CN210316608U - Lifting support platform used in assembly type cross beam installation procedure - Google Patents

Abstract

A lifting support platform used in the installation procedure of an assembled beam is characterized in that the bottom pipe ends of four vertical guide steel pipes are respectively fastened in the four corner areas of the top surface of a transverse bottom plate through welding, the top pipe ends of the four vertical guide steel pipes are respectively fastened in the four corner areas of the bottom surface of a transverse top plate through welding, the bottom of a vertical support base is fixedly welded in the middle of the top surface of the transverse bottom plate, a cylinder seat of a master cylinder is fastened at the top of a vertical support base through bolts, the lower end of each vertical guide rod sequentially penetrates through a trepan boring downwards, insert from the last port of vertical direction steel pipe behind the circular rod hole, a spring has been cup jointed in the equal activity in upper end of every vertical guide bar, and the fastening connection is realized through the welding respectively with the top of four vertical guide bars in the four corners region of lift ejector plate bottom surface, and the fastening connection is realized through bolt and the bottom surface middle part of lift ejector plate behind the main rod hole to the piston rod head end of master cylinder upwards running through. The utility model has the characteristics of novel structure, support more firm, the practicality is strong.

Description

Lifting support platform used in assembly type cross beam installation procedure

Technical Field

The utility model relates to a lift supporting platform for in assembled crossbeam installation procedure.

Background

When the fabricated cross beam is lifted to a target position of a construction site through the lifting appliance for installation operation, the lifting appliance can shake due to the action of wind force in the lifting and moving process, so that the fabricated cross beam in a suspension state is not beneficial to smooth installation operation.

Disclosure of Invention

In order to solve the problem, the utility model provides a lift supporting platform for among assembly type crossbeam installation procedure, it has novel structure, supports more firm, the characteristics that the practicality is strong.

In order to achieve the purpose, the utility model adopts the following specific technical measures: a lifting support platform used in the mounting process of an assembled beam comprises a transverse bottom plate, a transverse top plate, a vertical guide steel pipe, a transverse hoop plate, a vertical support base, a vertical guide rod, a spring, a limit sleeve, a main oil cylinder, a lifting ejector plate, a diagonal support wheel and diagonal caster wheels,

the four vertical guide steel pipes are arranged in a square shape, the bottom pipe ends of the four vertical guide steel pipes are respectively fastened in the four corner areas of the top surface of the transverse bottom plate through welding, and the top pipe ends of the four vertical guide steel pipes are respectively fastened in the four corner areas of the bottom surface of the transverse top plate through welding;

the bottom of the vertical supporting base is fixedly welded in the middle of the top surface of the transverse bottom plate, and the vertical supporting base is positioned in the middle of the four vertical guide steel pipes;

a cylinder seat of the main oil cylinder is fastened to the top of the vertical supporting base through a bolt, and a piston rod of the main oil cylinder faces upwards;

an upper transverse hoop plate and a lower transverse hoop plate are welded between two adjacent vertical guide steel pipes;

a circular rod hole is drilled downwards from four corner areas of the top surface of the transverse top plate, each circular rod hole corresponds to and is communicated with the vertical guide steel pipe below, a limiting sleeve is welded above each circular rod hole, and sleeve holes of the limiting sleeves correspond to and are communicated with the circular rod holes below;

a vertical guide rod is downwards inserted above each limiting sleeve, the lower end of each vertical guide rod downwards penetrates through the sleeve hole and the circular rod hole in sequence and then is inserted from the upper end opening of the vertical guide steel pipe, and the four vertical guide rods are parallel to each other and are distributed in a square shape;

the upper end of each vertical guide rod is movably sleeved with a spring, and the bottom end of each spring can downwards press against the top of the limiting sleeve;

the four corner areas of the bottom surface of the lifting ejector plate are respectively and fixedly connected with the top ends of the four vertical guide rods through welding, and the top end of each spring can upwards eject against the bottom surface of the lifting ejector plate;

a main rod hole is drilled in the middle of the top surface of the transverse top plate, and the head end of a piston rod of the main oil cylinder penetrates through the main rod hole upwards and then is fixedly connected with the middle of the bottom surface of the lifting ejector plate through a bolt;

under the extension/retraction control of a main oil cylinder piston rod, the lifting ejector plate can move up or down along the vertical guide steel pipe through the vertical guide rod, and the top surface of the lifting ejector plate can be ejected to the bottom of the assembled beam;

a pair of parallel first tandem axle plates is welded in the middle of the upper end of the front side surface of the vertical support base, a rod sleeve is movably connected between the left tandem axle plate and the right tandem axle plate in series through a bolt rod, the rod sleeve is fixedly connected with the top rod end of the support rod through welding, a U-shaped axle sleeve is welded at the lower rod end of the support rod, and a first roller wheel is connected in series with the U-shaped axle sleeve through a first wheel axle;

the middle part of the supporting rod is fixedly connected with one end of the traction chain by welding, and the other end of the traction chain is fixedly connected with a transverse hoop plate positioned behind the other end of the traction chain by welding;

the first axle stringing plate, the bolt rod, the rod sleeve, the support rod, the U-shaped axle sleeve, the first axle, the first roller and the traction chain are combined to form a diagonal support wheel;

the front sides of the lower ends of the left vertical guide steel pipe and the right vertical guide steel pipe which are positioned on the front side are respectively welded with a diagonal caster, and the left diagonal caster and the right diagonal caster are symmetrically arranged;

every draws truckle to one side all includes a vertical fixed plate, controls the cluster axle board two of two parallels, second shaft, gyro wheel two, and vertical fixed plate fastens in the lower extreme front side of vertical direction steel pipe through the welding, and the leading flank of every vertical fixed plate all welds the cluster axle board two of controlling two parallels, has concatenated a gyro wheel two through the second shaft between controlling two parallel cluster axle boards two.

The beneficial effects of the utility model reside in that, it has novel structure, supports more firm, the characteristics that the practicality is strong.

The present invention will be further described with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a front perspective view of the overall assembly structure of the present invention;

FIG. 2 is a front perspective view of the partial combination structure of the present invention when diagonal caster wheels are not installed;

fig. 3 is a front perspective view of a diagonal caster of the present invention;

fig. 4 is a right side view of fig. 3.

In the figure: 11-a transverse bottom plate, 12-a transverse top plate, 13-a transverse hoop plate, 2-a vertical guide steel pipe, 3-a vertical guide rod, 4-a spring, 41-a limiting sleeve, 5-a lifting ejector plate, 6-a main oil cylinder, 7-a vertical support base, 81-a first string shaft plate, 82-a rod sleeve, 83-a support rod, 84-a drawing chain, 85-a U-shaped shaft sleeve, 86-a first roller, 91-a vertical fixing plate, 92-a second string shaft plate and 93-a second roller.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a lifting support platform for an assembly type beam installation process comprises a transverse bottom plate 11, a transverse top plate 12, a vertical guide steel pipe 2, a transverse hoop plate 13, a vertical support base 7, a vertical guide rod 3, a spring 4, a limit sleeve 41, a main oil cylinder 6, a lifting ejector plate 5, a diagonal draw support wheel and a diagonal draw caster wheel, and is characterized in that,

the four vertical guide steel pipes 2 are arranged in a square shape, the bottom pipe ends of the four vertical guide steel pipes 2 are respectively fastened in the four corner areas of the top surface of the transverse bottom plate 11 through welding, and the top pipe ends of the four vertical guide steel pipes 2 are respectively fastened in the four corner areas of the bottom surface of the transverse top plate 12 through welding;

the bottom of the vertical support base 7 is fixedly welded in the middle of the top surface of the transverse bottom plate 11, and the vertical support base 7 is positioned in the middle of the four vertical guide steel pipes 2;

a cylinder seat of the main oil cylinder 6 is fastened to the top of the vertical supporting base 7 through a bolt, and a piston rod of the main oil cylinder 6 faces upwards;

an upper transverse hoop plate and a lower transverse hoop plate 13 are welded between two adjacent vertical guide steel pipes 2;

a circular rod hole is drilled downwards from the four corner areas of the top surface of the transverse top plate 12, each circular rod hole corresponds to and is communicated with the vertical guide steel pipe 2 below, a limiting sleeve 41 is welded above each circular rod hole, and sleeve holes of the limiting sleeves 41 correspond to and are communicated with the circular rod holes below;

a vertical guide rod 3 is downwards inserted above each limiting sleeve 41, the lower end of each vertical guide rod 3 downwards penetrates through a sleeve hole and a circular rod hole in sequence and then is inserted from the upper end opening of the vertical guide steel pipe 2, and the four vertical guide rods 3 are parallel to each other and are in square distribution;

the upper end of each vertical guide rod 3 is movably sleeved with a spring 4, and the bottom end of each spring 4 can downwards press against the top of the limiting sleeve 41;

the four corner areas of the bottom surface of the lifting ejector plate 5 are respectively and fixedly connected with the top ends of the four vertical guide rods 3 through welding, and the top end of each spring 4 can upwards eject against the bottom surface of the lifting ejector plate 5;

a main rod hole is drilled in the middle of the top surface of the transverse top plate 12, and the head end of a piston rod of the main oil cylinder 6 penetrates through the main rod hole upwards and then is fixedly connected with the middle of the bottom surface of the lifting ejector plate 5 through a bolt;

under the extension/retraction control of a piston rod of a main oil cylinder 6, a lifting ejector plate 5 can move up or down along a vertical guide steel pipe 2 through a vertical guide rod 3, and the top surface of the lifting ejector plate 5 can be ejected to the bottom of an assembled beam;

a pair of parallel first tandem axle plates 81 are welded in the middle of the upper end of the front side face of the vertical support base 7, a rod sleeve 82 is movably connected between the left tandem axle plate 81 and the right tandem axle plate 81 in series through a bolt rod, the rod sleeve 82 is fixedly connected with the top rod end of a support rod 83 in a welding mode, a U-shaped axle sleeve 85 is welded at the lower rod end of the support rod 83, and a roller wheel 86 is connected to the U-shaped axle sleeve 85 in series through a first wheel axle;

the middle part of the support rod 83 is fixedly connected with one end of the traction chain 84 through welding, and the other end of the traction chain 84 is fixedly connected with the transverse hoop plate 13 positioned at the rear part through welding;

the first axle stringing plate 81, the bolt rod, the rod sleeve 82, the support rod 83, the U-shaped shaft sleeve 85, the first axle, the first roller 86 and the traction chain 84 are combined to form a diagonal support wheel;

the front sides of the lower ends of the left and right vertical guide steel pipes 2 positioned on the front side are respectively welded with a diagonal caster, and the left and right diagonal casters are symmetrically arranged;

every draws the truckle to one side all includes a vertical fixed plate 91, controls two parallel cluster axle boards 92, second shaft, two 93 gyro wheels, and vertical fixed plate 91 passes through the welding to be fastened in the lower extreme front side of vertical direction steel pipe 2, and two parallel cluster axle boards two 92 about every vertical fixed plate 91's leading flank all welds, has concatenated a gyro wheel two 93 through the second shaft between two parallel cluster axle boards two 92 about.

Claims (1)

1. A lifting support platform used in the installation process of an assembled beam is composed of a transverse bottom plate (11), a transverse top plate (12), a vertical guide steel pipe (2), a transverse hoop plate (13), a vertical support base (7), a vertical guide rod (3), a spring (4), a limit sleeve (41), a main oil cylinder (6), a lifting ejector plate (5), a diagonal support wheel and a diagonal caster wheel, and is characterized in that,

the four vertical guide steel pipes (2) are arranged and distributed in a square shape, the bottom pipe ends of the four vertical guide steel pipes (2) are respectively fastened in the four corner areas of the top surface of the transverse bottom plate (11) through welding, and the top pipe ends of the four vertical guide steel pipes (2) are respectively fastened in the four corner areas of the bottom surface of the transverse top plate (12) through welding;

the bottom of the vertical supporting base (7) is fixedly welded in the middle of the top surface of the transverse bottom plate (11), and the vertical supporting base (7) is positioned in the middle of the four vertical guide steel pipes (2);

a cylinder seat of the main oil cylinder (6) is fastened to the top of the vertical supporting base (7) through a bolt, and a piston rod of the main oil cylinder (6) faces upwards;

an upper transverse hoop plate and a lower transverse hoop plate (13) are welded between two adjacent vertical guide steel pipes (2);

a circular rod hole is drilled downwards from four corner areas of the top surface of the transverse top plate (12), each circular rod hole corresponds to and keeps communicated with the vertical guide steel pipe (2) below, a limiting sleeve (41) is welded above each circular rod hole, and sleeve holes of the limiting sleeves (41) correspond to and keep communicated with the circular rod holes below;

a vertical guide rod (3) is downwards inserted above each limiting sleeve (41), the lower end of each vertical guide rod (3) downwards penetrates through a sleeve hole and a circular rod hole in sequence and then is inserted from the upper end opening of the vertical guide steel pipe (2), and the four vertical guide rods (3) are parallel to each other and are distributed in a square shape;

the upper end of each vertical guide rod (3) is movably sleeved with a spring (4), and the bottom end of each spring (4) can downwards push against the top of the limiting sleeve (41);

the four corner areas of the bottom surface of the lifting ejector plate (5) are respectively and fixedly connected with the top ends of the four vertical guide rods (3) through welding, and the top end of each spring (4) can upwards eject against the bottom surface of the lifting ejector plate (5);

a main rod hole is drilled in the middle of the top surface of the transverse top plate (12), and the head end of a piston rod of the main oil cylinder (6) penetrates through the main rod hole upwards and then is fixedly connected with the middle of the bottom surface of the lifting ejector plate (5) through a bolt;

under the control of extension/retraction of a piston rod of a main oil cylinder (6), a lifting ejector plate (5) can move up or down along a vertical guide steel pipe (2) through a vertical guide rod (3), and the top surface of the lifting ejector plate (5) can be ejected to the bottom of the assembled beam;

the middle part of the upper end of the front side face of the vertical supporting base (7) is welded with a pair of parallel first string shaft plates (81), a rod sleeve (82) is movably connected between the left and right first string shaft plates (81) in series through a bolt rod, the rod sleeve (82) is fixedly connected with the ejector rod end of a supporting rod (83) through welding, the lower rod end of the supporting rod (83) is welded with a U-shaped shaft sleeve (85), and the U-shaped shaft sleeve (85) is connected with a first roller (86) in series through a first wheel shaft;

the middle part of the supporting rod (83) is fixedly connected with one end of the traction chain (84) through welding, and the other end of the traction chain (84) is fixedly connected with the transverse hoop plate (13) positioned behind through welding;

the first axle stringing plate (81), the bolt rod, the rod sleeve (82), the support rod (83), the U-shaped axle sleeve (85), the first axle, the first roller (86) and the pulling chain (84) are combined to form a diagonal support wheel;

the front sides of the lower ends of the left and right vertical guide steel pipes (2) positioned on the front side are respectively welded with a diagonal caster, and the left and right diagonal casters are symmetrically arranged;

every draws the truckle to one side all includes a vertical fixed plate (91), controls the cluster axle board two (92) of two parallels, the second shaft, gyro wheel two (93), vertical fixed plate (91) pass through the welding and fasten in the lower extreme front side of vertical direction steel pipe (2), the leading flank of every vertical fixed plate (91) all welds the cluster axle board two (92) of controlling two parallels, it has a gyro wheel two (93) to concatenate through the second shaft between the cluster axle board two (92) of controlling two parallels.

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