CN208329258U - A kind of wall that shock resistance is strong - Google Patents

Abstract

The utility model provides a kind of wall that shock resistance is strong, is related to technical field of buildings.The strong wall of the shock resistance, including framework, the inside of the framework is filled with buffering cotton, the two sides of framework inner wall bottom and top are welded with buffering plate, two buffering plate sides close to each other are plugged with upright bar, the middle part of two upright bars offers hole slot, is welded with fixed block at the top of the hole slot inner wall of side upright bar, the fixed block is connected with mobile bar far from the side of upright bar.The strong wall of the shock resistance, pass through the cooperation between pedestal, first connecting rod and buffer spring, when framework rolls, there can be opposite power to go to resist, increase the shock resistance of framework, by the cooperation between support rod, the second connecting rod, second spring, chute of base and fixed link, when framework is when rocking back and forth, there is the power of buffering to go to offset the power that framework rolls, reduces the probability to collapse.

Description

A kind of wall that shock resistance is strong

Technical field

The utility model relates to technical field of buildings, specially a kind of wall that shock resistance is strong.

Background technique

Wall mainly includes load bearing wall and non-load bearing wall, mainly plays a part of to go along with sb. to guard him, compartment wall bearing construction is built Wall, load-bearing and go along with sb. to guard him unification, the effect of skeleton structure building wall be go along with sb. to guard him with the type of compartment wall compared with It is more, have the wall of homogenous material, have the wall of composite material comprehensively consider go along with sb. to guard him, load-bearing, energy conservation, the factors such as beauty, design closes The wall scheme of reason is the vital task of architectural construction.

Common wall is all to use cement mortar, and one piece of brick is bonded together with brick up and down, although and being formed One firm wall, but rocked back and forth when earthquake several times, it will fall apart.The bonding of the framework of wall and beam column connects It disconnects, the bonding connection of wall interiors brick and brick also will disconnect, and just directly contribute ruining for house.Cause the injures and deaths of personnel.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of wall that shock resistance is strong, solves wall antidetonation The problem of performance difference.

(2) technical solution

In order to achieve the above object, the utility model is achieved by the following technical programs: a kind of wall that shock resistance is strong, Including framework, filled with buffering cotton, the two sides of framework inner wall bottom and top are welded with buffering for the inside of the framework Pedestal, two buffering plate sides close to each other are plugged with upright bar, and the middle part of two upright bars offers hole slot, side upright bar Hole slot inner wall at the top of be welded with fixed block, the fixed block is connected with mobile bar, the movement far from the side of upright bar The inside of bar offers sliding slot, and the side of the close upright bar of the sliding slot slidably connects sliding block, the top of the hole slot inner wall It is welded with telescopic rod with bottom, two telescopic rods side movable sleeve close to each other is connected to expansion box, the framework inner wall Two sides are welded with pedestal, and two pedestals side front close to each other is connected with first connecting rod by shaft, and two Side of the first connecting rod far from pedestal is flexibly connected with the side of upright bar respectively, and the pedestal is welded far from the side of framework inner wall It is connected to buffer spring, the framework is internally provided with the second connecting rod, and the surface of two the second connecting rods is fixedly attached respectively There are first gear and second gear, the first gear and second gear intermeshing, the bottom activity of second connecting rod It is connected with support rod, the inner wall bottom of the framework is respectively welded chute of base and fixed link, the fixed link and support rod Between be welded to each other second spring.

Preferably, two mobile bars are symmetrically set, and the side of the sliding block and the side of hole slot inner wall mutually overlap.

Preferably, side and expansion box of the buffer spring far from pedestal are welded to each other, the first connecting rod and vertical Bar is flexibly connected by shaft.

Preferably, second connecting rod is movably connected on the inner wall of framework by bearing block, the first gear and The mutually opposing rotation of second gear.

Preferably, the fixed link is located at the two sides of chute of base, the top of the chute of base and the bottom of support rod Mutually it is slidably connected.

Preferably, the quantity of the second spring is four, and the every two second spring is one group, two groups of second springs It is separately positioned on the two sides of support rod.

(3) beneficial effect

The utility model provides a kind of wall that shock resistance is strong.Have it is following the utility model has the advantages that

1, the strong wall of the shock resistance, by the cooperation between pedestal, first connecting rod and buffer spring, when framework or so When rocking, there can be opposite power to go to resist, increase the shock resistance of framework, pass through support rod, the second connecting rod, the second bullet Cooperation between spring, chute of base and fixed link has the power of buffering to go to offset framework and roll when framework is when rocking back and forth Power, reduce the probability to collapse, by between upright bar, hole slot, first gear, second gear, mobile bar, sliding block and fixed block Cooperation, makes first gear and the mutually opposing rotation of second gear, has reversed buffering, slows down pressure of the framework from top, Increase the shock strength of entire framework.

2, the strong wall of the shock resistance can have better cushion effect when sliding block is mobile by the setting of sliding slot, go to Pressure at the top of disappearing enables upright bar to increase in stress to framework inner wall by the buffering plate being arranged at the top and bottom of upright bar Forced area by the buffering cotton filled inside framework, so that framework is had better impact force, subtract to reduce pressure The vibration of small earthquake bring.

Detailed description of the invention

Fig. 1 is the utility model framework front section view；

Fig. 2 is the utility model mobile bar front view；

Fig. 3 is the utility model chute of base side view.

In figure: 1 framework, 2 buffering cottons, 3 buffering plates, 4 upright bars, 5 telescopic rods, 6 expansion boxs, 7 pedestals, 8 first connecting rods, 9 buffer springs, 10 hole slots, 11 mobile bars, 12 rack gears, 13 fixed blocks, 14 sliding slots, 15 sliding blocks, 16 first springs, 17 second connections Bar, 18 first gears, 19 second gears, 20 support rods, 21 chute of base, 22 fixed links, 23 second springs.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model embodiment provides a kind of wall that shock resistance is strong, as shown in Figure 1-3, include framework 1, framework 1 Inside enables framework 1 to have better impact force filled with buffering cotton 2 by the buffering cotton 2 filled inside framework 1, reduces ground Bring vibration is shaken, the two sides of 1 inner wall bottom and top of framework are welded with buffering plate 3, by setting at the top and bottom of upright bar 4 The buffering plate 3 set enables upright bar 4 to increase the forced area to 1 inner wall of framework in stress, to reduce pressure, two slow It rushes the side close to each other of pedestal 3 and is plugged with upright bar 4, the middle part of two upright bars 4 offers hole slot 10, the hole of side upright bar 4 It is welded with fixed block 13 at the top of 10 inner wall of slot, fixed block 13 is connected with mobile bar 11, two movements far from the side of upright bar 4 Bar 11 is symmetrically set, and the inside of mobile bar 11 offers sliding slot 14, and the side of the close upright bar 4 of sliding slot 14 slidably connects The side of sliding block 15,10 inner wall of side and hole slot of sliding block 15 mutually overlaps, through the setting of sliding slot 14, when sliding block 15 is mobile There can be better cushion effect, go the pressure for offsetting top, the top and bottom of 10 inner wall of hole slot are welded with telescopic rod 5, and two A telescopic rod 5 side movable sleeve close to each other is connected to expansion box 6, and the two sides of 1 inner wall of framework are welded with pedestal 7, two bottoms 7 side fronts close to each other of seat are connected with first connecting rod 8 by shaft, and two first connecting rods 8 are far from pedestal 7 Side is flexibly connected with the side of upright bar 4 respectively, and first connecting rod 8 and upright bar 4 are flexibly connected by shaft, and pedestal 7 is far from frame The side of 1 inner wall of body is welded with buffer spring 9, and side and expansion box 6 of the buffer spring 9 far from pedestal 7 are welded to each other, and passes through bottom Cooperation between seat 7, first connecting rod 8 and buffer spring 9 can have opposite power to go to resist when framework 1 rolls, Increase the shock resistance of framework 1, framework 1 is internally provided with the second connecting rod 17, and the second connecting rod 17 is living by bearing block Dynamic to be connected on the inner wall of framework 1, fixing sleeve is connected to first gear 18 and the second tooth respectively on the surface of two the second connecting rods 17 Wheel 19, first gear 18 and second gear 19 are intermeshed, first gear 18 and the mutually opposing rotation of second gear 19, by vertical Cooperation between bar 4, hole slot 10, first gear 18, second gear 19, mobile bar 11, sliding block 15 and fixed block 13, makes the first tooth Wheel 18 and the mutually opposing rotation of second gear 19 have reversed buffering, slow down pressure of the framework 1 from top, increase entire The shock strength of framework 1, the bottom of the second connecting rod 17 are connected with support rod 20, and the inner wall bottom of framework 1 is respectively welded There are chute of base 21 and fixed link 22, fixed link 22 is located at the two sides of chute of base 21, the top of chute of base 21 and support rod 20 bottom is mutually slidably connected, and second spring 23 has been welded to each other between fixed link 22 and support rod 20, second spring 23 Quantity is four, and every two second spring 23 is one group, and two groups of second springs 23 are separately positioned on the two sides of support rod 20, pass through Cooperation between support rod 20, the second connecting rod 17, second spring 23, chute of base 21 and fixed link 22, when framework 1 is in front and back When rocking, there is the power of buffering to go to offset the power that framework 1 rolls, reduce the probability to collapse.

Working principle: in use, when framework 1 is by earthquake, the buffering cotton 2 inside framework 1 starts to mitigate the pressure of earthquake The pedestal 7 of power, 1 inner wall two sides of framework internally compresses, so that the buffer spring 9 of 7 side of pedestal stretches to 6 stress of expansion box Case 6 provides the power of rebound to buffer spring 9, to reduce the pressure that framework 1 receives, when 1 top stress of framework, upright bar 4 to Inner extrusion, the sliding block 15 at hole slot 10 slide in sliding slot 14, drive mobile bar 11 mobile to side, 11 side of mobile bar Rack gear 12 respectively rotates first gear 18 and second gear 19, since the sliding block 15 at 11 back side of mobile bar is set as opposite position It sets, so that first gear 18 and second gear 19 be made to rotate backward, gripping mechanism cooperates the first spring 16 to reduce what top received Pressure, while moving left and right by support rod 20, make second spring 23 apply pressure to fixed link 22, and fixed link 22 is made to rebound It gives second spring 23 pressure, by way of kinetic energy, slows down earthquake bring power.Make framework 1 that there is stronger anti seismic efficiency.

In conclusion the wall that the shock resistance is strong, by the cooperation between pedestal 7, first connecting rod 8 and buffer spring 9, When framework 1 rolls, there can be opposite power to go to resist, increase the shock resistance of framework 1, pass through support rod 20, Cooperation between two connecting rods 17, second spring 23, chute of base 21 and fixed link 22 has slow when framework 1 is when rocking back and forth The power of punching goes to offset the power that framework 1 rolls, and reduces the probability to collapse, passes through upright bar 4, hole slot 10, first gear 18, second Cooperation between gear 19, mobile bar 11, sliding block 15 and fixed block 13 makes first gear 18 and 19 mutually opposing turns of second gear It is dynamic, there is reversed buffering, slow down pressure of the framework 1 from top, increase the shock strength of entire framework 1.

The strong wall of the shock resistance can have better cushion effect when sliding block 15 is mobile, go by the setting of sliding slot 14 The pressure for offsetting top, enables upright bar 4 to increase in stress to frame by the buffering plate 3 being arranged at the top and bottom of upright bar 4 The forced area of 1 inner wall of body, by the buffering cotton 2 filled inside framework 1, enables framework 1 to have preferably to reduce pressure Impact force reduces the vibration of earthquake bring.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of wall that shock resistance is strong, including framework (1), it is characterised in that: the inside of the framework (1) is filled with buffering cotton (2), the two sides of framework (1) the inner wall bottom and top are welded with buffering plate (3), and two buffering plates (3) are mutually leaned on Close side is plugged with upright bar (4), and the middle part of two upright bars (4) offers hole slot (10), the hole slot (10) of side upright bar (4) It being welded with fixed block (13) at the top of inner wall, the fixed block (13) is connected with mobile bar (11) far from the side of upright bar (4), The inside of the mobile bar (11) offers sliding slot (14), and the side of the close upright bar (4) of the sliding slot (14) slidably connects The top and bottom of sliding block (15), hole slot (10) inner wall are welded with telescopic rod (5), and two telescopic rods (5) are close to each other Side movable sleeve be connected to expansion box (6), the two sides of framework (1) inner wall are welded with pedestal (7), two pedestal (7) phases Mutually close side front is connected with first connecting rod (8) by shaft, and two first connecting rods (8) are far from pedestal (7) Side be flexibly connected respectively with the side of upright bar (4), the pedestal (7) is welded with buffering far from the side of framework (1) inner wall Spring (9), the framework (1) are internally provided with the second connecting rod (17), and the surface of two the second connecting rods (17) is solid respectively Surely first gear (18) and second gear (19), the first gear (18) and second gear (19) intermeshing, institute are socketed with The bottom for stating the second connecting rod (17) is connected with support rod (20), and the inner wall bottom of the framework (1) is respectively welded bottom Seat sliding slot (21) and fixed link (22), have been welded to each other second spring (23) between the fixed link (22) and support rod (20).

2. a kind of strong wall of shock resistance according to claim 1, it is characterised in that: two mobile bars (11) are symmetrical Setting, the side of the sliding block (15) and the side of hole slot (10) inner wall mutually overlap.

3. a kind of strong wall of shock resistance according to claim 1, it is characterised in that: the buffer spring (9) is the bottom of far from The side of seat (7) and expansion box (6) are welded to each other, and the first connecting rod (8) and upright bar (4) are flexibly connected by shaft.

4. a kind of strong wall of shock resistance according to claim 1, it is characterised in that: second connecting rod (17) passes through Bearing block is movably connected on the inner wall of framework (1), the first gear (18) and second gear (19) mutually opposing rotation.

5. a kind of strong wall of shock resistance according to claim 1, it is characterised in that: the fixed link (22) is located at pedestal The two sides of sliding slot (21), the top of the chute of base (21) and the bottom of support rod (20) are mutually slidably connected.

6. a kind of strong wall of shock resistance according to claim 1, it is characterised in that: the quantity of the second spring (23) It is four, the every two second spring (23) is one group, and two groups of second springs (23) are separately positioned on the two of support rod (20) Side.