KR200496583Y1 - Seismic pedestal - Google Patents

Abstract

The present invention relates to an earthquake-resistant pedestal, which is fixedly installed at a designated point, and includes a fixing unit on which an object is seated; A stopper part installed on the fixing part; wherein the stopper part is formed in a plate shape, extends in a horizontal direction and is coupled to the fixing part; and is bent at the first combining part, A first support portion formed in a plate shape and extending in a first direction; and a second coupling portion formed in a plate shape and extended in a horizontal direction coupled to the fixing portion; and bent at the second coupling portion, It is characterized in that it comprises a; second support portion made of a plate shape and extending in the second direction.

Description

Seismic pedestal {Seismic pedestal}

The present invention relates to an earthquake-resistant pedestal, and more particularly, by supporting an object installed at an industrial site through a stopper including a first support extending in a first direction and a second support extending in a second direction, the seismic function It relates to an earthquake-resistant pedestal that can implement.

Various industrial devices such as motors, pumps, and compressors are used in industrial sites, and various stoppers are used to support such industrial devices. The stopper is installed while being connected to industrial devices such as motors, pumps, and compressors, and can support and support industrial devices such as motors, pumps, and compressors through the stoppers.

However, the conventional stopper has the following problems. Since the conventional stopper is installed while being connected to industrial equipment such as motors, pumps, and compressors, it is possible to support and support the industrial equipment through the conventional stopper, but there is a problem in that it does not absorb external shocks such as earthquakes.

In addition, since the conventional stopper is installed while being connected to industrial equipment such as motors, pumps, and compressors, it is difficult to prevent industrial equipment from falling due to external shocks such as earthquakes.

Recently, seismic design has emerged as an important issue, and it is also applied to industrial equipment such as motors, pumps, and compressors installed in industrial sites. Therefore, an earthquake-resistant function and a fall prevention function are required for industrial equipment such as motors, pumps, and compressors installed in industrial sites so that they do not fall or shake due to external shocks such as earthquakes.

However, since it is difficult to solve this problem through conventional stoppers, stoppers, pedestals, etc. that can support and support industrial equipment such as motors, pumps, compressors, etc. There is a need to develop a device for

The present invention is to solve the above-described problems, and more specifically, through a stopper portion including a first support portion extending in a first direction and a second support portion extending in a second direction to support an object installed in an industrial field It relates to an earthquake-resistant pedestal capable of implementing an earthquake-resistant function according to the present invention.

An earthquake-resistant pedestal of the present invention for solving the above problems is a pedestal supporting an object installed in an industrial field, fixedly installed at a designated point, and a fixing unit on which the object is seated; A stopper part installed on the fixing part; wherein the stopper part is formed in a plate shape, extends in a horizontal direction and is coupled to the fixing part; and is bent at the first combining part, A first support portion formed in a plate shape and extending in a first direction; and a second coupling portion formed in a plate shape and extended in a horizontal direction coupled to the fixing portion; and bent at the second coupling portion, It is characterized in that it comprises a; second support portion made of a plate shape and extending in the second direction.

The first direction in which the first support part extends and the second direction in which the second support part extends in the earthquake-resistant pedestal of the present invention to solve the above problems are perpendicular to each other, and the first support part and the second support part may be in contact with the outside of the object.

The second support portion of the earthquake-resistant pedestal of the present invention for solving the above problems may extend in a vertical direction from one side of the first support portion.

The stopper portion of the earthquake-resistant pedestal of the present invention for solving the above problems may be installed at each of the four corners of the object.

The first coupling part and the second coupling part of the earthquake-resistant pedestal of the present invention for solving the above problems are coupled to the fixing part through bolts, and the first coupling part penetrates the first coupling part. A ball is provided, the second coupling portion is provided with a second coupling hole penetrating the second coupling portion, and the fixing portion has a first coupling hole passing through the fixing portion and communicating with the first coupling hole and into which the bolt is inserted. A bolt hole and a second bolt hole penetrating the fixing part and communicating with the second coupling hole and into which the bolt is inserted may be provided.

The first bolt hole and the second bolt hole of the earthquake-resistant pedestal of the present invention for solving the above problems may be formed as long holes extending in the longitudinal direction.

The direction in which the first bolt hole and the second bolt hole formed of the long hole of the earthquake-resistant pedestal of the present invention to solve the above problem may extend in a direction parallel to each other.

An earthquake-resistant pedestal of the present invention for solving the above problems is made of a plate shape, a first reinforcing part connecting the first coupling part and the first support part, and a plate shape, the second coupling part and a second reinforcing part connecting the second support part.

The first reinforcement part and the first support part of the earthquake-resistant pedestal of the present invention for solving the above problems are integrally manufactured while being formed in one plate shape, and the first reinforcement part is bent with respect to the first support part to It is connected to the first coupling part, and the second reinforcement part and the second support part are integrally manufactured while being formed in a plate shape, and the second reinforcement part is bent with respect to the second support part to the second coupling part. can be connected

The earthquake-resistant pedestal of the present invention for solving the above problems is made of a plate shape, and is bent vertically with respect to the first support part and a first fall prevention part in contact with the upper surface of the lower structure of the object, and a plate shape. While being made, it may include a second fall prevention part that is bent vertically with respect to the second support part and contacts the upper surface of the lower structure of the target object.

The first fall prevention part and the first support part of the earthquake-resistant pedestal of the present invention for solving the above problems are integrally manufactured as one plate shape, and the first fall prevention part is bent with respect to the first support part. While being in contact with the upper surface of the lower structure of the target object, the second fall prevention part and the second support part are integrally manufactured while being formed in one plate shape, while the second fall prevention part is bent with respect to the second support part It may be in contact with the upper surface of the lower structure of the target object.

The present invention relates to an earthquake-resistant pedestal, by supporting an object installed at an industrial site through a stopper including a first support extending in a first direction and a second support extending in a second direction, thereby protecting the object from earthquakes and vibrations. It has the advantage of being able to support objects installed in industrial sites while implementing a protective seismic function.

In addition, the present invention has the advantage of improving the durability of the stopper part by installing the first reinforcement part between the first coupling part and the first support part and installing the second reinforcement part between the second coupling part and the second support part there is

In addition, the present invention has the advantage of being able to support an object installed in an industrial field while implementing a fall prevention function to prevent the object from falling down due to external impact by installing the first fall prevention unit and the second fall prevention unit.

In addition, in the present invention, the first reinforcement part and the first fall prevention part are integrally manufactured together with the first support part in a plate shape, and then bent and installed, and the second reinforcement part and the second fall prevention part are installed together with the second support part. It has the advantage of improving the efficiency of manufacturing while reducing manufacturing costs as it is integrally manufactured in a single plate shape and then bent and installed.

In addition, the present invention has the advantage of easily supporting the object while reducing manufacturing costs as the heights of the first support part and the second support part can be adjusted according to the thickness of the lower structure of the object.

1 is a view showing that an object is installed on an earthquake-resistant pedestal according to an embodiment of the present invention.
2 is a view showing an earthquake-resistant pedestal according to an embodiment of the present invention.
3 is a view showing a stopper part according to an embodiment of the present invention.
4 is a plan view of an earthquake-resistant pedestal according to an embodiment of the present invention.
5 is a view showing that the first bolt hole and the second bolt hole of the fixing part are made of long holes according to another embodiment of the present invention.
6 is a view showing that an object is installed on an earthquake-resistant pedestal equipped with a first reinforcing part and a second reinforcing part according to another embodiment of the present invention.
7 is a view showing a stopper part provided with a first reinforcing part and a second reinforcing part according to another embodiment of the present invention.
8 is an earthquake-resistant pedestal by bending the first reinforcement part and the second reinforcement part after manufacturing the first support part and the first reinforcement part, and the second support part and the second reinforcement part in a plate shape according to another embodiment of the present invention. It is a drawing showing the production of
9 is a view showing a stopper unit provided with a first fall prevention unit and a second fall prevention unit according to another embodiment of the present invention.
10 is a view after manufacturing the first support part, the first fall prevention part, and the second support part and the second fall prevention part in a plate shape according to another embodiment of the present invention, and then the first fall prevention part and the second fall prevention part. It is a drawing showing manufacturing an earthquake-resistant pedestal by bending a part.

This specification clarifies the scope of rights of the present invention, explains the principles of the present invention, and discloses embodiments so that those skilled in the art can practice the present invention. The disclosed embodiments may be implemented in various forms.

Expressions such as “include” or “can include” that can be used in various embodiments of the present invention indicate the presence of a corresponding function, operation, or component that has been disclosed, and may include one or more additional functions, operations, or components. components, etc. are not limited. In addition, in various embodiments of the present invention, terms such as "comprise" or "having" are intended to designate that there are features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, It should be understood that it does not preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

When an element is referred to as being "connected or coupled" to another element, the element may be directly connected or coupled to the other element, but there is a gap between the element and the other element. It should be understood that other new components may exist in On the other hand, when an element is referred to as being “directly connected” or “directly coupled” to another element, it will be understood that no new element exists between the element and the other element. should be able to

Terms such as first and second used in this specification may be used to describe various components, but the components should not be limited by the terms. Terms are only used to distinguish one component from another.

The present invention relates to an earthquake-resistant pedestal, which can implement an earthquake-resistant function by supporting an object installed at an industrial site through a stopper part including a first support part extending in a first direction and a second support part extending in a second direction It's about earthquake-resistant pedestals.

The earthquake-resistant pedestal according to an embodiment of the present invention may be a vertical earthquake-resistant pedestal, but is not limited thereto, and may be various industrial devices that require earthquake-resistant and fall-preventing functions while being used at industrial sites.

An earthquake-resistant pedestal according to an embodiment of the present invention is a pedestal supporting the object 10 installed in an industrial field. The object 10 according to an embodiment of the present invention may be a motor, a pump, or a compressor, but is not limited thereto, and may be various industrial devices that require earthquake-resistant and fall-preventing functions while being used in industrial settings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

An earthquake-resistant pedestal according to an embodiment of the present invention includes a fixing part 110 and a stopper part 120.

The fixing part 110 is fixedly installed at a designated point. The fixing part 110 can support the object 10, and the fixing part 110 can be installed on a floor such as the ground. Here, the designated point may be a floor such as the ground, but is not limited thereto, and may be various points as long as it is a flat point capable of supporting the object 10.

Referring to FIGS. 1 and 2 , the fixing part 110 may be formed in a rectangular parallelepiped shape, and the lower portion of the fixing part 110 is formed in a plate shape and a wing portion extending outward from the fixing part 110 . (113) may be provided.

The wing part 113 may be provided at each lower part of the four side surfaces of the fixing part 110 having a rectangular parallelepiped shape, and a bolt hole may be formed in the wing part 113.

By inserting the fixing bolt 114 into the bolt hole and fixing the fixing bolt 114 to a designated point such as the floor, the fixing part 110 can be installed at the designated point. The fixing part bolt 114 may be formed of a wedge anchor bolt, but is not limited thereto, and various types of bolts may be used as long as the fixing part 110 can be fixed to a designated point.

The wing part 113 may be integrally formed with the side surface of the fixing part 110 having a rectangular parallelepiped shape, and the wing part 113 may extend toward the outside of the fixing part 110 in a flat plate shape. can

Referring to FIG. 1 , the lower structure 11 of the target object 10 may be placed on the fixing part 110 . The lower structure 11 can be supported while being in contact with the stopper part 120 to be described later while being provided at the lower part of the object 10.

The lower structure 11 may be a pedestal provided under the object 10, and the lower structure 11 may be coupled to the upper portion of the fixing part 110 through bolts. In addition, the lower structure 11 may be various parts provided on the lower part of the target object 10 .

Referring to FIGS. 2 and 3 , the stopper part 120 is installed on the fixing part 110 . The stopper part 120 includes a first coupling part 131 , a first support part 132 , a second coupling part 141 , and a second support part 142 .

The first coupling part 131 is formed in a plate shape and is coupled to the fixing part 110 while extending in a horizontal direction. The first coupling part 131 extends in a direction parallel to the top surface of the fixing part 110 and can be coupled to the top surface of the fixing part 110 .

The first coupling portion 131 may be coupled to the upper surface of the fixing portion 110 through bolts, but is not limited thereto, and the first coupling portion 131 may be coupled to the fixing portion 110 in various ways. Can be coupled to the upper surface of.

The first support part 132 is bent at the first coupling part 131 and extends in a first direction while being formed in a plate shape. The first support part 132 may protrude vertically with respect to the upper surface of the fixing part 110 and extend in a first direction.

The first support part 132 is capable of supporting the side of the object 10 while being in contact with the side of the object 10 . Specifically, the first support part 132 is capable of supporting the side of the lower structure 11 while in contact with the side of the lower structure 11 of the target object 10 .

The second coupling part 141 is formed in a plate shape and is coupled to the fixing part 110 while extending in a horizontal direction. The second coupling part 141 extends in a direction parallel to the upper surface of the fixing part 110 and can be coupled to the upper surface of the fixing part 110 .

The second coupling portion 141 may be coupled to the upper surface of the fixing portion 110 through bolts, but is not limited thereto, and the second coupling portion 141 may be coupled to the fixing portion 110 in various ways. Can be coupled to the upper surface of.

The second support part 142 is bent at the second coupling part 141 and extends in the second direction while being formed in a plate shape. The second support part 142 may extend in a second direction while protruding vertically with respect to the upper surface of the fixing part 110 .

The second support part 142 can support the side of the object 10 while being in contact with the side of the object 10 . Specifically, the second support part 142 is capable of supporting the side of the lower structure 11 while in contact with the side of the lower structure 11 of the target object 10 .

Referring to FIG. 3 , a first direction in which the first support part 132 extends and a second direction in which the second support part 142 extends may be perpendicular to each other. The second support parts 142 may be in contact with each other.

Specifically, the second support part 142 may extend in a vertical direction from one side of the first support part 132, and the first support part 132 and the second support part 142 have an A-shaped cross section. can form The first support part 132 and the second support part 142 extending in a direction perpendicular to each other can support the object 10 in the first and second directions while contacting the outside of the object 10. There is.

According to an embodiment of the present invention, the first direction in which the first support part 132 extends may be a direction parallel to the horizontal direction of the fixing part 110, and the second direction in which the second support part 142 extends The direction may be parallel to the vertical direction of the fixing part 110 .

The object 10 can be supported in the horizontal and vertical directions through the first support part 132 extending in the horizontal direction and the second support part 142 extending in the vertical direction.

However, the first direction in which the first support part 132 extends and the second direction in which the second support part 142 extends are not limited to the horizontal direction and the vertical direction of the fixing part 110, and the If the first direction and the second direction extend vertically, the first direction and the second direction may extend in various directions.

Also, according to an embodiment of the present invention, the first support part 132 and the second support part 142 may be integrally manufactured.

Referring to FIGS. 1 and 2 , the stopper part 120 is installed at each of the four corners of the object 10 and can support the four sides of the object 10 . Specifically, the lower structure 11 of the target object 10 may be formed in a rectangular shape, and the stopper part 120 is installed at each of the four corners of the target object 10 while the four corners of the target object 10 It can come into contact with the dog's edge.

Through the four stopper parts 120 installed at the four corners of the object 10, respectively, in the first direction (horizontal direction) and the second direction (vertical direction) from the four corners of the object 10 The target object 10 can be supported.

According to an embodiment of the present invention, when the stopper part 120 is in contact with the four corners of the object 10, a separation space is formed between the stopper part 120 and the four corners of the object 10 It can be. That is, the stopper part 120 may be disposed at four corners of the object 10 while forming a separation space rather than in close contact with the object 10 .

In an embodiment of the present invention, the stopper part 120 can implement an earthquake-resistant function by supporting the four corners of the object 10. Specifically, by supporting the object 10 in the horizontal and vertical directions at four corners of the object 10 through the stopper portion 120, the object 10 can be protected from vibrations caused by earthquakes. be able to

In addition, as a separation space is formed between the stopper part 120 and the four corners of the object 10, it is possible to improve the earthquake-resistant function while securing a space that can be shaken by vibration such as an earthquake. Shock caused by vibration can be absorbed through the separation space.

Referring to FIG. 4 , the first coupling part 131 and the second coupling part 141 according to an embodiment of the present invention may be coupled to the fixing part 110 through bolts. A first coupling hole 133 penetrating the first coupling portion 131 may be provided in the first coupling portion 131, and the second coupling portion 141 may have a first coupling hole 133 penetrating the second coupling portion 141. A second coupling hole 143 may be provided.

In addition, in the fixing part 110, a first bolt hole 111 penetrating the fixing part 110 and communicating with the first coupling hole 133 into which the bolt is inserted, and the fixing part 110 ), and may be provided with a second bolt hole 112 into which the bolt is inserted while communicating with the second coupling hole 143.

After the first coupling hole 133 and the first bolt hole 111 communicate, and the second coupling hole 143 and the second bolt hole 112 communicate, the first coupling hole 133 ) and the second coupling hole 143, the first coupling portion 131 and the second coupling portion 141 can be coupled to the fixing portion 110.

Referring to FIG. 5 , the first bolt hole 111 and the second bolt hole 112 provided in the fixing part 110 may be formed as long holes extending in the longitudinal direction. Specifically, as shown in FIG. 5, the width direction of the first bolt hole 111 and the second bolt hole 112 is equal to or slightly larger than the diameter of the bolt, and the length direction is a long hole formed larger than the diameter of the bolt. can be made with

When connecting the first coupling hole 133 and the first bolt hole 111 and connecting the second coupling hole 143 and the second bolt hole 112 to fasten the bolt, the object According to the size of the lower structure 11 of (10), it is necessary to change the position where the first coupling part 131 and the second coupling part 141 are coupled to the fixing part 110.

According to an embodiment of the present invention, as the first bolt hole 111 and the second bolt hole 112 are made of long holes, according to the size of the lower structure 11 of the object 10, the first The positions where the coupling part 131 and the second coupling part 141 are coupled to the fixing part 110 can be changed.

Here, directions in which the first bolt hole 111 and the second bolt hole 112 formed of long holes extend may extend in parallel directions. The first coupling portion 131 and the second coupling portion 141 extend in directions perpendicular to each other.

Therefore, when changing the position where the first coupling part 131 and the second coupling part 141 are coupled to the fixing part 110 according to the size of the lower structure 11 of the object 10, the The first coupling portion 131 and the second coupling portion 141 must be moved in parallel to move without interfering with each other. To this end, as shown in FIG. 5 , directions in which the first bolt hole 111 and the second bolt hole 112 extend may extend in parallel directions.

According to an embodiment of the present invention, the height of the first support portion 132 and the second support portion 142 may be adjusted according to the thickness of the lower structure 11 of the object (10). The first support part 132 and the second support part 142 are made of a plate shape, and according to the thickness of the lower structure 11 of the object 10 to be supported, the first support part 132 and the The height of the second support part 142 may be adjusted.

The earthquake-resistant pedestal according to an embodiment of the present invention adjusts the height of the first support part 132 and the second support part 142 according to the thickness of the lower structure 11 of the object 10, thereby reducing the manufacturing cost. There is an advantage that can easily support the target object 10 while reducing the.

Referring to FIGS. 6 and 7 , the earthquake-resistant pedestal according to the embodiment of the present invention may further include a first reinforcement part 134 and a second reinforcement part 144 .

The first reinforcing part 134 has a plate shape and connects the first coupling part 131 and the first support part 132 . The first reinforcement part 134 may be a rib provided between the first coupling part 131 and the first support part 132 and supporting the first support part 132 .

The first reinforcing part 134 has a triangular shape and can connect the first coupling part 131 and the first support part 132, and as the first reinforcing part 134 is provided, the first The strength of the support part 132 can be reinforced.

The second reinforcing part 144 has a plate shape and connects the second coupling part 141 and the second support part 142 . The second reinforcement part 144 may be a rib provided between the second coupling part 141 and the second support part 142 and supporting the second support part 142 .

The second reinforcing part 144 has a triangular shape and can connect the second coupling part 141 and the second support part 142, and as the second reinforcing part 144 is provided, the second The strength of the support part 142 can be reinforced.

As described above, the height of the first support part 132 and the second support part 142 may be adjusted according to the thickness of the lower structure 11 of the object 10 . When the heights of the first support part 132 and the second support part 142 increase, there is a problem in that the first support part 132 and the second support part 142 are bent while buckling occurs.

The first reinforcing part 134 and the second reinforcing part 144 are provided to solve this problem, and between the first support part 132 and the first coupling part 131, the second As the first reinforcement part 134 and the second reinforcement part 144 are provided between the support part 142 and the second coupling part 141, the first support part 132 and the first reinforcement part 132 and the second reinforcement part 144 are provided as the height increases. It is possible to prevent the second support part 142 from being bent due to buckling.

Referring to FIG. 8 , the first reinforcing part 134 according to an embodiment of the present invention may be formed integrally with the first support part 132 in a plate shape. The first reinforcing part 134 may be manufactured separately and installed between the first supporting part 132 and the first coupling part 131, but the first reinforcing part 134 may not be the first supporting part 132 ) and it is preferably manufactured integrally while being made in one plate shape.

After the first reinforcement part 134 and the first support part 132 are manufactured in a plate shape, the first reinforcement part 134 is bent with respect to the first support part 132 and the first coupling is performed. The first reinforcing part 134 is connected to the part 131 . In this case, the first reinforcing part 134 may be connected to the first coupling part 131 through one-time welding.

More specifically, the first reinforcement part 134 may be manufactured together with the first support part 132 in a wing shape, and the first coupling part 134 may be bent by bending the wing shape. (131).

In this way, when the first reinforcement part 134 and the first support part 132 are manufactured in a plate shape, the first reinforcement part 134 is joined to the first support part 132 through one welding. It can be installed between the first coupling parts 131.

In addition, when the first reinforcement part 134 and the first support part 132 are manufactured in a plate shape, the cost is lower than that of separately manufacturing the first reinforcement part 134 and the manufacturing is easy. there is

Referring to FIG. 8 , the second reinforcing part 144 according to an embodiment of the present invention may be integrally manufactured with the second support part 142 in a plate shape. The second reinforcing part 144 may be manufactured separately and installed between the second supporting part 142 and the second coupling part 141, but the second reinforcing part 144 may not be the second supporting part 142 ) and it is preferably manufactured integrally while being made in one plate shape.

After the second reinforcement part 144 and the second support part 142 are manufactured in a plate shape, the second reinforcement part 144 is bent with respect to the second support part 142 and the second coupling is performed. The second reinforcing part 144 is connected to the part 141. In this case, the second reinforcing part 144 may be connected to the second coupling part 141 through one-time welding.

More specifically, the second reinforcement part 144 may be manufactured together with the second support part 142 in a wing shape, and the second coupling part may be formed by bending the wing shape second reinforcement part 144. (141).

In this way, when the second reinforcement part 144 and the second support part 142 are manufactured in a plate shape, the second reinforcement part 144 is joined to the second support part 142 through one welding. It can be installed between the second coupling parts 141.

In addition, when the second reinforcement part 144 and the second support part 142 are manufactured in a plate shape, the cost is lower than that of separately manufacturing the second reinforcement part 144 and the manufacturing is easy. there is

Referring to FIG. 9 , the earthquake-resistant pedestal according to an embodiment of the present invention may further include a first fall prevention part 135 and a second fall prevention part 145 .

The first fall prevention part 135 is formed in a plate shape and is bent vertically with respect to the first support part 132 to come into contact with the upper surface of the lower structure 11 of the object 10 .

The second fall prevention part 145 has a plate shape and is bent vertically with respect to the second support part 142 to come into contact with the upper surface of the lower structure 11 of the object 10 .

The first fall prevention part 135 and the second fall prevention part 145 are provided on the upper part of the first support part 132 and the second support part 142, and the lower part of the object 10 It is possible to prevent conduction while pressing the upper surface of the structure 11.

When the target object 10 is installed on the fixing part 110, a problem of conduction in which the target object 10 falls due to an external impact may occur. When the first fall prevention part 135 and the second fall prevention part 145 are provided above the first support part 132 and the second support part 142, the first fall prevention part 135 And it is possible to prevent the target object 10 from falling through the second fall prevention unit 145 .

Referring to FIG. 10 , the first fall prevention part 135 according to an embodiment of the present invention may be integrally manufactured with the first support part 132 in a plate shape. The first fall prevention part 135 may be manufactured separately and installed on the upper part of the first support part 132, but the first fall prevention part 135 and the first support part 132 have a plate shape. It is preferable to be integrally manufactured while being made of.

After the first fall prevention part 135 and the first support part 132 are manufactured in a plate shape, the first fall prevention part 135 is bent with respect to the first support part 132 and the object (10) can be in contact with the upper surface of the lower structure (11).

A little more specifically, the first fall prevention part 135 may be manufactured together with the first support part 132 while being formed in a wing shape, and the first fall prevention part 135 of the wing shape is bent to While contacting the upper surface of the lower structure 11 of the object 10, the first fall prevention part 135 can be installed.

When the object 10 is installed on the fixing part 110 where the stopper part 120 is installed, if the first fall prevention part 135 is bent, the first fall prevention part 135 This makes it difficult to install the object 10 to the fixing part 110.

Therefore, after installing the object 10 to the fixing part 110 in which the stopper part 120 is installed, while bending the first fall prevention part 135 with respect to the first support part 132 It is preferable to contact the first fall prevention part 135 with the upper surface of the lower structure 11 of the target object 10 .

In addition, if the first fall prevention part 135 and the first support part 132 are manufactured in a plate shape, it is cheaper and easier to manufacture than manufacturing the first fall prevention part 135 separately. There is one advantage.

Referring to FIG. 10 , the second fall prevention part 145 according to an embodiment of the present invention may be integrally manufactured with the second support part 142 in a plate shape. The second fall prevention part 145 may be manufactured separately and installed on the upper part of the second support part 142, but the second fall prevention part 145 and the second support part 142 have a plate shape. It is preferable to be integrally manufactured while being made of.

After the second fall prevention part 145 and the second support part 142 are manufactured in a plate shape, the second fall prevention part 145 is bent with respect to the second support part 142 and the object (10) can be in contact with the upper surface of the lower structure (11).

A little more specifically, the second fall prevention part 145 may be manufactured together with the second support part 142 while being formed in a wing shape, and the second fall prevention part 145 of the wing shape is bent to While contacting the upper surface of the lower structure 11 of the object 10, the second fall prevention part 145 can be installed.

When the object 10 is installed on the fixing part 110 where the stopper part 120 is installed, if the second fall prevention part 145 is bent, the second fall prevention part 145 This makes it difficult to install the object 10 to the fixing part 110.

Therefore, after installing the object 10 to the fixing part 110 in which the stopper part 120 is installed, while bending the second fall prevention part 145 with respect to the second support part 142 It is preferable to bring the second fall prevention part 145 into contact with the upper surface of the lower structure 11 of the target object 10 .

In addition, if the second fall prevention part 145 and the second support part 142 are manufactured in a plate shape, it is cheaper and easier to manufacture than manufacturing the second fall prevention part 145 separately. There is one advantage.

The earthquake-resistant pedestal according to the embodiment of the present invention described above has the following effects.

An earthquake-resistant pedestal according to an embodiment of the present invention supports an object installed at an industrial site through a stopper portion including a first support portion extending in a first direction and a second support portion extending in a second direction, thereby protecting the object from earthquake and vibration. It has the advantage of being able to support objects installed in industrial sites while implementing an earthquake-resistant function that protects the

In addition, in the earthquake-resistant pedestal according to an embodiment of the present invention, the first reinforcing part is installed between the first coupling part and the first support part, and the second reinforcing part is installed between the second coupling part and the second support part, so that the stopper part It has the advantage of improving durability.

In addition, the earthquake-resistant pedestal according to an embodiment of the present invention can support an object installed in an industrial field while implementing a fall prevention function to prevent an object from falling down due to an external impact by installing the first fall prevention unit and the second fall prevention unit. There are advantages to being able to

In addition, in the earthquake-resistant pedestal according to an embodiment of the present invention, the first reinforcement part and the first fall prevention part are integrally manufactured together with the first support part in a plate shape, and then bent and installed, and the second reinforcement part and the second fall prevention part are integrally manufactured. There is an advantage in that manufacturing efficiency can be improved while reducing manufacturing costs as the prevention part is integrally manufactured in a plate shape together with the second support part and then bent and installed.

In addition, the earthquake-resistant pedestal according to the embodiment of the present invention has the advantage of being able to easily support the object while reducing the manufacturing cost as the height of the first support part and the second support part can be adjusted according to the thickness of the lower structure of the object. .

As such, the present invention has been described with reference to one embodiment shown in the drawings, but this is only exemplary, and those skilled in the art will understand that various modifications and variations of the embodiments are possible from this. . Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110... Fixing part 111... 1st bolt hole
112... 2nd bolt hole 113... wing part
114... Fixing part bolt 120... stopper part
131... First coupling part 132 . . . 1st support
133... First coupling hole 134 . . . 1st reinforcement part
135... First fall prevention unit 141 . . . 2nd coupling part
142... Second support 143 . . . 2nd coupling hole
144... Second reinforcement part 145 . . . 2nd fall prevention unit

Claims (11)

In the pedestal supporting the object installed in the industrial site,
A fixing unit fixedly installed at a designated point and on which the object is seated;
Including; stopper part installed in the fixing part,
The stopper part,
A first coupling portion formed in a plate shape and extending in a horizontal direction coupled to the fixing portion;
A first support portion bent at the first coupling portion and extending in a first direction while having a plate shape;
A second coupling portion formed in a plate shape and extending in a horizontal direction coupled to the fixing portion;
A second support portion bent at the second coupling portion and extending in a second direction while being formed in a plate shape;
A first direction in which the first support part extends and a second direction in which the second support part extends are perpendicular to each other,
The first support part and the second support part are in contact with the outer side of the object,
The first coupling portion and the second coupling portion are coupled to the fixing portion through bolts,
The first coupling portion is provided with a first coupling hole penetrating the first coupling portion,
The second coupling portion is provided with a second coupling hole penetrating the second coupling portion,
In the fixing part,
A first bolt hole penetrating the fixing part and communicating with the first coupling hole and into which the bolt is inserted;
A second bolt hole passing through the fixing part and communicating with the second coupling hole and into which the bolt is inserted is provided,
The first bolt hole and the second bolt hole,
It consists of a long hole extending in the longitudinal direction,
The earthquake-proof pedestal, characterized in that the direction in which the first bolt hole and the second bolt hole formed of long holes extend in parallel to each other. delete According to claim 1,
The second support part extends in a vertical direction from one side of the first support part. According to claim 1,
The stopper part,
An earthquake-resistant pedestal, characterized in that installed at each of the four corners of the object. delete delete delete According to claim 1,
A first reinforcement part having a plate shape and connecting the first coupling part and the first support part;
An earthquake-resistant pedestal comprising a second reinforcing part having a plate shape and connecting the second coupling part and the second support part. According to claim 8,
The first reinforcement part and the first support part are integrally manufactured while being formed in one plate shape, and the first reinforcement part is bent with respect to the first support part and connected to the first coupling part,
The second reinforcement part and the second support part are integrally manufactured in a plate shape, and the second reinforcement part is bent with respect to the second support part and connected to the second coupling part. . According to claim 1,
A first fall prevention unit formed in a plate shape and bent vertically with respect to the first support unit to contact the upper surface of the lower structure of the target object;
An earthquake-resistant pedestal comprising a second fall prevention part that is formed in a plate shape and is bent vertically with respect to the second support part and contacts the upper surface of the lower structure of the object. According to claim 10,
The first fall prevention part and the first support part have a plate shape and are integrally manufactured, and the first fall prevention part is bent with respect to the first support part and contacts an upper surface of a lower structure of the object,
Characterized in that the second fall prevention part and the second support part are integrally manufactured while being formed in a single plate shape, and the second fall prevention part contacts the upper surface of the lower structure of the object while being bent with respect to the second support part. earthquake-resistant pedestal made of.

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