CN112267578A - Steel structure anti-seismic device for assembly type building - Google Patents

Abstract

The invention discloses an assembled steel structure anti-seismic device for a building, and relates to the technical field of steel structure anti-seismic. The invention comprises a first fixing mechanism, wherein one end of the first fixing mechanism is connected with a second fixing mechanism in a welding mode. According to the invention, the steel structure nodes can be reinforced and the change of the internal stress of the steel structure can be monitored at the same time through the matching of all the accessories, when the internal stress change is large due to the breakage of the steel structure nodes, the device can transmit warning signals to the inside of a monitoring room correspondingly arranged on the ground, so that the monitoring personnel can be warned, the safety performance of the device is improved, warning light and warning sound are emitted at the same time, and the maintainers are warned, so that the overhauling personnel can overhaul conveniently, the overhauling efficiency is improved, the overhauling working strength is reduced, the device can be simply applied to steel structures with different sizes through the arrangement of the first fixing mechanism and the second fixing mechanism, and the application range of the device is greatly expanded.

Description

Steel structure anti-seismic device for assembly type building

Technical Field

The invention belongs to the technical field of steel structure earthquake resistance, and particularly relates to an assembled steel structure earthquake resistant device for a building.

Background

The steel structure is a structure composed of steel materials, is one of main building structure types, and mainly comprises beam steel, steel columns, steel trusses and other members made of section steel, steel plates and the like, and adopts rust removal and prevention processes such as silanization, pure manganese phosphating, washing drying, galvanization and the like, welding lines, bolts or rivets are usually adopted for connection among all members or parts, the steel structure is easy to rust due to light self weight and simple and convenient to construct and is widely applied to the fields of large-scale factory buildings, venues, super high-rise buildings and the like, generally, the steel structure needs rust removal, galvanization or coating and needs regular maintenance, in order to prevent the steel structure from being influenced by earthquakes, an anti-seismic device is installed on the steel structure for reinforcement during the construction of the steel structure, but the existing anti-seismic device only can reinforce the steel structure, when the steel structure is broken by large external force, the maintenance personnel cannot be, and the maintainer need overhaul everywhere when overhauing the steel construction, and working strength is great, and work efficiency is relatively poor, and the steel construction of different models need form a complete set use the device of different models.

Disclosure of Invention

The invention aims to provide an assembled steel structure anti-seismic device for a building, which solves the existing problems: the existing anti-seismic device can only reinforce the steel structure, and when the steel structure is fractured by large external force, the steel structure cannot effectively and timely warn maintainers, and the safety performance is poor.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an assembled steel structure anti-seismic device for buildings, which comprises a first fixing mechanism, wherein one end of the first fixing mechanism is welded and connected with a second fixing mechanism for fixing the first fixing mechanism at one end of a steel structure, two ends of the upper end of the first fixing mechanism are both connected with a stress detection mechanism through screws, two ends inside the first fixing mechanism and two sides of the stress detection mechanism are both connected with positioning rods in an inserting manner, the lower ends of the four positioning rods are all welded and connected with a limit baffle plate for preventing the positioning rods from falling off from the inside of the first fixing mechanism, the outer side of the positioning rods and the upper end of the first fixing mechanism are sleeved and connected with a circular limit plate, the upper ends of the two positioning rods on two sides of the stress detection mechanism are welded and connected with a stress plate, one end of the lower end of the first fixing mechanism and the lower end of one stress detection mechanism are connected with a signal, and the signal transmission mechanism and the stress detection mechanism are electrically connected through a wire and used for transmitting the detection result of the stress detection mechanism, one end of the lower end of the first fixing mechanism and one side of the signal transmission mechanism are in screwed connection with an audible and visual alarm, the audible and visual alarm and the stress detection mechanism are electrically connected through a wire and used for giving an alarm by emitting sound and light, and one end of the lower end of the first fixing mechanism, which is far away from the signal transmission mechanism, is in screwed connection with a storage battery and used for providing power for the device.

Further, first fixed establishment and second fixed establishment all include fixed plate, first slip chamber, coupling mechanism, first threaded rod and second slip chamber, the inside at the fixed plate is seted up in the second slip chamber, coupling mechanism sliding connection is in the inside in second slip chamber, first slip chamber is seted up in the inside of fixed plate and is located one side in second slip chamber, first threaded rod rotates the inside of connecting at first slip chamber, just coupling mechanism and first threaded rod pass through threaded connection.

Furthermore, the connecting mechanism comprises a connecting piece, a first sliding block, a third sliding cavity, two second sliding blocks, two positioning rings, a fourth sliding cavity, a second threaded rod, two sliding plates and a second rotating handle, the connecting piece is connected inside the second sliding cavity in a sliding manner, the third sliding cavity is arranged inside the connecting piece, the fourth sliding cavity is arranged inside the connecting piece and positioned at one side of the third sliding cavity, the two sliding plates are both connected inside the third sliding cavity in a sliding manner, the two positioning rings are respectively connected at the middle positions of the two sliding plates in a welding manner, the positioning rings are in clearance fit with the third sliding cavity, the two second sliding blocks are respectively connected at one ends of the two sliding plates in a welding manner and positioned inside the fourth sliding cavity, the second sliding blocks are connected with the fourth sliding cavity in a sliding manner, and the second sliding rod is rotatably connected inside the fourth sliding cavity, just second threaded rod and second sliding block pass through threaded connection, the rotatory handle welded connection of second is in the one end of second threaded rod, first sliding block welded connection is in the one end of connecting piece, just first sliding block and first threaded rod pass through threaded connection.

Further, the one end of fixed plate is fixed with solar panel, just solar panel and battery pass through wire electric connection.

Further, one end of the first threaded rod is connected with a first rotating handle through welding.

Further, the inside both ends of first slip chamber all the joint be connected with the bearing, just bearing and first threaded rod pass through the joint and connect.

Furthermore, the lower ends of the two stress plates are both connected with a flexible sealing gasket in a gluing mode.

Furthermore, two the inside of second sliding block all is seted up female screw hole, two the screw thread in female screw hole is opposite direction.

The invention has the following beneficial effects:

1. according to the invention, the steel structure nodes can be reinforced and the change of the internal stress of the steel structure can be monitored at the same time through the matching of all the accessories, when the internal stress change is large due to the breakage of the steel structure nodes, the device can transmit warning signals to the inside of a monitoring room correspondingly arranged on the ground, so that the monitoring personnel can be warned, the safety performance of the device is improved, warning light and warning sound are emitted at the same time, and the maintenance personnel are warned, therefore, the maintenance personnel can conveniently perform maintenance, the maintenance efficiency is improved, and the maintenance working intensity is reduced.

2. According to the invention, the first fixing mechanism and the second fixing mechanism are arranged, so that the device can be applied to steel structures with different sizes more simply, and the application range of the device is greatly widened.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of one end of an anti-seismic device of a steel structure for an assembly type building according to the present invention;

FIG. 2 is a schematic structural view of the other end of the steel structure earthquake resistant device for assembly type buildings according to the present invention;

FIG. 3 is a schematic view of an overall sectional structure of one end of the steel structure earthquake resistant device for assembly type buildings according to the present invention;

FIG. 4 is a schematic view of an overall sectional structure of the other end of the steel structure earthquake resistant device for assembly type buildings according to the present invention;

FIG. 5 is an enlarged view of a fixing mechanism of a steel structure earthquake resistant device for an assembly type building according to the present invention;

fig. 6 is an enlarged view of a connecting mechanism of a steel structure earthquake resistant device for a fabricated building according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a first fixing mechanism; 2. a second fixing mechanism; 3. a solar panel; 4. positioning a rod; 5. a circular limiting plate; 6. a stress plate; 7. a force detection mechanism; 8. a storage battery; 9. a signal transmission mechanism; 10. a limit baffle; 11. an audible and visual alarm; 12. a fixing plate; 13. a first sliding chamber; 14. a connecting mechanism; 15. a first threaded rod; 16. a first rotating handle; 17. a second sliding chamber; 18. a connecting member; 19. a first slider; 20. a third sliding chamber; 21. a second slider; 22. positioning rings; 23. a fourth sliding chamber; 24. a second threaded rod; 25. a sliding plate; 26. a second rotating handle.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the invention is an assembly type steel structure earthquake-proof device for building, comprising a first fixing mechanism 1, one end of the first fixing mechanism 1 is welded and connected with a second fixing mechanism 2 for fixing the first fixing mechanism 1 at one end of a steel structure, two ends of the upper end of the first fixing mechanism 1 are both connected with a stress detection mechanism 7 by screws, two ends of the inner part of the first fixing mechanism 1 and both sides of the stress detection mechanism 7 are inserted and connected with a positioning rod 4, the lower ends of four positioning rods 4 are both welded and connected with a limit baffle 10 for preventing the positioning rod 4 from falling off from the inner part of the first fixing mechanism 1, the outer side of the positioning rod 4 and the upper end of the first fixing mechanism 1 are sleeved and connected with a circular limit plate 5, the upper ends of two positioning rods 4 at both sides of the stress detection mechanism 7 are welded and connected with a stress plate 6, the lower ends of the two stress plates 6 are, the damage of the stress plate 6 to the stress detection mechanism 7 can be effectively relieved by arranging the flexible sealing gasket, specifically, the flexible sealing gasket can be made of rubber, the rubber is a high-elasticity polymer material with reversible deformation and can generate large deformation under the action of small external force, the rubber can recover to the original shape after the external force is removed, the rubber belongs to completely amorphous polymer, one end of the lower end of the first fixing mechanism 1 and the lower end of one stress detection mechanism 7 are in screwed connection with the signal transmission mechanism 9, the signal transmission mechanism 9 and the stress detection mechanism 7 are electrically connected through a lead, specifically, the signal transmission mechanism 9 is an existing mechanism, data can be converted into a wave band with specific frequency and is transmitted out for transmitting the detection result of the stress detection mechanism 7, one end of the lower end of the first fixing mechanism 1 and one side of the signal transmission mechanism 9 are in screwed connection with the audible and visual alarm 11, the audible and visual alarm 11 is electrically connected with the stress detection mechanism 7 through a lead and used for giving out audible and visual alarm, and one end of the lower end of the first fixing mechanism 1, which is far away from the signal transmission mechanism 9, is connected with a storage battery 8 through a screw and used for providing power for the device;

referring to fig. 4-5, each of the first fixing mechanism 1 and the second fixing mechanism 2 includes a fixing plate 12, a first sliding cavity 13, a connecting mechanism 14, a first threaded rod 15, and a second sliding cavity 17, the second sliding cavity 17 is disposed inside the fixing plate 12, a solar panel 3 is fixed at one end of the fixing plate 12, and the solar panel 3 and the battery 8 are electrically connected through a conductive wire, so that the battery 8 can be effectively powered by solar energy through the solar panel 3, the connecting mechanism 14 is slidably connected inside the second sliding cavity 17, the first sliding cavity 13 is disposed inside the fixing plate 12 and located at one side of the second sliding cavity 17, the first threaded rod 15 is rotatably connected inside the first sliding cavity 13, two ends inside the first sliding cavity 13 are connected with bearings in a clamping manner, and the bearings are connected with the first threaded rod 15 in a clamping manner, so that friction between the first sliding cavity 13 and the first threaded rod 15 can be greatly reduced by the bearings, therefore, the first threaded rod 15 can rotate in the first sliding cavity 13 more conveniently, the connecting mechanism 14 is connected with the first threaded rod 15 through threads, one end of the first threaded rod 15 is connected with a first rotating handle 16 through welding, the first threaded rod 15 can be rotated more conveniently through the arrangement of the first rotating handle 16, the position of the connecting mechanism 14 can be adjusted through rotating the first threaded rod 15, and the device can be applied to steel structures of various models;

referring to fig. 4-6, the connecting mechanism 14 includes a connecting member 18, a first sliding block 19, a third sliding cavity 20, two second sliding blocks 21, two positioning rings 22, a fourth sliding cavity 23, a second threaded rod 24, two sliding plates 25 and a second rotating handle 26, the connecting member 18 is slidably connected to the inside of the second sliding cavity 17, the third sliding cavity 20 is disposed inside the connecting member 18, the fourth sliding cavity 23 is disposed inside the connecting member 18 and located at one side of the third sliding cavity 20, the two sliding plates 25 are both slidably connected to the inside of the third sliding cavity 20, the two positioning rings 22 are respectively welded to the middle positions of the two sliding plates 25, the positioning rings 22 and the third sliding cavity 20 are in clearance fit, the two second sliding blocks 21 are respectively welded to one ends of the two sliding plates 25 and located inside the fourth sliding cavity 23, specifically, the welding manner of the second sliding blocks 21 and the sliding plates 25 may be fusion welding, fusion welding means that in the welding process, a welding joint is brought into a melting state under the action of high temperature and the like, because the welded workpieces are tightly attached together, under the action of a temperature field, gravity and the like, no pressure is applied, the molten liquid of the two workpieces can be mixed, after the temperature is reduced, the melting part is condensed, the two workpieces are firmly welded together, and the welding method is completed, wherein the second sliding block 21 and the fourth sliding cavity 23 are in sliding connection, the second threaded rod 24 is rotationally connected inside the fourth sliding cavity 23, the second threaded rod 24 and the second sliding block 21 are in threaded connection, inner threaded holes are formed inside the two second sliding blocks 21, the threads of the two inner threaded holes are in opposite directions, so that the two second sliding blocks 21 can be driven to simultaneously move in opposite directions when the second threaded rod 24 rotates, the second rotating handle 26 is welded and connected to one end of the second threaded rod 24, first sliding block 19 welded connection is in the one end of connecting piece 18, and is concrete, and the welded mode of connecting piece 18 and first sliding block 19 also can be the fusion welding, and just first sliding block 19 and first threaded rod 15 pass through threaded connection for can be more convenient be applied to the steel construction of various models with the device through setting up coupling mechanism 14.

One specific application of this embodiment is: when the fixing mechanism is used, the second rotating handle 26 in the second fixing mechanism 2 is rotated to drive the second threaded rod 24 to rotate, because the second threaded rod 24 is connected with the second sliding block 21 through the threads, the second threaded rod 24 drives the two second sliding blocks 21 to slide in the fourth sliding cavity 23 when rotating, so as to drive the two sliding plates 25 to move in opposite directions in the third sliding cavity 20, the distance between the two positioning rings 22 is adjusted, then the positioning rings 22 are connected with the steel structure through the screws, the first threaded rod 15 is driven to rotate by rotating the second rotating handle 26 in the second fixing mechanism 2, because the connecting mechanism 14 is connected with the first threaded rod 15 through the threads, the fixing plate 12 is driven to vertically move when the first threaded rod 15 rotates, so as to effectively adjust the height of the first fixing mechanism 1, and enable the upper end of the stress plate 6 to be in close contact with the lower end of the steel structure, the stress plate 6 is in close contact with the stress detection mechanism 7, the stress detection mechanism 7 can detect the stress, the detection result is an initial value, the position of the connecting mechanism 14 is adjusted by rotating the first rotating handle 16 in the first fixing mechanism 1, the distance between the two positioning rings 22 is adjusted by rotating the second rotating handle 26 in the first fixing mechanism 1, and the first fixing mechanism 1 and the steel structure are connected together by using screws;

when the steel construction changes because of external force, the steel construction can be corresponding changes to the power of applying force of atress board 6, thereby make atress board 6 also can change to the power of applying force of atress detection mechanism 7, make the testing result adjustment of atress detection mechanism 7, atress detection mechanism 7 can give signal transmission mechanism 9 through the wire when the testing result of atress detection mechanism 7 is great with the initial value deviation, and correspond the control room inside that sets up through signal transmission mechanism 9 with signal transmission to ground, report to the police to the control personnel, and give audible-visual annunciator 11 through the wire transmission with the signal simultaneously, audible-visual annunciator 11 receives the signal and can send out warning light and warning sound.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The utility model provides an assembled steel structure anti-seismic device for building, includes first fixed establishment (1), its characterized in that: one end of the first fixing mechanism (1) is connected with a second fixing mechanism (2) in a welding mode and used for fixing the first fixing mechanism (1) at one end of a steel structure, two ends of the upper end of the first fixing mechanism (1) are connected with a stress detection mechanism (7) through screws, two ends of the inner portion of the first fixing mechanism (1) and two sides of the stress detection mechanism (7) are connected with positioning rods (4) in an inserting mode, four lower ends of the positioning rods (4) are connected with limit baffles (10) in a welding mode and used for preventing the positioning rods (4) from falling off from the inner portion of the first fixing mechanism (1), the outer side of each positioning rod (4) and the upper end of the corresponding first fixing mechanism (1) are connected with a circular limit plate (5) in a sleeved mode, two ends of the two sides of the stress detection mechanism (7) are connected with stress plates (6) in a, the one end of first fixed establishment (1) lower extreme and the lower extreme screwed connection that is located one of them atress detection mechanism (7) have signal transmission mechanism (9), just signal transmission mechanism (9) and atress detection mechanism (7) pass through wire electric connection for transmit the testing result of atress detection mechanism (7), one side screwed connection that the one end of first fixed establishment (1) lower extreme and is located signal transmission mechanism (9) has audible-visual annunciator (11), just audible-visual annunciator (11) and atress detection mechanism (7) pass through wire electric connection, are used for sending the reputation and report to the police, the one end screwed connection that signal transmission mechanism (9) were kept away from to first fixed establishment (1) lower extreme has battery (8), is used for providing power to the device.

2. The steel structure anti-seismic device for the fabricated building as claimed in claim 1, wherein the first fixing mechanism (1) and the second fixing mechanism (2) each comprise a fixing plate (12), a first sliding cavity (13), a connecting mechanism (14), a first threaded rod (15) and a second sliding cavity (17), the second sliding cavity (17) is formed in the fixing plate (12), the connecting mechanism (14) is slidably connected to the second sliding cavity (17), the first sliding cavity (13) is formed in the fixing plate (12) and located on one side of the second sliding cavity (17), the first threaded rod (15) is rotatably connected to the first sliding cavity (13), and the connecting mechanism (14) and the first threaded rod (15) are connected through threads.

3. The steel structure earthquake-resistant device for assembly type construction as claimed in claim 2, wherein said connecting mechanism (14) comprises a connecting member (18), a first sliding block (19), a third sliding cavity (20), two second sliding blocks (21), two positioning rings (22), a fourth sliding cavity (23), a second threaded rod (24), two sliding plates (25) and a second rotating handle (26), said connecting member (18) is slidably connected inside said second sliding cavity (17), said third sliding cavity (20) is opened inside said connecting member (18), said fourth sliding cavity (23) is opened inside said connecting member (18) and is located at one side of said third sliding cavity (20), both said sliding plates (25) are slidably connected inside said third sliding cavity (20), and both said positioning rings (22) are respectively welded and connected at the middle position of both said sliding plates (25), and the locating ring (22) is in clearance fit with the third sliding cavity (20), the second sliding blocks (21) are respectively connected with the two sliding plates (25) in a welded mode at one ends and located inside the fourth sliding cavity (23), the second sliding blocks (21) are connected with the fourth sliding cavity (23) in a sliding mode, the second threaded rods (24) are connected with the fourth sliding cavity (23) in a rotating mode, the second threaded rods (24) are connected with the second sliding blocks (21) in a threaded mode, the second rotating handle (26) is connected with one ends of the second threaded rods (24) in a welded mode, the first sliding blocks (19) are connected with one ends of the connecting pieces (18) in a welded mode, and the first sliding blocks (19) are connected with the first threaded rods (15) in a threaded mode.

4. The steel structure earthquake-resistant device for assembly type buildings according to claim 2, wherein the solar panel (3) is fixed at one end of the fixing plate (12), and the solar panel (3) and the storage battery (8) are electrically connected through a wire.

5. The steel structure for assembly construction anti-seismic device according to claim 2, wherein one end of the first threaded rod (15) is connected to a first rotating handle (16) by welding.

6. The steel structure earthquake-resistant device for assembly type buildings according to claim 2, wherein the bearings are connected to both ends inside the first sliding cavity (13) in a clamping manner, and the bearings are connected with the first threaded rod (15) in a clamping manner.

7. An assembled constructional steel structure anti-seismic device as claimed in claim 1, characterized in that the lower ends of both said stress plates (6) are glued with flexible gaskets.

8. The steel structure earthquake-resistant device for assembly type buildings according to claim 3, wherein the second sliding blocks (21) are internally provided with internal threaded holes, and the threads of the internal threaded holes are in opposite directions.

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