CN113605558A - Assembled antidetonation power consumption wall - Google Patents

Abstract

The invention discloses an assembled anti-seismic energy dissipation wall, and relates to the technical field of building construction. The wall body comprises a mounting frame, a cover plate, an assembly type wall body, a positioning rod and a positioning groove, wherein the assembly type wall body is arranged inside the mounting frame, a damping mechanism is arranged inside the assembly type wall body, cleaning mechanisms are arranged on the left side and the right side of the inner wall of the assembly type wall body, and a reinforcing mechanism is arranged above the damping mechanism. According to the invention, through the matching of the stress plate, the elastic bag and the elastic sheet, when the assembly type wall body is impacted, the stress plate moves towards the center, the impact force applied to the assembly type wall body is converted into extrusion force to the elastic bag and the elastic sheet by the stress plate, the elastic sheet can play a role in buffering the impact force applied to the assembly type wall body, meanwhile, the elastic sheet limits the deformation direction of the elastic bag, so that the force generated by the deformation of the elastic bag pushes the push plate to extrude the air bag, and the purpose of consuming the impact force applied to the assembly type wall body is achieved.

Description

Assembled antidetonation power consumption wall

Technical Field

The invention relates to the technical field of building construction, in particular to an assembled anti-seismic energy dissipation wall.

Background

With the continuous improvement of sustainable development and energy-saving and environment-friendly requirements and the continuous increase of labor cost, the building industrialization represented by an assembly type structural system gets more and more attention, and the application of the assembly type structural system gradually raises the temperature. The prefabricated structure has lower production cost, greatly reduces the labor cost and shortens the construction period; the product quality is better guaranteed, the production process is easier to control through the flow production, and the production efficiency is greatly improved; the method greatly reduces the environmental pollution and energy waste caused by production, remarkably improves the utilization rate of various materials, more effectively controls the generated waste materials, waste water and the like, can recycle and reuse part of structural members, and mainly comprises roof plates, wall bodies, floor slabs and other related members of the fabricated building.

The wall body of the existing fabricated building does not have energy dissipation and earthquake resistance performance, so that the problems that the fabricated wall body is unstable and easy to damage after the wall body is easily impacted are solved, and therefore, the fabricated earthquake-resistant energy dissipation wall is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an assembled anti-seismic energy dissipation wall, which solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an assembled antidetonation power consumption wall, includes mounting bracket, apron, the assembled wall body, locating lever and constant head tank, the top of mounting bracket is provided with the apron, the assembled wall body sets up in the inside of mounting bracket, the locating lever inlays admittedly in the top of the assembled wall body, the constant head tank has been seted up to the bottom of the assembled wall body, the inside of the assembled wall body is provided with and is used for carrying out shock-resistant damper to the assembled wall body, the inner wall left side and the right side of the assembled wall body all are provided with and are used for carrying out clear clean mechanism to the clearance of the assembled wall body between the mounting bracket, damper's top is provided with and is used for connecting between the assembled wall body and carries out reinforced (rfd) reinforcing mechanism.

Preferably, damper includes atress board, elasticity bag, shell fragment, connecting rod, touch pole and slider, the atress board has two, two the atress board is the embeded respectively on the inner wall of assembled wall body, two be fixed with the elasticity bag between the atress board, the upside and the downside of elasticity bag all are provided with the shell fragment, the slider has eight, eight the slider slides respectively on the inner wall of assembled wall body, the four corners of atress board is articulated with the one end of connecting rod respectively, the other end and the slider of connecting rod are articulated, two be fixed with the touch pole between the slider from top to bottom.

Preferably, the cleaning mechanism comprises an air bag, a guide plate, a rubber block, a push plate and a nozzle, the air bag is fixedly embedded on the inner wall of the assembled wall body, the push plate is fixedly embedded on the front face of the air bag, the rubber block slides on the inner wall of the assembled wall body, the guide plate is fixedly embedded on the front face of the rubber block, and the nozzle is fixed on one side, away from the guide plate, of the front face of the rubber block.

Preferably, the reinforcing mechanism includes chute board, slide bar, hinge bar, strikes pole, conflict piece and reinforcing block, the chute board inlays admittedly on the inner wall of assembled wall body, the inside left side and the right side of chute board slide respectively has the slide bar, the slide bar passes through hinge bar swing joint with the conflict piece, the conflict piece slides in the inside of locating lever, the top left side and the right side of contradicting the piece all slide and have the reinforcing block, the left side and the right side of slide bar all are fixed with strikes the pole.

Preferably, the contact rod is in contact with the inclined plane of the guide plate, and the top of the stress plate is fixedly connected with the bottom of the sliding rod.

Preferably, the guide plate is connected with the inner wall of the assembly wall body through a return spring, and the inner wall of the assembly wall body is provided with a through groove matched with the rubber block.

Preferably, the air bag is connected with the nozzle through a hose, and one side of the push plate is fixedly connected with the elastic bag.

Preferably, the chute plate is of an elastic telescopic structure, and one side of the knocking rod is provided with an elastic block.

The invention provides an assembled anti-seismic energy-dissipation wall. The method has the following beneficial effects:

(1) according to the invention, through the matching of the stress plate, the elastic bag and the elastic sheet, when the assembly type wall body is impacted, the stress plate moves towards the center, the impact force applied to the assembly type wall body is converted into extrusion force to the elastic bag and the elastic sheet by the stress plate, the elastic sheet can play a role in buffering the impact force applied to the assembly type wall body, and meanwhile, the elastic sheet limits the deformation direction of the elastic bag, so that the force generated by the deformation of the elastic bag pushes the push plate to extrude the air bag, and the purpose of consuming the impact force applied to the assembly type wall body is achieved.

(2) According to the invention, through the matching of the stress plate and the connecting rod, the stress plate drives the connecting rod and the sliding block to slide towards the center along the inner wall of the assembled wall body, the contact rod then moves towards the center, and under the matching of the contact rod and the inclined surface of the guide plate, the guide plate pushes the rubber block to move towards the outer side, so that when the assembled wall body is impacted, the rubber block blocks up the gap between the assembled wall body and the mounting frame, thereby avoiding the problem that the assembled wall body is damaged by sand due to the fact that sand enters the gap between the assembled wall body and the mounting frame in the impacting process, and further prolonging the service life of the assembled wall body.

(3) According to the invention, the push plate is matched with the air bag, so that the push plate extrudes the air bag, and the air sprayed by the air bag is transmitted to the nozzle through the hose, thus the nozzle blows and cleans the gap between the assembled wall and the mounting rack, the problem that the assembly and disassembly of the assembled wall are influenced by dust in the gap between the assembled wall and the mounting rack is avoided, and the convenience for the assembly and disassembly of the assembled wall is improved.

(4) According to the invention, through the matching of the stress plate and the slide rod, in the process that the stress plate moves towards the center, the stress plate drives the slide rod to move towards the center along the sliding chute plate, the touch block moves upwards under the action of the hinge rod, and the touch block touches the reinforcing block to move towards two sides, so that the reinforcing block is clamped in the positioning groove, the problem of unstable connection between the assembled walls when the assembled walls are impacted is avoided, and the connection stability between the assembled walls is further improved.

(5) According to the invention, through the elastic bag and the stress plate, under the elastic action of the elastic bag, the stress plate is reset, the knocking rod is reset along with the reset, and in the resetting process of the knocking rod, the knocking rod can knock the rubber block, so that the rubber block vibrates, dust attached to the dust on the rubber block is shaken off, and the problem that the dust attached to the rubber block is brought into the interior of the assembled wall body to influence the internal structure operation of the assembled wall body is solved.

Drawings

FIG. 1 is a three-dimensional view of the invention as a whole;

FIG. 2 is a three-dimensional view of an assembled wall body of the present invention;

FIG. 3 is a bottom three-dimensional view of the assembled wall of the present invention;

FIG. 4 is a three-dimensional view of the internal structure of the fabricated wall of the present invention;

FIG. 5 is a three-dimensional view of the shock absorbing mechanism of the present invention;

FIG. 6 is a three-dimensional view showing a partial structure of the damper mechanism according to the present invention;

FIG. 7 is a three-dimensional view of the cleaning mechanism of the present invention;

FIG. 8 is a right three-dimensional view of the cleaning mechanism of the present invention;

FIG. 9 is a three-dimensional view of a stiffening mechanism according to the present invention;

FIG. 10 is a front cross-sectional view of a locating bar of the present invention;

fig. 11 is a front sectional view of a detent of the present invention.

In the figure: 1. a mounting frame; 2. a cover plate; 3. an assembled wall body; 4. positioning a rod; 5. positioning a groove; 6. a damping mechanism; 61. a stress plate; 62. an elastic bag; 63. a spring plate; 64. a connecting rod; 65. a touch bar; 66. a slider; 7. a cleaning mechanism; 71. an air bag; 72. a guide plate; 73. a rubber block; 74. pushing the plate; 75. a nozzle; 8. a reinforcement mechanism; 81. a chute plate; 82. a slide bar; 83. a hinged lever; 84. a knock bar; 85. a contact block; 86. and a reinforcing block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-11, the present invention provides a technical solution: an assembled anti-seismic energy dissipation wall comprises an installation frame 1, a cover plate 2, an assembled wall body 3, a positioning rod 4 and a positioning groove 5, wherein the cover plate 2 is arranged at the top of the installation frame 1, the assembled wall body 3 is arranged inside the installation frame 1, the positioning rod 4 is embedded and fixed at the top of the assembled wall body 3, a through groove matched with a rubber block 73 is formed in the inner wall of the assembled wall body 3, through the arrangement of the through groove, thereby make the clearance between the assembled wall 3 and the mounting bracket 1 can be plugged up to rubber block 73, constant head tank 5 has been seted up to the bottom of assembled wall 3, the inside of assembled wall 3 is provided with and is used for carrying out antidetonation damper 6 to assembled wall 3, the inner wall left side and the right side of assembled wall 3 all are provided with and are used for carrying out clear clean mechanism 7 to the clearance of assembled wall 3 between mounting bracket 1, damper 6's top is provided with and is used for connecting between the assembled wall 3 and carry out the reinforcing mechanism 8 that consolidates.

As shown in fig. 5-6, the damping mechanism 6 includes two force-bearing plates 61, two elastic bags 62, elastic sheets 63, connecting rods 64, abutting rods 65 and sliding blocks 66, the two force-bearing plates 61 are respectively embedded and fixed on the inner wall of the assembled wall body 3, the top of the force-bearing plate 61 is fixedly connected with the bottom of the sliding rod 82, the force-bearing plate 61 is fixedly connected with the sliding rod 82, so as to achieve the purpose of driving the reinforcing mechanism 8 to link by the force-bearing plate 61, the elastic bags 62 are fixed between the two force-bearing plates 61, the elastic sheets 63 are respectively arranged on the upper side and the lower side of the elastic bags 62, the arc-shaped convex parts of the elastic sheets 63 are oppositely arranged, the force-bearing plates 61 are matched with the elastic bags 62 and the elastic sheets 63, when the assembled wall body 3 is impacted, the force-bearing plates 61 move to the center, the force-bearing plates 61 convert the impact force received by the assembled wall body 3 into the extrusion force to the elastic bags 62 and the elastic sheets 63, the elastic sheet 63 can buffer the impact force received by the assembled wall body 3, and the elastic sheet 63 limits the deformation direction of the elastic bag 62, so that the force of the deformation of the elastic bag 62 pushes the push plate 74 to extrude the air bag 71, thereby achieving the purpose of consuming the impact force received by the assembled wall body 3, eight slide blocks 66 are provided, eight slide blocks 66 respectively slide on the inner wall of the assembled wall body 3, four corners of the stress plate 61 are respectively hinged with one end of the connecting rod 64, the other end of the connecting rod 64 is hinged with the slide blocks 66, a touch bar 65 is fixed between the upper part and the lower part of the two slide blocks 66, the touch bar 65 is in contact with the inclined plane of the guide plate 72, the stress plate 61 is matched with the connecting rod 64, so that the stress plate 61 drives the connecting rod 64 and the slide blocks 66 to slide towards the center along the inner wall of the assembled wall body 3, the touch bar 65 moves towards the center, and under the inclined plane matching of the touch bar 65 and the guide plate 72, the guide plate 72 makes the guide plate 72 push the rubber block 73 to move towards the outside, therefore, when the assembled wall body 3 is impacted, the rubber block 73 blocks the gap between the assembled wall body 3 and the mounting rack 1, the problem that the assembled wall body 3 is damaged by sand due to the fact that sand enters the gap between the assembled wall body 3 and the mounting rack 1 in the impacting process is solved, and the service life of the assembled wall body 3 is prolonged.

As shown in fig. 7-8, the cleaning mechanism 7 includes an air bag 71, a guide plate 72, a rubber block 73, a push plate 74 and a nozzle 75, the air bag 71 is embedded on the inner wall of the assembled wall 3, the push plate 74 is embedded on the front surface of the air bag 71, the rubber block 73 slides on the inner wall of the assembled wall 3, the guide plate 72 is embedded on the front surface of the rubber block 73, the guide plate 72 is connected with the inner wall of the assembled wall 3 through a return spring, the return spring is arranged to enable the guide plate 72 to drive the rubber block 73 to return, the nozzle 75 is fixed on the side of the front surface of the rubber block 73 far away from the guide plate 72, the air bag 71 is connected with the nozzle 75 through a hose, one side of the push plate 74 is fixedly connected with the elastic bag 62, the push plate 74 is matched with the air bag 71 through the push plate 74, so that the air bag 74 presses the air bag 71 to enable the air bag 71 to transmit the air to the nozzle 75 through the hose, thereby enabling the nozzle 75 to blow and clean the gap between the assembled wall 3 and the mounting bracket 1, therefore, the problem that dust exists in the gap between the assembly type wall body 3 and the mounting frame 1 to influence the assembly and disassembly of the assembly type wall body 3 is solved, and the convenience of the assembly and disassembly of the assembly type wall body 3 is improved.

As shown in fig. 9-10, the reinforcing mechanism 8 includes a chute plate 81, a sliding rod 82, a hinge rod 83, a knocking rod 84, a collision block 85 and a reinforcing block 86, the chute plate 81 is embedded in the inner wall of the assembled wall 3, the chute plate 81 is of an elastic telescopic structure, the chute plate 81 has a certain buffering capacity due to the arrangement of the elastic telescopic structure of the chute plate 81, the sliding rod 82 slides on the left side and the right side of the inside of the chute plate 81, the sliding rod 82 is movably connected with the collision block 85 through the hinge rod 83, the collision block 85 slides inside the positioning rod 4, the reinforcing block 86 slides on the left side and the right side of the top of the collision block 85, the stress plate 61 is matched with the sliding rod 82, the stress plate 61 drives the sliding rod 82 to move toward the center along the chute plate 81, the collision block 85 moves upward under the action of the hinge rod 83, the collision block 86 moves toward both sides, thereby make reinforcing block 86 block in the inside of constant head tank 5, thereby when having avoided the assembled wall 3 to receive the striking, connect unstable problem between the assembled wall 3, and then the stability of connecting between the assembled wall 3 has been improved, the left side and the right side of slide bar 82 all are fixed with strikes pole 84, one side of striking pole 84 is provided with the elasticity piece, through elasticity bag 62 and atress board 61, under the effect of elasticity bag 62 elasticity, make atress board 61 reset, strike pole 84 and then reset, strike pole 84 and reset in-process, strike pole 84 and can strike block rubber 73, thereby make block rubber 73 vibrate, the adnexed dust of dust on the block rubber 73 is shaken off, thereby it brings into the inside of assembled wall 3 to have avoided adhering to the dust on the block rubber 73, influence the problem of assembled wall 3 inner structure function.

During the use, when the assembled wall body 3 receives the striking, the panel of the assembled wall body 3 is extruded to the impact, make the atress board 61 move to the center, the impact that the atress board 61 received the assembled wall body 3 converts the extrusion force to elasticity bag 62 and shell fragment 63 into, deformation takes place for elasticity bag 62 and shell fragment 63, shell fragment 63 can play the cushioning effect to the impact that the assembled wall body 3 received, shell fragment 63 restricts the deformation direction of elasticity bag 62 simultaneously, make elasticity bag 62 to left side and right side deformation, and then make the power of elasticity bag 62 deformation push pedal 74 extrusion gasbag 71, thereby reached the purpose to the impact consumption that the assembled wall body 3 received.

Meanwhile, in the process that the stress plate 61 moves towards the center, the stress plate 61 drives the connecting rod 64 to move, so that the connecting rod 64 drives the sliding block 66 to slide towards the center along the inner wall of the assembled wall 3, the touch rod 65 then moves towards the center, and under the inclined surface matching of the touch rod 65 and the guide plate 72, the guide plate 72 pushes the rubber block 73 to move outwards, so that the rubber block 73 blocks a gap generated between the assembled wall 3 and the mounting frame 1 when the assembled wall 3 is impacted, thereby avoiding the problem that sand enters the gap between the assembled wall 3 and the mounting frame 1 in the impacting process and leading the assembled wall 3 to be damaged by the sand, and further prolonging the service life of the assembled wall 3; meanwhile, the push plate 74 extrudes the air bag 71, so that the air bag 71 sprays air, the air bag 71 sprays air and is transmitted to the nozzle 75 through the hose, the nozzle 75 blows air to clean the gap between the assembled wall 3 and the mounting rack 1, the problem that the assembled wall 3 is mounted and dismounted due to the fact that dust exists in the gap between the assembled wall 3 and the mounting rack 1 and the problem that the assembled wall 3 is mounted and dismounted is affected is solved, and convenience in mounting and dismounting of the assembled wall 3 is improved.

Simultaneously at atress board 61 to the central removal in-process, atress board 61 drives slide bar 82 and removes to the center along spout board 81, under the effect of articulated rod 83, make to touch block 85 rebound, conflict block 85 conflicts and adds reinforcing block 86 and remove to both sides, thereby make reinforcing block 86 card in the inside of constant head tank 5, thereby when having avoided assembled wall 3 to receive the striking, connect unstable problem between the assembled wall 3, and then improved the stability of connecting between the assembled wall 3.

Meanwhile, when the sliding rod 82 moves towards the center along the sliding groove plate 81, the knocking rod 84 moves along with the sliding rod, when the assembled wall body 3 is subjected to impact shock absorption, under the elastic action of the elastic bag 62, the stress plate 61 resets, the reinforcing mechanism 8 resets simultaneously, under the action of the reset spring, the cleaning mechanism 7 resets, and meanwhile, the knocking rod 84 resets along with the resetting, in the resetting process of the knocking rod 84, the knocking rod 84 can knock the rubber block 73, so that the rubber block 73 vibrates, dust attached to the dust on the rubber block 73 is shaken off, and therefore the problem that the dust attached to the rubber block 73 is brought into the assembled wall body 3 and the operation of the internal structure of the assembled wall body 3 is influenced is solved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides an assembled antidetonation power consumption wall, includes mounting bracket (1), apron (2), assembled wall body (3), locating lever (4) and constant head tank (5), its characterized in that: the top of mounting bracket (1) is provided with apron (2), the assembled wall body (3) set up in the inside of mounting bracket (1), locating lever (4) are embedded in the top of assembled wall body (3), constant head tank (5) have been seted up to the bottom of assembled wall body (3), the inside of assembled wall body (3) is provided with and is used for carrying out shock-resistant damper (6) to assembled wall body (3), the inner wall left side and the right side of assembled wall body (3) all are provided with and are used for carrying out clear clean mechanism (7) to the clearance of assembled wall body (3) between mounting bracket (1), the top of damper (6) is provided with and is used for connecting between assembled wall body (3) and carries out reinforced (8).

2. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 1, wherein: damper (6) are including atress board (61), elasticity bag (62), shell fragment (63), connecting rod (64), touch pole (65) and slider (66), atress board (61) have two, two atress board (61) are inlayed respectively on the inner wall of assembled wall body (3), two be fixed with elasticity bag (62) between atress board (61), the upside and the downside of elasticity bag (62) all are provided with shell fragment (63), slider (66) have eight, eight slider (66) slide respectively on the inner wall of assembled wall body (3), the four corners of atress board (61) is articulated with the one end of connecting rod (64) respectively, the other end and slider (66) of connecting rod (64) are articulated, two be fixed with touch pole (65) between slider (66) from top to bottom.

3. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 1, wherein: clean mechanism (7) include gasbag (71), deflector (72), block rubber (73), push pedal (74) and nozzle (75), gasbag (71) are embedded on the inner wall of assembled wall body (3), push pedal (74) are embedded in the front of gasbag (71), block rubber (73) slide on the inner wall of assembled wall body (3), deflector (72) are embedded in the front of block rubber (73), one side that deflector (72) were kept away from in the front of block rubber (73) is fixed with nozzle (75).

4. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 1, wherein: reinforcing mechanism (8) include chute board (81), slide bar (82), articulated rod (83), strike pole (84), conflict piece (85) and reinforcement piece (86), chute board (81) are inlayed on the inner wall of assembled wall body (3), the inside left side and the right side of chute board (81) slide respectively has slide bar (82), slide bar (82) and conflict piece (85) are through articulated rod (83) swing joint, conflict piece (85) slide in the inside of locating lever (4), the top left side and the right side of conflict piece (85) all slide and have reinforcement piece (86), the left side and the right side of slide bar (82) all are fixed with and strike pole (84).

5. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 2, wherein: the contact rod (65) is in contact with the inclined surface of the guide plate (72), and the top of the stress plate (61) is fixedly connected with the bottom of the sliding rod (82).

6. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 3, wherein: the guide plate (72) is connected with the inner wall of the assembly type wall body (3) through a return spring, and a through groove matched with the rubber block (73) is formed in the inner wall of the assembly type wall body (3).

7. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 3, wherein: the air bag (71) is connected with the nozzle (75) through a hose, and one side of the push plate (74) is fixedly connected with the elastic bag (62).

8. An assembled earthquake-resistant energy-dissipating wall as claimed in claim 4, wherein: the chute board (81) is of an elastic telescopic structure, and an elastic block is arranged on one side of the knocking rod (84).

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