CN220487145U - Construction reinforcement cage equipment, gesture adjustment and lifting operation equipment - Google Patents

Abstract

The utility model discloses construction reinforcement cage assembling, posture adjusting and lifting operation equipment, which comprises a bidirectional overturning platform and a manufacturing and lifting platform; the bidirectional overturning platform comprises a rectangular supporting bottom plate, a support, a supporting component and a driving component; the manufacturing and lifting platform comprises a plurality of supporting monomers, a limiting assembly and a clamping assembly, wherein the rectangular reinforcement cage can be clamped and installed on the supporting monomers by the clamping assembly; the clamping inclined rod is arranged on the supporting single body, and when the bidirectional overturning platform drives the manufacturing and lifting platform to adjust the posture, the manufacturing and lifting platform is clamped on the bidirectional overturning platform by the clamping inclined rod; the method comprises the steps of equipment installation, reinforcement cage manufacturing, reinforcement cage overturning and reinforcement cage lifting. The equipment can be used for assembling and supporting the rectangular reinforcement cage, integrally overturning and lifting the rectangular reinforcement cage, has a simple and compact structure, is convenient to operate, is high in detachability and operation effect, reduces construction cost, and has a wide application prospect.

Description

Construction reinforcement cage equipment, gesture adjustment and lifting operation equipment

Technical Field

The utility model relates to the technical field of building construction, in particular to equipment for assembling, adjusting the posture and lifting operation of a building reinforcement cage.

Background

Reinforced concrete structures are the main materials for the current building construction, the compressive strength of the concrete is high, but the tensile strength is very low, and the reinforced concrete structures are usually matched with a reinforcement cage to play a role in tensile strength and strengthen the strength of the whole structure. In the construction of the diaphragm wall, the diaphragm wall reinforcement cage (rectangular reinforcement cage) is proved to be qualified, and the reinforcement cage is hung immediately after the clearance and slurry replacement of the groove section meet the requirements. During construction operation, a construction platform is firstly erected on a construction site, then a line is drawn on the construction platform according to the interval between two adjacent main ribs, the position of the main ribs is marked, and then horizontal ribs which are perpendicular to the main ribs are fixedly connected to the main ribs, so that a rectangular reinforcement cage is manufactured. After the rectangular reinforcement cage is manufactured, the rectangular reinforcement cage needs to be overturned and lifted, and after the rectangular reinforcement cage is overturned from a horizontal state to a vertical state by using two hoisting apparatuses, one hoisting apparatus needs to be dismantled, and the reinforcement cage is moved in position and conveyed into the trough section by using the other hoisting apparatus. The operation mode is characterized in that on one hand, two hoisting devices are used for adjusting the posture of the steel reinforcement cage, so that the construction cost is increased, on the other hand, lifting points are required to be installed on the steel reinforcement cage in the posture adjustment process, so that the steel reinforcement cage is unevenly stressed in the operation process, the steel reinforcement cage is easy to damage, the two hoisting devices are required to cooperate with each other, real-time communication is required in the hoisting process, and the operation efficiency is low. And to the preparation of rectangle steel reinforcement cage, upset and lift operation need different frock equipment, construction cost is high, and efficiency is lower.

Disclosure of Invention

The utility model aims to provide equipment for assembling, adjusting the posture and lifting operation of a building reinforcement cage, which can perform assembling support, integral overturning posture adjustment and lifting integrated operation on a rectangular reinforcement cage, has a simple and compact structure, is convenient to operate, has strong detachability and high operation effect, reduces construction cost and has a wide application prospect.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the equipment comprises a bidirectional overturning platform and a manufacturing and lifting platform movably arranged on the bidirectional overturning platform, wherein the bidirectional overturning platform can drive the manufacturing and lifting platform to carry out posture adjustment; the bidirectional overturning platform comprises a rectangular supporting bottom plate, a support seat arranged on the rectangular supporting bottom plate, a supporting component movably arranged on the support seat and driving components arranged on two sides of the rectangular supporting bottom plate and used for driving the supporting component to rotate; the support assembly comprises a support frame, rotating shafts fixedly arranged on two sides of the support frame and gears arranged on the end parts of the rotating shafts; the manufacturing and lifting platform comprises a plurality of supporting monomers detachably connected through connecting pieces, a limiting component detachably arranged on the supporting monomers and a clamping component movably arranged on the supporting monomers, wherein the supporting monomers consist of a plurality of transverse supporting rods arranged in parallel at intervals and rotating rods movably arranged on the plurality of transverse supporting rods, and a rotating driving component for controlling the rotating angle of the rotating rods is arranged on the supporting monomers; the clamping assembly can clamp and install the rectangular reinforcement cage on a plurality of supporting monomers; a connecting groove and a scale mark line are arranged on the transverse supporting rod; the limiting assembly comprises a supporting bottom plate, two limiting plates arranged on the supporting bottom plate, a threaded rod arranged on the lower side of the supporting bottom plate and a locking nut arranged on the threaded rod, and the two limiting plates can be fixed on the connecting groove by the locking nut; and when the bidirectional overturning platform drives the manufacturing and lifting platform to carry out gesture adjustment, the clamping inclined rods clamp the manufacturing and lifting platform on the bidirectional overturning platform by utilizing gravity.

Preferably, the driving assembly comprises a fixed seat fixedly arranged on the rectangular supporting bottom plate, a sliding rod slidingly arranged on the fixed seat, connecting blocks fixedly arranged at two ends of the sliding rod, racks arranged on the connecting blocks and a linear driving mechanism for driving the sliding rod to move; when the linear driving mechanism drives the sliding rod to move so that the rack is meshed with the gear, the rotating shaft rotates around the support to realize overturning.

Preferably, the four corners of the rectangular supporting bottom plate are respectively provided with the support, the top of the support is provided with a semicircular groove matched with the rotating shaft, and the rotating shaft is arranged in the semicircular groove.

Preferably, a limiting chain is arranged between the rectangular supporting bottom plate and the supporting frame, and the limiting chain limits the rotating angle of the supporting frame to be not more than 90 degrees.

Preferably, the two sides of the supporting frame are fixedly provided with a rotating shaft, and the two ends of the rotating shaft are fixedly provided with the gears; the supporting frame is a rectangular structure formed by splicing a plurality of transverse fixing struts and longitudinal fixing struts.

Preferably, the rotation driving assembly comprises a driven sprocket wheel arranged on the end part of the rotating rod, a driving sprocket wheel arranged on the supporting unit and a chain for dynamically connecting the driven sprocket wheel and the driving sprocket wheel, and when the driving sprocket wheel is rotated, the driven sprocket wheel is driven to rotate through the chain so as to enable the rotating rod to rotate;

preferably, the clamping assembly comprises a connecting sleeve and a supporting inclined rod arranged on the connecting sleeve, and the connecting sleeve is detachably arranged on the transverse supporting rod.

Preferably, the transverse supporting rod is made of I-steel, an opening is arranged on a web plate of the I-steel, and the rotating rod passes through the opening.

Preferably, the transverse supporting rod is provided with a connecting hole, and the connecting piece penetrates through the connecting hole to detachably connect the two adjacent supporting monomers.

Preferably, two slide bars are arranged in parallel at intervals, and two fixing seats are arranged at intervals.

According to the utility model, the bidirectional overturning platform and the manufacturing and lifting platform are matched for use, so that the manufacturing, overturning and lifting of the reinforcement cage are integrated, complicated construction steps from the manufacturing to the lower groove section of the traditional reinforcement cage are reduced, the tools and the lifting tool used in the construction operation of the reinforcement cage are simplified, and the construction cost is saved. The bidirectional overturning platform can rotate towards two opposite directions, and can overturn the reinforcement cage towards two different directions according to requirements during overturning operation, so that the convenience of operation is improved. The limiting chain can limit the overturning angle of the supporting frame, prevent the phenomenon of overturned state, and improve the safety of operation.

During operation, different numbers of support monomers can be spliced according to the size of the reinforcement cage to be manufactured, and the assembly and the disassembly are convenient. Limiting components arranged on the manufacturing and lifting platform can limit the positions of the steel bars placed on the supporting monomers on one hand, prevent the steel bar cage from shifting in the process of manufacturing, and on the other hand can be fixed according to the design size, so that the uniformity of the size of the steel bar cage is ensured. The scale marking that sets up is convenient for fix a position spacing subassembly's position, reduces and needs extra measuring tool in the position adjustment process, improves the operating efficiency.

The clamping assembly arranged on the manufacturing and lifting platform can be used for uniformly connecting the rectangular reinforcement cage, so that the rectangular reinforcement cage is uniformly stressed in the lifting process, and damage is avoided. The rotation driving assembly can control the rotation angle of the rotating rod, and the connection and the separation of the manufacturing platform and the lifting platform on the rectangular reinforcement cage are realized. The plurality of clamping inclined rods can clamp the manufacturing and lifting platform on the bidirectional overturning platform by utilizing gravity when the bidirectional overturning platform drives the manufacturing and lifting platform to adjust the gesture, and can be rapidly separated from the bidirectional overturning platform when the manufacturing and lifting platform is lifted.

Drawings

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

FIG. 2 is a schematic diagram of a bidirectional overturn platform according to the present utility model;

FIG. 3 is a schematic view of a structure of a lifting platform according to the present utility model;

FIG. 4 is an enlarged schematic view of a portion of a mechanism according to the present utility model;

FIG. 5 is an enlarged schematic view of a portion of another mechanism of the present utility model;

in the figure: 1. a bidirectional overturning platform; 2. manufacturing and lifting a platform; 3. a connecting piece; 4. a connection groove; 5. scale marks; 6. clamping the inclined rod; 10. a support base plate; 11. a support; 12. a support assembly; 13. a drive assembly; 14. limiting a lock chain; 20. a support unit; 21. a limit component; 22. a clamping assembly; 23. a rotary drive assembly; 120. a support frame; 121. a rotating shaft; 122. a gear; 130. a fixing seat; 131. a slide bar; 132. a connecting block; 133. a rack; 134. a linear driving mechanism; 200. a transverse support bar; 201. a rotating lever; 210. a support base plate; 211. a limiting plate; 212. a threaded rod; 213. a locking nut; 220. connecting sleeves; 221. supporting the diagonal rod; 230. a driven sprocket; 231. a drive sprocket; 232. and (3) a chain.

Description of the embodiments

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

the equipment for assembling, adjusting and lifting the construction reinforcement cage as shown in fig. 1, 2, 3, 4 and 5 comprises a bidirectional overturning platform 1 and a manufacturing and lifting platform 2 movably arranged on the bidirectional overturning platform 1, wherein the bidirectional overturning platform 1 can drive the manufacturing and lifting platform 2 to swing so as to adjust the posture.

The bidirectional overturning platform 1 comprises a rectangular supporting bottom plate 10, a support 11 fixedly arranged on the rectangular supporting bottom plate 10 through fasteners, a supporting component 12 movably arranged on the support 11 and driving components 13 arranged on two sides of the rectangular supporting bottom plate 10 and used for driving the supporting component 12 to rotate.

The support assembly 12 includes a support frame 120, a rotating shaft 121 fixedly disposed on two sides of the support frame 120, and gears 122 fixedly disposed on two ends of the rotating shaft 121, in one embodiment, a support 11 is fixedly disposed at four corners of the rectangular support base plate 10, a semicircular groove adapted to the rotating shaft 121 is disposed on top of the support 11, and the rotating shaft 121 is disposed in the semicircular groove and can rotate in the semicircular groove. A rotating shaft 121 is fixedly arranged at two sides of the supporting frame 120, and a gear 122 is fixedly arranged at two ends of the rotating shaft 121. In one embodiment, the support frame 120 is a rectangular structure formed by a plurality of transverse and longitudinal fixation struts.

The driving assembly 13 includes a fixed base 130 fixedly installed on the rectangular supporting base plate 10, a slide bar 131 slidably installed on the fixed base 130, connection blocks 132 fixedly installed at both ends of the slide bar 131, a rack 133 installed on the connection blocks 132, and a linear driving mechanism 134 driving the slide bar 131 to move. When the linear driving mechanism 134 drives the sliding rod 131 to reciprocate left and right, so that the rack 133 is meshed with the gear 32, the rotating shaft 31 rotates around the semicircular groove at the upper part of the support 11, and overturning is achieved. In one embodiment, through holes are formed in the fixing base 130, two sliding rods 131 are arranged in parallel at intervals and respectively penetrate through the through holes, and two fixing bases 130 are arranged at intervals. In one embodiment, the linear actuator 134 is a hydraulic cylinder, the piston rod of which is normally in a semi-extended state, and the support frame 120 rotates in different directions when the cylinder is extended or retracted. In a preferred embodiment, two limiting chains 14 are provided between the rectangular support base plate 10 and the support frame 120, the limiting chains 14 limiting the support frame 120 to a rotation angle of not more than 90 °, and when the support frame 120 is turned to a vertical state, one of the limiting chains 14 is in a tensioned state. Of course, four, six or eight limit chains 14 may be provided on both sides of the support frame 120 for safety.

The manufacturing and lifting platform 2 comprises a plurality of supporting monomers 20 which are detachably connected through connecting pieces 3, a limiting component 21 which is detachably arranged on the supporting monomers 20 and a clamping component 22 which is movably arranged on the supporting monomers 20, wherein the supporting monomers 20 are composed of a plurality of transverse supporting rods 200 which are arranged at intervals in parallel and a rotating rod 201 which is movably arranged on the plurality of transverse supporting rods 200, in one embodiment, the transverse supporting rods 200 are made of I-steel, an opening is arranged on a web plate of the I-steel, the rotating rod 201 passes through the opening, and in particular, pins or screws are arranged on the rotating rod 201 and used for limiting the relative position between the rotating rod and the transverse supporting rods 200. Connecting holes are formed in two end portions of the transverse supporting rod 200, and the connecting piece 3 penetrates through the connecting holes to detachably connect two adjacent supporting monomers 20.

A rotation driving assembly 23 for controlling the rotation angle of the rotation rod 201 is installed on the support unit 20, and the rotation driving assembly 23 includes a driven sprocket 230 fixedly provided on an end portion of the rotation rod 201, a driving sprocket 231 rotatably installed on the support unit 20 through a rotation shaft, and a chain 232 for connecting the driven sprocket 230 and the driving sprocket 231 by power, and when the driving sprocket 231 is rotated, all the driven sprockets 230 are driven to rotate simultaneously through the chain 232 so that the rotation rod 201 is rotated. In one embodiment, a handle for driving the driving sprocket 231 is installed on the driving sprocket 231, and in a preferred embodiment, a rotation shaft connected to the driving sprocket 231 is connected to the lateral support bar 200 through a one-way bearing such that the driving sprocket 231 can only rotate in one direction, and when the rectangular reinforcement cage is lowered to a designated position, the platform is continuously lowered down, and then the driving sprocket 231 is rotated such that the clamping assembly 22 is separated from the rectangular reinforcement cage.

The clamping assembly 22 can clamp and install the rectangular reinforcement cage on the plurality of support monomers 20, the clamping assembly 22 comprises a connecting sleeve 220 and a support inclined rod 221 fixedly installed on the connecting sleeve 220, the connecting sleeve 220 is detachably installed on the transverse support rod 200 through a pin or a screw, and when the transverse support rod 200 rotates, the clamping assembly 22 rotates along with the transverse support rod.

The transverse supporting rod 200 is provided with a connecting groove 4, a limiting component 21 for adjusting the position of the reinforcing steel bar is detachably arranged on the connecting groove 4, and a scale mark line 5 is arranged on the transverse supporting rod 200 and positioned on one side of the connecting groove 4. In one embodiment, the limiting assembly 21 comprises a supporting bottom plate 210, two limiting plates 211 arranged above the supporting bottom plate 210, a threaded rod 212 fixedly arranged on the lower side of the supporting bottom plate 210 and a locking nut 213 arranged on the threaded rod 212, the two limiting plates 211 can be fixed on the connecting groove 4 by screwing the locking nut 213, the plurality of limiting assemblies 21 are limited in position according to the scale marks 5 during operation, a main reinforcement for manufacturing a rectangular reinforcement cage is placed between the two limiting plates 211 and is limited in position, and the two limiting plates 211 with different intervals can be selected according to the diameters of the reinforcement during actual operation, so that the accuracy of limiting the positions of the main reinforcement is ensured.

A plurality of clamping diagonal rods 6 are fixedly installed on the supporting single body 20, one overhanging end of each clamping diagonal rod 6 is clamped on the supporting frame 120, and when the bidirectional overturning platform 1 drives the manufacturing and lifting platform 2 to carry out posture adjustment, the clamping diagonal rods 6 clamp the manufacturing and lifting platform 2 on the bidirectional overturning platform by utilizing gravity.

The above embodiments are only a few descriptions of the inventive concept and implementation, and are not limited thereto, and the technical solutions without substantial transformation remain within the scope of protection under the inventive concept.

Claims (10)

1. The utility model provides a construction steel reinforcement cage equipment, appearance and lift operation equipment of adjusting which characterized in that: the device comprises a bidirectional overturning platform and a manufacturing and lifting platform movably arranged on the bidirectional overturning platform, wherein the bidirectional overturning platform can drive the manufacturing and lifting platform to adjust the posture; the bidirectional overturning platform comprises a rectangular supporting bottom plate, a support seat arranged on the rectangular supporting bottom plate, a supporting component movably arranged on the support seat and driving components arranged on two sides of the rectangular supporting bottom plate and used for driving the supporting component to rotate; the support assembly comprises a support frame, rotating shafts fixedly arranged on two sides of the support frame and gears arranged on the end parts of the rotating shafts; the manufacturing and lifting platform comprises a plurality of supporting monomers detachably connected through connecting pieces, a limiting component detachably arranged on the supporting monomers and a clamping component movably arranged on the supporting monomers, wherein the supporting monomers consist of a plurality of transverse supporting rods arranged in parallel at intervals and rotating rods movably arranged on the plurality of transverse supporting rods, and a rotating driving component for controlling the rotating angle of the rotating rods is arranged on the supporting monomers; the clamping assembly can clamp and install the rectangular reinforcement cage on a plurality of supporting monomers; a connecting groove and a scale mark line are arranged on the transverse supporting rod; the limiting assembly comprises a supporting bottom plate, two limiting plates arranged on the supporting bottom plate, a threaded rod arranged on the lower side of the supporting bottom plate and a locking nut arranged on the threaded rod, and the two limiting plates can be fixed on the connecting groove by the locking nut; and when the bidirectional overturning platform drives the manufacturing and lifting platform to carry out gesture adjustment, the clamping inclined rods clamp the manufacturing and lifting platform on the bidirectional overturning platform by utilizing gravity.

2. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1, wherein: the driving assembly comprises a fixed seat fixedly arranged on the rectangular supporting bottom plate, a sliding rod slidingly arranged on the fixed seat, connecting blocks fixedly arranged at two ends of the sliding rod, a rack arranged on the connecting blocks and a linear driving mechanism for driving the sliding rod to move; when the linear driving mechanism drives the sliding rod to move so that the rack is meshed with the gear, the rotating shaft rotates around the support to realize overturning.

3. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1, wherein: the rectangular support bottom plate is characterized in that the supports are arranged at four corners of the rectangular support bottom plate, semicircular grooves matched with the rotating shafts are formed in the tops of the supports, and the rotating shafts are arranged in the semicircular grooves.

4. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1 or 2, wherein: and a limiting lock chain is arranged between the rectangular supporting bottom plate and the supporting frame, and the limiting lock chain limits the rotating angle of the supporting frame to be not more than 90 degrees.

5. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 4, wherein: the two sides of the supporting frame are fixedly provided with a rotating shaft, and the two ends of the rotating shaft are fixedly provided with gears; the supporting frame is a rectangular structure formed by splicing a plurality of transverse fixing struts and longitudinal fixing struts.

6. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1, wherein: the rotation driving assembly comprises a driven sprocket arranged on the end part of the rotating rod, a driving sprocket arranged on the supporting unit and a chain which is in power connection with the driven sprocket and the driving sprocket, and when the driving sprocket is rotated, the driven sprocket is driven to rotate through the chain so as to enable the rotating rod to rotate.

7. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1, wherein: the clamping assembly comprises a connecting sleeve and a supporting inclined rod arranged on the connecting sleeve, and the connecting sleeve is detachably arranged on the transverse supporting rod.

8. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 1 or 5, wherein: the transverse supporting rod is made of I-steel, an opening is formed in a web plate of the I-steel, and the rotating rod penetrates through the opening.

9. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 8, wherein: the transverse supporting rod is provided with a connecting hole, and the connecting piece penetrates through the connecting hole to detachably connect two adjacent supporting monomers.

10. The construction reinforcement cage assembling, posture adjusting and lifting operation device according to claim 2, wherein: the two slide bars are arranged in parallel at intervals, and the two fixing seats are arranged at intervals.