CN210686805U - Novel shock insulation square plate device - Google Patents

Abstract

The utility model relates to a novel shock insulation square plate device, which comprises a plurality of shock insulation square plates, an upper connecting piece and a lower connecting piece, wherein the upper connecting piece and the lower connecting piece are used for connecting the shock insulation square plates; the shock insulation square disc comprises an upper layer structural plate and a lower layer structural plate, an upper linear guide rail is arranged in the upper layer structural plate along the diagonal line of the upper layer structural plate, an upper sliding block is arranged on the upper linear guide rail, a lower linear guide rail is arranged in the lower layer structural plate along the diagonal line of the lower layer structural plate, a lower sliding block is arranged on the lower linear guide rail, the upper linear guide rail and the lower linear guide rail are vertically arranged, the upper sliding block is connected with the lower sliding block through a sliding block connecting plate, a first elastic recovery device is arranged on the sliding block connecting plate along the direction of the lower linear guide rail, a second elastic recovery device is arranged on the sliding block connecting plate along the direction of the upper linear guide rail, the novel shock insulation square disc applies an insulation shock insulation principle, the moving function of a bearing sliding block and.

Description

Novel shock insulation square plate device

Technical Field

The utility model discloses mainly be applied to accurate data rack, communication rack, control cabinet, the earthquake protection of valuable historical relic and large tracts of land wholeness utilizes the shock insulation principle to guarantee when the macroseism takes place that the protection object is not destroyed, and functional integrality obtains the guarantee

Background

Earthquakes are more frequent, and China is one of the most serious countries threatened by earthquake disasters. The national heavy equipment is the first to prevent disaster. In order to effectively protect the earthquake safety of important equipment and materials in various fields of various industries in areas threatened by earthquakes in China, scientific and effective earthquake protection measures need to be taken. Therefore, in order to improve the earthquake-resistant performance of such important equipment (such as precision data center cabinets, communication cabinets, precision equipment and the like) and materials (museum cultural relics, private collection cultural relics and the like), it is very necessary to take effective measures of shock absorption and shock insulation, protect and improve the disaster-prevention safety coefficient.

At present, the anti-seismic protection measures adopted for the equipment and materials in China mainly comprise spring supports, interlayer rubber supports and other traditional and inefficient methods, and the principles of the method are cycle extension, friction energy consumption and rigid limit, but the effect is poor. In the modern earthquake, the equipment adopting the traditional anti-seismic protection method still has larger vibration and lateral displacement, and particularly, under the action of a large earthquake, the equipment still receives larger acceleration and vibration and finally can be overturned and damaged. Meanwhile, the measures also have the problems of aging failure of materials, inconvenient installation and connection and the like; the more advanced shock absorption and isolation measures in foreign countries are to utilize the structural principle of spherical bearings to greatly prolong the motion period of objects, and to use gravity components as damping, the acceleration of equipment or objects can be reduced to a certain extent, the vibration of the equipment or objects caused by earthquakes is reduced, and the effect that the equipment or objects on a shock isolation platform only slightly shake when the earthquakes come is achieved, so that the safety of the equipment or objects is protected. However, practice shows that the more advanced foreign seismic isolation products such as seismic isolation platforms also have fatal defects. Because it is mostly made of steel structure, the cost is very high, the weight is very large, the construction and installation are also more complicated, the splicing property is very poor, the flexibility is very poor, and the stability is not good. In addition, when a large area needs to be subjected to overall shock insulation, no matter domestic products or foreign products can not achieve overall effective shock insulation, for example, a room fully loaded with data cabinets, as a great number of data electric cabinets and important electromechanical equipment are arranged in the room, the shock insulation of each equipment is independently carried out, so that the problems of installation, layout, wiring, attractiveness, poor integrity and the like can be caused. Generally, the floor of a room is considered to be subjected to overall shock insulation under the condition, so that the effects of better shock insulation effect, better integrity, attractiveness, more convenient construction and the like are achieved. However, the existing seismic isolation products on the market are more directed to the seismic isolation of single or multiple devices and articles, and no method is available for effectively and integrally isolating the whole room.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a technical scheme does: a novel shock insulation square plate device comprises a plurality of shock insulation square plates, an upper connecting piece and a lower connecting piece, wherein the upper connecting piece and the lower connecting piece are used for connecting the shock insulation square plates; the shock insulation square plate comprises an upper layer structural plate for placing articles needing shock insulation protection and a lower layer structural plate for fixing on the ground or a certain plane, wherein an upper linear guide rail is arranged in the upper layer structural plate along the diagonal line of the upper layer structural plate, an upper sliding block which is embedded with the two sides of the upper linear guide rail in a concave-convex manner and can freely slide on the upper linear guide rail is arranged on the upper linear guide rail, a lower linear guide rail is arranged in the lower layer structural plate along the diagonal line of the lower layer structural plate, a lower sliding block which is embedded with the two sides of the lower linear guide rail in a concave-convex manner and can freely slide on the lower linear guide rail is arranged on the lower linear guide rail, the upper linear guide rail and the lower linear guide rail are vertically arranged, the upper sliding block is connected with the lower sliding block through a sliding block connecting plate, a first elastic recovery device is arranged on the sliding block connecting plate along the direction of the lower linear guide rail, the, and the second elastic recovery device is connected with the inner wall of the lower-layer structural slab.

As an improvement, the upper linear guide rail and the lower linear guide rail are identical in structure, the upper linear guide rail comprises a rail and triangular mounting blocks arranged at two ends of the rail, and a plurality of rail mounting holes are formed in the rail.

As an improvement, the sliding block connecting plate is a polygonal connecting plate, and an elastic recovery device mounting hole is formed in the outer side of the sliding block connecting plate.

As an improvement, the first elastic recovery device and the second elastic recovery device have the same structure, the first elastic recovery device comprises elastic pieces arranged at two ends of a sliding block connecting plate, one end of each elastic piece is connected with the sliding block connecting plate through a connecting ring, the other end of each elastic piece is connected with a connecting piece through a connecting ring, and the connecting piece is provided with a fixing bolt connected with an upper-layer structural plate.

As an improvement, the upper-layer structural slab and the lower-layer structural slab are the same in structure, the upper-layer structural slab comprises a top plate and side plates circumferentially arranged on the lower portion of the top plate, and a plurality of upper connecting piece mounting holes are formed in the top plate and the side plates.

As the improvement, the roof middle part upwards still is equipped with the mounting panel, form the connecting piece installation cavity between the outer edge of mounting panel and the roof outer edge, go up the connecting piece and be connected with upper structure board through the installation of last connecting piece mounting hole.

As an improvement, the upper connecting piece comprises a narrow connecting plate and a wide connecting plate, the narrow connecting plate is arranged along the outer side of the shock insulation square disc, and the wide connecting plate is arranged along the splicing position of the adjacent shock insulation square discs.

As an improvement, the bottom of the lower-layer structural plate is also provided with a side fixing piece.

As an improvement, hollow holes are further formed in the upper layer structural plate and the lower layer structural plate.

After the structure more than adopting, the utility model has the advantages of as follows: this novel shock insulation square plate uses insulating shock insulation principle, and bearing slider's removal function, with spring damping's playback function, consumption earthquake are to the influence by the protected object, and the cycle of extension by the protected object simultaneously compares prior art, can reduce the displacement and the acceleration reaction that the earthquake caused to by the protected object more by a wide margin, has improved its shock insulation ability under large-scale earthquake effect. Meanwhile, the slider is embedded with the guide rail in a concave-convex manner, so that the product has stronger stability, the overturning resistance function is increased, and the vertical earthquake resistance effect is stronger. The product can be used independently or in combination to form a large-area shock insulation effect. Simple structure, stability is high, and the concatenation is convenient, and shock insulation performance is powerful.

Drawings

Fig. 1 is a schematic structural view of the novel shock insulation square plate device of the utility model.

Fig. 2 is the structural schematic diagram of a single shock insulation square plate in the novel shock insulation square plate device.

Figure 3 is the utility model relates to a novel shock insulation square plate device in the internal structure schematic diagram of shock insulation square plate.

Fig. 4 is a schematic view of the first application of the novel shock insulation square plate device of the present invention.

Fig. 5 is a schematic diagram of the application of the novel shock insulation square plate device of the present invention.

Fig. 6 is a third schematic view of the application of the novel shock insulation square plate device of the present invention.

As shown in the figure: 1. the shock insulation square plate comprises a shock insulation square plate body, 101, an upper layer structural plate body, 101a, a top plate body, 101b, side plates, 101c, a mounting plate body, 101d, hollowed holes, 102, a lower layer structural plate body, 2, an upper connecting piece, 201, a narrow connecting plate body, 202, a wide connecting plate body, 203, a side fixing piece, 3, an upper linear guide rail body, 301, a track, 302, a triangular mounting block, 4, an upper sliding block, 5, a lower linear guide rail body, 6, a lower sliding block, 7, a sliding block connecting plate body, 8, a first elastic recovery device, 801, an elastic piece, 802, a connecting ring, 803, a connecting piece, 804, a fixing bolt, 9 and a second elastic recovery device.

Detailed Description

With reference to the attached drawings 1-6, the novel shock insulation square plate device comprises a plurality of shock insulation square plates 1, and an upper connecting piece 2 and a lower connecting piece which are used for connecting the shock insulation square plates 1; the shock insulation square plate 1 comprises an upper layer structural plate 101 used for placing articles needing shock insulation protection and a lower layer structural plate 102 used for being fixed on the ground or a certain plane, an upper linear guide rail 3 is arranged in the upper layer structural plate 101 along the diagonal line of the upper layer structural plate, an upper sliding block 4 which is embedded with two sides of the upper linear guide rail 3 in a concave-convex manner and can freely slide on the upper linear guide rail 3 is arranged on the upper linear guide rail 3, a lower linear guide rail 5 is arranged in the lower layer structural plate 102 along the diagonal line of the lower layer structural plate, a lower sliding block 6 which is embedded with two sides of the lower linear guide rail 5 in a concave-convex manner and can freely slide on the lower linear guide rail 5 is arranged on the lower linear guide rail 5, the upper linear guide rail 3 is vertically arranged with the lower linear guide rail 5, the upper sliding block 4 is connected with the lower sliding block 6 through a sliding block connecting plate, the first elastic recovery device 8 is connected with the inner wall of the upper-layer structural slab 101, the slider connecting plate 7 is provided with a second elastic recovery device 9 along the direction of the upper linear guide rail 3, and the second elastic recovery device 9 is connected with the inner wall of the lower-layer structural slab 102.

As a preferred embodiment of this embodiment, the upper linear guide 3 and the lower linear guide 5 have the same structure, the upper linear guide 3 includes a rail 301 and triangular mounting blocks 302 disposed at two ends of the rail 301, and the rail 301 is further provided with a plurality of rail mounting holes.

As a preferred embodiment of this embodiment, the slider connecting plate 7 is a polygonal connecting plate, and the outer side 7 of the slider connecting plate is provided with an elastic recovery device mounting hole.

As a preferred embodiment of this embodiment, the first elastic recovery device 8 and the second elastic recovery device 9 have the same structure, the first elastic recovery device 8 includes elastic members 801 disposed at two ends of the slider connecting plate 7, one end of each elastic member 801 is connected to the slider connecting plate 7 through a connecting ring 802, the other end of each elastic member 801 is connected to a connecting plate 803 through a connecting ring 802, and the connecting plate 803 is provided with a fixing bolt 804 connected to the upper layer structure plate 101.

As a preferred embodiment of this embodiment, the upper-layer structural plate 101 and the lower-layer structural plate 102 have the same structure, the upper-layer structural plate 101 includes a top plate 101a and a side plate 101b circumferentially disposed at a lower portion of the top plate 101a, and the top plate 101a and the side plate 101b are provided with a plurality of upper connecting member mounting holes.

As a preferred embodiment of this embodiment, a mounting plate 101c is further disposed upward in the middle of the top plate 101a, an upper connector mounting cavity is formed between the outer edge of the mounting plate 101c and the outer edge of the top plate 101a, and the upper connector 2 is mounted and connected to the upper structural plate 101 through an upper connector mounting hole.

As a preferred embodiment of this embodiment, the upper connecting member 2 includes a narrow connecting plate 201 and a wide connecting plate 202, the narrow connecting plate 201 is disposed along the outer side of the seismic isolation square disc 1, and the wide connecting plate 202 is disposed along the joint of adjacent seismic isolation square discs 1.

As a preferred embodiment of this embodiment, the bottom of the lower structural plate 102 is further provided with a side fixing member 203.

As a preferred embodiment of this embodiment, the upper layer structural plate 101 and the lower layer structural plate 102 are further provided with a hollow hole 101 d.

The utility model discloses when concrete implementation, upper strata structural slab 101 and lower floor's structural slab 102 are because be connected with between them and each other become 90 degrees last linear guide 3 of relation, linear guide 5 down, and corresponding first elastic recovery device 8, second elastic recovery device 9, come temporarily at the earthquake, because lower floor's structural slab 102 is fixed in ground, will remove along with ground vibrations, because mutually perpendicular linear guide's relation, 360 degrees relative motion within ranges will take place for upper strata structural slab 101 and lower floor's structural slab 102, simultaneously because skew primary position, first elastic recovery device 8, second elastic recovery device 9 can pull back primary position gradually with it. In the process, because the upper structural plate 101 and the lower structural plate 102 generate relative displacement, the first elastic recovery device 8 and the second elastic recovery device 9 consume the influence of an earthquake on the protected object, and simultaneously prolong the period of the protected object, so that the displacement and acceleration reaction of the earthquake on the protected object can be greatly reduced, and the acceleration transmitted from the ground to the upper structural plate 101 is correspondingly reduced, so that articles placed on the upper structural plate 101 can feel the change of the rapid acceleration transmitted from the ground to a lesser extent, the instant overturning, overturning and internal damage are avoided, and the protection effect is obtained.

In the present application, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may include, for example, fixed connections, detachable connections, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly but via another feature. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the first feature.

Claims (9)

1. The utility model provides a novel shock insulation square plate device which characterized in that: the shock insulation square plate comprises a plurality of shock insulation square plates, and an upper connecting piece and a lower connecting piece which are used for connecting the shock insulation square plates; the shock insulation square plate comprises an upper layer structural plate for placing articles needing shock insulation protection and a lower layer structural plate for fixing on the ground or a certain plane, wherein an upper linear guide rail is arranged in the upper layer structural plate along the diagonal line of the upper layer structural plate, an upper sliding block which is embedded with the two sides of the upper linear guide rail in a concave-convex manner and can freely slide on the upper linear guide rail is arranged on the upper linear guide rail, a lower linear guide rail is arranged in the lower layer structural plate along the diagonal line of the lower layer structural plate, a lower sliding block which is embedded with the two sides of the lower linear guide rail in a concave-convex manner and can freely slide on the lower linear guide rail is arranged on the lower linear guide rail, the upper linear guide rail and the lower linear guide rail are vertically arranged, the upper sliding block is connected with the lower sliding block through a sliding block connecting plate, a first elastic recovery device is arranged on the sliding block connecting plate along the direction of the lower linear guide rail, the, and the second elastic recovery device is connected with the inner wall of the lower-layer structural slab.

2. A novel square plate shock insulation device according to claim 1, wherein: the upper linear guide rail and the lower linear guide rail are identical in structure, the upper linear guide rail comprises a rail and triangular mounting blocks arranged at two ends of the rail, and a plurality of rail mounting holes are formed in the rail.

3. A novel square plate shock insulation device according to claim 1, wherein: the slider connecting plate is a polygonal connecting plate, and an elastic recovery device mounting hole is formed in the outer side of the slider connecting plate.

4. A novel square plate shock insulation device according to claim 1, wherein: the first elastic recovery device and the second elastic recovery device are identical in structure, the first elastic recovery device comprises elastic pieces arranged at two ends of a sliding block connecting plate, one end of each elastic piece is connected with the sliding block connecting plate through a connecting ring, the other end of each elastic piece is connected with a connecting piece through a connecting ring, and a fixing bolt connected with an upper-layer structural plate is arranged on each connecting piece.

5. A novel square plate shock insulation device according to claim 1, wherein: the upper structure board is the same as the lower structure board in structure, the upper structure board comprises a top board and side boards circumferentially arranged on the lower portion of the top board, and a plurality of upper connecting piece mounting holes are formed in the top board and the side boards.

6. A novel shock insulation square plate device according to claim 5, characterized in that: the roof middle part upwards still is equipped with the mounting panel, form the connecting piece installation cavity between the outer edge of mounting panel and the roof outer edge, it is connected with upper structure board through the installation of upper connector mounting hole to go up the connecting piece.

7. A novel shock insulation square plate device according to claim 6, characterized in that: the upper connecting piece comprises a narrow connecting plate and a wide connecting plate, the narrow connecting plate is arranged along the outer side of the shock insulation square disc, and the wide connecting plate is arranged along the splicing position of the adjacent shock insulation square discs.

8. A novel square plate shock insulation device according to claim 1, wherein: and the bottom of the lower-layer structural slab is also provided with a side fixing piece.

9. A novel square plate shock insulation device according to claim 1, wherein: and hollow holes are also formed in the upper layer structural plate and the lower layer structural plate.

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