CN208534093U - One kind being used for the telescopic steel construction cable-stayed support of building - Google Patents

Abstract

The utility model discloses one kind to be used for the telescopic steel construction cable-stayed support of building, including crossbeam one and crossbeam two, the crossbeam one is located at the top of crossbeam two, vertical beam one and vertical beam two are movably installed between the crossbeam one and crossbeam two, the vertical beam one is located at the left side of vertical beam two, the vertical beam one includes beam casing one and beam core one, the beam casing one is socketed in the surface of mono- bottom end Liang Xin, the top in one left side of beam casing, which is fixedly connected with, accommodates block one, and the internal slide for accommodating block one is connected with limited block one.This is used for the telescopic steel construction cable-stayed support of building, pass through setting limited block one, limiting slot one, limited block two and limiting slot two, the length of vertical beam one and vertical beam two can be adjusted, to which the distance between crossbeam one and crossbeam two be adjusted, by setting sliding block one, fixed link one, fixing sleeve one, sliding block three, fixed link three and fixing sleeve three, it can allow vertical beam one that can move between crossbeam one and crossbeam two.

Description

One kind being used for the telescopic steel construction cable-stayed support of building

Technical field

The present invention relates to technical field of fixed buildings, specially a kind of to be used for the telescopic steel construction oblique pull of building Support.

Background technique

Building has a higher requirement to structural strength and stability, due to lacking effective branch between existing building Support part part causes building to be easily deformed when by extraneous huge external force, reduces the stability of building, builds in difference Object is built in use, needing replacing different cable-stayed supports, this will be greatly reduced the working efficiency of construction, and extend the construction time, no Convenient for people's use.

Summary of the invention

The present invention provides one kind to be used for the telescopic steel construction cable-stayed support of building, and cable-stayed support size can be adjusted by having The advantages that, solve the problems, such as that existing cable-stayed support can not adjusting size.

The invention provides the following technical scheme: a kind of be used for the telescopic steel construction cable-stayed support of building, including crossbeam one With crossbeam two, the crossbeam one is located at the top of crossbeam two, be movably installed between the crossbeam one and crossbeam two vertical beam one and Vertical beam two, the vertical beam one are located at the left side of vertical beam two, and the vertical beam one includes beam casing one and beam core one, and the beam casing one is socketed On the surface of one bottom end of beam core, the top in one left side of beam casing, which is fixedly connected with, accommodates block one, the inside for accommodating block one Limited block one is slidably connected, the left side of the beam core one offers limiting slot one, and the right end of the limited block one extends to beam The inside of set one is simultaneously connected in limiting slot one, and the vertical beam two includes beam casing two and beam core two, and the beam casing two is socketed in beam The surface of two bottom end of core, the top on two right side of beam casing, which is fixedly connected with, accommodates block two, the internal slide for accommodating block two It is connected with limited block two, the right side opening of the beam core two is equipped with limiting slot two, and the left end of the limited block two extends to beam casing two Inside and be connected in limiting slot two, the beam casing one and beam casing two are movably arranged on the top of crossbeam two, the beam casing One bottom is fixedly connected with sliding block one, and the sliding block one is slidably connected at the inside of crossbeam two, and the front of the sliding block one is solid Surely it is connected with fixed link one, the front end of the fixed link one extends to the outside of crossbeam two, and the fixed link one is located at crossbeam two The surface of external one end is threaded with fixing sleeve one, and the back side of the fixing sleeve one is flexibly connected with the front of crossbeam two, institute The bottom for stating beam casing two is fixedly connected with sliding block two, and the sliding block two is slidably connected at the inside of crossbeam two, the sliding block two Front is fixedly connected with fixed link two, and the front end of the fixed link two extends to the outside of crossbeam two, and the fixed link two is located at The surface of two outside one end of crossbeam is threaded with fixing sleeve two, and the back side of the fixing sleeve two and the front activity of crossbeam two connect It connects, the beam core one and beam core two are movably arranged on the bottom of crossbeam one, and the top of the beam core one is fixedly connected with sliding block Three, the sliding block three is slidably connected at the inside of crossbeam one, and the front of the sliding block three is fixedly connected with fixed link three, described solid The front end of fixed pole three extends to the outside of crossbeam one, and the surface that the fixed link three is located at one end outside crossbeam one is threadedly coupled There is fixing sleeve three, the back side of the fixing sleeve three is flexibly connected with the front of crossbeam one, and the top of the beam core two is fixedly connected There is sliding block four, the sliding block four is slidably connected at the inside of crossbeam one, and the front of the sliding block four is fixedly connected with fixed link four, The front end of the fixed link four extends to the outside of crossbeam one, and the fixed link four is located at the surface spiral shell of one end outside crossbeam one Line is connected with fixing sleeve four, and the back side of the fixing sleeve four is flexibly connected with the front of crossbeam one.

Preferably, the inner wall of the beam casing one and beam casing two is fixedly connected to positioned at beam core one and two front of beam core and back The front and back of the gib block in face, the beam core one and beam core two offers guide groove, and the gib block is slidably connected at In guide groove.

Preferably, the top and bottom of the limited block one and limited block two are fixedly connected to drive block, the transmission The side of block is fixedly connected with pressure spring, and the one end of the pressure spring far from drive block is fixed with the inner wall for accommodating block one and receiving block two Connection.

Preferably, the limited block one and limited block two extend respectively to hold far from one end of limiting slot one and limiting slot two Receive block one and accommodate block two outside and be fixedly connected to pulling block.

Preferably, the crossbeam one includes girder one, girder two and auxiliary girder one, and the girder one and girder two are movable respectively It is mounted on the left and right side of auxiliary girder one, the left side of the auxiliary girder one is fixedly connected with link block one, the right side of the girder one Link slot one is offered, the left end of the link block one is movably connected in link slot one, and the left side of the girder two is fixed to be connected It is connected to link block two, the right side opening of the auxiliary girder one is equipped with link slot two, and the left end of the link block two is movably connected in connection In slot two, the two sides of one top and bottom of auxiliary girder are fixedly connected to bearing rod one, one top and bottom of girder Bearing rod two, the surface of the bearing rod one and bearing rod two are fixedly connected on the left of two top and bottom of right side and girder It is socketed with briquetting one, the side of the briquetting one is flexibly connected with crossbeam one, and side of the briquetting one far from crossbeam one is living It is dynamic to be connected with the nut one for being threaded in two surface of bearing rod one and bearing rod.

Preferably, the crossbeam two includes girder three, girder four and auxiliary girder two, and the girder three and girder four are movable respectively It is mounted on the left and right side of auxiliary girder two, the left side of the auxiliary girder two is fixedly connected with link block three, the right side of the girder three Link slot three is offered, the left end of the link block three is movably connected in link slot three, and the left side of the girder four is fixed to be connected It is connected to link block four, the right side opening of the auxiliary girder two is equipped with link slot four, and the left end of the link block four is movably connected in connection In slot four, the two sides of two top and bottom of auxiliary girder are fixedly connected to bearing rod three, three top and bottom of girder Bearing rod four, the surface of the bearing rod three and bearing rod four are fixedly connected on the left of four top and bottom of right side and girder It is socketed with briquetting two, the side of the briquetting two is flexibly connected with crossbeam two, and side of the briquetting two far from crossbeam two is living It is dynamic to be connected with the nut two for being threaded in four surface of bearing rod three and bearing rod.

Compared with prior art, the present invention provides one kind be used for the telescopic steel construction cable-stayed support of building, have with It is lower the utility model has the advantages that

1, this is used for the telescopic steel construction cable-stayed support of building, by the way that limited block one, limiting slot one, limited block two is arranged With limiting slot two, the length of vertical beam one and vertical beam two can be adjusted, thus to the distance between crossbeam one and crossbeam two It is adjusted, by setting sliding block one, fixed link one, fixing sleeve one, sliding block three, fixed link three and fixing sleeve three, can allow perpendicular Beam one can move between crossbeam one and crossbeam two, by setting sliding block two, fixed link two, fixing sleeve two, sliding block four, fix Bar four and fixing sleeve four can allow vertical beam two that can move between crossbeam one and crossbeam two, thus to vertical beam one and vertical beam two The distance between be adjusted, the adjusting of size can be carried out to cable-stayed support, so that worker be facilitated to construct, improve the work effect of construction Rate, and shorten the construction time, it is used convenient for people.

2, this is used for the telescopic steel construction cable-stayed support of building, can be to beam core by setting gib block and guide groove One and beam core two be oriented to, allow mobile more stable of beam core one and beam core two, and can allow limited block one and limited block Two can more accurately stick into limiting slot one and limiting slot two, can be limited block one by setting drive block and pressure spring Thrust is provided with limited block two, allows limited block one and limited block two that can more easily stick into limiting slot one and limiting slot two, The contact area of limited block one and limited block two and user's hand can be increased by the way that pulling block is arranged, allow user can be more Easily mobile limited block one and limited block two pass through setting girder one, girder two, auxiliary girder one, girder three, girder four and auxiliary girder Two, can increase auxiliary girder one and the quantity of auxiliary girder two when needing to increase by two length of crossbeam one and crossbeam can reach, Neng Goufang That just constructs strains when participating in the cintest, by setting link block one, link slot one, link block two and link slot two, can increase auxiliary girder one The tightness being connect with girder one and girder two, and cooperate with bearing rod one, bearing rod two, briquetting one and nut one, by auxiliary girder One more fasten be mounted between girder one and girder two, pass through setting link block three, link slot three, link block four and connection Slot four, can increase the tightness that auxiliary girder two is connect with girder three and girder four, and with bearing rod three, bearing rod four, briquetting two Cooperate with nut two, is mounted on what auxiliary girder two more fastened between girder three and girder four.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is schematic structural cross-sectional view of the invention；

Fig. 3 is the overlooking structure diagram of crossbeam two of the present invention；

Fig. 4 is the present invention looks up structural representation of crossbeam one of the present invention；

Fig. 5 is the connection structure schematic top plan view of gib block of the present invention and guide groove；

Fig. 6 is the partial structurtes enlarged diagram in Fig. 2 of the present invention at A；

Fig. 7 is the partial structurtes enlarged diagram in Fig. 2 of the present invention at B.

In figure: 1 crossbeam one, 101 girders one, 102 girders two, 103 auxiliary girders one, 2 crossbeams two, 201 girders three, 202 girders Four, 203 auxiliary girders two, 3 vertical beams one, 301 beam casings one, 302 beam cores one, 4 vertical beams two, 401 beam casings two, 402 beam cores two, 5 accommodate block One, 6 limited blocks one, 7 limiting slots one, 8 accommodate block two, 9 limited blocks two, 10 limiting slots two, 11 sliding blocks one, 12 fixed links one, 13 Fixing sleeve one, 14 sliding blocks two, 15 fixed links two, 16 fixing sleeves two, 17 sliding blocks three, 18 fixed links three, 19 fixing sleeves three, 20 are sliding Block four, 21 fixed links four, 22 fixing sleeves four, 23 gib blocks, 24 guide grooves, 25 drive blocks, 26 pressure springs, 27 pulling blocks, 28 link blocks One, 29 link slots one, 30 link blocks two, 31 link slots two, 32 bearing rods one, 33 bearing rods two, 34 briquettings one, 35 nuts one, 36 link blocks three, 37 link slots three, 38 link blocks four, 39 link slots four, 40 bearing rods three, 41 bearing rods four, 42 briquettings two, 43 Nut two.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-7 is please referred to, one kind being used for the telescopic steel construction cable-stayed support of building, including crossbeam 1 and crossbeam 22, Crossbeam 1 is located at the top of crossbeam 22, and crossbeam 1 includes girder 1, girder 2 102 and auxiliary girder 1, girder 1 It is movably arranged on the left and right side of auxiliary girder 1 respectively with girder 2 102, the left side of auxiliary girder 1 is fixedly connected with connection The right side opening of block 1, girder 1 is equipped with link slot 1, and the left end of link block 1 is movably connected in link slot 1 Interior, the left side of girder 2 102 is fixedly connected with link block 2 30, and the right side opening of auxiliary girder 1 is equipped with link slot 2 31, link block 2 30 left end is movably connected in link slot 2 31, and the two sides of one 103 top and bottom of auxiliary girder are fixedly connected to bearing rod One 32, bearing rod two is fixedly connected on the left of 2 102 top and bottom of right side and girder of one 101 top and bottom of girder 33, the surface of bearing rod 1 and bearing rod 2 33 is socketed with briquetting 1, and the side of briquetting 1 and one 1 activity of crossbeam are even It connects, briquetting 1 is connected with far from the side of crossbeam 1 is threaded in 2 33 surface of bearing rod 1 and bearing rod Nut 1 can increase auxiliary girder one by setting link block 1, link slot 1, link block 2 30 and link slot 2 31 103 tightness being connect with girder 1 and girder 2 102, and with bearing rod 1, bearing rod 2 33, briquetting 1 and spiral shell Mother 1 cooperates, and is mounted on what auxiliary girder 1 more fastened between girder 1 and girder 2 102, and crossbeam 22 includes master Beam 3 201, girder 4 202 and auxiliary girder 2 203, girder 3 201 and girder 4 202 are movably arranged on a left side for auxiliary girder 2 203 respectively Side and right side, the left side of auxiliary girder 2 203 are fixedly connected with link block 3 36, and the right side opening of girder 3 201 is equipped with link slot three 37, the left end of link block 3 36 is movably connected in link slot 3 37, and the left side of girder 4 202 is fixedly connected with link block four 38, the right side opening of auxiliary girder 2 203 is equipped with link slot 4 39, and the left end of link block 4 38 is movably connected in link slot 4 39, secondary The two sides of 2 203 top and bottom of beam are fixedly connected to bearing rod 3 40, the right side of 3 201 top and bottom of girder and girder It is fixedly connected to bearing rod 4 41 on the left of 4 202 top and bottoms, the surface of bearing rod 3 40 and bearing rod 4 41 covers It is connected to briquetting 2 42, the side of briquetting 2 42 is flexibly connected with crossbeam 22, and briquetting 2 42 connects far from the side activity of crossbeam 22 It is connected to the nut 2 43 for being threaded in 4 41 surface of bearing rod 3 40 and bearing rod, by the way that link block 3 36, link slot is arranged 3 37, link block 4 38 and link slot 4 39, can increase auxiliary girder 2 203 connect with girder 3 201 and girder 4 202 it is tight Density, and cooperate with bearing rod 3 40, bearing rod 4 41, briquetting 2 42 and nut 2 43, the peace that auxiliary girder 2 203 is more fastened Between girder 3 201 and girder 4 202, by setting girder 1, girder 2 102, auxiliary girder 1, girder 3 201, Girder 4 202 and auxiliary girder 2 203 can increase auxiliary girder 1 and auxiliary girder when needing to increase by 22 length of crossbeam 1 and crossbeam 2 203 quantity can reach, and can facilitate straining when participating in the cintest for construction, be movably installed between crossbeam 1 and crossbeam 22 perpendicular Beam 1 and vertical beam 24, vertical beam 1 are located at the left side of vertical beam 24, and vertical beam 1 includes beam casing 1 and Liang Xin 1, beam casing One 301 are socketed in the surface of mono- 302 bottom end Liang Xin, and the top in one 301 left side of beam casing, which is fixedly connected with, accommodates block 1, accommodate block One 5 internal slide is connected with limited block 1, and the left side of Liang Xin 1 offers limiting slot 1, and the right end of limited block 1 prolongs It extends to the inside of beam casing 1 and is connected in limiting slot 1, vertical beam 24 includes beam casing 2 401 and Liang Xin 2 402, beam casing 2 401 are socketed in the surface of 2 402 bottom end Liang Xin, and the top on 2 401 right side of beam casing, which is fixedly connected with, accommodates block 28, accommodate block 28 internal slide is connected with limited block 29, and the right side opening of Liang Xin 2 402 is equipped with limiting slot 2 10, the left end of limited block 29 It extends to the inside of beam casing 2 401 and is connected in limiting slot 2 10, the inner wall of beam casing 1 and beam casing 2 401 is fixed to be connected It is connected to the gib block 23 positioned at beam core 1 and Liang Xin 2 402 front and the back side, the front of Liang Xin 1 and Liang Xin 2 402 Guide groove 24 is offered with the back side, gib block 23 is slidably connected in guide groove 24, passes through setting gib block 23 and guide groove 24, beam core 1 and Liang Xin 2 402 can be oriented to, allow beam core 1 and Liang Xin 2 402 to move more stable, and And can allow limited block 1 and limited block 29 that can more accurately stick into limiting slot 1 and limiting slot 2 10, limited block 1 and the top and bottom of limited block 29 be fixedly connected to drive block 25, the side of drive block 25 is fixedly connected with pressure spring 26, the one end of pressure spring 26 far from drive block 25 is fixedly connected with the inner wall for accommodating block 1 and receiving block 28, is passed through setting and is driven Block 25 and pressure spring 26 can provide thrust for limited block 1 and limited block 29, allow limited block 1 and limited block 29 can be more Add and easily stick into limiting slot 1 and limiting slot 2 10, limited block 1 and limited block 29 are far from limiting slot 1 and limiting slot two 10 one end extends respectively to accommodate block 1 and accommodates the outside of block 28 and be fixedly connected to pulling block 27, is drawn by setting Block 27 can increase the contact area of limited block 1 and limited block 29 and user's hand, allow user can more easily Mobile limited block 1 and limited block 29, beam casing 1 and beam casing 2 401 are movably arranged on the top of crossbeam 22, beam casing one 301 bottom is fixedly connected with sliding block 1, and sliding block 1 is slidably connected at the inside of crossbeam 22, and the front of sliding block 1 is solid Surely it is connected with fixed link 1, the front end of fixed link 1 extends to the outside of crossbeam 22, and fixed link 1 is located at crossbeam 22 The surface of external one end is threaded with fixing sleeve 1, and the back side of fixing sleeve 1 is flexibly connected with the front of crossbeam 22, beam The bottom for covering 2 401 is fixedly connected with sliding block 2 14, and sliding block 2 14 is slidably connected at the inside of crossbeam 22, and sliding block 2 14 is just Face is fixedly connected with fixed link 2 15, and the front end of fixed link 2 15 extends to the outside of crossbeam 22, and fixed link 2 15 is located at crossbeam The surface of 22 outsides one end is threaded with fixing sleeve 2 16, and the back side of fixing sleeve 2 16 and the front activity of crossbeam 22 connect It connects, Liang Xin 1 and Liang Xin 2 402 are movably arranged on the bottom of crossbeam 1, and the top of Liang Xin 1 is fixedly connected with cunning Block 3 17, sliding block 3 17 are slidably connected at the inside of crossbeam 1, and the front of sliding block 3 17 is fixedly connected with fixed link 3 18, Gu The front end of fixed pole 3 18 extends to the outside of crossbeam 1, and the surface screw thread that fixed link 3 18 is located at one end outside crossbeam 1 connects It is connected to fixing sleeve 3 19, the back side of fixing sleeve 3 19 is flexibly connected with the front of crossbeam 1, and the top of Liang Xin 2 402 is fixed to be connected It is connected to sliding block 4 20, sliding block 4 20 is slidably connected at the inside of crossbeam 1, and the front of sliding block 4 20 is fixedly connected with fixed link four 21, the front end of fixed link 4 21 extends to the outside of crossbeam 1, and fixed link 4 21 is located at the surface of one end outside crossbeam 1 It is threaded with fixing sleeve 4 22, the back side of fixing sleeve 4 22 is flexibly connected with the front of crossbeam 1, by the way that limited block is arranged One 6, the length of vertical beam 1 and vertical beam 24 can be adjusted in limiting slot 1, limited block 29 and limiting slot 2 10, thus The distance between crossbeam 1 and crossbeam 22 are adjusted, by setting sliding block 1, fixed link 1, fixing sleeve 1, Sliding block 3 17, fixed link 3 18 and fixing sleeve 3 19 can allow vertical beam 1 that can move between crossbeam 1 and crossbeam 22, Pass through setting sliding block 2 14, fixed link 2 15, fixing sleeve 2 16, sliding block 4 20, fixed link 4 21 and fixing sleeve 4 22, Neng Gourang Vertical beam 24 can move between crossbeam 1 and crossbeam 22, to adjust to the distance between vertical beam 1 and vertical beam 24 Section can carry out the adjusting of size, to facilitate worker to construct, when improving the working efficiency of construction, and shortening construction to cable-stayed support Between, it is used convenient for people.

When in use, when adjusting the distance between crossbeam 1 and crossbeam 22, pulling block 27, pulling block are pulled to two sides first 27 drive limited blocks 1 and limited block 29 are detached from out of limiting slot 1 and limiting slot 2 10, then move up and down beam casing 1 With beam casing 2 401 or beam core 1 and Liang Xin 2 402, need to make limited block 1 and limited block 29 and limit after the completion of adjusting Slot 1 and limiting slot 2 10 are aligned, and then push drive block 25 mobile by pressure spring 26, to make limited block 1 and limited block 29 movements stick into limiting slot 1 and limiting slot 2 10, when adjusting the distance between vertical beam 1 and vertical beam 24, first choice rotation Fixing sleeve 1 and fixing sleeve 3 19 separate fixing sleeve 1 and fixing sleeve 3 19 with crossbeam 1 and crossbeam 22, then move Dynamic vertical beam 1, fixing sleeve 1 and fixing sleeve 3 19 are reversely rotated after the completion of mobile, makes fixing sleeve 1 and fixing sleeve 3 19 It is bonded with crossbeam 1 and crossbeam 22 and fixes vertical beam 1, secondly rotated fixing sleeve 2 16 and fixing sleeve 4 22, make to fix Cover 2 16 and fixing sleeve 4 22 separated with crossbeam 1 and crossbeam 22, then move vertical beam 24, the reversed rotation after the completion of mobile Turn fixing sleeve 2 16 and fixing sleeve 4 22, fixing sleeve 2 16 and fixing sleeve 4 22 is made to be bonded and will erect with crossbeam 1 and crossbeam 22 Beam 24 is fixed completion and is adjusted.

In conclusion this is used for the telescopic steel construction cable-stayed support of building, by the way that limited block 1, limiting slot one is arranged 7, the length of vertical beam 1 and vertical beam 24 can be adjusted in limited block 29 and limiting slot 2 10, thus to crossbeam 1 with The distance between crossbeam 22 is adjusted, and by setting sliding block 1, fixed link 1, fixing sleeve 1, sliding block 3 17, consolidates Fixed pole 3 18 and fixing sleeve 3 19 can allow vertical beam 1 that can move between crossbeam 1 and crossbeam 22, by the way that sliding block is arranged 2 14, fixed link 2 15, fixing sleeve 2 16, sliding block 4 20, fixed link 4 21 and fixing sleeve 4 22 can allow vertical beam 24 can be with It is moved between crossbeam 1 and crossbeam 22, so that the distance between vertical beam 1 and vertical beam 24 are adjusted, it can be to oblique pull The adjusting that support carries out size improves the working efficiency of construction so that worker be facilitated to construct, and shortens the construction time, solves existing Some cable-stayed supports can not adjusting size the problem of.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (5)

1. one kind is used for the telescopic steel construction cable-stayed support of building, including crossbeam one (1) and crossbeam two (2), it is characterised in that: The crossbeam one (1) is located at the top of crossbeam two (2), is movably installed with vertical beam one between the crossbeam one (1) and crossbeam two (2) (3) and vertical beam two (4), the vertical beam one (3) are located at the left side of vertical beam two (4), and the vertical beam one (3) includes beam casing one (301) With beam core one (302), the beam casing one (301) is socketed in the surface of Liang Xin mono- (302) bottom end, beam casing one (301) left side Top be fixedly connected with accommodate block one (5), it is described accommodate block one (5) internal slide be connected with limited block one (6), the beam Limiting slot one (7) is offered on the left of core one (302), the right end of the limited block one (6) extends to the inside of beam casing one (301) And be connected in limiting slot one (7), the vertical beam two (4) includes beam casing two (401) and beam core two (402), the beam casing two (401) it is socketed in the surface of Liang Xin bis- (402) bottom end, the top on the right side of the beam casing two (401), which is fixedly connected with, accommodates block two (8), the internal slide for accommodating block two (8) is connected with limited block two (9), and the right side opening of the beam core two (402) is equipped with limit Position slot two (10), the left end of the limited block two (9) extends to the inside of beam casing two (401) and is connected to limiting slot two (10) Interior, the beam casing one (301) and beam casing two (401) are movably arranged on the top of crossbeam two (2), the beam casing one (301) Bottom is fixedly connected with sliding block one (11), and the sliding block one (11) is slidably connected at the inside of crossbeam two (2), the sliding block one (11) front is fixedly connected with fixed link one (12), and the front end of the fixed link one (12) extends to the outside of crossbeam two (2), The surface that the fixed link one (12) is located at the external one end of crossbeam two (2) is threaded with fixing sleeve one (13), the fixing sleeve The back side of one (13) is flexibly connected with the front of crossbeam two (2), and the bottom of the beam casing two (401) is fixedly connected with sliding block two (14), the sliding block two (14) is slidably connected at the inside of crossbeam two (2), and the front of the sliding block two (14) is fixedly connected with solid Fixed pole two (15), the front end of the fixed link two (15) extend to the outside of crossbeam two (2), and the fixed link two (15) is located at cross The surface of the external one end of beam two (2) is threaded with fixing sleeve two (16), the back side of the fixing sleeve two (16) and crossbeam two (2) Front be flexibly connected, the beam core one (302) and beam core two (402) are movably arranged on the bottom of crossbeam one (1), the beam Sliding block three (17) is fixedly connected at the top of core one (302), the sliding block three (17) is slidably connected at the inside of crossbeam one (1), The front of the sliding block three (17) is fixedly connected with fixed link three (18), and the front end of the fixed link three (18) extends to crossbeam one (1) outside, the surface that the fixed link three (18) is located at the external one end of crossbeam one (1) are threaded with fixing sleeve three (19), the back side of the fixing sleeve three (19) is flexibly connected with the front of crossbeam one (1), and the top of the beam core two (402) is solid Surely it is connected with sliding block four (20), the sliding block four (20) is slidably connected at the inside of crossbeam one (1), and the sliding block four (20) is just Face is fixedly connected with fixed link four (21), and the front end of the fixed link four (21) extends to the outside of crossbeam one (1), the fixation The surface that bar four (21) is located at the external one end of crossbeam one (1) is threaded with fixing sleeve four (22), the fixing sleeve four (22) The front of the back side and crossbeam one (1) be flexibly connected.

2. according to claim 1 a kind of for the telescopic steel construction cable-stayed support of building, it is characterised in that: the beam The inner wall of one (301) of set and beam casing two (401) is fixedly connected to positioned at beam core one (302) and beam core two (402) front and back The front and back of the gib block (23) in face, the beam core one (302) and beam core two (402) offers guide groove (24), institute Gib block (23) is stated to be slidably connected in guide groove (24).

3. according to claim 1 a kind of for the telescopic steel construction cable-stayed support of building, it is characterised in that: the limit It is fixedly connected to drive block (25) at the top and bottom of position block one (6) and limited block two (9), the side of the drive block (25) It is fixedly connected with pressure spring (26), the pressure spring (26) one end and receiving block one (5) and receiving block two (8) far from drive block (25) Inner wall be fixedly connected.

4. according to claim 1 a kind of for the telescopic steel construction cable-stayed support of building, it is characterised in that: the limit Position block one (6) and limited block two (9) extend respectively to accommodate block one far from one end of limiting slot one (7) and limiting slot two (10) (5) it and accommodates the outside of block two (8) and is fixedly connected to pulling block (27).

5. according to claim 1 a kind of for the telescopic steel construction cable-stayed support of building, it is characterised in that: the cross Beam two (2) includes girder three (201), girder four (202) and auxiliary girder two (203), the girder three (201) and girder four (202) It is movably arranged on the left and right side of auxiliary girder two (203) respectively, is fixedly connected with link block three on the left of the auxiliary girder two (203) (36), the right side opening of the girder three (201) is equipped with link slot three (37), and the left end of the link block three (36) is movably connected in In link slot three (37), link block four (38) is fixedly connected on the left of the girder four (202), the auxiliary girder two (203) Right side opening is equipped with link slot four (39), and the left end of the link block four (38) is movably connected in link slot four (39), the pair Two sides at the top and bottom of beam two (203) are fixedly connected to bearing rod three (40), girder three (201) top and bottom Be fixedly connected to bearing rod four (41) on the left of right side and girder four (202) top and bottom, the bearing rod three (40) and The surface of bearing rod four (41) is socketed with briquetting two (42), and the side of the briquetting two (42) is flexibly connected with crossbeam two (2), The briquetting two (42) is connected with far from the side of crossbeam two (2) and is threaded in bearing rod three (40) and bearing rod four (41) nut two (43) on surface.