KR102038374B1 - Earthquake-resistant device for water tanks - Google Patents

Abstract

The present invention relates to an earthquake-proof device for a fire extinguishing water tank, which includes: a base supporting a fire extinguishing water tank; an earthquake-proof part provided on a lower side of the base and arranged on a ground structure; and a displacement restricting part installed between the base and the ground structure and restricting moving displacement of the base, thereby being possible to improve earthquake-proof performance of the fire extinguishing water tank and further improve the earthquake-proof performance by restricting the moving displacement.

Description

Earthquake-resistant device of fire hydrant tank {EARTHQUAKE-RESISTANT DEVICE FOR WATER TANKS}

The present invention provides a fire extinguishing system including a base for supporting a fire fighting tank and a seismic unit provided below the base and disposed on the ground structure, and a displacement limiting unit installed between the base and the ground structure to limit the displacement of the base. As well as improving the seismic performance of the tank as well as limiting displacement, the seismic system of the fire extinguishing tank can further improve the seismic performance.

In general, when an earthquake occurs, the building is shaken by the earthquake wave, and the fire extinguishing tank installed in the building may be dropped, deformed, or damaged by the shake.In case of a secondary fire caused by the earthquake, the fire cannot be shown. Increasing lives and property damage will result.

In order to improve the seismic performance of the fire extinguishing tank, a technique for providing an elastic means in the lower side of the fire extinguishing tank to offset the impact of the earthquake has been proposed.

However, in the case of the prior art, there is a problem in that the seismic performance is insufficient because it only serves to attenuate the shaking of the digestion tank when the earthquake occurs and does not reach the limit of the displacement of the digestion tank.

The present invention is to provide a base for supporting a fire fighting tank and a seismic portion provided on the bottom of the base and disposed on the ground structure, and installed between the base and the ground structure to limit the displacement of the base to solve the problem It is an object of the present invention to provide an earthquake resistant device of a fire extinguishing tank including a displacement limiting unit to improve the seismic performance of the digestive tank as well as limiting the displacement of the fire extinguishing tank.

The object of the present invention is not limited to the above-mentioned object, and although not mentioned, other objects according to the following means or specific configurations on the embodiments will be clearly understood by those skilled in the art from the description. .

In order to achieve the above object, the present invention provides a base (B) for supporting the digestion tank (W) and the earthquake-resistant portion 200 is provided on the bottom of the base (B) and disposed on the ground structure (G), and It is provided between the base (B) and the ground structure (G) to provide an earthquake resistance device of the fire fighting tank comprising a displacement limiting portion 100 for limiting the displacement of the base (B).

In the above, the displacement limiting part 100 includes a first fixing plate 110 fixed to one side of the base (B), and a second fixing plate 120 fixed to one side of the ground structure (G), A first bearing part housing 130-1 and a second bearing part housing 130-2 having a bearing part 400 therein are fixed to the first fixing plate 110 and the second fixing plate 120, respectively. The first shaft 140 is disposed in a horizontal direction in each of the bearing parts 400 provided in the first bearing part housing 130-1 and the second bearing part housing 130-2, respectively. The first shaft 140 is disposed in a direction in which the second shaft 150 is vertical and close to each other, and a connection part E is disposed between the second shafts 150, and the connection part E is the second shaft. It includes a connection bar 160 provided at each end of the shaft 150 and the elastic connection portion 170 provided between the pair of connection bar 160.

In the above description, the first bearing part housing 130-1 and the second bearing part housing 130-2 have the same structure and include a first housing 131 and a second housing 132 spaced apart from each other. A bearing part 400 is embedded in the side surfaces of the first housing 131 and the second housing 132 that face each other, and the second housing 132 has the first fixing plate 110 or the second fixing plate 120. It is fixed to).

The fixing pin 133 may further include a fixing pin 133 penetrating through the first housing 131 and the second housing 132 and fixed to the first fixing plate 110 or the second fixing plate 120.

In the above, the fixing pin 133 is provided with a pair of upper and lower pairs of the first housing 131 and the second housing 132, the lower portion of the first housing 131 and the second housing 132. The second shaft 150 rotates between a pair of fixing pins 133 provided.

In the above, the bearing 400 is disposed in the inner ring 420 and the outer ring 410, the central portion of the inner ring 420 in the circumferential direction and protrudes in the outer ring 410 direction and the inner ring 420 in the width direction The dividing wall 430 for dividing, a plurality of electric balls 440 provided on both sides of the dividing wall 430, a plurality of rollers 450 disposed on the dividing wall 430, and the transmission And a holding part 500 for supporting the ball 440, wherein the holding part 500 is formed with a plurality of openings 511 spaced apart in the longitudinal direction, and a holding part main body 510 having a plate shape, and And a holder 520 formed between the opening parts 511 and in contact with both sides of the electric ball 440 mounted to the opening part 511, and the electric ball 440 includes the plurality of opening parts 511. Is disposed across the opening portion 511 of the one, the elastic connection between the holder 520 of the opening portion 511 of the opening portion 511 in which the electric ball 440 is not disposed EB is installed, and insertion grooves 412 and 422 are formed in the outer ring 410 and the inner ring 420, respectively, and the holding unit body 510 is inserted therein.

The elastic connector EB includes an upper connector 530 and a lower connector 540 disposed in the height direction of the holder 520, and the upper connector 530 is formed within the holder 520. The first upper horizontal bar 531 and the second upper horizontal bar 532 of the elastic material disposed in the horizontal direction from the side and the shape is arranged on one side of the first upper horizontal bar 531 and cross each other A first upper cross bar 533 made of an elastic material and a second upper cross bar 534 which is disposed between the first upper cross bar 533 and the second upper horizontal bar 532 and cross each other and are made of an elastic material. And a first upper connection part 535 formed of an elastic material at an opposite side end of the first upper horizontal bar 531 and the first upper cross bar 533, and the second upper horizontal bar 532. ) And a fifth upper connection part 539 made of an elastic material is disposed at an opposite side end of the second upper cross bar 534. And a third upper connection part 537 made of an elastic material is disposed at opposite ends of the adjacent first upper cross bar 533 and the second upper cross bar 534, and the first upper cross bar 533. The second upper connection part 536 made of an elastic material is disposed at an intersection portion of the upper part, and the fourth upper connection part 538 made of an elastic material is disposed at an intersection part of the second upper cross bar 534, and the lower part The connection part 540 is disposed below the upper connection part 530 and is disposed in the opposite holder 520 and is disposed intimately within the first lower cross bar 541, the second lower cross bar 542, and the third lower cross bar 542. A first lower connecting portion 544 made of an elastic material is disposed at an intersection portion of the first lower crossing bar 541 and an intersection portion of the second lower crossing bar 542. In the intersecting portion of the third lower connecting portion 546 and the third lower cross bar 543 made of an elastic material A fifth lower connection part 548 made of an elastic material is disposed, and the second lower connection part 545 made of an elastic material and the second lower connection bar 541 and the second lower cross bar 542 opposite to each other are disposed at opposite ends thereof. A fourth lower connection part 547, which is made of an elastic material, is disposed at the opposite end of the second lower cross bar 542 and the third lower cross bar 543.

In the above description, the first upper connection part 535 and the first lower connection part 544 are disposed on the same line, and the second upper connection part 536 and the second lower connection part 545 are disposed on the same line. The third upper connection part 537 has the third lower connection part 546 disposed on the same line, and the fourth upper connection part 538 has the fourth lower connection part 547 disposed on the same line, and the fifth upper connection part 539, the fifth lower connection part 548 is disposed on the same line, and an upper and lower connection part 550 is disposed between the upper connection part 530 and the lower connection part 540, and the upper and lower connection part 550 has a cylindrical shape. The upper connecting portion 530 and the lower connecting portion 540 are installed through.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, the terms or words used in this specification and claims are not to be interpreted in a conventional and dictionary sense, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be noted that the technical terms used in the present specification based on the principle of the present invention are merely used to describe certain embodiments, and are not intended to limit the present invention.

In addition, the technical terms used in the present specification should be interpreted as meanings generally understood by those skilled in the art to which the present invention belongs, unless specifically defined otherwise in the present specification, and excessively comprehensive It should not be construed in meaning or in excessively reduced sense.

Also, the singular forms used herein include the plural forms unless the context indicates otherwise. In the present application, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or some steps It should not be included or should be construed to include additional components or steps and should be interpreted as meanings and concepts consistent with the technical idea.

According to the present invention, even if an earthquake occurs, the shaking displacement of the digestion tank is limited to provide an excellent seismic performance.

1 is a schematic view of an earthquake resistant device of a fire fighting tank according to an embodiment of the present invention, which is a partially enlarged view of a front side and a partially enlarged view of a side surface.
Figure 2 is a side view of the seismic device of the digestion tank according to an embodiment of the present invention,
3 is a schematic diagram illustrating an operation relationship between a bearing housing, a first shaft, and a second shaft of a seismic device of a fire fighting tank according to an embodiment of the present invention;
Figure 4 is a schematic diagram illustrating that the rotational displacement is limited by the seismic device of the fire fighting tank according to an embodiment of the present invention,
5 is a sectional perspective view of the bearing portion of the seismic device of the fire fighting pipe according to the embodiment of the present invention;
6 is a perspective view showing a holding part of the bearing part according to an embodiment of the present invention;
7 to 9 are perspective views showing the elastic connection portion of the bearing portion according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be made based on the contents throughout the present specification. Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention but merely illustrative of the components set forth in the claims of the present invention, which are included in the technical spirit throughout the specification of the present invention and constitute the claims Embodiments that include a substitutable component as an equivalent in the element may be included in the scope of the present invention.

Earthquake resistance device 10 of the fire fighting pipe according to an embodiment of the present invention is provided on the base (B) and the lower side of the base (B) for supporting the digestion tank (W) as shown in Figure 1 to 3 An earthquake-resistant part 200 disposed on the ground structure G, and a displacement limiting part 100 installed between the base B and the ground structure G to limit movement displacement of the base B. do.

The ground structure G may use a structure implemented by using concrete on the ground. In addition, as shown in FIG. 1, a concrete foundation G1 may be formed on the ground structure G to be spaced apart from each other. The seismic unit 200 may be installed on the concrete foundation G1.

The seismic part 200 may be used as long as it is installed on the concrete foundation G1 or the ground structure G so as to absorb the impact of the base B. For example, as illustrated in FIG. 1, the seismic unit 200 has a lower fixing plate 210 provided on the bottom surface of the base B and a lower portion provided on the concrete foundation G1 or the ground structure G. The fixing plate 220 and the upper fixing plate 210 and the lower fixing plate 220 may be provided between the elastic portion 230 using a spring or the like. The earthquake-resistant part 200 can absorb the shock applied to the base (B) when the earthquake occurs.

Rotational displacement of the digestion tank (W) is limited by the displacement limiting portion 100 of the present invention. The displacement limiting part 100 includes a first fixing plate 110 fixed to one side of the base B, and a second fixing plate 120 fixed to one side of the ground structure G or the concrete foundation G1. It includes. The first fixing plate 110 may have a plate shape and may be fixed to one side of the base (B). The second fixing plate 120 may also have a plate shape and may be fixed to one side of the ground structure G or the concrete foundation G1.

A first bearing part housing 130-1 and a second bearing part housing 130-2 having a bearing part 400 therein are fixed to the first fixing plate 110 and the second fixing plate 120, respectively. The first shaft 140 is disposed in the horizontal direction in each of the bearing parts 400 provided in the first bearing part housing 130-1 and the second bearing part housing 130-2.

The second shaft 150 is disposed in each of the first shafts 140 in a direction perpendicular to each other. That is, a first bearing part housing 130-1 and a second bearing part housing 130-2 are fixed to the first fixing plate 110 and the second fixing plate 120, respectively. A first shaft 140 disposed in the horizontal direction is provided in the first bearing part 130-1 and the second bearing part 130-2, respectively. Second shafts 150 are disposed between the first shafts 140 in the vertical direction, and the second shafts 150 extend in mutually opposite directions.

A connecting portion E is disposed between the second shaft 150, and the connecting portion E is a connecting bar 160 and a pair of connecting bars 260 provided at ends of the second shaft 150, respectively. It includes an elastic connecting portion 170 provided between.

The first bearing part housing 130-1 and the second bearing part housing 130-2 have the same structure and include a first housing 131 and a second housing 132 spaced apart from each other.

The bearing 400 is buried in the side surfaces of the first housing 131 and the second housing 132 that face each other. 2, the first housing 131 is disposed at the left side of the drawing, the second housing 132 is disposed at the right side of the drawing, and the second housing 132 has the first fixing plate 110. Or fixed to the second fixing plate 120. The bearing 400 is buried in the right side of the drawing of the first housing 131, and the bearing 400 is buried in the left side of the drawing of the second housing 132. The first shaft 140 is disposed between the pair of bearing parts 400, and the second shaft 150 is disposed between the first shaft 140 and connected between the second shafts 150. Bar 160 and elastic connection 170 is disposed.

The fixing pin 133 penetrates through the first housing 131 and the second housing 132 and is fixed to the first fixing plate 110 or the second fixing plate 120. That is, the fixing pin (1) to fix the first housing 131 and the second housing 132 to each other, and to fix the second housing 132 to the first fixing plate 110 or the second fixing plate 120. 133 is penetrated.

As shown in FIG. 3, the fixing pin 133 is provided with a pair of upper and lower portions of the first housing 131 and the second housing 132. At this time, the second shaft 150 is rotated between the pair of fixing pins 133 provided on the lower portion of the first housing 131 and the second housing 132. That is, the first housing 131 and the second housing 132 are spaced apart at a predetermined interval and the first housing 131 and the second housing 132 are fixed to each other by the fixing pin 133. . The fixing pin 133 is a pair of upper fixing pins 133-1 and the first housing 131 and the second housing provided on the upper side of the first housing 131 and the second housing 132. 132 is composed of a pair of lower fixing pins (133-2) provided on the lower side. At this time, the first shaft 140 rotates between the bearing parts 400 and the second shaft 150 rotates in association with the rotation of the first shaft 140.

In the case of the first bearing part housing 130-1 fixed to the first fixing plate 110, the second shaft 150 rotates between the lower fixing plates 133-2 and is fixed to the second fixing plate 120. In the case of the Dean second bearing portion 130-2, the second shaft 9150 rotates between the upper fixing plates 133-1.

That is, as shown in FIG. 1, a first bearing part housing 130-1 is installed in the first fixing plate 110, and a bearing part 400 is provided in the first bearing part housing 130-1. . The first shaft 140 is rotatably provided in the bearing unit 400, and the second shaft 150 is connected to the first shaft 140.

In addition, the second fixing plate 120 is installed at one side of the fixing bar 100, and the second bearing plate housing 130-2 is installed at the second fixing plate 120. A bearing part 400 is provided in the two bearing part housing 130-2 to install a first shaft 140 and a second shaft 150.

In this case, as described above, the connection bar 160 is provided between the second shafts 150, and the elastic connection unit 170 is provided between the connection bars 160. By this configuration, the rotational displacement of the fixed bar 200 is limited, which will be described with reference to FIG. 4.

As shown in FIG. 4, when the base B is shaken in the left and right directions due to an earthquake or the like, the distance between the first fixing plate 110 and the second fixing plate 120 increases. As the distance increases, the distance between the connection bars 160 as shown in FIG. 2 increases, which is absorbed while the elastic connection 170 is tensioned.

However, since the tensile displacement of the elastic connector 170 is limited, the horizontal movement distance of the base B is limited, and as a result, the displacement of the base B generated during an earthquake is limited.

As shown in FIGS. 5 to 9, the bearing 400 has a well-known inner ring 420 and an outer ring 410, and is disposed in the circumferential direction at the center of the inner ring 420 and protrudes in the outer ring 410 direction. And a dividing wall 430 dividing the inner ring 420 in a width direction. A plurality of electric balls 440 are disposed on both sides of the separation wall 430, and a plurality of rollers 450 disposed on the separation wall 430 are disposed. The load acting on the ball screw 220 is supported by the electric ball 440 and the roller 450. Since the structure itself is described in detail in Korean Patent Registration No. 10-1413040, the description of the structure itself is omitted.

However, the present invention includes a holding unit 500 for supporting the electric ball 440. The holding part 500 is formed between a plurality of opening parts 511 spaced apart from each other in the longitudinal direction, and is formed between the holding part main body 510 having a plate shape and the opening part 511, and formed in the opening part 511. Includes a holder 520 that both sides of the electric ball 440 is mounted.

That is, the holding part body 510 of the elastic material has a thin thickness and is formed with a plurality of openings 511 spaced apart in the longitudinal direction. Holders 520 are disposed at both sides of the opening part 511, respectively. The holder 520 is plate-shaped and both sides are formed concave to closely contact the electric ball 440 to be described later.

The electric ball 440 is disposed across one of the openings 511 of the plurality of openings 511. That is, the electric ball 440 is installed by filtering one opening (511). Therefore, an elastic connection part EB is installed between the holders 520 of the open part 511 in which the electric ball 440 is not disposed.

Meanwhile, insertion grooves 412 and 422 are formed in the outer ring 410 and the inner ring 420, respectively, and the holder body 510 is inserted therein. The insertion grooves 412 and 422 are formed in the thickness direction of the outer ring 410 and the inner ring 420 so that the holder main body 510 is inserted.

As shown in FIG. 6, the retainer main body 510 has an arc shape and is disposed on the outer ring 410 and the inner ring 420. For this purpose, the lower side 510A of the retainer main body 510 has an inner ring ( It is inserted into the insertion groove 422 of the 420 and the upper portion (510B) of the holding portion main body 510 is inserted into the insertion groove 411 of the outer ring 410.

The holding unit body 510 is installed on the outer ring 410 and the inner ring 420 and is stably fixed.

 The elastic connection part EB includes an upper connection part 530 and a lower connection part 540 disposed in the height direction of the holder 520.

The upper connection part 530 may include a first upper horizontal bar 531 and a second upper horizontal bar 532 of an elastic material disposed in a horizontal direction on the inner side of the holder 520 facing each other, and the first upper horizontal part. A first upper cross bar 533 disposed on one side of the bar 531 and intersecting with each other and formed of an elastic material, and disposed between the first upper cross bar 533 and the second upper horizontal bar 532. And a second upper cross bar 534 which is a shape that crosses each other and is an elastic material.

That is, the first upper horizontal bar 531 and the second upper horizontal bar 532 are disposed in a horizontal direction and intersect a first upper portion between the first upper horizontal bar 531 and the second upper horizontal bar 532. Bars 533 and second upper cross bars 534 are disposed in succession.

The first upper connection part 535, which is made of an elastic material, is disposed at an opposite side end of the first upper horizontal bar 531 and the first upper cross bar 533. The first upper connection part 535 may have a spherical shape or a cylindrical shape, for example, and the first upper horizontal bar 531 and the first upper cross bar 533 may be inserted into the first upper connection part 535.

In addition, a fifth upper connection part 539 made of an elastic material is disposed at the opposite side end of the second upper horizontal bar 532 and the second upper cross bar 534.

In addition, a third upper connection part 537 made of an elastic material is disposed at an opposite side end of the adjacent first upper cross bar 533 and the second upper cross bar 534.

In addition, a second upper connection portion 536 made of an elastic material is disposed at an intersection portion of the first upper cross bar 533, and a fourth upper portion made of an elastic material at an intersection portion of the second upper cross bar 534. The connecting portion 538 is disposed.

The lower connection part 540 is disposed below the upper connection part 530 and is disposed in the opposite holder 520 and is disposed intimately within the first lower cross bar 541 and the second lower cross bar 542. A third lower cross bar 543.

A first lower connecting portion 544 made of an elastic material is disposed at an intersection portion of the first lower cross bar 541, and a third lower connecting portion 546 made of an elastic material at an intersection portion of the second lower cross bar 542. ) And a fifth lower connection part 548 made of an elastic material are disposed at an intersection portion of the third lower cross bar 543.

Opposite side ends of the first lower cross bar 541 and the second lower cross bar 542 include a second lower connection part 545 made of an elastic material, the second lower cross bar 542, and a third lower cross bar ( The fourth lower connection portion 547, which is an elastic material, is disposed at the opposite end of the 543.

The upper connection part 530 and the lower connection part 540 may absorb the force acting in the direction in which the holder 520 is proximate or away from each other. In addition, the upper connection part 530 and the lower connection part 540 absorb the force acting on the holder 520 in various directions. By this elastic connection (EB) it can be made to operate the electric ball 440 stably.

Meanwhile, as illustrated in FIG. 8, the first upper connecting portion 535 and the first lower connecting portion 544 are disposed in the vertical direction and disposed on the same line I. As illustrated in FIG. In addition, the second upper connecting portion 536 and the second lower connecting portion 545 are arranged on the same line II, and the third upper connecting portion 537 is the third lower connecting portion 546 on the same line III. The fourth upper connection part 538 is disposed on the same line IV as the fourth lower connection part 547, and the fifth lower connection part 539 is arranged on the same line IV. V) is arranged.

As shown in FIG. 9, an upper and lower connection part 550 is disposed between the upper connection part 530 and the lower connection part 540. The upper and lower connecting portions 550 are cylindrical in shape, and the upper connecting portion 530 and the lower connecting portion 540 are installed through. At this time, the upper and lower connecting portion 550 includes a pair of connecting portion main body 551 spaced apart from each other, and the elastic connecting portion 532 disposed between the wing connecting portion main body 551.

By this configuration, the force acting in the vertical direction of the holder 520 is absorbed, thereby achieving stable operation of the bearing part.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can realize that the present invention can be carried out in other specific forms without changing the technical spirit or essential features. I can understand.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention described in the above detailed description is represented by the following claims, and the meanings of the claims and All changes or modifications derived from the scope and equivalent concepts thereof should be construed as being included in the scope of the present invention.

100: displacement limiting unit 110: first fixing plate
120: second fixing plate 130: bearing part housing
140: first shaft 150: second shaft
160: connection bar 170: elastic connection
200: seismic resistance 210: upper fixing plate
220: lower fixing plate 230: elastic portion
400: bearing part 410: inner ring
420: outer ring 430: dividing wall
440: electric ball 450: roller
500: holding unit 510: holding unit main body
520: holder 530: upper connection
540: lower connection

Claims (8)

A base B supporting the fire extinguishing tank W, and an earthquake-resistant part 200 provided below the base B and disposed on the ground structure G, and the base B and the ground structure G. It is installed between the displacement limiting portion 100 for limiting the displacement of the base (B),
The displacement limiting part 100 includes a first fixing plate 110 fixed to one side of the base B, and a second fixing plate 120 fixed to one side of the ground structure G. The first bearing part housing 130-1 and the second bearing part housing 130-2 having the bearing part 400 therein are fixed to the fixing plate 110 and the second fixing plate 120, respectively. The first shaft 140 is disposed in a horizontal direction in each of the bearing parts 400 provided in the first bearing part housing 130-1 and the second bearing part housing 130-2, respectively. The second shaft 150 is disposed in a vertical direction and close to each other, and a connecting portion E is disposed between the second shafts 150, and the connecting portion E is the second shaft 150. It includes an elastic connecting portion 170 provided between the connection bar 160 and the pair of connection bar 160 provided at each end of the),
The first bearing part housing 130-1 and the second bearing part housing 130-2 have the same structure and include a first housing 131 and a second housing 132 spaced apart from each other, and the first housing. The bearing parts 400 are embedded in the side surfaces of the 131 and the second housing 132 that face each other, and the second housing 132 is fixed to the first fixing plate 110 or the second fixing plate 120. ,
And a fixing pin 133 penetrating through the first housing 131 and the second housing 132 and fixed to the first fixing plate 110 or the second fixing plate 120.
The fixing pin 133 is provided with a pair of upper and lower portions of the first housing 131 and the second housing 132,
An earthquake resistant device of a fire fighting tank in which the second shaft (150) rotates between a pair of fixing pins (133) provided at a lower portion of the first housing (131) and the second housing (132). delete delete delete delete The method of claim 1,
The bearing portion 400 is disposed in the inner ring 420 and the outer ring 410, the center portion of the inner ring 420 in the circumferential direction and protruding in the outer ring 410 direction to separate the inner ring 420 in the width direction Wall 430, a plurality of electric balls 440 provided on both sides of the separation wall 430, a plurality of rollers 450 disposed on the separation wall 430, and the electric ball 440 Including a holding unit 500 for supporting,
The holding part 500 is formed between a plurality of opening parts 511 spaced apart from each other in the longitudinal direction, and is formed between the holding part main body 510 having a plate shape and the opening part 511, and formed in the opening part 511. Includes a holder 520 that both sides of the electric ball 440 is mounted,
The electric ball 440 is disposed across one opening 511 of the plurality of openings 511,
An elastic connection part EB is installed between the holders 520 of the opening part 511 in which the electric ball 440 is not disposed.
The outer ring 410 and the inner ring 420, the insertion grooves (412, 422) are formed, respectively, the earthquake resistance device of the fire fighting tank is inserted into the holding body (510). The method of claim 6,
The elastic connecting portion EB includes an upper connecting portion 530 and a lower connecting portion 540 disposed in the height direction of the holder 520,
The upper connection part 530 may include a first upper horizontal bar 531 and a second upper horizontal bar 532 of an elastic material disposed in a horizontal direction on the inner side of the holder 520 facing each other, and the first upper horizontal part. A first upper cross bar 533 disposed on one side of the bar 531 and intersecting with each other and formed of an elastic material, and disposed between the first upper cross bar 533 and the second upper horizontal bar 532. And a second upper cross bar 534 of a shape that crosses each other and is made of an elastic material,
An elastic first upper connection part 535 is disposed at an opposite side end of the first upper horizontal bar 531 and the first upper cross bar 533, and the second upper horizontal bar 532 and the second upper part are disposed. A fifth upper connection part 539 made of an elastic material is disposed at an opposite side end of the cross bar 534, and an elastic part is disposed at an opposite side end of the adjacent first upper cross bar 533 and the second upper cross bar 534. A third upper connecting portion 537 made of a material is disposed, and a second upper connecting portion 536 made of an elastic material is disposed at an intersection portion of the first upper crossing bar 533, and the second upper crossing bar 534. The fourth upper portion connecting portion 538 of the elastic material is disposed at the intersection of the
The lower connection part 540 is disposed below the upper connection part 530 and is disposed in the opposite holder 520 and is disposed intimately within the first lower cross bar 541 and the second lower cross bar 542. A third lower cross bar 543;
A first lower connecting portion 544 made of an elastic material is disposed at an intersection portion of the first lower cross bar 541, and a third lower connecting portion 546 made of an elastic material at an intersection portion of the second lower cross bar 542. ) And a fifth lower connection part 548 made of an elastic material is disposed at an intersection portion of the third lower intersection bar 543,
Opposite side ends of the first lower cross bar 541 and the second lower cross bar 542 include a second lower connection part 545 made of an elastic material, the second lower cross bar 542, and a third lower cross bar ( 543) the earthquake resistance device of the digestion tank is disposed on the opposite side end of the fourth connection portion 547 of the elastic material. The method of claim 7, wherein
The first upper connecting portion 535 and the first lower connecting portion 544 are arranged on the same line,
The second upper connection part 536 and the second lower connection part 545 are arranged on the same line,
The third upper connector 537 is the third lower connector 546 is arranged on the same line,
The fourth upper connector 538 is the fourth lower connector 547 is arranged on the same line,
The fifth upper connector 539 is the fifth lower connector 548 is arranged on the same line,
An upper and lower connection part 550 is disposed between the upper connection part 530 and the lower connection part 540.
The upper and lower connecting portion 550 is a cylindrical shape, the seismic tank of the fire fighting tank is installed through the upper connecting portion 530 and the lower connecting portion 540.

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