CN216840700U

CN216840700U - Assembled component guiding and positioning device

Info

Publication number: CN216840700U
Application number: CN202123184175.7U
Authority: CN
Inventors: 张铁柱; 周慧敏; 侯振华; 汪玉华; 周文财
Original assignee: Jinmao Huichuang Construction Technology Co ltd
Current assignee: Jinmaohuichuang Construction Technology Beijing Co ltd
Priority date: 2021-12-17
Filing date: 2021-12-17
Publication date: 2022-06-28
Anticipated expiration: 2031-12-17

Abstract

The utility model discloses an assembly type component guiding and positioning device, which comprises a first guide frame (1), a second guide frame (2) and a magnetic force connecting component (3); a magnetic mounting groove (21) is formed at the lower part of the second guide frame (2), the magnetic connecting assembly (3) is movably embedded in the magnetic mounting groove (21), and the second guide frame (2) is connected with the first guide frame (1) in an adsorption manner through the magnetic connecting assembly (3); a plurality of first guide frame (1) and a plurality of second guide frame (2) adsorb the concatenation through magnetic force coupling assembling (3) and constitute the guide frame main part, and the top and the bottom opening of guide frame main part make rectangle guide frame structure can be laminated on the surface of assembled component (4) through the bottom opening part, and the open-top of rectangle guide frame structure extends to the top of assembled component (4). The utility model discloses can guide the hoist and mount location of assembled component, need not artificial intervention, improve the hoist and mount precision and the efficiency of assembled component.

Description

Assembled component guiding and positioning device

Technical Field

The utility model relates to an assembly type component installation auxiliary assembly especially relates to an assembly type component guide positioner.

Background

The assembly type building is a novel building structure form, develops the building industry from field operation to the direction of industrial production, can improve the construction efficiency on the basis of ensuring the building quality, shortens the construction period and reduces the pollution. In the construction process of the fabricated building, the site hoisting operation of the fabricated components finished by prefabrication in a factory is more, and the hoisting difficulty is high because most prefabricated components have large dead weight.

In the hoisting process of the assembly type component, the assembly type component is firstly controlled to be played to a position near the installation position through a tower crane, then is pushed and pulled to be aligned on site through constructors, moves the assembly type component to the installation position and is installed and fixed, the whole process is very laborious and low in efficiency, and meanwhile, the installation precision of the assembly type component cannot be guaranteed. Especially when hoisting the precast shear wall, the steel bars of the upper precast shear wall need to be inserted into the preformed holes of the lower precast shear wall, the hoisting precision requirement is high, constructors need to lie prone at the connecting parts to irradiate the steel bars at the connecting surfaces with mirrors to assist the installation of the precast shear wall, the installation error is large, the efficiency is low, and large potential safety hazards exist.

Disclosure of Invention

An object of the utility model is to provide an assembled component guide positioner can guide the hoist and mount location of assembled component, need not artificial intervention, improves the hoist and mount precision and the efficiency of assembled component.

The utility model discloses a realize like this:

an assembled component guiding and positioning device comprises a first guide frame, a second guide frame and a magnetic connecting assembly; a magnetic mounting groove is formed at the lower part of the second guide frame, the magnetic connecting assembly is movably embedded in the magnetic mounting groove, and the second guide frame is connected with the first guide frame in an adsorption manner through the magnetic connecting assembly; the first guide frame of a plurality of and the second guide frame of a plurality of adsorb the concatenation through magnetic coupling assembling and constitute the guide frame main part, the top and the bottom opening of guide frame main part make rectangle guide frame structure can laminate on the surface of assembled component through the bottom opening part, the open-top of rectangle guide frame structure extends to the top of assembled component.

The magnetic connecting assembly comprises a magnetizer, a magnet embedded column and a non-magnetizer; the top and the bottom of the magnetizer are respectively embedded with a non-magnetizer; the magnetizer can be embedded in the magnetic force installation groove, one end of the magnetizer extends to the outside of the magnetic force installation groove, and an insertion groove is formed at one end of the magnetizer; one end face of the embedded column in the magnet is provided with the magnet, and one end face of the embedded column in the magnet is attached to one end of the magnetizer, so that the magnet can be rotatably inserted into the insertion groove.

The magnet is of a strip-shaped structure, and the two ends of the magnet are respectively an S pole and an N pole.

And a handle is arranged on the other end face of the embedded column in the magnet.

The bottom opening of the guide frame main body is smaller than the top opening.

The upper part of the first guide frame is of an inclined surface structure, so that an obtuse included angle is formed between the upper part and the lower part of the first guide frame, the upper part of the second guide frame is of an inclined surface structure, an obtuse included angle is formed between the upper part and the lower part of the second guide frame, and a funnel-shaped structure with a large upper part and a small lower part is formed at the upper part of the guide frame main body.

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model discloses owing to be equipped with first guide frame and second guide frame, can constitute corresponding guide frame main part according to assembled component shape and size concatenation to the inclined plane through the funnel-shaped structure big-end-up is favorable to the accurate installation of assembled component from the accurate whereabouts of all directions guide assembled component, need not the manual work and promotes the location, has improved hoist and mount efficiency and quality.

2. The utility model discloses owing to be equipped with magnetic force coupling assembling, can make magnetizer magnetization or demagnetization through the rotation of magnet to make the first guide frame of stable absorption of second guide frame, thereby constitute complete, reliable guide frame main part, make it can stably laminate at the assembled component on the surface and not fall off, easy dismounting, swift, easy operation is simple and easy.

Drawings

FIG. 1 is a top view of the fabricated component guided positioning apparatus of the present invention;

FIG. 2 is a side cross-sectional view of the fabricated component guide and positioning apparatus of the present invention;

fig. 3 is a perspective view of the magnetic connecting assembly in the assembled component guiding and positioning device of the present invention.

In the figure, 1 a first guide frame, 2 a second guide frame, 21 a magnetic force installation groove, 3 a magnetic force connecting component, 31 a magnetizer, 32 a magnet inner embedded column, 33 a non-magnetizer, 34 a handle and 4 assembly type components.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 and 2, an assembled component guiding and positioning device includes a first guiding frame 1, a second guiding frame 2 and a magnetic connecting assembly 3; a magnetic mounting groove 21 is formed at the lower part of the second guide frame 2, the magnetic connecting assembly 3 is movably embedded in the magnetic mounting groove 21, and the second guide frame 2 is connected with the first guide frame 1 in an adsorption manner through the magnetic connecting assembly 3; the first guide frame 1 of a plurality of and the second guide frame 2 of a plurality of adsorb the concatenation through magnetic coupling spare and constitute the guide frame main part, the top and the bottom opening of guide frame main part make the rectangle guide frame structure can laminate on assembled component 4's surface through the bottom opening part, the open-top of rectangle guide frame structure extends to assembled component 4's top. Utilize magnetic force of magnetic force coupling assembling 3 to adsorb, make a plurality of first guide frame 1 and a plurality of second guide frame 2 connect into a complete guide frame main part, laminate the guide frame main part at assembled component 4 top with the assembly is accomplished, be convenient for guide its top be about to the hoist and mount of assembled component 4 of assembly.

Referring to fig. 2 and 3, the magnetic connecting assembly 3 includes a magnetizer 31, a magnet embedded column 32 and a non-magnetizer 33; the top and the bottom of the magnetizer 31 are respectively embedded with a non-magnetizer 33; the magnetizer 31 can be embedded in the magnetic installation groove 21, one end of the magnetizer 31 extends to the outside of the magnetic installation groove 21, and an insertion groove (not shown in the figure) is formed at one end of the magnetizer 31; one end face of the magnet embedded column 32 is provided with a magnet, and one end face of the magnet embedded column 32 is attached to one end of the magnetizer 31, so that the magnet can be rotatably inserted into the insertion groove. Through the rotation of magnet in the inserting groove, make magnetizer 31 magnetization, form strong magnetic field between magnet and the magnetizer 31, realize that second guide frame 2 is connected the absorption of first guide frame 1, the wholeness and the stability of guide frame main part when using are good. When a strong magnetic field is not formed between the magnet and the magnetizer 31, the second guide frame 2 and the first guide frame 1 can be separated, and the guide frame main body is convenient, quick, simple and feasible to disassemble and assemble.

The magnet is in a strip structure, and the two ends of the magnet are respectively provided with an S pole and an N pole so as to ensure that the S pole and the N pole of the magnet can be arranged facing the two non-magnetizers 33, or the S pole and the N pole of the magnet can be staggered or arranged vertical to the two non-magnetizers 33, so that the magnetizer 31 can be magnetized or demagnetized.

The other end face of the magnet embedded column 32 is provided with a handle 34, so that the magnet embedded column 32 can be conveniently rotated, and the rotation control of the magnet in the insertion groove is convenient.

The bottom opening of the guide frame main body is smaller than the top opening, so that the assembled component 4 can be guided to fall conveniently, and the inconvenience, the low efficiency and the error of manual pushing and positioning are reduced.

The upper portion of first guide frame 1 be the inclined plane structure, make and form the obtuse angle contained angle between the upper portion of first guide frame 1 and the lower part, the upper portion of second guide frame 2 is the inclined plane structure, makes and forms the obtuse angle contained angle between the upper portion of second guide frame 2 and the lower part, makes the upper portion of guide frame main part form big-end-up's hourglass hopper-shaped structure. Through the inclined plane structure can be stable guide assembled component 4 fall to the assembled component 4 on, can guarantee through the inclined plane of all directions that assembled component 4 is accurate to the mounted position, need not manual intervention.

The utility model discloses an installation method does:

before hoisting the assembly type component 4, checking whether the pre-installation position is cleaned up, and checking whether the reserved steel bars or embedded parts of the assembly type component 4 are in correct positions, if not, adjusting.

The first guide frame 1 and the second guide frame 2 are made of materials which can be absorbed by magnetic force, such as iron. A plurality of first guide frames 1 and a plurality of second guide frames 2 are arranged on the top of the assembled member 4 which is already installed in a staggered manner. The fabricated structural member 4 is a concrete block of a rectangular parallelepiped, and two first guide frames 1 and two second guide frames 2 may be connected to form a rectangular frame structure, so that vertical sections of the two first guide frames 1 and the two second guide frames 2 are attached to four sides of the top of the concrete block.

Insert magnetizer 31 to mounting groove 21 in, handheld handle 34 and magnet embedded column 32 rotates, and when making magnet rotate to vertical direction in the inserting groove, magnetizer 31 is magnetized and is produced strong magnetism, makes second guide frame 2 adsorb rather than adjacent first guide frame 1 to make first guide frame 1 and second guide frame 2 splice, and then the concatenation constitutes the guide frame main part of rectangle and stably the laminating is installed on the surface of assembled component 4. The quantity of the magnetic connecting assemblies 3 on the second guide frame 2 is consistent with the quantity of the mounting grooves 21, and the quantity of the magnetic connecting assemblies 3 and the quantity of the mounting grooves 21 can be adjusted according to actual needs.

When the assembled component 4 is hoisted, the assembled component 4 is hoisted to the upper part of the guide frame main body through hoisting equipment such as a tower crane, and the falling is guided through the inclined plane structures of the first guide frame 1 and the second guide frame 2, so that the purpose of accurate hoisting is achieved. After the hoisting is finished, the magnet embedded column 32 is rotated until the magnet is in a horizontal state, the magnetism in the middle of the magnet is extremely small, the magnetization disappears, the first guide frame 1 and the second guide frame 2 can be separated, and the guide frame main body can be taken down from the assembly type component 4 for subsequent hoisting operation of the assembly type component 4.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims

1. An assembled component guiding and positioning device is characterized in that: comprises a first guide frame (1), a second guide frame (2) and a magnetic connecting component (3); a magnetic mounting groove (21) is formed at the lower part of the second guide frame (2), the magnetic connecting assembly (3) is movably embedded in the magnetic mounting groove (21), and the second guide frame (2) is connected with the first guide frame (1) in an adsorption manner through the magnetic connecting assembly (3); a plurality of first guide frame (1) and a plurality of second guide frame (2) adsorb the concatenation through magnetic coupling assembling (3) and constitute the guide frame main part, the top and the bottom opening of guide frame main part make rectangle guide frame structure can be laminated on the surface of assembled component (4) through the bottom opening part, the open-top of rectangle guide frame structure extends to the top of assembled component (4).

2. The fabricated component guiding and positioning device of claim 1, wherein: the magnetic connecting component (3) comprises a magnetizer (31), a magnet embedded column (32) and a non-magnetizer (33); the top and the bottom of the magnetizer (31) are respectively embedded with a non-magnetizer (33); the magnetizer (31) can be embedded in the magnetic mounting groove (21), one end of the magnetizer (31) extends to the outside of the magnetic mounting groove (21), and one end of the magnetizer (31) is provided with an inserting groove; one end face of the magnet embedded column (32) is provided with a magnet, and one end face of the magnet embedded column (32) is attached to one end of the magnetizer (31) and the magnet can be rotatably inserted into the insertion groove.

3. The fabricated component guiding and positioning apparatus as set forth in claim 2, wherein: the magnet is of a strip-shaped structure, and the two ends of the magnet are respectively an S pole and an N pole.

4. The fabricated component guiding and positioning apparatus as set forth in claim 2, wherein: and a handle (34) is arranged on the other end face of the magnet embedded column (32).

5. The fabricated component guiding and positioning device of claim 1, wherein: the bottom opening of the guide frame main body is smaller than the top opening.

6. The fabricated component guiding and positioning device of claim 1, wherein: the upper part of the first guide frame (1) is of an inclined plane structure, so that an obtuse included angle is formed between the upper part and the lower part of the first guide frame (1), the upper part of the second guide frame (2) is of an inclined plane structure, an obtuse included angle is formed between the upper part and the lower part of the second guide frame (2), and a funnel-shaped structure with the larger upper part and the smaller lower part is formed at the upper part of the guide frame main body.