CN217759302U - Steel construction diagonal bracing for building - Google Patents
Steel construction diagonal bracing for building Download PDFInfo
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- CN217759302U CN217759302U CN202221926669.XU CN202221926669U CN217759302U CN 217759302 U CN217759302 U CN 217759302U CN 202221926669 U CN202221926669 U CN 202221926669U CN 217759302 U CN217759302 U CN 217759302U
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Abstract
The utility model relates to a fixed technical field of building, concretely relates to steel construction diagonal bracing for building, including two branches, two branch cross arrangement. The utility model discloses in, through supporting the underbeam with two U templates, then rotate two branches and adjust the distance between two U templates, after adjusting two U template intervals, the rotating closes the ring soon and pastes and lean on the U template, and a plurality of poles that close of rotating drive adjacent two and close a section of thick bamboo back of the body and make the fixture block card go into adjacent draw-in groove fixed branch position soon, then rotate each screw rod, make two buttresses adjacent branch of contradicting in the same guide way make it be difficult for deflecting, thereby make user of service can two branch tip positions of quick adjustment, thereby control the interval between two U templates, convenient to use personnel adjust U template position according to the length of underbeam, convenient to personnel nimble installation and the steadiness that improves two U templates through two branches.
Description
Technical Field
The utility model relates to a fixed technical field of building, concretely relates to steel construction is stayed to one side for building.
Background
Steel structural members are often used in the field of building manufacturing and the like, and steel structural members are often used for supporting on buildings, for example, steel structural members are often used for supporting between beams and columns of general buildings and between upper and lower beams, but the general steel structural members may have insufficient support and stability, and may deform and be inconvenient when subjected to external pressure.
Some technical schemes for improving the stability of steel structural members also appear in the prior art, for example, chinese patent with application No. 201320263320.7 discloses a steel structure diagonal bracing for a building, which includes two cross-connected steel structural support plates, two four ends of the steel structural support plates are respectively used for being connected with four ends of two steel structural columns arranged in parallel.
Although this technical scheme is through two cross connection's steel construction backup pad, and two four tip of steel construction backup pad are used for respectively with four end connection of two parallel arrangement's in the building steel construction stand, wholly carry out strong support to the building, the holistic stability of building has been strengthened, wind-resistant anti-seismic performance is strong, but when carrying out the support between the roof beam from top to bottom, because the length of upper beam and underbeam can not vary, the interval of supporter probably needs to be adjusted, and the difficult interval of adjusting the supporter of current technical scheme, it is comparatively inconvenient, and general bracing to one side is that directly weld the bracing piece on the steel construction, this kind of mode can make the steel construction more stable, nevertheless waste time and energy when dismantling, it is comparatively troublesome.
SUMMERY OF THE UTILITY MODEL
In order to overcome foretell technical problem, an object of the utility model is to provide a steel construction struts to one side for building, through supporting the underbeam with two U templates, then rotate two branches and adjust the distance between two U templates, after adjusting two U template intervals, the rotating closes the ring soon and pastes and leans on the U template, and a plurality of poles that close soon of rotating drive two adjacent section of thick bamboos that close soon and make the fixture block card go into adjacent draw-in groove fixed branch position with the looks separation, then rotate each screw rod, make two adjacent branches of pole conflict in the same guide way make it be difficult for deflecting, thereby make user of service can two branch tip positions of quick adjustment, thereby control the interval between two U templates, convenient to use personnel adjust U template position according to the length of underbeam, the personnel of being convenient for install in a flexible way and improve the steadiness of two U templates through two branches.
The purpose of the utility model can be realized by the following technical proposal:
a steel structure diagonal brace for a building comprises two support rods, wherein the two support rods are arranged in a crossed mode, a circular hole is formed in the middle of each support rod, fixing bolts are arranged inside the two circular holes, U-shaped plates are arranged on two sides of each support rod, and stabilizing mechanisms are arranged at two ends of each support rod;
stabilizing mean is including changeing the piece, and changes a one end and rotate the tip of connecting in adjacent branch, two the spout has all been seted up to U template one side, be located two commentaries on classics piece equal slip embedding same spout of two same ends of branch inside, it is connected with the threaded rod to change the piece other end rotation, and threaded rod one end runs through adjacent spout and has cup jointed the support ring soon, through embedding the commentaries on classics piece at the both ends of two branches respectively in the spout on two U templates and close two support rings soon and make support ring and adjacent commentaries on classics piece centre gripping U template fix branch tip position, then between two lower beams with two U template embedding, make two U templates support upper and lower beams, thereby make two branches improve the support effect of two U templates, and can adjust the distance of two U templates according to the length of upper and lower beams, rotate the angle that two branches adjusted branch simultaneously, then penetrate fixing bolt back spiral nut with the circular port at two branch middle parts and fix two branches, thereby make the user of service person can adjust the distance between two U templates and be convenient for the user.
Further, the method comprises the following steps: threaded rod one end is revolved and is closed an internal thread section of thick bamboo, and internal thread section of thick bamboo one end fixedly connected with U type piece, the slide opening has all been seted up at U type piece both ends, and two inside all sliding cup joints of slide opening and close a section of thick bamboo soon, U type piece middle part is provided with closes the pole soon, and closes the pole both ends soon and run through two arms of U type piece respectively and close a section of thick bamboo with two soon insidely mutually soon respectively, and the screw thread that closes the pole both ends soon revolves to on the contrary for the user of service rubs to close the pole soon and will drive two and revolve a section of thick bamboo cunning outward, closes a section of thick bamboo soon and only can slide and can not rotate in adjacent slide opening inside, and two that the section of thick bamboo that revolves outward will contradict adjacent U template both arms, carry out further stability to adjacent branch tip, prevent that branch from moving.
Further, the method comprises the following steps: two close a equal fixedly connected with fixture block of an one end soon, and two relative inside walls of two U templates have all seted up a plurality of draw-in grooves, and the fixture block activity joint is inside adjacent draw-in groove, through close a section of thick bamboo with two soon and utilize adjacent soon to close the pole when deviating from the removal mutually, makes inside two fixture block cards go into adjacent draw-in groove, improves and closes a steadiness between a section of thick bamboo and U template soon, further fixed support rod position.
Further, the method comprises the following steps: the outer side wall of the screwing rod is fixedly sleeved with a rubbing cylinder, two ends of the rubbing cylinder are respectively contacted with two arms of the U-shaped block, the screwing rod is limited through the rubbing cylinder, the screwing rod is prevented from moving, and a user can conveniently rub the screwing rod.
Further, the method comprises the following steps: the two supporting rods are provided with auxiliary mechanisms in a matched manner;
the auxiliary mechanism comprises two discs, jacks are formed in the centers of the two discs, one end of each fixing bolt penetrates through one jack, two circular holes and the other jack, the two guide grooves are uniformly formed in one side of each disc, the two support rods are respectively positioned on the two discs and parallel to the two guide grooves in a sliding embedded mode, the two ends of each support rod are fixedly connected with rotary rings, the two rotary rings positioned on the same support rod are respectively positioned on one side of the two discs in a back-to-back mode, screw rods are screwed inside the two rotary rings positioned at the same end of the two support rods in the same guide groove, the two support rods are respectively inserted inside the two opposite guide grooves in the same disc, the two support rods are positioned between the included angles of the two support rods, the screw rods and the two adjacent rotary rings are screwed, the screw threads at the two ends of each screw rod are opposite in rotating direction, the two adjacent rotary rings can be driven to move away from each other when the screw rods are rotated, the two support rods in the guide grooves deviate from each other to move the side walls of the adjacent support rods, the two support rods, the positions between the two support rods are further fixed, and the position between the two support rods is further fixed.
Further, the method comprises the following steps: the middle part of the screw rod is fixedly sleeved with the twisting block, the twisting block is positioned between the two adjacent screwing rings, and the screw rod can be conveniently twisted by a user to rotate through the twisting block.
The method is further characterized in that: the thickness of the screwing ring is smaller than the width of the guide groove, so that the screwing ring can penetrate through the guide groove when being detached or installed, and the abutting rod can be conveniently moved between two adjacent guide grooves.
The utility model has the advantages that:
through supporting the upper and lower beams with two U templates, then the accessible rotates two branches and adjusts the distance between two U templates, after adjusting two U template intervals, the rotating closes the ring soon and leans on the tip position of two fixed branches of U template extrusion, then a plurality of poles that close soon of rotating drive two adjacent soon and close a section of thick bamboo and make the fixture block card go into adjacent draw-in groove further fixed branch position apart from the removal, then rotate each screw rod, make two adjacent branches of pole conflict in the same guide way make its difficult deflection, thereby stabilize the position of two branches, thereby make the user of service can two branch tip positions of quick adjustment, thereby control the interval between two U templates, the user of being convenient for adjusts U template position according to the length of upper and lower beam, the nimble installation of personnel of being convenient for improves and connects the steadiness.
Drawings
The present invention will be further described with reference to the accompanying drawings.
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the position relationship between the fixing mechanism and the U-shaped plate of the present invention;
FIG. 3 is an exploded view of the structure of the middle stabilizing mechanism of the present invention;
fig. 4 is an exploded view of the structure of the auxiliary mechanism of the present invention.
In the figure: 100. a strut; 101. a circular hole; 110. fixing the bolt; 200. a U-shaped plate; 201. a chute; 202. a card slot; 300. an auxiliary mechanism; 310. a disc; 311. a jack; 312. a guide groove; 320. a support rod; 330. screwing a ring; 340. a screw; 341. screwing the block; 400. a stabilizing mechanism; 410. rotating the block; 420. a threaded rod; 421. a support ring; 430. an internal threaded barrel; 440. a U-shaped block; 441. a slide hole; 450. screwing the cylinder; 451. a clamping block; 460. screwing the rod; 461. the cylinder is rubbed.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to 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 of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.
Example one
The utility model discloses a steel structure diagonal bracing for buildings, which comprises two supporting rods 100, wherein the two supporting rods 100 are arranged in a crossed manner, a circular hole 101 is formed in the middle of each of the two supporting rods 100, fixing bolts 110 are arranged inside the two circular holes 101, U-shaped plates 200 are arranged on two sides of each of the two supporting rods 100, and stabilizing mechanisms 400 are arranged at two ends of each of the two supporting rods 100;
stabilizing mean 400 is including changeing piece 410, and change piece 410 one end and rotate the tip of connecting in adjacent branch 100, spout 201 has all been seted up to two U template 200 one sides, it is inside that two commentaries on classics pieces 410 that are located two same ends of branch 100 all slide and imbed same spout 201, change piece 410 other end rotation and be connected with threaded rod 420, and threaded rod 420 one end runs through adjacent spout 201 and closes soon and cup jointed and support ring 421, through changeing the piece 410 with two branch 100's both ends imbed respectively in the spout 201 on two U template 200 and close two support ring 421 soon and make support ring 421 and adjacent commentaries on classics piece 410 centre gripping U template 200 fix branch 100 tip position, then imbed two U template 200 between the underbeam, make two U template 200 support the upper and lower beam, thereby make two branch 100 improve the supporting effect of two U template 200, and can adjust two U template 200's distance according to the length of upper and underbeam, rotate two branch 100 angle that branch 100 adjusted branch 100 simultaneously, then penetrate the circular port 101 at the middle part of fixing bolt 110 and then fix two branch 100, thereby make the use personnel's of being convenient for use of U template 200 use apart from the use.
In this embodiment, through utilizing the turned angle who adjusts two spinal branch poles 100 to can adjust the distance between two U template 200, thereby make the user can adjust the distance between two U template 200 according to the length of upper and lower beam, and provide the support for two U template 200 through two spinal branch poles 100 end fixing on U template 200, improve U template 200's steadiness.
In this embodiment, through passing two circular ports 101 with fixing bolt 110, then with inside two spouts 201 of the commentaries on classics piece 410 embedding respectively at the both ends of same branch 100, it is located between two U type boards 200 and keeps criss-cross state all the time to keep two branch 100, then adjust the interval between two U type boards 200 through rotating two branch 100, after waiting to adjust finishing, close four support ring 421 soon and contradict U type board 200 on four threaded rods 420 and inside fix branch 100 position, close nut and fixing bolt 110 soon again, make two branch 100 rigidity of fixing bolt 110 and nut centre gripping, thereby make user of service easy to assemble branch 100 and U type board 200, and the accessible rotates two branch 100 with the interval between adjusting two U type boards 200.
In a further preferred embodiment of the present invention, as shown in fig. 1-3, one end of the threaded rod 420 is screwed with the inner threaded cylinder 430, and one end of the inner threaded cylinder 430 is fixedly connected with the U-shaped block 440, sliding holes 441 have been formed at both ends of the U-shaped block 440, and two sliding holes 441 are slidably sleeved with the screwing cylinders 450, the middle of the U-shaped block 440 is provided with a screwing rod 460, and both ends of the screwing rod 460 respectively penetrate through both arms of the U-shaped block 440 and are screwed with the insides of the two screwing cylinders 450, a screwing cylinder 461 is fixedly sleeved on the outer side wall of the screwing rod 460, and both ends of the screwing cylinder 461 are in contact with both arms of the U-shaped block 440, the screwing rod 460 is limited by the screwing cylinder 461, the screwing rod 460 is prevented from moving, and the screwing rod 460 is convenient for a user to use, a fixture 451 is fixedly connected with one end of two screwing cylinders 450, and two inner side walls of two U-shaped blocks 200 are provided with a plurality of clamping grooves 202, a movable clamping block 451 is clamped inside of an adjacent clamping groove 202, when two screwing cylinders 450 are moved by using two screwing rods 450, the adjacent screwing rods 460, the sliding rod 450, the sliding rod 100 is prevented from moving into the clamping groove 450, the sliding rod 200, and the sliding rod 100 can be prevented from moving between two adjacent screwing cylinders 100, the sliding rod 100 and the sliding rod 100 from moving.
In this embodiment, after the rotating blocks 410 at the end portions of two supporting rods 100 are all embedded into the adjacent sliding grooves 201 and are screwed with the supporting rings 421, four internal thread cylinders 430 and four threaded rods 420 can be screwed, so that four U-shaped blocks 440 are all located between two arms of the adjacent U-shaped plates 200, then four twisting cylinders 461 can be twisted to rotate the four screwing rods 460, because the threads at two ends of the four screwing rods 460 are opposite in turning direction, two ends of the same screwing rod 460 and the screwing cylinder 450 screwed with the same end of the same screwing rod 460 are screwed by the adjacent screwing rods 460, and the screwing cylinder 450 has a groove inside the adjacent sliding hole 441, and a protrusion is arranged on the outer side wall of the screwing cylinder 450, so that the screwing cylinder 450 can only slide in the adjacent sliding hole 441, so that the same screwing rod 460 can drive the adjacent two screwing cylinders 450 to deviate or move towards each other, and the four screwing rods 460 drive two screwing cylinders 450 adjacent screwing cylinders 450 to move away from each other, so that the fixture blocks 200 on the screwing cylinder 450 are clamped into the adjacent U-shaped plates 200, thereby increasing the strength of the two rotating cylinders 100 and increasing the strength of the supporting rods 100 when two supporting rods 100 are inserted into two sets of the two supporting grooves 200, and the two supporting rods 100 are inserted into the two supporting grooves 200, and the two supporting rods 100, thereby increasing the strength of the two supporting rods 100.
Example two
As shown in fig. 1-4, the two struts 100 are provided with an auxiliary mechanism 300;
the auxiliary mechanism 300 includes two discs 310, and the centers of the two discs 310 are both provided with an insertion hole 311, and one end of the fixing bolt 110 sequentially penetrates through one insertion hole 311, two circular holes 101 and the other insertion hole 311, one side of each of the two discs 310 is uniformly provided with four guide slots 312, two abutting rods 320 are respectively positioned on the two discs 310 and are slidably embedded between the two parallel guide slots 312, both ends of each abutting rod 320 are fixedly connected with a screwing ring 330, the two screwing rings 330 positioned on the same abutting rod 320 are respectively positioned on opposite sides of the two discs 310, the thickness of the screwing ring 330 is smaller than the width of the guide slot 312, so that the screwing ring 330 can pass through the guide slot 312 to facilitate the abutting rod 320 to move between the two adjacent guide slots 312 during disassembly or assembly, the screw 340 is screwed inside the two screwing rings 330 positioned at the same end of the two abutting rods 320 inside the same guide slot 312, the middle part of the screw 340 is fixedly sleeved with a screwing block 341, the screwing block 341 is positioned between two adjacent screwing rings 330, the screw 340 can be conveniently screwed by a user through the screwing block 341 to rotate, two abutting rods 320 are respectively inserted into two opposite guide grooves 312 on the same disc 310, the two abutting rods 320 are positioned between the included angles of the two support rods 100, the screw 340 and the two adjacent screwing rings 330 are screwed, the screw thread screwing directions at the two ends of the screw 340 are opposite, so that the screw 340 can be driven to oppositely move the two adjacent screwing rings 330 when being rotated, the two abutting rods 320 in the same guide groove 312 deviate from each other between the included angles of the two support rods 100 to move and abut against the side walls of the adjacent support rods 100, the position between the two support rods 100 is further fixed, and the fixing and limiting effects on the support rods 100 are improved.
In this embodiment, before installing two crossed struts 100, two discs 310 clamp two crossed struts 100, then the fixing bolt 110 sequentially passes through one insertion hole 311, two circular holes 101 and the other insertion hole 311 and then nuts are screwed, then after the two struts 100 are rotationally adjusted, according to the degree of rotational adjustment of the two struts 100, when the outer side wall of the strut 100 is exposed inside two guide grooves 312 which are respectively located in the two discs 310 and are parallel, two abutting rods 320 are inserted inside all the guide grooves 312 which are exposed on the outer side wall of the strut 100 on one disc 310, and the other ends of the two abutting rods 320 pass through the parallel guide grooves 312 on the other disc 310, and two screwing rings 330 on the same abutting rod 320 are respectively located on the opposite sides of the two discs 310, two abutting rods 320 in the same guide groove 312 are positioned between the included angles of the two supporting rods 100, then the positions of the two supporting rods 100 are adjusted to ensure that the two supporting rods 100 are not positioned in any guide groove 312, then the screwing ring 330 at the same end of the two abutting rods 320 in the same guide groove 312 is screwed with the two ends of the same screw 340 and is attached to the adjacent screwing block 341, then the two supporting rods 100 are reset, then all the screwing blocks 341 are screwed to drive the adjacent screw 340 to rotate, and because the screw threads at the two ends of the screw 340 are screwed in opposite directions, the screw 340 can be rotated to drive the two adjacent screwing rings 330 to move away from each other, so that the two abutting rods 320 in the same guide groove 312 are deviated between the included angles of the two supporting rods 100 to move to abut against the side walls of the adjacent supporting rods 100, and the position between the two supporting rods 100 is further fixed, thereby improving the fixing and limiting effect of the supporting rods 100.
In the description of the present specification, reference to the description of "one embodiment," "an example," "a specific example," etc., means 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 foregoing is illustrative and explanatory only, and various modifications, additions and substitutions as described for the specific embodiments described herein may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.
Claims (7)
1. A steel structure diagonal bracing for a building comprises two supporting rods (100), and is characterized in that the two supporting rods (100) are arranged in a crossed manner, a circular hole (101) is formed in the middle of each of the two supporting rods (100), fixing bolts (110) are arranged inside each of the two circular holes (101), U-shaped plates (200) are arranged on two sides of each of the two supporting rods (100), and stabilizing mechanisms (400) are arranged at two ends of each of the two supporting rods (100);
stabilizing mean (400) is including changeing piece (410), and changes piece (410) one end and rotate to connect in the tip of adjacent branch (100), two spout (201) have all been seted up to U template (200) one side, and two that are located two same ends of two branch (100) are changeed piece (410) and are all slided and imbed same spout (201) inside, it is connected with threaded rod (420) to change piece (410) other end rotation, and threaded rod (420) one end runs through adjacent spout (201) and closes soon and cup jointed and support ring (421).
2. The steel structure diagonal bracing for the building according to claim 1, wherein one end of the threaded rod (420) is screwed with an internal thread cylinder (430), one end of the internal thread cylinder (430) is fixedly connected with a U-shaped block (440), both ends of the U-shaped block (440) are provided with sliding holes (441), the two sliding holes (441) are respectively sleeved with a screwing cylinder (450) in a sliding manner, the middle part of the U-shaped block (440) is provided with a screwing rod (460), and both ends of the screwing rod (460) respectively penetrate through two arms of the U-shaped block (440) and are respectively screwed with the insides of the two screwing cylinders (450).
3. The steel structure diagonal bracing for the building according to claim 2, wherein one end of each of the two screwing cylinders (450) is fixedly connected with a clamping block (451), the two opposite inner side walls of the two U-shaped plates (200) are respectively provided with a plurality of clamping grooves (202), and the clamping blocks (451) are movably clamped inside the adjacent clamping grooves (202).
4. The steel structure diagonal bracing for the building according to claim 2, wherein a twisting cylinder (461) is fixedly sleeved on an outer side wall of the screwing rod (460), and two ends of the twisting cylinder (461) are respectively contacted with two arms of the U-shaped block (440).
5. The steel structure diagonal bracing for the building according to claim 1, wherein two supporting rods (100) are provided with an auxiliary mechanism (300) in a matching way;
the auxiliary mechanism (300) comprises two discs (310), jacks (311) are formed in the centers of the two discs (310), one end of each fixing bolt (110) penetrates through one jack (311), two circular holes (101) and the other jack (311) in sequence, two guide grooves (312) are uniformly formed in one side of each disc (310), two abutting rods (320) are embedded between the two parallel guide grooves (312) on the two discs (310) in a sliding mode, two rotating rings (330) are fixedly connected to two ends of each abutting rod (320), the two rotating rings (330) located on the same abutting rod (320) are located on the two opposite sides of the two discs (310), and a screw (340) is screwed inside the two rotating rings (330) located on the same end of the two abutting rods (320) inside the same guide groove (312).
6. The steel structure diagonal bracing for the building according to claim 5, wherein a screwing block (341) is fixedly sleeved in the middle of the screw rod (340), and the screwing block (341) is positioned between two adjacent screwing rings (330).
7. The stay of a steel structure for a building according to claim 5, wherein the thickness of the rotation ring (330) is smaller than the width of the guide groove (312).
Priority Applications (1)
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CN202221926669.XU CN217759302U (en) | 2022-07-25 | 2022-07-25 | Steel construction diagonal bracing for building |
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CN202221926669.XU CN217759302U (en) | 2022-07-25 | 2022-07-25 | Steel construction diagonal bracing for building |
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CN217759302U true CN217759302U (en) | 2022-11-08 |
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