CN108396906B - Be used for telescopic steel construction diagonal bracing of building - Google Patents

Abstract

The invention discloses a telescopic steel structure diagonal bracing for a building, which comprises a first cross beam and a second cross beam, wherein the first cross beam is positioned at the top of the second cross beam, a first vertical beam and a second vertical beam are movably arranged between the first cross beam and the second cross beam, the first vertical beam is positioned on the left side of the second vertical beam, the first vertical beam comprises a first beam sleeve and a first beam core, the beam sleeve is sleeved on the surface of the bottom end of the first beam core, the top of the left side of the first beam sleeve is fixedly connected with a first accommodating block, and the inside of the first accommodating block is slidably connected with a first limiting block. This be used for building telescopic steel construction diagonal bracing, through setting up stopper one, spacing groove one, stopper two and spacing groove two, can adjust the length of erecting roof beam one and erecting roof beam two to adjust the distance between crossbeam one and the crossbeam two, through setting up slider one, dead lever one, fixed cover one, slider three, dead lever three and fixed cover three, can let erect roof beam one and can remove between crossbeam one and crossbeam two.

Description

Be used for telescopic steel construction diagonal bracing of building

Technical Field

The invention relates to the technical field of fixed buildings, in particular to a telescopic steel structure diagonal bracing for a building.

Background

The building has higher requirement to structural strength and stability, leads to the building to warp very easily when receiving the huge external force in the external world owing to lack effectual support component between the current building, reduces the stability of building, when different buildings use, needs to change different diagonal braces, this work efficiency that can the greatly reduced construction to prolong the engineering time, be not convenient for people to use.

Disclosure of Invention

The invention provides a telescopic steel structure diagonal brace for a building, which has the advantages of being capable of adjusting the size of the diagonal brace and the like, and solves the problem that the size of the traditional diagonal brace cannot be adjusted.

The invention provides the following technical scheme: a telescopic steel structure diagonal bracing for a building comprises a first cross beam and a second cross beam, wherein the first cross beam is positioned at the top of the second cross beam, a first vertical beam and a second vertical beam are movably arranged between the first cross beam and the second cross beam, the first vertical beam is positioned on the left side of the second vertical beam, the first vertical beam comprises a first beam sleeve and a first beam core, the beam sleeve is sleeved on the surface of the bottom end of the first beam core, the left top of the first beam sleeve is fixedly connected with a first accommodating block, the inside of the first accommodating block is connected with a first limiting block in a sliding manner, the left side of the first beam core is provided with a first limiting groove, the right end of the first limiting block extends to the inside of the first beam sleeve and is clamped in the first limiting groove, the second vertical beam comprises a second beam sleeve and a second beam core, the beam sleeve is sleeved on the surface of the bottom end of the second beam core, the top of the right side of the second beam sleeve is fixedly connected with a second, the right side of the beam core II is provided with a limiting groove II, the left end of the limiting block II extends into the beam sleeve II and is clamped in the limiting groove II, the beam sleeve I and the beam sleeve II are movably mounted at the top of the beam II, the bottom of the beam sleeve I is fixedly connected with a slide block I, the slide block I is slidably connected inside the beam II, the front of the slide block I is fixedly connected with a fixed rod I, the front end of the fixed rod I extends to the outside of the beam II, the surface of the fixed rod I, which is positioned at one end of the outside of the beam II, is in threaded connection with a fixed sleeve I, the back of the fixed sleeve I is movably connected with the front of the beam II, the bottom of the beam sleeve II is fixedly connected with a slide block II, the slide block II is slidably connected inside the beam II, the front of the slide block II is fixedly connected with a fixed rod II, and, the surface of one end, positioned outside the beam I, of the fixed rod II is connected with a fixed sleeve II through threads, the back of the fixed sleeve II is movably connected with the front of the beam II, the beam core I and the beam core II are movably installed at the bottom of the beam I, the top of the beam core I is fixedly connected with a slide block III, the slide block III is connected inside the beam I in a sliding manner, the front of the slide block III is fixedly connected with a fixed rod III, the front end of the fixed rod III extends to the outside of the beam I, the surface of one end, positioned outside the beam I, of the fixed rod III is connected with a fixed sleeve III through threads, the back of the fixed sleeve III is movably connected with the front of the beam I, the top of the beam core II is fixedly connected with a slide block IV, the slide block IV is connected inside the beam I in a sliding manner, the front of the slide block IV, the surface of one end, positioned outside the first cross beam, of the four fixed rods is in threaded connection with a fourth fixed sleeve, and the back of the fourth fixed sleeve is movably connected with the front of the first cross beam.

Preferably, the inner walls of the first beam sleeve and the second beam sleeve are fixedly connected with guide strips located on the front side and the back side of the first beam core and the second beam core, guide grooves are formed in the front side and the back side of the first beam core and the back side of the second beam core, and the guide strips are connected in the guide grooves in a sliding mode.

Preferably, the top and the bottom of the first limit block and the second limit block are fixedly connected with transmission blocks, one side of each transmission block is fixedly connected with a pressure spring, and one end of each pressure spring, far away from the transmission blocks, is fixedly connected with the inner wall of the first block and the inner wall of the second block.

Preferably, the first limiting block and the second limiting block are far away from one ends of the first limiting groove and the second limiting groove and extend to the outer part of the first accommodating block and the outer part of the second accommodating block respectively, and the pulling blocks are fixedly connected with the first limiting block and the second limiting block.

Preferably, the first crossbeam comprises a first main beam, a second main beam and a first auxiliary beam, the first main beam and the second main beam are respectively movably mounted on the left side and the right side of the first auxiliary beam, a first connecting block fixedly connected to the left side of the first auxiliary beam, a first connecting groove is formed in the right side of the first main beam, a first connecting block movably connected to the left end of the first connecting block is arranged in the first connecting groove, a second connecting groove is formed in the right side of the second auxiliary beam, a first connecting block movably connected to the left end of the second connecting block is arranged in the second connecting groove, a first adapting rod fixedly connected to the top and the bottom of the first auxiliary beam, a second adapting rod fixedly connected to the right side of the top and the bottom of the first main beam and the left side of the top and the bottom of the second main beam, a first pressing block is sleeved on the surfaces of the first adapting rod and the second adapting rod, one side of the first pressing block is movably connected to the first adapting rod and the The first nut.

Preferably, the second crossbeam includes third girder, fourth girder and second auxiliary girder, third girder and fourth girder are respectively swing joint in the left side and the right side of second auxiliary girder, third left side fixedly connected with connecting block of second auxiliary girder, third spread groove has been seted up on the right side of third girder, the left end swing joint of third connecting block is in third spread groove, fourth left side fixedly connected with connecting block of fourth girder, fourth spread groove has been seted up on the right side of second auxiliary girder, the left end swing joint of fourth connecting block is in fourth spread groove, the equal fixedly connected with receiving rod three in both sides of second auxiliary girder top and bottom, the right side of three tops of girder and the four tops of girder and the equal fixedly connected with receiving rod four in the left side of bottom, the surface of receiving rod three and receiving rod four has all been cup jointed pressing block two, one side and second crossbeam swing joint of pressing block two, one side swing joint that second crossbeam was kept away from to second pressing block has screw thread connection and has been received rod three and received rod four table And a second nut of the face.

Compared with the prior art, the invention provides a telescopic steel structure diagonal bracing for a building, which has the following beneficial effects:

1. this be used for building telescopic steel construction diagonal bracing, through setting up stopper one, spacing groove one, stopper two and spacing groove two, can adjust the length of erecting roof beam one and erecting roof beam two, thereby adjust the distance between crossbeam one and crossbeam two, through setting up slider one, dead lever one, fixed cover one, slider three, dead lever three and fixed cover three, can let erect roof beam one and can remove between crossbeam one and crossbeam two, through setting up slider two, dead lever two, fixed cover two, slider four, dead lever four and fixed cover four, can let erect roof beam two and can remove between crossbeam one and crossbeam two, thereby adjust the distance between erecting roof beam one and erecting roof beam two, can carry out the regulation of size to diagonal bracing, thereby make things convenient for workman's construction, improve the work efficiency of construction, and shorten the engineering time, people of being convenient for use.

2. The telescopic steel structure diagonal brace for the building can guide the first beam core and the second beam core by arranging the guide strip and the guide groove, so that the first beam core and the second beam core can move more stably, the first limit block and the second limit block can be more accurately clamped into the first limit groove and the second limit groove, thrust can be provided for the first limit block and the second limit block by arranging the transmission block and the pressure spring, the first limit block and the second limit block can be more conveniently clamped into the first limit groove and the second limit groove, the contact area between the first limit block and the second limit block and a hand of a user can be increased by arranging the pull block, the first limit block and the second limit block can be more conveniently moved by the user, and the length of the first beam, the second beam, the third beam, the fourth beam and the second beam can be increased when the length of the first beam and the second beam needs to be increased, the on-site strain that can make things convenient for the construction, through setting up connecting block one, spread groove one, connecting block two and spread groove two, can increase the compactness that auxiliary girder one is connected with girder one and girder two, and with receiving rod one, receiving rod two, briquetting one and nut cooperation, install between girder one and girder two with auxiliary girder one more fastening, through setting up connecting block three, spread groove three, connecting block four and spread groove four, can increase the compactness that auxiliary girder two is connected with girder three and girder four, and with receiving rod three, receiving rod four, briquetting two and nut two cooperation, install between girder three and girder four with auxiliary girder two more fastening.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the structure of the present invention;

FIG. 3 is a schematic top view of a second cross beam according to the present invention;

FIG. 4 is a schematic bottom view of the first cross member of the present invention;

FIG. 5 is a schematic top view of the connection structure of the guide bar and the guide groove according to the present invention;

FIG. 6 is an enlarged view of a portion of the structure at A in FIG. 2 according to the present invention;

fig. 7 is an enlarged view of a portion of the structure shown at B in fig. 2 according to the present invention.

In the figure: 1 first cross beam, 101 first main beam, 102 second main beam, 103 first auxiliary beam, 2 second cross beam, 201 third main beam, 202 fourth main beam, 203 second auxiliary beam, 3 vertical beam, 301 beam sleeve, 302 beam core, 4 vertical beam, 401 beam sleeve, 402 beam core, 5 containing block one, 6 limiting block one, 7 limiting groove one, 8 containing block two, 9 limiting block two, 10 limiting groove two, 11 slide block one, 12 fixing rod one, 13 fixing sleeve one, 14 slide block two, 15 fixing rod two, 16 fixing sleeve two, 17 slide block three, 18 fixing rod three, 19 fixing sleeve three, 20 slide block four, 21 fixing rod four, 22 fixing sleeve four, 23 guide strip, 24 guide groove, 25 transmission block, 26 pressure spring, 27 pull block, 28 connecting block one, 29 connecting block one, 30 connecting block two, 31 connecting groove two, 32 connecting rod one, 33 connecting rod two, 34 pressing block one, 35 nut, 36 three connecting block, 37 connecting groove, 38 four connecting block, 39 connecting groove four, 40 bearing rod three, 41 bearing rod four, 42 pressing block two and 43 nut two.

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. 1-7, a telescopic steel structure diagonal brace for a building comprises a first cross beam 1 and a second cross beam 2, wherein the first cross beam 1 is positioned at the top of the second cross beam 2, the first cross beam 1 comprises a first main beam 101, a second main beam 102 and a first auxiliary beam 103, the first main beam 101 and the second main beam 102 are respectively and movably arranged at the left side and the right side of the first auxiliary beam 103, the left side of the first auxiliary beam 103 is fixedly connected with a first connecting block 28, the right side of the first main beam 101 is provided with a first connecting groove 29, the left end of the first connecting block 28 is movably connected in the first connecting groove 29, the left side of the second main beam 102 is fixedly connected with a second connecting block 30, the right side of the first auxiliary beam 103 is provided with a second connecting groove 31, the left end of the second connecting block 30 is movably connected in the second connecting groove 31, both sides of the top and the bottom of the first auxiliary beam 103 are fixedly connected with a, the surfaces of the first bearing rod 32 and the second bearing rod 33 are respectively sleeved with a first pressing block 34, one side of the first pressing block 34 is movably connected with the first cross beam 1, one side, far away from the first cross beam 1, of the first pressing block 34 is movably connected with a first nut 35 in threaded connection with the surfaces of the first bearing rod 32 and the second bearing rod 33, tightness of connection between the first auxiliary beam 103 and the first main beam 101 and tightness between the second main beam 102 can be increased by arranging a first connecting block 28, a first connecting groove 29, a second connecting block 30 and a second connecting groove 31, the first auxiliary beam 103 is tightly installed between the first main beam 101 and the second main beam 102 and is matched with the first bearing rod 32, the second bearing rod 33, the first pressing block 34 and the first nut 35, the second auxiliary beam 103 is installed between the first main beam 101 and the second main beam 102 more tightly, the second cross beam 2 comprises a third main beam 201, a fourth main beam 202 and a second auxiliary beam 203, the third main beam 201 and the fourth main beam 202, the left end of the connecting block III 36 is movably connected in the connecting groove III 37, the left side of the main beam IV 202 is fixedly connected with the connecting block IV 38, the right side of the auxiliary beam II 203 is provided with the connecting groove IV 39, the left end of the connecting block IV 38 is movably connected in the connecting groove IV 39, the two sides of the top and the bottom of the auxiliary beam II 203 are fixedly connected with the bearing rod III 40, the right side of the top and the bottom of the main beam III 201 and the left side of the top and the bottom of the main beam IV 202 are fixedly connected with the bearing rod IV 41, the surfaces of the bearing rod III 40 and the bearing rod IV 41 are respectively sleeved with the pressing block II 42, one side of the pressing block II 42 is movably connected with the cross beam II 2, one side of the pressing block II 42, which is far away from the cross beam II 2, is movably connected with the nut II 43 which is in threaded connection with the surfaces of the bearing rod III 40 and the bearing rod IV 41, and the tightness of, the auxiliary beam II 203 is more tightly installed between the main beam III 201 and the main beam IV 202 by matching with the bearing rod III 40, the bearing rod IV 41, the pressing block II 42 and the nut II 43, the number of the auxiliary beam I103 and the auxiliary beam II 203 can be increased when the length of the cross beam I1 and the cross beam II 2 needs to be increased by arranging the main beam I101, the main beam II 102, the auxiliary beam I103, the main beam III 201, the main beam IV 202 and the auxiliary beam II 203, the field strain of construction can be facilitated, the vertical beam I3 and the vertical beam II 4 are movably installed between the cross beam I1 and the cross beam II 2, the vertical beam I3 is positioned on the left side of the vertical beam II 4, the vertical beam I3 comprises a beam sleeve I301 and a beam core I302, the beam sleeve I301 is sleeved on the surface at the bottom end of the beam core I302, the top on the left side of the beam sleeve I301 is fixedly connected with a containing block I5, the inner sliding connection of the containing block I5 is connected with a limiting block I6, the right end of the limiting block I6 extends to the inside of the beam sleeve I301 and is clamped in the limiting groove I7, the vertical beam II 4 comprises a beam sleeve II 401 and a beam core II 402, the beam sleeve II 401 is sleeved on the surface of the bottom end of the beam core II 402, the top of the right side of the beam sleeve II 401 is fixedly connected with a containing block II 8, the inside of the containing block II 8 is slidably connected with a limiting block II 9, the right side of the beam core II 402 is provided with a limiting groove II 10, the left end of the limiting block II 9 extends to the inside of the beam sleeve II 401 and is clamped in the limiting groove II 10, the inner walls of the beam sleeve I301 and the beam sleeve II 401 are fixedly connected with guide bars 23 positioned on the front side and the back side of the beam core I302 and the beam core II 402, the front side and the back side of the beam core I302 and the beam core II 402 are both provided with guide grooves 24, the guide bars 23 are slidably connected in the guide grooves 24, and the beam core I302 and the beam core 402 can be more stably moved, and the first limiting block 6 and the second limiting block 9 can be more accurately clamped into the first limiting groove 7 and the second limiting groove 10, the top and the bottom of the first limiting block 6 and the second limiting block 9 are both fixedly connected with the transmission block 25, one side of the transmission block 25 is fixedly connected with the pressure spring 26, one end of the pressure spring 26, far away from the transmission block 25, is fixedly connected with the inner walls of the first accommodating block 5 and the second accommodating block 8, thrust can be provided for the first limiting block 6 and the second limiting block 9 by arranging the transmission block 25 and the pressure spring 26, the first limiting block 6 and the second limiting block 9 can be more conveniently clamped into the first limiting groove 7 and the second limiting groove 10, one ends of the first limiting block 6 and the second limiting block 9, far away from the first limiting groove 7 and the second limiting groove 10, respectively extend to the outer parts of the first accommodating block 5 and the second accommodating block 8 and are both fixedly connected with the pulling block 27, and the contact area between the first limiting block 6 and the, a user can move the first limit block 6 and the second limit block 9 more conveniently, the first beam sleeve 301 and the second beam sleeve 401 are movably mounted at the top of the second beam 2, the first slider 11 is fixedly connected to the bottom of the first beam sleeve 301, the first slider 11 is slidably connected to the inside of the second beam 2, the first fixed rod 12 is fixedly connected to the front of the first slider 11, the front end of the first fixed rod 12 extends to the outside of the second beam 2, the first fixed sleeve 13 is connected to the surface of the first fixed rod 12 at one end of the outside of the second beam 2 through a thread, the back of the first fixed sleeve 13 is movably connected to the front of the second beam 2, the second slider 14 is fixedly connected to the bottom of the second beam sleeve 401, the second slider 14 is slidably connected to the inside of the second beam 2, the second fixed rod 15 is fixedly connected to the front of the second slider 14, the front end of the second fixed rod 15 extends to the outside of the second beam 2, the back of the second fixing sleeve 16 is movably connected with the front of the second beam 2, the first beam core 302 and the second beam core 402 are movably installed at the bottom of the first beam 1, the top of the first beam core 302 is fixedly connected with a third slider 17, the third slider 17 is slidably connected inside the first beam 1, the front of the third slider 17 is fixedly connected with a third fixing rod 18, the front end of the third fixing rod 18 extends to the outside of the first beam 1, the surface thread of one end, located at the outside of the first beam 1, of the third fixing rod 18 is connected with a third fixing sleeve 19, the back of the third fixing sleeve 19 is movably connected with the front of the first beam 1, the top of the second beam core 402 is fixedly connected with a fourth slider 20, the fourth slider 20 is slidably connected inside the first beam 1, the front of the fourth slider 20 is fixedly connected with a fourth fixing rod 21, the front end of the fourth fixing rod 21 extends to the outside of the first beam 1, the surface thread, the back of the fixed sleeve IV 22 is movably connected with the front of the cross beam I1, the lengths of the vertical beam I3 and the vertical beam II 4 can be adjusted by arranging the limit block I6, the limit groove I7, the limit block II 9 and the limit groove II 10, so that the distance between the cross beam I1 and the cross beam II 2 can be adjusted, the vertical beam I3 can move between the cross beam I1 and the cross beam II 2 by arranging the slide block I11, the fixed rod I12, the fixed sleeve I13, the slide block III 17, the fixed rod III 18 and the fixed sleeve III 19, the vertical beam II 4 can move between the cross beam I1 and the cross beam II 2 by arranging the slide block II 14, the fixed rod II 15, the fixed sleeve II 16, the slide block IV 20, the fixed rod IV 21 and the fixed sleeve IV 22, so that the distance between the vertical beam I3 and the vertical beam II 4 can be adjusted, the diagonal bracing can be adjusted in size, and the construction of workers is facilitated, the working efficiency of construction is improved to shorten the engineering time, be convenient for people to use.

When the device is used, when the distance between the first cross beam 1 and the second cross beam 2 is adjusted, the pulling blocks 27 are pulled towards two sides, the pulling blocks 27 drive the first limiting block 6 and the second limiting block 9 to be separated from the first limiting groove 7 and the second limiting groove 10, then the first beam sleeve 301 and the second beam sleeve 401 or the first beam core 302 and the second beam core 402 move up and down, when the adjustment is completed, the first limiting block 6 and the second limiting block 9 are required to be aligned with the first limiting groove 7 and the second limiting groove 10, then the driving block 25 is pushed by the pressure spring 26 to move, so that the first limiting block 6 and the second limiting block 9 are movably clamped into the first limiting groove 7 and the second limiting groove 10, when the distance between the first vertical beam 3 and the second vertical beam 4 is adjusted, the first fixing sleeve 13 and the third fixing sleeve 19 are firstly rotated, the first fixing sleeve 13 and the fixing sleeve three 19 are separated from the first cross beam 1 and the second cross beam 2, then the first vertical beam 3 is moved, and the, and attaching the first fixing sleeve 13 and the third fixing sleeve 19 to the first cross beam 1 and the second cross beam 2 to fix the first vertical beam 3, rotating the second fixing sleeve 16 and the fourth fixing sleeve 22 to separate the second fixing sleeve 16 and the fourth fixing sleeve 22 from the first cross beam 1 and the second cross beam 2, moving the second vertical beam 4, and reversely rotating the second fixing sleeve 16 and the fourth fixing sleeve 22 after the movement is finished to attach the second fixing sleeve 16 and the fourth fixing sleeve 22 to the first cross beam 1 and the second cross beam 2 to fix the second vertical beam 4 to finish the adjustment.

In summary, the telescopic steel structure diagonal bracing for the building can adjust the lengths of the vertical beam I3 and the vertical beam II 4 by arranging the limit block I6, the limit groove I7, the limit block II 9 and the limit groove II 10, so as to adjust the distance between the cross beam I1 and the cross beam II 2, can enable the vertical beam I3 to move between the cross beam I1 and the cross beam II 2 by arranging the slide block I11, the fixed rod I12, the fixed sleeve I13, the slide block III 17, the fixed rod III 18 and the fixed sleeve III 19, can enable the vertical beam II 4 to move between the cross beam I1 and the cross beam II 2 by arranging the slide block II 14, the fixed rod II 15, the fixed sleeve II 16, the slide block IV 20, the fixed rod IV 21 and the fixed sleeve IV 22, can enable the vertical beam II 4 to move between the cross beam I1 and the cross beam II 2, so as to adjust the distance between the vertical beam I3 and the vertical beam II 4, can, the working efficiency of construction is improved to shorten the engineering time, solved the unable problem of adjusting size of current bracing to one side.

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

Claims (1)

1. The utility model provides a be used for building telescopic steel construction to draw bracing to one side, includes crossbeam one and crossbeam two, its characterized in that: the first cross beam is positioned at the top of the second cross beam, a first vertical beam and a second vertical beam are movably installed between the first cross beam and the second cross beam, the first vertical beam is positioned on the left side of the second vertical beam, the first vertical beam comprises a first beam sleeve and a first beam core, the beam sleeve is sleeved on the surface of the bottom end of the first beam core, the left top of the first beam sleeve is fixedly connected with a first accommodating block, the inner part of the first accommodating block is connected with a first limiting block in a sliding manner, the left side of the first beam core is provided with a first limiting groove, the right end of the first limiting block extends to the inner part of the first beam sleeve and is clamped in the first limiting groove, the second vertical beam comprises a second beam sleeve and a second beam core, the beam sleeve is sleeved on the surface of the bottom end of the second beam core in a sliding manner, the top of the right side of the second beam sleeve is fixedly connected with a second accommodating block, the inner part of the second accommodating block is connected with a second limiting block in a sliding manner, the right side of the second beam, the first beam sleeve and the second beam sleeve are movably arranged at the top of the second beam, the first slider is fixedly connected to the bottom of the first beam sleeve, the first slider is slidably connected to the inside of the second beam, the first fixing rod is fixedly connected to the front of the first slider, the front end of the first fixing rod extends to the outside of the second beam, the first fixing sleeve is connected to the surface of one end of the first fixing rod, which is positioned at the outside of the second beam, through threads, the back of the first fixing sleeve is movably connected to the front of the second beam, the second slider is fixedly connected to the bottom of the second beam sleeve, the second slider is slidably connected to the inside of the second beam, the second fixing rod is fixedly connected to the front of the second slider, the front end of the second fixing rod extends to the outside of the second beam, the second fixing sleeve is connected to the surface of one end of the second beam through threads, the first beam core and the second beam core are both movably arranged at the bottom of the first beam, the top of the first beam core is fixedly connected with a third sliding block, the third sliding block is connected inside the first cross beam in a sliding manner, the front side of the third sliding block is fixedly connected with a third fixing rod, the front end of the third fixing rod extends to the outside of the first cross beam, the surface of one end of the third fixing rod, which is positioned at the outside of the first cross beam, is in threaded connection with a third fixing sleeve, the back of the fixed sleeve III is movably connected with the front of the beam I, the top of the beam core II is fixedly connected with a slide block IV, the fourth sliding block is connected inside the first cross beam in a sliding manner, the front side of the fourth sliding block is fixedly connected with a fourth fixing rod, the front end of the fourth fixing rod extends to the outside of the first cross beam, the surface of one end, positioned at the outside of the first cross beam, of the fourth fixing rod is in threaded connection with the fourth fixing sleeve, and the back of the fourth fixing sleeve is movably connected with the front of the first cross beam; the inner walls of the first beam sleeve and the second beam sleeve are fixedly connected with guide strips positioned on the front and back sides of the first beam core and the second beam core, guide grooves are formed in the front and back sides of the first beam core and the second beam core, and the guide strips are connected in the guide grooves in a sliding manner; the top and the bottom of the first limiting block and the second limiting block are fixedly connected with transmission blocks, one side of each transmission block is fixedly connected with a pressure spring, and one end of each pressure spring, far away from the transmission blocks, is fixedly connected with the inner walls of the first accommodating block and the second accommodating block; one ends of the first limiting block and the second limiting block, which are far away from the first limiting groove and the second limiting groove, extend to the outer parts of the first accommodating block and the second accommodating block respectively and are fixedly connected with pull blocks; the first crossbeam comprises a first main beam, a second main beam and a first auxiliary beam, the main beam and the main beam are movably mounted on the left side and the right side of the first auxiliary beam respectively, a first connecting block fixedly connected to the left side of the first auxiliary beam, a first connecting groove is formed in the right side of the first main beam, a first connecting block movably connected to the left end of the first connecting block is arranged in the first connecting groove, a second connecting groove is formed in the right side of the second auxiliary beam, a first connecting rod is movably connected to the left end of the second connecting block in the second connecting groove, a first connecting rod is fixedly connected to the two sides of the first top and the bottom of the first auxiliary beam, a second connecting rod is fixedly connected to the right side of the first top and the bottom of the first main beam and the left side of the two tops and the bottom of the second main beam, a first pressing block is sleeved on the surfaces of the first connecting rod and the second connecting rod, a first pressing block is movably connected to the first nut on the (ii) a The second crossbeam comprises a third main beam, a fourth main beam and a second auxiliary beam, the third main beam and the fourth main beam are respectively movably mounted on the left side and the right side of the second auxiliary beam, a third connecting block is fixedly connected to the left side of the second auxiliary beam, a third connecting groove is formed in the right side of the third main beam, a third connecting groove is formed in the left end of the third connecting block, a fourth connecting block is fixedly connected to the left side of the fourth main beam, a fourth connecting groove is formed in the right side of the second auxiliary beam, a third connecting rod is movably connected to the left side of the top and the bottom of the fourth main beam, a fourth connecting rod is fixedly connected to the right side of the top and the bottom of the three main beam and the left side of the top and the bottom of the four main beam, a second pressing block is sleeved on the surfaces of the third connecting rod and the fourth connecting rod, one side of the second pressing block is movably connected with the second crossbeam, and one side of the second pressing block is movably II, performing secondary filtration;

the telescopic steel structure diagonal brace for the building can adjust the lengths of the first vertical beam and the second vertical beam by arranging the first limiting block, the first limiting groove, the second limiting block and the second limiting groove, thereby adjusting the distance between the first cross beam and the second cross beam, and the first vertical beam can move between the first cross beam and the second cross beam by arranging the first sliding block, the first fixing rod, the first fixing sleeve, the third sliding block, the third fixing rod and the third fixing sleeve, the second vertical beam can move between the first cross beam and the second cross beam by arranging the second sliding block, the second fixing rod, the second fixing sleeve, the fourth sliding block, the fourth fixing rod and the fourth fixing sleeve, thereby adjusting the distance between the first vertical beam and the second vertical beam and adjusting the size of the diagonal brace, thereby make things convenient for workman's construction, improve the work efficiency of construction to shorten the engineering time, solved the unable problem of adjusting size of current oblique stay.

Images