CN218933844U - A pre-buried sleeve pipe positioner for building carrier plate - Google Patents

Abstract

The utility model discloses a pre-buried sleeve positioning device for a floor support plate, which comprises a profiled steel plate and truss steel bars, wherein a plurality of truss steel bars are fixedly arranged on the profiled steel plate, the pre-buried sleeve positioning device also comprises a positioning die, the positioning die is placed on the truss steel bars of the floor support plate and comprises a positioning frame body and a plurality of positioning rings, and the positioning rings are fixedly arranged in the positioning frame body and used for positioning the pre-buried sleeve. According to the embedded sleeve positioning device, the positioning die is used for positioning the sleeves, the positions of other sleeves can be rapidly and accurately positioned only by determining the positions of any two sleeves, manual measurement of the positions of all the sleeves one by one is not needed, the construction efficiency is greatly improved, and the labor and time cost are saved; the floor carrier plate is cut along the locating ring, the size of the sleeve hole is accurate and controllable, the edge of the hole is smooth and neat, the hole is not required to be trimmed again when the pipeline is installed in the later period, and the construction workload is reduced on the premise of ensuring the construction quality.

Description

A pre-buried sleeve pipe positioner for building carrier plate

Technical Field

The utility model belongs to the technical field of building construction, and particularly relates to a pre-buried sleeve positioning device for a floor support plate.

Background

In the field of building construction, when installing and constructing a plurality of water risers such as toilets, pipeline wells and the like, the penetrating sleeve is required to be pre-buried in the structural plate in advance, and the penetrating sleeve of the same riser on different floors is required to be installed concentrically. In particular to a profiled steel sheet structure system, in the prior art, a structure plate back hole forming process is mainly adopted or a manual drawing rule measuring mode is adopted to determine the position of an embedded sleeve, concrete is poured after the sleeve is embedded and positioned, and the profiled steel sheet is cut by oxygen welding before a vertical pipeline is installed.

The manual measurement and positioning mode has the following technical problems: 1. the manual pull rule has lower marking efficiency, the paying-off precision is difficult to ensure, the deviation of the verticality of the embedded holes of the sleeves of different floors is larger, and when the later-stage pipeline is installed, the riser joint is difficult to center due to the poor verticality of the pipeline; 2. the method is characterized in that a manual drawing rule scribing mode is adopted, an oxygen welding is used for cutting a floor support plate before the vertical pipeline is installed, the cutting operation is difficult to achieve smooth and neat corners due to the small size of a sleeve hole, and the hole still needs to be trimmed when the pipeline is penetrated in the later period, so that the operation procedure is complicated and the construction quality is difficult to guarantee; 3. the structure is damaged by adopting a structure plate back-punching process, so that leakage risks are easily caused; and the sleeve is required to be plugged and constructed by hanging holes during installation, the working procedure is complicated, the construction period is prolonged, and the cost is not beneficial to control.

Disclosure of Invention

The utility model provides a pre-buried sleeve positioning device for a floor support plate, which is used for solving the problems in the prior art.

The utility model provides a pre-buried sleeve positioning device for a floor support plate, which comprises a profiled steel plate and truss steel bars, wherein a plurality of truss steel bars are fixedly arranged on the profiled steel plate, and the pre-buried sleeve positioning device also comprises a positioning die, wherein the positioning die is arranged on the truss steel bars of the floor support plate;

further, a plurality of pairs of positioning rods are fixedly arranged in the positioning frame body, and at least one positioning ring is fixedly arranged between one pair of positioning rods.

Further, at least one rectangular positioning frame is fixedly arranged in the positioning frame body, and at least one positioning ring is fixedly arranged in the rectangular positioning frame body.

Furthermore, a positioning inclined rod is fixedly arranged in the rectangular positioning frame, and at least one positioning ring is fixedly arranged between the rectangular positioning frame and the positioning inclined rod.

The utility model has the advantages and positive effects that:

1. according to the embedded sleeve positioning device, the positioning die is used for positioning the sleeves, the positions of other sleeves can be rapidly and accurately positioned only by determining the positions of any two sleeves, manual measurement is not needed to be carried out on the positions of all the sleeves one by one, the time required for positioning is greatly shortened, the construction efficiency is improved, and the labor and time cost are saved; the floor carrier plate is cut along the locating ring, the size of the sleeve hole is accurate and controllable, the edge of the hole is smooth and neat, the hole is not required to be trimmed again when the pipeline is installed in the later stage, the construction workload is reduced on the premise of ensuring the construction quality, and the construction efficiency is improved.

2. When the embedded sleeve positioning device is manufactured, the positioning die is manufactured according to the optimized pipeline layout, the positioning rings fixedly arranged in the positioning die correspond to the positions of the embedded sleeves one by one, efficient and accurate positioning of the sleeves in the use process is ensured, errors caused by manual measurement are avoided, smooth connection of pipelines between floors is ensured, and the construction quality of the pipelines is greatly improved.

3. In this pre-buried sleeve pipe positioner, rectangle locating frame and location diagonal bar constitute stable triangle-shaped structure, and the holding ring is firmly fixed between rectangle locating frame and location diagonal bar, and the positioning die steadiness is strong, further ensures the degree of accuracy of location, prevents that the holding ring from taking place the skew in the use.

4. This pre-buried sleeve pipe positioner, the pre-buried sleeve pipe of location before pouring the floor need not to open the hole after the floor shaping, can not destroy the floor structure, has stopped the seepage risk.

Drawings

FIG. 1 is a top view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a top view of the positioning die of the present utility model;

fig. 4 is a top view of the floor support plate of the present utility model.

In the figure, 1 is a positioning die, 2 is a profiled steel sheet, 3 is truss steel bars, 11 is a positioning frame body, 12 is a positioning ring, 13 is a positioning rod, 14 is a rectangular positioning frame, and 15 is a positioning inclined rod.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

The utility model provides a pre-buried sleeve positioning device, as shown in figures 1 to 4, wherein a building carrier plate comprises a profiled steel sheet 2 and truss steel bars 3, wherein a plurality of truss steel bars 3 are fixedly arranged on the profiled steel sheet 2, the pre-buried sleeve positioning device further comprises a positioning die 1, and the positioning die 1 is arranged on the truss steel bars 3 of the building carrier plate; the positioning die 1 is used for determining the position of the embedded sleeve.

As shown in fig. 3, the positioning mold 1 includes a positioning frame 11 and a plurality of positioning rings 12, where the positioning rings 12 are fixedly installed in the positioning frame 11 and are used for positioning the embedded sleeve. The positioning frame 11 is fixedly provided with a plurality of pairs of positioning rods 13, and at least one positioning ring 12 is fixedly arranged between one pair of positioning rods 13. At least one rectangular positioning frame 14 is fixedly arranged in the positioning frame 11, and at least one positioning ring 12 is fixedly arranged in the rectangular positioning frame 14. A positioning inclined rod 15 is fixed in the rectangular positioning frame 14, and at least one positioning ring 12 is fixed between the rectangular positioning frame 14 and the positioning inclined rod 15. The rectangular positioning frame 14 and the positioning inclined rod 15 form a stable triangular structure, the positioning ring 12 is firmly fixed between the rectangular positioning frame 14 and the positioning inclined rod 15, the positioning die 1 is strong in stability, positioning accuracy is further ensured, and the positioning ring 12 is prevented from shifting in the use process. Before the positioning die 1 is installed, a steel ruler is pulled from an axis to carry out positioning paying-off, and a pen is used for drawing a positioning line on a floor support plate. When the positioning die 1 is installed, the positioning frame 11 is ensured to coincide with the positioning line through the hanging line, and the positioning ring 12 in the positioning die 1 is utilized to draw the position of the embedded sleeve on the floor support plate. The locating rings 12 fixedly arranged in the locating die 1 are in one-to-one correspondence with the positions of the embedded sleeves, so that efficient and accurate locating of the sleeves in the use process is ensured, errors caused by manual measurement are avoided, smooth connection of pipelines between floors is ensured, and the construction quality of the pipelines is greatly improved.

The application method of the utility model comprises the following steps:

step one, paying-off positioning

Before the positioning die 1 is installed, positioning and paying off are carried out by pulling a steel rule from the axis, and a pen is used for drawing a positioning line on the floor support plate;

step two, installing and positioning die 1

When the positioning die 1 is installed, the positioning frame 11 is overlapped with the positioning line through the hanging line, so that the positioning die 1 is accurately and fixedly installed on the truss reinforcing steel bar 3, the position of the embedded sleeve is marked on the floor support plate by utilizing the positioning ring 12 in the positioning die 1, and the marked floor support plate is drilled and cut by using a hole digger, so that the diameter of a cut round hole is ensured to be slightly smaller than the inner diameter of the embedded sleeve;

step three, installing an embedded sleeve

And installing the embedded sleeves at the positions of the cutting round holes, fixing the sleeves, the profiled steel sheet 2 and the truss steel bar 3 by spot welding, taking off the positioning die 1 after all the embedded sleeves are installed, and performing concrete pouring operation.

The positioning die is used for positioning the sleeve, the positions of other sleeves can be rapidly and accurately positioned only by determining the positions of the two sleeves, and the positions of the plurality of sleeves are not required to be manually measured one by one, so that the time required for positioning is greatly shortened, the construction efficiency is improved, and the labor and time cost are saved.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (4)

1. The embedded sleeve positioning device for the floor support plate comprises a profiled steel sheet (2) and truss steel bars (3), wherein a plurality of truss steel bars (3) are fixedly arranged on the profiled steel sheet (2), and the embedded sleeve positioning device is characterized by further comprising a positioning die (1), wherein the positioning die (1) is placed on the truss steel bars (3) of the floor support plate;

the positioning die (1) comprises a positioning frame body (11) and a plurality of positioning rings (12), wherein the positioning rings (12) are fixedly arranged in the positioning frame body (11) and used for positioning the embedded sleeve.

2. The pre-buried sleeve positioning device for a floor support plate according to claim 1, wherein a plurality of pairs of positioning rods (13) are fixedly arranged in the positioning frame body (11), and at least one positioning ring (12) is fixedly arranged between one pair of positioning rods (13).

3. The embedded sleeve positioning device for the floor support plate according to claim 1, wherein at least one rectangular positioning frame (14) is fixedly arranged in the positioning frame body (11), and at least one positioning ring (12) is fixedly arranged in the rectangular positioning frame (14).

4. A pre-buried sleeve positioning device for a floor support plate according to claim 3, characterized in that a positioning diagonal rod (15) is fixed in the rectangular positioning frame (14), and at least one positioning ring (12) is fixed between the rectangular positioning frame (14) and the positioning diagonal rod (15).

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