CN219794111U - Closestool using rotational flow type flushing water flow - Google Patents

Abstract

The utility model discloses a closestool using rotational flow type flushing water flow, wherein a water discharge surface, a first water collecting part, a second water collecting part and a third water collecting part are arranged in a collecting tank and are respectively positioned at the left rear corner, the right rear corner and the front upper part of the collecting tank; the bottom of the water tank is provided with a drainage groove; the front end of the drainage groove is respectively communicated with the rear end of the first water collecting part and the rear end of the second water collecting part, and the third water collecting part is communicated with the front end of the drainage groove through the first water collecting part; the front end surface of the first water collecting part is provided with a first water spraying hole, the left end surface of the second water collecting part is provided with a second water spraying hole, and the right end surface of the third water collecting part is provided with a third water spraying hole; the bottom edges of the first water spraying hole, the second water spraying hole and the third water spraying hole are distributed on the water draining surface at intervals. The flushing water sprayed from the first water spraying hole, the second water spraying hole and the third water spraying hole is flushed towards the collecting surface along the water discharging surface, so that water flow which rotates downwards along the anticlockwise direction is formed on the collecting surface to generate powerful impact, and the cleanliness of the flushing collecting surface is improved.

Description

Closestool using rotational flow type flushing water flow

Technical Field

The utility model relates to the technical field of bathroom products, in particular to a closestool using rotational flow type flushing water flow.

Background

In order to ensure that the flushing water of the closestool can effectively cover the collecting surface when flushing the collecting surface of excrement, the top of the closestool in the prior art is provided with an annular water inlet cavity distributed along the edge of the closestool, the inner side surface of the annular water inlet cavity is provided with a plurality of flushing holes which are arranged at intervals, and flushing water output by the flushing holes forms a water curtain to flush the collecting surface of excrement.

In the process that water in the water tank is conveyed to the annular water inlet cavity, the friction between the conveyed water and the annular water inlet cavity consumes part of conveying water pressure, and in addition, the quantity of flushing holes distributed on the bottom surface of the annular water inlet cavity is large, so that the water pressure after the water in the annular water inlet cavity is dispersed is obviously reduced, the water pressure for flushing the excrement collecting surface is insufficient, dirt is still easy to remain on the excrement collecting surface after flushing, and the defect of low cleanliness of flushing exists.

Disclosure of Invention

In view of the above-mentioned drawbacks, an object of the present utility model is to provide a toilet bowl using a swirling type flushing water flow, which is provided with three flushing holes distributed in different directions on the same horizontal plane, and flushing water discharged from the three flushing holes is impacted by the swirling water flow on a collecting surface to clean excrement, thereby improving cleanliness of the collecting surface after flushing the excrement.

To achieve the purpose, the utility model adopts the following technical scheme:

the closestool comprises a closestool seat and a closestool cover, wherein the closestool seat is integrally formed and comprises a water tank and a collecting tank, the water tank is positioned above the rear part of the collecting tank, a collecting groove which is sunken downwards is arranged in the middle part of the collecting tank, the wall surface of the collecting groove is an annular collecting surface which extends downwards, and a flushing valve is arranged in the water tank;

the collecting tank is internally provided with a water discharge surface, a first water collecting part, a second water collecting part and a third water collecting part;

the first water collecting part, the second water collecting part and the third water collecting part are respectively positioned at the left rear corner, the right rear corner and the front upper part of the collecting tank; the bottom of the water tank is provided with a drainage groove, and the top of the drainage groove is communicated with the water outlet of the flushing valve; the front end of the drainage groove is respectively communicated with the rear end of the first water collecting part and the rear end of the second water collecting part, and the third water collecting part is communicated with the front end of the drainage groove through the first water collecting part;

the water draining surface is an annular horizontal surface, and the top edge of the collecting tank is connected with the inner annular edge of the water draining surface; the top of the first water collecting part, the top of the second water collecting part and the top of the third water collecting part are all protruded upwards from the water draining surface; the outer wall surface of the first water collecting part, the outer wall surface of the second water collecting part and the outer wall surface of the third water collecting part are respectively connected with the outer annular edge of the water draining surface; the front end face of the first water collecting part is provided with a first water spraying hole, the left end face of the second water collecting part is provided with a second water spraying hole, and the right end face of the third water collecting part is provided with a third water spraying hole; the bottom edges of the first water spraying holes, the second water spraying holes and the third water spraying holes are distributed on the water draining surface at intervals.

Further, the collecting tank is also provided with a pressurizing water channel;

the rear end of the pressurizing water channel is communicated with the outer side wall of the first water collecting part, and the front end of the pressurizing water channel is communicated with the rear end of the third water collecting part;

the outer wall surface of the pressurizing water channel is connected with the outer annular edge of the drainage surface, and the inner wall of the pressurizing water channel is connected with the inner wall of the collecting tank into a whole;

the middle part of the pressurizing water channel is a pipeline which is gradually narrowed from back to front.

Further, the collecting surface and the draining surface are coated with anti-sticking glaze.

Further, the joint of the inner annular edge of the drainage surface and the top edge of the collection surface is an arc transition surface.

Further, a sewage draining groove is formed in the bottom of the collecting tank;

a water flushing port is formed in the front groove wall of the sewage draining groove and is communicated with the rear end of the drainage groove through a water auxiliary channel;

the back cell wall of blowdown groove has seted up the drain, the drain is linked together with the blow off pipeline through siphon blow off pipe.

Further, the collecting tank is also provided with a cover plate;

the cover plate is located the top of collecting vat, the bottom surface of cover plate with the top of first water collecting part, the top of second water collecting part and the top of third water collecting part are connected as an organic wholely, the cover plate cover in the top of drainage face.

The technical scheme of the utility model has the beneficial effects that: the closestool using the rotational flow type flushing water flow comprises a water tank and a collecting tank which are integrally formed, wherein the collecting tank is provided with a water discharge surface, a first water collecting part, a second water collecting part and a third water collecting part; the front end surface of the first water collecting part is provided with a first water spraying hole, the left end surface of the second water collecting part is provided with a second water spraying hole, and the right end surface of the third water collecting part is provided with a third water spraying hole; the rear end of the first water collecting part and the rear end of the second water collecting part are both directly connected with the front end of the water drainage groove, no conveying water channel is arranged between the rear ends of the first water collecting part and the rear end of the second water collecting part, water flow conveyed to the first water collecting part and the second water collecting part can be effectively prevented from being reduced in water pressure due to friction in the conveying water channel, so that the water flow of flushing water output by the first water collecting part and the second water collecting part and used for flushing the collecting surface can keep higher water pressure, the bottom edges of the first water spraying holes, the bottom edges of the second water spraying holes and the bottom edges of the third water spraying holes are distributed on the water drainage surface at intervals, the opening of the first water spraying holes faces forwards, the opening of the second water spraying holes faces towards the left side and the opening of the third water spraying holes towards the right side, flushing water sprayed from the first water spraying holes, the second water spraying holes and the third water spraying holes can be effectively prevented from respectively flushing towards the collecting surface along the water drainage surface, water flow which rotates downwards in the anticlockwise direction is formed on the collecting surface, centrifugal force is generated by the water flow which slides downwards, and strong impact on the collecting surface can be effectively improved.

Drawings

FIG. 1 is a schematic view of a toilet seat according to an embodiment of the toilet using a swirling flush water flow according to the present utility model;

FIG. 2 is a schematic cross-sectional view of the three water collecting parts of the toilet using the cyclone-type flushing water flow according to the present utility model in a horizontal direction;

FIG. 3 is a schematic view of the water flow distribution of the toilet using a swirling flush water flow according to the present utility model;

wherein: a toilet seat 1; a toilet lid 2; a flush valve 3; a water tank 11; a collection tank 12; a drain tank 121; a collection tank 122; pressurized waterway 124; a drainage surface 123; a first water collecting part 125; a second water collecting part 126; a third water collecting part 127; an arcuate transition surface 128; a cover plate 129; a drain groove 111; flush port 1211; a drain 1212; a collection surface 1221; a first water spray hole 1251; a second water jet hole 1261; third water jet hole 1271.

Detailed Description

The technical scheme of the utility model is further described below by means of specific embodiments in combination with the accompanying drawings 1-3.

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, so to speak, the two elements are communicated internally. It will be understood by those of ordinary skill in the art that the terms described above are in the specific sense of the present utility model.

A toilet bowl using rotational flow type flushing water flow, the toilet bowl comprises a toilet seat 1 and a toilet cover 2, the toilet seat 1 integrally formed comprises a water tank 11 and a collecting tank 12, the water tank 11 is positioned above the rear part of the collecting tank 12, a collecting groove 122 which is sunken downwards is arranged in the middle part of the collecting tank 12, the wall surface of the collecting groove 122 is an annular collecting surface 1221 which extends downwards, and a flushing valve 3 is arranged in the water tank 11;

the collecting tank 12 is provided with a water discharge surface 123, a first water collecting part 125, a second water collecting part 126 and a third water collecting part 127;

the first, second and third water collecting parts 125, 126 and 127 are respectively located at the left rear corner, the right rear corner and the front upper side of the collecting tank 122; the bottom of the water tank 11 is provided with a drainage groove 111, and the top of the drainage groove 111 is communicated with the water outlet of the flushing valve 3; the front end of the drainage groove 111 is respectively communicated with the rear ends of the first water collecting part 125 and the second water collecting part 126, and the third water collecting part 127 is communicated with the front end of the drainage groove 111 through the first water collecting part 125;

the water draining surface 123 is an annular horizontal surface, and the top edge of the collecting groove 122 is connected with the inner annular edge of the water draining surface 123; the top of the first water collecting part 125, the top of the second water collecting part 126 and the top of the third water collecting part 127 protrude upward from the water draining surface 123; the outer wall surface of the first water collecting part 125, the outer wall surface of the second water collecting part 126 and the outer wall surface of the third water collecting part 127 are respectively connected with the outer circumferential edge of the water discharging surface 123; a first water spraying hole 1251 is formed in the front end surface of the first water collecting part 125, a second water spraying hole 1261 is formed in the left end surface of the second water collecting part 126, and a third water spraying hole 1271 is formed in the right end surface of the third water collecting part 127; the bottom edge of the first water spray hole 1251, the bottom edge of the second water spray hole 1261 and the bottom edge of the third water spray hole 1271 are spaced apart from each other on the water discharge surface 123.

Fig. 1 and 2 are schematic views of the structure of a toilet bowl using a cyclone type flushing water flow according to the present utility model, and fig. 3 is a schematic view of the water flow distribution of flushing water of the toilet bowl using a cyclone type flushing water flow according to the present utility model.

According to the toilet using the spiral-flow type flushing water flow, the rear end of the first water collecting part 125 and the rear end of the second water collecting part 126 are directly communicated with the front end of the water discharge groove 111, no conveying water channel is arranged between the rear ends of the first water collecting part 125 and the second water collecting part 126, water pressure reduction of the water flow in the conveying water channel caused by friction of the water flow conveyed to the first water collecting part 125 and the second water collecting part 126 can be effectively avoided, so that flushing water flow output by the first water collecting part 125 and the second water collecting part 126 and used for flushing the collecting surface 1221 keeps high water pressure, the bottom edges of the first water spraying holes 1251, the bottom edges of the second water spraying holes 1261 and the bottom edges of the third water spraying holes 1271 are distributed on the water discharge surface 123 at intervals, the openings of the first water spraying holes 1251 face forward, the openings of the second water spraying holes 1261 face to the left and the openings of the third water spraying holes 1261 face to the right, and flushing water sprayed out of the first water spraying holes 1251 and the second water spraying holes 1261 respectively face the collecting surface 1221 in an unobstructed manner, the flushing water flow on the collecting surface 123 and the collecting surface 1221 is enabled to be enabled to form a high-speed water pressure, and the water flow can be generated in a rotary direction, and the water flow can further impact the collecting surface 1221 is enabled to generate a high-clean water, and clean water can be generated, and then the clean water can effectively impact the water surface and the water surface is generated.

Further, the collecting tank 12 is also provided with a pressurizing water channel 124;

the rear end of the pressurizing water channel 124 is communicated with the outer side wall of the first water collecting part 125, and the front end of the pressurizing water channel 124 is communicated with the rear end of the third water collecting part 127;

the outer wall surface of the pressurization water channel 124 is connected with the outer annular edge of the water draining surface 123, and the inner wall of the pressurization water channel 124 is connected with the inner wall of the collecting tank 12 into a whole;

the middle part of the pressurized water channel 124 is a pipeline which gradually narrows from back to front.

As shown in fig. 1 and 2, the pressurized water channel 124 can raise the water pressure delivered to the third water collecting portion 127, so as to be beneficial to improving the impact force of the flushing water sprayed from the third water spraying hole 1271, further improving the flushing effect of the flushing water flow sprayed from the third water spraying hole 1271, and improving the cleanliness of the collecting surface 1221 after flushing.

Further, both the collection surface 1221 and the drainage surface 123 are coated with an anti-stick glaze.

The collection surface 1221 and the drainage surface 123 coated with the anti-sticking glaze have the effect of reducing the adhesion of the dirt of the excrement, and can further improve the cleanliness of the collection surface 1221 after washing.

Further, the junction between the inner edge of the drainage surface 123 and the top edge of the collection surface 1221 is an arc-shaped transition surface 128.

As shown in fig. 2, the flushing water sprayed from the first water spraying holes 1251, the second water spraying holes 1261 and the third water spraying holes 1271 can smoothly slide down the arc-shaped transition surface 128 to the collecting surface 1221, and the phenomenon that no water flow washes the local area at the top edge of the collecting surface 1221 to remain dirt can be avoided.

Further, a drain tank 121 is arranged at the bottom of the collecting tank 12;

a water flushing port 1211 is formed in the front wall of the sewage draining tank 121, and the water flushing port 1211 is communicated with the rear end of the water draining tank 111 through a water supplying channel;

the rear wall of the drain tank 121 is provided with a drain outlet 1212, and the drain outlet 1212 is communicated with a drain pipe through a siphon drain pipe.

As shown in fig. 1 and 2, the water inputted through the flushing port 1211 washes the drain tank 121, so that the phenomenon that excrement remains in the drain tank 121 can be avoided, and a better drain effect can be obtained.

Further, the collecting tank 12 is also provided with a cover plate 129;

the cover plate 129 is located at the top of the collecting tank 12, the bottom surface of the cover plate 129 is connected with the top of the first water collecting part 125, the top of the second water collecting part 126 and the top of the third water collecting part 127 into a whole, and the cover plate 129 covers above the water draining surface 123.

As shown in fig. 1, the top surface of the cover plate 129 is used for supporting a toilet seat, and the cover plate 129 covers the upper portion of the water discharge surface 123, so that not only can external dust or foreign matters be prevented from falling on the water discharge surface 123 to affect the cleanliness of the water discharge surface 123, but also the aesthetic degree of the toilet using the spiral-flow type flushing water flow can be increased.

In summary, as shown in fig. 1-3, the toilet bowl using the cyclone type flushing water flow according to the embodiment of the utility model includes the integrally formed water tank 11 and the collecting tank 12, and the collecting tank 12 is provided with the water draining surface 123, the first water collecting portion 125, the second water collecting portion 126 and the third water collecting portion 127; the front end surface of the first water collecting part 125 is provided with a first water spraying hole 1251, the left end surface of the second water collecting part 126 is provided with a second water spraying hole 1261, and the right end surface of the third water collecting part 127 is provided with a third water spraying hole 1271; the rear end of the first water collecting part 125 and the rear end of the second water collecting part 126 are both directly connected with the front end of the water draining groove 111, no water conveying channel is arranged between the rear ends, water flows conveyed to the first water collecting part 125 and the second water collecting part 126 can be effectively prevented from being reduced in water pressure due to friction in the water conveying channel, so that flushing water flows output by the first water collecting part 125 and the second water collecting part 126 and used for flushing the collecting surface 1221 keep high water pressure, the bottom edges of the first water spraying holes 1251, the bottom edges of the second water spraying holes 1261 and the bottom edges of the third water spraying holes 1271 are distributed on the water draining surface 123 at intervals, the openings of the first water spraying holes 1251 face forward, the openings of the second water spraying holes 1261 face to the left and the openings of the third water spraying holes 1271 face to the right, flushing water sprayed from the first water spraying holes 1251, the second water spraying holes 1261 and the third water spraying holes 1261 respectively flow towards the collecting surface 1221 along the water draining surface 123 without barriers, the flushing water flows downwards in a counter-clockwise direction on the collecting surface 1221, the water flows downwards in a rotating direction, the water flows downwards, the bottom edges of the first water spraying holes 1261 are generated in a counter-clockwise direction, the water flow direction is generated, the water flow flows is generated, and the water flow can effectively impact the collecting surface 1221, and high cleaning effect can be generated, and clean, and accordingly, the cleaning effect can be improved.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (6)

1. A toilet bowl using rotational flow type flushing water flow comprises a toilet bowl seat and a toilet bowl cover, wherein the toilet bowl seat comprises a water tank and a collecting tank, the water tank is positioned above the rear of the collecting tank, a collecting tank which is sunken downwards is arranged in the middle of the collecting tank, the wall surface of the collecting tank is an annular collecting surface which extends downwards, and a flushing valve is arranged in the water tank, and the toilet bowl is characterized in that:

the collecting tank is internally provided with a water discharge surface, a first water collecting part, a second water collecting part and a third water collecting part;

the first water collecting part, the second water collecting part and the third water collecting part are respectively positioned at the left rear corner, the right rear corner and the front upper part of the collecting tank; the bottom of the water tank is provided with a drainage groove, and the top of the drainage groove is communicated with the water outlet of the flushing valve; the front end of the drainage groove is respectively communicated with the rear end of the first water collecting part and the rear end of the second water collecting part, and the third water collecting part is communicated with the front end of the drainage groove through the first water collecting part;

the water draining surface is an annular horizontal surface, and the top edge of the collecting tank is connected with the inner annular edge of the water draining surface; the top of the first water collecting part, the top of the second water collecting part and the top of the third water collecting part are all protruded upwards from the water draining surface; the outer wall surface of the first water collecting part, the outer wall surface of the second water collecting part and the outer wall surface of the third water collecting part are respectively connected with the outer annular edge of the water draining surface; the front end face of the first water collecting part is provided with a first water spraying hole, the left end face of the second water collecting part is provided with a second water spraying hole, and the right end face of the third water collecting part is provided with a third water spraying hole; the bottom edges of the first water spraying holes, the second water spraying holes and the third water spraying holes are distributed on the water draining surface at intervals.

2. The toilet using a swirling flush water flow according to claim 1, wherein the collecting tank is further provided with a pressurized water channel;

the rear end of the pressurizing water channel is communicated with the outer side wall of the first water collecting part, and the front end of the pressurizing water channel is communicated with the rear end of the third water collecting part;

the outer wall surface of the pressurizing water channel is connected with the outer annular edge of the drainage surface, and the inner wall of the pressurizing water channel is connected with the inner wall of the collecting tank into a whole;

the middle part of the pressurizing water channel is a pipeline which is gradually narrowed from back to front.

3. The toilet using a swirling flush water flow according to claim 1, wherein the collecting surface and the draining surface are both coated with an anti-sticking glaze.

4. The toilet using a swirling flush flow according to claim 1, wherein the junction of the inner rim of the drainage surface and the top edge of the collection surface is an arcuate transition surface.

5. The toilet using a swirling flow type flushing water stream according to claim 1, wherein a sewage drain tank is provided at a bottom of the collecting tank;

a water flushing port is formed in the front groove wall of the sewage draining groove and is communicated with the rear end of the drainage groove through a water auxiliary channel;

the back cell wall of blowdown groove has seted up the drain, the drain is linked together with the blow off pipeline through siphon blow off pipe.

6. The toilet using a swirling flush water flow according to claim 1, wherein the collecting tank is further provided with a cover plate;

the cover plate is located the top of collecting vat, the bottom surface of cover plate with the top of first water collecting part, the top of second water collecting part and the top of third water collecting part are connected as an organic wholely, the cover plate cover in the top of drainage face.