CN221256090U - Building equipment strutting arrangement with antidumping structure - Google Patents

Abstract

The utility model discloses a building equipment supporting device with an anti-overturning structure, wherein the supporting device comprises a first supporting piece, a second supporting piece and a telescopic component, the anti-overturning structure is used for providing directional constraint force for the supporting device and guiding the supporting device to stably ascend, and the anti-overturning structure comprises: the first anti-overturning piece is connected with the first supporting piece and comprises a plurality of first anti-inclination pieces and first guide wheel sets arranged at two ends of the first anti-inclination pieces, and the first guide wheel sets are in rolling connection with the second supporting piece. Through the structural arrangement of the first anti-overturning piece, the problem that the first supporting piece shakes and inclines in the climbing process is solved.

Description

Building equipment strutting arrangement with antidumping structure

Technical Field

The utility model relates to the technical field of building equipment, in particular to a building equipment supporting device with an anti-overturning structure.

Background

The building machine is an integrated platform for building construction, and is mainly an industrial intelligent building device for realizing cast-in-situ reinforced concrete of high-rise buildings in a mechanical operation and intelligent control mode.

The construction integration platform is generally lifted by the supporting device, so that lifting of the construction integration platform is realized, but the supporting device of the traditional construction integration platform is heavy and cannot realize standardized design, and the economical efficiency and the practicability are poor. The support device mainly comprises a hanging seat fixedly connected with a wall body, a rail upright post connected with an upper reversing box, a sleeve frame connected with a lower reversing box, a hydraulic cylinder and the like, wherein the hydraulic cylinder is required to drive the upper reversing box and the lower reversing box to repeatedly move during climbing operation so as to realize alternate climbing of the rail upright post and the sleeve frame, and the locking and releasing operation of the upper reversing box, the lower reversing box, the rail upright post and the sleeve frame are required to be manually executed during climbing.

In the in-service use, the upper end of track stand is connected with the construction integration platform of top, and the lower extreme is connected with the pneumatic cylinder, through the cooperation of pneumatic cylinder, cover frame and hanging seat, makes the track stand upwards climb to rise construction integration platform, but at the in-process that the track stand climbs, because the weight of construction integration platform and the influence at factors such as high altitude wind-force, the phenomenon of rocking about the track stand can appear, appears the sign of slope even, causes construction integration platform's raise efficiency to reduce, also leads to the security risk to rise simultaneously.

For this reason, it is necessary to provide a building equipment supporting device with an anti-overturning structure.

Disclosure of utility model

In order to overcome the defects of the prior art, the utility model provides a building equipment supporting device with an anti-overturning structure.

The technical scheme of the utility model is as follows:

Building equipment strutting arrangement with antidumping structure, wherein, strutting arrangement includes first support piece, second support piece and expansion assembly, antidumping structure is used for providing directional restraining force for strutting arrangement, and guide strutting arrangement steadily rises, wherein, antidumping structure includes: the first anti-overturning piece is connected with the first supporting piece and comprises a plurality of first anti-inclination pieces and first guide wheel sets arranged at two ends of the first anti-inclination pieces, and the first guide wheel sets are in rolling connection with the second supporting piece.

In one possible implementation manner, the telescopic device further comprises a second anti-overturning piece arranged on the telescopic component, wherein the second anti-overturning piece comprises a plurality of second anti-inclination pieces and second guide wheel sets arranged at two ends of the second anti-inclination pieces, and the second guide wheel sets are in rolling connection with the second supporting pieces.

In one possible implementation manner, the first anti-tilting member includes an anti-tilting bracket, and a fixing hole is provided on the anti-tilting bracket, and the fixing hole is used for being connected with the first supporting member.

In one possible implementation manner, two ends of the anti-tilting bracket are provided with connecting folding arms, and a plurality of first connecting holes are formed in the connecting folding arms;

The first guide wheel set comprises a plurality of first roller units and a plurality of first connecting pieces, one end of each first connecting piece penetrates through the corresponding first connecting hole, and the other end of each first connecting piece is connected with each first roller unit.

In one possible implementation manner, a first adjusting hole is formed in the connecting folding arm, one end of the first connecting piece passes through the first adjusting hole, and the first adjusting hole is used for adjusting the distance between the first roller unit and the second supporting piece.

In one possible implementation manner, the telescopic assembly comprises a hydraulic sleeve frame, the hydraulic sleeve frame comprises a plurality of arc sleeves, a plurality of extension folding arms are arranged on the arc sleeves, and second connecting holes are formed in the extension folding arms;

The second guide wheel set comprises a plurality of second roller units and a plurality of second connecting pieces, one end of each second connecting piece penetrates through the corresponding second connecting hole, and the other end of each second connecting piece is connected with each second roller unit.

In one possible implementation manner, the extension folding arm is provided with a second adjusting hole, one end of the second connecting piece passes through the second adjusting hole, the other end of the second connecting piece is connected with the second roller unit, and the second adjusting hole is used for adjusting the distance between the second roller unit and the second supporting piece.

According to the scheme, the building equipment supporting device with the anti-overturning structure has the beneficial effects that the building equipment supporting device with the anti-overturning structure comprises the first anti-overturning piece arranged between the first supporting piece and the second supporting piece, and the first guide wheel group is driven to move on the inner wall of the first supporting piece through the first anti-overturning piece, wherein the first anti-overturning piece has larger bearing capacity, so that shaking force and the like received by the first supporting piece in the climbing process can be resisted, the first supporting piece is more stable in the lifting process along the vertical direction, the shaking degree of the first supporting piece is reduced, meanwhile, the first supporting piece can be prevented from being clear relative to the second supporting piece through the structural arrangement of the first anti-overturning piece, and the safety of the lifting construction integrated platform is improved to a certain extent.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic view of the wall-attached assembly according to the present embodiment;

FIG. 4 is a schematic structural view of a first anti-overturning member according to the present embodiment;

fig. 5 is a schematic structural diagram of a second anti-overturning member in the present embodiment.

In the figure:

10. A wall-attached component; 11. a connecting piece; 111. a male strip; 12. a first claw hook; 13. a second claw hook; 14. a wall-attached bottom plate; 141. a concave groove; 20. a first support; 21. a bearing block; 30. a second support; 31. a ladder block; 311. rotating the fracture; 32. clamping counter bores; 40. a telescoping assembly; 41. a hydraulic sleeve frame; 411. an arc sleeve; 412. extending the folding arm; 413. a second connection hole; 414. a second adjustment aperture; 415. a telescopic hole site; 42. a hydraulic member; 50. a clamping expansion piece; 51. a sliding block; 52. a driving motor; 60. a first anti-overturning member; 61. a first anti-tilting member; 611. an anti-tilting bracket; 612. a fixing hole; 613. connecting folding arms; 614. a first connection hole; 615. a first adjustment aperture; 62. a first guide wheel set; 621. a first roller unit; 622. a first connector; 70. a second anti-overturning member; 71. a second anti-tilting member; 72. the second guide wheel set; 721. a second roller unit; 722. and a second connecting piece.

Detailed Description

The utility model is further described below with reference to the drawings and embodiments:

It should be noted that, building equipment mainly includes construction integration platform and is used for jacking, support construction integration platform's supporting arrangement, and wherein, supporting arrangement is including being used for jacking construction integration platform's strutting arrangement to and be used for providing the wall support that attaches of jacking supporting point for strutting arrangement, attaches the wall support and installs in the wall body outside, and carries out the atress to strutting arrangement through the claw hook that attaches on the wall support and accept, provides the atress point for strutting arrangement to construction integration platform jacking. Specifically, during the process of lifting the construction integration platform, due to the weight of the construction integration platform and the influence of factors such as wind power in high altitude, the rail upright post can shake left and right, even show the sign of inclination, so that the lifting efficiency of the construction integration platform is reduced, and meanwhile, the safety risk is also increased.

As shown in fig. 1 to 5, the utility model discloses a building equipment supporting device with an anti-overturning structure, which comprises at least 4 wall attaching components, a first supporting component, a second supporting component, a telescopic component and a clamping telescopic component which are arranged on the outer side of a wall, wherein the first supporting component is movably arranged in the second supporting component, one end of the first supporting component is used for being connected with a construction integration platform, the first supporting component and the second supporting component are both hung on the wall attaching components, the wall attaching components provide supporting force for the first supporting component and the second supporting component, in addition, the telescopic component is movably arranged in the second supporting component, one end of the telescopic component is connected with the other end of the first supporting component, the telescopic component stretches and lifts the first supporting component, the clamping telescopic component is arranged on the telescopic component and is connected with the second supporting component in a clamping way, and the second supporting component is contracted and lifted by combining the telescopic component.

In this embodiment, the building wall is provided with at least 4 wall-attached components linearly along the vertical direction, the distance between two adjacent wall-attached components is the height of one floor, and the errors between the wall-attached components up and down, left and right are not more than 5mm. The upper end of first support piece is connected with construction integration platform, and hang on locating two adjacent wall components that attach on +1, the n+2, the lower extreme of first support piece adopts articulated connection with the upper end of flexible subassembly, wherein, be cavity in the second support piece, first support piece and flexible subassembly reciprocate in the second support piece along the vertical direction, and second support piece hangs on two adjacent wall components that attach on N, the n+1, in addition, be equipped with the screens extensible part on the flexible subassembly, the screens extensible part is used for stretching out the screens structure according to climbing needs, make its screens structure and the scalable screens of second support piece be connected. Specifically, when jacking first support piece and construction integration platform climbs, second support piece hangs to be located on the wall-attached subassembly, and screens extensible member is connected with second support piece screens, provides holding power for the extensible member, is convenient for upwards exert oneself, and extensible member upwards stretches, drives first support piece and construction integration platform and climbs. In addition, when the second support piece is pulled up, the first support piece is hung on the wall attaching assembly, the clamping telescopic piece is connected with the clamping of the second support piece, and the telescopic assembly is retracted upwards to pull the second support piece to climb. Thirdly, when the positions of the first supporting piece and the second supporting piece are unchanged, the telescopic component contracts or stretches, the first supporting piece and the second supporting piece are hung on the wall attaching component, and the clamping telescopic piece is separated from the second supporting piece, so that the telescopic component contracts or stretches in the second supporting piece along the vertical direction. Through the structure setting of flexible subassembly and screens extensible member for flexible subassembly is through stretching or shrink jacking first support piece and the second support piece of pulling up, and for traditional building equipment needs to realize realizing that track stand and cover frame climbs in turn through driving upper and lower switching-over box repetitive motion through the pneumatic cylinder, and traditional building equipment need manual execution upper and lower switching-over box and track stand and cover frame locking and the operation of unclamping in climbing the in-process. The utility model has the advantages of simpler and more convenient operation and higher automation degree in the climbing process of the jacking construction integrated platform.

Further, referring to fig. 1-3, the wall attachment assembly includes a connecting member, a first claw hook is provided on the connecting member, the first claw hook is rotatably connected with the connecting member, in addition, the first supporting member is provided with a plurality of bearing blocks, the bearing blocks are adapted to the first claw hook, and the first claw hook is used for bearing the bearing blocks.

In this embodiment, referring to fig. 3, the connecting piece is the backup pad, be equipped with 2 bearing plates that have a certain interval on the backup pad keeps away from the side of wall between, bearing plate perpendicular to backup pad sets up, and bearing plate and backup pad welded fastening, form first upset groove between 2 bearing plates, wherein, all be equipped with the rotation hole on the 2 bearing plates, install the round pin axle in the rotation hole, be equipped with the upset hole with round pin axle looks adaptation on the first claw hook, first claw hook cup joints at the round pin epaxial through the upset hole, and first claw hook rotatable setting is epaxial at the round pin, thereby make first claw hook and connecting piece rotate and be connected. In addition, the first support piece is the telescopic boom of middle fretwork to equidistant a plurality of bearing blocks of being equipped with along the vertical direction in one side that is close to the wall, at the in-process that first support piece was climbing, along with a plurality of bearing blocks along when the vertical direction upwards moved, first claw hook upwards overturns around the round pin axle under the promotion of bearing block, and first claw hook under the effect of self gravity, can overturn, reset downwards around the round pin axle between 2 bearing blocks about adjacent, thereby make first claw hook can support first support piece, and do not influence first support piece and climb along the vertical direction.

Further, referring to fig. 3, two sides of the first claw hook are respectively provided with a second claw hook, the second claw hook is rotationally connected with the connecting piece, in addition, the second supporting piece is provided with at least 4 ladder stops, the ladder stops are matched with the second claw hooks, and the second claw hooks are used for receiving the ladder stops

In this embodiment, referring to fig. 2 and 3, the connecting plate is further provided with 2 bearing auxiliary plates, the 2 bearing auxiliary plates are located at two sides of the 2 bearing plates, the bearing auxiliary plates are perpendicular to the connecting plate and are welded and fixed with the connecting plate, and a second overturning groove is formed between the bearing plates and the bearing auxiliary plates, wherein the 2 bearing auxiliary plates are also provided with rotating holes, pin shafts are also installed in the rotating holes, the second claw hooks are also provided with overturning holes matched with the pin shafts, the second claw hooks are sleeved on the pin shafts through the overturning holes, and the second claw hooks are rotatably arranged on the pin shafts, so that the second claw hooks are rotatably connected with the connecting piece. In addition, the second support piece is the expansion bracket of middle fretwork, first support piece sets up in the second support piece, but the setting of telescopic boom activity about promptly is in the expansion bracket, and be equipped with along vertical direction in one side equidistant being close to the wall and be no less than 4 with the ladder fender, at the in-process that second support piece is climbing, the ladder keeps off along vertical direction and upwards moves, the second claw hook is upwards overturned around the round pin axle under the promotion of ladder fender, and the second claw hook can be under the effect of self gravity around the round pin axle downwards upset, reset between 2 ladder fenders from top to bottom adjacent, thereby make the second claw hook support second support piece, and do not influence the second support piece and climb along vertical direction.

It should be explained that the inner sides of the first claw hook and the second claw hook are respectively provided with a tangent plane with a certain angle, so that the claw hooks can turn upwards conveniently, the turning angle is not too large, and the reset angle is lost. The first claw hook and the convex claw teeth of the second claw hook are provided with sloping surfaces, so that the bearing block of the first supporting piece is conveniently guided to fall on the first claw hook, and the ladder block of the second supporting piece is conveniently guided to fall on the second claw hook. In addition, the first claw hook and the second claw hook are provided with claw teeth, so that the first supporting piece and the second supporting piece can be conveniently limited.

Further, referring to fig. 1, a rotation fracture is arranged between the continuous 4 steps at the upper end of the second supporting piece, the rotation fracture is matched with the second claw hook, and the rotation fracture is used for providing space for overturning the first claw hook.

In this embodiment, be equipped with a plurality of ladder on the second support piece along vertical direction, the ladder keeps off and is used for with second claw hook looks adaptation, and wherein, the first root of upper end of second support piece to fourth ladder keep off all are equipped with rotatory port, through the structure setting of rotatory fracture, can effectually provide the space for the upset of first claw hook.

Further, referring to fig. 1, 2 and 5, the telescopic assembly comprises a hydraulic sleeve frame, the hydraulic sleeve frame is connected with the clamping telescopic member, wherein a clamping counter bore matched with the clamping telescopic member is arranged on the second supporting member, and the clamping telescopic member can be clamped in the clamping counter bore in a telescopic manner.

In this embodiment, the both sides face of second support piece evenly is provided with a plurality of screens counter bores along the vertical direction, the screens counter bore is used for the screens to pull up second support piece, wherein, flexible subassembly includes hydraulic sleeve frame and hydraulic part, the hydraulic part can be the pneumatic cylinder, and the pneumatic cylinder sets up at second support piece internal activity, make second support piece and hydraulic part sleeve sliding connection, be equipped with the cover groove on the hydraulic part, the hydraulic sleeve frame is installed in the cover groove, make hydraulic sleeve frame cover establish on the hydraulic part, the screens extensible part sets up on the hydraulic sleeve frame and with the position looks adaptation of screens counter bore, specifically, screens extensible in the screens counter bore, make second support piece and screens extensible screens connection of screens extensible fix.

It should be explained that when the second support member is required to be lifted, or the first support member is lifted, the clamping telescopic members selectively extend into the clamping counter bores with corresponding heights, so as to transfer upward tensile force to the first support member, or provide supporting points for the first support member to climb.

Further, referring to fig. 5, a telescopic hole is formed in the hydraulic sleeve frame, wherein the clamping telescopic piece comprises a sliding block arranged in the telescopic hole, and a driving motor, and the driving motor drives the sliding block to be positioned in the clamping counter bore.

In this embodiment, the slip retaining block is clearance fit with the hydraulic sleeve frame, specifically, the slip retaining block is telescopic to be installed in flexible hole site, and is equipped with the rack on the slip retaining block, wherein, driving motor and hydraulic sleeve frame screw connection are fixed, and locate the gear that has rack looks adaptation on the slip retaining block on the driving motor, driving motor receives remote control to control slip retaining block selectivity stretch into in the screens counter bore, the flexible subassembly jacking of being convenient for first support piece or the second support piece of pulling up.

In some embodiments, referring to fig. 1, 2, 4 and 5, the support device further comprises a first anti-toppling member rotatably coupled to the second support member, the first anti-toppling member coupled to the first support member, the first anti-toppling member for providing a restraining force to guide the first support member to stably climb.

In this embodiment, the first anti-overturning piece is disposed in the second support piece, is not between the first support piece and the second support piece, and is rotationally connected with the second support piece along with climbing of the first support piece, so that lateral constraint force is provided for climbing of the first support piece through the first anti-overturning piece, directional constraint on the first support piece is formed, shaking or tilting of the first support piece when the first support piece ascends in the second support piece is avoided, and climbing efficiency and safety of the first support piece are improved to a certain extent.

In some embodiments, the support device comprises a first support member, a second support member and a telescopic assembly, the anti-overturning structure is used for providing directional constraint force for the support device body and guiding the support device to stably ascend, wherein the anti-overturning structure comprises a first anti-overturning member connected with the first support member, the first anti-overturning member comprises a plurality of first anti-tilting members and first guide wheel groups arranged at two ends of the first anti-tilting members, and the first guide wheel groups are in rolling connection with the second support member.

In this embodiment, be equipped with fixed extension board on the first support piece, set up the bolt hole on the fixed extension board, in addition, first anti-toppling piece includes first anti-tilting member, first anti-tilting member passes through bolt hole and fixed extension board and first support piece bolted connection is fixed, the both ends of first anti-tilting member all are provided with first direction wheelset, and the inboard roll connection of first direction wheelset and second support piece, thereby make first anti-toppling piece form the side direction confining force to first support piece, thereby improve the stationarity of first support piece at climbing in-process.

It should be explained that, the second support piece is the expansion bracket of middle fretwork, first support piece is the flexible arm, and first support piece and flexible subassembly all set up in the second support piece, at the in-process that flexible subassembly jack-up first support piece climbs, along with first support piece climbs, first anti-tilt piece drives first direction wheelset and removes on the inner wall of first support piece, wherein, first anti-tilt piece has great bearing capacity, thereby make can resist the shaking force etc. that first support piece received at climbing process, thereby make first support piece more steady at the in-process of rising along the vertical direction, the degree of rocking of first support piece has been reduced, simultaneously, through the structural setting of first anti-tilt piece, can avoid first support piece to appear clearly for the second support piece, and the security when lifting construction integration platform has been improved to a certain extent.

Further, referring to fig. 1, 2 and 4, the telescopic device further comprises a second anti-overturning piece arranged on the telescopic component, the second anti-overturning piece comprises a plurality of second anti-tilting pieces and second guiding wheel sets arranged at two ends of the second anti-tilting pieces, and the second guiding wheel sets are in rolling connection with the second supporting pieces.

In this embodiment, the telescopic subassembly is located the below of first support piece, and the second antidumping piece is located between telescopic subassembly and the second support piece, and when first support piece was stood, the in-process that the telescopic subassembly pulled up second support piece, because the second support piece itself can appear rocking to a certain extent, can increase the structural connection stability between second support piece and the telescopic subassembly through the second antidumping piece, simultaneously, can also be to the side direction stroke constraint power of second support piece to improve the stationarity of second support piece in climbing the in-process.

Further, referring to fig. 4, the first anti-tilting member includes an anti-tilting bracket provided with a fixing hole for connection with the first supporting member.

In this embodiment, both ends of the anti-tilting bracket are provided with fixing holes adapted to the bolt holes, so that the anti-tilting bracket is fixed to the first support member through connection of the bolts. Through the structure setting of fixed orifices, can better make anti-tilting bracket and first support piece be connected, improved the structural connection stability between first support piece and the anti-tilting bracket.

Further, referring to fig. 4, the two ends of the anti-tilting bracket are both provided with a connecting folding arm, and a plurality of first connecting holes are formed in the connecting folding arm.

In this embodiment, the first support piece is the cuboid shape, and be equipped with equal first antidumping piece in the both sides of first support piece, wherein, the middle part fretwork shape of second support piece is the same with the shape of first support piece, in addition, two first connecting holes towards mutually perpendicular are seted up on the connection book arm, first direction wheelset includes 4 first gyro wheel units and 4 first connecting pieces, wherein, 2 first gyro wheel units and 2 first connecting pieces are a set of and set up in the one end of connecting book arm, specifically, one end of first connecting piece passes one of them first connecting hole and bolted connection is fixed, the other end and one of them first gyro wheel unit bolted connection of first connecting piece, the same connected mode is also adopted to the another one first gyro wheel unit of same one end on the connection book arm, and, the orientation mutually perpendicular of two first gyro wheel units sets up, thereby match the adjacent inner wall of second support piece. Through the structural arrangement of the 2 first anti-overturning parts arranged on the first supporting part, the first roller unit can simultaneously roll and abut against four transfer-over adjacent two inner walls of the second supporting part, so that the first supporting part is prevented from shaking in the second supporting part when climbing, and the climbing stability of the first supporting part is improved.

Further, referring to fig. 4, a first adjusting hole is formed in the connecting folding arm, one end of the first connecting piece is arranged through the first adjusting hole, and the first connecting piece is used for adjusting the distance between the first roller unit and the second supporting piece.

In this embodiment, be equipped with 2 first regulation holes in proper order in one side of first connecting hole, the one end of first connecting piece can pass first regulation hole setting, through installing first connecting piece in different first regulation holes, can adjust the distance between first gyro wheel unit and the second support piece inner wall rather than being connected, through the interval between can adjusting first antidumping piece and the second support piece, thereby change the side direction constraint dynamics of first antidumping piece to first support piece, and then improved the control to first support piece degree of rocking, can understand simultaneously to improve first support piece's antidumping ability to a certain extent.

Further, referring to fig. 1, 2, 4 and 5, the support device further includes a second anti-overturning member rotatably coupled to the second support member, the second anti-overturning member coupled to the telescoping assembly, the second anti-overturning member configured to provide a restraining force to guide the second support member to stably climb.

In this embodiment, the second anti-overturning piece is disposed in the second supporting piece and is located between the telescopic component and the second supporting piece, when the telescopic component moves up and down in the second supporting piece along the vertical direction, the second anti-overturning piece is rotationally connected with the second supporting piece, or when the second supporting piece is lifted, the second anti-overturning piece has a larger bearing capacity, so that lateral constraint is provided for the second supporting piece, sliding and tilting of the second supporting piece are prevented, and smooth lifting of the second supporting piece is conveniently guided.

In some embodiments, referring to fig. 1, 2 and 5, the telescopic assembly comprises a hydraulic sleeve frame, the hydraulic sleeve frame comprises a plurality of arc sleeves, a plurality of extension folding arms are arranged on the arc sleeves, second connecting holes are formed in the extension folding arms, in addition, the second guiding wheel set comprises a plurality of second roller units and a plurality of second connecting pieces, one end of each second connecting piece penetrates through each second connecting hole, and the other end of each second connecting piece penetrates through each second roller unit to be connected.

In this embodiment, the hydraulic sleeve frame includes 2 arc covers, thereby 2 arc covers all face the hydraulic part opening, and thereby 2 arc cover bolted connection are fixed in on the hydraulic part, wherein, the both ends of arc cover all extend and form and extend the book arm, extend and be equipped with 2 second connecting holes towards mutually perpendicular on the book arm, in addition, the second direction wheelset includes 4 second gyro wheel units and 4 second connecting pieces, wherein, 2 second gyro wheel units and 2 second connecting pieces are a set of and set up in the one end that extends the book arm, specifically, one end of second connecting piece passes one of them second connecting hole and bolted connection is fixed, thereby the other end and one of them second gyro wheel unit bolted connection of second connecting piece are fixed, the same connected mode is also adopted to the another second gyro wheel unit of the same one end on the extension book arm, and, the orientation mutually perpendicular of two second gyro wheel units sets up, thereby match the adjacent inner wall of second support piece. Through the structural setting of setting up 2 second antidumping pieces on the hydraulic part of flexible subassembly, make second gyro wheel unit can roll the butt simultaneously to four of second support piece inner wall and transfer adjacent two inner walls to avoid the second support piece to take place to rock when being pulled up, improved the stationarity that the second support piece climbs.

Further, referring to fig. 5, a second adjusting hole is formed in the extending folding arm, one end of the second connecting piece passes through the second adjusting hole, the other end of the second connecting piece is connected with the second roller unit, and the second adjusting hole is used for adjusting the distance between the second roller unit and the second supporting piece.

In this embodiment, be equipped with 2 second regulation holes in proper order in one side of second connecting hole, the one end of second connecting piece can pass second regulation hole setting, through installing the second connecting piece in different second regulation holes, can adjust the distance between second gyro wheel unit and the second support piece inner wall that is connected with it, through the interval between can adjusting second anti-toppling piece and the second support piece, thereby change the lateral constraint dynamics of second anti-toppling piece to the second support piece, and then improved the control to second support piece degree of rocking, can understand simultaneously to improve the anti-toppling ability of second support piece to a certain extent.

Further, referring to fig. 3, the wall-attached assembly further includes a wall-attached bottom plate, a concave groove is formed in the wall-attached bottom plate, a convex strip adapted to the concave groove is arranged on the connecting piece, and the wall-attached base is connected and fixed with the connecting piece in a clamping mode.

In this embodiment, the connecting piece is close to one side of wall body and is equipped with protruding type strip, wherein, has preset the built-in fitting on the building wall body, attaches wall bottom plate and built-in fitting connection fixed, and attaches wall bottom plate one side that keeps away from the wall body and be equipped with the convex slot. The wall-attached bottom plate is fixedly connected with the connecting piece in a sliding manner through the concave groove and the convex strip, wherein a fixing perforation is formed through the concave groove and the convex strip, a pin shaft is arranged in the fixing perforation, and the pin shaft penetrates through the fixing perforation, so that the longitudinal movement of the convex strip in the concave groove is limited, the stability of the connecting structure between the wall-attached assembly and the building wall is improved, and the safety of the wall-attached wall is improved to a certain extent.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the implementation of the utility model is not limited by the above manner, and it is within the scope of the utility model to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted, or without any improvement.

Claims (7)

1. Building equipment strutting arrangement with antidumping structure, wherein, strutting arrangement includes first support piece, second support piece and expansion assembly, its characterized in that, antidumping structure is used for providing directional restraining force for strutting arrangement, and guide strutting arrangement steadily rises, wherein, antidumping structure includes: the first anti-overturning piece is connected with the first supporting piece and comprises a plurality of first anti-inclination pieces and first guide wheel sets arranged at two ends of the first anti-inclination pieces, and the first guide wheel sets are in rolling connection with the second supporting piece.

2. The building equipment supporting device with the anti-overturning structure according to claim 1, further comprising a second anti-overturning piece arranged on the telescopic assembly, wherein the second anti-overturning piece comprises a plurality of second anti-inclination pieces and second guide wheel sets arranged at two ends of the second anti-inclination pieces, and the second guide wheel sets are in rolling connection with the second supporting piece.

3. A building equipment supporting apparatus with anti-toppling structure according to claim 2, wherein the first anti-tilting member comprises an anti-tilting bracket provided with a fixing hole for connection with the first supporting member.

4. A building equipment supporting device with an anti-overturning structure as claimed in claim 3, wherein both ends of the anti-overturning bracket are provided with connecting folding arms, and the connecting folding arms are provided with a plurality of first connecting holes;

The first guide wheel set comprises a plurality of first roller units and a plurality of first connecting pieces, one end of each first connecting piece penetrates through the corresponding first connecting hole, and the other end of each first connecting piece is connected with each first roller unit.

5. The building equipment supporting device with the anti-overturning structure according to claim 4, wherein a first adjusting hole is formed in the connecting folding arm, one end of the first connecting piece penetrates through the first adjusting hole, and the first adjusting hole is used for adjusting the distance between the first roller unit and the second supporting piece.

6. A building equipment supporting device with an anti-overturning structure as claimed in claim 2 or 5, wherein the telescopic assembly comprises a hydraulic sleeve frame, the hydraulic sleeve frame comprises a plurality of arc sleeves, a plurality of extension folding arms are arranged on the arc sleeves, and a second connecting hole is arranged on the extension folding arms;

The second guide wheel set comprises a plurality of second roller units and a plurality of second connecting pieces, one end of each second connecting piece penetrates through the corresponding second connecting hole, and the other end of each second connecting piece is connected with each second roller unit.

7. The building equipment supporting device with the anti-overturning structure according to claim 6, wherein a second adjusting hole is formed in the extending folding arm, one end of the second connecting piece penetrates through the second adjusting hole, the other end of the second connecting piece is connected with the second roller unit, and the second adjusting hole is used for adjusting the distance between the second roller unit and the second supporting piece.