CN111779257A - Embedded part and wall connecting assembly - Google Patents

Abstract

The application discloses built-in fitting and even wall subassembly. The embedded part comprises an embedded plate and an embedded part. The embedded plate is provided with a mounting surface, and the mounting surface is provided with a mounting through hole. The pre-buried portion has the fixed orifices, and the one end of fixed orifices in self axial is opened, and the opposite end that sets up seals, and pre-buried portion connects in the installation face, and the fixed orifices is linked together with the installation through-hole, and the inner wall of fixed orifices has fixed screw. This application makes the built-in fitting can be used to the even wall of fixed, scaffold frame of template through set up pre-buried portion at the built-in fitting to improve the efficiency of construction, practiced thrift construction material and cost.

Description

Embedded part and wall connecting assembly

Technical Field

The application relates to the field of constructional engineering construction, in particular to an embedded part and a wall connecting component.

Background

With the development of the advanced cities of the society, the foundation construction of the cities is gradually enlarged and improved. The scaffold is inevitably not separated from the engineering construction, and according to the national standard requirements, the scaffold must be provided with wall connecting pieces which are arranged into three-step three-span, two-step two-span and the like, and the coverage area of each wall connecting piece is 20-40 square meters generally.

In the related art, the wall connecting part generally comprises rigid pull rods or members such as steel pipes, fasteners, embedded parts and the like, and the embedded parts are rigid embedded parts formed by embedding the steel pipes into the beams and the plates before concrete pouring of the beams and the plates and after the concrete pouring. However, at present, the similar embedded part dismantling measures do not have corresponding technical specifications and technical requirements, the prior construction does not have related post-treatment measures, the embedded part is only cut off by taking a concrete surface as a dividing point, and then the concrete surface is repaired by cement mortar, but the site is often not thorough enough when the embedded part is dismantled, so that the protective layer is too small or has no protective layer, the residual part of the temporary embedded part is easy to oxidize and corrode, the structural quality is influenced, if the later-stage repairing effect is not good, the integral appearance quality of a concrete structure is also influenced, and the construction quality and the appearance of the concrete cannot be well guaranteed. Meanwhile, in the construction process, shear walls at staggered floors and bottom templates of frame columns are difficult to fix, the phenomena of slab staggering and slurry leakage are serious during concrete pouring, structural appearance defects are caused, and structural stress is also influenced when the phenomena are serious.

Content of application

The application provides an embedded part and wall assembly, can improve the efficiency of construction, saving construction material and cost.

In a first aspect, embodiments of the present application provide an embedment. The embedded part comprises an embedded plate and an embedded part. The embedded plate is provided with a mounting surface, and the mounting surface is provided with a mounting through hole. The pre-buried portion has the fixed orifices, and the one end of fixed orifices in self axial is opened, and the opposite end that sets up seals, and pre-buried portion connects in the installation face, and the fixed orifices is linked together with the installation through-hole, and the inner wall of fixed orifices has fixed screw.

In some of these embodiments, the embedment further includes embedded bars. The quantity of pre-buried muscle is a plurality of, and each pre-buried muscle is connected in the installation face. Wherein, each embedded rib encircles embedded portion and arranges.

In some embodiments, the distance between the embedded part and each embedded rib is equal.

In some embodiments, the embedded part and the embedded plate are two connected parts.

In some embodiments, the distance between one end of the embedded part far away from the embedded plate and the embedded plate is smaller than the distance between one end of the embedded bar far away from the embedded plate and the embedded plate.

In some of these embodiments, the inner wall of the mounting through-hole has a fixing thread.

In some embodiments, one end of the embedded bar, which is far away from the embedded plate, is bent towards the direction far away from the embedded part.

In a second aspect, embodiments of the present application provide a wall connecting assembly, which includes the embedment member and the connecting rod in any one of the above embodiments. The connecting rod can be connected with the embedded part through threads and can be connected with a scaffold.

In some of these embodiments, the wall attachment assembly further comprises an adaptor. The adaptor is connected with the connecting rod, and the adaptor has first connecting hole, and first connecting hole is opened at self ascending one end in the axial, and the other end that sets up relatively seals, and first connecting hole has first connecting thread to make scaffold frame can with adaptor threaded connection.

In some embodiments, the adaptor has a second connection hole, one end of the second connection hole in the axial direction of the adaptor is open, the other end of the second connection hole arranged oppositely is closed, the axis of the second connection hole coincides with the axis of the first connection hole, and the inner wall of the second connection hole is provided with a second connection thread, so that the adaptor can be in threaded connection with the connecting rod.

According to an embedded part provided by the embodiment of the application, the embedded part comprises an embedded plate and an embedded part. The embedded plate is provided with a mounting surface, and the mounting surface is provided with a mounting through hole. The pre-buried portion has the fixed orifices, and the one end of fixed orifices in self axial is opened, and the opposite end that sets up seals, and pre-buried portion connects in the installation face, and the fixed orifices is linked together with the installation through-hole, and the inner wall of fixed orifices has fixed screw. This application makes the built-in fitting can be used to the even wall of fixed, scaffold frame of template through set up pre-buried portion at the built-in fitting to improve the efficiency of construction, practiced thrift construction material and cost.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of an embedment member at a first angle in an embodiment of the present application;

FIG. 2 is a schematic structural view of an embedment member at a second angle in the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a wall connecting assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of a connection structure of the wall connecting assembly and a scaffold in the embodiment of the application;

fig. 5 is a schematic structural diagram of an embedded part in the construction process in the embodiment of the application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1 and 2, an embodiment of the present application provides an embedment 10. The embedment 10 includes an embedment plate 100 and an embedment portion 200. The embedded plate 100 has a first side surface and a second side surface, which are opposite to each other and are each a plane. The first side has a mounting surface 110, the mounting surface 110 has a mounting through-hole 120, and an axis of the mounting through-hole 120 is perpendicular to the mounting surface 110. The mounting through-hole 120 is located at the first side surface and the second side surface at both ends in the axial direction thereof, respectively. The mounting through-hole 120 has a circular cross section in its radial direction. It should be noted that, when the embedded part 10 is installed, the embedded plate 100 is vertically arranged, and the installation surface 110 is away from the outer wall surface of the wall 40. The embedment plate 100 may be a metal material, such as steel.

The embedded part 200 has a fixing hole 210, and one end of the fixing hole 210 in the axial direction thereof is open, and the other end thereof disposed opposite to the fixing hole is closed. The embedded part 200 is connected to the mounting surface 110. The fixing hole 210 communicates with the mounting through-hole 120, and the axis of the fixing hole 210 coincides with the axis of the mounting through-hole 120. The inner wall of the fixing hole 210 has fixing threads so that a connecting rod 400 can be screwed into the fixing hole 210. The pre-buried portion 200 can be made of metal material, such as steel. The inner wall of the mounting through-hole 120 may have fixing threads to improve the reliability of the fixing of the link 400. The fixing hole 210 may have an inner diameter of 20mm and a length of 50 mm.

According to the method, the embedded part 200 is arranged on the embedded part 10, so that the embedded part 10 can be used for fixing the template and connecting the scaffold to the wall, the construction efficiency is improved, and the construction material and the cost are saved.

The embedment 10 may further include embedded ribs 300. The number of the embedded ribs 300 may be plural, and each embedded rib 300 is connected to the mounting surface 110. Each embedded bar 300 may be vertically connected to the embedded plate 100. Each of the embedded ribs 300 may be arranged in a ring structure. The embedded plate 100 may be square, the number of the embedded bars 300 may be four, and each embedded bar 300 may be located at four corners of the embedded plate 100. One end of the embedded bar 300 far from the embedded plate 100 may be bent in a direction far from the embedded part 200, or may be bent in a direction close to the embedded part 200. That is, one end of the embedded bar 300, which is far away from the embedded plate 100, may be bent toward the outside or the inside of the ring structure to improve the reliability of the connection between the embedded part 10 and the wall 40. In addition, one end of the embedded bar 300, which is far away from the embedded plate 100, can be connected with the embedded plate 100 after being bent, so as to improve the structural stability of the embedded part 10 when concrete is poured.

The embedment 200 may be located inside of an annular structure, that is, each of the embedment bars 300 is arranged around the embedment 200. The distance between the embedded part 200 and each embedded rib 300 is equal. The embedded portion 200 and the embedded plate 100 may be integrally formed, or may be two connected components, and at this time, the embedded portion 200 may be welded to the embedded plate 100. After the end of the embedded bar 300 away from the embedded plate 100 is bent toward the inside of the annular structure, the embedded bar 300 may be connected to the outer wall surface of the embedded part 200, so as to improve the reliability of the connection between the embedded part 10 and the wall 40 and the structural stability of the embedded part 10 when concrete is poured.

The distance between one end of the embedded part 200 far away from the embedded plate 100 and the embedded plate 100 can be smaller than the distance between one end of the embedded bar 300 far away from the embedded plate 100 and the embedded plate 100, so that the reliability of connection between the embedded part 200 and the embedded plate 100 is improved.

The embedded part 10 can be used for fixing a template, and when the template is fixed, the embedded part is provided with a screw 600 and a butterfly clamp 700, the outer wall of the screw 600 is provided with threads, the butterfly clamp 700 is provided with a clamping through hole, and the inner wall of the clamping through hole is provided with threads. The screw rod 600 is in threaded connection with the embedded part 10, and the screw rod 600 penetrates through the template to be in threaded connection with the butterfly clamp 700, so that the template is clamped and fixed. The embedded part 10, the screw rod 600 and the butterfly card 700 form a template reinforcing member.

Referring to fig. 3 and 4, an embodiment of the present application provides a wall attachment assembly 20, and the wall attachment assembly 20 includes the embedment 10 and the tie rod 400 in any of the embodiments described above. The tie rods 400 can be threadedly coupled to the embedment 10 and can be coupled to the scaffold 30. Specifically, the connecting rod 400 has a first end having threads at the first end that is threadably coupled to the embedment 10 and a second end. The second end may or may not be threaded. The scaffolding 30 may be an outer scaffolding 30.

The wall attachment assembly 20 may further include an adapter 500. The adaptor 500 is connected with the link 400. The adaptor 500 has a first connection hole 510, one end of the first connection hole 510 in the axial direction thereof is open, and the other end disposed opposite thereto is closed, and the first connection hole 510 has a first connection thread, so that the scaffold 30 can be threadedly connected to the adaptor 500. At this time, the cross bars of the scaffolding 30 are threaded, which will not be described in detail.

The connection between the adaptor 500 and the connecting rod 400 may be a welding connection or a detachable connection, and at this time, the following scheme may be adopted: the adaptor 500 has a second connection hole, one end of the second connection hole in the axial direction of the adaptor is open, the other end of the second connection hole, which is opposite to the first connection hole, is closed, the axis of the second connection hole coincides with the axis of the first connection hole 510, and the inner wall of the second connection hole has a second connection thread, so that the adaptor 500 can be in threaded connection with the connecting rod 400.

Referring to fig. 5, an embodiment of the present application provides a construction method, including the steps of:

and (2) installing the embedded part 10, installing the side mold 60, pouring concrete, and removing the side mold 60 after the strength reaches the design requirement or the construction specification is fixed to obtain the first-layer wall body 40.

And (2) adhering a sponge adhesive tape 50 on the upper side of the first layer of wall body 40, erecting a side die 60, enabling the lower side of the side die 60 to correspond to the upper side of the first layer of wall body 40 in the horizontal direction, enabling the butterfly card 700 to be in threaded connection with the screw rod 600 after the screw rod 600 penetrates through the side die 60 to be in threaded connection with the embedded part 10, enabling the side die 60 to be fixed, pouring concrete, and detaching the butterfly card 700, the side die 60 and the screw rod 600 after the strength meets the design requirement to obtain the second layer of wall body 40.

And (3) connecting the connecting rod 400 with the adapter 500, connecting the connecting rod 400 with the embedded part 10 in a threaded manner, and connecting the scaffold 30 with the adapter 500 in a threaded manner.

And (5) repeating the step (2) and the step (3) to obtain the wall 40 with the designed height.

In the above steps, the sponge adhesive tape 50 is adhered, so that the phenomena of slurry leakage and slurry leakage are effectively prevented.

After the wall 40 with the designed height is obtained in the above steps, the scaffold 30, the adapter 500 and the connecting rod 400 are removed, and the installation through hole 120 and the fixing hole 210 of the embedded part 10 are filled with cement mortar with a high index.

The construction method has the following beneficial effects:

1. the operation, installation and removal are simple, and the operation can be completed by field construction personnel.

2. The construction speed is fast, the phenomena of slurry leakage, slurry leakage and slab staggering at the upper and lower concrete connection positions during concrete pouring are effectively prevented, and the later-stage dismantling and repairing are convenient and good in effect.

3. The embedded part 10, the wall connecting component 20 and the template reinforcing member are constructed in a combined mode, so that the construction efficiency is improved, and the construction materials and the cost are saved.

4. The embedded part 10 is free from being dismantled and has no material loss, and the wall connecting component 20 and the template reinforcing member except the embedded part 10 can be repeatedly used, so that the economic benefit is good.

5. The construction cost is low and the quality is guaranteed.

6. The threaded connection is high in strength and high in safety.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An embedment, comprising:

the embedded plate is provided with a mounting surface, and the mounting surface is provided with a mounting through hole;

the embedded part is provided with a fixing hole, one end of the fixing hole in the axial direction of the embedded part is opened, the other end of the fixing hole, which is arranged oppositely, is closed, the embedded part is connected to the mounting surface, the fixing hole is communicated with the mounting through hole, and the inner wall of the fixing hole is provided with a fixing thread.

2. The embedment of claim 1, further comprising:

the embedded ribs are multiple in number and are connected to the mounting surface;

and each embedded rib is arranged around the embedded part.

3. The embedment of claim 1,

the distance between the embedded part and each embedded rib is equal.

4. The embedment of claim 1,

the embedded part and the embedded plate are two parts connected.

5. The embedment of claim 1,

the distance between one end of the embedded part, far away from the embedded plate, and the embedded plate is smaller than the distance between one end of the embedded rib, far away from the embedded plate, and the embedded plate.

6. The embedment of claim 1,

the inner wall of the mounting through hole is provided with the fixing thread.

7. The wall attachment assembly of claim 2,

one end of the embedded rib, which is far away from the embedded plate, is bent towards the direction far away from the embedded part.

8. A wall attachment assembly, comprising:

the embedment of any one of claims 1-7;

and the connecting rod can be in threaded connection with the embedded part and can be connected with a scaffold.

9. The wall connecting assembly of claim 8, further comprising:

the adapter is connected with the connecting rod and provided with a first connecting hole, one end of the first connecting hole in the axial direction of the adapter is open, the other end of the first connecting hole, which is arranged oppositely, is closed, and the first connecting hole is provided with first connecting threads, so that the scaffold can be in threaded connection with the adapter.

10. The wall connecting assembly of claim 8,

the adapter is provided with a second connecting hole, one end of the second connecting hole in the axial direction of the adapter is open, the other end of the second connecting hole, which is arranged oppositely, is closed, the axis of the second connecting hole is overlapped with the axis of the first connecting hole, and the inner wall of the second connecting hole is provided with second connecting threads, so that the adapter can be in threaded connection with the connecting rod.

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