KR102101940B1 - Dynamic Load Reduction Device through displacement limitation - Google Patents

Abstract

The present invention relates to a weigh-in-motion reduction device through displacement limitation, which allows dynamic displacement of a device arranged in a structure in a limited manner. To this end, the weigh-in-motion reduction device through displacement limitation comprises: a contact plate which comes in contact with a side surface of the device; a fixed plate which is fixed to the structure; a supporter of which one end portion is supported by the fixed plate, and the other end portion is spaced apart from the contact plate to have a predetermined interval; and a plate spring of which one end portion is fixed to the fixed plate, and the other end portion is fixed to the contact plate. Here, a virtual line which connects a point at which the plate spring is fixed to the fixed plate to a point at which the plate spring is fixed to the contact plate intersects with a virtual vertical line which vertically extends from the fixed plate to have a predetermined angle. In addition, the plate spring is symmetrically bent around the center thereof.

Description

Dynamic Load Reduction Device through displacement limitation}

The present invention relates to a displacement limiting device, and relates to a dynamic load reduction device through a displacement limit to limit the displacement of a device installed in a structure to a certain range due to an earthquake or the like to reduce the dynamic load due to vibration of the device.

Various devices are installed inside a conventional power plant and plant. Preventing excessive displacement of the devices due to factors such as earthquakes is very important to protect the devices and external structures.

Conventionally, in order to prevent the vibration generated by the device from being transmitted to the structure in which the device is installed, the vibration is attenuated by using a spring or a shock absorber, but rather, excessive displacement is allowed, which may adversely affect the safety of the structure. In addition, in the case of using an oil or an organic material, when exposed to an environment such as high temperature, high humidity, and radioactivity, the properties of the material may change and thus may not fulfill a desired role.

Accordingly, there is a need for a device capable of stably functioning even in an environment where high temperature, high humidity, and radioactivity exist, and reducing the dynamic load transmitted to the structure by the device by limiting the displacement of the device within a certain gap.

The present invention has been devised to solve the above-described demands, and the dynamic load reduction device through the displacement limit is made to limit the displacement of a device caused by an earthquake to a certain range to reduce the dynamic load due to vibration of the device. The purpose is to provide.

A dynamic load reduction device through a displacement limit according to the present invention includes: a dynamic load reduction device through a displacement limit to allow dynamic displacement of a device disposed in a structure, comprising: a contact plate in contact with a side surface of the device; A fixing plate fixed to the structure; One end is supported on the fixed plate, the other end is spaced apart from the contact plate is disposed to have a predetermined gap; The one end is fixed to the fixed plate, the other end is fixed to the contact plate plate spring; including, but the plate spring is fixed to the fixed plate and the plate spring is fixed to the contact plate to the virtual The line intersects a virtual vertical line extending vertically from the fixing plate to have a predetermined angle, and the plate spring is curved symmetrically with respect to its center.

In addition, the plate spring, the fixing portion is fixed to each of the fixing plate and the contact plate; And it is preferred to include a; having a thickness thinner than the thickness of the fixing portion is recessed inward and rounded.

In addition, it is preferable that a plurality of plate springs are provided spaced apart at regular intervals.

In addition, the plate spring is preferably curved in an S-shape.

In addition, the contact plate may include a low friction plate that allows sliding when the device expands due to heat; And it is preferably coupled to the low friction plate, the other end of the plate spring is coupled to the push plate;

In addition, a gap adjusting plate for adjusting the gap is provided, wherein the gap adjusting plate includes: a first gap adjusting plate coupled to the support; And a second gap adjusting plate disposed at a predetermined distance from the first gap adjusting plate and coupled to the contact plate.

In addition, a fastening plate coupled to one side of the first gap control plate; It is preferable to include; a fastening member for coupling the fastening plate and the contact plate.

In addition, it is preferable to include a binding member connecting the end of the support and the contact plate.

In addition, a binding member for connecting the end of the support and the contact plate, the binding member, a fastening plate coupled to one side of the first gap control plate; And a fastening member coupling the fastening plate and the contact plate.

The dynamic load reduction device through the displacement limitation according to the present invention provides an effect of securing the soundness of a structure or device by limiting the displacement of the device to a predetermined range despite an external force generating excessive dynamic displacement in the device.

In addition, the present invention employs a plate spring to limit the occurrence of excessive displacement of the device in the left and right directions, as well as absorbing the occurrence of displacement in the direction perpendicular to the left and right directions to secure the stability of the structure or device. to provide.

1 is a plan view schematically showing a state in which a dynamic load reduction device according to the present invention is installed,
Figure 2 is a schematic side view of a dynamic load reducing device according to the present invention,
Figure 3 is a perspective view of the plate spring before the bending,
Figure 4 is a side view of Figure 3,
Figure 5 is a side view of the plate spring in a bent state,
6 is an enlarged view of a circle portion indicated by a dotted line in FIG. 2.

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

1 is a plan view schematically showing a state in which the dynamic load reducing device according to the present invention is installed, and FIG. 2 is a schematic side view of the dynamic load reducing device according to the present invention. Fig. 3 is a perspective view before the leaf spring is bent, Fig. 4 is a side view of Fig. 3, and Fig. 5 is a side view in a state where the leaf spring is bent. 6 is an enlarged view of a circle portion indicated by a dotted line in FIG. 2.

The dynamic load reduction device through the displacement limitation according to the present invention allows the dynamic displacement of the device 1 disposed in the structure 200 to be limited, thereby reducing the dynamic load transmitted between the device 1 and the structure 200 It is about the device for.

Referring to FIG. 1, the device 1 is installed in the structure 200, and the device 1 vibrates due to an earthquake or the like. Particularly, when the device 1 vibrates in the left and right directions indicated by arrow A, the present invention allows the dynamic load of the device 1 to be transmitted to the structure 200 while limiting displacement of the device 1 In order to reduce the, a pair may be installed on the left and right sides of the device 1. Of course, the place where the dynamic load reduction device according to the present invention is installed is not limited to the above.

As shown in Figure 2, the dynamic load reducing apparatus 100 through the displacement limit according to the present invention, includes a contact plate 10, a fixed plate 20, a support 30, and a plate spring 40.

The contact plate 10 is in contact with the side of the device (1). According to this embodiment, the contact plate 10 includes a low friction plate 11 and a push plate 12.

The low friction plate 11 allows the device 1 to slip. The low friction plate 11 is in close contact with the side surface of the device 1 and allows sliding in the B direction of FIG. 1. The device 1 can thermally expand according to the operating temperature, and the device 1 can move relative to the low friction plate 11. The low friction plate 11 is provided to prevent stress caused by friction during thermal expansion of the device 1, and it is preferable that graphite or a lubricant is included on the surface of the steel material.

The pushing plate 12 is combined with the low friction plate 11. The low friction plate 11 is coupled to one side of the push plate 12, and the other end portion of the plate spring 40 is coupled to the other side. When the device 1 is displaced and moved in the A direction, the pushing plate 12 can move in the A direction together with the low friction plate 11, and returns to its original position due to the restoring force of the plate spring 40.

The fixing plate 20 is fixed to the structure 200. The fixing plate 20 is formed with a fastening hole 22 into which an anchor bolt 21 is inserted, and the anchor bolt 21 uses the nut 23 and the washer 24 to secure the fixing plate 20 and the structure. (200).

The support 30 extends from the fixing plate 20 toward the device 1 in a vertical direction. Specifically, one end of the support 30 is supported by the fixing plate 20, and the other end of the support 30 is spaced apart from the contact plate 10 and arranged to have a predetermined gap D.

As shown in Figure 2, the support 30 may be installed in a plurality in the vertical direction of the structure 200. 2, two supports 30 are installed, but of course the number can be variously changed according to the installation environment.

The plate spring 40 is provided to limit displacement within a gap between the contact plate 10 and the support 30 when the device 1 has excessive displacement due to an earthquake or the like. One end of the leaf spring 40 is fixed to the fixing plate 20 and the other end is fixed to the contact plate 10. According to this embodiment, the other end of the leaf spring 40 is fixed to the pushing plate 12. In addition, the plate spring 40 serves to reduce vibration or displacement of the device 1 when vibration or displacement within the predetermined gap D occurs in the device 1.

The plate spring 40 is a virtual line (L) connecting the point (P1) fixed to the fixing plate 20 and the point (P2) to which the plate spring (40) is fixed to the contact plate (10) , Intersect to have a predetermined angle with a virtual vertical line (VL) extending vertically from the fixing plate 20. In addition, the leaf spring 40 is provided to be bent symmetrically with respect to its center.

According to the present embodiment, the plate springs 40 are spaced apart at regular intervals, and a plurality of plates are provided, and are curved in an S shape.

3 to 5, the leaf spring 40 includes a fixing part 41 and a recessed part 42.

The fixing portion 41 is a portion fixed to the contact plate 10 and the fixing plate 20, and the recessed portion 42 has a thickness thinner than the thickness of the fixing portion 41 and is recessed inward to round Is formed. The plate spring 40 in the form of FIG. 3, as shown in FIG. 5, is curved symmetrically to each other at the center of the depression 42, so that one end is connected to the fixing plate 20, and the other end is It is connected to the contact plate 10.

The plate spring 40 primarily limits displacement of the device 1 vibrating in the A direction based on FIG. 1. When vibration occurs outside the range of the distance D between the contact plate 10 and the support 30, the plate spring 40 absorbs the displacement of the device 1 by spring characteristics. The dynamic displacement is limited so that the device 1 can be moved within the range of the gap D. In addition, the leaf spring 40 elastically supports the device 1 that vibrates in the B direction based on FIG. 1 to reduce or absorb vibration.

The width and length of the leaf spring 40, the degree of depression of the recess 42, or the number of the leaf springs 40 installed may be changed according to a given environment. The dynamic range of the device 1 can be controlled by changing the elastic force by adjusting the spring constant by changing such elements.

In addition, the apparatus for reducing dynamic load through displacement limitation according to an embodiment of the present invention includes a gap adjusting plate 50.

The gap control plate 50 is for adjusting the gap D of the contact plate 10 and the support 30, and includes a first gap control plate 51 and a second gap control plate 52. That is, the gap adjusting plate 50 is provided to control and limit the displacement of the device 1 together with the plate spring 50.

The first gap adjusting plate 51 is a plate-shaped member coupled to the support 30, and the second gap adjusting plate 52 is coupled to the contact plate 10 and predetermined with the first gap adjusting plate 51 Spaced apart from each other. In this embodiment, the second gap adjusting plate 52 is fastened to the pushing plate 12.

A plurality of the first and second gap adjusting plates 51 and 52 may be provided, and the gap between the contact plate 10 and the support 30 may be adjusted by adjusting the number and thickness of the stacked plates.

According to this embodiment, a binding member 60 for connecting the end of the support 30 and the contact plate 10 is provided. The binding member 60 by connecting the end of the support 30 and the contact plate 10 to each other, when the device (1) vibrates in the A direction, the gap control plate 50 on both sides in full contact with each other To guide the vibration direction to absorb the load.

2 and 6, the binding member 60 includes a fastening plate 61 and a fastening member 62.

The fastening plate 61 is coupled to one side of the first gap adjusting plate 51. The fastening plate 61 is coupled to the end of the support 30, the first gap control plate 51 is provided is a plurality of stacked on the fastening plate 61.

The fastening member 62 couples the fastening plate 61 and the contact plate 10. The fastening member 62 includes an anchor bolt 621, a nut 622, and a washer 623, and the fastening plate 61 is formed with a through hole through which the anchor bolt 621 is inserted.

In the present embodiment, it is preferable to use stainless steel or bolt steel for the plate-like members (contact plate 10, fixing plate 20, spacing adjusting plate 50) and bolts to nuts, thereby displacing the device. Soundness for limitation can be secured.

Hereinafter, the action or effect of the dynamic load reduction device through the displacement limit according to the above configuration will be described in detail.

Various devices 1 installed in the structure 200 are fixed to the bottom of the structure 200. When an earthquake or the like causes the devices 1 to vibrate left and right, displacement of the devices 1 is allowed within a certain degree. However, in order to protect the device 1 and the structure 200, the displacement needs to be limited, and the dynamic load reduction device through the displacement limit according to the present invention limits the dynamic displacement of the device 1 to a certain range. The device 1 and the structure 200 are protected.

The device 1 may vibrate left and right within the range of the distance D between the support 30 and the contact plate 10. The distance between the support 30 and the contact plate 10 is substantially spaced can be more finely adjusted by the spacer plate 50.

The plate spring 40 employed in the present embodiment absorbs the dynamic load of the machine 1 even when the machine 1 is shaken in the A direction beyond the gap D. The dynamic displacement of the device 1 can be maintained within a range within the gap D.

Therefore, even though a force that generates excessive dynamic displacement acts on the device 1, the dynamic load reducing device according to the present invention limits the structure of the device 1 to occur within the range of the set gap D, thereby preventing the structure ( 200) and ensure the stability of the device (1).

On the other hand, the device 1 allows thermal expansion in the B direction freely by the low friction plate 11, and when the displacement in the B direction occurs, the plate spring 40 elastically supports the excessive displacement of the device 1 By suppressing the occurrence, it is possible to secure the integrity of the structure 200 and the device 1.

Above, the present invention has been described in detail with respect to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications may be provided without departing from the scope of the present invention.

10 ... Contact plate 11 ... Low friction plate
12 ... Jungle plate 20 ... Fixing plate
21 ... Anchor bolt 22 ... Fastener
23 ... nut 24 ... washer
30 ... Support 40 ... Plate spring
41 ... fixing part 42 ... depression
50 ... Gap control plate 51 ... First gap control plate
52 ... second gap control plate 60 ... binding member
61 ... Fastening plate 62 ... Fastening member
621 ... Anchor bolt 622 ... Nut
623 ... washer 1 ... appliance
100 ... Dynamic load reduction device through displacement limitation
200 ... structures

Claims (8)

In the displacement limiting device to limit the dynamic displacement of the device disposed in the structure,
A contact plate in contact with the side of the device;
A fixing plate fixed to the structure;
One end is supported on the fixed plate, the other end is spaced apart from the contact plate is disposed to have a predetermined gap;
Includes a; one end is fixed to the fixing plate, the other end is fixed to the contact plate plate spring;
An imaginary line connecting the point where the plate spring is fixed to the fixing plate and the point where the plate spring is fixed to the contact plate intersects the imaginary vertical line extending perpendicularly from the fixing plate to have a predetermined angle, and the plate spring. Is curved symmetrically about its center,
The contact plate,
A low friction plate that allows sliding when the device expands by heat; And
And a low-friction plate and a thrust plate to which the other end of the plate spring is coupled. According to claim 1,
The leaf spring,
A fixing part fixed to each of the fixing plate and the contact plate; And
Dynamic load reduction device through the displacement limit, characterized in that it comprises a; having a thickness thinner than the thickness of the fixing portion is recessed inward and rounded. According to claim 1,
The plate spring is spaced apart at regular intervals, a plurality of dynamic load reduction devices through displacement restrictions, characterized in that provided. According to claim 1,
The plate spring is a dynamic load reduction device through the displacement limit, characterized in that the curved S-shape. delete In the displacement limiting device to limit the dynamic displacement of the device disposed in the structure,
A contact plate in contact with the side of the device;
A fixing plate fixed to the structure;
One end is supported on the fixed plate, the other end is spaced apart from the contact plate is disposed to have a predetermined gap;
Includes a; one end is fixed to the fixing plate, the other end is fixed to the contact plate plate spring;
An imaginary line connecting the point where the plate spring is fixed to the fixing plate and the point where the plate spring is fixed to the contact plate intersects the imaginary vertical line extending perpendicularly from the fixing plate to have a predetermined angle, and the plate spring. Is curved symmetrically about its center,
A gap control plate for adjusting the gap is provided,
The gap control plate,
A first gap adjusting plate coupled to the support; And
And a second gap adjusting plate disposed at a predetermined distance from the first gap adjusting plate and coupled to the contact plate. According to claim 1,
Dynamic load reduction device for limiting displacement, characterized in that it comprises a binding member for connecting the end of the support and the contact plate. The method of claim 6,
And a binding member connecting the end of the support and the contact plate,
The binding member,
A fastening plate coupled to one side of the first gap adjusting plate; And
And a fastening member for coupling the fastening plate and the contact plate.

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