CN217759910U - Ladder cage device - Google Patents

Abstract

The utility model relates to a ladder cage device, a supporting mechanism is enclosed into an accommodating space, and a worktable mechanism is inserted into the accommodating space; one end of the sliding mechanism is connected with one side, facing a supporting pile for supporting the deep foundation pit, of the supporting mechanism, the bottom end of the sliding mechanism is inserted into a track at the top end of the supporting pile, and the sliding mechanism can slide relative to the track; the workbench mechanism comprises a workbench component and steps, the workbench component is inserted into the accommodating space, and two opposite ends of the workbench component are detachably connected with the supporting mechanism; the workbench assembly is provided with a through hole extending along the second direction of the supporting mechanism, and the top end of the ladder is connected with the edge of the bottom end of the through hole; through the arrangement of the steps, workers can conveniently move up and down, and compared with the traditional scaffold, the scaffold reduces the workload, improves the construction efficiency and shortens the construction time; simultaneously, the relative both ends through setting up the workstation subassembly all can dismantle with supporting mechanism and be connected, from this, convenient to detach and installation.

Description

Ladder cage device

Technical Field

The utility model belongs to the technical field of the building engineering technique and specifically relates to a ladder cage device is related to.

Background

At present, with the rapid development of building engineering in China, the role of a deep foundation pit in the building engineering in China is more and more important, the safety and the reliability of the building engineering are continuously improved by utilizing the deep foundation pit supporting construction technology in the building engineering, and the integral engineering quality of high-rise building construction is effectively improved.

In the deep foundation pit construction process, constructors need to enter a foundation pit through an upper channel and a lower channel for construction operation, the upper channel and the lower channel which are built by adopting common steel pipes need to stack materials such as steel pipes, fasteners and the like in a space between a reinforced concrete structure and a supporting pile for supporting the deep foundation pit, and meanwhile, an operation surface for operation needs to be arranged.

However, an operable space between the reinforced concrete structure and the support pile is narrow, resulting in difficulty in building a passage; meanwhile, the installation and disassembly processes of the channel are complicated, time and labor are wasted, the workload is increased, and the construction time is prolonged.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a ladder cage device, which has the advantages of reducing the workload and shortening the construction time; meanwhile, the technical problem that the channel installation and disassembly processes are complicated is solved.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: a ladder cage device comprises a supporting mechanism, a worktable mechanism and a sliding mechanism; the supporting mechanism is enclosed into an accommodating space, the worktable mechanism is inserted into the accommodating space, and two opposite ends of the worktable mechanism are detachably connected with the supporting mechanism; one end of the sliding mechanism is connected with one side, facing a support pile for supporting a deep foundation pit, of the support mechanism, the bottom end of the sliding mechanism is inserted into a track at the top end of the support pile, the sliding mechanism can slide relative to the track, and the sliding mechanism is used for driving the support mechanism to move; the workbench mechanism comprises at least one workbench component and at least one ladder arranged at the bottom end of the workbench component, the workbench component is inserted into the accommodating space, two opposite ends of the workbench component are detachably connected with the supporting mechanism, the workbench component extends along the first direction of the supporting mechanism, and the workbench component is used for working by workers; the workbench component is provided with a through hole extending along the second direction of the supporting mechanism, the top end of the ladder is connected with the edge of the bottom end of the through hole, and the ladder is obliquely arranged relative to the horizontal plane; the ladder is used for the staff to move up and down.

Preferably, the ladder cage device provided by the present invention, the working table mechanism includes a plurality of working table components and a plurality of ladders, the plurality of working table components are arranged at intervals along the second direction of the supporting mechanism, the plurality of working table components are all inserted into the accommodating space, and both opposite ends of the plurality of working table components are detachably connected to the supporting mechanism; every adjacent two all set up one between the workstation subassembly the ladder, just the ladder with the opening one-to-one sets up, adjacent two on the workstation subassembly the opening sets up relatively.

Preferably, the support mechanism of the ladder cage device provided by the present invention comprises at least two pairs of vertical rod assemblies, the two pairs of vertical rod assemblies are arranged at intervals along the first direction, the two pairs of vertical rod assemblies are enclosed into the accommodating space, the working platform assembly is inserted into the accommodating space, and each vertical rod assembly is detachably connected with the working platform assembly; every the bottom of pole setting subassembly all is provided with roller components, roller components is used for driving the pole setting subassembly removes.

Preferably, the utility model provides a ladder cage device, the pole setting subassembly includes two C shaped steel, two C shaped steel along the first direction sets up relatively.

Preferably, the utility model provides a ladder cage device, the workstation subassembly includes two at least bracing piece subassemblies and operation platform, two the bracing piece subassembly along the first direction interval sets up, every the bracing piece subassembly with every right the one-to-one of pole setting subassembly sets up, operation platform sets up two the top of bracing piece subassembly, two the bracing piece subassembly all with operation platform connects, operation platform along the first direction extends.

Preferably, the ladder cage device provided by the present invention, wherein the operation platform comprises a plurality of connecting rods and an operation board, the connecting rods are arranged at intervals along the third direction of the supporting mechanism, the connecting rods are all arranged at the bottom end of the operation board, the connecting rods are all connected with the operation board, and one side of the connecting rods, which is far away from the operation board, is connected with the supporting rod assembly; the opening is seted up on the operation panel, the opening along the second direction link up the operation panel.

Preferably, the utility model provides a ladder cage device still includes the protection network, the protection network encloses and establishes on supporting mechanism's the outer wall, the protection network orientation highly be less than of one side of fender pile the height of fender pile.

Preferably, the utility model provides a ladder cage device, slide mechanism includes two at least removal subassemblies, two remove the subassembly along the first direction interval sets up, every remove the subassembly with every to pole setting subassembly one-to-one sets up, the one end and the orientation of removing the subassembly a fender pile the pole setting subassembly is connected, the bottom of removing the subassembly is inserted and is located in the track, it can along to remove the subassembly the rail transit.

Preferably, the utility model provides a ladder cage device, it includes link and wheel subassembly to remove the subassembly, the one end of link with supporting mechanism's outer wall connection, the other end and the wheel subassembly of link are connected, the wheel subassembly deviates from the one end of link is inserted and is located in the track, the wheel subassembly can along orbital motion.

Preferably, the utility model provides a ladder cage device, wheel components include connecting plate, U type frame, wheel and brake lock, the blind end of U type frame with the bottom of connecting plate is connected, the wheel is inserted and is located in the U type frame, the wheel with the U type frame is connected through the bull stick, the wheel can rotate relative to the bull stick, one end of brake lock sets up on the U type frame, the brake lock can rotate relative to U type frame; the brake lock is used for preventing the wheel from rotating.

To sum up, the utility model discloses a beneficial technological effect does: the ladder cage device comprises a supporting mechanism, a worktable mechanism and a sliding mechanism; the supporting mechanism is enclosed into an accommodating space, the worktable mechanism is inserted into the accommodating space, and the two opposite ends of the worktable mechanism are detachably connected with the supporting mechanism; one end of the sliding mechanism is connected with one side, facing a support pile for supporting the deep foundation pit, of the support mechanism, the bottom end of the sliding mechanism is inserted into a track at the top end of the support pile, the sliding mechanism can slide relative to the track, and the sliding mechanism is used for driving the support mechanism to move; the workbench mechanism comprises at least one workbench component and at least one ladder arranged at the bottom end of the workbench component, the workbench component is inserted into the accommodating space, two opposite ends of the workbench component are detachably connected with the supporting mechanism, the workbench component extends along the first direction of the supporting mechanism, and the workbench component is used for workers to operate; the workbench assembly is provided with a through hole extending along the second direction of the supporting mechanism, the top end of the ladder is connected with the edge of the bottom end of the through hole, and the ladder is obliquely arranged relative to the horizontal plane; the ladder is used for the worker to move up and down; through the arrangement of the steps, workers can conveniently move up and down, and compared with the traditional scaffold, the scaffold reduces the workload, improves the construction efficiency and shortens the construction time; simultaneously, all can dismantle with supporting mechanism through the relative both ends that set up the workstation subassembly and be connected, from this, convenient to detach and installation.

Drawings

Fig. 1 is a side view of a ladder cage device according to an embodiment of the present invention.

Fig. 2 is a front view of a ladder cage device according to an embodiment of the present invention.

Fig. 3 is a top view of a ladder cage device according to an embodiment of the present invention.

Fig. 4 is an enlarged view at a in fig. 1.

Fig. 5 is an enlarged view at B in fig. 2.

In the drawings, 1, a ladder cage device; 10. a support mechanism; 101. an accommodating space; 102. a pole assembly; 1011. c-shaped steel; 1012. installing a channel; 102. a roller assembly; 1021. a connecting plate; 1022. a U-shaped frame; 1023. a wheel; 1024. a brake lock; 1025. a brake lever; 1026. a handle; 20. a table mechanism; 201. a table assembly; 2011. square steel; 2012. an operating platform; 2013. a connecting rod; 2014. an operation panel; 2015. a port; 202. a step; 30. a sliding mechanism; 301. a connecting frame; 3011. fixing the rod; 3012. an inclined lever; 302. a wheel assembly; 3021. a support; 3022. a roller; 3023. a rotating shaft; 40. a protective net; 50. a first direction; 60. a second direction; 70. a third direction; 2. a deep foundation pit; 21. a track; 22. supporting piles; 221. a pile body; 222. a crown beam.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, a ladder cage device 1 disclosed in the present invention includes a supporting mechanism 10, a table mechanism 20, and a sliding mechanism 30; the supporting mechanism 10 is enclosed into an accommodating space 101, the worktable mechanism 20 is inserted into the accommodating space 101, and two opposite ends of the worktable mechanism 20 are detachably connected with the supporting mechanism 10; can dismantle with supporting mechanism 10 and be connected through setting up worktable mechenism 20, from this, the installation and the dismantlement of ladder cage device 1 of being convenient for compare with traditional scaffold frame, have reduced work load, have saved operating time, have improved the efficiency of construction.

The worktable mechanism 20 and the supporting mechanism 10 may be connected by bolts, the worktable mechanism 20 and the supporting mechanism 10 may also be connected by plugging, and the worktable mechanism 20 and the supporting mechanism 10 may also be clamped, which is not limited in this embodiment.

Ladder cage device 1 can be used to in the foundation ditch work progress, and ladder cage device 1 still can be used to in other building work progress. For convenience of explanation, the ladder cage device 1 will be described below by taking the example of the construction process of the deep foundation pit 2.

In the use process, the supporting mechanism 10 is inserted into the space between the reinforced concrete and the support pile, and the size of the supporting mechanism 10 is designed according to the size of the space between the reinforced concrete and the support pile. Wherein, in order to improve the installation of the ladder cage device 1, the height of the supporting mechanism 10 is larger than that of the support piles 22.

One end of the sliding mechanism 30 is connected with one side of the supporting mechanism 10 facing the supporting pile 22 for supporting the deep foundation pit 2, the bottom end of the sliding mechanism 30 is inserted into the rail 21 at the top end of the supporting pile 22, the sliding mechanism 30 can slide relative to the rail 21, and the sliding mechanism 30 is used for driving the supporting mechanism 10 to move; on one hand, the sliding mechanism 30 is arranged, so that the ladder cage device 1 is convenient to move, and compared with a traditional scaffold, the working time of installation and disassembly is reduced, and the workload is reduced, so that the construction efficiency is improved, and the construction time is shortened; on the other hand, by providing the rail 21, the rail 21 guides the slide mechanism 30.

Specifically, the sliding mechanism 30 is disposed on an outer side wall near the top end of the support mechanism 10, that is, the sliding mechanism 30 is disposed corresponding to the rail 21. The support pile 22 comprises a pile body 221 and a crown beam 222 arranged at the top end of the pile body 221, the pile body 221 extends along the second direction 60, the crown beam 222 is arranged at the top end of the pile body 221, the crown beam 222 extends along the first direction 50, the rail 21 is arranged on the side, facing away from the pile body 221, of the crown beam 222, the rail 21 extends along the first direction 50 of the support mechanism 10, and the sliding mechanism 30 can slide along the rail 21.

In this embodiment, the workbench mechanism 20 includes at least one workbench assembly 201 and at least one step 202 disposed at a bottom end of the workbench assembly 201, the workbench assembly 201 is inserted into the accommodating space 101, two opposite ends of the workbench assembly 201 are detachably connected to the supporting mechanism 10, the workbench assembly 201 extends along the first direction 50 of the supporting mechanism 10, and the workbench assembly 201 is used for a worker to work; by providing the workbench assembly 201, in use, a worker stands on the workbench assembly 201 to perform work.

A through hole 2015 extending along the second direction 60 of the support mechanism 10 is formed in the workbench assembly 201, the top end of the step 202 is connected with the edge of the bottom end of the through hole 2015, and the step 202 is inclined relative to the horizontal plane; the ladder 202 is used for the worker to move up and down; through setting up ladder 202, the staff reciprocates through opening 2015 and ladder 202, from this, has saved the engineering time, has improved the efficiency of construction.

It should be noted that the first direction 50 of the supporting mechanism 10 is a length direction of the supporting mechanism 10, the second direction 60 of the supporting mechanism 10 is a height direction of the supporting mechanism 10, and the third direction 70 of the supporting mechanism 10 is a width direction of the supporting mechanism 10, wherein the first direction 50, the second direction 60, and the third direction 70 of the supporting mechanism 10 are all perpendicular to each other two by two.

Illustratively, the through opening 2015 may be opened at an end of the table assembly 201 along the first direction 50, although the through opening 2015 may be opened at a middle of the table assembly 201 along the first direction 50. Set up in the realizable mode of workstation subassembly 201 along the tip of first direction 50 at opening 2015, workstation subassembly 201 is parallel with the horizontal plane, the relative workstation subassembly 201 slope of ladder 202 sets up, the top of ladder 202 is connected with the edge of the bottom of opening 2015, in the use, the staff passes through opening 2015, steps on ladder 202, then gets into the lower part of workstation through ladder 202, from this, the staff of being convenient for reciprocates.

With continued reference to fig. 1 to 3, in some embodiments, the worktable mechanism 20 includes a plurality of worktable assemblies 201 and a plurality of steps 202, the plurality of worktable assemblies 201 are disposed at intervals along the second direction 60 of the supporting mechanism 10, the plurality of worktable assemblies 201 are inserted into the accommodating space 101, and opposite ends of the plurality of worktable assemblies 201 are detachably connected to the supporting mechanism 10; a step 202 is arranged between every two adjacent workbench assemblies 201, the steps 202 and through openings 2015 are arranged in a one-to-one correspondence mode, and the through openings 2015 on the two adjacent workbench assemblies 201 are arranged oppositely; through setting up a plurality of workstation subassemblies 201, in the use, the staff gets into corresponding workstation subassembly 201 and carries out the operation according to the operation needs, compares with traditional scaffold frame, has shortened the engineering time, has improved the efficiency of construction.

Specifically, a plurality of workstation subassemblies 201 all parallel arrangement, a plurality of workstation subassemblies 201 separate into a plurality of working spaces with accommodation space 101, all be provided with ladder 202 in every working space, to the position that fig. 2 shows as an example, the both ends of ladder 202 are connected with two adjacent workstation subassemblies 201 respectively, the top of ladder 202 is connected with the edge that is located the opening 2015 bottom of workstation subassembly 201 on upper portion, the bottom of ladder 202 is connected with workstation subassembly 201 that is located the lower part.

Wherein, the steps 202 in two adjacent working spaces are oppositely arranged along the first direction 50, thereby increasing the activity area of the worker; meanwhile, the installation is convenient.

Illustratively, the table mechanism 20 may include two table assemblies 201; of course, the table mechanism 20 may also include three table assemblies 201, four table assemblies 201, or five table assemblies 201, etc.

Further, in this embodiment, the supporting mechanism 10 includes at least two pairs of vertical rod assemblies 102, the two pairs of vertical rod assemblies 102 are disposed at intervals along the first direction 50, the two pairs of vertical rod assemblies 102 enclose an accommodating space 101, the workbench assembly 201 is inserted into the accommodating space 101, and each vertical rod assembly 102 is detachably connected to the workbench assembly 201; the bottom end of each upright rod assembly 102 is provided with a roller assembly 102, and the roller assemblies 102 are used for driving the upright rod assemblies 102 to move; by arranging the roller assemblies 102, during the movement of the supporting mechanism 10, the roller assemblies 102 reduce the friction force between the supporting mechanism 10 and the deep foundation pit 2, thereby facilitating the movement of the ladder cage device 1.

Specifically, the pole assemblies 102 are disposed perpendicular to the horizontal plane, and each pair of pole assemblies 102 includes two pole assemblies 102, and the two pole assemblies 102 are disposed opposite to each other along the third direction 70. The horizontal platform assembly is disposed perpendicular to the vertical rod assembly 102.

Illustratively, the upright component 102 may be an i-shaped steel, and in the using process, the upright component 102 is disposed perpendicular to the horizontal plane, and a plurality of mounting holes extending along the second direction 60 are formed in the upright component 102, and all of the mounting holes penetrate through the upright component 102, and are disposed at intervals along the third direction 70. The number of the mounting holes is consistent with that of the workbench assemblies 201, the workbench assemblies 201 are inserted into the accommodating space 101, and the two opposite ends of the workbench assemblies 201 respectively penetrate through the two corresponding mounting holes formed in each pair of the upright rod assemblies 102, so that the workbench assemblies 201 and the supporting mechanism 10 are connected into a whole, and therefore the supporting mechanism 10 can drive the workbench assemblies 201 to move conveniently.

In this embodiment, the vertical rod assembly 102 includes two C-shaped steels 1011, and the two C-shaped steels 1011 are disposed opposite to each other along the first direction 50; by arranging the two C-shaped steel 1011, the strength of the vertical rod component 102 is improved.

Specifically, two C-shaped steels 1011 are both perpendicular to the horizontal plane, the two C-shaped steels 1011 are spaced apart by a preset distance along the first direction 50, the region spaced between the two C-shaped steels 1011 forms an installation channel 1012, and the installation channel 1012 extends along the second direction 60; in the use, the workstation subassembly 201 is inserted and is located in accommodation space 101, and the relative both ends of workstation subassembly 201 are inserted respectively and are located in every two installation passageways 1012 that correspond to setting up on the pole setting subassembly 102, and two C shaped steel 1011 pass through bolted connection with workstation subassembly 201, from this, are convenient for dismantle and install ladder cage device 1.

With continued reference to fig. 2 and 5, in the present embodiment, the roller assembly 102 includes a connecting plate 1021, a U-shaped frame 1022, wheels 1023 and a brake lock 1024, wherein a closed end of the U-shaped frame 1022 is connected to a bottom end of the connecting plate 1021, the wheels 1023 are inserted into the U-shaped frame 1022, the wheels 1023 are connected to the U-shaped frame 1022 through a rotating rod, the wheels 1023 can rotate relative to the rotating rod, one end of the brake lock 1024 is disposed on the U-shaped frame 1022, and the brake lock 1024 can rotate relative to the U-shaped frame 1022; a brake lock 1024 for preventing rotation of wheel 1023; through setting up the brake lock 1024, after ladder cage device 1 reached the assigned position, the central line that the lock 1024 used the bull stick rotated as the axis, and at this moment, the brake lock 1024 plays the braking effect to wheel 1023, avoids wheel 1023 to produce the rotation, from this, has improved ladder cage device 1's security.

The brake lock 1024 includes a brake lever 1025 and a handle 1026, the brake lever 1025 is disposed at the bottom end of the handle 1026, the handle 1026 is rotatably connected with the U-shaped frame 1022, taking the orientation shown in fig. 5 as an example, the handle 1026 is rotated clockwise, the handle 1026 drives the brake lever 1025 to rotate, when the brake lever 1025 abuts against the outer peripheral wall of the wheel 1023, the handle 1026 stops rotating, the brake lever 1025 performs a braking action on the wheel 1023 to prevent the wheel 1023 from rotating; handle 1026 anticlockwise rotates, and handle 1026 drives brake lever 1025 and rotates, and brake lever 1025 and wheel 1023 periphery wall separation stop to rotate handle 1026, and at this moment, wheel 1023 can rotate relative to the bull stick.

Specifically, the connecting plate 1021 is parallel to the horizontal plane, and the side of the connecting plate 1021 facing away from the U-shaped frame 1022 is connected to the bottom end of the pole assembly 102. In the use process, when the brake lock 1024 is separated from the peripheral wall of the wheel 1023, the wheel 1023 rotates to drive the supporting mechanism 10 to move with the worktable mechanism 20, after the ladder cage device 1 moves to the designated position, the handle 1026 rotates clockwise, the handle 1026 drives the brake lever 1025 to rotate, the brake lever 1025 abuts against the peripheral wall of the wheel 1023, and at the moment, the brake lock 1024 brakes the wheel 1023.

Further, in this embodiment, the working platform assembly 201 includes at least two supporting rod assemblies and an operation platform 2012, the two supporting rod assemblies are disposed at intervals along the first direction 50, each supporting rod assembly is disposed in one-to-one correspondence with each pair of the upright rod assemblies 102, the operation platform 2012 is disposed at the top ends of the two supporting rod assemblies, both the two supporting rod assemblies are connected with the operation platform 2012, and the operation platform 2012 extends along the first direction 50; by providing the operation platform 2012, it is convenient for the worker to work on the operation platform 2012.

Continuing with fig. 3, specifically, two support rod assemblies extend along the third direction 70, the two support rod assemblies are arranged in parallel, the two support rod assemblies are arranged at the bottom end of the operation platform 2012, and the outer walls of the two support rod assemblies are connected with the bottom end of the operation platform 2012. In the using process, two ends of the support rod assembly are respectively inserted into the two mounting channels 1012 of the corresponding pair of upright rod assemblies 102, and the support rod assembly is connected with the two C-shaped steel 1011 through bolts.

In some embodiments, the workbench assembly 201 may include a plurality of supporting rod assemblies, the plurality of supporting rod assemblies are disposed at intervals along the first direction 50, the plurality of supporting rod assemblies are disposed at the bottom end of the operating platform 2012, and the plurality of supporting rod assemblies are connected to the operating platform 2012, wherein the number of the supporting rod assemblies is substantially equal to the number of pairs of the upright rod assemblies 102, of course, in other embodiments, the number of the supporting rod assemblies may be different from the number of pairs of the upright rod assemblies 102, and by providing the plurality of supporting rod assemblies, the strength of the workbench assembly 201 is improved, and the workbench assembly 201 is prevented from being deformed by force during use.

Illustratively, the support bar assembly may include a horizontal bar having a central axis parallel to the work platform 2012, the horizontal bar extending along the third direction 70, and an outer peripheral wall connected to a bottom end of the work platform 2012; in the using process, two ends of a horizontal rod are respectively inserted into two mounting channels 1012 of a pair of prefabricated vertical rod assemblies 102, and the horizontal rod is connected with two C-shaped steel 1011 through bolts.

In this embodiment, the support rod assembly includes two square steels 2011, the two square steels 2011 are arranged in parallel, the two square steels 2011 are arranged at intervals along the first direction 50, and outer walls of the two square steels 2011 are both connected with the bottom end of the operating platform 2012; by arranging the two square steels 2011, on one hand, the strength of the workbench assembly 201 is improved; on the other hand, the manufacturing cost is saved.

Further, in this embodiment, the operation platform 2012 includes a plurality of connecting rods 2013 and an operation board 2014, the connecting rods 2013 are disposed at intervals along the third direction 70 of the supporting mechanism 10, the connecting rods 2013 are disposed at the bottom end of the operation board 2014, the connecting rods 2013 are connected to the operation board 2014, and a side of the connecting rods 2013 away from the operation board 2014 is connected to the supporting rod assembly; opening 2015 is formed in operation plate 2014, and opening 2015 penetrates operation plate 2014 along second direction 60; by providing the connecting rod 2013, the strength of the operation platform 2012 is improved.

Continuing to refer to fig. 3, specifically, the plurality of connecting rods 2013 all extend along the first direction 50, the central axes of the plurality of connecting rods 2013 are all parallel to the operation board 2014, the plurality of connecting rods 2013 are all perpendicular to the support rod assemblies, the plurality of connecting rods 2013 are all disposed between the support rod assemblies and the operation board 2014, one sides of the plurality of connecting rods 2013 are all connected to the operation board 2014, and the other sides of the plurality of connecting rods 2013 are all connected to the plurality of support rod assemblies.

Wherein, the tip that operation panel 2014 extends along first direction 50 has seted up through-hole 2015, takes the position shown in fig. 2 as an example, and the excision is located the connecting rod 2013 of through-hole 2015 lower part for the staff can pass through-hole 2015 smoothly, gets into ladder 202, and then gets into on the next layer operation panel 2014 through ladder 202.

In order to facilitate the up and down movement of the worker through the step 202, the step 202 is disposed to be inclined with respect to the operation plate 2014, and in the orientation shown in fig. 3 as an example, the top end of the step 202 is connected to the edge near the right side of the through hole 2015, and the bottom end of the step 202 is connected to the adjacent table assembly 201.

With continued reference to fig. 2, the ladder cage device 1 provided in this embodiment further includes a protection net 40, the protection net 40 is enclosed on the outer wall of the supporting mechanism 10, and the height of one side of the protection net 40 facing the support piles 22 is smaller than the height of the support piles 22; through setting up protection network 40, from this, improved the security of ladder cage device 1, avoid in the work progress, the staff is by landing on workstation subassembly 201.

In order to facilitate the entry of workers into the ladder cage device 1, the height of the side of the protection net 40 facing the support piles 22 is smaller than the height of the support piles 22.

With continued reference to fig. 1 and 4, in the present embodiment, the sliding mechanism 30 includes at least two moving assemblies, two moving assemblies are disposed at intervals along the first direction 50, each moving assembly is disposed in one-to-one correspondence with each pair of upright assemblies 102, one end of the moving assembly is connected to the upright assembly 102 facing the support pile 22, the bottom end of the moving assembly is inserted into the track 21, and the moving assembly can move along the track 21.

In some embodiments, the sliding mechanism 30 can include a plurality of moving assemblies, the plurality of moving assemblies being spaced apart along the first direction 50, each moving assembly being disposed in one-to-one correspondence with each pair of upright assemblies 102, wherein the number of moving assemblies is substantially the same as the number of pairs of upright assemblies 102, and in other embodiments, the number of moving assemblies can be different from the number of pairs of upright assemblies 102; by providing a plurality of moving assemblies, the stability of the movement of the ladder cage device 1 is thereby improved.

In order to save manpower, the ladder cage device 1 is driven to move by an external driving device, one end of the driving device is connected with one of the moving components, the other end of the driving device is arranged on the side, away from the pile body 221, of the crown beam 222, and the driving device is used for driving the ladder cage device 1 to move.

Illustratively, the driving device can be a winch arranged on one side of the crown beam 222 away from the pile body 221, and one end of a traction rope wound on the winch, which is away from the winch, is connected with one of the moving assemblies; in the use, the hoist engine rotates, and the hoist engine coiling haulage rope, haulage rope drive moving assembly slide along track 21, and then drive ladder cage device 1 and remove, and after ladder cage device 1 removed the assigned position, the hoist engine stall, and at this moment, ladder cage device 1 stops moving. Further, in this embodiment, the moving assembly includes a connecting frame 301 and a wheel assembly 302, one end of the connecting frame 301 is connected to the outer wall of the supporting mechanism 10, the other end of the connecting frame 301 is connected to the wheel assembly 302, one end of the wheel assembly 302 away from the connecting frame 301 is inserted into the track 21, and the wheel assembly 302 can move along the track 21; by providing the wheel assembly 302, the wheel assembly 302 slides along the rail 21, thereby moving the support mechanism 10.

Specifically, the link 301 is triangular, the link 301 includes an inclined bar 3012 and a fixing bar 3011, the fixing bar 3011 extends along the third direction 70, a first end of the fixing bar 3011 is connected to a first end of the inclined bar 3012, second ends of the fixing bar 3011 and the inclined bar 3012 are inserted into the installation channel 1012 facing one side of the support pile 22, second ends of the fixing bar 3011 and the inclined bar 3012 are connected to two C-shaped steel 1011 through bolts, and the wheel assembly 302 is disposed at the bottom of the fixing bar 3011.

The wheel assembly 302 includes a support 3021, a roller 3022, and a rotating shaft 3023, the support 3021 is U-shaped, the closed end of the support 3021 is connected to an outer wall of the fixing rod 3011, the roller 3022 is inserted into the support 3021, the roller 3022 is connected to the support 3021 through the rotating shaft 3023, the roller 3022 can rotate relative to the rotating shaft 3023, one end of the roller 3022, which is away from the support 3021, is inserted into the rail 21, the roller 3022 slides along the rail 21, and then the support mechanism 10 is driven to move, and the support mechanism 10 drives the table mechanism 20 to move.

The usage of the ladder cage device 1 provided by the embodiment is as follows: in the space between reinforced concrete structure and a fender pile, with supporting mechanism 10, workstation mechanism 20 and slide mechanism 30 are connected, then insert wheel subassembly 302 and locate in track 21, the one end that deviates from the haulage rope the hoist engine is connected with link 301, the hoist engine rotates, the haulage rope is convoluteed, haulage rope drive ladder cage device 1 moves to the assigned position along track 21, then the hoist engine stall, ladder cage device 1 stall, through rotating handle 1026 this moment, make brake lever 1025 and wheel 1023's periphery wall butt, avoid wheel 1023 to rotate, therefore, the security that ladder cage device 1 used has been improved.

The ladder cage device 1 provided by the application comprises a supporting mechanism 10, a worktable mechanism 20 and a sliding mechanism 30; the supporting mechanism 10 is enclosed into an accommodating space 101, the worktable mechanism 20 is inserted into the accommodating space 101, and two opposite ends of the worktable mechanism 20 are detachably connected with the supporting mechanism 10; one end of the sliding mechanism 30 is connected with one side, facing the supporting pile 22 for supporting the deep foundation pit 2, of the supporting mechanism 10, the bottom end of the sliding mechanism 30 is inserted into the rail 21 arranged at the top end of the supporting pile 22, the sliding mechanism 30 can slide relative to the rail 21, and the sliding mechanism 30 is used for driving the supporting mechanism 10 to move; the workbench mechanism 20 comprises at least one workbench component 201 and at least one ladder 202 arranged at the bottom end of the workbench component 201, the workbench component 201 is inserted into the accommodating space 101, two opposite ends of the workbench component 201 are detachably connected with the supporting mechanism 10, the workbench component 201 extends along the first direction 50 of the supporting mechanism 10, and the workbench component 201 is used for the operation of workers; a through hole 2015 extending along the second direction 60 of the support mechanism 10 is formed in the workbench assembly 201, the top end of the step 202 is connected with the edge of the bottom end of the through hole 2015, and the step 202 is obliquely arranged relative to the horizontal plane; the ladder 202 is used for the worker to move up and down; through the arrangement of the ladder 202, workers can conveniently move up and down, and compared with the traditional scaffold, the scaffold has the advantages that the workload is reduced, the construction efficiency is improved, and the construction time is shortened; meanwhile, both opposite ends of the worktable assembly 201 are detachably connected with the supporting mechanism 10, thereby facilitating the detachment and installation.

The utility model provides a ladder cage device 1 has following advantage: the device has simple structure, easy manufacture and convenient operation.

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. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious changes and modifications may be made without departing from the scope of the present invention.

Claims (10)

1. A ladder cage device characterized in that: comprises a supporting mechanism, a worktable mechanism and a sliding mechanism;

the supporting mechanism is enclosed into an accommodating space, the worktable mechanism is inserted into the accommodating space, and two opposite ends of the worktable mechanism are detachably connected with the supporting mechanism;

one end of the sliding mechanism is connected with one side, facing a support pile for supporting a deep foundation pit, of the support mechanism, the bottom end of the sliding mechanism is inserted into a track at the top end of the support pile, the sliding mechanism can slide relative to the track, and the sliding mechanism is used for driving the support mechanism to move;

the workbench mechanism comprises at least one workbench component and at least one ladder arranged at the bottom end of the workbench component, the workbench component is inserted into the accommodating space, two opposite ends of the workbench component are detachably connected with the supporting mechanism, the workbench component extends along the first direction of the supporting mechanism, and the workbench component is used for working by workers;

the workbench component is provided with a through hole extending along the second direction of the supporting mechanism, the top end of the ladder is connected with the edge of the bottom end of the through hole, and the ladder is obliquely arranged relative to the horizontal plane;

the ladder is used for the staff to move up and down.

2. The ladder cage device of claim 1 wherein: the workbench mechanism comprises a plurality of workbench components and a plurality of steps, the workbench components are arranged at intervals along the second direction of the supporting mechanism, the workbench components are inserted into the accommodating space, and the two opposite ends of the workbench components are detachably connected with the supporting mechanism;

every adjacent two all set up one between the workstation subassembly the ladder, just the ladder with the opening one-to-one sets up, adjacent two on the workstation subassembly the opening sets up relatively.

3. The ladder cage device of claim 1 wherein: the supporting mechanism comprises at least two pairs of vertical rod assemblies, the two pairs of vertical rod assemblies are arranged at intervals along the first direction, the two pairs of vertical rod assemblies are enclosed into the accommodating space, the workbench assembly is inserted into the accommodating space, and each vertical rod assembly is detachably connected with the workbench assembly;

every the bottom of pole setting subassembly all is provided with the roller components, the roller components is used for driving the pole setting subassembly removes.

4. The ladder cage device of claim 3 wherein: the pole setting subassembly includes two C shaped steel, two C shaped steel is along first direction sets up relatively.

5. The ladder cage device of claim 3 wherein: workstation subassembly includes two at least bracing piece subassemblies and operation platform, two the bracing piece subassembly is along first direction interval sets up, every the bracing piece subassembly with every to the setting up pole subassembly one-to-one sets up, operation platform sets up two the top of bracing piece subassembly, two the bracing piece subassembly all with operation platform connects, operation platform follows the first direction extends.

6. The ladder cage device of claim 5 wherein: the operating platform comprises a plurality of connecting rods and an operating plate, the connecting rods are arranged at intervals along the third direction of the supporting mechanism, the connecting rods are all arranged at the bottom end of the operating plate and are all connected with the operating plate, and one side, away from the operating plate, of the connecting rods is connected with the supporting rod assembly;

the opening is opened on the operation panel, the opening along the second direction link up the operation panel.

7. The ladder cage device of claim 1 wherein: the protective net is arranged on the outer wall of the supporting mechanism in a surrounding mode, and the height of the protective net, which faces one side of the supporting pile, is smaller than the height of the supporting pile.

8. The ladder cage device of claim 3 wherein: the sliding mechanism comprises at least two moving assemblies, the two moving assemblies are arranged at intervals in the first direction, each moving assembly is arranged in a one-to-one correspondence mode with each pair of upright rod assemblies, one end of each moving assembly faces towards the upright rod assemblies of the supporting piles, the bottom ends of the moving assemblies are inserted into the tracks, and the moving assemblies can move along the tracks.

9. The ladder cage device of claim 8 wherein: the moving assembly comprises a connecting frame and a wheel assembly, one end of the connecting frame is connected with the outer wall of the supporting mechanism, the other end of the connecting frame is connected with the wheel assembly, the wheel assembly deviates from one end of the connecting frame and is inserted into the track, and the wheel assembly can move along the track.

10. The ladder cage device of claim 4 wherein: the roller assembly comprises a connecting plate, a U-shaped frame, wheels and a brake lock, the closed end of the U-shaped frame is connected with the bottom end of the connecting plate, the wheels are inserted into the U-shaped frame, the wheels are connected with the U-shaped frame through a rotating rod, the wheels can rotate relative to the rotating rod, one end of the brake lock is arranged on the U-shaped frame, and the brake lock can rotate relative to the U-shaped frame;

the brake lock is used for preventing the wheel from rotating.

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