CN209874014U - Universal secondary drainage collector and drainage application structure thereof - Google Patents

Abstract

The utility model discloses a universal secondary drainage collector and drainage application structure thereof, which comprises a main disc body, wherein the upper end surface of the main disc body is concave downwards to form a water collecting cavity, the upper end periphery of the main disc body is provided with an annular flange, the bottom wall of the main disc body is provided with a first through hole, the bottom wall of the main disc body is provided with an upper connecting pipe which is convex upwards, the lower end of the upper connecting pipe is communicated with the first through hole, and the lower side of the bottom wall of the main disc body is connected with a first lower connecting pipe; the bottom wall of the main tray body is provided with a ground water through hole which is communicated with the water collecting cavity, and the lower side of the bottom wall of the main tray body is connected with a ground underwater connecting pipe; therefore, through the arrangement of the universal secondary drainage collector, the problem that the bathroom drainage installation part is easy to seep water in the traditional technology is solved, the possible seeping water of the bathroom drainage installation part is collected, the water seepage trace generated at the bottom of the floor slab is avoided, the good waterproof and seepage-proof effects are achieved, meanwhile, different drainage application modes can be designed according to needs, the application flexibility is high, and the application range is wide.

Description

Universal secondary drainage collector and drainage application structure thereof

Technical Field

The utility model relates to a bathroom drainage field technique especially indicates a general type secondary drainage collector and drainage application structure thereof.

Background

When the bathroom drainage design, be limited to the installation leakproofness, downward water leakage phenomenon easily appears, for example:

1. most of the existing bathroom drainage is connected to a drainage pipe well through a floor drain and a drainage branch pipe, when the bathroom drainage is actually applied, poor installation tightness between the lower part of the floor drain and the drainage branch pipe sometimes occurs, so that a water seepage phenomenon occurs, and a water seepage trace usually exists at the bottom of a floor slab (also referred to as the roof of the next floor), so that adverse effects are caused to users going downstairs; the subsequent waterproof maintenance construction operation is troublesome, and the maintenance cost is high.

2. Urinals, toilets and the like are also connected to the drainage pipe well through a drainage pipe, and because the installation tightness is limited, the phenomenon that ground water seeps downwards through the installation part is easy to occur.

Of course, if the drainage installation part is specially sealed, the installation sealing performance can be improved, and the water seepage hidden danger can be reduced.

Therefore, a new technical solution needs to be developed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a general type secondary drainage collector and drainage application structure thereof, and it has solved the problem that bathroom drainage installation position easily oozes water among the conventional art, collects the possible infiltration of bathroom drainage installation position, avoids producing the infiltration vestige bottom the floor, has played fine waterproof, prevention of seepage water effect, simultaneously, can design different drainage application modes as required, and it is strong to use the flexibility, and application scope is wide.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a general type secondary drainage collector, including the main disk body, the recessed chamber that catchments that is formed with of the up end of main disk body, the upper end periphery of main disk body is formed with annular turn-ups, first through-hole has been seted up to the diapire of main disk body, the diapire of main disk body is equipped with the connecting pipe to the epirelief, the lower extreme of going up the connecting pipe communicates in aforementioned first through-hole, the diapire downside of main disk body is connected with first connecting pipe, the upper end of first connecting pipe communicates in aforementioned first through-hole, and, ground water through-hole has been seted up to the diapire of main disk body, ground water through-hole intercommunication catchments the chamber, the diapire downside of main disk body is connected with the ground connecting.

As a preferable scheme, two ground water through holes are provided, which are respectively defined as a second through hole and a third through hole; correspondingly, two ground underwater connecting pipes are arranged and respectively defined as a second lower connecting pipe and a third lower connecting pipe; the upper end of the second lower connecting pipe is communicated with the second through hole, and the upper end of the third lower connecting pipe is communicated with the third through hole; the second lower connecting pipe and the third lower connecting pipe are respectively positioned at two sides of the first lower connecting pipe.

Preferably, the periphery of the bottom wall of the main tray body integrally extends downwards to form an annular wall, and the first lower connecting pipe, the second lower connecting pipe and the third lower connecting pipe are located in an area surrounded by the annular wall.

Preferably, the upper end of the upper connecting pipe protrudes and extends above the annular flange.

Preferably, an assembly step is formed at an inner side of the upper connection pipe.

As a preferable scheme, the second lower connecting pipe and the third lower connecting pipe are smaller than the first lower connecting pipe.

Preferably, the second lower connecting pipe and the third lower connecting pipe are shorter than the first lower connecting pipe.

As a preferred scheme, the main tray body is of a cylindrical structure, and the upper connecting pipe is connected to the center of the bottom wall of the main tray body.

A drainage application structure of a universal secondary drainage collector comprises a floor slab, the universal secondary drainage collector, a first drainage pipe and a second drainage pipe; the floor slab is provided with a drain hole; the universal secondary drainage collector is the universal secondary drainage collector;

the universal secondary drainage collector is arranged below the floor slab, the upper connecting pipe of the universal secondary drainage collector is communicated with the drainage hole, the annular flanging of the universal secondary drainage collector is hermetically connected below the floor slab, and the drainage hole is positioned in the sealed area of the annular flanging; the first water drainage pipe is connected to the lower end of the first lower connecting pipe; the second drain pipe is provided with a first ground water inlet end and a first water outlet end, and the first ground water inlet end is connected to the lower end of the ground underwater connecting pipe.

A drainage application structure of a universal secondary drainage collector comprises a floor slab, the universal secondary drainage collector and a third drainage pipe; the floor slab is provided with a drain hole; the universal secondary drainage collector is the universal secondary drainage collector;

the universal secondary drainage collector is arranged below the floor slab, the upper connecting pipe of the universal secondary drainage collector is communicated with the drainage hole, the annular flanging of the universal secondary drainage collector is hermetically connected below the floor slab, and the drainage hole is positioned in the sealed area of the annular flanging; the third drain pipe is provided with a second ground water inlet end, a sewage inlet end and a second water outlet end, the sewage inlet end is connected to the lower end of the first lower connecting pipe, and the second ground water inlet end is connected to the lower end of the ground underwater connecting pipe.

Compared with the prior art, the utility model have obvious advantage and beneficial effect, particularly, can know by above-mentioned technical scheme, it mainly is through the setting of general type secondary drainage collector, solved the problem that bathroom drainage installation position easily oozes water among the traditional art, collect the possible infiltration of bathroom drainage installation position, avoid producing the infiltration vestige bottom the floor, played fine waterproof, prevention of seepage water effect, and simultaneously, can design different drainage application modes as required, it is strong to use the flexibility, and application scope is wide.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of a general secondary drain collector according to an embodiment of the present invention;

FIG. 2 is a front view of a general secondary drain collector according to an embodiment of the present invention;

FIG. 3 is a top view of a universal secondary drain collector in an embodiment of the present invention;

FIG. 4 is a bottom view of a universal secondary drain collector in an embodiment of the present invention;

FIG. 5 is a sectional view of a general secondary drain collector according to an embodiment of the present invention;

FIG. 6 is a diagram of a drainage application of the universal secondary drainage trap in an embodiment of the present invention;

fig. 7 is a diagram of another drainage application of the universal secondary drainage trap in an embodiment of the present invention.

The attached drawings indicate the following:

100. general secondary drainage collector

10. Main tray body 101, bottom wall

102. Peripheral side wall 103, annular wall

104. Reinforcing rib

11. Water collecting cavity 12 and annular flanging

13. First through hole 14, upper connecting pipe

141. Assembly step 15, first lower connecting pipe

16. Second through hole 17 and third through hole

18. Second lower connecting pipe 19 and third lower connecting pipe

200. Floor 201, drain hole

300. A first drain pipe 400 and a second drain pipe

500. And a third water drainage pipe.

Detailed Description

Referring to fig. 1 to 5, specific structures of a universal secondary drainage collector according to an embodiment of the present invention are shown.

A universal secondary drainage collector 100 comprises a main disc body 10, wherein a water collecting cavity 11 is formed in the lower portion of the upper end face of the main disc body 10 in a concave mode, an annular flange 12 is formed on the periphery of the upper end of the main disc body 10, a first through hole 13 is formed in the bottom wall 101 of the main disc body 10, an upper connecting pipe 14 is arranged on the bottom wall 101 of the main disc body 10 in an upward protruding mode, the lower end of the upper connecting pipe 14 is communicated with the first through hole 13, a first lower connecting pipe 15 is connected to the lower side of the bottom wall 101 of the main disc body 10, the upper end of the first lower connecting pipe 15 is communicated with the first through hole 13, a ground water through hole is formed in the bottom wall of the main disc body and is communicated with the water collecting cavity, a ground water connecting pipe is connected to the lower side of the.

Here, the ground water through holes are provided in two, which are respectively defined as a second through hole and a third through hole; correspondingly, two ground underwater connecting pipes are arranged and respectively defined as a second lower connecting pipe and a third lower connecting pipe; therefore, the bottom wall 101 of the main tray body 10 is respectively provided with a second through hole 16 and a third through hole 17, the second through hole 16 and the third through hole 17 are respectively communicated with the water collecting cavity 11, the lower side of the bottom wall 101 of the main tray body 10 is respectively connected with a second lower connecting pipe 18 and a third lower connecting pipe 19, the upper end of the second lower connecting pipe 18 is communicated with the second through hole 16, and the upper end of the third lower connecting pipe 19 is communicated with the third through hole 17.

In this embodiment, the second lower connecting pipe 18 and the third lower connecting pipe 19 are respectively located at two sides of the first lower connecting pipe 15. An annular wall 103 extends integrally and downwards from the periphery of the bottom wall 101 of the main tray body 10, and the first lower connecting pipe 15, the second lower connecting pipe 18 and the third lower connecting pipe 19 are located together in the area surrounded by the annular wall 103. The arrangement of the annular wall 103 improves the structural strength of the main tray 10, and here, the bottom wall 101 of the main tray 10 extends horizontally, the bottom wall 102 extends upwards integrally on the peripheral side of the bottom wall 101, and the lower end of the bottom wall 102 extends downwards integrally to form the annular wall 103. A plurality of reinforcing ribs 104 are provided on the lower side of the bottom wall 101, the reinforcing ribs 104 are arranged at intervals in the circumferential direction around the center position of the bottom wall 101, each reinforcing rib 104 extends in the radial direction, the inner ends of the reinforcing ribs 104 are integrally connected to the outer wall surface of the first lower connecting pipe 15, and the outer ends of the reinforcing ribs 104 are integrally connected to the inner wall surface of the annular wall 103.

The upper end of the upper connecting pipe 14 protrudes above the annular flange 12. An assembly step 141 is formed at the inner side of the upper connection pipe 14 to facilitate the upper connection of a toilet, etc. As can be seen from fig. 5, the lower section of the upper connecting pipe 14 has a thicker wall thickness, and the upper section of the upper connecting pipe 14 has a thinner wall thickness due to the installation of the inner assembling step 141.

In general, the second lower connection pipe 18 and the third lower connection pipe 19 are smaller than the first lower connection pipe 15, and the second lower connection pipe 18 and the third lower connection pipe 19 are shorter than the first lower connection pipe 15. The water collecting cavity 11 is mainly used for collecting ground water. Preferably, the main tray 10 has a cylindrical structure, and the upper connection pipe 14 is connected to a central position of a bottom wall 101 of the main tray 10.

The general secondary drainage trap can be used in a variety of drainage applications, and herein, two drainage applications are listed (but not limited to the two types):

as shown in fig. 6, a drainage application structure of a general secondary drainage trap includes a floor slab 200, a general secondary drainage trap 100, a first drainage pipe 300, and a second drainage pipe 400; a drainage hole 201 is formed in the floor slab 200; the universal secondary drainage collector is the universal secondary drainage collector;

the general secondary drainage collector 100 is arranged below a floor slab 200, an upper connecting pipe 14 of the collector is communicated with a drainage hole 201, an annular flange 12 of the collector is connected below the floor slab 200 in a sealing manner, and the drainage hole 201 is positioned in an area sealed by the annular flange 12; the first drain pipe 300 is connected to the lower end of the first lower connection pipe 15; the number of the first ground water inlet ends depends on the number of the ground water through holes, and the first ground water inlet ends are connected to the lower end of the ground underwater connecting pipe. In the embodiment shown in fig. 6, the second drainage pipe 400 has two first water inlet ends and one first water outlet end, the two first water inlet ends refer to two first ground water inlet ends, and the two first water inlet ends are respectively connected to the lower ends of the second lower connecting pipe 18 and the third lower connecting pipe 19. In this drainage method, the first lower connecting pipe 15 is connected to the drainage shaft through the first drainage pipe 300 alone, and the sewage of the toilet bowl is discharged into the drainage shaft through the first drainage pipe 300 alone, and the second lower connecting pipe 18 and the third lower connecting pipe 19 are connected to the second drainage pipe 400 together to form the collective discharge of the ground water and are connected to the drainage shaft through the second drainage pipe 400; thus, the sewage and the floor water of the toilet are separately discharged, and the sewage and the like are prevented from escaping upward through the drain hole 201 of the floor 200 (specifically, the gap between the inner wall surface of the drain hole 201 and the outer wall surface of the upper connecting pipe 14), thereby ensuring the cleanness of the indoor air.

As shown in fig. 7, a drainage application structure of a general secondary drainage trap includes a floor 200, a general secondary drainage trap 100, and a third drainage pipe 500; a drainage hole 201 is formed in the floor slab 200; the universal secondary drainage collector is the universal secondary drainage collector;

the universal secondary drainage collector 100 is arranged below a floor slab 200, an upper connecting pipe 14 of the universal secondary drainage collector is communicated with a drainage hole 201, an annular flange 12 of the universal secondary drainage collector is connected below the floor slab 200 in a sealing manner, and the drainage hole 201 is positioned in an area sealed by the annular flange 12; the third drain pipe is provided with a second ground water inlet end, a sewage inlet end and a second water outlet end, wherein the sewage inlet end is connected with the lower end of the first lower connecting pipe, and the second ground water inlet end is connected with the lower end of the ground underwater connecting pipe. In the embodiment shown in fig. 7, the third drainage pipe 500 has three second water inlet ends and one second water outlet end, and the three second water inlet ends refer to two second ground water inlet ends and one sewage inlet end; the three second water inlet ends are respectively connected to the lower ends of the first lower connecting pipe 15, the second lower connecting pipe 18 and the third lower connecting pipe 19. In this drainage method, the third drainage pipe 500 is provided, and the three water outlet ends of the first lower connecting pipe 15, the second lower connecting pipe 18, and the third lower connecting pipe 19 are collected by the third drainage pipe 500 and then discharged to the drainage well.

Of course, the lower ends of the first lower connection pipe 15, the second lower connection pipe 18, and the third lower connection pipe 19 of the general secondary drain collector may be separately provided with different drain pipes, or any two of the first lower connection pipe 15, the second lower connection pipe 18, and the third lower connection pipe 19 may be collectively connected to a drain pipe, and the other may be separately provided with different drain pipes. In summary, the drainage application structure of the universal secondary drainage trap shown in fig. 6 and 7 only provides two illustrative drainage applications, and does not limit the application of the universal secondary drainage trap.

To sum up, the utility model discloses a design focus lies in, and it is mainly through the setting of general type secondary drainage collector, has solved the problem that bathroom drainage installation position easily oozes water among the traditional art, collects the possible infiltration of bathroom drainage installation position, avoids producing the infiltration vestige bottom the floor, has played fine waterproof, prevention of seepage water effect, simultaneously, can design different drainage application according to need, and it is strong to use the flexibility, and application scope is wide.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A general type secondary drainage collector which characterized in that: including the main disk body, the recessed chamber that catchments that is formed with of upper end face of main disk body, the upper end periphery of main disk body is formed with annular turn-ups, first through-hole has been seted up to the diapire of main disk body, the diapire of main disk body is equipped with the connecting pipe to the epirelief, the lower extreme of going up the connecting pipe communicates in aforementioned first through-hole, the diapire downside of main disk body is connected with first connecting pipe, the upper end of first connecting pipe communicates in aforementioned first through-hole, and, ground water through-hole has been seted up to the diapire of main disk body, ground water through-hole intercommunication catchments the chamber, the diapire downside of main disk body is connected with the ground connecting pipe under.

2. The universal secondary drainage collector of claim 1, wherein: the ground water through holes are two and are respectively defined as a second through hole and a third through hole; correspondingly, two ground underwater connecting pipes are arranged and respectively defined as a second lower connecting pipe and a third lower connecting pipe; the upper end of the second lower connecting pipe is communicated with the second through hole, and the upper end of the third lower connecting pipe is communicated with the third through hole; the second lower connecting pipe and the third lower connecting pipe are respectively positioned at two sides of the first lower connecting pipe.

3. The universal secondary drainage collector of claim 2, wherein: the periphery of the bottom wall of the main tray body integrally extends downwards to form an annular wall, and the first lower connecting pipe, the second lower connecting pipe and the third lower connecting pipe are located in an area surrounded by the annular wall.

4. The universal secondary drainage collector of claim 1, wherein: the upper end of the upper connecting pipe protrudes and extends out of the upper part of the annular flanging.

5. The universal secondary drainage collector of claim 1, wherein: an assembly step is formed at the inner side of the upper connection pipe.

6. The universal secondary drainage collector of claim 2, wherein: and the second lower connecting pipe and the third lower connecting pipe are smaller than the first lower connecting pipe.

7. The universal secondary drainage collector of claim 2, wherein: the second lower connecting pipe and the third lower connecting pipe are both shorter than the first lower connecting pipe.

8. The universal secondary drainage collector of claim 1, wherein: the main tray body is of a cylindrical structure, and the upper connecting pipe is connected to the center of the bottom wall of the main tray body.

9. The utility model provides a structure is used in drainage of general type secondary drainage collector which characterized in that: the device comprises a floor slab, a universal secondary drainage collector, a first drainage pipe and a second drainage pipe; the floor slab is provided with a drain hole; the universal secondary drainage trap is the universal secondary drainage trap of any one of claims 1 to 8;

the universal secondary drainage collector is arranged below the floor slab, the upper connecting pipe of the universal secondary drainage collector is communicated with the drainage hole, the annular flanging of the universal secondary drainage collector is hermetically connected below the floor slab, and the drainage hole is positioned in the sealed area of the annular flanging; the first water drainage pipe is connected to the lower end of the first lower connecting pipe; the second drain pipe is provided with a first ground water inlet end and a first water outlet end, and the first ground water inlet end is connected to the lower end of the ground underwater connecting pipe.

10. The utility model provides a structure is used in drainage of general type secondary drainage collector which characterized in that: the device comprises a floor slab, a universal secondary drainage collector and a third drainage pipe; the floor slab is provided with a drain hole; the universal secondary drainage trap is the universal secondary drainage trap of any one of claims 1 to 8;

the universal secondary drainage collector is arranged below the floor slab, the upper connecting pipe of the universal secondary drainage collector is communicated with the drainage hole, the annular flanging of the universal secondary drainage collector is hermetically connected below the floor slab, and the drainage hole is positioned in the sealed area of the annular flanging; the third drain pipe is provided with a second ground water inlet end, a sewage inlet end and a second water outlet end, the sewage inlet end is connected to the lower end of the first lower connecting pipe, and the second ground water inlet end is connected to the lower end of the ground underwater connecting pipe.