CN211118029U - Structure suitable for embedded sleeve behind existing pool wall - Google Patents

Abstract

The utility model provides a bury sheathed tube structure after having been applicable to existing pool wall, include: the waterproof sleeve comprises a waterproof sleeve (1), a pre-embedded annular steel plate (3), an additional stirrup (8) and an annular additional steel bar (9); the additional stirrups (8), the annular additional steel bars (9), the waterproof sleeves (1) and the embedded annular steel plates (3) are respectively fixed on the pool wall; the additional stirrups (8) are connected with annular additional reinforcing steel bars (9); the waterproof sleeve (1) is connected with the embedded annular steel plate (3). The utility model discloses compare the reinforcement of conventional single additional reinforcement, take the anchor steel sheet to make the structural security show the improvement with the compound reinforcement mode of additional reinforcement, it is reasonable to bear the weight of the mode. The common template is difficult to support, the concrete construction quality is poor, the sleeve moves and is dislocated during pouring, water seepage is easy to occur at the gas cutting end of the counter-pulling water-stopping bolt, the steel template with the anchor bars is convenient to install, the steel template is suitable for a post-pouring special-shaped area, and the steel template is welded with the periphery of the sleeve, so that the sleeve is favorably fixed.

Description

Structure suitable for embedded sleeve behind existing pool wall

Technical Field

The utility model relates to a sewage treatment technical field specifically relates to a bury sheathed tube structure after having been applicable to existing pool wall.

Background

At present, in the construction process of structures of the projects of traditional overground sewage plants and underground (sunken) sewage plants, a large number of embedded sleeves are embedded on the wall of a reinforced concrete pool. The conventional design and construction are that the sleeve is embedded firstly and then the concrete is cast in place, so that the integrity of the area can be relatively ensured. However, the replacement of equipment or the adjustment of a process may cause the increase or decrease of the casing or the change of the position, and when the construction of the wall of the structure pool is completed, the casing needs to be bored and then buried. Conventionally, a self-waterproof casing for a pipeline passing through a pool wall, as disclosed in patent document CN107120481A, is mainly composed of a steel casing, a steel water stop ring, a rubber ferrule, a clamp, and a V-shaped rubber water stop strip; the main working principle and the installation method are as follows: when concrete is poured on the wall of the pool, the steel sleeve and the steel water stop ring are embedded in the concrete, the rubber ferrule faces the upstream face of the pool, after the concrete reaches a certain strength, a pipeline needing to penetrate through penetrates through the steel sleeve, the V-shaped rubber water stop strip is inserted into a gap between the rubber ferrule and the pipeline, finally the clamping hoop is sleeved on the rubber ferrule, a bolt on the clamping hoop is screwed, the rubber ferrule and the V-shaped rubber water stop strip are clamped tightly, waterproof glue is applied to the joint of the V-shaped rubber water stop strip, and the installation work is completed.

However, in the reconstruction and upgrading of the established water plant, the working condition that the post-casing pipe penetrates through the tank wall inevitably occurs. The method for embedding the sleeve on the wall of the finished working pool is not standard, the sleeve is often installed by a construction unit, the waterproof effect is poor, the phenomena of water seepage and cracks often occur in the constructed sleeve area, and the durability of the joint is poor. The post-buried sleeves do not have the targeted measures proposed for different sizes of sleeves. Some large-diameter rear buried sleeves pay attention to water prevention and neglect a reinforcing method, and the integrity of the structure is damaged by punching, even potential safety hazards are caused. And the formwork is difficult to support in construction of certain rear buried sleeve breaking areas, and the pouring quality of grouting materials cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

To the defects in the prior art, the utility model aims to provide a bury sheathed tube structure behind the existing pool wall suitable for.

According to the utility model provides a pair of bury sheathed tube structure after having had pool wall suitable for, include: the waterproof sleeve comprises a waterproof sleeve 1, a pre-embedded annular steel plate 3, an additional stirrup 8 and an annular additional steel bar 9;

the additional stirrups 8, the annular additional steel bars 9, the waterproof sleeves 1 and the pre-buried annular steel plates 3 are respectively fixed on the pool wall;

the additional stirrups 8 are connected with annular additional reinforcing steel bars 9;

the waterproof sleeve 1 is connected with the embedded annular steel plate 3.

Preferably, the method further comprises the following steps: and an additional coiled material waterproof layer 4, wherein the additional coiled material waterproof layer 4 is arranged at the outer edge of the embedded annular steel plate 3.

Preferably, the method further comprises the following steps: a water-swelling seal 5; the water-swelling water stop strip 5 is arranged on the pool wall.

Preferably, the embedded annular steel plate 3 is provided with a pouring hole 14.

Preferably, the grouting material 7 is poured in the pouring hole 14.

According to the utility model provides a pair of bury sheathed tube structure after having had pool wall suitable for, include: the waterproof sleeve comprises a waterproof sleeve 1, a pre-embedded annular steel plate 3, an additional stirrup 8 and an annular additional steel bar 9;

the additional stirrups 8, the annular additional steel bars 9, the waterproof sleeves 1 and the pre-buried annular steel plates 3 are respectively fixed on the pool wall;

the additional stirrups 8 are connected with annular additional reinforcing steel bars 9;

the waterproof sleeve 1 is connected with the embedded annular steel plate 3;

further comprising: an additional coiled material waterproof layer 4, wherein the additional coiled material waterproof layer 4 is arranged at the outer edge of the embedded annular steel plate 3;

further comprising: a water-swelling seal 5; the water-swelling water stop strip 5 is arranged on the pool wall;

a pouring hole 14 is formed in the embedded annular steel plate 3;

the grouting material 7 is poured in the pouring hole 14.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. compared with the conventional single additional steel bar reinforcement, the composite reinforcement mode of the steel plate with the anchor bars and the additional steel bars obviously improves the structural safety and has reasonable bearing mode.

2. The common template is difficult to support, the concrete construction quality is poor, the sleeve moves and is dislocated during pouring, water seepage is easy to occur at the gas cutting end of the counter-pulling water-stopping bolt, the steel template with the anchor bars is convenient to install, the steel template is suitable for a post-pouring special-shaped area, and the steel template is welded with the periphery of the sleeve, so that the sleeve is favorably fixed.

3. The embedded steel plate and the additional waterproof layer reinforce the original waterproof method, so that the waterproof and seepage-proof effects are better; the embedded steel plate has low cost, simple manufacture, convenient installation and good later concrete forming quality, and has multiple functions of waterproofing, reinforcing and fixing the template.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the whole structure of the buried sleeve pipe after the existing pool wall is provided by the present invention.

Fig. 2 is the utility model provides a pair of bury the buried steel plate planar structure sketch of sheathed tube structure area anchor muscle after having had the pool wall and describe.

The figures show that:

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

As shown in fig. 1 to fig. 2, the structure suitable for the buried sleeve pipe behind the existing pool wall according to the present invention comprises: the waterproof sleeve comprises a waterproof sleeve 1, a pre-embedded annular steel plate 3, an additional stirrup 8 and an annular additional steel bar 9; the additional stirrups 8, the annular additional steel bars 9, the waterproof sleeves 1 and the pre-buried annular steel plates 3 are respectively fixed on the pool wall; the additional stirrups 8 are connected with annular additional reinforcing steel bars 9; the waterproof sleeve 1 is connected with the embedded annular steel plate 3; further comprising: an additional coiled material waterproof layer 4, wherein the additional coiled material waterproof layer 4 is arranged at the outer edge of the embedded annular steel plate 3; further comprising: a water-swelling seal 5; the water-swelling water stop strip 5 is arranged on the pool wall. A pouring hole 14 is formed in the embedded annular steel plate 3; the grouting material 7 is poured in the pouring hole 14.

According to the utility model provides a pair of be applicable to bury sheathed tube construction method behind existing pool wall, including following step:

step 1: burying a sleeve pipe region behind the pool wall, breaking concrete to form a hole, and cutting a concrete protective layer on the pool wall around the hole;

step 2: processing the hole interface formed by breaking the original pool wall, the peripheral area of the hole of the pool wall and the exposed reinforcing steel bars of the original pool wall;

and step 3: taking measures to fix the additional stirrups 8, the annular additional steel bars 9, the waterproof sleeves 1, the embedded annular steel plates 3 and the anchor bars 13 at corresponding positions on the pool wall;

and 4, step 4: pouring a grouting material 7 into the pouring hole on the pre-embedded annular steel plate 3, wherein the grouting material 7 is fine aggregate concrete; the strength grade of the concrete is improved by one grade compared with the original concrete, and an expanding agent is doped;

and 5: after the concrete curing is finished, an additional coiled material waterproof layer 4 with the width of 200mm is manufactured at the outer edge of the embedded annular steel plate 3.

The step 1 comprises the following steps:

step 1.1, positioning the position of a rear buried sleeve on the pool wall;

step 1.2, breaking the concrete at the positioning position to form a hole, and reserving the original pool wall reinforcing steel bars 6 as much as possible; the range of the hole is that the hole is expanded by 300mm to a new and old concrete interface 10 at the outer edge of the sleeve; the first distance 11 in fig. 1 is the distance from the interface to the casing centerline.

Step 1.3, removing the original concrete protective layer on the surface of the area which is not broken at the periphery of the pool wall opening and is covered by the later-stage embedded annular steel plate 3; the range is that the extension of the outer edge of the embedded annular steel plate 3 from the interface of the new concrete and the old concrete is not less than 80mm, and the extension is a second distance 12.

The step 2 comprises the following steps:

step 2.1, roughening the surface of the new and old concrete interface 10, washing the interface, coating a layer of interface agent, and placing a water-swelling water stop strip 5 at the center of the thickness of the pool wall;

step 2.2, straightening and bending the exposed original pool wall reinforcing steel bars 6 at the hole; and cleaning and removing the original pool wall steel bars 6 exposed out of the concrete protective layer.

The step 3 comprises the following steps:

step 3.1, completing the waterproof casing 1;

step 3.2, the number of the additional stirrups 8 is radially arranged according to the most dense distance of 200 mm; the area of the additional annular steel bar 9 is more than or equal to 0.75 time of the area of the cut-off steel bar;

and 3.3, forming a 50mm × 100mm pouring hole in the embedded annular steel plate 3, and welding an anchor bar 13 on the inner side of the steel plate.

The step 4 comprises the following steps:

step 4.1, fixing the additional reinforcing steel bars 8 and the annular additional reinforcing steel bars 9 in the hole area on the original pool wall reinforcing steel bars 6 through binding or welding;

step 4.2, the waterproof casing 1 is fixed at the corresponding position of the pool wall by welding with the additional steel bar 8, the annular additional steel bar 9 or the original pool wall steel bar 6;

step 4.3, welding and fixing the embedded annular steel plate 3 and the original pool wall steel bar 6, adjusting the positions of the steel bar and the steel plate during welding, and ensuring that the outer side of the steel plate is flush with the surface of the pool wall; the inner edge of the pre-buried annular steel plate 3 is welded and fixed with the edge of the waterproof sleeve 1, so that the quality of the welding seam 2 is qualified, and no gap is left.

In a preferred embodiment, the weld seam 2 is a weld seam of a sleeve and a steel plate, and the nominal diameter of the sleeve is between DN300 and DN 600. The pre-buried steel plate with the anchor bars in the device has the functions of water proofing, reinforcement, sleeve fixing and template. The existing pool wall is damaged by adding the medium-sized and large-sized sleeve, the structure safety is influenced, a simple measure of only adopting an additional steel bar is usually taken, and the embedded steel plate and the attached anchor bar in the method have more comprehensive and better reinforcement performance. The method for casting the concrete post-cast area utilizes the embedded steel plate as a casting steel template, and a casting hole is formed in the upper part of the embedded steel plate for casting the grouting material, so that the method is simple and easy to implement and has a good forming effect. Meanwhile, the embedded steel plate has a certain waterproof effect on the coverage area, and the waterproof sleeve is welded and fixed on the embedded steel plate, so that the waterproof sleeve is firmer.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (6)

1. A structure suitable for use in an existing tank wall rear buried pipe, comprising: the waterproof sleeve comprises a waterproof sleeve (1), a pre-embedded annular steel plate (3), an additional stirrup (8) and an annular additional steel bar (9);

the additional stirrups (8), the annular additional steel bars (9), the waterproof sleeves (1) and the embedded annular steel plates (3) are respectively fixed on the pool wall;

the additional stirrups (8) are connected with annular additional reinforcing steel bars (9);

the waterproof sleeve (1) is connected with the embedded annular steel plate (3).

2. The structure of claim 1, further comprising: the waterproof structure comprises an additional coiled material waterproof layer (4), wherein the additional coiled material waterproof layer (4) is arranged at the outer edge of the embedded annular steel plate (3).

3. The structure of claim 1, further comprising: a water-swelling seal bar (5) when meeting water; the water-swelling water stop strip (5) is arranged on the pool wall.

4. The structure suitable for the existing post-buried sleeve of the pool wall as claimed in claim 1, wherein the pre-buried annular steel plate (3) is provided with a pouring hole (14).

5. The structure suitable for the existing wall post-sleeve according to claim 4, characterized in that the grouting hole (14) is poured with grouting material (7).

6. A structure suitable for use in an existing tank wall rear buried pipe, comprising: the waterproof sleeve comprises a waterproof sleeve (1), a pre-embedded annular steel plate (3), an additional stirrup (8) and an annular additional steel bar (9);

the additional stirrups (8), the annular additional steel bars (9), the waterproof sleeves (1) and the embedded annular steel plates (3) are respectively fixed on the pool wall;

the additional stirrups (8) are connected with annular additional reinforcing steel bars (9);

the waterproof sleeve (1) is connected with the embedded annular steel plate (3);

further comprising: the additional coiled material waterproof layer (4) is arranged at the outer edge of the embedded annular steel plate (3);

further comprising: a water-swelling seal bar (5) when meeting water; the water-swelling water stop strip (5) is arranged on the pool wall;

a pouring hole (14) is formed in the embedded annular steel plate (3);

and a grouting material (7) is poured in the pouring hole (14).

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