CN212613825U

CN212613825U - Pouring device for embedded part

Info

Publication number: CN212613825U
Application number: CN202020617343.3U
Authority: CN
Inventors: 段玉诚; 饶云东; 王春花; 王增贵; 李天启; 王建楠; 秦鑫; 郝正东; 张晶; 吴维鑫; 赵小伟
Original assignee: Yunnan Construction Investment Construction Machinery Co ltd
Current assignee: Yunnan Construction Investment Construction Machinery Co ltd
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2021-02-26
Anticipated expiration: 2030-04-22

Abstract

The pouring device for the embedded part is characterized by comprising a first shaping template, a second shaping template and an embedded pipe, wherein a first positioning block is fixedly arranged on the first shaping template; a second positioning block is fixedly arranged on the second sizing template; the embedded pipe is in a tubular shape with two open ends, one end of the embedded pipe can be lapped on the first positioning block, and the other end of the embedded pipe can be lapped on the second positioning block. The utility model discloses fixed first locating piece and the second locating piece that sets up on first typical forms and the second typical forms can make things convenient for quick overlap joint buried pipe in advance to conveniently carry out concrete placement, and make things convenient for the quick drawing of patterns. The utility model discloses a device of pouring of built-in fitting, its construction convenience, and the drawing of patterns is simple, circulated use after the drawing of patterns, it can improve the efficiency of construction greatly and practice thrift the cost, and it has very strong practicality.

Description

Pouring device for embedded part

[ technical field ] A method for producing a semiconductor device

The utility model relates to a building field, in particular to device of pouring of embedded part of circulated use.

[ background of the invention ]

In the construction process of high-rise buildings, the attached lifting climbing frame is used for climbing along a wall. In the process of installing the attached lifting climbing frame, the corresponding equipment is fixed on a building wall body by using the wall-attached fixing piece. In order to improve the connection reliability and stability, the wall-attached fixing piece is usually formed by pouring concrete, and a metal pipe is embedded in the wall-attached fixing piece so as to facilitate installation of a wall-attached bolt. When the wall-attached fixing piece is manufactured, a mold is usually built by using a wood board, then a metal pipe (a pre-embedded pipe) is placed in the mold, concrete is poured into the mold, and after the concrete is cured, an embedded part, namely the wall-attached fixing piece, can be formed. In the prior art, a mould for pouring concrete is usually made of local materials and is temporarily built by adopting a wood board; when the embedded part needs to be manufactured again, the mold needs to be temporarily built again, the mode is low in efficiency and time-consuming to build, and the demolding is not beneficial to recycling, so that the embedded part still needs to be improved.

[ Utility model ] content

The utility model aims at solving the problem and providing a convenient to use, device is pour to circulated use built-in fitting.

In order to solve the problems, the utility model provides a pouring device for an embedded part, which is characterized in that the pouring device comprises a first shaping template, a second shaping template and an embedded pipe, wherein a first positioning block is fixedly arranged on the first shaping template; a second positioning block is fixedly arranged on the second sizing template; the embedded pipe is in a tubular shape with two open ends, one end of the embedded pipe can be lapped on the first positioning block, and the other end of the embedded pipe can be lapped on the second positioning block.

Furthermore, the first positioning block comprises a first conical circular table part, a first through hole which is axially communicated with the first circular table part is formed in the first circular table part, and the first positioning block is fixed on the first shaping template through a locking bolt; the second positioning block comprises a conical second circular table part, a second through hole which is axially communicated with the second circular table part is formed in the second circular table part, and the second positioning block is fixed on the second sizing template through a locking bolt.

Further, the first positioning block comprises a cylindrical first cylindrical part, the first cylindrical part and the first circular truncated cone part are integrally formed, and the first through hole penetrates through the first cylindrical part; the second positioning block comprises a cylindrical second cylindrical part, the second cylindrical part and the second circular table part are integrally formed, and the second through hole penetrates through the second cylindrical part.

Furthermore, the embedded pipe is cylindrical, the inner diameters of the end parts at two ends of the embedded pipe are respectively matched with the outer diameters of the first cylindrical part and the second cylindrical part, and the embedded pipe can be respectively sleeved on the first cylindrical part and the second cylindrical part and transversely lapped between the first sizing template and the second sizing template.

Furthermore, the first sizing template and the second sizing template are respectively in a flat plate shape.

Further, the position distribution of the first positioning blocks on the first sizing template is consistent with the position distribution of the second positioning blocks on the second sizing template.

Furthermore, a plurality of first positioning blocks are distributed on the first sizing template at intervals, a plurality of second positioning blocks are distributed on the second sizing template at intervals, and the first positioning blocks correspond to the second positioning blocks one by one.

The beneficial contributions of the utility model reside in that, it has effectively solved above-mentioned problem. The utility model discloses a device of pouring of built-in fitting includes first typical forms and second typical forms, and fixed first locating piece and the second locating piece of being provided with on first typical forms and the second typical forms, its overlap joint buried pipe that can make things convenient for quick to concrete placement is conveniently carried out, and convenient quick drawing of patterns. The utility model discloses a device of pouring of built-in fitting, its construction convenience, and the drawing of patterns is simple, circulated use after the drawing of patterns, it can improve the efficiency of construction greatly and practice thrift the cost, and it has very strong practicality.

[ description of the drawings ]

Fig. 1 is a schematic diagram of the present invention.

Fig. 2 is a sectional view of the first positioning block or the second positioning block.

Fig. 3 is a schematic view of the casting principle.

Fig. 4 is a schematic view of the demolding principle.

The attached drawings are as follows: the device comprises a first sizing template 1, a second sizing template 2, an embedded pipe 3, a first positioning block 4, a first circular table part 41, a first through hole 42, a first cylindrical part 43, a second positioning block 5, a second circular table part 51, a second through hole 52, a second cylindrical part 53, a locking bolt 6 and an embedded part 7.

[ detailed description ] embodiments

The following examples are further to explain and supplement the present invention, and do not constitute any limitation to the present invention.

As shown in fig. 1, the utility model discloses a device of pouring of built-in fitting includes first design template 1, second design template 2 and buried pipe 3 in advance, is equipped with the first locating piece 4 of location on first design template 1, is equipped with the second locating piece 5 of location on second design template 2, buried pipe 3 is used for pre-buried and forms concrete built-in fitting 7 in advance, but its both ends overlap joint is in on first locating piece 4 and the second locating piece 5 and be horizontal overlap joint between first design template 1 and the second design template 2 to can pour the concrete between first design template 1 and second design template 2 and will buried pipe 3 forms in the concrete in order to form built-in fitting 7. The utility model discloses a device of pouring of built-in fitting, its construction convenience, and the drawing of patterns is simple, circulated use after the drawing of patterns, it has very strong practicality.

Specifically, as shown in fig. 1, the first and second sizing modules 2 are flat plates, and the sizes thereof may be set as needed. The sizes of the first sizing template 1 and the second sizing template 2 may be the same or different, and they may be specifically set according to the needs. In this embodiment, the first sizing die plate 1 and the second sizing die plate 2 have the same size and are rectangular plates.

In order to conveniently set the first positioning block 4, a plurality of first mounting holes (not shown in the figure) are formed in the first sizing template 1, and the first positioning blocks 4 are fixed by setting locking bolts 6. The number of the first mounting holes can be set according to the requirement, for example, when the required embedded part 7 needs two embedded pipes 3 to form a mounting hole site, two first mounting holes can be set on the first positioning block 4 to facilitate the installation of two first positioning blocks 4. When a plurality of first mounting holes are provided, the distance between the first mounting holes can be set as required, and is determined according to the required position of the embedded pipe 3 in the embedded part 7.

In order to conveniently arrange the second positioning block 5, a plurality of second mounting holes (not shown in the figure) are formed in the second sizing die plate 2, and the second mounting holes are used for arranging locking bolts 6 to fix the second positioning block 5. The number of the second mounting holes can be set according to the requirement, for example, when the required embedded part 7 needs two embedded pipes 3 to form a mounting hole position, two second mounting holes can be set on the second positioning block 5 to facilitate the mounting of two second positioning blocks 5. When a plurality of second mounting holes are provided, the distance between the second mounting holes can be set as required, and the distance is determined according to the required position of the embedded pipe 3 in the embedded part 7.

The positions of the first mounting holes and the second mounting holes formed in the first shaping template 1 and the second shaping template 2 are consistent in distribution, so that the first positioning blocks 4 and the second positioning blocks 5 are in one-to-one correspondence, and the embedded pipes 3 can be conveniently and transversely lapped between the first shaping template 1 and the second shaping template 2 for pouring.

As shown in fig. 1, the first positioning block 4 is fixed on the first sizing template 1 by a locking bolt 6. As shown in fig. 2, in order to conveniently sleeve the embedded pipe 3, the first positioning block 4 includes a first circular truncated cone portion 41 having a conical shape. The first boss portion 41 is provided with a first through hole 42 penetrating in the axial direction thereof. The first through hole 42 is used for disposing the locking bolt 6. Further, the first positioning block 4 may further include a first cylindrical portion 43 having a cylindrical shape, which may increase a contact area between the first positioning block 4 and the embedded pipe 3 to improve the stability of the overlapping. The first cylindrical portion 43 is integrally formed with the first circular truncated cone portion 41. The first through hole 42 penetrates the first cylindrical portion 43. In the present embodiment, the diameter of the first cylindrical portion 43 is equal to the diameter of the large end surface of the first circular truncated cone portion 41, and the center axis of the first through hole 42 coincides with the center axes of the first cylindrical portion 43 and the first circular truncated cone portion 41.

When fixing, as shown in fig. 1, the first positioning block 4 can be sleeved on the locking bolt 6, then the locking bolt 6 passes through the first mounting hole on the first sizing template 1, and then the fastening nut is screwed on the end of the locking bolt 6, so that the first positioning block 4 can be fixed on the first sizing template 1 through the locking bolt 6.

As shown in fig. 1, when the first positioning block 4 is fixed on the first sizing template 1, the first cylindrical portion 43 is attached to the surface of the first sizing template 1, and the first circular truncated cone portion 41 of the first positioning block 4 is far away from the first sizing template 1, so that the pre-buried pipe 3 can be conveniently sleeved.

As shown in fig. 1 and 2, the second positioning block 5 is fixed to the second sizing die plate 2 by a locking bolt 6. The second positioning block 5 has a structure identical to that of the first positioning block 4, and includes a second circular table portion 51, a second cylindrical portion 53, and a second through hole 52.

In this embodiment, the size of the second positioning block 5 is the same as the size of the first positioning block 4.

As shown in fig. 1, the pre-buried pipe 3 is in a circular pipe shape, two ends of the pipe are open, the inner diameter of the end is matched with the outer diameters of the first cylindrical portion 43 and the second cylindrical portion 53, and the pre-buried pipe can be respectively sleeved on the first cylindrical portion 43 and the second cylindrical portion 53 and transversely lapped between the first positioning template and the second shaping template 2.

From this, just formed the utility model discloses a device is pour to built-in fitting: fixed being provided with a plurality of first locating piece 4 on the first typical forms 1, the fixed a plurality of second locating piece 5 that is provided with on the second typical forms, pre-buried pipe 3 can overlap joint one by one on first locating piece 4 and second locating piece 5 to conveniently pour.

During the use, with the vertical setting of first design template 1, then insert the one end of pre-buried pipe 3 on first locating piece 4, then aim at the second locating piece 5 of second design template 2 with the other end of pre-buried pipe 3, make second design template 2 and pre-buried pipe 3 involutory, and then make the horizontal overlap joint of pre-buried pipe 3 between first design template 1 and second design template 2. Before pouring, the first sizing template 1 and the second sizing template 2 are tightly supported by a known tightening device or fixing device, so that the first positioning template 1 and the second sizing template 2 are prevented from shifting during pouring. After the first positioning template 1 and the second shaping template 2 are relatively braced, pouring concrete between the first shaping template 1 and the second shaping template 2 (as shown in fig. 3); after the concrete is cured, the first and second formworks 1 and 2 are removed for demolding (as shown in fig. 4), and the embedded pipe 3 is formed inside the concrete to form the embedded part 7.

To the utility model discloses a device of pouring of built-in fitting, its construction convenience, the drawing of patterns is simple, and first typical forms 1 and second typical forms 2 circulated use after the drawing of patterns, it has very strong practicality.

While the invention has been described with reference to the above embodiments, the scope of the invention is not limited thereto, and the above components may be replaced with similar or equivalent elements known to those skilled in the art without departing from the concept of the invention.

Claims

1. The utility model provides a device is pour to built-in fitting which characterized in that, it includes:

the first shaping template (1) is fixedly provided with a first positioning block (4);

a second shaping template (2) is fixedly provided with a second positioning block (5);

the embedded pipe (3) is in a tubular shape with two open ends, one end of the embedded pipe can be lapped on the first positioning block (4), and the other end of the embedded pipe can be lapped on the second positioning block (5).

2. The embedment casting device of claim 1,

the first positioning block (4) comprises a conical first circular table part (41), a first through hole (42) which penetrates through the first circular table part (41) along the axial direction of the first circular table part is formed in the first circular table part, and the first positioning block (4) is fixed on the first sizing template (1) through a locking bolt (6);

the second positioning block (5) comprises a conical second circular table part (51), a second through hole (52) which penetrates through the second circular table part in the axial direction of the second circular table part (51) is formed in the second positioning block, and the second positioning block (5) is fixed on the second sizing template (2) through a locking bolt (6).

3. The embedment casting device of claim 2,

the first positioning block (4) comprises a first cylindrical part (43) which is cylindrical, the first cylindrical part (43) is integrally formed with the first circular table part (41), and the first through hole (42) penetrates through the first cylindrical part (43);

the second positioning block (5) comprises a cylindrical second cylindrical part (53), the second cylindrical part (53) and the second circular table part (51) are integrally formed, and the second through hole (52) penetrates through the second cylindrical part (53).

4. The embedment casting device of claim 3, wherein the embedded pipe (3) is cylindrical, and the inner diameters of the ends of the embedded pipe at both ends thereof are respectively matched with the outer diameters of the first cylindrical portion (43) and the second cylindrical portion (53), and the embedded pipe is respectively sleeved on the first cylindrical portion (43) and the second cylindrical portion (53) and transversely lapped between the first sizing die plate (1) and the second sizing die plate (2).

5. The embedment casting device of claim 1, wherein the first and second formworks (1, 2) are respectively in a flat plate shape.

6. The embedment casting device of claim 1, wherein the distribution of the positions of the first positioning blocks (4) on the first setting template (1) is consistent with the distribution of the positions of the second positioning blocks (5) on the second setting template (2).

7. The pouring device for the embedded part according to claim 1, wherein a plurality of first positioning blocks (4) are distributed on the first sizing template (1) at intervals, a plurality of second positioning blocks (5) are distributed on the second sizing template (2) at intervals, and the first positioning blocks (4) correspond to the second positioning blocks (5) one by one.