CN216234080U - Water receiving bucket for building sewer leakage - Google Patents

Abstract

The utility model designs a water receiving hopper for the leakage of building sewer, which is characterized in that: the water bucket is provided with a water outlet at the lower end face, the water outlet is connected with a return bend through a water pipe, and the return bend is connected with a water outlet pipe. The upper end face of the water bucket is provided with a circle of flat edge, and the flat edge is provided with an adhesive layer. The lower end surface of the water bucket is provided with a round hole. The water bucket is composed of a left half and a right half. The method is characterized in that: the left and right two half contact surfaces are respectively provided with a groove and a tenon, and the tenon is embedded in the groove. The utility model has the advantages that the treatment of the upstairs water seepage can be conveniently finished downstairs, and the manpower and material resources are saved.

Description

Water receiving bucket for building sewer leakage

Technical Field

The utility model relates to a water receiving bucket, in particular to a water receiving bucket for leakage of building sewer.

Background

Along with the economic development, the urban population is greatly increased, a plurality of high buildings are built in the city to solve the living problem, the upper-layer effluent of a common building penetrates through a floor slab, a lower-layer water receiving pipe is connected to a main pipe, the existing water pipe is usually a PVC plastic pipe, cracks are easy to generate during casting with concrete, and the cracks are deepened and widened during long-term deformation, so that if the upper floor has leakage, the water leaks to the downstairs along the cracks between the PVC plastic pipe and the concrete, sometimes, the same floor slab also has cracks during casting with the concrete, so that the leakage also occurs if the water is used in a toilet on the upper layer and the waterproof layer is aged, and because the floor tiles are generally laid on the upper layer or the leakage exists at the bottom of the bathtub, the repair on the upper layer is very difficult, even if the floor tiles are knocked off, the bathtub is moved out, and the waterproof layer is laid on the ground again, and the secondary leakage is very easy, so that a large number of contradictions between upstairs and downstairs inhabitants are generated, and therefore, a water seepage prevention member which can conveniently solve the water seepage problem is urgently needed to be developed.

Disclosure of Invention

The utility model aims to solve the problems of water seepage of upper and lower floor slabs in the prior art, provides a water receiving hopper for building drainage, and designs the water receiving hopper for building drainage, which is characterized in that: the water bucket is provided with a water outlet at the lower end face, the water outlet is connected with a return bend through a water pipe, and the return bend is connected with a water outlet pipe. The upper end face of the water bucket is provided with a circle of flat edge, and the flat edge is provided with an adhesive layer. The lower end surface of the water bucket is provided with a round hole. The water bucket is composed of a left half and a right half. The method is characterized in that: the left and right two half contact surfaces are respectively provided with a groove and a tenon, and the tenon is embedded in the groove. A plurality of mounting holes are arranged on a circle of flat edge of the upper end surface of the water bucket. The outer sides of the left half contact surface and the right half contact surface are provided with outer convex edges, and the outer convex edges are provided with connecting holes. The utility model has the advantages that the treatment of the upstairs water seepage can be conveniently finished downstairs, and the manpower and material resources are saved.

Drawings

Figure 1 is a schematic structural view of the present invention,

figure 2 is a schematic structural view of the present invention (bucket synthesis in half),

fig. 3 is a top view of fig. 2 of the present invention (bucket in half).

Detailed Description

A water receiving bucket that is used for building offal seepage in picture, its characterized in that: the water bucket comprises a water bucket 1, wherein a water outlet 2 is formed in the lower end face of the water bucket, the water outlet is connected with a return bend 4 through a water pipe 3, and the return bend 4 is connected with a water outlet pipe 5. The upper end face of the water bucket is provided with a circle of flat edge 7, and an adhesive layer 8 is arranged on the flat edge. The lower end surface of the water bucket is provided with a round hole 9. The water bucket is composed of a left half and a right half. The method is characterized in that: the left and right contact surfaces are respectively provided with a groove (not shown) and a tenon (not shown), and the tenon is embedded in the groove. A plurality of mounting holes 10 are arranged on a circle of flat edge of the upper end surface of the water bucket. The outer sides of the left half contact surface and the right half contact surface are provided with outer convex edges 11, and the outer convex edges are provided with connecting holes 12.

When the water seepage device is applied to water seepage on the building, a water seepage point can be found at the bottom of a floor slab on the lower layer, when the water seepage point is water seepage caused by cracks of the floor slab, the water bucket is placed at the water seepage point, the water bucket is adhered to the floor slab by an adhesive layer, if long-term stability is ensured, the water bucket can be nailed to the floor slab by an expansion nail through the mounting hole 10, then a return water bend and a water outlet pipe on the lower part are well connected, if convenient, a hole can be drilled on a main pipe, the water outlet pipe is inserted into the hole and sealed by sealant, so that the water seepage on the upper part is received by the water bucket, then the water pipe, the return water bend and the water outlet pipe are connected into the main pipe, and if no main pipe exists, the water seepage point can be lengthened to a drainage position (such as a ground leakage position) in a room.

When water leaks from cracks between the plastic pipe and the floor slab, the left and right water hoppers are divided into two halves, the left and right water hoppers are tightly embraced on the plastic pipe (different water hoppers are arranged according to the pipe diameter of the plastic pipe), then the left and right water hoppers are inserted into the grooves by using the tenons to be folded, the adhesive layer on the upper end surface of the water hoppers is knocked to fix the water hoppers, if long-term stability is ensured, the water hoppers can be nailed on the floor slab by using expansion nails through the mounting holes, after folding, the abutted seams at the folding positions are sealed by using sealant (the sealant can ensure that no leakage can be generated because the leaked water quantity is small and no pressure exists), the return water elbow and the water outlet pipe on the lower part are connected, if convenient, a hole can be drilled on the main pipe, the water outlet pipe is inserted into the hole and sealed by the sealant, so that the leaked water on the upper part is connected by the water hoppers after leaking along the plastic pipe, then the water inlet pipe, the water return bend and the water outlet pipe are connected into the main pipe, if the main pipe is not arranged, the water inlet pipe can be lengthened and connected to a water outlet (such as a ground leakage) in a room.

For the larger bucket, the outer convex edges arranged on the outer sides of the left half contact surface and the right half contact surface can be fixedly connected by connecting bolts penetrating through connecting holes formed in the outer convex edges.

Claims (5)

1. The utility model provides a water receiving bucket for building offal seepage which characterized in that: the water bucket is provided with a water outlet at the lower end face, the water outlet is connected with a return bend through a water pipe, the return bend is connected with a water outlet pipe, the upper end face of the water bucket is provided with a round flat edge, an adhesive layer is arranged on the flat edge, and a round hole is formed in the lower end face of the water bucket.

2. The water receiving hopper for the leakage of the building sewer according to claim 1, which is characterized in that: the water bucket is composed of a left half and a right half.

3. The water receiving hopper for the leakage of the building sewer according to claim 2 is characterized in that: the left and right two half contact surfaces are respectively provided with a groove and a tenon, and the tenon is embedded in the groove.

4. A receiving hopper for leakage of water from a building according to any one of claims 1 to 3, characterised in that: a plurality of mounting holes are arranged on a circle of flat edge of the upper end surface of the water bucket.

5. The water receiving hopper for the leakage of the building sewer according to the claim 2 or 3, which is characterized in that: the outer sides of the left half contact surface and the right half contact surface are provided with outer convex edges, and the outer convex edges are provided with connecting holes.

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