CN212374019U - High strength combined material subassembly of combatting earthquake - Google Patents

Abstract

The utility model discloses a high strength combined material subassembly of combatting earthquake, which comprises a plate material, the surface of panel is equipped with bearing structure, bearing structure's quantity is two, bearing structure's outer wall is equipped with the lantern ring, the inner wall of the lantern ring runs through there is the couple, the side fixed assembly of couple has first diaphragm, the blind hole has been seted up to the side of first diaphragm, the inner wall of blind hole is pegged graft and is had the second diaphragm, second diaphragm and another bearing structure fixed assembly. Through being located the bearing structure on the surface of panel, reach and support between the panel, through laminating second panel to the roof on the surface, the roof receives to exert pressure to first spring after the pressure, reaches the antidetonation effect simultaneously under the elastic action of first spring, reaches the purpose of outrigger, makes more stability between two panels under the support of roof, avoids receiving the damage at the in-process panel of transportation, and practicality is strong, does benefit to the popularization.

Description

High strength combined material subassembly of combatting earthquake

Technical Field

The utility model relates to an antidetonation subassembly technical field, specific field is a high strength combined material subassembly of combatting earthquake.

Background

The composite material is a new material formed by optimizing and combining material components with different properties by applying an advanced material preparation technology, the composite material must be artificial and designed and manufactured according to the requirements, the composite material must be composed of two or more material components with different chemical and physical properties, the composite material is formed by combining the designed forms, proportions and distributions, obvious interfaces exist among the components, the composite material has the structural designability, can be designed into a composite structure, not only keeps the advantages of the material properties of the components, and the comprehensive performance which can not be achieved by a single composition material can be obtained through the complementation and the association of the performances of all the components, the high-strength composite material is made into the plate and applied to various fields, and the high-strength composite material plate can cause the damage of the plate under the action of vibration in the transportation process, so that the practical performance is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high strength combined material subassembly of combatting earthquake to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-strength composite material anti-seismic assembly comprises a plate, wherein the surface of the plate is provided with two supporting structures, the outer wall of each supporting structure is provided with a sleeve ring, the inner wall of each sleeve ring penetrates through a hook, a first transverse plate is fixedly assembled on the side surface of each hook, a blind hole is formed in the side surface of each first transverse plate, a second transverse plate is inserted into the inner wall of each blind hole and fixedly assembled with the other supporting structure, the surface of each first transverse plate is fixedly assembled with a chute, the inner wall of each chute is slidably clamped with a sliding block, the surface of each sliding block is hinged with one end of a first connecting rod, the other end of each first connecting rod is hinged with a top plate, the surface of each top plate is fixedly assembled with one end of a first spring, the other end of each first spring is fixedly assembled with a base, and the bases are tightly attached to the chutes, one side of the surface of the top plate, which is far away from the first connecting rod, is hinged with one end of a second connecting rod, and the other end of the second connecting rod is hinged with a second transverse plate.

Preferably, a nut is fixedly assembled on one side face, close to the plate, of the first transverse plate, a bolt is connected to the inner wall of the nut in a threaded mode, one end of the bolt is hinged to one end of an ejector rod, an inserting rod is fixedly assembled at the other end of the ejector rod, and a cushion block is fixedly assembled at the bottom end of the nut.

Preferably, bearing structure includes first kicking block, the surface of panel is laminated to first kicking block, the lantern ring fixed mounting is on the sleeve, the fixed surface of first kicking block is equipped with the one end of second spring, the fixed one end that is equipped with the montant of the other end of second spring, montant and second spring all are located the sleeve, the fixed second kicking block that is equipped with of the other end of montant.

Preferably, the surface of the top plate is fixedly provided with a rubber pad.

Preferably, the other end of the bolt is fixedly provided with a knob.

Preferably, the number of the lantern rings is at least four, and the lantern rings are uniformly distributed on the outer wall of the sleeve.

Compared with the prior art, the beneficial effects of the utility model are that: a high-strength composite material anti-seismic assembly is characterized in that a supporting structure is arranged on the surface of a plate to support the space between the plates, a hook is hung on a lantern ring to connect a first transverse plate and the supporting structure, a second transverse plate moves in a blind hole in the first transverse plate to move another supporting structure to a far position and approach the edge of the plate as far as possible, so that the plate is supported more stably, a second plate is attached to the surface of a top plate, the top plate applies pressure to a first spring after being pressed, the first spring elastically deforms due to the elastic property of the first spring, and meanwhile, the anti-seismic effect is achieved under the elastic effect of the first spring, the top plate can adjust the position according to the size of an actual plate, the application range is wide, the purpose of stable support is achieved, and the space between the two plates is more stable under the support of the top plate, avoid the in-process panel in the transportation to receive the damage, practicality is strong, does benefit to the popularization.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic sectional view of the front view of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

fig. 4 is a schematic structural diagram at B in fig. 2.

In the figure: 1-plate, 2-lantern ring, 3-hook, 4-first transverse plate, 5-blind hole, 6-second transverse plate, 7-sliding chute, 8-sliding block, 9-first connecting rod, 10-top plate, 11-rubber pad, 12-first spring, 13-base, 14-second connecting rod, 15-first top block, 16-sleeve, 17-second spring, 18-vertical rod, 19-second top block, 20-cushion block, 21-nut, 22-bolt, 23-knob, 24-ejector rod and 25-inserted rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a high-strength composite material anti-seismic assembly comprises a plate 1, wherein the surface of the plate 1 is provided with two supporting structures, the outer wall of each supporting structure is provided with a lantern ring 2, the inner wall of the lantern ring 2 is penetrated by a hook 3, the side surface of the hook 3 is fixedly provided with a first transverse plate 4, the side surface of the first transverse plate 4 is provided with a blind hole 5, the inner wall of the blind hole 5 is spliced with a second transverse plate 6, the second transverse plate 6 is fixedly assembled with another supporting structure, the surface of the first transverse plate 4 is fixedly provided with a chute 7, the inner wall of the chute 7 is slidably clamped with a sliding block 8, the surface of the sliding block 8 is hinged with one end of a first connecting rod 9, the other end of the first connecting rod 9 is hinged with a top plate 10, the surface of the top plate 10 is fixedly provided with one end of a first spring 12, the other end of the first spring, the side of the surface of the top plate 10 far away from the first connecting rod 9 is hinged with one end of a second connecting rod 14, and the other end of the second connecting rod 14 is hinged with the second transverse plate 6.

The plate 1 is made of high-strength composite material, in the process of transportation, a first plate 1 is placed on a transport vehicle, a supporting structure is positioned on the surface of the plate 1, a hook 3 is hung on a lantern ring 2, the first transverse plate 4 is connected with the supporting structure, the other supporting structure is moved to a far position and is close to the edge of the plate 1 as much as possible, a second transverse plate 6 moves in a blind hole 5 in the first transverse plate 4, the first transverse plate 4 drives a second connecting rod 14 to move in the moving process, the second connecting rod 14 starts to swing, a top plate 10 is pulled to move together, after the position of the supporting structure is adjusted, the second plate 1 is placed on the supporting structure, the supporting structure supports the plate 1 and can play a role in resisting vibration, the second plate 1 is attached to the surface of the top plate 10, the top plate 10 exerts pressure on a first spring 12 after being pressed, elastic deformation takes place for first spring 12 because of the elastic property of self, reach antidetonation effect simultaneously under first spring 12's elastic action, roof 10 removes the back, head rod 9 and second connecting rod 14 begin the swing, head rod 9 drives slider 8 and removes at the inner wall of spout 7 when the swing, pull base 13 and remove, make base 13 be located the below of roof 10, make more stability between two panel 1 under the support of roof 10, avoid the in-process panel in the transportation to receive the damage.

Specifically, a side face, close to the plate 1, of the first transverse plate 4 is fixedly provided with a nut 21, the inner wall of the nut 21 is in threaded connection with a bolt 22, one end of the bolt 22 is hinged to one end of a push rod 24, the other end of the push rod 24 is fixedly provided with an insert rod 25, and the bottom end of the nut 21 is fixedly provided with a cushion block 20.

Second diaphragm 6 can remove at the inner wall of blind hole 5, thereby adjust the distance between second diaphragm 6 and the first diaphragm 4, cushion 20 laminates to panel 1, rotate bolt 22, bolt 22 rotates at the inner wall of nut 21, bolt 22 drives ejector pin 24 and removes together in the pivoted process, ejector pin 24 drives inserted bar 25 and removes together at the in-process that removes, peg 25 pegs graft in blind hole 5 until inserted bar 25, inserted bar 25 is located the gap between second diaphragm 6 and the blind hole 5 this moment, restrict the position of second horizontal pole 6 in blind hole 5, cushion 20 supports the other end of first diaphragm 4 simultaneously, and the stability is improved.

Specifically, bearing structure includes first kicking block 15, and first kicking block 15 is laminated to the surface of panel 1, and lantern ring 2 fixed mounting is on sleeve 16, and the fixed surface of first kicking block 15 is equipped with the one end of second spring 17, and the fixed one end that is equipped with montant 18 of the other end of second spring 17, montant 18 and second spring 17 all are located sleeve 16, and the fixed second kicking block 19 that is equipped with of the other end of montant 18.

First kicking block 15 laminates the panel 1 that is located the below on the surface, second kicking block 19 laminates the second panel 1 that is located the top on the surface, exert pressure to second kicking block 19 under the effect of panel 1 gravity, second kicking block 19 promotes montant 18 and exerts pressure to second spring 17, elastic deformation takes place for the elastic property of second spring 17 because of self, second spring 17 is located sleeve 16, reach antidetonation effect under the elastic property effect of second spring 17, support between two panels 1 simultaneously.

Specifically, a rubber pad 11 is fixedly attached to the surface of the top plate 10.

The rubber pad 11 can increase the friction force on the surface of the top plate 10, thereby preventing the top plate 10 from sliding on the surface of the plate 1.

Specifically, the other end of the bolt 22 is fixedly fitted with a knob 23.

The knob 23 can increase the contact area with the bolt 22, and the bolt 22 can be conveniently rotated during use.

In particular, the number of collars 2 is at least four, and the collars 2 are evenly distributed on the outer wall of the sleeve 16.

Set up four lantern rings 2 simultaneously, can insert four couples 3 simultaneously, all have another bearing structure to cooperate the support on four directions around can guaranteeing bearing structure, can make a plurality of panel 1 more stable at the in-process of transportation.

The working principle is as follows: in the process of transporting the plate 1, a first plate 1 is placed on a transport vehicle, a supporting structure is positioned on the surface of the plate 1, a hook 3 is hung on a lantern ring 2, a first transverse plate 4 is connected with the supporting structure, the other supporting structure is moved to a far position and is close to the edge of the plate 1 as much as possible, a second transverse plate 6 moves in a blind hole 5 in the first transverse plate 4, the first transverse plate 4 drives a second connecting rod 14 to move in the moving process, the second connecting rod 14 starts to swing, a top plate 10 is pulled to move together, the second plate 1 is placed on the supporting structure after the position of the supporting structure is adjusted, the supporting structure can support the plate 1 and play a role in resisting shock, the second plate 1 is attached to the surface of the top plate 10, the top plate 10 exerts pressure on a first spring 12 after being pressed, elastic deformation takes place for first spring 12 because of the elastic property of self, reach antidetonation effect simultaneously under first spring 12's elastic action, roof 10 removes the back, head rod 9 and second connecting rod 14 begin the swing, head rod 9 drives slider 8 and removes at the inner wall of spout 7 when the swing, pull base 13 and remove, make base 13 be located the below of roof 10, make more stability between two panel 1 under the support of roof 10, avoid the in-process panel in the transportation to receive the damage.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and setting are equipped with and all adopt prior art, and conventional model is including circuit connection adopts conventional connection mode among the prior art, and the detail is not repeated here.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high strength combined material subassembly of combatting earthquake, includes panel (1), its characterized in that: the surface of the plate (1) is provided with two supporting structures, the outer wall of each supporting structure is provided with a sleeve ring (2), a hook (3) penetrates through the inner wall of each sleeve ring (2), a first transverse plate (4) is fixedly assembled on the side surface of each hook (3), a blind hole (5) is formed in the side surface of each first transverse plate (4), a second transverse plate (6) is inserted into the inner wall of each blind hole (5), the second transverse plate (6) is fixedly assembled with the other supporting structure, a sliding groove (7) is fixedly assembled on the surface of each first transverse plate (4), a sliding block (8) is connected to the inner wall of each sliding groove (7) in a sliding and clamping manner, the surface of each sliding block (8) is hinged and assembled with one end of a first connecting rod (9), the other end of each first connecting rod (9) is hinged and assembled with a top plate (10), and the surface of each top plate (10) is fixedly assembled with one end of a, the other end fixed mounting of first spring (12) has base (13), base (13) and spout (7) closely laminate, the articulated one end that is equipped with second connecting rod (14) of one side of first connecting rod (9) is kept away from on the surface of roof (10), the other end and the second diaphragm (6) of second connecting rod (14) are articulated mutually.

2. A high strength composite seismic assembly according to claim 1, wherein: a side face of the first transverse plate (4) close to the plate (1) is fixedly provided with a nut (21), the inner wall of the nut (21) is connected with a bolt (22) in a threaded mode, one end of the bolt (22) is hinged to one end of an ejector rod (24), the other end of the ejector rod (24) is fixedly provided with an insert rod (25), and the bottom end of the nut (21) is fixedly provided with a cushion block (20).

3. A high strength composite seismic assembly according to claim 1, wherein: the supporting structure comprises a first ejector block (15), the surface of panel (1) is laminated to first ejector block (15), lantern ring (2) fixed mounting is on sleeve (16), the fixed surface of first ejector block (15) is equipped with the one end of second spring (17), the fixed one end that is equipped with montant (18) of the other end of second spring (17), montant (18) and second spring (17) all are located sleeve (16), the fixed second ejector block (19) that is equipped with of the other end of montant (18).

4. A high strength composite seismic assembly according to claim 1, wherein: the surface of the top plate (10) is fixedly provided with a rubber pad (11).

5. A high strength composite seismic assembly according to claim 2, wherein: the other end of the bolt (22) is fixedly provided with a knob (23).

6. A high strength composite seismic assembly according to claim 1, wherein: the number of the lantern rings (2) is at least four, and the lantern rings (2) are uniformly distributed on the outer wall of the sleeve (16).

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