CN212224084U - Special rotational flow single vertical pipe system - Google Patents

Abstract

The utility model discloses a special rotational flow single vertical pipe system, which comprises a rotational flow tee joint, an upper layer main drainage pipeline, a lower layer main drainage pipeline and a side water inlet pipeline, wherein the rotational flow tee joint comprises a first water inlet pipe and a second water inlet pipe which is connected with the side wall of the first water inlet pipe and is internally communicated; the upper part of the first water inlet pipe is communicated with the upper layer main drainage pipeline, the lower part of the first water inlet pipe is communicated with the lower layer main drainage pipeline, and the second water inlet pipe is communicated with the side water inlet pipeline; the inner edge of the second water inlet pipe is tangent to the inner edge of the first water inlet pipe; the communicating part of the second water inlet pipe and the first water inlet pipe is a pipe wall cavity with an expanded volume. The first water inlet pipe and the second water inlet pipe are both made of plastic materials. From this, when sewage got into first inlet tube along the second inlet tube, the setting of pipe wall cavity can increase the curvature radius of sewage adherence whirl, ensures that sewage can the adherence whirl, avoids the water plug to form, reduces the production of drainage noise simultaneously.

Description

Special rotational flow single vertical pipe system

Technical Field

The utility model relates to a building drainage field, concretely relates to special whirl single riser system.

Background

With the development of the technology, a single vertical pipe becomes one of important pipe fittings of a sewage discharge system in a building area, and the main advantages of the single vertical pipe are that the flow of the pipeline is large, the use and the installation are convenient, and the occupied space is small. However, the internal flow state of the single vertical pipe on the market is disordered, and the concrete expression is that when sewage with larger discharge capacity enters the vertical pipe along the transverse branch pipe, the sewage is directly discharged from the middle part of the vertical pipe due to the smaller curvature radius of the pipeline, so that the drainage noise is large, and the water plug is easily caused.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a special whirl single riser system.

The utility model discloses a solve the technical scheme that its problem adopted and be:

the utility model provides a special whirl single riser system, includes the whirl tee bend and communicates respectively upper strata main drainage pipe, lower floor's main drainage pipe and the side inlet pipe way of whirl tee bend upper portion, lower part and lateral part, wherein:

the rotational flow tee joint comprises a first water inlet pipe and a second water inlet pipe which is connected with the side wall of the first water inlet pipe and is internally communicated; the upper part of the first water inlet pipe is communicated with the upper layer main drainage pipeline, the lower part of the first water inlet pipe is communicated with the lower layer main drainage pipeline, and the second water inlet pipe is communicated with the side water inlet pipeline;

the inner edge of the second water inlet pipe is tangent to the inner edge of the first water inlet pipe;

the communication part of the second water inlet pipe and the first water inlet pipe is a pipe wall cavity with an expanded volume;

first inlet tube and second inlet tube all adopt the plastics material to make.

From this, when sewage entered into first inlet tube along the second inlet tube, the setting of pipe wall cavity can increase the radius of curvature of sewage adherence whirl. When sewage discharge capacity is great, can effectively reduce the discharge rate of sewage, ensure that sewage can the wall whirl, avoid the water stopper to form, reduce the production of drainage noise simultaneously.

Further, the first water inlet pipe is of a funnel-shaped structure with a wide upper part and a narrow lower part.

From this, set first inlet tube to the upper end and expand, funnel-shaped structure that the lower extreme reduces for sewage is when the adherence whirl, and its whirl radius is by big dwindling gradually, thereby has improved the discharge rate of sewage, has reduced the drainage noise simultaneously.

Further, still include a baffle, the baffle sets up the intercommunication department of second inlet tube and first inlet tube.

From this, through set up the baffle in intercommunication department for sewage in the second inlet tube can get into first inlet tube according to the direction whirl of setting for, guarantees to get into the whirl direction of the sewage in the first inlet tube the same with the whirl direction of the sewage in the first inlet tube from the second inlet tube.

Further, still include a steady voltage membrane, steady voltage membrane sets up the intercommunication department of second inlet tube and first inlet tube.

From this, through setting up the voltage stabilizing membrane in intercommunication department, when the pressure that gets into the discharge in the first inlet tube is greater than the pressure that the second inlet tube got into the discharge of the first inlet tube, this voltage stabilizing membrane can prevent that sewage in the first inlet tube from extruding the second inlet tube in, guarantees that sewage from stably discharging in the first inlet tube.

Further, the pressure stabilizing film is made of a flexible material.

Further, the first water inlet pipe and the second water inlet pipe are integrally formed in an injection molding mode.

Furthermore, a pipe cover is arranged at the upper end of the first water inlet pipe, a pipe joint is arranged on the pipe cover and is respectively communicated with the first water inlet pipe and the upper-layer main drainage pipeline.

The expansion joint is arranged between the first water inlet pipe and the upper-layer main drainage pipeline, and the lower end of the expansion joint is inserted into the pipe joint and communicated with the pipe joint; the upper end of the telescopic joint is communicated with an upper-layer main drainage pipeline; and a sealing ring is arranged on the inner wall of the upper end of the telescopic joint and is abutted against the outer wall of the upper-layer main drainage pipeline.

Therefore, when the temperature of the sewage flowing into the first water inlet pipe along the upper-layer main drainage pipeline is higher or lower, the pipeline can expand with heat and contract with cold. Through set up the telescopic joint between first inlet tube and upper strata main drainage pipe, because the upper end inner wall of telescopic joint is equipped with the sealing washer with upper strata main drainage pipe outer wall looks butt, when the pipeline takes place expend with heat and contract with cold, can relative slip between this upper strata main drainage pipe and the outer pipe to lead to the deformation of pipeline when compensating sewage temperature and changing, meanwhile, this sealing washer can guarantee the sealing nature of being connected between telescopic joint and the upper strata main drainage pipe, prevents to take place the hourglass water.

Furthermore, the lower extreme of first inlet tube is equipped with first riser, first riser is located between first inlet tube and the lower floor's main drainage pipe, and inside is linked together.

Furthermore, a water stop joint is arranged between the first vertical pipe and the lower-layer main drainage pipeline and is communicated with the interiors of the first vertical pipe and the lower-layer main drainage pipeline; and a surrounding water stopping step is convexly arranged on the outer wall of the water stopping section.

From this, set up the sewage that the stagnant water step can be used to the collection pipeline infiltration, prevent that the sewage of infiltration from further permeating to the floor of lower floor in.

To sum up, the utility model provides a pair of special whirl single riser system, when sewage gets into first inlet tube along the second inlet tube, the radius of curvature of sewage adherence whirl can be increased in the setting of pipe wall cavity. When sewage discharge capacity is great, can effectively reduce the discharge rate of sewage, ensure that sewage can the wall whirl, avoid the water stopper to form, reduce the production of drainage noise simultaneously.

Drawings

FIG. 1 is an exploded view of a special cyclone single riser system of the present invention;

FIG. 2 is a schematic structural view of a special cyclone single-riser system of the present invention;

FIG. 3 is a schematic structural view of the cyclone tee in FIG. 2;

FIG. 4 is a schematic structural view of the telescopic joint of FIG. 3;

FIG. 5 is a schematic structural view of FIG. 3 with the expansion joint hidden;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

fig. 7 is a partial structural view of fig. 6.

Wherein the reference numerals have the following meanings:

1. a rotational flow tee joint; 11. a first water inlet pipe; 12. a second water inlet pipe; 13. a tube wall cavity; 14. a baffle plate; 15. stabilizing the pressure; 16. a tube cover; 17. a pipe interface; 18. a first riser; 19. an expansion joint; 191. an outer layer circular tube; 192. an inner layer circular tube; 193. a seal ring; 2. an upper layer of a main drainage pipeline; 3. a lower-layer main drainage pipeline; 4. a side water intake pipe; 5. water stopping joints; 51. and (5) stopping the water step.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1-7, the utility model discloses a special cyclone single-riser system, which comprises a cyclone tee joint 1, an upper layer main drainage pipeline 2, a lower layer main drainage pipeline 3 and a side water inlet pipeline 4 which are respectively communicated with the upper part, the lower part and the side part of the cyclone tee joint 1, wherein the cyclone tee joint 1 comprises a first water inlet pipe 11 and a second water inlet pipe 12 which is connected with the side wall of the first water inlet pipe 11 and is internally communicated; the upper part of the first water inlet pipe 11 is communicated with the upper layer main drainage pipeline 2, the lower part of the first water inlet pipe 11 is communicated with the lower layer main drainage pipeline 3, and the second water inlet pipe 12 is communicated with the side water inlet pipeline 4.

In the embodiment, the upper layer main drainage pipeline 2 is used for receiving sewage discharged from the upper layer, and the side drainage pipeline 4 is communicated with a toilet sewage outlet and used for receiving sewage of the toilet sewage outlet; the lower main drain pipe 3 is used to drain all the collected sewage into the main sewage drain pipe. The first inlet pipe 11 and the second inlet pipe 12 are made of plastic materials.

Referring to fig. 3 and 5, the inner edge of the second inlet pipe 12 is tangent to the inner edge of the first inlet pipe 11, and the connection between the second inlet pipe 12 and the first inlet pipe 11 is a pipe wall cavity 13 with an enlarged volume.

In this embodiment, the first inlet pipe 11 and the second inlet pipe 12 are integrally injection-molded, and an included angle of 90 degrees is formed between the first inlet pipe 11 and the second inlet pipe 12.

Therefore, when sewage discharged by the closestool enters the first water inlet pipe 11 along the second water inlet pipe 12, the curvature radius of the sewage adherence rotational flow can be increased by the arrangement of the pipe wall cavity 13. When the discharge capacity of sewage is great, can effectively reduce the discharge rate of sewage, ensure that sewage can the wall whirl, avoid the water stopper to form, reduce the production of drainage noise simultaneously.

In addition, this first inlet tube 11 is the funnel-shaped structure that the upper end expands, and the lower extreme reduces for when sewage pastes the wall whirl in first inlet tube 11, its whirl radius is by big dwindling gradually, thereby has improved the discharge rate of sewage, has reduced the drainage noise simultaneously.

Referring to fig. 1 and 5, a pipe cover 16 is disposed on the upper end of the first water inlet pipe 11, and a pipe joint 17 is disposed on the pipe cover 16, and the pipe joint 17 is respectively communicated with the first water inlet pipe 11 and the upper main water discharge pipe 2. The lower end of the first water inlet pipe 11 is provided with a first vertical pipe 18, and the first vertical pipe 18 is positioned between the first water inlet pipe 11 and the lower-layer main drainage pipeline 3 and is communicated with the inside. A water stop joint 5 is arranged between the first vertical pipe 18 and the lower-layer main drainage pipeline 3, and the water stop joint 5 is communicated with the first vertical pipe 18 and the inner part of the lower-layer main drainage pipeline 3; the outer wall of the water stop section 5 is convexly provided with a surrounding water stop step 51.

From this, set up stagnant water step 51 and can be used to the sewage of collecting the pipeline infiltration, prevent that the sewage of infiltration further from permeating to in the lower floor.

In addition, referring to fig. 3 and 4, since the temperature of the sewage in the upper main drainage pipeline 2 varies according to the source, the temperature of the sewage varies, for example, the temperature of the waste water generated by showering may be higher than that of normal domestic water by approximately 30 ℃, and the temperature difference of the sewage may cause thermal expansion and cold contraction of the pipeline. Therefore, in order to reduce the influence of expansion with heat and contraction with cold on the pipeline, a telescopic joint 19 is further arranged between the first water inlet pipe 11 and the upper-layer main drainage pipeline 2, and the lower end of the telescopic joint 19 is inserted on the pipe joint 17 and is communicated with the pipe joint 17; the upper end of the telescopic joint 19 is communicated with the upper layer of the main drainage pipeline 2; the inner wall of the upper end of the telescopic joint 19 is provided with a sealing ring 193, and the sealing ring 193 is abutted with the outer wall of the upper-layer main drainage pipeline 2.

In this embodiment, the telescopic joint 19 includes an outer tube 191 and an inner tube 192 sleeved with each other, the sealing ring 193 is disposed on the inner wall of the outer tube 191, and the lower end of the inner tube 192 is inserted into the tube interface 17.

Therefore, when the pipeline expands with heat and contracts with cold, the upper-layer main drainage pipeline 2 and the outer-layer circular pipe 191 can slide relatively, so that the deformation of the pipeline caused by the change of the sewage temperature is compensated, and the maximum expansion range of the expansion joint 19 can reach 102 mm. Meanwhile, the sealing ring 193 can ensure the connection sealing property between the telescopic joint 19 and the upper-layer main drainage pipeline 2.

In addition, referring to fig. 6-7, in order to avoid the sewage convection caused by the different swirling direction of the sewage entering the first water inlet pipe 11 along the upper main water discharge pipeline 2 and the swirling direction of the sewage entering the first water inlet pipe 11 along the swirling direction of the sewage entering the second water inlet pipe 12, the single-riser system in this embodiment further comprises a baffle plate 14, and the baffle plate 14 is arranged at the communication position of the second water inlet pipe 12 and the first water inlet pipe 11. From this, through set up baffle 14 in the intercommunication department for sewage in the second inlet tube 12 can be according to the direction whirl of setting for get into first inlet tube 11, guarantees that the whirl direction of the sewage that gets into in first inlet tube 11 from second inlet tube 12 is the same with the whirl direction of the sewage in first inlet tube 11.

In addition, when the pressure of the water flow entering the first water inlet pipe 11 along the upper layer main water discharge pipeline is higher than that of the water flow entering the first water inlet pipe 11 along the second water inlet pipe 12, the sewage in the first water inlet pipe 11 can be caused to reversely flow into the second water inlet pipe 12. In order to avoid the above situation, the single riser system in this embodiment further includes a pressure stabilizing membrane 15 disposed at a communication position of the first water inlet pipe 11 and the second water inlet pipe 12, where the material of the pressure stabilizing membrane 15 is not particularly limited, and the pressure stabilizing membrane 15 in this embodiment is made of a flexible material. When the sewage in the second water inlet pipe 12 enters the first water inlet pipe 11, the pressure stabilizing film 15 does not influence the sewage to enter the first water inlet pipe 11 along the pipe wall cavity 13. When the water flow pressure in the first water inlet pipe 11 is greater than the water flow pressure in the second water inlet pipe 12, the sewage in the first water inlet pipe 11 impacts the pressure stabilizing film 15, and the pressure stabilizing film 15 can prevent the sewage in the first water inlet pipe 11 from extruding into the second water inlet pipe 12, so that the sewage can be stably discharged from the first vertical pipe 18 in a wall-attached rotational flow manner; when the water flow pressure in the first water inlet pipe 11 is equal to the water flow pressure in the second water inlet pipe 12, the pressure stabilizing membrane 15 is in a normal assembly state, and the discharge of pipeline sewage is not influenced; when the discharge pressure of water flow in first inlet tube 11 is less than the discharge pressure of water flow in second inlet tube 12, because second inlet tube 12 is the sewage that receives to come from the closestool exhaust, when the sewage discharge volume in second inlet tube 12 is great, will form the negative pressure in this second inlet tube 12, this negative pressure will be sucked this steady voltage membrane 15 and sunken towards second inlet tube 12 inboard, meanwhile, this steady voltage membrane 15 will also receive the sewage impulsive force in second inlet tube 12 and sunken to first inlet tube 11 inboard, two effort offset each other, finally make steady voltage membrane 15 be in normal assembly state, from not influencing the discharge of pipeline sewage, guarantee that sewage finally adheres to the wall stable discharge in follow first riser 18.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a special whirl single riser system, includes whirl tee bend (1) and communicates respectively upper strata main drainage pipe (2), lower floor main drainage pipe (3) and side inlet pipe way (4) of whirl tee bend (1) upper portion, lower part and lateral part, its characterized in that:

the rotational flow tee joint (1) comprises a first water inlet pipe (11) and a second water inlet pipe (12) which is connected with the side wall of the first water inlet pipe (11) and is communicated with the inside of the first water inlet pipe; the upper part of the first water inlet pipe (11) is communicated with the upper layer main drainage pipeline (2), the lower part of the first water inlet pipe (11) is communicated with the lower layer main drainage pipeline (3), and the second water inlet pipe (12) is communicated with the side water inlet pipeline (4);

the inner edge of the second water inlet pipe (12) is tangent with the inner edge of the first water inlet pipe (11);

the communication part of the second water inlet pipe (12) and the first water inlet pipe (11) is a pipe wall cavity (13) with an expanded volume;

the first water inlet pipe (11) and the second water inlet pipe (12) are both made of plastic materials.

2. The single riser system according to claim 1, wherein the first inlet conduit (11) is a funnel-like structure with a wide top and a narrow bottom.

3. The single riser system according to claim 1, further comprising a baffle (14), the baffle (14) being arranged at the connection of the second inlet conduit (12) to the first inlet conduit (11).

4. The single riser system according to claim 1, further comprising a pressure stabilizing membrane (15), the pressure stabilizing membrane (15) being arranged at the connection of the second inlet conduit (12) to the first inlet conduit (11).

5. Single riser system according to claim 4 wherein the pressure stabilizing membrane (15) is made of a flexible material.

6. The single riser system according to claim 1, wherein the first inlet conduit (11) is injection moulded in one piece with the second inlet conduit (12).

7. The single riser system as claimed in claim 1, characterized in that the first water inlet pipe (11) is provided at its upper end with a pipe cover (16), the pipe cover (16) being provided with a pipe joint (17), the pipe joint (17) being in communication with the first water inlet pipe (11) and the upper main drain pipe (2), respectively.

8. The single riser system as claimed in claim 7, further comprising a telescopic joint (19) arranged between the first water inlet pipe (11) and the upper main drainage pipeline (2), wherein the lower end of the telescopic joint (19) is inserted into the pipe joint (17) and is communicated with the pipe joint (17); the upper end of the telescopic joint (19) is communicated with the upper-layer main drainage pipeline (2); the inner wall of the upper end of the telescopic joint (19) is provided with a sealing ring (193), and the sealing ring (193) is abutted to the outer wall of the upper-layer main drainage pipeline (2).

9. The single riser system according to claim 1, characterized in that the lower end of the first water inlet pipe (11) is provided with a first riser pipe (18), and the first riser pipe (18) is located between the first water inlet pipe (11) and the lower level main drainage pipeline (3) and is communicated with the inside.

10. The single-riser system according to claim 9, wherein a water stop joint (5) is arranged between the first riser (18) and the lower-level main drainage pipeline (3), and the water stop joint (5) is communicated with the interiors of the first riser (18) and the lower-level main drainage pipeline (3); and a surrounding water stopping step (51) is convexly arranged on the outer wall of the water stopping joint (5).

Images