CN115247486A - Safe operation platform for building construction - Google Patents

Abstract

The invention relates to the technical field of building construction operation platforms, and discloses a safe operation platform for building construction, which comprises a rail and a support platform which is connected with the rail in a sliding manner, wherein a support seat is arranged on the rail, a hydraulic cylinder is arranged on the support seat, a connecting cylinder is further connected onto the support seat, a vacuum sucker for adsorbing building materials is arranged on the connecting cylinder, the hydraulic cylinder is used for driving the vacuum sucker to move, an adjusting part is further arranged in the support seat and used for adjusting the position of the connecting cylinder, the adjusting part comprises a shaft rod which is connected onto the support seat in a rotating manner, and a disc is arranged on the shaft rod. According to the invention, the connecting cylinder and the vacuum chuck are pushed to shake through the short column, so that the vacuum chuck can rapidly drive the connecting plate to be buckled on the connecting groove, further, workers can rapidly install and finish the building materials, the possibility of manual high-altitude operation is reduced, and the safety of the workers in operation is greatly improved.

Description

Safe operation platform for building construction

Technical Field

The invention relates to the technical field of building construction operation platforms, in particular to a safe operation platform for building construction.

Background

With the rapid development of social economy, with the development of global buildings and the pulling up of high-rise buildings, the work of indoor building maintenance, cleaning and the like becomes difficult, and the application of an aerial work platform is more necessary.

However, when a worker is constructing the outer vertical surface of the building, the worker is required to carry a building material to stand on the support table, the worker is conveyed to a specified position through the support table in an upward sliding manner, then a part of the worker carries the building material to align and attach to the floor, and then the worker fixes the building material by mounting screws by other workers, or the tractor drives the building material to align and attach to the floor, but the tractor drives the building material to descend by using a rope, so that the descending precision of the tractor is insufficient, and the worker is required to move the building to adjust the building material to align and attach to the floor.

Disclosure of Invention

The invention provides a safety operation platform for building construction, which has the beneficial effect that workers cannot be quickly assisted to finish the installation of building materials, and solves the problem that the safety of the workers is low because the safety operation platform for building construction cannot be quickly assisted to finish the installation of the building materials in the background technology.

The invention provides the following technical scheme: a safe operation platform for building construction comprises a track and a supporting table connected with the track in a sliding manner, wherein a supporting seat is installed on the track, a hydraulic cylinder is installed on the supporting seat, a connecting cylinder is further connected to the supporting seat, a vacuum chuck for adsorbing building materials is installed on the connecting cylinder, and the hydraulic cylinder is used for driving the vacuum chuck to move;

still install adjusting part in the supporting seat, adjusting part is used for adjusting the position of connecting cylinder, adjusting part is including rotating the axostylus axostyle of connection on the supporting seat, install the disc on the axostylus axostyle, install adjusting part on the disc, the last short column of installing of adjusting part, the axle center of disc is kept away from in the axle center of short column, be connected with the second connecting rod on the short column, the second connecting rod is used for adjusting the position of connecting cylinder.

As an alternative of the safe operation platform for building construction of the present invention, wherein: the adjusting part comprises an adjusting groove arranged on the disc, a second telescopic rod is further mounted on the disc, an L-shaped plate is further mounted on the second telescopic rod, the L-shaped plate is connected inside the adjusting groove in a sliding mode, and the short column is connected to one side of the L-shaped plate;

the outer surface of the shaft lever is connected with a pushing component in a sliding mode, a conical block is installed on the pushing component, and the conical block is used for abutting against the L-shaped plate to slide.

As an alternative of the safe operation platform for building construction of the present invention, wherein: the pushing component comprises an internal thread sleeve rotatably connected inside the rotating device, the internal thread of the internal thread sleeve is connected with a threaded rod, the threaded rod is connected with the conical block, and the threaded rod is used for pushing the conical block to slide.

As an alternative of the safe operation platform for building construction of the present invention, wherein: the rotating device is further provided with a transmission part, the transmission part is used for driving the internal thread sleeve to rotate, the transmission part comprises a transmission shaft which is rotatably connected to the hydraulic cylinder, one end of the transmission shaft is rotatably connected with a first screw rod, the first screw rod is provided with a containing sleeve, the containing sleeve is provided with a limiting device, and the limiting device is used for assisting the connecting cylinder to slide;

the limiting device comprises an adjusting disc installed on the containing sleeve, an annular groove is formed in the adjusting disc, a T-shaped sliding block is connected in the annular groove in a sliding mode, a third telescopic column is installed on the T-shaped sliding block, and the third telescopic column is connected with the connecting cylinder.

As an alternative of the safe operation platform for building construction of the present invention, wherein: a first telescopic rod is arranged on the second connecting rod, a first connecting rod is arranged on the first telescopic rod, and the first connecting rod is connected to the outer surface of the connecting cylinder in a sliding manner;

the flexible post of third is the T shape, T shape slider and the flexible post looks adaptation of third, the inside of adjustment disk still is provided with the square groove, the internally mounted of square groove has first spring, install on the first spring and block the piece, still be provided with the bleeder vent that is used for the circulation air on the T shape slider, it is provided with the inclined plane to block on the piece.

As an alternative of the safe operation platform for building construction of the present invention, wherein: the vacuum suction cup device comprises a connecting cylinder, a rotating device and an adjusting disc, wherein the connecting cylinder is provided with a vacuum suction cup, the rotating device is arranged in the connecting cylinder and used for driving the vacuum suction cup to swing, the rotating device comprises a sliding rod which is connected in the connecting cylinder in a sliding manner, the adjusting disc is also provided with a conical hole, the sliding rod penetrates through one side of the connecting cylinder and is used for being connected in the conical hole in a sliding manner, a third spring is arranged in the connecting cylinder and connected with the sliding rod;

the inside of connecting cylinder rotates and is connected with the second hob, the inside of second hob is provided with the second helicla flute, install the second stopper on the slide bar, second stopper sliding connection is in the inside of second helicla flute, still install square board on the second hob, square board is connected with vacuum chuck.

As an alternative of the safe operation platform for building construction of the present invention, wherein: a second spring is arranged inside the receiving sleeve and connected with a first spiral rod, a first spiral groove is formed in the first spiral rod, a first limiting block is further connected inside the receiving sleeve, and the first limiting block is connected inside the first spiral groove in a sliding mode;

the square strip is all installed to the both sides of transmission shaft, still install the weld holder on the rotary device, the inside rotation of weld holder is connected with the swiveling wheel, the cover is equipped with the belt on the swiveling wheel, it is connected with the transfer line to rotate on the rotary device, be connected with one-way rotating member on the transfer line, install the axostylus axostyle on the one-way rotating member, the belt is used for driving the transfer line rotation.

As an alternative of the safe operation platform for building construction, the invention comprises: a strip-shaped groove is formed in the storage sleeve, and a first limiting block is connected in the strip-shaped groove in a sliding mode.

As an alternative of the safe operation platform for building construction of the present invention, wherein: the one-way rotating component comprises a short shaft arranged on the transmission rod, an extending plate is arranged on the short shaft, a containing groove is formed in the shaft rod, a rotating plate is rotatably connected inside the containing groove and used for containing the rotating plate, a welding block is further arranged inside the shaft rod and used for abutting against the rotating plate, and a spring plate is further arranged inside the shaft rod and connected with the rotating plate.

The invention has the following beneficial effects:

1. this safe operation platform is used in construction is built in room promotes connecting cylinder and vacuum chuck through the short column and rocks, lets vacuum chuck can be quick drive connecting plate buckle to the spread groove on, and then lets the workman can be quick accomplish building material installation, reduces artifical high altitude construction's possibility, has improved the security of workman's operation greatly.

2. This safe work platform is used in construction is built in room, it is rotatory to drive short column through the disc for short column constantly can promote the connecting cylinder under the extrusion of circular cone piece and strengthen the scope that vacuum chuck rocked gradually, makes the device let the drive connecting plate buckle that vacuum chuck can be faster on the mounting bracket.

3. This safe work platform is used in construction is built in room, through T shape slider sliding connection in the inside of ring channel, when the second connecting rod promoted the connecting cylinder and rocked, because T shape slider sliding connection is in the inside of ring channel for the connecting cylinder can only be regularly the circumference rotatory, and then realizes that the connecting cylinder regularly rocks, no longer rocks in a pure disorder, further strengthens the scope that vacuum chuck drove the connecting plate and rocked with this.

Drawings

Fig. 1 is a schematic structural view of the whole of the present invention.

Fig. 2 is a schematic view of the adjusting member of the present invention.

Fig. 3 is a schematic structural view of the limiting device of the present invention.

FIG. 4 is a schematic view of a portion of the structure shown in FIG. 3B according to the present invention.

FIG. 5 is a schematic view of the structure of the stopper and T-shaped slider of the present invention.

Fig. 6 is a cross-sectional view of the conditioning disk of the present invention.

Fig. 7 is a schematic structural view of a transmission member of the present invention.

FIG. 8 is a partial structure of FIG. 7 at A according to the present invention.

Fig. 9 is a schematic structural view of the shaft lever and the transmission lever of the present invention.

Fig. 10 is a schematic view of the rotating plate and the stub shaft of the present invention.

In the figure: 1. a support table; 2. a track; 3. a rotating device; 4. a hydraulic cylinder; 5. a transmission member; 6. a vacuum chuck; 7. an adjustment member; 8. a connecting cylinder; 9. a limiting device; 10. a transmission rod; 11. an internal thread sleeve; 12. a threaded rod; 13. a first telescopic rod; 14. a first connecting rod; 15. a supporting base; 16. a short axis; 17. extending the plate; 18. a rotating plate; 19. a storage groove; 20. a spring plate; 21. welding the blocks; 22. a blocking block; 23. a bevel; 24. a first spring; 25. a square groove; 26. a mounting frame; 27. connecting grooves; 28. a connecting plate; 29. cutting; 30. a conical block; 71. a shaft lever; 72. a disc; 73. a short column; 74. a second connecting rod; 75. an adjustment groove; 76. an L-shaped plate; 77. a second telescopic rod; 51. welding a frame; 52. a drive shaft; 53. square bars; 54. a rotating wheel; 55. a belt; 56. a first screw rod; 57. a first helical groove; 58. a storage sleeve; 59. a second spring; 50. a first stopper; 60. a strip-shaped groove; 31. a second screw rod; 32. a square plate; 33. a second helical groove; 34. a second limiting block; 35. a slide bar; 36. a third spring; 37. a taper hole; 91. an adjusting disk; 92. an annular groove; 93. a third telescopic column; 94. a T-shaped slider; 95. and (4) air holes.

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.

Example 1

Referring to fig. 1-3, a safe operation platform for building construction comprises a rail 2 and a support platform 1 which is connected with the rail 2 in a sliding manner, wherein a support seat 15 is arranged on the rail 2, a hydraulic cylinder 4 is arranged on the support seat 15, a connecting cylinder 8 is further connected onto the support seat 15, a vacuum chuck 6 for adsorbing building materials is arranged on the connecting cylinder 8, and the hydraulic cylinder 4 is used for driving the vacuum chuck 6 to move;

the adjusting component 7 is further installed in the supporting seat 15, the adjusting component 7 is used for adjusting the position of the connecting cylinder 8, the adjusting component 7 comprises a shaft rod 71 which is rotatably connected to the supporting seat 15, a disc 72 is installed on the shaft rod 71, the adjusting component is installed on the disc 72, a short column 73 is installed on the adjusting component, the axis of the short column 73 is far away from the axis of the disc 72, a second connecting rod 74 is connected to the short column 73, and the second connecting rod 74 is used for adjusting the position of the connecting cylinder 8.

In this embodiment:

shaking adjustment: according to fig. 2 and 3, the hydraulic cylinder 4 is used for pushing the vacuum chuck 6 to adsorb the connecting plate 28 to the mounting frame 26, and then the disc 72 is rotated, so that the disc 72 drives the short column 73 away from the axis of the disc 72 to eccentrically rotate, the short column 73 drives the second connecting rod 74 to push the connecting cylinder 8 to shake, the connecting cylinder 8 drives the vacuum chuck 6 to shake, so that the vacuum chuck 6 drives the inserting strip 29 on the connecting plate 28 to be continuously aligned with the connecting groove 27, the connecting plate 28 can be accurately mounted on the mounting frame 26, the device pushes the connecting cylinder 8 and the vacuum chuck 6 to shake through the short column 73, the vacuum chuck 6 can quickly drive the connecting plate 28 to be buckled on the connecting groove 27, the worker can quickly mount the building materials, the possibility of manual high-altitude operation is reduced, and the safety of the worker operation is greatly improved.

Example 2

The present embodiment is an improvement on embodiment 1, and according to fig. 1-3, the adjusting member includes an adjusting groove 75 disposed on the disc 72, a second telescopic rod 77 is further mounted on the disc 72, an L-shaped plate 76 is further mounted on the second telescopic rod 77, the L-shaped plate 76 is slidably connected inside the adjusting groove 75, and the short column 73 is connected to one side of the L-shaped plate 76;

the outer surface of the shaft lever 71 is connected with a pushing component in a sliding manner, the pushing component is provided with a conical block 30, and the conical block 30 is used for abutting against the L-shaped plate 76 to slide.

In this embodiment:

enlarging the exploration range: because the shaking of the connecting cylinder 8 driving the vacuum chuck 6 is completed by the disc 72 driving the eccentric short column 73 and the second connecting rod 74, and further the shaking range of the vacuum chuck 6 can be enlarged by adjusting the position of the short column 73, as shown in fig. 3, the adjusting groove 75 is arranged on the disc 72, and the cone block 30 continuously slides to the left side, so that the L-shaped plate 76 continuously extrudes the L-shaped plate 76 of the cone block 30 to slide upwards, and further the L-shaped plate 76 drives the short column 73 to further keep away from the axle center of the disc 72, and along with the rotation of the disc 72, the disc 72 drives the short column 73 to rotate, so that the short column 73 can continuously push the connecting cylinder 8 to gradually enlarge the shaking range of the vacuum chuck 6 under the extrusion of the cone block 30, and the device enables the vacuum chuck 6 to more quickly drive the connecting plate 28 to be buckled on the mounting rack 26.

Example 3

The present embodiment is an improvement made on the basis of embodiment 1, as shown in fig. 1 to 4, a transmission member 5 is further installed on the rotating device 3, the transmission member 5 is used for driving the internal thread bushing 11 to rotate, the transmission member 5 includes a transmission shaft 52 rotatably connected to the hydraulic cylinder 4, one end of the transmission shaft 52 is rotatably connected to a first screw rod 56, a receiving sleeve 58 is installed on the first screw rod 56, a limiting device 9 is installed on the receiving sleeve 58, and the limiting device 9 is used for assisting the connecting cylinder 8 to slide;

the limiting device 9 comprises an adjusting disc 91 arranged on the accommodating sleeve 58, an annular groove 92 is arranged in the adjusting disc 91, a T-shaped sliding block 94 is connected in the annular groove 92 in a sliding mode, a third telescopic column 93 is arranged on the T-shaped sliding block 94, and the third telescopic column 93 is connected with the connecting cylinder 8.

In this embodiment:

regularly shaking: according to the figure 4, the adjusting plate 91 is installed on one side of the containing sleeve 58, the third telescopic column 93 and the T-shaped sliding block 94 are further installed on the connecting cylinder 8, the T-shaped sliding block 94 is connected inside the annular groove 92 in a sliding mode, when the second connecting rod 74 pushes the connecting cylinder 8 to shake, the connecting cylinder 8 can only rotate in a regular circumferential mode due to the fact that the T-shaped sliding block 94 is connected inside the annular groove 92 in the sliding mode, and therefore the connecting cylinder 8 can shake regularly and is not prone to simple sloshing, and therefore the range of the connecting plate 28 driven by the vacuum chuck 6 to shake is further enlarged;

it should be particularly noted that, as shown in fig. 3, since the conical block 30 can be abutted against the position of the L-shaped plate 76 for adjusting the short column 73 to enlarge the shaking range of the connecting cylinder 8, a third telescopic column 93 is installed between the connecting cylinder 8 and the T-shaped slider 94, the third telescopic column 93 is the prior art, when the short column 73 pushes the second connecting rod 74 and the connecting cylinder 8 to slide upwards, the connecting cylinder 8 can compress the third telescopic column 93, so that the adjusted short column 73 can still push the connecting cylinder 8 to rotate circumferentially through the second connecting rod 74, and the second connecting rod 74 is rotatably connected to the short column 73, so that when the short column 73 pulls the second connecting rod 74 to rotate, the second connecting rod 74 cannot be locked.

Example 4

The present embodiment is an improvement on embodiment 3, and according to fig. 1 to 5, a first telescopic rod 13 is mounted on the second connecting rod 74, a first connecting rod 14 is mounted on the first telescopic rod 13, and the first connecting rod 14 is slidably connected to the outer surface of the connecting cylinder 8;

the third telescopic column 93 is T-shaped, the T-shaped sliding block 94 is matched with the third telescopic column 93, a square groove 25 is further formed in the adjusting disc 91, a first spring 24 is mounted in the square groove 25, a blocking block 22 is mounted on the first spring 24, an air hole 95 for air circulation is further formed in the T-shaped sliding block 94, and the inclined plane 23 is arranged on the blocking block 22.

In this embodiment: according to embodiment 3, the T-shaped sliding block 94 is slidably connected inside the annular groove 92, so that the connecting cylinder 8 can only perform regular circular motion, and it is ensured that the second connecting rod 74 cannot block the connecting cylinder 8, the first telescopic rod 13 is mounted on the second connecting rod 74 for accumulating force, when the short column 73 rotates to the lower end of the disc 72, the T-shaped sliding block 94 does not drive the connecting cylinder 8 to move, and then when the disc 72 drives the short column 73 to rotate again, the second connecting rod 74 pulls the T-shaped sliding block 94 to move, so that the T-shaped sliding block 94 slides downwards suddenly, so that the T-shaped sliding block 94 and the connecting cylinder 8 perform rapid circular motion, and the vacuum chuck 6 drives the insertion strip 29 on the connecting plate 28 to miss the connecting groove 27, so that the device reduces the fault tolerance and improves the efficiency of the mounting of the connecting plate 28 on the mounting frame 26, and the blocking block 22 is arranged inside the annular groove 92;

sliding at a constant speed: according to the illustration in fig. 5, the inside of the annular groove 92 is divided into a plurality of equal spaces by six blocking blocks 22, and the T-shaped sliding block 94 slides in the space, according to the illustration in fig. 5, when the T-shaped sliding block 94 slides in the space, because the blocking blocks 22 seal the space, the air in the space can only flow in the vent holes 95 on the T-shaped sliding block 94, because the aperture of the vent holes 95 can only circulate a fixed amount at a time, the sliding speed of the T-shaped sliding block 94 in the annular groove 92 can always keep a constant speed, so that the connecting cylinder 8 drives the vacuum chuck 6 to move circumferentially at a constant speed, the possibility that the vacuum chuck 6 drives the insert strip 29 to miss the connecting groove 27 is reduced, further, the vacuum chuck 6 can drive the connecting plate 28 to be fastened on the connecting groove 27, the worker can quickly install the building material, the possibility of manual high-altitude operation is reduced, and the safety of the worker during operation is improved;

it should be noted that, according to fig. 5, when the T-shaped slider 94 abuts against the blocking block 22, the T-shaped slider 94 presses the inclined surface 23, so that the blocking block 22 can be retracted into the square groove 25, and the T-shaped slider 94 is rotated into the next space, thereby realizing that the T-shaped slider 94 can move around the circular groove 92 at a constant speed.

Example 5

The present embodiment is an improvement on embodiment 4, and as shown in fig. 1 to 6, a rotating device 3 is further installed inside a connecting cylinder 8, the rotating device 3 is used for driving a vacuum chuck 6 to swing, the rotating device 3 includes a sliding rod 35 slidably connected inside the connecting cylinder 8, a tapered hole 37 is further provided on an adjusting disc 91, the sliding rod 35 penetrates through one side of the connecting cylinder 8 and is used for slidably connecting inside the tapered hole 37, a third spring 36 is further installed inside the connecting cylinder 8, and the third spring 36 is connected with the sliding rod 35;

the inside of connecting cylinder 8 rotates and is connected with second hob 31, and the inside of second hob 31 is provided with second helicla flute 33, installs second stopper 34 on slide bar 35, and second stopper 34 sliding connection still installs square board 32 in the inside of second helicla flute 33 on the second hob 31, and square board 32 is connected with vacuum chuck 6.

In this embodiment:

small-range shaking: according to fig. 6, a sliding rod 35 is further slidably connected inside the connecting cylinder 8, when the connecting cylinder 8 rotates circumferentially inside the annular groove 92, the sliding rod 35 inside the connecting cylinder 8 slides out from the inside of the tapered hole 37, so that the adjusting plate 91 slides leftwards against the sliding rod 35, and further, the sliding rod 35 is slidably connected inside the second spiral rod 31, so that the second stopper 34 on the sliding rod 35 is slidably connected inside the second spiral groove 33, thereby causing the second spiral rod 31 to rotate, according to fig. 6, a square plate 32 is further installed at one end of the second spiral rod 31, and the square plate 32 is connected with the vacuum chuck 6, and the axis of the vacuum chuck 6 is far away from the axis of the second spiral rod 31, thereby causing the second spiral rod 31 to drive the square plate 32 and the vacuum chuck 6 to move circumferentially, so that the device realizes that the second spiral rod 31 drives the vacuum chuck 6 to move circumferentially within a small range while the connecting cylinder 8 drives the whole vacuum chuck 6 to move circumferentially, thereby enabling the device to more accurately and quickly allow the mounting bracket 28 to be fastened to the connecting plate 26.

Example 6

In this embodiment, an improvement is made on the basis of embodiment 5, as shown in fig. 1 to 8, a second spring 59 is installed inside a receiving sleeve 58, the second spring 59 is connected with a first spiral rod 56, the first spiral rod 56 is provided with a first spiral groove 57, a first limiting block 50 is further connected inside the receiving sleeve 58, and the first limiting block 50 is slidably connected inside the first spiral groove 57;

the square bars 53 are installed on two sides of the transmission shaft 52, the welding frame 51 is further installed on the rotating device 3, the rotating wheel 54 is rotatably connected inside the welding frame 51, the belt 55 is sleeved on the rotating wheel 54, the transmission rod 10 is rotatably connected on the rotating device 3, the one-way rotating part is connected on the transmission rod 10, the shaft rod 71 is installed on the one-way rotating part, the belt 55 is used for driving the transmission rod 10 to rotate, the strip-shaped groove 60 is formed in the storage sleeve 58, and the first limiting block 50 is slidably connected in the strip-shaped groove 60;

the pushing component comprises an internal thread sleeve 11 rotatably connected inside the rotating device 3, a threaded rod 12 is connected to the internal thread of the internal thread sleeve 11, the threaded rod 12 is connected with the conical block 30, and the threaded rod 12 is used for pushing the conical block 30 to slide.

In this embodiment:

automatic driving: according to fig. 7 and 8, the transmission shaft 52, the first spiral rod 56, the containing sleeve 58, the adjusting disc 91, the connecting cylinder 8 and the vacuum chuck 6 are pushed by the hydraulic cylinder 4 to slide towards the mounting frame 26, so that the vacuum chuck 6 drives the insertion strip 29 on the connecting plate 28 to abut against the mounting frame 26, and further when the hydraulic cylinder 4 continues to slide towards the left mounting frame 26, the first spiral rod 56 slides into the containing sleeve 58, so that the first limiting block 50 in the containing sleeve 58 is connected to the first spiral groove 57 in a sliding manner, the first spiral rod 56 rotates, the belt 55 is driven by the first spiral rod 56 to rotate, the belt 55 drives the transmission rod 10 to rotate, so that the transmission rod 10 can drive the disc 72 to rotate, the disc 72 drives the short column 73 to move eccentrically, the second connecting rod 74, the first telescopic rod 13 and the first connecting rod 14 are driven by the short column 73 to pull the connecting cylinder 8 to move circumferentially, so that the device can automatically judge whether the insertion strip 29 on the connecting plate 28 is fastened in the connecting groove 27, and when the insertion strip 29 abuts against the mounting frame 26, the first spiral rod 56 drives the belt 55, the belt 55 and the connecting plate 72 and the connecting plate 14 drive the short column 14 to drive the position of the connecting plate 28;

according to fig. 7, the belt 55 is used for driving the internal thread bush 11 to rotate, and further when the belt 55 drives the internal thread bush 11 to rotate, the belt 55 drives the threaded rod 12 to rotate, but the threaded rod 12 is limited by the conical block 30, so that the threads in the internal thread bush 11 can only push the threaded rod 12 to slide towards the left, and the threaded rod 12 pushes the conical block 30 to slide towards the left, so that the device drives the automatic adjusting stub 73 of the threaded rod 12 to gradually get away from the axis of the disc 72 through the internal thread bush 11.

Example 7

The present embodiment is an improvement made on the basis of embodiment 6, and as shown in fig. 1 to 10, the unidirectional rotation component includes a short shaft 16 installed on the transmission rod 10, an extending plate 17 is installed on the short shaft 16, a receiving groove 19 is provided inside the shaft rod 71, the rotating plate 18 is rotatably connected inside the receiving groove 19, the rotating plate 18 is used for being received inside the receiving groove 19, a welding block 21 is further installed inside the shaft rod 71, the welding block 21 is used for abutting against the rotating plate 18, an elastic sheet 20 is further installed inside the shaft rod 71, and the elastic sheet 20 is connected with the rotating plate 18.

In this embodiment:

the locking is avoided: when the vacuum chuck 6 drives the insert 29 on the connecting plate 28 to be snapped inside the connecting groove 27, the connecting cylinder 8, the adjusting plate 91 and the receiving sleeve 58 all slide towards the mounting bracket 26, and then the first stopper 50 is connected inside the first screw rod 56 in a reverse sliding manner, so that the first screw rod 56 drives the belt 55 to rotate in a reverse direction, and then the transmission rod 10 drives the shaft rod 71 and the disc 72 to rotate in a reverse direction, and therefore the short column 73 and the second connecting rod 74 push the connecting cylinder 8 to shake again, and thus the vacuum chuck 6 is damaged when the vacuum chuck 6 cannot be timely separated from the connecting plate 28, and therefore, in order to avoid this situation, the short shaft 16 is installed at one end of the transmission rod 10, as shown in fig. 9 and fig. 10,

when the transmission rod 10 and the short shaft 16 rotate anticlockwise, the extending plate 17 on the short shaft 16 abuts against the rotating plate 18, the rotating plate 18 abuts against the welding block 21, and the rotating plate 18 drives the shaft rod 71 to rotate, when the transmission rod 10 and the short shaft 16 rotate clockwise, the extending plate 17 on the short shaft 16 abuts against the rotating plate 18, and because the other side of the rotating plate 18 is not limited, the rotating plate 18 can rotate and contract into the accommodating groove 19, and the transmission rod 10 cannot drive the shaft rod 71 and the disc 72 to rotate reversely.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a construction is built with safe operation platform in room, includes sliding connection's brace table (1) on track (2) and track (2), its characterized in that: a support seat (15) is installed on the track (2), a hydraulic cylinder (4) is installed on the support seat (15), a connecting cylinder (8) is further connected to the support seat (15), a vacuum sucker (6) for adsorbing building materials is installed on the connecting cylinder (8), and the hydraulic cylinder (4) is used for driving the vacuum sucker (6) to move;

still install adjusting part (7) in supporting seat (15), adjusting part (7) are used for adjusting the position of connecting cylinder (8), adjusting part (7) are including rotating axostylus axostyle (71) of connection on supporting seat (15), install disc (72) on axostylus axostyle (71), install adjusting part on disc (72), install short column (73) on the adjusting part, the axle center of disc (72) is kept away from in the axle center of short column (73), be connected with second connecting rod (74) on short column (73), second connecting rod (74) are used for adjusting the position of connecting cylinder (8).

2. The safe operation platform for building construction according to claim 1, characterized in that: the adjusting component comprises an adjusting groove (75) arranged on the disc (72), a second telescopic rod (77) is further mounted on the disc (72), an L-shaped plate (76) is further mounted on the second telescopic rod (77), the L-shaped plate (76) is connected inside the adjusting groove (75) in a sliding mode, and the short column (73) is connected to one side of the L-shaped plate (76);

the outer surface of the shaft lever (71) is connected with a pushing component in a sliding mode, a conical block (30) is installed on the pushing component, and the conical block (30) is used for abutting against the L-shaped plate (76) to slide.

3. The safe operation platform for building construction according to claim 2, characterized in that: the pushing component comprises an internal thread sleeve (11) rotatably connected inside the rotating device (3), a threaded rod (12) is connected to the internal thread of the internal thread sleeve (11), the threaded rod (12) is connected with the conical block (30), and the threaded rod (12) is used for pushing the conical block (30) to slide.

4. The safe working platform for building construction according to claim 3, characterized in that: the rotating device (3) is further provided with a transmission part (5), the transmission part (5) is used for driving the internal thread sleeve (11) to rotate, the transmission part (5) comprises a transmission shaft (52) which is rotatably connected to the hydraulic cylinder (4), one end of the transmission shaft (52) is rotatably connected with a first screw rod (56), the first screw rod (56) is provided with a storage sleeve (58), the storage sleeve (58) is provided with a limiting device (9), and the limiting device (9) is used for assisting the connecting cylinder (8) to slide;

stop device (9) are including installing adjustment disk (91) on accomodating cover (58), be provided with annular groove (92) in adjustment disk (91), sliding connection has T shape slider (94) in annular groove (92), install flexible post of third (93) on T shape slider (94), flexible post of third (93) are connected with connecting cylinder (8).

5. The safe operation platform for building construction according to claim 4, wherein: a first telescopic rod (13) is arranged on the second connecting rod (74), a first connecting rod (14) is arranged on the first telescopic rod (13), and the first connecting rod (14) is connected to the outer surface of the connecting cylinder (8) in a sliding manner;

the third post (93) that stretches out and draws back is the T shape, T shape slider (94) and the flexible post (93) looks adaptation of third, the inside of adjustment disk (91) still is provided with square groove (25), the internally mounted of square groove (25) has first spring (24), install on first spring (24) and block piece (22), still be provided with bleeder vent (95) that are used for the circulation air on T shape slider (94), block and be provided with inclined plane (23) on piece (22).

6. The safe operation platform for building construction according to claim 5, characterized in that: the vacuum sucker is characterized in that a rotating device (3) is further mounted inside the connecting cylinder (8), the rotating device (3) is used for driving the vacuum sucker (6) to swing, the rotating device (3) comprises a sliding rod (35) connected inside the connecting cylinder (8) in a sliding mode, a taper hole (37) is further formed in the adjusting disc (91), the sliding rod (35) penetrates through one side of the connecting cylinder (8) and is used for being connected inside the taper hole (37) in a sliding mode, a third spring (36) is further mounted inside the connecting cylinder (8), and the third spring (36) is connected with the sliding rod (35);

the inside of connecting cylinder (8) is rotated and is connected with second hob (31), the inside of second hob (31) is provided with second helicla flute (33), install second stopper (34) on slide bar (35), second stopper (34) sliding connection is in the inside of second helicla flute (33), still install square board (32) on second hob (31), square board (32) are connected with vacuum chuck (6).

7. The safe working platform for building construction according to claim 6, wherein: a second spring (59) is installed inside the accommodating sleeve (58), the second spring (59) is connected with a first spiral rod (56), a first spiral groove (57) is formed in the first spiral rod (56), a first limiting block (50) is further connected inside the accommodating sleeve (58), and the first limiting block (50) is connected inside the first spiral groove (57) in a sliding mode;

square strip (53) are all installed to the both sides of transmission shaft (52), still install weld holder (51) on rotary device (3), the inside of weld holder (51) is rotated and is connected with swiveling wheel (54), the cover is equipped with on swiveling wheel (54) and is equipped with belt (55), it is connected with transfer line (10) to rotate on rotary device (3), be connected with one-way rotating part on transfer line (10), install axostylus axostyle (71) on the one-way rotating part, belt (55) are used for driving transfer line (10) rotatory.

8. The safe operation platform for building construction according to claim 6, characterized in that: a strip-shaped groove (60) is formed in the storage sleeve (58), and a first limiting block (50) is connected in the strip-shaped groove (60) in a sliding mode.

9. The safe working platform for building construction according to claim 7, characterized in that: the unidirectional rotating component comprises a short shaft (16) arranged on a transmission rod (10), an extending plate (17) is arranged on the short shaft (16), a containing groove (19) is formed in the shaft lever (71), a rotating plate (18) is connected to the inside of the containing groove (19) in a rotating mode, the rotating plate (18) is used for being contained in the containing groove (19), a welding block (21) is further arranged in the shaft lever (71), the welding block (21) is used for abutting against the rotating plate (18), an elastic sheet (20) is further arranged in the shaft lever (71), and the elastic sheet (20) is connected with the rotating plate (18).

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