CN110847427A - Prefabricated wall body, prefabricated wall body mould and connection structure - Google Patents

Abstract

The invention discloses a prefabricated wall body, which comprises vertical steel bars and a cast-in-place cavity constructed at the bottom of the wall body, wherein one end of each vertical steel bar extends out of the top of the wall body, and the other end of each vertical steel bar is positioned in the cast-in-place cavity at the bottom of the wall body; the wall body is also provided with a structure for grouting, the cast-in-place cavity is cast by ultra-high-strength concrete (UHPC), and the lap joint length of the steel bars is adjusted according to the strength of the ultra-high-strength concrete.

Description

Prefabricated wall body, prefabricated wall body mould and connection structure

Technical Field

The invention relates to the technical field of assembled walls, in particular to a prefabricated wall body poured by ultrahigh-strength concrete, a mold and a connecting structure.

Background

When the concrete prefabricated part is produced, the inner structure of the concrete prefabricated part is built by adopting a mould. Taking a wall as an example, the wall generally comprises a four-side mold, and various molds can be designed according to the shape of a wall cavity constructed in the middle of the four-side mold. For example, the bottom end or the top end of the four-sided formwork can be designed into a square box-shaped mould to be used as a cast-in-place cavity of a wall body. The four-side mould can also be provided with a mould of a concrete pouring channel, which is usually a pipeline and is used for forming the concrete pouring channel and leading to the cast-in-place cavity.

However, in the prior art, the lapping length of the steel bars is long, the bottom cavity is correspondingly long, and horizontal steel bars and tie bars are required to be arranged in the lapping range to improve the anchoring strength, so that the structure of the component production and the die becomes complicated, the production efficiency is reduced, and the cost is increased.

Therefore, the invention is especially provided.

Disclosure of Invention

The invention aims to provide a prefabricated wall body, which comprises vertical steel bars and a cast-in-place cavity constructed at the bottom of the wall body, wherein one end of each vertical steel bar extends out of the top of the wall body, and the other end of each vertical steel bar is positioned in the cast-in-place cavity at the bottom of the wall body; the wall is also constructed with a structure for grouting.

Furthermore, the cast-in-place cavity is cast by ultra-high-strength concrete (UHPC), and the lap joint length of the steel bars is adjusted according to the strength of the ultra-high-strength concrete.

Further, the part of the vertical reinforcing steel bar for lap joint is annular, a draw hook or a linear type.

Further, the grouting structure comprises one or more of the following combinations: the grouting holes are arranged at the top of the wall body, the grouting holes are arranged at the vertical surface of the wall body, and the pressure grouting is carried out at the bottom.

Furthermore, the wall body vertical face is also provided with a grout outlet.

Furthermore, the grout outlet holes are multiple, and a grout outlet channel communicated with the grout outlet holes is formed in the wall body.

Further, at least two cast-in-place cavities are formed at the bottom of the wall body at intervals along the length direction of the wall body; or the cast-in-place cavity continuously extends along the length direction of the wall body at the bottom of the wall body to form a through-long cast-in-place cavity.

Further, the prefabricated wall body is an inner wall or an inner leaf wall in an outer wall.

Furthermore, when the prefabricated wall body is an inner leaf wall in an outer wall, one side of the cast-in-place cavity close to the heat insulation layer is an opening or is still a closed structure.

Further, the prefabricated wall body is a linear wall body or an L-shaped wall body or a T-shaped wall body applied to a corner structure.

A prefabricated wall body mould is used for the prefabricated wall body. The prefabricated wall body mould comprises a mould frame, wherein a first module for constructing the grouting structure and a second module for constructing the cast-in-place cavity are arranged in the mould frame

The utility model provides a connection structure of prefabricated wall body, adopts foretell prefabricated wall body, and vertical reinforcing bar overlap joint and adopt ultra-high strength concrete (UHPC) to pour the cavity when upper and lower wall body connects, and reinforcing bar overlap joint length is according to the intensity adjustment of ultra-high strength concrete.

Compared with the prior art, the invention has the following beneficial effects: the mode that adopts wall body bottom to reserve cavity, vertical reinforcing bar overlap joint and adopt super high strength concrete (UHPC) to pour the cavity is because the advantage of super high strength concrete, can obviously shorten reinforcing bar overlap joint length requirement for the bottom cavity shortens, need not set up horizontal reinforcement and lacing wire again in the overlap joint scope, and the component production of being convenient for simplifies the mould, raises the efficiency and reduce cost.

Drawings

Fig. 1 is a schematic elevation structure view of a prefabricated wall according to an embodiment of the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a perspective view of the interior structure of the prefabricated wall of FIG. 1;

FIG. 4 is a schematic view of a bottom cast-in-place cavity in one embodiment;

FIG. 5 is a schematic structural view of a cast-in-place-bottom cavity in another embodiment;

FIG. 6 is a schematic structural view of an annular vertical rebar;

FIG. 7 is a schematic view of a hook-type vertical rebar structure;

FIG. 8 is a schematic structural view of a linear vertical rebar;

FIG. 9 is a schematic structural view of a through long cast-in-place cavity at the bottom of a prefabricated wall body;

FIG. 10 is a schematic diagram of an embodiment of an outer wall structure in which a cast-in-place cavity is open on a side close to an outer blade (a small square box-shaped cavity);

FIG. 11 is a schematic view of an outer wall structure with an opening at a side of a cast-in-place cavity close to an outer blade in another embodiment (a large square box-shaped cavity);

FIG. 12 is a schematic view of an outer wall structure of another embodiment in which the cast-in-place cavity is open on the side near the outer blade (through long cavity);

FIG. 13 is a schematic view of an embodiment of an outer wall structure in which a cast-in-place cavity is closed on a side close to an outer blade (a small box-shaped cavity);

FIG. 14 is a schematic view of an outer wall structure in which one side of a cast-in-place cavity close to an outer blade is closed in another embodiment (a large square box-shaped cavity);

FIG. 15 is a schematic view of an outer wall structure with a closed side of a cast-in-place cavity close to an outer blade in another embodiment (through-length cavity);

fig. 16 is a schematic structural view of an L-shaped corner wall (inner wall);

fig. 17 is a schematic structural view of a T-shaped corner wall (inner wall);

fig. 18 is a schematic structural view of an L-shaped corner wall (exterior wall);

fig. 19 is a schematic structural view of a T-shaped corner wall (exterior wall);

FIG. 20 is a schematic structural view of a T-shaped corner wall (exterior wall) in another embodiment;

FIG. 21 is a schematic structural view of an embodiment of a prefabricated wall form in elevation;

FIG. 22 is an enlarged bottom perspective view of FIG. 21;

FIG. 23 is a schematic structural view of an L-shaped prefabricated wall mold;

FIG. 24 is a schematic structural view of a T-shaped prefabricated wall mold;

FIG. 25 is a schematic structural view of an integral prefabricated wall mold;

FIG. 26 is a schematic structural view of an integral T-shaped prefabricated wall mold;

FIG. 27 is a schematic structural view of an integrated L-shaped prefabricated wall mold;

FIG. 28 is a schematic structural view of a full length second module;

FIG. 29 is a schematic view of a ring anchor type inner wall connection structure;

FIG. 30 is a schematic view of a curved anchor type interior wall connection structure;

FIG. 31 is a schematic view of a connection structure of a straight anchor type interior wall;

FIG. 32 is a schematic view of a corner wall inner wall connection structure;

FIG. 33 is a schematic view of a ring anchor type exterior wall connection structure (one side of the cast-in-place cavity close to the outer leaf plate is open);

FIG. 34 is a schematic view of a curved anchor type exterior wall connection structure (one side of a cast-in-place cavity close to an outer blade is open);

FIG. 35 is a schematic view of a connection structure of a straight anchor type exterior wall (one side of a cast-in-place cavity close to an outer blade is open);

FIG. 36 is a schematic view of a corner wall and exterior wall connection structure (the cast-in-place cavity is open on the side near the outer leaf plates);

FIG. 37 is a schematic view of a ring anchor type exterior wall connection structure (one side of a cast-in-place cavity close to an outer leaf plate is closed);

FIG. 38 is a schematic view of a curved anchor type exterior wall connection structure (one side of a cast-in-place cavity close to an outer leaf plate is closed);

FIG. 39 is a schematic view of a connection structure of a straight anchor type exterior wall (one side of a cast-in-place cavity close to an outer leaf plate is closed);

FIG. 40 is a schematic view of a corner wall and exterior wall connection structure (the cast-in-place cavity is closed on the side close to the outer leaf plates);

FIG. 41 is a schematic structural view of a cast-in-place cavity at the bottom of a prefabricated wall body, which is circular and is provided with an anchor plate;

FIG. 42 is a schematic view of an anchor plate type interior wall connection structure;

FIG. 43 is a schematic view of an anchor plate type exterior wall connection structure;

FIG. 44 is a schematic view of an interior wall connection without anchor plates;

FIG. 45 is a schematic view of an exterior wall connection without anchor plates;

in the figure:

1-vertical steel bars; 2-casting a cavity in situ; 3-a first grouting hole; 4-a second grouting hole; 5-slurry outlet; 6-slurry outlet channel; 7-insulating layer; 8-a mold frame; 9-a second module; 10-a first die tube; 11-a second mould tube; 12-a third die tube; 13-a fourth die tube; 14-anchor plate.

Detailed Description

The principles and spirit of the present invention will be described with reference to a number of exemplary embodiments shown in the drawings. It should be understood that these embodiments are described only to enable those skilled in the art to better understand and to implement the present invention, and are not intended to limit the scope of the present invention in any way.

Referring to fig. 1 to 20, a prefabricated wall provided by an embodiment of the present invention includes vertical steel bars 1 and a cast-in-place cavity 2 constructed at the bottom of the wall, where one end of each vertical steel bar 1 extends out from the top of the wall and the other end is located in the cast-in-place cavity 2 at the bottom of the wall; the wall is also constructed with structures for grouting. The cast-in-place cavities 2 are preferably arranged in plurality at intervals in the length direction of the wall body.

The cast-in-place cavity 2 is cast by ultra-high-strength concrete (UHPC), and due to the advantages of the ultra-high-strength concrete, the requirement on the lap joint length of the steel bars can be obviously shortened, so that the cavity at the bottom is shortened, horizontal steel bars and tie bars do not need to be arranged in the lap joint range, and particularly, the lap joint length of the steel bars is flexibly adjusted according to the strength of the ultra-high-strength concrete. The UHPC is an abbreviation for ultra high performance concrete, and is the prior art in the field, and is not described herein again.

Further, the vertical reinforcing steel bar 1 is in a ring shape, a draw hook shape or a straight line shape for overlapping, and can be freely selected in actual production. .

The grouting structure comprises one or more of the following combinations: the grouting holes are arranged at the top of the wall body, the grouting holes are arranged at the vertical surface of the wall body, and the pressure grouting is carried out at the bottom. For example, in this embodiment, a first grouting hole 3 is provided at the top of the prefabricated wall, and the first grouting hole 3 gradually extends downwards from the top of the prefabricated wall inside the prefabricated wall to form an elongated grouting channel, and the grouting channel is continuously communicated with the cast-in-place cavity 2 at the bottom. In addition, a second grouting hole 4 is formed in the vertical face of the wall body, and the second grouting hole 4 is communicated with a grouting channel formed by the first grouting hole 3, so that grouting can be performed from the vertical face of the wall body. Besides the two grouting modes, pressure grouting can be directly carried out from a cast-in-place cavity at the bottom.

Furthermore, the vertical surface of the wall body is also provided with a grout outlet 5, the grout outlet 5 is positioned below the second grout outlet 4 and above the cast-in-place cavity 2, the grout outlet 5 is also communicated with the first grout outlet 3, and concrete can flow out of the grout outlet 5 after the cast-in-place cavity is filled with the concrete, and at the moment, a constructor can know that the pouring is finished.

Furthermore, a plurality of grout outlet holes 5 are arranged in the length direction of the prefabricated wall body, and a grout outlet channel 6 communicated with each grout outlet hole 5 is also constructed in the wall body. The grout outlet channel 6 is also communicated with the first grout outlet 3, so that when a plurality of cast-in-place cavities 2 exist, only one first grout outlet 3 needs to be arranged on each of two sides of the wall, each cast-in-place cavity 2 is communicated with the grout outlet channel 6, and therefore grouting can be performed into each cast-in-place cavity 2 through the first grout outlet 3 without configuring an independent grout outlet for each cast-in-place cavity 2.

As mentioned above, a plurality of cast-in-place cavities 2 may be constructed at intervals along the length direction of the wall body at the bottom of the wall body, or the cast-in-place cavities 2 may also be continuously extended along the length direction of the wall body at the bottom of the wall body to form a through-long cast-in-place cavity.

The prefabricated wall body is an inner wall or an inner leaf wall in an outer wall. The outer wall is provided with a layer of insulation 7 compared with the inner wall. When the prefabricated wall body is an inner leaf wall in an outer wall, one side of the cast-in-place cavity 2 close to the heat insulation layer is open or still is of a closed structure.

The prefabricated wall body can be a straight line wall body or an L-shaped wall body or a T-shaped wall body applied to a corner structure.

Referring to fig. 21 to 28, a prefabricated wall mold for manufacturing the prefabricated wall includes a mold frame 8, and a first module and a second module 9 are disposed in the mold frame 8, where the first module is used to construct a grouting structure, and the second module 9 is used to construct a cast-in-place cavity at the bottom of the wall.

In this embodiment, the first mold block includes a first mold tube 10 and a second mold tube 11, which are vertically disposed, the first mold tube 10 is used for constructing the first grouting hole 3, and the second mold tube 11 is connected to the bottom of the first mold tube 10 and vertically disposed with the first mold tube 10, and is used for constructing the second grouting hole 4. A plurality of third mold pipes 12 are arranged below the second mold pipe 11, and the third mold pipes 12 are arranged at intervals along the length direction of the mold frame to form the slurry holes 5. The third mould pipes 12 are connected by a transversely arranged fourth mould pipe 13, and the fourth mould pipe 13 is used for constructing the pulp channel 6. The two ends of the fourth mold pipe 13 are also connected with the first mold pipes 10 at the two sides respectively. A section of the fourth mold pipe 13 is connected to the second mold block 9, and the second mold block 9 is also arranged in plurality at intervals in the longitudinal direction of the mold frame 8. When the prefabricated wall is manufactured, concrete is poured into gaps between the die frame and the internal modules, and after the concrete is solidified, the internal modules and the die frame are detached, so that the prefabricated wall with the corresponding internal structure is obtained.

The mold frame 8 and the individual modules therein may be either in one piece or in separate pieces. If a split version is used, an opening is made in the bottom of the mold frame 8 for the insertion of the second module 9, at which time the second module 9 is cut out from the bottom of the mold frame 8. If one-piece, the bottom of the mould frame 8 is not open and the second mould block 9 is located completely inside the mould frame 8. The mould can be an inner wall mould or an outer wall mould, and the second module can be independent or communicated. The mold can be a linear wall mold or a corner wall mold, such as a T-shaped wall and an L-shaped wall.

The utility model provides a connection structure of prefabricated wall body, foretell prefabricated wall body, vertical reinforcing bar overlap joint and adopt ultra-high strength concrete (UHPC) to pour the cavity when upper and lower wall body connects, reinforcing bar overlap joint length is according to the intensity adjustment of ultra-high strength concrete.

The wall connection structure may have various forms, which will be described below.

The first connection mode is ring anchor connection, that is, the vertical steel bars at the bottom of the upper wall and the vertical steel bars 1 at the top of the lower wall are annular, as shown in fig. 29, 33 and 37.

The second connection mode is a bent anchor connection, that is, the vertical steel bars at the bottom of the upper wall and the vertical steel bars 1 at the top of the lower wall are hooks, as shown in fig. 30, 34 and 38.

The third connection mode is a straight anchor, that is, the vertical steel bar 1 at the bottom of the upper wall and the vertical steel bar at the top of the lower wall are linear, as shown in fig. 31, 35 and 39.

In addition, the connection mode of the vertical steel bars at the L-shaped corners is shown in figures 32, 36 and 40.

The third connection mode is anchor plate connection, as shown in fig. 41, the cast-in-place cavity 2 is cylindrical (one or more, in this embodiment, 2, may be arranged in the thickness direction of the bottom of the wall), the anchor plate 14 is arranged in the cast-in-place cavity, as shown in fig. 42 and 43, the other mode is anchor plate-free connection, and the common linear vertical steel bar 2 is still adopted, as shown in fig. 44 and 45.

The inventive concept is explained in detail herein using specific examples, which are given only to aid in understanding the core concepts of the invention. It should be understood that any obvious modifications, equivalents and other improvements made by those skilled in the art without departing from the spirit of the present invention are included in the scope of the present invention.

Claims (12)

1. A prefabricated wall body comprises vertical steel bars and a cast-in-place cavity constructed at the bottom of the wall body, wherein one end of each vertical steel bar extends out of the top of the wall body, and the other end of each vertical steel bar is positioned in the cast-in-place cavity at the bottom of the wall body; the wall is also constructed with a structure for grouting.

2. The prefabricated wall body of claim 1, wherein the cast-in-place cavity is cast by ultra-high-strength concrete (UHPC), and the overlap length of the steel bars is adjusted according to the strength of the ultra-high-strength concrete (UHPC).

3. The prefabricated wall of claim 1, wherein the portions of the vertical reinforcing bars for overlapping are annular, hook-shaped or linear.

4. The prefabricated wall of claim 1, wherein the grouting structure comprises grouting holes arranged at the top of the wall or grouting holes arranged at the vertical surface of the wall.

5. The prefabricated wall of claim 1, wherein the wall facade is further provided with grout outlet holes.

6. The prefabricated wall body of claim 5, wherein the grout outlet is provided in plurality, and a grout outlet passage communicating with each grout outlet is formed in the wall body.

7. The prefabricated wall body of claim 1, wherein at least two cast-in-place cavities are formed at the bottom of the wall body at intervals along the length direction of the wall body; or the cast-in-place cavity continuously extends along the length direction of the wall body at the bottom of the wall body to form a through-long cast-in-place cavity.

8. The prefabricated wall of claim 1, wherein the prefabricated wall is an interior wall or an interior leaf wall of an exterior wall.

9. The prefabricated wall body of claim 8, wherein when the prefabricated wall body is an inner leaf wall of an outer wall, one side of the cast-in-place cavity close to the heat insulation layer is open or still is of a closed structure.

10. The prefabricated wall according to claim 1, wherein the prefabricated wall is a straight wall or an L-shaped wall or a T-shaped wall applied to a corner structure.

11. A prefabricated wall mould for manufacturing the prefabricated wall of claim 1, wherein the prefabricated wall mould comprises a mould frame, and a first module for constructing the grouting structure and a second module for constructing the cast-in-place cavity are arranged in the mould frame.

12. A connecting structure of prefabricated walls, characterized in that, by adopting the prefabricated wall of claim 1, when the upper and lower walls are connected, the vertical steel bars are lapped and a cavity is poured by ultra-high-strength concrete (UHPC), and the lapping length of the steel bars is adjusted according to the strength of the ultra-high-strength concrete.

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