KR101911783B1 - Earthquake channel for machine eqyipment - Google Patents

Abstract

The present invention relates to an earthquake-resistant channel for mechanical equipment, which is installed on a lower end of the mechanical equipment to protect the mechanical equipment from vibrations or shocks such as an earthquake, and more particularly, to an earthquake-resistant channel for mechanical equipment that is capable of easily preparing for a deviation load of the mechanical equipment, increasing a supporting force and easily maintaining level. According to the present invention, an earthquake-resistant channel for mechanical equipment which comprises a container containing various machines, includes a C-shaped lower frame mounted on the ground, open at an upper portion thereof; a cushioning member installed in the lower frame in which plate-shaped support plates for absorbing shock and vibration and increasing a supporting force are spaced apart from each other by a predetermined interval to divide the lower frame into upper, middle and lower ends; a connecting frame having a connecting bolt protruding at a predetermined length from an upper center portion to be coupled to a lower end of the mechanical equipment, the connecting frame being connected and coupled to the upper end of the cushioning member; and a C-shaped upper frame having a lower portion opened to insert the lower frame thereinto, and a through hole formed at a central portion thereof to allow a connecting bolt of the connecting frame to pass therethrough.

Description

Earthquake channel for machine eqyipment}

The present invention relates to an earthquake-resistant chan- nel for mechanical equipment installed at the bottom of a mechanical equipment and capable of protecting mechanical equipment from vibrations or shocks such as earthquakes, and more particularly, to an earthquake- And more particularly, to a mechanical equipment earthquake-resistant channel capable of facilitating horizontal maintenance.

The earthquake-resistant seismic design generally plays a role to prevent the target structure from being partially or totally destroyed when the earthquake occurs.

However, even if a building is subjected to earthquake, the structure will shake if an earthquake occurs. The magnitude of the seismic force affecting the building in case of an earthquake varies depending on the structural characteristics such as the height, shape and material of the building, It will affect the advanced devices such as the installation and cause a huge damage.

On the other hand, there has been an attempt to apply a seismic isolation device used in a conventional building or a bridge to a mechanical installation, but it has not had a proper structure, and it is not smooth that the structure is restored to its original position after a displacement occurs at the position of the structure due to seismic force If not, it is happening.

As shown in FIG. 1, the anti-vibration type switchboard using the non-directional elastic support of Korean Patent Registration No. 1038672 includes a switchboard for accommodating various distribution electronic devices, And a non-directional elastic support provided between the base and the ground to absorb vibrations and impacts, wherein the non-directional elastic support base (300) comprises a wire (351) An upper fixing table 341 which is coupled to the upper portion of the coil spring 350 to fix the gap between adjacent wires 351 so as to maintain a predetermined gap therebetween, And a lower fixing table 345 which is fixedly coupled to adjacent wires 351 so as to be spaced apart from each other by a predetermined distance, 0), an upper coupling plate 311 positioned between the base and the upper fixing plate of the coil spring mount 330 and having a fastening hole through which a plurality of fastening bolts are inserted, A lower cover plate 310 formed of an upper shield plate 313 bent and extended vertically and a lower cover plate 310 located between the ground and a lower fixing plate of the coil spring mount 330 and having a fastening hole through which a plurality of fastening bolts are passed, And a lower cover 320 composed of a lower shield 320 and a lower shield 320 extending vertically from both ends of the lower coupling plate 321. The upper cover 310 and the lower cover 320, A plurality of coil spring mounts 330 are arranged in a row between the upper shield 310 and the lower shield 320. The upper shield 310 and the lower shield 320 of the lower cover 320 are spaced apart from each other by a predetermined distance vibration The upper cover 310 and the lower cover 320 can freely vibrate up and down and left and right, and the damping plate of rubber material is attached to the lower end of the upper shielding plate 310, The lower cover 320 and the plurality of coil spring mounts 330 are arranged such that the gap between the two wires positioned at the lower center of the lower cover 320 is different from that between the other wires The two wires are tilted so as to face each other toward the center to strengthen the elastic force, thereby protecting the electronic devices installed inside the switchboard and the switchboard from vibration when an earthquake occurs.

However, there is a problem that the load of each point applied to the lower part of the mechanical equipment, the lower part of the machine, is not easy to maintain the level. To solve this problem, when installed according to the load applied to each lower part of the switchboard, There is a problem that an impact is applied to the switchboard substantially because each point of time when the receiver switchboard returns to the original state is different.

Korean Patent No. 1038672

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for recovering the mechanical equipment without damaging the mechanical equipment when the mechanical equipment is shaken due to vibration or shock, And it is an object of the present invention to provide a mechanical earthquake-resistant channel capable of increasing the supporting force against the load of the mechanical equipment and facilitating the horizontal maintenance.

In order to accomplish the above object, the present invention provides a mechanical equipment comprising a housing in which various machines are housed, wherein a U-shaped lower frame having an open top is installed on the ground, And the upper end of the cushioning member is fastened to the upper end of the cushioning member so as to be fastened to the lower end of the cushioning unit, Shaped upper frame having a through hole through which the connecting bolt of the connecting frame is inserted so that the lower part is opened to insert the lower frame and the connecting bolt of the connecting frame passes through the center. This is achieved by the earthquake-resistant duct for installation.

In addition, the support plate of the buffer member is formed by three or more.

Further, a second elastic member is further provided between the support plates installed in the body of the buffer member.

Further, a groove is formed in the outer shape of the body between the support plates of the buffer member.

The outer shape of the main body having the upper support plate and the lower end support plate of the buffer member is formed to have the same width and the outer shape of the main body in which the stop support plate is installed is formed to have a width smaller than the outer shape of the main body having the upper support plate and the lower support plate, And a groove portion is formed in the groove.

An air cushion is formed between the inner circumferential surface of the U-shaped lower frame and the cushioning member. The air cushion is formed with a coupling projection protruding from one side of the cushioning member.

In addition, an air support cushion member is installed between the U-shaped lower frame and the buffer member, screw holes are formed on both side surfaces of the U-shaped lower frame, and a press fitting regulating member for press-fitting the air supporting cushion portion is provided in the screw hole .

1 is a front view showing an earthquake-resistant device installed in a transmission / distribution panel which is a conventional mechanical equipment.
2 is a perspective view of a seismic retrofit machine for a mechanical installation according to the present invention;
3 is an exploded perspective view showing an earthquake-resistant panel for a machine according to the present invention.
4A is a sectional view showing AA.
4B is a sectional view showing BB.
5 shows another embodiment of the buffer member of the present invention
6 is another embodiment showing the buffer member of the present invention.
Figures 7a and 7b show an embodiment of Figure 6;
FIG. 8A is another embodiment showing a mechanical earthquake-resistant panel of the present invention. FIG.
Figure 8b is an embodiment of use for Figure 8a.
9A is another embodiment showing a mechanical earthquake-resistant panel of the present invention.
Figure 9b is an embodiment of use for Figure 9a.
Fig. 10 shows an embodiment of the use of the earthquake-resistant equipment for machinery of the present invention. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

2 to 4A and 4B, the mechanical earthquake-resistant panel 1 of the present invention is a mechanical equipment comprising a housing in which various machines are housed, Shaped support plates 22, 24, and 26 are spaced apart from each other at predetermined intervals in the body 21 so as to absorb shock and vibration and increase the supporting force inside the lower frame 10, And a connecting bolt (32) protruding at a predetermined length from an upper center portion of the upper end of the buffering member (20) Shaped top frame 40 having a through hole 42 through which the connecting bolts 32 of the connecting frame 30 are inserted so that the lower part of the connecting frame 30 is connected and the lower frame 10 is inserted. preferably made of a .

Shaped bottom frame 10 is inserted between the inner peripheral surface of the U-shaped upper frame 40 and the outer peripheral surface of the U-shaped bottom frame 10, It is preferable that the U-shaped upper frame 40 is installed so as to be disturbed by the impact and vibration.

That is, if the space between the inner circumferential surface of the U-shaped upper frame 40 and the outer circumferential surface of the U-shaped lower frame 10 is not formed and fixed so as to abut against each other, the inner peripheral surface of the U- 10 may be damaged by impact or vibration.

The cushioning member 20 installed in the U-shaped lower frame 10 and the connecting frame 30 seated on the buffer member 20 are installed in one or more than two .

The cushioning member 20 installed inside the U-shaped lower frame 10 is provided with support plates 22, 24, and 26 spaced apart from each other by a predetermined distance in the body 21 having elasticity The support plate 22, 24, 26 of the buffer member 20 provides a quick restoring force against shaking due to impact and vibration, and at the same time, the supporting force can be improved.

The main body 21 is preferably made of a rubber material having elasticity, a cushion tube having an air layer, and a sponge.

As described above, the support plates 22, 24, and 26 installed in the main body 21 of the cushioning member 20 installed in the U-shaped lower frame 10 are spaced apart from each other by a predetermined distance, As shown in Fig.

As described above, the main body 21 of the cushioning member 20 may be formed of a rubber material having an elastic force, a cushion tube having an air layer formed thereon, or a single body having the same elasticity as a sponge, An elastic force may be formed.

The elastic force of the main body 21 formed on the upper support plate 22 and the intermediate support plate 24 of the buffer member 20 and the elastic force of the main body 21 formed on the intermediate support plate 24 and the lower support plate 26 So that it is possible to cope with various impacts, vibrations and bearing forces.

In order to further increase the shock, vibration and support force of the cushioning member 20 as described above, between the support plates 22, 24, and 26 installed in the body 21 of the cushioning member 20 as shown in FIG. 5 The second elastic member 28 is further provided to absorb more various shocks and vibrations and to improve the supporting force.

It is preferable that the second elastic member 28 is formed of a leaf spring, rubber, or spring.

As described above, the cushioning member 20 absorbing shock and vibration and increasing the supporting force has a structure in which the support plates 22, 24, and 26 are installed in a rectangular shape, and the cushioning member 20, The cushioning member 20 may be damaged by shaking when the outer circumferential surface of the cushion member 20 expands and abuts against the inside of the U-shaped lower frame 10, so as shown in FIGS. 4A and 5, It is preferable that a groove 27 is formed in the outer shape of the main body 21 between the support plates 22, 24, and 26 of the buffer member 20.

6, the upper support plate 22 of the cushioning member 20 can be prevented from being damaged even when the cushioning member 20 is shaken due to shock or vibration, The outer shape of the main body 21 in which the lower support plate 26 is inserted and the outer shape of the main body 21 in which the intermediate support plate 24 is inserted is formed by the upper support plate 22 and the lower support plate 26, And a groove portion 27 is formed on a side surface of the main body 21 so as to have a width D2 smaller than the outer shape of the main body 21. [

7A and 7B, the cushioning member 20 includes a lower support plate 26 fixed to the U-shaped lower frame 10 and a lower support plate 26 fixed to the lower end of the cushioning member 20 The upper support plate 22 is fixed to the connection frame 30. The upper support plate 22 is provided with a groove 27 on the outer surface of the main body 21 in which the intermediate support plate 24 of the buffer member 20 is installed when the buffer plate 20 is shaken by impact and vibration The buffer member 20 is prevented from contacting the inner circumferential surface of the U-shaped lower frame 10 due to impact, vibration and load, and the buffer support member 24 The outer shape of the main body 21 can be prevented from coming into contact with the inner peripheral surface of the U-shaped lower frame 10. [

The cushioning member 20 is fixed to the U-shaped lower frame 10 with the lower support plate 26 of the buffer member 20 and the upper support plate 22 of the buffer member 20 is fixed to the connection frame 30 The connecting bolts 32 of the connecting frame 30 are fastened and fixed by the bolts 50 and the nuts 52 as shown in FIGS. 3 and 4B, (60).

As described above, the connection bolts 32 and the nuts 60 of the connection frame 30 are firmly fastened to the electrical equipment and the height of the mechanical equipment can be controlled.

As described above, the mechanical earthquake-resistant panel 1 according to the present invention is installed at the lower part of the mechanical equipment to increase the restoring force, the horizontal holding force and the supporting force. In order to further increase the restoring force, An air cushion portion 70 having an engaging protrusion 72 protruded at one side thereof to be engaged with the groove portion 27 of the cushioning member 20 is formed on the inner peripheral surface of the U- 20).

8B, the side surfaces of the support plates 22, 24, and 26 of the cushioning cushion member 20, which are caused by impact and vibration generated in the electric equipment, are engaged with the coupling protrusions 72 of the air cushion 70 The air cushion 70 is press-fitted to expand and support one side of the air cushion 70 and push the air cushion 70 toward the upper side of the other supporting support plate 24 of the cushioning member 20, And the supporting force can be improved.

9A, an air supporting cushion member 80 is installed between the U-shaped lower frame 10 and the buffer member 20 in order to further facilitate horizontal holding, supporting force, and restoring force, A screw hole 12 is formed on both sides of the lower frame 10 and a press fit regulating member 90 for press fitting the air support cushion portion is provided in the screw hole 12. [

That is, as shown in FIG. 9B, when the load of the electric equipment is increased, the airbag cushion member 80 is pushed inwardly by pushing the press-fitting control member 90 inward without installing the buffer member 20, It is possible to maintain the horizontal position and to further increase the supporting force of the buffer member 20.

Further, there is an effect that furthermore, the cushioning member 20 installed in the U-shaped lower frame 10 can be further prevented from being detached by impact and vibration.

The press fitting regulating member 90 is formed with a bolt 92 on one side so as to be coupled to the screw hole of the U-shaped lower frame 10 and the other side can press-fit the air supporting cushion member 80 A plate frame 94 is provided.

As described above, the mechanical equipment earthquake-resistant panel 1 of the present invention has a U-shaped lower frame 10, which is opened in an upper part of the embodiment, as shown in FIG. 10, Shaped support plates 22, 24, and 26 are spaced apart from each other at predetermined intervals so as to absorb shock and vibration and increase the supporting force, (20), and a connecting frame (30) having a connecting bolt protruding at a predetermined length at an upper center portion is mounted on the upper end of the buffering member (20) The lower support plate 26 is fastened to the U-shaped lower frame 10 using bolts 50 and nuts 52 and the upper support plate 22 of the buffer member is fastened to the connection frame 30 with bolts 50 ) And the nut (52) Shaped upper frame provided with a through hole so that a lower portion thereof is inserted to insert the lower frame and a connecting bolt of the connecting frame penetrates through the central portion thereof and the connecting bolt 32 of the connecting frame 30 is coupled to the electric equipment, (60).

The vibration-damping chan- nel for machine use according to the present invention connected as described above is constituted by a cushioning member composed of upper and lower ends and an auxiliary supporting member so as to easily cope with a deviation according to the load of a machine equipment comprising a housing in which various machines are housed, And it is possible to return to the original state without impacting the mechanical equipment when the mechanical equipment is shaken from vibration or shock such as an earthquake.

1: Earthquake Chambers for Machinery
10: Lower frame 12:
20: buffer member 21:
22, 24, 26: support plate 27:
28: second elastic member
30: connecting frame 32: connecting bolt
40: upper frame 42: through hole
50: bolt 52: nut
60: Nut
70: air cushion part 72: engaging projection
80: air support cushion member
90: press fitting member 92: bolt
94: plate frame

Claims (7)

In a mechanical equipment comprising a housing in which various machines are housed,
Shaped bottom frame 10 having an open top is installed on the ground, and plate-shaped support plates are spaced apart from each other at a predetermined interval in order to absorb shock and vibration and increase the supporting force inside the bottom frame, And a connecting frame 30 having a connecting bolt 32 protruding at a predetermined length from an upper center portion of the upper end of the cushioning member so as to be fastened to the lower end of the cushioning unit, Shaped upper frame having a through hole (42) formed in a central portion thereof so that the connecting bolt of the connecting frame is inserted therethrough,
An air cushion portion 70 having an engaging protrusion 72 protruded at one side thereof so as to be able to be engaged with the groove portion of the buffer member is formed in the outer shape of the body between the support plates of the buffer member 20, Shaped bottom frame and the buffering member is provided between the inner peripheral surface of the U-shaped lower frame and the buffering member.
The method according to claim 1,
Wherein the support plate of the buffer member (20) is formed by three or more support plates.
The method according to claim 1,
And a second elastic member (28) is further provided between the support plates inserted into the body of the buffer member (20).
delete The method according to claim 1,
The outer shape of the main body in which the upper support plate and the lower support plate of the buffer member 20 are inserted is formed to have the same width and the outer shape of the main body in which the intermediate support plate is installed is formed to have a width smaller than the outer shape of the main body in which the upper support plate and the lower support plate are inserted, 21) having a groove (27) formed on a side surface thereof.
delete The method according to claim 1,
An air support cushion member 80 is inserted between the U-shaped lower frame and the buffer member, a screw hole is formed on both side surfaces of the U-shaped lower frame, and a press-fitting regulating member 90 for press- Characterized in that it comprises:

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