Reinforced building bearing frame
Technical Field
The utility model relates to the technical field of constructional engineering, in particular to a reinforced building bearing frame.
Background
The building bearing frame is used for carrying out high-altitude construction and positioning tools through bearing building materials or bearing building constructors, and the device can help the constructors to carry out corresponding treatment on the wall surfaces at high positions conveniently in the building construction process, and meanwhile the risk of climbing of the constructors is reduced.
The construction bearing frame on the market is most simple and easy nowadays, more construction materials are not easy to bear in the construction process of constructors, meanwhile, in the upper and lower construction processes of the constructors, the device lacks protection measures, the construction freedom of the constructors is increased, meanwhile, the construction risk is increased, and therefore, the reinforced building bearing frame is provided.
Disclosure of Invention
The utility model aims to provide a reinforced building bearing frame so as to solve the problems that the device in the background technology lacks protection measures, increases the construction freedom of constructors and increases the risk of construction.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a strengthen building bears frame, includes rail guard and brace table, the place ahead of rail guard is provided with rotatable guardrail door, the inside dead lever that is provided with in the left side of rotatable guardrail door, the brace table sets up in the below of rail guard, the below of brace table is provided with electric telescopic handle one, and electric telescopic handle one is provided with four with the axis symmetry of brace table, one side of electric telescopic handle one is provided with the stiffening rod one, and the rear of stiffening rod one is provided with the stiffening rod two.
Preferably, a lifting platform is arranged below the first electric telescopic rod, and moving assemblies are arranged below the lifting platform and are two.
Preferably, the moving assembly comprises a second electric telescopic rod and universal wheels, and the universal wheels are arranged below the second electric telescopic rod.
Through control electric telescopic handle two for electric telescopic handle two begin the downward extension, make the universal wheel of electric telescopic handle two below begin the downwardly moving, thereby downwards pass from the spacing hole on the fixed platform, make the top surface be less than fixed platform's height, thereby make the universal wheel comparatively stably fix subaerial.
Preferably, scissor arms are arranged in the front side and the rear side of the lifting platform, and a rotating shaft is arranged in the middle of each scissor arm.
Preferably, a first connecting seat is arranged below the right side of the rotating shaft, an electric telescopic rod III is arranged on the right side of the first connecting seat, and a second connecting seat is arranged on the right side of the electric telescopic rod III.
The electric telescopic rod III can jack up the rotating shaft upwards when being extended, so that the rotating shaft starts to move upwards, and the scissor arm is driven to start to shrink, so that the vertical height of the scissor arm is extended.
Preferably, the right side of connecting seat two is provided with the slider, and the inside of slider is provided with bull stick one, the outside of front and back side of bull stick one all is provided with slide rail one.
Preferably, a fixed platform is arranged below the outer portion of the first sliding rail, limiting holes are formed in the left side and the right side of the fixed platform, and four limiting holes are formed in the limiting holes.
Preferably, a second rotating rod is arranged at the top end of the right side of the scissor arm, and sliding rails II are arranged outside the front side and the rear side of the second rotating rod.
The utility model provides a reinforced building bearing frame, which has the following beneficial effects: the stability of the device is improved when the device is reinforced, the device has a firm lifting structure, the adjusting capability of the device is improved, operators can adjust different heights according to different heights, the device has a wide height adjusting range, the adjustability of the device is improved, meanwhile, the lifting capability of the device is improved in a secondary height adjusting mode, and the device is further reinforced in height.
1. According to the utility model, the first electric telescopic rod, the first reinforcing rod and the second reinforcing rod of the supporting table are arranged, the supporting table starts to ascend by controlling the first electric telescopic rod, personnel above the supporting table is driven to ascend to perform high-altitude operation, meanwhile, the adjusting capacity of the device is improved by further adjusting according to the requirement of an operator, the first reinforcing rod and the second reinforcing rod are arranged around the first electric telescopic rod, the four first electric telescopic rods can be in a relatively stable state in the ascending process through a triangular structure, the stability of the device is improved while the device is reinforced, and the device has a relatively firm lifting structure.
2. According to the utility model, through the arrangement of the lifting platform, the scissor arm, the rotating shaft, the connecting seat I, the electric telescopic rod III, the sliding block, the rotating rod I, the sliding rail I, the fixed platform and the sliding rail II, the electric telescopic rod III is started to extend, so that the connecting seat I is driven to lift, the rotating shaft is driven to lift through the lifting of the connecting seat I, the scissor arm I and the rotating rod II on the right side are driven to move leftwards on the sliding rail I and the sliding rail II, the sliding block II is driven to move leftwards, the connecting seat II is driven to move leftwards to drive the electric telescopic rod III to lift the rotating shaft upwards again, the scissor arm is contracted again, the height of the scissor arm in the vertical direction is increased through the shrinkage of the scissor arm, the lifting platform is driven to lift, the electric telescopic rod I above the lifting platform is driven to move upwards, the supporting platform is driven to move upwards, thus operators can adjust different heights according to different heights, the height adjusting range is enlarged, and the height adjusting device can be further adjusted in a height adjusting mode.
Drawings
FIG. 1 is a schematic elevational view of a reinforced building carrier of the present utility model;
FIG. 2 is a schematic elevation view of a lifting platform of a reinforced building carrier of the present utility model;
FIG. 3 is a schematic perspective view of a lifting platform for a reinforced building carrier according to the present utility model;
FIG. 4 is a schematic perspective view of a guard rail of a reinforced building carrier according to the present utility model;
fig. 5 is an enlarged schematic view of the construction of a reinforced building carrier of the present utility model at a in fig. 1.
In the figure: 1. a guard rail; 2. a rotatable guardrail door; 3. a fixed rod; 4. a support table; 5. an electric telescopic rod I; 6. a reinforcing rod I; 7. a second reinforcing rod; 8. a lifting platform; 9. a moving assembly; 901. an electric telescopic rod II; 902. a universal wheel; 10. a scissor arm; 11. a rotating shaft; 12. a first connecting seat; 13. an electric telescopic rod III; 14. a second connecting seat; 15. a slide block; 16. a first rotating rod; 17. a first slide rail; 18. a fixed platform; 19. a limiting hole; 20. a second rotating rod; 21. and a second slide rail.
Detailed Description
As shown in fig. 1 and 4, a building carrier of strengthening reinforcement, including rail guard 1 and brace table 4, the place ahead of rail guard 1 is provided with rotatable guardrail door 2, rotatable guardrail door 2's left side inside is provided with dead lever 3, brace table 4 sets up in the below of rail guard 1, the below of brace table 4 is provided with electric telescopic handle one 5, and electric telescopic handle one 5 is provided with four with the axis symmetry of brace table 4, one side of electric telescopic handle one 5 is provided with reinforcing rod one 6, and reinforcing rod one 6's rear is provided with reinforcing rod two 7, when the operator needs to be under construction at the high altitude, can be with rotatable guardrail door 2's inside dead lever 3 extract, open rotatable guardrail door 2 through the rotation, then operator reentrant rail guard 1's inside, through the rotation, make rotatable guardrail door 2 left side and rail guard 1 carry out the closure, insert rotatable guardrail door 2's inside again with the dead lever 3, can be fixed together rotatable guardrail door 2 and rail guard 1 like this through dead lever 3, make the operator carry out in the time of the high-altitude construction, the accident can take place at the same time at the high device that the personnel falls, the accident has been avoided in the device that the accident has formed completely around this high-level. After the operator gets into in rail guard 1, operator accessible control electric telescopic handle one 5 makes brace table 4 begin to rise, drives the personnel of brace table 4 top and begins to rise and carry out the aerial work, can further adjust according to the demand of operator simultaneously, improved the regulating capacity of the device, set up reinforcing rod one 6 and reinforcing rod two 7 all around electric telescopic handle one 5 simultaneously, through triangle-shaped's structure for four electric telescopic handle one 5 can be in comparatively stable state in the in-process that rises, improved the stability of the device when having consolidated the device, make the device have comparatively firm elevation structure.
As shown in fig. 1-5, the moving component 9 comprises an electric telescopic rod two 901 and a universal wheel 902, the universal wheel 902 is arranged below the electric telescopic rod two 901, the scissor arms 10 are arranged inside the front side and the rear side of the lifting platform 8, the rotating shaft 11 is arranged in the middle of the scissor arms 10, the connecting seat two 12 is arranged below the right side of the rotating shaft 11, the electric telescopic rod three 13 is arranged on the right side of the connecting seat two 12, the sliding block 15 is arranged on the right side of the connecting seat two 14, the first rotating rod 16 is arranged inside the sliding block 15, the sliding rail one 17 is arranged outside the front side and the rear side of the first rotating rod 16, the fixed platform 18 is arranged below the outer part of the sliding rail one 17, the limiting holes 19 are formed in the left side and the right side of the fixed platform 18, the top end of the scissor arms 10 is provided with a second rotating rod 20, the front side and the rear side of the second rotating rod 20 are respectively provided with a sliding rail two 21, when an operator needs to perform higher elevation operation, the electric telescopic rod three is arranged on the right side of the connecting seat two, the first rotating rod and the second rotating rod 11 can be retracted to the left side, the first rotating rod 11 is retracted to the left side of the scissor arms 10 by the electric telescopic rod, the first rotating rod 11 is retracted to the first rotating rod 11 and the second rotating rod 11 is retracted to the first rotating rod 11, the first rotating rod 11 is retracted to the first rotating rod 11 and the first rotating rod 11 is simultaneously, the first rotating rod 11 is retracted to the first rotating rod and the second rotating rod 11 is retracted. The lifting platform 8 starts to lift, the first electric telescopic rod 5 above the lifting platform 8 starts to move upwards, the supporting table 4 is driven to move upwards, and accordingly a person working aloft is driven to move upwards, so that operators can adjust different heights according to different heights, the device has a wider height adjusting range, the adjustability of the device is improved, meanwhile, the lifting capacity of the device is enhanced in a secondary height adjusting mode, and the device is further reinforced in height.
As shown in fig. 1-3, a lifting platform 8 is arranged below the electric telescopic rod one 5, a moving assembly 9 is arranged below the lifting platform 8, two moving assemblies 9 are arranged, when an operator needs to transport the device, the electric telescopic rod two 901 can be controlled to extend downwards, the universal wheel 902 below the electric telescopic rod two 901 starts to move downwards, so that the electric telescopic rod two 901 passes through a limiting hole 19 on the fixed platform 18 downwards, the top surface is lower than the height of the fixed platform 18, the universal wheel 902 is stably fixed on the ground, and at the moment, the operator can move the device to enable the universal wheel 902 at the bottom of the device to start rotating, so that quick carrying can be performed.
In summary, when the reinforced building bearing frame is used, firstly, when an operator needs to construct at high altitude, the fixing rod 3 in the left side of the rotatable guardrail door 2 can be pulled out, the rotatable guardrail door 2 is opened by rotation, then the operator reenters the inside of the protective fence 1, the left side of the rotatable guardrail door 2 is closed with the protective fence 1 by rotation, and then the fixing rod 3 is inserted into the inside of the rotatable guardrail door 2, so that the rotatable guardrail door 2 and the protective fence 1 can be fixed together by the fixing rod 3, a relatively complete enclosing structure can be formed around the body when the operator operates, the protective force of the device is improved while the device is reinforced, and accidents caused by high-altitude falling of personnel are avoided. After an operator enters the protective guard 1, the operator can control the electric telescopic rod I5 to enable the supporting table 4 to start ascending, drive personnel above the supporting table 4 to start ascending to perform high-altitude operation, when the operator needs to perform higher high-altitude operation, the operator can lift the protective guard in the height for the second time in an ascending mode through the ascending platform 8, the electric telescopic rod III 13 is started to extend, the connecting seat I12 is driven to start ascending, the rotating shaft 11 is driven to ascend through the ascending of the connecting seat I12, the scissor arm 10 is driven to start contracting upwards to the central axis of the ascending platform 8 through the ascending rotation of the rotating shaft 11, meanwhile, the rotating rod I16 and the rotating rod II 20 on the right side are driven to move leftwards on the slide rail I17 and the slide rail II 21, the slide block 15 is driven to move leftwards, the connecting seat II 14 is driven to move leftwards, the electric telescopic rod III 13 is driven to move leftwards again, the rotating shaft 11 is jacked upwards to enable the scissor arm 10 to shrink again, meanwhile, the scissor arm 10 is enabled to increase in vertical height through the shrinkage of the scissor arm 10, the ascending platform 8 starts to ascend, the electric telescopic rod I5 above the ascending platform 8 starts to move upwards, the supporting table 4 is driven to move upwards, a person working aloft is driven to move upwards, when an operator needs to transport the device, the electric telescopic rod II 901 can be controlled to enable the electric telescopic rod II 901 to start to stretch downwards, the universal wheel 902 below the electric telescopic rod II 901 starts to move downwards, the limiting hole 19 on the fixing platform 18 downwards penetrates, the top surface is enabled to be lower than the height of the fixing platform 18, the universal wheel 902 is enabled to be fixed on the ground more stably, at the moment, the operator can enable the universal wheel 902 at the bottom of the device to start to rotate by moving the device, so that the quick handling is the working principle of the reinforced building carrier.