CN110714616A - Method for installing and fixing aluminum alloy template framework and assembled wall panel - Google Patents

Abstract

The invention relates to a method for installing and fixing an aluminum alloy template framework and an assembled wall panel, which mainly comprises the following steps of assembled wall surface treatment, aluminum alloy template framework treatment, framework position conveying, placing connection operation, fixing connection operation and the like. The invention can solve the problems existing in the process of fixedly connecting the existing aluminum alloy template framework to the assembled wall panel, a, the position of the aluminum alloy template framework needs to be manually controlled to be adjusted, the aluminum alloy template framework needs to be manually controlled to be butted with a fixing hole on the wall surface, and the position of the aluminum alloy template framework is not accurately adjusted by manually controlling the movement of the aluminum alloy template framework; and b, manually controlling the aluminum alloy template framework, wherein the aluminum alloy template framework needs to be manually locked and fixed by means of a fixing tool and then is controlled to move by using a hoisting machine, and the manual fixing stability is poor.

Description

Method for installing and fixing aluminum alloy template framework and assembled wall panel

Technical Field

The invention relates to the technical field of assembly type building construction, in particular to a method for installing and fixing an aluminum alloy formwork framework and an assembly type wall panel.

Background

The traditional building industry produces a large amount of construction wastes easily, and traditional building mode quality problem is more, and the urbanization population of china constantly increases, and the construction worker reduces gradually, along with the great pressure of having alleviated the building industry of china now of appearance of prefabricated assembled building mode, wherein assembled wall need be fixed its node by means of the construction of aluminum alloy template skeleton in the construction process, and the position that aluminum alloy template skeleton was fixed on the assembled wall board is influencing the quality of whole building.

However, the existing aluminum alloy template framework is difficult to fixedly connect to the assembled wall panel, and a, the aluminum alloy template framework needs to be manually controlled to adjust the position, the aluminum alloy template framework needs to be manually controlled to butt joint with a fixing hole in the wall surface, the position of the aluminum alloy template framework is not accurately adjusted by manually controlling the movement of the aluminum alloy template framework, the aluminum alloy template framework cannot be installed on the assembled wall surface according to the specified size, and the estimated use effect cannot be achieved; and b, manually controlling the aluminum alloy template framework, namely manually locking and fixing the aluminum alloy template framework by using a fixing tool and then controlling to move by using a lifting machine, wherein the manual fixing stability is poor, potential safety hazards exist, the fixing tool needs to be manually controlled and adjusted aiming at the aluminum alloy template frameworks with different specifications, and the application effect is poor.

For the technical problems existing in the process of fixedly connecting the aluminum alloy formwork framework to the assembled wall panel, persons in the related technical field make adaptive improvements after research, for example, patent No. 2013101353754, a construction method of an assembled aluminum alloy formwork system improves the construction effect, however, the problems existing in the process of fixedly connecting the aluminum alloy formwork framework to the assembled wall panel are needed to be solved at present.

Disclosure of Invention

In order to solve the problems, the invention provides a method for installing and fixing an aluminum alloy formwork framework and an assembled wall panel, which can solve the problems in the process of fixedly connecting the aluminum alloy formwork framework to the assembled wall panel.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a method for installing and fixing an aluminum alloy template framework and an assembled wall panel mainly comprises the following steps of:

step one, processing the assembled wall, cleaning a panel of the assembled wall, marking the panel by using a marking pen after measuring the position by using a tape measure according to the specified installation position, drilling a fixing hole in the marked position on the assembled wall by using an electric drill, and installing a metal nut in the fixing hole;

step two, aluminum alloy template framework treatment, namely drilling mounting holes in the aluminum alloy template framework by adopting an electric drill after marking positions on the aluminum alloy template framework according to mounting specification and size;

conveying the framework position, namely erecting the aluminum alloy template framework, fixing the aluminum alloy template framework by using butt joint equipment, and conveying the aluminum alloy template framework to the mounting position of the assembled wall;

placing and connecting operation, namely inserting the screw aluminum alloy template framework into the metal nut through the mounting hole, and connecting the aluminum alloy template framework to the assembled wall panel by rotating the locking screw;

step five, fixing connection operation, namely welding and fixing the metal nut and the aluminum alloy template framework by using a welding machine, polishing the welding position smoothly after cooling, and removing welding slag;

the process in the first to fifth steps needs to be completed by matching with docking equipment, the docking equipment comprises a moving trolley, a lifting cylinder is mounted on the moving trolley, an adjusting frame is mounted at the top end of the lifting cylinder through a flange, adjusting grooves are uniformly formed in the adjusting frame along the circumferential direction of the adjusting frame, an adjusting motor is mounted on the inner wall of the adjusting frame, a threaded disc is arranged on an output shaft of the adjusting motor, an adjusting frame is connected to the threaded disc in a threaded transmission mode, the adjusting frame is slidably arranged in the adjusting grooves, and an executing device is arranged on the adjusting frame;

the actuating device comprises a threaded hole formed in the adjusting frame, a pressing mechanism is arranged in the threaded hole, a clamping and fixing mechanism is arranged on the pressing mechanism, the pressing mechanisms are connected through a driving tensioning mechanism, and the driving tensioning mechanism is arranged on the adjusting frame;

the clamping and fixing mechanism comprises a clamping frame installed on the pressing mechanism, the clamping frame is of a U-shaped structure, a lattice baffle is arranged between the inner walls of the clamping frame, telescopic grooves are symmetrically formed in the upper end and the lower end of the rear side of the clamping frame, fixing grooves are symmetrically formed in the upper end and the lower end of the front side of the clamping frame, a bidirectional cylinder is installed at the rear end of the lattice baffle, pushing blocks are symmetrically installed on the bidirectional cylinder and located in the telescopic grooves and abutted against fixed branched chains, the fixed branched chains are located in the fixing grooves, and auxiliary branched chains are arranged at the front ends of the lattice baffle.

The pressing mechanism comprises a threaded rod arranged in the threaded hole in a threaded engagement mode, the front end of the threaded rod is connected to the clamping frame through a bearing, a supporting telescopic rod is arranged on the clamping frame, and the supporting telescopic rod is fixed on the adjusting frame.

The driving tensioning mechanism comprises a driving rotating wheel arranged on an adjusting frame in a sliding mode, a tensioning groove is formed in the adjusting frame, a tensioning support is installed in the tensioning groove through a tensioning spring rod, the tensioning rotating wheel is arranged on the tensioning support through a bearing and is connected with the driving rotating wheel through a driving belt, crosstalk of the driving belt passes through the tensioning rotating wheel, the middle of the driving rotating wheel is connected with a threaded rod in a threaded transmission mode, a driven gear is connected to the driving rotating wheel located at the lower end of the adjusting frame, a driving gear is meshed with the driven gear, the driving gear is installed on a driving motor, and the driving motor is fixed on the adjusting frame.

The fixed branch chain comprises a fixed extrusion frame arranged inside a fixed groove through a spring, the fixed extrusion frame is arranged in the fixed groove in a sliding mode, the lower end of the fixed extrusion frame is abutted against a rubber pad, the rubber pad is arranged on the inner wall of a clamping frame, a fixed slide way is arranged on the outer wall of the clamping frame, an extrusion slide rod is arranged in the fixed slide way in a sliding fit mode, a reset spring is arranged between the extrusion slide rod and the fixed slide way, and one end of the extrusion slide rod is abutted against a pushing block while the other end of the extrusion slide rod is abutted against the fixed.

The auxiliary branched chain comprises an air pressure pipeline arranged on the lattice baffle, piston rods are symmetrically arranged at the upper end and the lower end of the air pressure pipeline, rubber blocks wrap the piston rods, and the middle of the air pressure pipeline is connected with a telescopic air bag.

The end face of the extrusion sliding rod in contact with the pushing block is of a structure inclined upwards from front to back, and the end face of the fixed extrusion frame in contact with the extrusion sliding rod is of a structure inclined upwards from back to front.

The invention has the beneficial effects that:

1. the invention can solve the following problems existing in the process of fixedly connecting the existing aluminum alloy template framework to the assembled wall panel, namely a, the position of the aluminum alloy template framework needs to be manually controlled to be adjusted, the aluminum alloy template framework needs to be manually controlled to be butted with a fixing hole on the wall surface, the position of the aluminum alloy template framework is not accurately moved and adjusted by manual control, the aluminum alloy template framework cannot be installed on the assembled wall surface according to the specified size, and the estimated use effect cannot be achieved; and b, manually controlling the aluminum alloy template framework, namely manually locking and fixing the aluminum alloy template framework by using a fixing tool and then controlling to move by using a lifting machine, wherein the manual fixing stability is poor, potential safety hazards exist, the fixing tool needs to be manually controlled and adjusted aiming at the aluminum alloy template frameworks with different specifications, and the application effect is poor.

2. According to the clamping and fixing mechanism, the fixing branched chain is driven by the bidirectional cylinder to lock the clamping and fixing position of the aluminum alloy template framework, the rubber pad is adopted to increase the friction force for clamping and fixing, and the auxiliary branched chain is directly contacted with the aluminum alloy template framework through the rubber block and the telescopic air bag when the aluminum alloy template framework is fixedly clamped, so that the aluminum alloy template framework can be protected while being locked, and the deformation of the aluminum alloy template framework caused by the overlarge clamping and fixing force is avoided.

3. The driving tensioning mechanism and the pressing mechanism are matched with each other, and the clamping and fixing mechanism clamped on the aluminum alloy template framework can be synchronously controlled to be synchronously and tightly attached to the wall surface in the butt joint operation, so that the aluminum alloy template framework is parallelly butt-jointed on the assembled wall panel, and the aluminum alloy template framework and the fixing hole in the assembled wall panel can be accurately in butt joint.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic plan view of the docking device of the present invention;

FIG. 3 is an enlarged view of the invention taken from the direction I of FIG. 2;

fig. 4 is a schematic structural diagram of the adjusting frame, the adjusting bracket and the driving tensioning mechanism of the invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, a method for installing and fixing an aluminum alloy formwork framework and an assembled wall panel mainly comprises the following steps of:

step one, processing the assembled wall, cleaning a panel of the assembled wall, marking the panel by using a marking pen after measuring the position by using a tape measure according to the specified installation position, drilling a fixing hole in the marked position on the assembled wall by using an electric drill, and installing a metal nut in the fixing hole;

step two, aluminum alloy template framework treatment, namely drilling mounting holes in the aluminum alloy template framework by adopting an electric drill after marking positions on the aluminum alloy template framework according to mounting specification and size;

conveying the framework position, namely erecting the aluminum alloy template framework, fixing the aluminum alloy template framework by using butt joint equipment, and conveying the aluminum alloy template framework to the mounting position of the assembled wall;

placing and connecting operation, namely inserting the screw aluminum alloy template framework into the metal nut through the mounting hole, and connecting the aluminum alloy template framework to the assembled wall panel by rotating the locking screw;

step five, fixing connection operation, namely welding and fixing the metal nut and the aluminum alloy template framework by using a welding machine, polishing the welding position smoothly after cooling, and removing welding slag;

the process in the first to fifth steps needs to be completed by matching with docking equipment, the docking equipment comprises a movable trolley 1, a lifting cylinder 2 is mounted on the movable trolley 1, an adjusting frame 3 is mounted at the top end of the lifting cylinder 2 through a flange, adjusting grooves are uniformly formed in the adjusting frame 3 along the circumferential direction of the adjusting frame, an adjusting motor 4 is mounted on the inner wall of the adjusting frame 3, a threaded disc 5 is arranged on an output shaft of the adjusting motor 4, an adjusting frame 6 is connected to the threaded disc 5 in a threaded transmission mode, the adjusting frame 6 is slidably arranged in the adjusting grooves, and an executing device is arranged on the adjusting frame 6;

the actuating device comprises a threaded hole formed in the adjusting frame 6, a pressing mechanism 7 is arranged in the threaded hole, a clamping and fixing mechanism 8 is arranged on the pressing mechanism 7, the pressing mechanisms 7 are connected through a driving tensioning mechanism 9, and the driving tensioning mechanism 9 is arranged on the adjusting frame 6;

centre gripping fixed establishment 8 is including installing the centre gripping frame 81 on hold-down mechanism 7, centre gripping frame 81 is U type structure, be provided with check baffle 82 between the inner wall of centre gripping frame 81, flexible groove has been seted up to the upper and lower both ends symmetry of centre gripping frame 81 rear side, the upper and lower both ends symmetry of centre gripping frame 81 front side is provided with the fixed slot, two-way cylinder 83 is installed to the rear end of check baffle 82, propelling movement piece 84 is installed to the symmetry on the two-way cylinder 83, propelling movement piece 84 is located flexible inslot, propelling movement piece 84 supports and leans on fixed branch 85, fixed branch 85 is located the fixed slot, the front end of check baffle 82 is provided with supplementary branch 86.

Fixed branch 85 includes and sets up the fixed extrusion frame 851 in the fixed slot inside through the spring, fixed extrusion frame 851 slides and sets up in the fixed slot, the lower extreme of fixed extrusion frame 851 leans on rubber pad 852, rubber pad 852 is installed on the inner wall of centre gripping frame 81, install fixed slide 853 on the outer wall of centre gripping frame 81, be provided with extrusion slide bar 854 through the sliding fit mode in the fixed slide 853, be provided with reset spring 855 between extrusion slide bar 854 and the fixed slide 853, the one end of extrusion slide bar 854 leans on propelling movement piece 84 the other end leans on fixed extrusion frame 851.

The end surface of the extrusion sliding rod 854 contacting with the pushing block 84 is of a structure inclined upwards from front to back, and the end surface of the fixed extrusion frame 851 contacting with the extrusion sliding rod 854 is of a structure inclined upwards from back to front.

The auxiliary branched chain 86 comprises an air pressure pipeline 861 arranged on the lattice baffle 82, piston rods 862 are symmetrically arranged at the upper end and the lower end of the air pressure pipeline 861, rubber blocks wrap the piston rods 862, and a telescopic air bag 863 is connected to the middle of the air pressure pipeline 861.

When the clamping and fixing mechanism 8 works, the aluminum alloy template framework is pressed into the clamping frame 81, the telescopic air bag 863 is extruded by the aluminum alloy template framework at first, the piston rod 862 is extruded by the air pressure in the telescopic air bag 863 after the air pressure is extruded, and the piston rod 862 is abutted against the aluminum alloy template framework, so that the aluminum alloy template framework is prevented from being deformed due to overlarge clamping force in instant movement when the aluminum alloy template framework is clamped and conveyed;

the bidirectional cylinder 83 works to drive the pushing block 84 to perform telescopic adjustment operation, the pushing block 84 extrudes the extrusion slide bar 854 in motion, the extruded extrusion slide bar 854 changes position accordingly, the fixed extrusion frame 851 is extruded, the fixed extrusion frame 851 moves towards the inside of the clamping frame 81 after being stressed, and the rubber gasket 852 is abutted against the aluminum alloy template framework to lock and fix the aluminum alloy template framework in motion.

The driving tensioning mechanism 9 comprises a driving rotating wheel 91 arranged on the adjusting frame 6 in a sliding mode, a tensioning groove is formed in the adjusting frame 6, a tensioning support 93 is installed in the tensioning groove through a tensioning spring rod 92, a tensioning rotating wheel 94 is arranged on the tensioning support 93 through a bearing, the driving rotating wheels 91 are connected through a driving belt 95, crosstalk of the driving belt 95 passes through the tensioning rotating wheel 94, the middle of the driving rotating wheel 91 is connected with the threaded rod 71 through a threaded transmission mode, a driven gear 96 is connected to the driving rotating wheel 91 at the lower end of the adjusting frame 3, a driving gear 97 is meshed with the driven gear 96, the driving gear 97 is installed on a driving motor 98, and the driving motor 98 is fixed on the adjusting frame 6.

The tensioning spring rod 92 designed on the driving tensioning mechanism 9 can control the tensioning rotating wheel 94 to perform position adjustment operation according to the change of the distance between the adjusting frames 6 in operation, so that the driving belt 95 can be kept in a tensioning state all the time when the aluminum alloy formwork frameworks with different specifications are operated.

The pressing mechanism 7 comprises a threaded rod 71 arranged in a threaded hole in a threaded engagement mode, the front end of the threaded rod 71 is connected to a clamping frame 81 through a bearing, a supporting telescopic rod 72 is arranged on the clamping frame 81, and the supporting telescopic rod 72 is fixed on the adjusting frame 6.

After the movable trolley 1 is controlled to move to a proper position, the driving motor 98 works to drive the driving rotating wheel 91 to rotate in a gear transmission mode, the driving rotating wheel 91 synchronously rotates in a belt wheel transmission mode, the threaded rod 71 is driven to move back and forth in a rotating process in a thread transmission mode, and the threaded rod 71 enables the aluminum alloy formwork framework to be tightly attached to an assembled wall panel in moving operation.

During the operation of the butt joint equipment, the aluminum alloy formwork framework is firstly locked and fixed through the clamping and fixing mechanism 8, after the fixing height of the aluminum alloy formwork framework is adjusted, the aluminum alloy formwork framework is pushed to a proper working position through the moving trolley 1, the tensioning mechanism 9 and the pressing mechanism 7 are driven to be matched with each other, and the aluminum alloy formwork framework is accurately butted to the assembled wall panel according to a specified installation position in a thread transmission mode.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A method for installing and fixing an aluminum alloy template framework and an assembled wall panel is characterized by comprising the following steps: mainly comprises the following steps of fixing and mounting:

step one, processing the assembled wall, cleaning a panel of the assembled wall, marking the panel by using a marking pen after measuring the position by using a tape measure according to the specified installation position, drilling a fixing hole in the marked position on the assembled wall by using an electric drill, and installing a metal nut in the fixing hole;

step two, aluminum alloy template framework treatment, namely drilling mounting holes in the aluminum alloy template framework by adopting an electric drill after marking positions on the aluminum alloy template framework according to mounting specification and size;

conveying the framework position, namely erecting the aluminum alloy template framework, fixing the aluminum alloy template framework by using butt joint equipment, and conveying the aluminum alloy template framework to the mounting position of the assembled wall;

placing and connecting operation, namely inserting the screw aluminum alloy template framework into the metal nut through the mounting hole, and connecting the aluminum alloy template framework to the assembled wall panel by rotating the locking screw;

step five, fixing connection operation, namely welding and fixing the metal nut and the aluminum alloy template framework by using a welding machine, polishing the welding position smoothly after cooling, and removing welding slag;

the process in the first step, the second step and the fifth step needs to be completed in cooperation with butt joint equipment, the butt joint equipment comprises a movable trolley (1), a lifting cylinder (2) is mounted on the movable trolley (1), an adjusting frame (3) is mounted at the top end of the lifting cylinder (2) through a flange, adjusting grooves are uniformly formed in the adjusting frame (3) along the circumferential direction of the adjusting frame, an adjusting motor (4) is mounted on the inner wall of the adjusting frame (3), a threaded disc (5) is arranged on an output shaft of the adjusting motor (4), an adjusting frame (6) is connected to the threaded disc (5) in a threaded transmission mode, the adjusting frame (6) is arranged in the adjusting grooves in a sliding mode, and an executing device is arranged on the adjusting frame;

the actuating device comprises a threaded hole formed in the adjusting frame (6), a pressing mechanism (7) is arranged in the threaded hole, a clamping and fixing mechanism (8) is arranged on the pressing mechanism (7), the pressing mechanisms (7) are connected through a driving tensioning mechanism (9), and the driving tensioning mechanism (9) is arranged on the adjusting frame (6);

centre gripping fixed establishment (8) are including installing centre gripping frame (81) on hold-down mechanism (7), centre gripping frame (81) are U type structure, be provided with check baffle (82) between the inner wall of centre gripping frame (81), flexible groove has been seted up to the upper and lower both ends symmetry of centre gripping frame (81) rear side, the upper and lower both ends symmetry of centre gripping frame (81) front side is provided with the fixed slot, two-way cylinder (83) are installed to the rear end of check baffle (82), propelling movement piece (84) are installed to symmetry on two-way cylinder (83), propelling movement piece (84) are located flexible inslot, propelling movement piece (84) support and lean on fixed branch chain (85), fixed branch chain (85) are located the fixed slot, the front end of check baffle (82) is provided with supplementary branch chain (86).

2. The method for installing and fixing the aluminum alloy formwork framework and the assembled wall panel as claimed in claim 1, wherein the method comprises the following steps: the pressing mechanism (7) comprises a threaded rod (71) arranged in a threaded hole in a threaded engagement mode, the front end of the threaded rod (71) is connected to a clamping frame (81) through a bearing, a supporting telescopic rod (72) is arranged on the clamping frame (81), and the supporting telescopic rod (72) is fixed on the adjusting frame (6).

3. The method for installing and fixing the aluminum alloy formwork framework and the assembled wall panel as claimed in claim 1, wherein the method comprises the following steps: the drive tensioning mechanism (9) comprises a drive rotating wheel (91) arranged on an adjusting frame (6) in a sliding mode, a tensioning groove is formed in the adjusting frame (6), a tensioning support (93) is installed in the tensioning groove through a tensioning spring rod (92), a tensioning rotating wheel (94) is arranged on the tensioning support (93) through a bearing, the drive rotating wheels (91) are connected through a drive belt (95), crosstalk of the drive belt (95) passes through the tensioning rotating wheel (94), the middle of the drive rotating wheel (91) is connected with a threaded rod (71) in a threaded transmission mode, a driven gear (96) is connected onto the drive rotating wheel (91) at the lower end of the adjusting frame (3), a driving gear (97) is meshed onto the driven gear (96), the driving gear (97) is installed on a driving motor (98), and the driving motor (98) is fixed onto the adjusting frame (6).

4. The method for installing and fixing the aluminum alloy formwork framework and the assembled wall panel as claimed in claim 1, wherein the method comprises the following steps: fixed branch (85) include fixed extrusion frame (851) of setting in the fixed slot inside through the spring, fixed extrusion frame (851) slide and set up in the fixed slot, the lower extreme of fixed extrusion frame (851) supports and leans on rubber pad (852), rubber pad (852) are installed on the inner wall of centre gripping frame (81), install fixed slide (853) on the outer wall of centre gripping frame (81), be provided with extrusion slide bar (854) through the sliding fit mode in fixed slide (853), be provided with between extrusion slide bar (854) and fixed slide (853) reset spring (855), the one end of extrusion slide bar (854) is supported and is leaned on propelling movement piece (84) the other end and is supported and lean on fixed extrusion frame (851).

5. The method for installing and fixing the aluminum alloy formwork framework and the assembled wall panel as claimed in claim 1, wherein the method comprises the following steps: the auxiliary branch chain (86) comprises an air pressure pipeline (861) arranged on the grid baffle plate (82), piston rods (862) are symmetrically arranged at the upper end and the lower end of the air pressure pipeline (861), rubber blocks wrap the piston rods (862), and the middle of the air pressure pipeline (861) is connected with a telescopic air bag (863).

6. The method for installing and fixing the aluminum alloy formwork framework and the assembled wall panel as claimed in claim 4, wherein the method comprises the following steps: the end face of the extrusion sliding rod (854) in contact with the pushing block (84) is of a structure inclined upwards from front to back, and the end face of the fixed extrusion frame (851) in contact with the extrusion sliding rod (854) is of a structure inclined upwards from back to front.

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