CN220888842U - Novel drainer - Google Patents

Abstract

The utility model discloses a novel drainer, which comprises: the side wall of the cylinder is provided with a water inlet communicated with an external structure; the sewer pipe is coaxially connected with the cylinder body, the cylinder body is communicated with the interior of the sewer pipe, and the diameter of the cylinder body is larger than that of the sewer pipe; can realize quick water drainage.

Description

Novel drainer

Technical Field

The utility model relates to the technical field of sewage equipment, in particular to a novel drainer.

Background

The drainer commonly used in the market at present only has a single pipeline in the vertical direction for drainage, the drainage speed is very slow, the drainer is limited by the pipe diameter, and the drainage speed is slower when the drainer is longer and the drainer is slower when the drainer is longer.

Disclosure of utility model

The utility model aims to provide a novel drainer which can realize rapid draining.

The novel drainer provided by the utility model comprises:

the side wall of the cylinder is provided with a water inlet communicated with an external structure;

the sewer pipe is coaxially connected with the cylinder body, the cylinder body is communicated with the interior of the sewer pipe, and the diameter of the cylinder body is larger than that of the sewer pipe;

Be fixed with the cushion cap of being connected with external structure on the barrel lateral wall, set up on the cushion cap with the water inlet intercommunication intake hole, the cushion cap is the L type, the cushion cap includes first hem and the second hem of mutually perpendicular connection, intake hole set up in the junction of first hem with the second hem.

In actual use, the water inlet of the cylinder is connected with an external structure (such as a basin) and water flows into the cylinder from the water inlet and then flows out vertically downwards through the sewer pipe.

Further, the method also comprises the following steps:

The water draining core can be movably arranged in the cylinder body up and down, the first end of the water draining core extends into the water draining pipe, the water draining core is sleeved with a rubber ring, and the diameter of the rubber ring is larger than that of the water draining pipe;

The bouncing core is arranged at the first end of the sewer core, when the second end of the sewer core is pressed vertically downwards, the rubber ring is propped against the connecting surface of the cylinder body and the sewer pipe, and the bouncing core is locked.

Further, the method also comprises the following steps:

And the overflow pipe is positioned outside the cylinder body and the sewer pipe and is connected with the cylinder body and the sewer pipe.

Further, a water storage cavity is arranged in the lower water core, and overflow holes communicated with the water storage cavity are formed in the side wall of the lower water core.

In the process of flowing into the cylinder, a part of water can be stored into the water storage cavity of the lower water core through the overflow hole, and is discharged from the overflow hole after a certain amount of water is reached.

Further, the second end of the drain core extends out of the cylinder.

Further, a pressing head is arranged at the second end of the sewer core.

Drawings

FIG. 1 is a schematic view of a novel drainer with overflow pipe according to an embodiment of the utility model;

FIG. 2 is a side view of a novel drainer according to an embodiment of the utility model;

Fig. 3 is a schematic structural diagram of a drain core with overflow holes according to an embodiment of the utility model.

In the figure, a 1-cylinder; 2-a sewer pipe; 3-draining core; 4-a rubber ring; 5-bouncing the core; 6-overflow pipe; 7-a bearing platform; 7 a-first flanging; 7 b-a second hem; 8-overflow holes.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

Referring to fig. 1, 2 and 3, there is shown a novel drainer according to the present utility model, comprising:

the cylinder body 1, the sidewall of the cylinder body 1 is provided with a water inlet communicated with an external structure;

The sewer pipe 2 is coaxially connected with the cylinder body 1, the cylinder body 1 is communicated with the inside of the sewer pipe 2, and the diameter of the cylinder body 1 is larger than that of the sewer pipe 2;

The barrel 1 is connected with external structure (such as a basin) mainly through a bearing platform 7, water flow entering is realized through a water inlet through hole, the bearing platform 7 is L-shaped, the bearing platform 7 comprises a first folded edge 7a and a second folded edge 7b which are mutually vertically connected, and the water inlet through hole is formed at the joint of the first folded edge 7a and the second folded edge 7 b.

In actual use, the water inlet of the cylinder 1 is connected with an external structure (such as a basin) and water flows into the cylinder 1 from the water inlet and then flows out vertically downwards through the sewer pipe 2, while the bearing platform 7 is suitable for the basin structure with a large-caliber water outlet, and the flow of water is enlarged by configuring the bearing platform 7 with a large-caliber water inlet through hole, so that the aim of quickly draining water is fulfilled.

Preferably, the water inlet hole is rotationally connected with a water baffle, and when water flows, the water flows flush the water baffle and enter the cylinder body 1.

The method also comprises the following steps:

The water draining core 3, the water draining core 3 can be installed in the cylinder 1 in a vertically movable way, the first end of the water draining core 3 extends into the water draining pipe 2, the water draining core 3 is sleeved with a rubber ring 4, and the diameter of the rubber ring 4 is larger than that of the water draining pipe 2; a bearing platform 7 connected with an external structure is fixed on the side wall of the cylinder body 1, and a water inlet through hole communicated with the water inlet is formed in the bearing platform 7.

The bouncing core 5 is arranged at the first end of the sewer core 3, when the second end of the sewer core 3 is pressed vertically downwards, the rubber ring 4 is abutted to the connecting surface of the cylinder body 1 and the sewer pipe 2, and the bouncing core 5 is locked;

When in actual use, the water inlet of the cylinder body 1 is connected with an external structure (such as a counter basin, etc.), water flows into the cylinder body 1 from the water inlet, then flows out vertically downwards through the sewer pipe 2, in the process, the sewer pipe 3 is pressed downwards, at the moment, the rubber ring 4 just abuts against the connecting surface of the cylinder body 1 and the sewer pipe 2, the rubber ring 4 realizes the blocking of the sewer pipe 2, because of the existence of the bouncing core 5, after the sewer pipe 3 is pressed, the bouncing core 5 is locked, water can be stored in the cylinder body 1 at the moment, when the sewer pipe 3 is pressed again, the bouncing core 5 is unlocked, the rubber ring 4 is far away from the sewer pipe 2, at the moment, the water in the cylinder body 1 can be discharged through the sewer pipe 2 to realize the sewer.

The method also comprises the following steps:

And the overflow pipe 6 is positioned outside the cylinder 1 and the sewer pipe 2 and is connected with the cylinder 1 and the sewer pipe 2.

Through pushing down water core 3, at this moment, rubber circle 4 just supports to barrel 1 and down on the junction surface of water pipe 2, and the shutoff of water pipe 2 is realized to rubber circle 4, because the existence of spring core 5, presses down water core 3 after, and spring core 5 locking, and water just can store at barrel 1 inside this moment, and after water reached certain altitude, discharge through overflow pipe 6, when pressing down water core 3 once more, spring core 5 releases the locking state, and rubber circle 4 keeps away from water pipe 2, and at this moment, the water in barrel 1 again can realize the water through water pipe 2 discharge.

The inside water storage cavity that is provided with of lower water core 3, set up on the lower water core 3 lateral wall with water storage cavity intercommunication overflow hole 8.

During the process of flowing into the cylinder 1, a part of water is stored in the water storage cavity of the lower water core 3 through the overflow hole 8, and is discharged from the overflow hole 8 after a certain amount is reached.

The second end of the drain core 3 extends outside the cylinder 1.

The second end of the sewer core 3 is provided with a pressing head.

The principle of the utility model is as follows:

In actual use, the water inlet of the cylinder 1 is connected with an external structure (such as a basin) and water flows into the cylinder 1 from the water inlet and then flows out vertically downwards through the sewer pipe 2, while the bearing platform 7 is suitable for the basin structure with a large-caliber water outlet, and the flow of water is enlarged by configuring the bearing platform 7 with a large-caliber water inlet through hole, so that the aim of quickly draining water is fulfilled.

The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application, which are intended to be comprehended within the scope of the present application.

Claims (6)

1. A novel drainer, comprising:

the side wall of the cylinder is provided with a water inlet communicated with an external structure;

the sewer pipe is coaxially connected with the cylinder body, the cylinder body is communicated with the interior of the sewer pipe, and the diameter of the cylinder body is larger than that of the sewer pipe;

Be fixed with the cushion cap of being connected with external structure on the barrel lateral wall, set up on the cushion cap with the water inlet intercommunication intake hole, the cushion cap is the L type, the cushion cap includes first hem and the second hem of mutually perpendicular connection, intake hole set up in the junction of first hem with the second hem.

2. The novel drainer according to claim 1, further comprising:

The water draining core can be movably arranged in the cylinder body up and down, the first end of the water draining core extends into the water draining pipe, the water draining core is sleeved with a rubber ring, and the diameter of the rubber ring is larger than that of the water draining pipe;

The bouncing core is arranged at the first end of the sewer core, when the second end of the sewer core is pressed vertically downwards, the rubber ring is propped against the connecting surface of the cylinder body and the sewer pipe, and the bouncing core is locked.

3. The novel drainer according to claim 2, further comprising:

And the overflow pipe is positioned outside the cylinder body and the sewer pipe and is connected with the cylinder body and the sewer pipe.

4. The novel drainer according to claim 3, wherein a water storage cavity is provided inside the drainer core, and overflow holes communicated with the water storage cavity are formed in the sidewall of the drainer core.

5. The novel drainer of claim 4, wherein the second end of said drain core extends outside of said barrel.

6. The novel drainer according to claim 5, wherein the second end of the drain core is provided with a pressing head.