting piece 48 includes a first other-side spring fixing connecting piece 48a protruding from the left side of the intermediate connecting piece 35 in the left direction of the intermediate connecting piece 35, A second one-side spring fixing connecting piece 48b protruding from the right side surface of the intermediate connecting piece 35 toward the right side of the intermediate connecting piece 35, A fourth fourth spring fixed connection piece 48d protruding forward from the front surface of the intermediate connection piece 35 from the front surface of the intermediate connection piece 35 and spaced apart from the third other spring fixed connection piece 48c by a predetermined width, A fifth fifth spring fixed connection piece 48e protruding rearward from the rear surface of the intermediate connecting piece 35 from the rear surface of the intermediate connecting piece 35, connect Claim 6 is composed of the other spring fixing the connecting piece (48f) (48e) and away from a predetermined width interval.

The one-side spring fixing connecting piece 47 includes a first one-side spring fixing connecting piece 47a protruding from the inner left side of the outer case 11 facing the first other-side spring fixing connecting piece 48a toward the cable supporting moving body 21 A second one-side spring fixed connection piece 47b protruding from the inner right side surface of the outer case 11 facing the second other-side spring fixed connection piece 48b in the direction of the cable supporting movable body 21, A third one-side spring fixing connecting piece 47c protruding from the inner front surface of the outer case 11 facing the spring fixing connecting piece 48c toward the cable supporting moving body 21, And a fourth one-side spring fixed connection piece 47 protruding from the inner front surface of the outer case 11 toward the cable supporting movable body 21 and spaced apart from the third one-side spring fixed connection piece 47c by a predetermined width a fifth one-side spring fixing connecting piece 47e protruding from the inner rear surface of the outer case 11 facing the fifth other-side spring fixing connecting piece 48e in the direction of the cable supporting moving body 21, A sixth one side spring fixed connection piece 47f protruding from the inner rear surface of the outer case 11 facing the spring fixed connection piece 48f toward the cable supporting movable body 21 and spaced apart from the fifth one side spring fixed connection piece 47e by a predetermined width, ).

The tension spring 17 includes a first tension spring 17a having both ends connected to the first other-side spring fixed connection piece 48a and the first-side spring fixed connection piece 47a, A second tension spring 17b connected to the second one-side spring fixing connection piece 47b and a second tension spring 17b connected to the third one-side spring fixing connection piece 47c, A fourth tension spring 17d connected to the fourth one-side spring fixed connection piece 48d and the fourth one-side spring fixed connection piece 47d at both ends at the opposite ends thereof, a fourth tension spring 17d connected to the fifth other- A fifth tension spring 17e connected to the fifth one-side spring fixing connection piece 47e and a fifth tension spring 17b connected to the sixth one-side spring fixing connection piece 48f and the sixth one- 6 tension spring 17f.

The width interval between the third one-side spring fixing connection piece 48c and the fourth other-side spring fixing connection piece 48d is narrower than the width interval between the third one-side spring fixing connection piece 47c and the fourth one-way spring fixing connection piece 47d The third tension spring 17c and the fourth tension spring 17d are mounted diagonally as shown in Fig.

The width interval between the fifth one-side spring fixing connecting piece 48e and the sixth one-side spring fixing connecting piece 48f is equal to the width interval between the fifth one-side spring fixing piece 47e and the sixth one- The fifth tension spring 17e and the sixth tension spring 17f are mounted in a diagonal direction as shown in Fig.

7, a ball roller mounting hole 49 is passed through the center of the housing 51, and the ball roller mounting hole 49 is formed with an upper ball roller 41, The ball provided in the upper ball roller 41 faces the upper ball hole 37 and the ball provided in the lower ball roller 43 is guided to the lower ball hole 39, A buffer member 53 for absorbing vibration is sandwiched between the upper ball roller 41 and the lower ball roller 43. As shown in Fig.

The buffer member 53 absorbs vibration in the up, down, left, and right directions and vibration in the diagonal direction applied to the moving device 45 so that the moving device 45 can be freely moved.

As shown in FIG. 5, four or more upper moving device fixing holes 55 are formed in a predetermined radius around the upper ballhole 37 through a cable supporting moving body upper plate 31 located outside the upper ballhole 37, And four or more lower moving device fixing holes 57 penetrate through the cable supporting lower movable plate 33 located outside the lower ballhole 39 in a predetermined radius around the lower ballhole 39.

7, a housing upper fixing hole 59 is formed at an upper end of the housing 51 outside the ball roller mounting hole 49 so as to face the upper moving device fixing hole 55, A lower housing fixing hole 61 is formed at the lower end of the housing 51 outside the ball roller mounting hole 49 so as to face the lower moving device fixing hole 57.

A bolt tap is formed on the inner circumferential surfaces of the housing upper fixing hole 59 and the lower housing fixing hole 61.

The cable supporting and moving device upper plate 31 and the moving device 45 are fixed by a bolt fastened to the upper moving device fixing hole 55 and the upper housing fixing hole 59, (45) is fixed by a bolt fastened to the lower moving device fixing hole (57) and the lower housing fixing hole (61).

8 is a plan view of the cable supporting device 7 from which the outer upper cover 15 is removed, and Fig. 9 is a longitudinal sectional view of the cable supporting device 7. Fig.

When the booth duct 65 with the bus bar 63 is coupled to the cable support device 7 as shown in Figs. 10 to 12, the tip of the booth duct 65 is connected to the cable support moving body 21 and the bus bar 63 can be coupled with the electrical apparatus of the switchboard 1 through the third cable passage hole 19. [

The operation of the switchboard having the above-described structure with the cable supporting device of the seismic function according to the present invention will be described with reference to FIGS. 13A to 16B.

First, when the switchboard 1 is tilted forward, the cable supporting and moving body 21 is guided by the cable 3 bound to the cable supporting and moving body 21 and the rear of the switchboard 1, as shown in Figs. 13A and 13B The tension spring 17 disposed in front of the cable supporting device 7 is expanded and the tension spring 17 disposed at the rear of the cable supporting device 7 is contracted.

On the other hand, when the switchboard 1 is tilted rearward, the cable supporting and moving body 21 is guided by the cable 3 bound to the cable supporting and moving body 21, as shown in Figs. 14A and 14B, The tension spring 17 arranged in front of the cable supporting device 7 is contracted and the tension spring 17 arranged at the rear of the cable supporting device 7 is expanded.

When the switchboard 1 is tilted to the left, as shown in Figs. 15A and 15B, the cable supporting and moving body 21 is slid to the right of the switchboard 1 while being drawn by the cable 3, The tension spring 17 disposed on the left side of the cable supporting device 7 is expanded and the tension spring 17 disposed on the right side of the cable supporting device 7 is contracted.

On the other hand, when the switchboard 1 is tilted to the right, as shown in Figs. 16A and 16B, the cable supporting and moving body 21 is slid to the left side of the switchboard 1 by the cable 3, ) Is expanded and the tension spring 17 disposed on the left side of the cable supporting device 7 is contracted.

Therefore, the present invention is characterized in that, as shown in Figs. 13a to 16b, when the cable supporting mobile body 21 to which the cable 3 is bound when the distribution board 1 is tilted to one side is opposite to the tilting of the distribution board 1 It is possible to minimize the tensile width or the shrink width of the cable 3 so as to suppress the damage of the cable and to prevent the tension spring 17 from flexibly holding the cable supporting mobile body 21 in a resilient manner, The damage of the cable 3 due to the vibration can be suppressed.

When the switchboard 1 is tilted in either direction due to an earthquake or an external shock, the cable support moving body 21, to which the cable 3 is bound, The cable 3 is slid in a direction opposite to the tilting direction of the cable 1 while the tension spring 17 resiliently holds the cable supporting movable body 21 to buffer the vibration transmitted to the cable 3, (1) is prevented from leaning in a tilting direction.

Further, when the vibration applied to the switchboard 1 is lost, the cable supporting mobile body 21 is slid to the original position by the elastic restoring force of the tension spring 17, thereby returning the position of the cable 3 to the original position.

Thus, the switchboard with the cable support device of the seismic function according to the present invention is characterized in that one part of the cable 3 is fixed in the switchboard 1 and the other part of the cable 3 is connected to the cutting hole The cable 3 escapes from the switchboard 1 to the outside of the switchboard 1 through the cutting hole 5 and the switchboard 1 is connected to the cable tray 1 in a state where the cable 3 is tied to the cable tray outside the switchboard 1 The cable 3 can be restrained from being stretched or shrunk and damaged when the cable 3 is shaken downward, backward, backward, leftward and rightward, and it is possible to prevent the cable 3 from being tilted or strangled in any one direction.

1. Switchboard 3. Cable
5. Cutting hole 7. Cable support
9. First cable through hole 11. External case
13. Second cable through hole 15. External top cover
17. Tension spring 17a. The first tension spring
17b. Second tension spring 17c. Third tension spring
17d. The fourth tension spring 17e. The fifth tension spring
17f. Sixth tension spring 19. Third cable through hole
21. Cable supporting moving body 23. Cable supporting rod
25. Navigator type bolt fixing piece 27. Upper bolt assembly hole
29. Side bolt assembly hole 31. Cable support moving body top plate
33. Cable supporting movable bottom plate 35. Middle connecting piece
37. Upper ballhole 39. Lower ballhole
41. Upper ball roller 43. Lower ball roller
45. Moving device 47. One side fixed connection piece
47a. First side spring fixing connection piece 47b. The second one-side spring fixing connecting piece
47c. Third side spring fixing connecting piece 47d. Fourth spring fixed connection piece
47e. Fifth one side spring fixing connecting piece 47f. 6th spring fixed connection piece
48. The other spring fixed connection 48a. The first other-side spring fixing connecting piece
48b. The second other-side spring fixing connecting piece 48c. The third other-side spring fixing connecting piece
48d. The fourth other-side spring fixing connecting piece 48e. The fifth side spring fixing connecting piece
48f. Sixth sixth spring fixed connecting piece 49. Ball roller mounting hole
51. Housing 53. Buffer member
55. Upper moving device fixing hole 57. Lower moving device fixing hole
59. Housing upper fixing hole 61. Housing lower fixing hole
63. Booth Bar 65. Booth Duct
67. Fittings 69. Busbars for connecting to switchboards

Claims (5)

And a cutting hole 5 for passing the cable 3 through the switchboard 1 into the switchboard 1 or for exporting the cable 3 to the outside of the switchboard 1,
When a vibration is applied to the switchboard 1 due to an earthquake or an external shock in a state where the switchboard 1 is mounted on the switchboard 1 and the cables 3 that are sandwiched by the cut- And a cable support device (7) for moving the position of the cable (3) to the original position when the vibration is eliminated, the cable support device having an earthquake-resistant function,
The cable supporting device 7 includes an outer case 11 which is hollow and has a top surface opened and a first cable passage hole 9 penetrated to allow the cable 3 to pass therethrough and mounted inside the switchboard 1;
And a second cable through hole 13 through which the cable 3 is passed while being covered with the open upper surface of the outer case 11 and communicating with the first cable through hole 9, (15);
A spring having a coil spring which is elastically contracted or expanded and restored and which has one end mounted on the inner circumferential surface of the outer case 11 and four or more mounted on the inner circumferential surface of the outer circumferential surface of the outer case 11 );
The cable 3 is slid in a state of being mounted in the outer case 11 and the outer circumferential surface thereof is connected to the other end of the tension spring 17 and communicated with the first and second cable passage holes 9 and 13, A cable supporting moving body 21 through which a third cable passing hole 19 is passed;
And a cable support rod 23 fixed to the third cable passage hole 19 as a straight bar and coupled with a cable 3 passing through the third cable passage hole 19,
When the switchboard 1 is shaken by an earthquake or an external shock, the cable supporting movable body 21 holding the cable 3 slides in the direction opposite to the tilting direction of the switchboard 1, And the tension spring 17 is extended or contracted by being guided by the cable supporting movable body 21 to thereby elastically hold the cable supporting movable body 21 and at the same time absorb the vibration transmitted to the cable 3 and transmit it to the switchboard 1 The cable supporting movable body 21 is moved to the initial position by the resilient restoring force of the tension spring 17 when the displacement board 1 is returned to its original position,
The cable supporting moving body 21 has a plate-shaped cable supporting moving body upper plate 31 through which a third cable passing hole 19 passes,
A cable supporting mobile body lower plate 33 disposed parallel to the cable supporting mobile body upper plate 31 at a predetermined height interval from the cable supporting mobile body upper plate 31 and passing through the third cable passing hole 19,
The upper end of the third cable passage hole 19 protruded from the edge of the cable supporting movable body lower plate 33 to the cable supporting movable body upper plate 31 An intermediate connecting piece 35 abutting the edge of the cable passage hole 19 and having the other end of the tension spring 17 connected to the outer peripheral surface,
An upper ballhole 37 penetrating the four corners of the cable supporting and moving member upper plate 31,
A lower ballhole 39 passing through the four corners of the cable supporting lower movable plate 33 facing the upper ballhole 37 in the vertical direction,
A pair of ball rollers are coupled in a vertically symmetrical structure in the housing 51 and the ball of the upper ball roller 41 disposed on the upper side is fitted into the upper ball hole 37 and the lower ball roller 43 disposed on the lower side, The upper surface of the housing 51 is fixed to the cable supporting movable body upper plate 31 and the lower surface of the housing 51 is fixed to the cable supporting movable lower plate 33 and the upper ball roller 41 Is rolled while the ball of the lower ball roller 43 is in contact with the bottom of the outer upper cover 15 and rolled in a state in which the ball of the lower ball roller 43 is placed on the outer case 11 In addition,
In the moving device 45, a ball roller mounting hole 49 is passed through the center of the housing 51,
In the ball roller mounting hole 49, the upper ball roller 41 and the lower ball roller 43 are vertically symmetrical,
The ball provided on the upper ball roller 41 faces the upper ball hole 37 and the ball provided on the lower ball roller 43 faces the lower ball hole 39,
A buffer member 53 for absorbing vibration is fitted between the upper ball roller 41 and the lower ball roller 43,
Four or more protruding portions of the intermediate connecting piece 35 protrude outwardly of the intermediate connecting piece 35 and a second spring fixing connecting piece 48 connected to the other end of the tension spring 17 by 1: And,
A spring-receiving hole (50) penetrates through the other-side spring-fixing connecting piece (48) so that a hook formed at the other end of the tension spring (17)
On the inner side wall of the outer case 11, four or more one-side spring fixing connecting pieces 47 protruding in the direction of the cable supporting movable body 21 are provided,
One end of the tension spring 17 is fixed to the one-side spring fixing connecting piece 47 at a ratio of 1: 1,
A spring-insertion hole (50) penetrates through the one-side spring fixing connecting piece (47) so that a hook formed on one end of the tension spring (17)
The other spring fixed connection piece 48 includes a first other-side spring fixed connection piece 48a projecting from the left side of the intermediate connection piece 35 in the left direction of the intermediate connection piece 35,
A second second spring fixed connection piece 48b protruding from the right side of the intermediate connection piece 35 toward the right side of the intermediate connection piece 35,
A third third spring fixed connection piece 48c protruding forward from the front surface of the intermediate connection piece 35 to the front side of the intermediate connection piece 35,
A fourth other-side spring fixed connection piece 48d protruding forward from the front surface of the intermediate connection piece 35 and spaced apart from the third other-side spring fixed connection piece 48c by a predetermined width,
A fifth fifth spring fixed connection piece 48e protruding from the rear surface of the intermediate connection piece 35 to the rear of the intermediate connection piece 35,
And a sixth one-side spring fixed connection piece 48f protruding rearward from the rear surface of the intermediate connection piece 35 and spaced apart from the fifth other-side spring fixed connection piece 48e by a predetermined width,
The one-side spring fixing connecting piece 47 includes a first one-side spring fixing connecting piece 47a protruding from the inner left side of the outer case 11 facing the first other-side spring fixing connecting piece 48a toward the cable supporting moving body 21 )and,
A second one-side spring fixed connection piece 47b protruding from the inner right side surface of the outer case 11 facing the second other-side spring fixed connection piece 48b toward the cable supporting movable body 21,
A third one-side spring fixed connection piece 47c protruding from the inner front surface of the outer case 11 facing the third other-side spring fixed connection piece 48c toward the cable supporting movable body 21,
A fourth one-side spring 47 protruding from the inner front surface of the outer case 11 facing the fourth other-side spring fixed connection piece 48d toward the cable supporting movable body 21 and spaced apart from the third one- Fixed connection piece 47d,
A fifth one-side spring fixed connection piece 47e projecting from the inner rear surface of the outer case 11 facing the fifth other-side spring fixed connection piece 48e toward the cable supporting movable body 21,
And the sixth one side spring fixing connecting piece 47e protruding from the inner rear surface of the outer case 11 facing the sixth side spring fixing connecting piece 48f in the direction of the cable supporting moving body 21 and spaced apart from the fifth one- And a spring fixed connection piece 47f,
The tension spring 17 includes a first tension spring 17a having both ends connected to the first other-side spring fixed connection piece 48a and the first-side spring fixed connection piece 47a,
A second tension spring 17b connected to the second other-side spring fixed connection piece 48b and the second-side spring fixed connection piece 47b at both ends,
A third tension spring 17c connected to the third other-side spring fixed connection piece 48c and the third-side spring fixed connection piece 47c at both ends,
A fourth tension spring 17d having both ends connected to the fourth other-side spring fixed connection piece 48d and the fourth-side spring fixed connection piece 47d,
A fifth tension spring 17e having both ends connected to the fifth one-side spring fixing connecting piece 48e and the fifth one-side spring fixing connecting piece 47e,
And a sixth tension spring 17f connected to the sixth other-side spring fixed connection piece 48f and the sixth-side spring fixed connection piece 47f at both ends thereof,
A buffer member 53 for absorbing vibration is fitted between the upper ball roller 41 and the lower ball roller 43,
The buffer member 53 absorbs vibration in the up, down, left, and right directions and vibration in the diagonal direction applied to the moving device 45 to allow the moving device 45 to move freely,
Four or more upper moving device fixing holes 55 are penetrated in a predetermined radius around the upper ballhole 37 in the cable supporting moving body upper plate 31 located outside the radius of the upper upper hole 37, Four or more lower moving device fixing holes 57 penetrate through the cable supporting movable lower plate 33 located outside the radius of the lower bolt hole 39 in a predetermined radius around the lower ball hole 39,
A housing upper fixing hole 59 is formed at the upper end of the housing 51 outside the ball roller mounting hole 49 so as to face the upper moving device fixing hole 55, A housing lower fixing hole 61 is formed at the lower end of the housing 51 to face the lower moving device fixing hole 57,
Bolt tabs are formed on inner circumferential surfaces of the housing upper fixing hole 59 and the lower housing fixing hole 61,
The cable supporting and moving device upper plate 31 and the moving device 45 are fixed by a bolt fastened to the upper moving device fixing hole 55 and the upper housing fixing hole 59, (45) has a seismic-function cable supporting device fixed by a bolt fastened to the lower moving device fixing hole (57) and the lower housing fixing hole (61).
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