CN113152906A - Efficient sliding equipment in PC component field and PC component installation method - Google Patents

Abstract

The utility model relates to an on-site efficient sliding equipment for PC members and a PC member installation method, which comprises a bearing component for placing the PC members, and an overground sliding device, a transition sliding device and an underground sliding device which are sequentially arranged along the moving and transporting direction of the PC members; the transition sliding device comprises an adjustable supporting component, a plurality of lifting hydraulic cylinders are arranged on the adjustable supporting component, a plurality of bearing plates are fixed on telescopic rods of the lifting hydraulic cylinders, a plurality of transition rollers are arranged on the bearing plates, and transition driving pieces for driving the transition rollers to rotate are arranged on the bearing plates. This application has the effect that improves PC component hoist and mount efficiency.

Description

Efficient sliding equipment in PC component field and PC component installation method

Technical Field

The application relates to the field of PC component installation equipment, in particular to efficient sliding equipment in a PC component field and a PC component installation method.

Background

In the construction process of the existing basement, after a foundation pile is poured on a base, walls and a top wall are poured on the base in situ or prefabricated PC components are hoisted, and then the frame construction of the whole basement is completed.

When hoisting the PC component, because the basement is whole to be under construction the area great, in order to transport the PC component to the hoisting point from placing low, need erect ground slip equipment on the ground for when the PC component passes through ground slip equipment and transports the PC component to the basement next door, hoist equipment such as crane hoist the PC component to the pre-installation point, thereby accomplish the on-the-spot removal of PC component.

Aiming at the related technologies, the inventor finds that the basement construction area is large, and when the PC component is hoisted and moved by the hoisting equipment, the hoisting equipment at different positions is required to rotate and hoist the PC component due to the limited hoisting range of the hoisting equipment, so that the defect of low hoisting efficiency is caused.

Disclosure of Invention

In order to guarantee the hoist and mount efficiency of PC component, this application provides a high efficiency equipment that slides in PC component field.

The application provides a high-efficient equipment that slides in PC component field adopts following technical scheme:

an efficient sliding device in a PC component field comprises a bearing assembly for placing a PC component, and an overground sliding device, a transition sliding device and an underground sliding device which are sequentially arranged along the moving and transporting direction of the PC component;

the transition sliding device comprises an adjustable supporting component, a plurality of lifting hydraulic cylinders are arranged on the adjustable supporting component, a plurality of bearing plates are fixed on telescopic rods of the lifting hydraulic cylinders, a plurality of transition rollers are arranged on the bearing plates, and transition driving pieces for driving the transition rollers to rotate are arranged on the bearing plates.

By adopting the technical scheme, the PC component is firstly placed on the bearing component, then the bearing component and the PC component on the bearing component are conveyed to the side of the basement together through the ground sliding device, then the bearing plate is lifted to be flush with the ground sliding device through the lifting hydraulic cylinder, the bearing component is conveyed onto the bearing plate through the ground sliding device, then the bearing component and the PC component are moved downwards to be flush with the underground sliding device through the lifting hydraulic cylinder, then the bearing component and the PC component are conveyed into the ground sliding device through the transition driving piece, the bearing component and the PC component are conveyed to the side of the position to be installed through the underground sliding device, so that the PC component does not need to be hoisted for many times in the hoisting process, the conveying time of the PC component is saved, and the conveying efficiency is improved.

Optionally, the bearing assembly comprises a placing plate, the placing plate is connected with a limiting frame in a rotating mode along two side edges of the conveying direction, one end, far away from the rotating shaft, of the limiting frame is provided with a plurality of limiting screws, and a limiting groove for the limiting frame to be placed is formed in the placing plate.

Through adopting above-mentioned technical scheme, the setting up of spacing groove makes during spacing frame can accomodate into the spacing groove, guarantee to take the planarization of putting board upper surface, so that put the PC component directly with horizontal taking on putting the board, through rotating stop screw, make stop screw with take and put the board conflict, thereby make spacing frame stretch out from the spacing groove, thereby make some PC components that need vertically place can be pressed from both sides tightly in two spacing frames, can change the stop screw of different length simultaneously, so that spacing frame jack-up length, thereby satisfy the fixed and spacing of not unidimensional PC component.

Optionally, the support assembly comprises a base, a support stud is screwed on the base, one end, far away from the support plate, of the support stud is rotatably connected with the support plate, and the lifting hydraulic cylinder is arranged on the support plate.

Through adopting above-mentioned technical scheme, through the setting of supporting the stud, can adjust the degree of depth of supporting the stud in the base to adjust the distance between backup pad and the basement ground, with the installation and the use that satisfy different degree of depth basements.

Optionally, the circumference of base is equidistant to be provided with a plurality of assistance-localization real-time screws, every equal spiro union has the auxiliary stay screw in the location screw.

Through adopting above-mentioned technical scheme, adjust the support screw in the degree of depth of duplicating the location screw to make the support screw all the time with the backup pad butt, thereby play the support fixed action to the backup pad, reduce the condition of backup pad bending deformation.

Optionally, the ground sliding device comprises a ground sliding rail fixed on the ground, a ground moving plate is arranged on the ground sliding rail, a plurality of ground driving rollers in contact with the ground sliding rail are arranged on the ground moving plate, and a ground driving piece for driving the ground driving rollers to rotate is arranged on the ground moving plate; the ground moving plate is provided with a plurality of ground driving rollers in a rotating mode, and the ground moving plate is provided with a sending-out driving piece for driving the ground driving rollers to rotate.

By adopting the technical scheme, the ground driving roller is driven to rotate by the ground driving piece, so that the effect of driving the movable plate to move along the ground sliding rail is achieved, and when the local upper movable plate moves beside the basement, the ground driving roller is driven to rotate by the sending-out driving piece, so that the bearing assembly is sent out.

Optionally, the underground sliding device comprises a supporting table, an underground slide rail is arranged on the supporting table, an underground moving plate is arranged on the underground slide rail in a sliding mode, a plurality of underground driving rollers in contact with the underground slide rail are arranged on the underground moving plate, and an underground driving piece for driving the above-ground driving rollers to rotate is arranged on the underground moving plate.

Through adopting above-mentioned technical scheme, thereby underground driving piece drives underground drive gyro wheel and rotates and drive lower band movable plate and remove along secret slide rail to reach the effect of transportation carrier assembly and PC component.

Optionally, a plurality of underground driving rollers are arranged on the underground moving plate, and the underground moving plate is provided with a drive component for driving the underground driving rollers to move.

Through adopting above-mentioned technical scheme, drive underground drive roller through sending back the driving piece rotates, can send the carrier assembly back to in transition conveyor and the ground conveyor to be convenient for the transportation of next PC component.

On the other hand, the application also provides a method for installing the PC component, which applies the high-efficiency slipping device in the PC component field as claimed in any one of claims 1-9, and comprises the following specific steps:

s1, prefabricating the PC component according to the construction drawing, and transporting the PC component to a construction site for stacking;

s2, conveying the PC component to the side of the position to be installed through the overground sliding device, the transition sliding device and the underground sliding device;

and S3, hoisting the PC component to the installation position through the crane, and completing the installation of the PC component.

By adopting the technical scheme, the PC component is prefabricated firstly, and is transported to a construction site to be stacked, so that the sufficiency of prepared materials is ensured, and the PC component can be supplied in time when needing to be hoisted, so that the construction period is ensured; then conveying the PC component to the side of the position to be installed through an overground sliding device, a transition sliding device and an underground sliding device; the PC component is not required to be rotated and hung for multiple times, so that the transportation efficiency of the PC component in the field is saved; and hoisting the PC component to the installation position by using a crane to complete the installation of the PC component.

In summary, the present application includes at least one of the following beneficial technical effects:

1. firstly, the PC component is placed on the bearing assembly, then the bearing assembly and the PC component on the bearing assembly are conveyed to the side of the basement together through the overground sliding device, then the bearing assembly and the PC component are conveyed into the underground sliding device through the transition driving piece, and the bearing assembly and the PC component are conveyed to the side of the place to be installed through the underground sliding device, so that the PC component is not required to be hoisted for many times in the hoisting process, the conveying time of the PC component is saved, and the conveying efficiency is improved.

2. The installation method of the PC component improves the integral hoisting efficiency of the PC component by adopting the efficient sliding equipment in the PC component field.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an efficient gliding device in a PC component field according to an embodiment of the present application.

FIG. 2 is a schematic diagram of a mechanism of a bearing assembly in an efficient gliding device in a PC component field according to an embodiment of the application.

Fig. 3 is a partial structural schematic diagram of an overground gliding device in an efficient gliding device in a PC component yard according to an embodiment of the application.

FIG. 4 is a schematic structural diagram of a transition sliding device and an underground sliding device in the efficient sliding equipment in the PC component field according to the embodiment of the application.

FIG. 5 is a partial structural schematic diagram of an underground gliding device in a high-efficiency gliding device in a PC component field according to an embodiment of the application.

Description of reference numerals: 1. a load bearing assembly; 11. placing a plate; 12. a rotating groove; 13. a limiting frame; 14. a limiting groove; 15. a limit screw; 2. an overground sliding device; 21. an above-ground slide rail; 22. moving the plate on the ground; 23. an embedding groove; 24. ground driving rollers; 25. an above ground drive; 26. an above-ground drive roller; 27. the driving piece is sent out; 271. a delivery motor; 272. a driven gear; 273. a transition gear; 3. a transition slipping device; 31. a support assembly; 311. a base; 312. a support stud; 313. auxiliary positioning screw holes; 314. a support screw; 315. a support plate; 32. a lifting hydraulic cylinder; 33. a carrier plate; 34. a transition roll; 35. a transition drive member; 4. an underground slipping device; 41. a support table; 42. an underground slide rail; 43. moving the slab underground; 44. an n-type limiting plate; 45. underground driving rollers; 46. an underground drive; 47. an underground drive roller; 48. the driving member is returned.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses high-efficient equipment that slides in PC component field. Referring to fig. 1, an on-site efficient PC component skid-steer apparatus includes a carrier assembly 1 for carrying PC components. And an above-ground displacement means 2, a transition displacement means 3 and an underground displacement means 4 for transporting the carrier assembly 1.

Referring to fig. 1 and 2, carrier assembly 1 includes that the horizontally takes place board 11, and the last top surface of taking place board 11 has all seted up rotation groove 12 along self length direction's both sides, rotates and installs spacing frame 13 in groove 12, and spacing frame 13 passes through the bearing and is connected with rotation groove 12 lateral walls for spacing frame 13 can rotate. Set up and be provided with the spacing groove 14 that supplies spacing frame 13 to inlay on the board 11 for spacing frame 13 can be accomodate into spacing groove 14, guarantees to set up the planarization of board 11 upper surface, so that directly put up the horizontal PC component on setting up board 11. One end, far away from the rotating shaft of the limiting frame 13, of each limiting frame 13 is in threaded connection with a plurality of limiting screws 15, and the limiting screws 15 are arranged at equal intervals along the rotating axis direction of the limiting frame 13. Every stop screw 15 all runs through stop frame 13 and sets up, through rotating stop screw 15 for stop screw 15 with take and put board 11 conflict, thereby make stop frame 13 stretch out from spacing groove 2314, thereby make some PC components that need vertically place can be pressed from both sides tightly in two stop frames 13, can change stop screw 15 of different length simultaneously, so that stop frame 13 jack-up length, thereby satisfy the fixed of not unidimensional PC component and spacing.

Referring to fig. 1 and 3, the ground sliding device 2 includes a ground sliding rail 21 fixed on the ground, a ground moving plate 22 is disposed on the ground sliding rail 21, and an embedding groove 23 for the ground sliding rail 21 to extend into is disposed on the ground of the ground moving plate 22. An upper ground driving roller 24 is installed in each embedding groove 23, so that the upper ground sliding rail 21 extends into the embedding groove 23 and then is in contact with the upper ground driving roller 24. The embedding groove 23 is provided with a ground driving piece 25 for driving the ground driving roller 24 to rotate, the ground driving piece 25 is a servo motor (not shown in the figure) arranged in the embedding groove 23, and an output shaft of the servo motor is in transmission connection with a rotating shaft of the ground driving roller 24 through a gear set, so that the servo motor drives the ground driving roller 24 to rotate, and the effect of driving the ground moving plate 22 to move along the ground sliding rail 21 is achieved.

Referring to fig. 1 and 3, a plurality of upper driving rollers 26 are installed on the upper moving plate 22 at equal intervals along the longitudinal direction thereof, and the upper top surfaces of the upper driving rollers 26 protrude from the upper top surface of the upper moving plate 22, so that the set-up plate 11 is in contact with the upper driving rollers 26 when the set-up plate 11 is placed on the upper moving plate 22. The ground moving plate 22 is provided with a delivery driving member 27 for driving a plurality of ground driving rollers 26 to rotate. The delivery driving member 27 includes driven gears 272 fixed on the rotating shafts of the upper ground driving rollers 26, a transmission transition gear 273 is provided between two adjacent driven gears 272, and the transition gear 273 is mounted on the upper ground moving plate 22 so that the rotation of one of the upper ground driving rollers 26 drives the other driving rollers to rotate in the same direction through the transition gear 273. The sending-out driving member 27 further comprises a sending-out motor 271 fixed on the ground moving plate 22, and an output shaft of the sending-out motor 271 is fixedly connected with a rotating shaft of one of the ground driving rollers 26, so that the sending-out motor 271 can drive the plurality of ground driving rollers 26 to rotate around the same direction, and the placing plate 11 placed on the ground driving rollers 26 can be sent out later.

Referring to fig. 1 and 4, transition skid 3 includes a support assembly 31 disposed on the basement floor. The support assembly 31 includes a base 311 fixed on the basement floor, and a vertical upward support stud 312 is screwed on the base 311. The support stud 312 is provided with a support plate 315 at an end thereof remote from the support through a thrust bearing, and the height of the support plate 315 is adjusted by rotating the depth of the support stud 312 in the base 311. The circumference of backup pad 315 is equidistant to be provided with four assistance-localization real-time screw holes 313, and equal spiro union has support screw 314 in every assistance-localization real-time screw hole 313, adjusts support screw 314 in the degree of depth of duplicating the location screw hole to make support screw 314 all the time with backup pad 315 butt, thereby play the support fixed action to backup pad 315, reduce the condition of backup pad 315 bending deformation.

Referring to fig. 4, four vertical upward hydraulic cylinders 32 are uniformly fixed on the support plate 315, the same bearing plate 33 is fixed on the telescopic rods of the four hydraulic cylinders 32, a plurality of transition rollers 34 are arranged on the bearing plate 33 at equal intervals along the conveying direction of the PC member, the transition rollers 34 protrude from the top surface of the bearing plate 33, so that the placing plate 11 can roll onto the bearing plate 33 after being sent out by the driving member 27, and then the placing plate 11 is driven by the hydraulic cylinders 32 to move downwards, thereby achieving the effect of conveying the PC member to move downwards. The carrier plate 33 is provided with a plurality of transition rollers 34 which are driven to simultaneously rotate a transition drive 35. The transition piece 35 comprises a transition motor fixed to the carrier plate 33. The transition motor output shaft is in transmission connection with the rotating shaft of the transition roller 34 through a gear set, so that the transition motor can drive the transition roller 34 to rotate, and the placing plate 11 and the PC component placed on the transition roller 34 can be sent out.

Referring to fig. 4 and 5, the underground slide rail 42 includes a support base 41 fixed on the ground of the basement, and the support base 41 is laid along the length direction of the basement. An underground slide rail 42 is fixedly arranged on the support table 41, an underground moving plate 43 is arranged on the underground slide rail 42, and an n-type limiting plate 44 for the underground slide rail 42 to extend into is arranged on the ground of the underground moving plate 43. An underground driving roller 45 is installed in each n-type limiting plate 44, so that the underground slide rail 42 extends into the n-type limiting plate 44 and then contacts with the underground driving roller 45. An underground driving part 46 for driving the underground driving roller 45 to rotate is installed on the n-type limiting plate 44, the underground driving part 46 is a servo motor installed in the n-type limiting plate 44, an output shaft of the servo motor is in transmission connection with a rotating shaft of the underground driving roller 45 through a gear set, and therefore the servo motor drives the underground driving roller 45 to rotate, and the effect of driving the underground moving plate 43 to move along the underground sliding rail 42 is achieved.

Referring to fig. 4 and 5, a plurality of underground driving rollers 47 are installed on the underground moving plate 43 at equal intervals along the longitudinal direction thereof, and the upper top surfaces of the underground driving rollers 47 protrude from the upper top surface of the underground moving plate 43, so that the placing plate 11 is in contact with the underground driving rollers 47 when the placing plate 11 is placed on the underground moving plate 43. The underground moving plate 43 is provided with a feed-back driving member 48 for driving a plurality of underground driving rollers 47 to rotate. Send back driving piece 48 including fixing the motor that sends back on secret movable plate 43, send back the output shaft of motor and pass through the gear train and be connected with underground drive roller 47 transmission, through sending back motor electrodynamic drive underground drive roller 47 and rotate for after PC component hoist and mount are accomplished, can drive underground drive roller 47 through sending back the motor and will take place board 11 and send back to loading board 33 on, be carried to in the ground displacement device 2 for transport next PC component.

The implementation principle of the high-efficiency sliding equipment in the PC component field is as follows: the PC component is firstly placed in the placing plate 11, and when the PC component needs to be limited and fixed, the PC component can be limited through the limiting frame 13. The set-up plate 11 and the PC component are then transported by the ground displacement device 2 to the side of the transition displacement device 3. The lift cylinder 32 moves the carrier plate 33 upward so that the carrier plate 33 is flush with the ground moving plate 22, and then the landing plate 11 is fed onto the carrier plate 33 by the feeding-out driving member 27. Then the lifting hydraulic cylinder 32 drives the bearing plate 33 and the placing plate 11 to move downwards together, when the bearing plate 33 is level with the underground moving plate 43, the placing plate 11 and the PC component are conveyed into the underground moving plate 43 through the transition driving piece 35, and then the underground moving plate 43 and the placing plate 11 are conveyed to the side of a hoisting position through the underground driving piece 46, so that the hoisting frequency of the PC component is reduced, and the transportation efficiency is improved.

On the other hand, the application also provides a method for installing the PC component, which applies the high-efficiency slipping device in the PC component field as claimed in any one of claims 1-9, and comprises the following specific steps:

and S1, prefabricating the PC component according to the construction drawing, and transporting the PC component to a construction site for stacking. When the PC components are stacked, every two adjacent PC components are stacked at intervals through the square timber, and each stack does not exceed 5 PC components, so that the PC components cannot be crushed.

S2, conveying the PC component to the side of the position to be installed through the overground sliding device, the transition sliding device and the underground sliding device; and no more than two PC components are transported at a time to reduce the likelihood of damage to the PC components during transport.

And S3, hoisting the PC component to the installation position through the crane to complete the installation of the PC component, and in the hoisting process, returning the bearing assembly through the underground conveying device, the transition conveying device and the overground conveying device to transport the PC component of the next batch.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An efficient equipment that slides in PC component field which characterized in that: the device comprises a bearing assembly (1) for placing a PC component, and an overground sliding device (2), a transition sliding device (3) and an underground sliding device (4) which are sequentially arranged along the moving and transporting direction of the PC component;

transition sliding device (3) are including adjustable supporting component (31), be provided with a plurality of hydraulic cylinder (32) on adjustable supporting component (31), it is a plurality of be fixed with loading board (33) on hydraulic cylinder (32)'s the telescopic link, be provided with a plurality of transition rollers (34) on loading board (33), be provided with on loading board (33) and drive a plurality of transition rollers (34) pivoted transition driving piece (35).

2. The PC component onsite high efficiency skidding apparatus of claim 1 wherein: the bearing component (1) comprises a placing plate (11), the placing plate (11) is connected with a limiting frame (13) in a rotating mode along two side edges of the conveying direction, one end, far away from a rotating shaft, of the limiting frame (13) is provided with a plurality of limiting screws (15), and a limiting groove (14) for placing the limiting frame (13) is formed in the placing plate (11).

3. The PC component onsite high efficiency skidding apparatus of claim 1 wherein: the supporting component (31) comprises a base (311), a supporting stud (312) is connected to the base (311) in a threaded mode, one end, far away from the supporting plate (315), of the supporting stud (312) is rotatably connected with the supporting plate (315), and the lifting hydraulic cylinder (32) is arranged on the supporting plate (315).

4. An in-field high efficiency glide apparatus of a PC component of claim 3 wherein: a plurality of auxiliary positioning screw holes (313) are formed in the circumferential direction of the base (311) at equal intervals, and an auxiliary support screw rod (314) is screwed in each positioning screw hole.

5. The PC component onsite high efficiency skidding apparatus of claim 1 wherein: the ground sliding device (2) comprises a ground sliding rail (21) fixed on the ground, a ground moving plate (22) is arranged on the ground sliding rail (21), a plurality of ground driving rollers (24) in contact with the ground sliding rail (21) are arranged on the ground moving plate (22), and a ground driving piece (25) for driving the ground driving rollers (24) to rotate is arranged on the ground moving plate (22);

the ground moving plate (22) is provided with a plurality of ground driving rollers (26) in a rotating way, and the ground moving plate (22) is provided with a sending-out driving piece (27) for driving the ground driving rollers (26) to rotate.

6. The PC component onsite high efficiency skidding apparatus of claim 1 wherein: the underground sliding device (4) comprises a supporting table (41), an underground sliding rail (42) is arranged on the supporting table (41), an underground moving plate (43) is arranged on the underground sliding rail (42) in a sliding mode, a plurality of underground driving rollers (45) in contact with the underground sliding rail (42) are arranged on the underground moving plate (43), and an underground driving piece (46) for driving the ground driving rollers (24) to rotate is arranged on the underground moving plate (43).

7. The PC component onsite high efficiency skidding apparatus of claim 6 wherein: the underground moving plate (43) is provided with a plurality of underground driving rollers (47), and the underground moving plate (43) is provided with a return driving piece (48) for driving the underground driving rollers (47) to move.

8. A method for installing a PC component, which applies the high-efficiency slipping device in a PC component field as claimed in any one of claims 1-7, and comprises the following specific steps:

s1, prefabricating the PC component according to the construction drawing, and transporting the PC component to a construction site for stacking;

s2, conveying the PC component to the side of the place to be installed through the ground sliding device (2), the transition sliding device (3) and the underground sliding device (4);

and S3, hoisting the PC component to the installation position through the crane, and completing the installation of the PC component.

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