CN113982264A - Pre-embedding construction method of pre-embedded sleeve of aluminum mould structure - Google Patents

Abstract

The invention discloses a pre-buried construction method of an aluminum mould structure pre-buried sleeve, which comprises the following steps: positioning the position of the embedded sleeve on the inner side of the aluminum mold; clamping a first magnetic base in the embedded sleeve; arranging a second magnetic base at the position corresponding to the first magnetic base on the outer side of the aluminum die, so that the second magnetic base and the first magnetic base are mutually adsorbed; pouring concrete on the inner side of the aluminum mould; removing the second magnetic base; and removing the aluminum die and the first magnetic base. According to the invention, the magnets which are adsorbed are arranged on the inner side and the outer side of the aluminum template, and the embedded sleeves are sleeved on the magnets on the inner side, so that the embedded sleeves are limited, and the technical problem that the embedded sleeves are difficult to fix in the aluminum alloy template when the aluminum alloy template is adopted for concrete pouring in the prior art is solved. This fixed magnetic base can effectual improvement buried sleeve pipe construction process's efficiency, the effectual cast-in-place floor of concrete condition such as local damage, hollowing of having avoided.

Description

Pre-embedding construction method of pre-embedded sleeve of aluminum mould structure

Technical Field

The invention relates to the field of building construction, in particular to a pre-buried construction method of an aluminum mould structure pre-buried sleeve.

Background

In the field of building construction, particularly when cast-in-place concrete shear walls and floors adopting aluminum alloy templates are constructed, construction of embedded sleeves is often required, and the embedded sleeves are fixed on the templates through tying wires, extra reinforcing steel bars and other articles and then concrete pouring operation is performed. The method can not completely and stably fix the embedded sleeve, easily causes the embedded sleeve to deviate, also causes the situation that reinforcing steel bars and binding wires near the embedded sleeve are too dense in a small range, causes hollowing and cracks during concrete pouring, even causes the situation of local excess reinforcing steel bars, residual strain and the like after the concrete pouring is finished, easily causes various quality problems, and simultaneously has complicated procedures and long time in the fixing process, has higher requirements on the skills of workers and seriously influences the engineering progress.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the pre-buried construction method of the pre-buried sleeve with the aluminum mould structure, and solves the technical problem that the pre-buried sleeve is difficult to fix in the aluminum alloy template when the aluminum alloy template is adopted for concrete pouring in the prior art.

The invention discloses a pre-buried construction method of an aluminum mould structure pre-buried sleeve, which comprises the following steps: positioning the position of the embedded sleeve on the inner side of the aluminum mold; clamping a first magnetic base in the embedded sleeve; arranging a second magnetic base at the position corresponding to the first magnetic base on the outer side of the aluminum die, so that the second magnetic base and the first magnetic base are mutually adsorbed; pouring concrete on the inner side of the aluminum mould; removing the second magnetic base; and removing the aluminum die and the first magnetic base.

The embedded construction method of the embedded sleeve with the aluminum mould structure is further improved in that the first magnetic base and the second magnetic base respectively comprise an iron box, a magnet arranged in the iron box and a knob fixed with the magnet, a through hole is formed in the side wall of one side of the iron box, and the knob penetrates out of the iron box through the through hole.

The embedded construction method of the embedded sleeve with the aluminum die structure is further improved in that the magnet is rotatably arranged in the aluminum box by taking the center of the through hole as a rotating center, two arc-shaped magnetizers are arranged on the side walls of two opposite sides in the aluminum box, the magnet rotates between the two magnetizers, two ends of the two magnetizers are connected through brass, and the brass is fixed on the opposite top wall and the opposite bottom wall in the iron box.

The invention further improves the fixing magnetic base of the pre-embedded sleeve of the aluminum mould structure, when a first magnetic base is clamped in the pre-embedded sleeve, the magnet of the first magnetic base is rotated to two ends through the knob to be connected with corresponding magnetizers, and the bottom wall of the first magnetic base faces the aluminum mould;

when a second magnetic base is adsorbed at the position, corresponding to the first magnetic base, on the outer side of the aluminum die, the magnet of the second magnetic base is rotated to two ends through the knob to be connected with corresponding magnetizers, and the bottom wall of the second magnetic base faces the aluminum die;

when the second magnetic base is detached, the magnet of the second magnetic base is rotated to two ends through the knob to be connected with corresponding brass.

The embedded construction method of the embedded sleeve of the aluminum mould structure is further improved in that a handle is fixed on the top surface of the iron box;

when the first magnetic base is clamped into the embedded sleeve, the first magnetic base is clamped into the embedded sleeve through the handle.

The embedded construction method of the embedded sleeve with the aluminum mould structure is further improved in that the fixed magnetic base also comprises a limiting plate with the diameter matched with the inner diameter of the embedded sleeve, and the limiting plate is provided with an opening through which the handle passes;

after the first magnetic base is clamped in the embedded sleeve, the limiting plate penetrates through the handle to clamp the embedded sleeve.

Compared with the prior art, the invention has positive and obvious effect. According to the invention, the magnets which are adsorbed are arranged on the inner side and the outer side of the aluminum template, and the embedded sleeves are sleeved on the magnets on the inner side, so that the embedded sleeves are limited, and the technical problem that the embedded sleeves are difficult to fix in the aluminum alloy template when the aluminum alloy template is adopted for concrete pouring in the prior art is solved. This fixed magnetic base can effectual improvement buried sleeve construction process's efficiency, the effectual cast-in-place floor local damage of concrete of having avoided, the condition such as hollowing, buried sleeve construction quality has been promoted, additionally the wire has been avoided simultaneously, the waste of reinforcing bar, and the device easy dismounting, the material is simple easily obtained, light in weight, the use degree of difficulty is low, pre-buried mode does not have the damage to structure, aluminum alloy template, almost needn't maintain, only need conventional clearance, and can have enough to meet the need many times, green.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a perspective view of a first magnetic base in the method for embedding construction of an embedded sleeve with an aluminum mold structure according to the present invention.

Fig. 2 is a front view of the first magnetic base in the method for pre-burying the pre-buried sleeve with the aluminum mold structure according to the present invention.

Fig. 3 is a cross-sectional view taken along line a-a of fig. 2.

Fig. 4 is a cross-sectional view of line B-B in fig. 3 showing a state where the first magnetic base has a magnetic force in the embedding construction method of the embedded sleeve of the aluminum mold structure of the present invention.

Fig. 5 is a cross-sectional view of line B-B in fig. 3 showing a magnetic force-free state of the first magnetic base in the embedding construction method of the embedded sleeve of the aluminum mold structure according to the present invention.

Fig. 6 is a schematic construction state diagram of the embedding construction method of the embedded sleeve with the aluminum mould structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 6, the invention provides a pre-buried construction method of an aluminum mould structure pre-buried sleeve, comprising the following steps:

positioning the position of the embedded sleeve 9 on the inner side of the aluminum mold 8;

clamping a first magnetic base in the embedded sleeve;

arranging a second magnetic base at the position corresponding to the first magnetic base on the outer side of the aluminum die 8, so that the second magnetic base and the first magnetic base are mutually adsorbed;

pouring concrete on the inner side of the aluminum mould 8;

removing the second magnetic base;

the aluminum mold 8 and the first magnetic base are removed. Put in the both sides of aluminium mould 8 through using magnet 1, make magnet 1 inter attraction to with pre-buried sleeve cover on magnet 1, because magnet 1 has adsorbed difficult production and has removed, thereby make telescopic position also obtain injecing, directly pull down magnet 1 when demolising, convenient and fast has avoided the tradition to rely on constructor's skill through the fixed pre-buried sleeve pipe of ligature silk on the aluminium mould completely, make concrete placement's quality very unstable.

Further, as shown in fig. 1 and 2, the first magnetic base and the second magnetic base respectively include an iron box 4, a magnet 1 disposed in the iron box 4, and a knob 6 fixed to the magnet 1, a through hole is disposed on a side wall of the iron box 4, and the knob 6 penetrates through the through hole to an outside of the iron box 4. Magnet 1 inside iron box 4 is rotated through knob 6, and adjusts the size of magnetic force to make the installation that magnet 1 can be quick demolish, improved the efficiency of construction, shortened the time limit for a project.

Furthermore, as shown in fig. 3 to 5, the magnet 1 is rotatably mounted in the aluminum box with the center of the through hole as a rotation center, two arc-shaped magnetizers 2 are disposed on the side walls of two opposite sides in the aluminum box, the magnet 1 is rotated between the two magnetizers 2, two ends of the two magnetizers 2 are connected through brass 3, and the brass 3 is fixed on the top wall and the bottom wall of the iron box 4. In this embodiment, the magnetizer 2 is an electrical soft iron 2, the magnet 1 is a rubidium magnet 1, the iron box 4 is made of cast iron, and the plastic plates 7 are fixed on the side surface of the iron box 4 where the knob 6 is installed and the side surface opposite to the side surface to seal the inner magnet 1 and prevent the magnet 1 from falling out of the iron box 4. When the knob 6 was dialled there is the magnetic force state, inside magnet 1N, a magnetizer 2 that S switched on respectively, two magnetic conduction are 2 magnetized respectively, and two magnetizers 2 are connected through the brass 3 that can not magnetize simultaneously, and brass 3 is for not having the magnetism key point, consequently connects outside iron box 4 and becomes a magnet 1 that has south north pole, has magnetism, and magnetic pole and 1 magnetic pole of magnet correspond. Preferably, the width of the brass 3 is smaller than that of the magnet 1, and when the knob 6 is turned to a no-magnetic force state, the N and S magnetic poles simultaneously contact the same magnetizer 2 to form a closed magnetic loop, so that no magnetism exists outside and the magnetic force is lost.

Preferably, as shown in fig. 6, when a first magnetic base is clamped into the pre-embedded sleeve, the magnet 1 of the first magnetic base is rotated to two ends by the knob 6 to be connected with the corresponding magnetizers 2, and the bottom wall of the first magnetic base faces the aluminum mold 8;

when a second magnetic base is adsorbed at the position corresponding to the first magnetic base on the outer side of the aluminum mold 8, the magnet 1 of the second magnetic base is rotated to two ends through the knob 6 to be connected with the corresponding magnetizers 2, and the bottom wall of the second magnetic base faces the aluminum mold 8;

as shown in fig. 5, when the second magnetic base is removed, the magnet 1 of the second magnetic base is rotated to two ends by the knob 6 to be connected with the corresponding brass 3.

In this embodiment, circular through-hole has been seted up for being on a parallel with the box bottom to this iron box 4, magnet 1's both ends and through-hole inner wall shape looks adaptation to can be at the through-hole internal rotation, plastic slab 7 is fixed in the side of iron box 4 with the tip sealing of through-hole, it has the trompil to open on the plastic slab 7, makes knob 6 fixed with inside magnet 1, in order to make things convenient for rotary magnet 1.

Preferably, a handle 5 is fixed on the top surface of the iron box 4; when the first magnetic base is clamped in the embedded sleeve, the first magnetic base is clamped in the embedded sleeve 9 through the handle 5. The handle 5 of this embodiment is the calabash, and the tip is fixed in the center department of the top surface of iron box 4, makes things convenient for limiting plate 10 to be spacing, and conveniently takes out magnet 1 when demolising.

Preferably, the fixed magnetic base further comprises a limiting plate 10 with the diameter matched with the inner diameter of the embedded sleeve, and the limiting plate 10 is provided with an opening through which the handle 5 passes; after the first magnetic base is clamped in the embedded sleeve, the limiting plate 10 penetrates through the handle 5 to clamp the embedded sleeve 9. When the volume of first magnetic force seat is less and buried sleeve 9's diameter is great, then first magnetic force seat can not block the sleeve pipe completely, thereby limiting plate 10 and sheathed tube internal diameter looks adaptation penetrate handle 5 through with limiting plate 10 with buried sleeve 9 spacing. In this embodiment, the fixing plate is made of a wood plate, but the material of the fixing plate is not particularly limited.

According to the invention, the magnets which are adsorbed are arranged on the inner side and the outer side of the aluminum mould 8 plate, and the embedded sleeve is sleeved on the inner magnet, so that the embedded sleeve is limited, and the technical problem that the embedded sleeve is difficult to fix in the aluminum alloy mould plate when the aluminum alloy mould plate is adopted for concrete pouring in the prior art is solved. This fixed magnetic base can effectual improvement buried sleeve construction process's efficiency, the effectual cast-in-place floor local damage of concrete of having avoided, the condition such as hollowing, buried sleeve construction quality has been promoted, additionally the wire has been avoided simultaneously, the waste of reinforcing bar, and the device easy dismounting, the material is simple easily obtained, light in weight, the use degree of difficulty is low, pre-buried mode does not have the damage to structure, aluminum alloy template, almost needn't maintain, only need conventional clearance, and can have enough to meet the need many times, green.

The parts not involved in the present invention are the same as or can be implemented by the prior art. Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The pre-burying construction method of the pre-buried sleeve of the aluminum mould structure is characterized by comprising the following steps of:

positioning the position of the embedded sleeve on the inner side of the aluminum mold;

clamping a first magnetic base in the embedded sleeve;

arranging a second magnetic base at the position corresponding to the first magnetic base on the outer side of the aluminum die, so that the second magnetic base and the first magnetic base are mutually adsorbed;

pouring concrete on the inner side of the aluminum mould;

removing the second magnetic base;

and removing the aluminum die and the first magnetic base.

2. The pre-buried construction method of the pre-buried sleeve of the aluminum mould structure according to claim 1, wherein the first magnetic base and the second magnetic base respectively comprise an iron box, a magnet arranged in the iron box and a knob fixed with the magnet, a through hole is formed in a side wall of one side of the iron box, and the knob penetrates out of the iron box through the through hole.

3. The pre-buried construction method of the pre-buried sleeve of the aluminum mold structure according to claim 2, wherein the magnet is rotatably installed in the aluminum box with the center of the through hole as a rotation center, two arc-shaped magnetizers are arranged on the side walls of two opposite sides in the aluminum box, the magnet rotates between the two magnetizers, two ends of the two magnetizers are connected through brass, and the brass is fixed on the top wall and the bottom wall which are opposite in the iron box.

4. The pre-buried construction method of the pre-buried sleeve of the aluminum mould structure according to claim 3, characterized in that when a first magnetic base is clamped in the pre-buried sleeve, the magnet of the first magnetic base is rotated to two ends by the knob to be connected with the corresponding magnetizer, and the bottom wall of the first magnetic base faces the aluminum mould;

when a second magnetic base is adsorbed at the position, corresponding to the first magnetic base, on the outer side of the aluminum die, the magnet of the second magnetic base is rotated to two ends through the knob to be connected with corresponding magnetizers, and the bottom wall of the second magnetic base faces the aluminum die;

when the second magnetic base is detached, the magnet of the second magnetic base is rotated to two ends through the knob to be connected with corresponding brass.

5. The pre-buried construction method of the pre-buried sleeve of the aluminum mould structure according to claim 1, wherein a handle is fixed on the top surface of the iron box;

when the first magnetic base is clamped into the embedded sleeve, the first magnetic base is clamped into the embedded sleeve through the handle.

6. The pre-buried construction method of the pre-buried sleeve of the aluminum mould structure according to claim 5, wherein the fixed magnetic base further comprises a limiting plate with a diameter matched with the inner diameter of the pre-buried sleeve, and the limiting plate is provided with an opening through which the handle passes;

after the first magnetic base is clamped in the embedded sleeve, the limiting plate penetrates through the handle to clamp the embedded sleeve.

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