KR101597706B1 - Seismic and horizontal features adjustable Switchgear - Google Patents

Abstract

The present invention relates to an earthquake resisting function and a horizontally adjustable switchgear. An earthquake resisting means: a detachably fixed sprint support-cum-bottom fixing tool; an elastic member embedded with a spring buffering a vibration and impulse force; an adjustment member supporting tool minimizing fractional force; a spring elastic force and enclosure horizontal degree adjusting member functioning as an axis of rotation; and a hole hiding plate-cum-fixing plate installed to detachably hide a hole, drilled in the frame, for the installation of the earthquake resisting means. According to the present invention, the horizontally adjustable switchgear can be molded into a structure enabling the number of elements of the earthquake resisting means to be significantly reduced and the earthquake resisting means to be easily assembled and disassembled, thereby reducing manufacturing costs and personnel expenses.

Description

{Seismic and horizontal features adjustable switchgear}

The present invention relates to a seismic isolation and control system capable of leveling, and more particularly, to a method of controlling a seismic isolation system, It is possible to reduce the production cost and the labor cost of the product by molding it into a structure which is easy to disassemble and assemble while greatly reducing the number of components of the earthquake-proofing means provided in the case of the seismic isolation device, So that it is possible to freely adjust the horizontal angle with respect to the enclosure of the switchgear including the elastic force of the spring-loaded elastic member provided in each of the seismic means, so that a simple spring- Simply by turning the elasticity and enclosure leveling members, It is possible to precisely adjust the horizontal level of the weight switch chain in response to the tilt of the floor, thereby greatly reducing the installation time of the earthquake-proofing means and the time and labor cost required for leveling the power supply and distribution panel. The present invention relates to an earthquake-proof function and a leveling control panel capable of horizontally controlling an earthquake-resistant earthquake.

Generally, it is impossible to supply electric power which can be used as it is from the electric power company like general electric equipment of low voltage of 110V or 220V because electric power of private use such as building or factory is large.

Therefore, in a large-sized building, it is necessary to transform a special high voltage of 22.9 kV to a commercial voltage, which is a power supply switch.

These substations are equipped with a power reception facility for receiving high pressure and special high pressure from substations, a substation for substracting high voltage and special high voltage received from substations to commercial voltage, It is formed as a distribution facility for supplying electricity to supply the electricity safely and efficiently into the building.

[0003] In such a switchgear, a switchgear having a predetermined volume and having a door is usually provided with an inlet for receiving electric power from a power distribution line, an automatic section switch connected in series to the inlet of the automatic switch section, A transformer current transformer connected in series to the downstream of the power fuse for protection of the transformer current transformer, a transformer current transformer for a power supply and a supply device connected in series to the transformer current transformer for power supply and demand, A main circuit breaker connected to a secondary side of the transformer, and a second circuit breaker connected downstream of the main circuit breaker, wherein the main circuit breaker is connected to the transformer, And a plurality of wiring breakers for blocking the respective loads are installed.

In addition, the enclosure of such a switchgear is constructed by assembling the anchor bolts on the concrete floor surface inside or outside the building, assemble the floor angles, assembling the column angles on the floor angles, and assembling the enclosures on the assembled column angles, This bottom angle is assembled by bolt tightening, and seismic design is not done separately.

However, in most of the conventional switchboards, the vibration condition is directly transmitted to the panel itself due to mechanical vibration or earthquake caused by the electromagnetic force due to the vibration of the floor or the energization of the large electric power, and various devices installed therein are damaged by earthquakes This is often the case.

Especially, since the earthquake, typhoon, tsunami and other natural disasters, which are frequent and frequent in recent years, collapse of structures and economic losses caused by them are increasing, it is important to secure the stability of building structures. Especially, Large buildings such as buildings and high-rise buildings, as well as power distribution boards installed in various structures, can be accompanied by huge loss of life, economic loss, and inability to operate various equipment due to interruption of power supply. Standards are being strengthened.

Accordingly, the present applicant has proposed a structure in which a plurality of earthquake-proofing means having a predetermined shape is provided between the bottom of the enclosure of a power transmission and a concrete floor and the concrete bottom surface, and various types of earthquake- And a "power supply and distribution panel having an earthquake-proof function" capable of preventing damages such as power outage and fire due to flow of the components, and disclosed in Korean Patent Registration Nos. 10-1515789, 10-1515791, and 10-1515796 have.

However, there are many components of the earthquake-proofing means used in the above-mentioned earthquake-resistant power transmission and distribution panels, and a plurality of welding processes are required to assemble each component, resulting in a large production cost and labor cost of the product.

Particularly, since the earthquake-proofing means itself is fixed to the upper surface of the floor fixing plate by welding, a plurality of earthquake-proofing means are disposed on the concrete floor which is not well suited for horizontal positioning at a predetermined interval in consideration of the width of the floor of the power- Next, when the floor fixing plates having the bottoms of the respective vibration-proofing units are fixed by using several anchor bolts, and then the upper portions of the respective vibration-proofing units are fixed to the frame provided on the bottom of the cabin of the cabin, There are many cases where the enclosure is deformed corresponding to the level of the concrete floor.

Therefore, conventionally, when the enclosure of the switchgear is deformed in response to the horizontal defects of the concrete floor as described above, a horizontal adjustment member such as a wedge or the like is integrally formed between the floor fixing plate and the concrete floor surface of each of the earthquake- It is inconvenient to fix the floor fixing plate by using an anchor bolt. However, when inserting the horizontal adjusting members between the floor fixing plate of the vibration isolating means and the concrete floor, It is necessary to precisely adjust the level of the switchboard by inserting the leveling members in a state of lifting one side of the weight-chain switchboard by means of a lifting means such as a block or the like, so that it takes a lot of time and labor costs, Failure to precisely align horizontal alignment of the switchboard There is a problem.

In addition, safety accidents often occur due to carelessness of operators or malfunction of lifting means when performing leveling work for relatively heavy chain transmission and distribution panels.

Korean Registered Patent No. 10-1418247 (Jul. 04, 2014) Korean Registered Patent No. 10-1515789 (April 22, 2015) Korean Registered Patent No. 10-1515791 (April 22, 2015) Korean Registered Patent No. 10-1515796 (April 22, 2015)

The present invention has been made in order to solve the above problems of the related art, and it is an object of the present invention to provide a high-pressure and high-pressure semi-high- In order to prevent damages such as power outage and fire due to various components installed inside the switchboard when an impact such as mechanical vibration due to electromagnetic force due to earthquake or high power energization occurs, the number of components of the earthquake- And to provide a seismic isolation function capable of reducing the production cost and labor cost of a product, and a power distribution board capable of horizontal adjustment.

It is another object of the present invention to provide a vibration isolator in which an earthquake-proofing means is inserted into a concrete bottom surface through a hole for installing an earthquake-proofing means drilled in a frame inside an enclosure of a transmission and distribution panel, and a bottom portion of the earthquake- And an upper portion of the seismic means is provided with a spring elastic force integrally provided with an elongated bolt in a rhombic ball and a long bolt coupling nut to which a long bolt of an enclosure horizontal adjustment member is fastened, A spring provided in each of the seismic isolation means using the spring elasticity and the enclosure level adjustment member in the enclosure of the switchgear is fixed by using a hole finishing plate and a fixing plate provided in the form of a hole- Including the elastic force of the built-in elastic member, the horizontal angle to the enclosure of the switchgear can be freely adjusted So that the spring elasticity and the enclosure level adjusting member can be returned by using a simple bolt rotating tool without using a separate enclosure elevating means or a level adjusting member, It is possible to drastically reduce the time and labor cost required to install the earthquake-proofing means and the leveling of the power supply and distribution panel, as well as the seismic function and the horizontal adjustment This is to provide a possible switchboard.

In order to achieve the above object, the present invention provides a switchboard having a plurality of seismic isolation means provided between a bottom surface of an enclosure and a bottom surface of a concrete, And an anchor bolt is provided on a bottom surface of the concrete which coincides with the center of the hole for installing the earthquake-proofing means, and a part of the earthquake-proofing means is installed in the frame The upper portion of the earthquake-proofing means is provided with a spring elastic force and a spring-like member which is fastened to an end portion of the jacket bolt A bolt-fitting nut and a plurality of plate-fixing bolts, Wherein the vertical elastic force of the vibration-proofing means and the horizontal angle with respect to the enclosure of the power-transmission and distribution panel are determined by the longitudinal bolt connection of the hole finishing plate and the fixing plate in the enclosure of the power- And the spring elasticity and the enclosure level adjustment member fastened to the nut are rotated in the forward direction or the reverse direction.

At this time, the earthquake-proof means includes a spring receiving surface supported at the bottom of the spring-loaded elastic member, and a spring-flow preventing protrusion engaged with the bottom of the spring-loaded elastic member integrally with the upper surface, A spring support and bottom fixing part detachably fixed by an anchor bolt on a concrete floor surface and an anchor nut fastened to the anchor bolt; A spring steel spring is integrally inserted into the interior of the bellows, and a spring force is applied between the upper surface of the spring support and the bottom fixing member and the bottom surface of the enclosure leveling member in a vertical direction A spring-loaded elastic member for buffering vibrations and impact forces transmitted in a vertical direction through the spring support and bottom fixing member, the spring elastic force and the case horizontal adjustment member; A ball-shaped contact groove is formed on an upper surface of the spring-loaded elastic member, and a spring insertion rod is formed on a bottom surface of the spring-loaded elastic member so as to be inserted and caught in the upper portion of the elastic member. A control member support for minimizing the frictional force generated between the resilient force of the spring elasticity and the slippery ball bottom face contact portion of the enclosure leveling member when the slider is tilted in a direction corresponding to the tilting direction and angle of the built-in elastic member; And the lower bolt has a shape in which the long bolt is integrally formed in the vertical direction from the center point of the curved right-wing ball of the upper and lower surfaces, and the long bolt is screwed into the long bolt connecting nut through the long bolt passing hole drilled in the center portion of the hole finishing plate- The bottom surface of the oozing ball is in close contact with the ball contact groove of the control member support while the joint member is in a coupled state so as to fix the earthquake-resistant means to the frame of the enclosure through the hole finishing plate and the fixing plate. And a control unit that controls the horizontal angle of the enclosure of the power plant by including an elastic force of the spring-incorporated elastic member and rotates in correspondence with a direction of rotation of the control unit by the operator in the enclosure of the power / The support and spring-loaded elastic members and the spring-bearing and floor-standing fixture are inclined or rotated in a specific direction A spring elasticity force and an enclosure horizontal adjustment member for performing a rotation axis function for them; The spring elastic force and the long bolt coupling nut to which the long bolt of the housing horizontal adjustment member is screwed are welded to the upper portion of the long bolt passage hole drilled at the center of the steel plate cut larger than the hole for installing the vibration- And a hole finishing plate and a fixing plate which are fixedly connected to each other through a plurality of plate fixing bolts so as to detachably fix a hole for installing an earthquake-proofing means drilled in the frame.

Further, when the adjustment member support, the spring-loaded elastic member, and the spring support and floor fixing member are inclined or rotated in a specific direction about the spring elasticity and the enclosure level adjustment member due to an earthquake or an impact, In order to prevent the detachment of the adjustment member and the elasticity of the spring-loaded elastic member from being distorted or conducted,

Wherein an elastic member protecting cap having a cylindrical shape and having an inner diameter larger than an outer diameter of the spring-loaded elastic member is provided on an upper portion of the resilient force of the resilient force and the outer- And is further provided so as to surround the outer surface of the spring-loaded elastic member.

At this time, a curved surface is formed on the ceiling of the elastic member protecting cap having a shape in which a long bolt passage hole is formed at a center point, and when the spring is rotated due to an earthquake or an impact, the spring elasticity, So that the friction between the upper surface of the visor-like ball of the elastic member protecting cap and the ceiling surface of the elastic member protecting cap can be minimized.

Further, the spring elasticity having a shape protruding into the inside of the enclosure, and a tool engaging portion having a square or hexagonal bar shape for smoothly engaging and rotating the rotary tool on the upper end portion of the bolt of the enclosure leveling member .

As described above, according to the seismic function of the present invention and the horizontal controllable switchgear, it is possible to provide a high-voltage and high-voltage half as well as a low voltage half, an MCC (Motor Control Center) half and a distribution board, The number of components of the earthquake-proofing means installed in order to prevent damages such as power outage and fire due to various components installed in the switchboard when a shock occurs, such as mechanical vibration caused by electromagnetic force due to earthquake or high- And it is possible to reduce the production cost and the labor cost of the product by molding the structure into a very easy disassembly and assembly.

In addition, in the present invention, the earthquake-proofing means is inserted into the concrete bottom surface through a hole for installing an earthquake-resistant means, which is pierced in a frame inside an enclosure of a power distribution panel. The bottom portion of the earthquake-proofing means is detachably fixed to the concrete floor surface through an anchor bolt, The upper portion of the seismic means is provided with a resilient spring force integrally provided with an elongated bolt in a resilient ball and a long bolt connecting nut to which the elongated bolt of the outer case horizontal regulating member is fastened, Wherein the spring-loaded elastic member and the enclosure horizontal adjustment member are provided in the housing of the switchgear and are fixed by using a hole finishing plate and a fixing plate provided in the form of a hole- Freely adjust the horizontal angle to the enclosure of the switchgear, including the elasticity of the member The spring elasticity and the enclosure level adjusting member can be rotated by using a simple bolt rotating tool without using a separate enclosure elevating means or a horizontal adjusting member so that the weight of the weight chain Since the horizontal can be precisely adjusted, it is possible to drastically reduce installation time of the earthquake-proofing means, the time and labor cost required for leveling the power supply and distribution panel, as well as to completely prevent safety accidents that may occur during the installation work of the earthquake- Which is a very useful invention that can greatly enhance the effect of preventing earthquake and adjusting the inclination angle, including the merchandise and reliability of the product.

1 is a perspective view of a switchboard enclosure to which the present invention is applied;
2 is an exploded perspective view of the earthquake-proof means in the present invention.
3 is a side cross-sectional view of the earthquake-proofing means to which the present invention is applied, when the earthquake-proofing means is first installed between the bottom portion of the cabin and the concrete floor.
FIG. 4 is a perspective view illustrating a state in which the elastic force of the spring-loaded elastic member and the horizontality of the enclosure are adjusted by rotating the spring elasticity and the enclosure leveling member in the interior of the enclosure after the seismic means to which the present invention is applied is installed between the bottom of the power- FIG.
5 is a side sectional view showing the operation state of the earthquake-resistant means when the concrete floor is inclined at a predetermined angle due to vibration occurring in the vicinity of the installation area of the switchboard to which the present invention is applied.

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

In the following description of the present invention, 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.

FIG. 1 is a perspective view of a seismic isolation system according to the present invention. FIG. 3 is a perspective view of a seismic isolation system according to an embodiment of the present invention, Sectional side view at the time of initial installation.

4 is a perspective view showing a state in which the elastic force of the spring-loaded elastic member and the horizontal line of the enclosure are changed by rotating the spring elasticity and the enclosure horizontal adjustment member in the interior of the enclosure after the seismic means to which the present invention is applied is installed between the bottom portion of the power- FIG. 5 is a side sectional view showing the operating state of the earthquake-resistant means when the concrete floor is inclined at a predetermined angle due to vibration occurring in the vicinity of the installation of the switchboard to which the present invention is applied will be.

According to the present invention,

In a switchboard having a plurality of seismic isolation means (30) provided between the bottom surface of the enclosure (10) and the concrete bottom surface (20)

Holes 12 for mounting seismic means are formed at predetermined intervals on the upper surface of a frame 11 formed along the outer side of the bottom surface of the enclosure 10,

Anchor bolts (40) are provided on the concrete floor (20), which is coincident with the center of the hole (12)

A portion of the seismic means 30 is inserted into the concrete bottom surface 20 side through the hole 12 for installing the seismic means inserted in the frame 11 inside the enclosure 10 of the switchgear and the bottom portion is inserted into the anchor bolt 40 Through an anchor nut 41 which is fastened to an upper end of the anchor nut 41,

The upper portion of the vibration-proofing means 30 is provided with spring elastic force and a long bolt coupling nut 352 to which the long bolt 342 of the enclosure horizontal adjustment member 34 is fastened and a plurality of plate fixing bolts 353 Through a hole finishing plate and a fixing plate (35) provided in a form to close the hole (12) for installing the seismic isolation means drilled in the frame (11)

The vertical elastic force of the vibration-proofing means 30 and the horizontal angle with respect to the enclosure 10 of the power distribution panel are fixed to the long bolt coupling nut 352 of the hole finishing plate and fixing plate 35 in the enclosure 10 of the power- The spring elasticity and the enclosure leveling member 34 can be adjusted by rotating the spring elasticity force and the enclosure leveling member 34 in the forward or reverse direction.

At this time, the earthquake-proofing means (30)

A spring receiving surface 312 in which the bottom surface of the spring-loaded elastic member 32 is supported and an elastic spring 32 which is inserted and held inward from the bottom of the spring-loaded elastic member 32 is formed on the upper surface, A spring support and bottom fixing part 31 integrally provided with the prevention protrusion 313 and detachably fixed by the anchor bolt 40 of the concrete bottom surface 20 and the anchor nut 41 fastened to the anchor bolt 40;

The spring retainer 311 is formed by injection molding a synthetic resin material into a bellows shape having a predetermined diameter, and a high-strength steel spring 321 is inserted into the interior of the spring retainer 311. The upper surface of the spring retainer- And the vibration and impact force transmitted in the vertical direction through the spring elasticity force and the enclosure level adjustment member 34 are buffered by the spring support and bottom fixing member 31, A spring-loaded elastic member 32;

And a spring insertion rod 332 is formed on the bottom surface of the spring-loaded elastic member 32 so as to be engaged with the inner side of the spring-built elastic member 32, When the spring-loaded elastic member 32 is tilted in a direction corresponding to the tilting direction and angle of the spring-loaded elastic member 32 due to an earthquake or an impact, the resilient force of the spring and the resilient force of the resilient- A control member support 33 for minimizing a frictional force generated between the bottom contact portions;

A long bolt 342 having a predetermined length in a vertical direction at a center point of a visceral ball 341 having a predetermined diameter is integrally molded and the long bolt 342 is formed in a central portion of the hole finishing plate- The bottom of the ratchet ball 341 is inserted into the ball contact groove 331 of the adjustment member support 33 and the bottom of the ratchet ball 341 in the state of being screwed to the long bolt coupling nut 352 through the perforated long bolt passage hole 351 And a fixing shaft function to fix the normal earthquake-proofing means 30 to the frame 11 of the enclosure 10 through the hole finishing plate 35 and the fixing plate 35. In addition, The elasticity of the spring-loaded elastic member 32 is adjusted by adjusting the horizontal angle with respect to the enclosure 10 of the power / The adjustment member support 33 and the spring A spring elasticity and an enclosure leveling member (34) that perform a rotary axis function with respect to the built-in elastic member (32) and the spring bearing and bottom fixing member (31) when they tilt or rotate in a specific direction;

The upper end of the long bolt passage hole 351 formed at the center of the steel plate cut larger than the hole 12 for installing the vibration-proofing means drilled in the frame 11 is provided with the spring elastic force, A long bolt coupling nut 352 to which a screw fastening bolt 342 is screwed is fastened through welding and is fastened to a hole 12 And a fixing plate 35 which is a hole finishing plate and is installed in a form to detachably block the fixing plate 35.

Further, due to the occurrence of an earthquake or an impact, the adjustment member support 33, the spring-loaded elastic member 32, and the spring support and floor fixture 31 are pivoted about the spring elasticity and the housing horizontal adjustment member 34 In order to prevent the elasticity of the spring and the detachment of the enclosure leveling member 34 and the spring-loaded elastic member 32 from being distorted or conducted when the member is inclined or rotated in a specific direction,

And the inner surface of the elastic-member-protecting cap 36 having a cylindrical shape larger than the outer diameter of the spring-loaded elastic member 32, Shaped elastic ball 32 of the horizontal-angle adjusting member 34 and the outer surface of the spring-loaded elastic member 32. As shown in FIG.

At this time, a curved surface 362 is formed on the ceiling of the elastic member protection cap 36 having a long bolt passage hole 361 at a center point, and when it rotates due to an earthquake or an impact, The elasticity of the spring and the friction between the upper surface of the visor ball 341 of the enclosure leveling member 34 and the ceiling surface of the elastic member protection cap 36 can be minimized.

In addition, the spring elasticity of the protruding shape of the inside of the enclosure 10 and the square or hexagonal rods 34a, Shaped tool engaging portion 343 is further formed.

Hereinafter, the operation and effect of the seismic function and the horizontal adjustment of the present invention will be described.

1 to 5, in the case where a plurality of earthquake-proofing means 30 are installed between the bottom surface of the enclosure 10 and a concrete bottom surface 20 of a publicly known switchgear, as shown in FIGS. 1 to 5, Is installed on the bottom surface 20 and inserted into the concrete bottom surface 20 through the hole 12 for installing the earthquake-resistant means in the frame 11 in the inside of the enclosure 10 of the power distribution panel, The bottom portion of the concrete floor 30 is fixed to the concrete bottom surface 20 through the anchor bolts 40 installed on the concrete floor 20 and the anchor nuts 41 fastened to the concrete floor surface 20, Spring resilient force integrally provided with the long bolt 342 on the bad weather ball 341 and a long bolt coupling nut 352 for fastening the long bolt 342 of the housing horizontal adjustment member 34, (311) of the frame (11) through a plate fixing bolt (353) The spring elastic force and the enclosure level adjusting member 34 are moved in the proper direction in the enclosure 10 of the power transmission and distribution panel after fixing by using the hole finishing plate and the fixing plate 35 provided in the form of blocking the mounting hole 12, The elasticity of the spring-loaded elastic member 32 provided in each of the vibration-proofing means 30 can be easily and freely adjusted by the operator in a manner that the horizontal angle with respect to the enclosure 10 of the power- It is the main technical component.

That is, in the present invention, a frame 11 having a shape of '┏' is formed along the outer side of the bottom surface of the floor of the cabinet 10, and the upper surface of the frame 11 corresponds to the weight of the cabinet itself (That is, an area slightly larger than the external size of the vibration-proofing means 30) at predetermined intervals determined in correspondence with the installation number and the installation position of the vibration-isolating means 30 determined by the vibration- As shown in Figs. 1 and 2.

In the concrete bottom surface 20 located at the bottom of the enclosure 10 on which the switchboard is installed, at a position coinciding with the center of the hole 12 for installing the seismic isolation means drilled in the frame 11, The anchor bolts 40 in the anchor bolt installation holes may be respectively installed.

Thereafter, the worker inserts the spring retainer-and-floor fixture 31 among the components of the seismic means 30 through the hole 12 for installing the seismic means in the frame 11 inside the enclosure 10 of the power- And the anchor bolt 40 is inserted into the bottom surface 20 and inserted into the anchor bolt 40. The anchor nut 41 is fastened to the end of the anchor bolt 40 so that the spring retainer- May be fixed to the concrete floor surface 20, respectively.

The spring-loaded elastic member 32 is inserted into the frame 11 of the enclosure 10 through the hole 12 for installing the earthquake-proofing means, (35) provided with a spring bolt (352) for fastening the spring bolt (342) of the spring elasticity adjustment member (34) and the spring elasticity adjusting member (342) The frame 11 is mounted on the perforated seismic member mounting hole 12 of the frame 11 and the hole finishing plate 35 and the fixing plate 35 are fixed to the frame 11 through several plate fixing bolts 353, The upper portion of the vibration-isolating means 30 may be detachably fixed on the frame 11 as shown in Fig.

Thereafter, the spring elasticity and the enclosure level adjustment member (34) fastened to the long bolt coupling nut (352) of the hole finishing plate and fixing plate (35) in the enclosure (10) So that the vertical elastic force of the seismic means 30 and the horizontal angle with respect to the enclosure 10 of the power distribution panel can be freely adjusted as shown in FIG.

Therefore, it is possible to easily install a plurality of seismic isolation means 30 between the bottom surface of the enclosure 10 and the concrete bottom surface 20 in the enclosure 10 of the switchgear 10 without using a switchboard by using a separate enclosure elevating means outside the switchboard .

In addition, without installing a separate leveling member or the like between the seismic means 30 and the concrete floor 20 in the state of the above-described power plant, It is possible to raise the front end of the enclosure 10 including the frame 11 by a predetermined height from the concrete bottom surface 20 as shown in FIG. 4 by simply turning the spring elasticity and the enclosure leveling member 34 Of course, it is possible to precisely align the level of the weighbridge with respect to the inclination of the concrete floor 20 in a relatively heavy manner.

Therefore, it is possible to greatly reduce the time and labor cost required for installing the earthquake-proofing means and adjusting the level of the power-transmission and distribution panel, as well as completely preventing the safety accidents that may occur during the installation work of the earthquake-resistant means. The effect of preventing the earthquake and adjusting the tilt angle can be greatly increased.

The earthquake-proofing means 30 used in the switchboard to which the present invention is applied includes a spring bearing and floor fixing member 31, a spring-loaded elastic member 32, a control member support 33, (34) and a hole finishing plate and a fixing plate (35) as main basic technical components.

At this time, the spring bearing and bottom fixing member 31 cuts a metal plate having a predetermined thickness into a rectangular plate shape, punctures a long bolt through hole 311 through which an anchor bolt 40 can pass, The spring-receiving elastic member 32 is inserted into the spring-receiving surface 312 inwardly from the bottom of the spring-receiving elastic member 32, Preventing protrusion 313 is integrally protruded so as to have a circular protrusion shape.

As described above, the spring bearing and bottom fixing tool 31 having such a configuration is fixed to the concrete floor surface 20 (see FIG. 1) through the hole 12 for installing the earthquake-resistant means in the frame 11 inside the enclosure 10 of the power- And the anchor bolts 40 are fixed to the concrete floor 20 by means of an anchor nut 41 which is inserted into the anchor bolts 40 and then fastened to the ends of the anchor bolts 40 ) To the concrete floor, and also functions to support the switchboard to which the present invention is applied at the respective positions.

The anchor bolts 40 and the anchor nuts 41 fastened to the anchor bolts 40 are not limited thereto. For example, the anchor bolts 40 and the anchor bolts 41 may be fixed to the concrete bottom surface 20, When a separate steel plate (not shown) is further laid between the bottom surface of the enclosure 10 of the power distribution panel and the concrete floor 20 or when the bottom plate is made of an iron plate, a bolt fastening hole is formed on the steel plate and a general bolt is fastened to the bolt fastening hole And the spring holder and bottom fixing member 31 may be fixed to the iron plate by screwing.

The spring-loaded elastic member 32 is injection-molded in a bellows shape having a predetermined diameter and height by using a synthetic resin material. In order to increase vibration and shock absorbing and absorbing functions, a high strength steel spring 321 is integrally formed As shown in FIG.

The spring-loaded elastic member 32 has a shape vertically installed between the upper surface of the spring-receiving and floor fixing member 31 and the spring elasticity and the bottom surface of the enclosure leveling member 34, 33 and spring resilient force and enclosure level adjusting member 34 to elastically support the switchboard itself and to adjust the spring elasticity and the enclosure level adjustment member 34. [ Thereby buffering vibrations and impact forces transmitted in the vertical direction.

The adjustment member support 33 is formed by cutting a metal plate having a predetermined thickness into a disk shape and having a spring elasticity to be described later and a spring elasticity of a later- Shaped ball contact groove 331 corresponding to the spring-loaded elastic contact member 331, and a spring insertion rod 332 is formed on the bottom surface of the spring-inserted elastic member 32 so as to be inserted into the upper portion of the spring-

The adjustable member support 33 having the above-described structure is mounted on the upper surface of the spring-loaded elastic member 32 so that the inclination of the spring-loaded elastic member 32 due to the occurrence of an earthquake or an impact The spring elasticity and the frictional force generated between the spring elasticity adjusting member 34 and the bottom contact portion of the visor ball 341 are minimized when they are inclined in the direction corresponding to the direction and angle .

The spring elasticity and the enclosure level adjustment member 34 are formed of a metal having a predetermined diameter and a predetermined diameter and length in a direction perpendicular to the center point of the slant- The long bolt 342 is formed integrally with the long bolt coupling nut 352 through the long bolt through hole 351 formed in the center of the hole finishing plate 351 The bottom face of the visor ball 341 is rotatably and closely attached to the hemispherical ball contact groove 331 formed on the upper surface of the adjuster support 33. [

In addition, a square or hexagonal rod-shaped tool engaging portion 343 is further formed at the upper end of the elongated bolt 342 of the spring elasticity force and the enclosure level adjusting member 34 so that the worker can move to the inside of the enclosure 10 The spring resilient force having the protruding shape and the rotary bolt 342 of the enclosure leveling member 34 can be easily combined with a rotating tool such as a spanner or the like so that the spring elasticity and the enclosure level adjusting member 34 It is possible to smoothly rotate by the number of revolutions.

The spring elasticity and the enclosure leveling member 34 having such a configuration are provided with an earthquake-proofing means 30 in a normal state in which a state of being screwed to the hole finishing plate and the fixed plate 35 is maintained on the bottom surface of the enclosure 10 of the power- The reinforcing member 30 is fixed to the frame 11 of the enclosure 10 through the hole finishing plate and fixing plate 35. The reinforcing member 30 is attached to the bottom surface of the enclosure 10 and the concrete floor 20, the worker is rotated in the clockwise or counterclockwise direction within the enclosure 10 of the power and distribution panel using a rotating tool such as a spanner or the like, and the elasticity of the spring-loaded elastic member 32 And adjusts the horizontal angle of the enclosure 10 of the power switchboard.

After the earthquake-proofing means 30 is installed between the bottom surface of the enclosure 10 of the switchboard and the concrete floor 20, an earthquake or an impact is transmitted through the earth and the concrete floor, When the spring-loaded elastic member 32 and the spring-bearing and floor-standing fastener 31 are inclined or rotated in a specific direction as shown in FIG. 5, the control panel 33 and the spring 33 do not shake, Only the built-in elastic member 32 and the spring-bearing and floor-standing fastener 31 perform a rotary shaft function to incline or rotate in a specific direction.

The hole finishing plate and the fixing plate 35 cut the steel plate having a predetermined thickness larger than the hole 12 for installing the seismic means formed in the frame 11 and then fix the spring elasticity and the enclosure level adjusting member The spring bolt passage hole 351 through which the elongated bolt 342 of the housing bolt 34 is passed and the spring bolt hole 351 of the elongated bolt hole 351 of the housing elasticity adjusting member 34 342 are screwed to each other through welding.

The hole finishing plate and fixing plate 35 having such a configuration is placed on the upper part of the seismic means mounting hole 12 perforated in the frame 11 and the hole finishing plate- The fixing plate 35 of the hole finishing plate has a shape for blocking the hole 12 for installing the earthquake-proofing means, which is formed in the frame 11, when the cover 35 is detachably fixed to the upper surface of the frame 11. [ Of course, the upper part of the seismic means 30 is fixed to the frame 11 of the cabin 10 and the function of the spring resilient force and the long bolt 342 of the enclosure level adjustment member 34 corresponds to the rotating direction And performs a housing function for the long bolt 342 when adjusting the elasticity of the spring and the horizontal adjustment angle of the enclosure.

As described above, the spring support and bottom fixing member 31, the spring built-in elastic member 32, the adjusting member support 33, the spring elasticity force and the housing horizontal adjustment member 34 and the hole finishing plate- The spring-loaded elastic member 32 and the spring-bearing and floor-standing fastener 31 are separated from each other by the occurrence of a severe earthquake or an impact, 5, when the spring 20 is inclined or rotated in a specific direction with respect to the concrete floor 20 as shown in FIG. 5 with the spring elasticity and the housing horizontal adjustment member 34 as axes, the adjustment member support 33 and the spring- Since the tilt angle of the elastic member 32 can not be adjusted, the adjustment member support 33 may be detached from the pelvic ball 341 of the spring elasticity adjustment member 34 and the housing horizontal adjustment member 34, spring The elongate resilient member 32 may possibly be fuzzy or conduction.

Therefore, in the present invention, the spring elasticity and the housing horizontal adjustment member 34 have a cylindrical cap shape with a bottom surface formed therein, and a long bolt passage hole 361 is formed at the center of the upper surface, An elastic member protecting cap 36 having a cylindrical shape larger than the outer diameter of the member 32 is engaged with the spring elasticity and the elongated bolts 342 of the housing horizontal adjustment member 34 so as to sandwich the spring elastic force The elastic member 32 is further provided so as to cover and cover the upper part of the sloped ball 341 of the enclosure leveling member 34 and a part of the outer surface of the spring-loaded elastic member 32.

In addition, a curved surface 362 is formed on the ceiling of the elastic member protection cap 36 having a shape in which a long bolt passage hole 361 is formed at a central point, so that the elastic member protection cap The spring-loaded elastic member 32 and the spring-cushion-type bottom fixing member 31 are rotated about the long bolt 342 of the spring elasticity adjusting member 34 and the spring- The spring elastic force having mutual close contact and the friction between the upper surface of the visor ball 341 of the enclosure level adjustment member 34 and the ceiling surface of the elastic member protection cap 36 when the elastic member is rotated in a specific direction So that it can be minimized.

The inner diameter of the long bolt passage hole 361 formed at the center of the upper surface of the elastic member protection cap 36 is determined by the spring elasticity and the outer diameter of the long bolt 342 integrally formed with the housing horizontal adjustment member 34 The elastic member protecting cap 36 is elastically deformed by the spring elasticity and the elongated bolts 342 of the enclosure horizontal adjustment member 34 by the adjustment member support 33 The spring-loaded elastic member 32 and the spring-bearing and floor-standing fastener 31 rotate smoothly in a predetermined angular range in a state where they are not in substantial contact with the long bolt 342 when rotated in a specific direction.

When the concrete floor 20 is shaken due to an earthquake or the like in the vicinity of the switchboard to which the present invention is applied and the impact force transmitted through the concrete floor 20 is applied in a direction other than the vertical direction, 5, the elastic member protecting cap 36 including the spring bearing and bottom fixing member 31, the spring-loaded elastic member 32, and the adjusting member supporting member 33, which are in the state as shown in FIG. 4, And the elongated bolts 342 of the enclosure horizontal adjustment member 34 as the axis.

Therefore, the central axis of the semicylindrical ball contact groove 331 of the adjustable member support 33 primarily corresponds to the rotational direction and the angle of the central axis of the resilient ball 341 of the enclosure horizontal adjustment member 34, So that the spring-loaded elastic member 32 is compressed by the adjustment member support 33. The elastic member protection cap 36 (see FIG. ) Is repeatedly rotated in the opposite direction about the adjustment member support (33), and the operation of compressing the spring-loaded elastic member (32) is repeated, so that an impact force generated by an earthquake, And is absorbed and extinguished through the built-in elastic member 32.

At this time, the elastic member protection cap 36 is rotated in response to an impact such as an earthquake, and the spring elastic force and the spring elasticity and the elasticity of the housing horizontal adjustment member 34, The elastic member 32 continuously keeps the top of the sloped ball 341 of the enclosure leveling member 34 as well as part of the outer surface of the spring-loaded elastic member 32, It is possible to completely prevent the elastic force and the detachment of the resilient force from the slanted ball 341 of the horizontal adjustment member 34 and also to prevent the spring-loaded elastic member 32 from being distorted or turned off completely.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

10: Enclosure
11: Frame 12: Hole for mounting the seismic means
20: Concrete floor
30: Seismic protection means
31: Spring bearing and floor fixing 311: Long bolt through hole
312: spring bearing surface 313: spring flow prevention projection
32: spring-loaded elastic member 321: high strength steel spring
33:
331: ball contact groove 332: spring insertion rod
34: spring elasticity and enclosure level adjustment member
341: Badge ball 342: Long bolt
343:
35: hole finishing plate and fixing plate 351: long bolt through hole
352: Long bolt coupling nut 353: Plate fixing bolt
36: Elastic member protection cap
361: Long bolt through hole 3632: Curved surface
40: Anchor bolt 41 Anchor nut

Claims (6)

In a switchboard having a plurality of seismic isolation means provided between a bottom surface of an enclosure and a concrete bottom surface,
Holes for attaching seismic means are formed at predetermined intervals on the upper surface of the frame formed along the outer side of the bottom surface of the enclosure,
Anchor bolts are provided on the concrete bottom surface that coincides with the center of the hole for installing the earthquake-proofing means,
A portion of the earthquake-proofing means is inserted into a concrete bottom surface through a hole for installing an earthquake-proofing means drilled in the frame inside an enclosure of a switchgear, and a bottom portion is fixed through an anchor nut fastened to the anchor bolt,
The upper portion of the vibration-proofing means has a spring bolt-fitting nut for fastening the spring bolt of the spring elasticity force and the housing horizontal-direction adjusting member, and a hole for installing the vibration-isolating means perforated in the frame through several plate- Fixed through the installed hole finishing plate and fixing plate,
The elastic force in the vertical direction of the seismic means and the horizontal angle with respect to the enclosure of the switchgear can be adjusted in the forward or reverse direction of the spring elasticity and the enclosure level adjustment member fastened to the long bolt coupling nut of the hole finishing plate- So that it can be rotated and adjusted,
The above-
A spring support and bottom fixing member detachably fixed by an anchor bolt on the concrete floor and an anchor nut fastened to the anchor bolt;
A spring elasticity adjusting unit that is installed vertically between the upper surface of the spring support and bottom fixing unit and the bottom surface of the spring elasticity adjusting member and the bottom surface of the housing horizontal adjustment member, And a spring-loaded elastic member for buffering an impact force;
The spring-loaded elastic member is provided on the upper surface of the spring-loaded elastic member, and when the spring-loaded elastic member is inclined in a direction corresponding to the tilting direction and angle of the spring-loaded elastic member due to an earthquake or an impact, A control member support for minimizing a frictional force generated in the support member;
The bottom surface of the detritus ball is in close contact with the ball contact groove of the control member support while the long bolt is screwed to the long bolt coupling nut through the long bolt passage hole drilled in the center of the hole finishing plate and fixing plate The elastic force of the spring-loaded elastic member is rotated in correspondence to the direction of rotation by the operator in the enclosure of the switchgear, and the elastic force of the spring- And the spring-loaded elastic member and the spring-bearing-type floor-standing fixture, when they tilt or rotate in a specific direction due to the occurrence of an earthquake or an impact, A spring elastic force and an enclosure horizontal adjustment member which perform an axial function;
And a hole finishing plate and a fixing plate installed in a form for detachably blocking a hole for installing an earthquake-proofing means perforated in the frame through a plurality of plate fixing bolts,
The spring support and bottom fixing hole has a long bolt passage hole formed at a center point thereof and integrally has a spring receiving surface supported on the bottom surface of the spring-loaded elastic member and a spring flow preventing protrusion engaged with the bottom of the spring- Having a configuration,
The spring-loaded elastic member is injection-molded in a bellows shape using a synthetic resin material, and has a structure in which a high-strength steel spring is integrally inserted therein.
Wherein the adjustment member support has a spherical ball contact groove formed on an upper surface thereof and a spring insertion rod formed on a bottom surface of the adjustment member support member so as to be inserted inward from an upper portion of the spring-
Wherein the spring elasticity and the housing horizontal adjustment member have a configuration in which a long bolt is integrally formed in a vertical direction from the center point of the curved rising ball of the upper and lower surfaces,
The hole finishing plate and the fixing plate have a spring bolt hole formed at the center of an iron plate cut larger than a hole for installing an earthquake-proofing means perforated in the frame. The spring elastic force and the spring bolt Wherein the coupling nut has a configuration fixed by welding.
delete delete The method according to claim 1,
The spring-loaded elastic member, and the outer horizontal surface of the spring-loaded elastic member,
Characterized in that a cap for protecting the elastic member is further provided on the lower surface and a cylindrical bolt through-hole is formed in the center of the upper surface, wherein the cap has a seismic function and a horizontal adjustment.
The method of claim 4,
Wherein the ceiling surface of the cap for protecting the elastic member is further formed with a curved surface to reduce contact friction between the spring elastic force and the upper surface of the sloped ball of the housing horizontal adjustment member.
The method according to claim 1,
Wherein a spring engaging portion having a square or hexagonal bar shape is further formed on the upper end portion of the elongated bolt of the spring elasticity force and the enclosure leveling member so as to be able to rotate and rotate the rotary tool.

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