CN219527848U - High-efficient squatting pan that washes - Google Patents

Abstract

The utility model discloses a high-efficiency flushing squatting pan, which relates to the technical field of squatting pans, wherein water flow diversion channels are arranged on two sides of a water inlet of the squatting pan and are communicated with a water inlet, a water flow guide step is arranged on one side, close to an opening, of the water flow diversion channels, an arc-shaped diversion block for guiding water in the water flow diversion channels into the water flow guide step is arranged on the upper side of a flushing basin body, a water through hole for enabling part of water in the water flow diversion channels to continuously flow in the original direction is arranged above the arc-shaped diversion block, water passing through the water through hole is gathered in a water outlet cavity, and the water outlet cavity is provided with a water outlet for enabling water in the water outlet cavity to enter the flushing basin body. Utilize rivers reposition of redundant personnel passageway, arc reposition of redundant personnel piece and rivers direction step's cooperation for when intaking and wash out, holistic washing dynamics is strong, and the washing covers comprehensively, and the bath effect is better.

Description

High-efficient squatting pan that washes

Technical Field

The utility model relates to the technical field of squatting pans, in particular to a high-efficiency flushing squatting pan.

Background

With the development of society and the progress of civilization, various sanitary wares walk into ordinary families, such as bathtub, intelligent closestool, squatting pan and the like, and the most commonly used intelligent closestool and squatting pan are the intelligent closestool and squatting pan, wherein the squatting pan is widely used in public toilets or remote areas with low cost and good flushing effect. The existing squatting pan is generally characterized in that a water distribution pipeline and a water distribution hole are arranged at a water inlet to convey water flow into a flushing basin body for flushing, and the squatting pan is easy to manufacture in a process, but has the following defects:

1. the water distribution pipeline and the water distribution holes are utilized to guide water flow to wash, but the washing pressure is easy to be insufficient, and the washing cleanliness is insufficient. 2. Water distribution holes are needed, so that the process procedures are more, and the punching operation has higher technical requirements for workers. 3. After water passes through the water distribution holes of the water distribution pipeline, the potential energy loss of the water flow is serious, and the water utilization rate is low.

So the existing squatting pan has a larger improvement space.

Disclosure of Invention

Aiming at the prior art, the utility model aims to provide the high-efficiency flushing squatting pan, so that the overall flushing force is strong, the flushing coverage is comprehensive and the flushing effect is better when water flows down.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a high-efficient squatting pan that washes, includes pedal and the basin body that washes, pedal cover in the upper side of the basin body that washes, pedal leaves the opening that is arranged in the excrement and urine to fall into the basin body that washes, pedal's one end is provided with the inlet opening, the basin bottom that washes the basin body is provided with the wash port, the both sides of inlet opening all are provided with rivers reposition of redundant personnel passageway, rivers reposition of redundant personnel passageway with the inlet opening intercommunication, rivers reposition of redundant personnel passageway is provided with rivers direction step near open-ended one side, the upper side of the basin body that washes is provided with the arc reposition of redundant personnel piece that is arranged in leading in rivers reposition of redundant personnel passageway water flow direction step department, arc reposition of redundant personnel piece top is provided with the limbers that are arranged in making part water in the rivers reposition of redundant personnel passageway continue to flow according to the direction, through the water of limbers gathers in the apopore, the apopore is located the one end that the basin kept away from the inlet opening is washed to the basin body, the apopore is provided with the delivery port that is arranged in making the water in the apopore to wash chamber.

Through adopting above-mentioned technical scheme, rivers get into from the inlet opening, the direction flow of rethread rivers reposition of redundant personnel passageway towards the water cavity, until hitting the arc reposition of redundant personnel piece, at this moment a part of water flows to rivers direction step department under the direction effect of arc reposition of redundant personnel piece, follow rivers direction step and flow on one side, flow from rivers direction step upward to wash away the medial surface of the basin body and wash away, and another part of water overflows the arc reposition of redundant personnel piece and gets into the apopore, the water through the apopore finally gathers in the apopore, then flow out from the delivery port, flow to wash away the medial surface of the basin body and wash away. The squatting pan structure which utilizes the arc-shaped flow dividing blocks to divide and does not have water distribution holes can retain potential energy of water flow to a greater extent and ensure that water flow is uniformly distributed, thereby improving the flushing effect of the squatting pan.

Further, the upper side of the flushing basin body is provided with a U-shaped water channel wall which is horizontally arranged, the U-shaped water channel wall surrounds a basin opening of the flushing basin body, the U-shaped water channel wall faces the water outlet cavity, and the upper side of the flushing basin body, the U-shaped water channel wall and the pedal are enclosed to form the water flow diversion channel.

Through adopting above-mentioned technical scheme, water can hit on U type water course wall at first after getting into from the inlet port, takes place the reposition of redundant personnel phenomenon, and water can equally divide into two parts, and one part water flows along U type water course wall towards the left side of washing away the basin body, then flows along U type water course wall towards the direction that is close to the water cavity, and another part water flows along U type water course wall towards the right side of washing away the basin body, then flows along U type water course wall towards the direction that is close to the water cavity. The U-shaped water channel wall, the upper side surface of the flushing basin body and the water flow diversion channel formed by the pedal are utilized, the modeling is simple, the manufacturing process is simple, the cost is reduced, and meanwhile, the water flow potential energy is reserved.

Further, a gap is reserved between the end, facing the arc-shaped flow distribution block, of the U-shaped water channel wall, one end of the arc-shaped flow distribution block extends into the water flow distribution channel, and the other end of the arc-shaped flow distribution block extends towards the water flow guide step.

Through adopting above-mentioned technical scheme, rivers can hit on the arc reposition of redundant personnel piece when moving along U type water course wall towards the direction that is close to the water cavity, and some water in the rivers reposition of redundant personnel passageway can flow to the rivers guide step along the arc reposition of redundant personnel piece.

Further, the underside of the pedal is spaced apart from the upper side of the arc-shaped diverting block, thereby forming a water through hole.

By adopting the technical scheme, the water through holes are formed by utilizing the interval between the pedal and the arc-shaped flow dividing block, independent punching is not needed, and the manufacturing process is simplified.

Further, the water flow guiding step surrounds the basin opening of the flushing basin body.

By adopting the technical scheme, when water enters the inner side surface of the flushing basin body through the water flow guide step guide, the inner side surface of the flushing basin body is covered widely, and the flushing effect is better.

Further, the upper side of the flushing basin body is provided with a U-shaped cavity wall which is horizontally placed, the U-shaped cavity wall surrounds the basin opening of the flushing basin body, the U-shaped cavity wall faces the water inlet, and the upper side of the flushing basin body, the U-shaped cavity wall, the arc-shaped split blocks and the pedal are enclosed to form the water outlet cavity.

Through adopting above-mentioned technical scheme, utilize the play water cavity that the upper side of washing basin body, U die cavity wall, arc reposition of redundant personnel piece and trample enclose to close and form, simple structure and make conveniently.

Further, the underside of the pedal is spaced from the upper side of the U-shaped cavity wall by a distance to form a water outlet.

By adopting the technical scheme, the water outlet formed by the pedal and the U-shaped cavity wall at intervals is utilized, independent punching is not needed, the manufacturing process is simplified, and because water is discharged from the water outlet formed by the pedal and the U-shaped cavity wall at intervals instead of punching, the blocking effect of the cavity wall is reduced, and the potential energy of water is larger when water is discharged.

Further, the space of the water outlet cavity far away from the water outlet is larger than the space of the water outlet cavity near the water outlet.

By adopting the technical scheme, when water overflows the arc-shaped flow dividing block and enters the water outlet cavity, water can be continuously gathered in the water outlet cavity, and because the space of the water outlet cavity at the position far away from the water outlet is larger than the space of the water outlet cavity at the position close to the water outlet, before water flows into the flushing basin body from the water outlet, the water flows into the smaller space from the larger space, and in the process, the water can continuously accumulate pressure and potential energy until being sprayed out from the water outlet. The structure ensures that the pressure is larger and the scouring effect is better when water flows out from the water outlet.

Further, a baffle plate for shielding the water outlet is arranged on one side of the pedal, facing towards the basin opening of the flushing basin body, and the baffle plate is close to the water outlet.

By adopting the technical scheme, the splash phenomenon of water flowing out of the water outlet can be reduced by the arrangement of the baffle.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The water flow is guided to each part of the flushing basin body and flows from the inner side surface of the flushing basin body to be flushed by utilizing the cooperation among the U-shaped water channel wall, the arc-shaped flow dividing block, the water flow guiding step, the U-shaped cavity wall, the water outlet cavity and the water outlet. (2) The setting of water outlet cavity and delivery port is favorable to gathering potential energy for flow direction from the delivery port to wash out basin internal side and utilize the block to carry out pressure release and reposition of redundant personnel, utilize the reposition of redundant personnel piece to carry the squatting pan medial surface comprehensively with water, carry out the full face to the squatting pan medial surface and wash out, its washing dynamics is strong, and it is effectual to wash out.

Drawings

FIG. 1 is an overall schematic of the present utility model;

FIG. 2 is an overall schematic view of the pedal of the present utility model;

FIG. 3 is an overall schematic view of the scouring bowl of the present utility model;

FIG. 4 is a cross-sectional view of the present utility model highlighting the water diversion channel and water outlet chamber;

FIG. 5 is a cross-sectional view showing a water through hole according to the present utility model;

fig. 6 is a cross-sectional view of the utility model highlighting a water outlet.

Reference numerals: 1. stepping on the pedal; 2. an opening; 3. flushing the basin body; 4. a water inlet hole; 5. a drain hole; 6. a water flow diversion channel; 7. a water flow guiding step; 8. u-shaped water channel walls; 9. a water outlet cavity; 10. an arc-shaped shunt block; 11. a water through hole; 12. a water outlet; 13. u-shaped cavity wall; 14. and a baffle.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings and examples.

It is to be understood that the described embodiments are preferred embodiments of the utility model and should not be taken as excluding other embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without creative efforts, are within the protection scope of the present utility model.

The terms "first," "second," or "third," etc. are used herein to distinguish between different objects and not to describe a particular sequence.

The use of directional terms such as "upper", "lower", "left", "right", etc. in accordance with the present utility model are based on the directional and positional relationships shown in the drawings and are merely for convenience of description and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a specific orientation or be constructed and operated in a specific orientation, and thus should not be construed to limit the specific scope of the present utility model.

Referring to fig. 1 to 5, the high-efficiency flushing squatting pan comprises a pedal 1 and a flushing basin body 3, wherein the pedal 1 covers the upper side surface of the flushing basin body 3, the pedal 1 is provided with an opening 2 for excrement to fall into the flushing basin body 3, one end of the pedal 1 is provided with a water inlet 4, the basin bottom of the flushing basin body 3 is provided with a water drain hole 5, both sides of the water inlet are provided with water flow diversion channels 6, the water flow diversion channels 6 are communicated with the water inlet 4, the water flow diversion channels 6 are essentially formed by a U-shaped water channel wall 8 fixedly connected to the upper side surface of the flushing basin body 3 and horizontally placed around the basin mouth of the flushing basin body 3, the upper side surface of the flushing basin body 3 and the pedal 1 in a surrounding mode, the U-shaped water channel wall 8 faces a water outlet cavity 9, one side of the water flow diversion channels 6 close to the opening 2 is fixedly connected with a guide step, and the water flow guide step surrounds the basin mouth of the flushing basin body 3. The upper side face of the flushing basin body 3 is fixedly connected with an arc-shaped diversion block 10 used for guiding water in the water flow diversion channel 6 into a water flow guiding step, a gap is reserved between one end of the U-shaped water channel wall 8, which faces the arc-shaped diversion block 10, and the arc-shaped diversion block 10, one end of the arc-shaped diversion block 10 extends into the water flow diversion channel 6, and the other end of the arc-shaped diversion block 10 extends into the water flow guiding step. A water through hole 11 for enabling part of water in the water flow diversion channel 6 to continuously flow in the original direction is arranged above the arc diversion block 10, and the water through hole 11 is formed by that the lower side surface of the pedal 1 is not contacted with the upper side surface of the arc diversion block 10, and one end distance is arranged between the lower side surface and the upper side surface of the arc diversion block. The water passing through the water through holes 11 finally gathers in the water outlet cavity 9, the water outlet cavity 9 is positioned at one end of the flushing basin body 3 far away from the water inlet hole 4, the water outlet cavity 9 is provided with a water outlet 12 for enabling the water in the water outlet cavity 9 to enter the flushing surface at the inner side of the flushing basin body 3, and the water outlet 12 is formed by the fact that the lower side surface of the pedal plate 1 is not contacted with the upper side surface of the U-shaped cavity wall 13, and one end distance is reserved.

When flushing, water enters from the water inlet hole 4, firstly collides with the U-shaped water channel wall 8, a diversion phenomenon occurs, the water is equally divided into two parts, one part of water flows along the U-shaped water channel wall 8 towards the left side of the basin mouth of the flushing basin body 3, then flows along the U-shaped water channel wall 8 towards the water outlet cavity 9 until colliding with the arc diversion block 10 on the left side of the basin mouth of the flushing basin body 3, and the other part of water flows along the U-shaped water channel wall 8 towards the right side of the basin mouth of the flushing basin body 3, and then flows along the U-shaped water channel wall 8 towards the water outlet cavity 9 until colliding with the arc diversion block 10 on the right side of the basin mouth of the flushing basin body 3. The water which collides with the arc-shaped flow dividing block 10 is divided into two parts again, one part of water flows to the water flow guiding step under the guiding action of the arc-shaped flow dividing block 10 and flows along one side of the water flow guiding step, the water flows to the inner side surface of the flushing basin body 3 from the water flow guiding step to flush, the other part of water flows to the water through holes 11 after flowing through the arc-shaped flow dividing block 10, finally, the water flowing through the water through holes 11 is converged in the water outlet cavity 9, and flows out from the water outlet 12 to flush the inner side surface of the flushing basin body 3.

Referring to fig. 3, 4, 5 and 6, in order to simplify the structure of the water outlet cavity 9 and make the manufacture easier, a horizontally placed U-shaped cavity wall 13 is fixedly connected to the upper side surface of the flushing basin 3, the U-shaped cavity wall 13 surrounds the basin mouth of the flushing basin 3 and makes the U-shaped cavity wall 13 face the water inlet hole 4, and the U-shaped cavity wall 13, the upper side surface of the flushing basin 3, the arc-shaped split block 10 and the pedal 1 enclose to form the water outlet cavity 9.

Referring to fig. 6, in order to make the potential energy of water larger and the flushing effect better when water flows out from the water outlet 12 for flushing, the space of the water outlet cavity 9 can be designed to be larger, the space of the water outlet cavity 9 away from the water outlet 12 is enlarged, the space of the water outlet cavity 9 close to the water outlet 12 is reduced, and the space of the water outlet cavity 9 away from the water outlet 12 is larger than the space of the water outlet cavity 9 close to the water outlet 12.

Meanwhile, in order to reduce the splashing phenomenon when water flows out from the water outlet 12, a baffle plate 14 for shielding the water outlet 12 can be fixedly connected to one side of the pedal 1 facing the basin mouth of the flushing basin body 3, and the baffle plate 14 is close to the water outlet 12.

Claims (9)

1. The utility model provides a high-efficient squatting pan that washes, includes pedal (1) and washes out basin body (3), pedal (1) cover in wash out the upside of basin body (3), pedal (1) leave and be arranged in the opening (2) that the excrement and urine fell into wash out basin body (3), pedal (1) one end is provided with inlet opening (4), wash out the basin bottom of basin body (3) and be provided with wash out water hole (5), a serial communication port, both sides of inlet opening all are provided with rivers reposition of redundant personnel passageway (6), rivers reposition of redundant personnel passageway (6) with inlet opening (4) intercommunication, one side that rivers reposition of redundant personnel passageway (6) are close to opening (2) is provided with rivers guide step (7), the upside that washes out basin body (3) is provided with arc reposition of redundant personnel piece (10) that are arranged in leading in rivers reposition of redundant personnel passageway (6) water flow guide step (7) department, arc reposition of redundant personnel piece (10) top are provided with and are arranged in making the partial water in rivers reposition of redundant personnel passageway (6) continue to flow according to the direction through opening (11) in the water hole (9) that the water hole (9) is located in the water cavity (9) is kept away from to one end of basin body (3), the water outlet cavity (9) is provided with a water outlet (12) for enabling water in the water outlet cavity (9) to enter the flushing basin body (3).

2. The efficient flushing squatting pan according to claim 1, characterized in that a horizontally placed U-shaped water channel wall (8) is arranged on the upper side surface of the flushing basin body (3), the U-shaped water channel wall (8) surrounds a basin mouth of the flushing basin body (3), the U-shaped water channel wall (8) faces the water outlet cavity (9), and the upper side surface of the flushing basin body (3), the U-shaped water channel wall (8) and the pedal (1) are enclosed to form the water flow diversion channel (6).

3. The efficient flushing squatting pan according to claim 2, wherein a gap is reserved between the end of the U-shaped water channel wall (8) facing the arc-shaped flow dividing block (10) and the arc-shaped flow dividing block (10), one end of the arc-shaped flow dividing block (10) extends into the water flow dividing channel (6), and the other end of the arc-shaped flow dividing block (10) extends into the water flow guiding step (7).

4. An efficient flushing squatting pan according to claim 1, characterized in that the underside of the pedal (1) is spaced from the upper side of the arc-shaped diverting block (10) by a distance, so that a water through hole (11) is formed.

5. An efficient flushing squatting pan as claimed in claim 1, characterized in that the water flow guiding step (7) surrounds the bowl mouth of the flushing bowl body (3).

6. The efficient flushing squatting pan according to claim 1, characterized in that a horizontally placed U-shaped cavity wall (13) is arranged on the upper side surface of the flushing basin body (3), the U-shaped cavity wall (13) surrounds a basin opening of the flushing basin body (3), the U-shaped cavity wall (13) faces the water inlet hole (4), and the upper side surface of the flushing basin body (3), the U-shaped cavity wall (13), the arc-shaped split blocks (10) and the pedal (1) are surrounded to form the water outlet cavity (9).

7. A high efficiency flushing squatting pan as claimed in claim 6, characterized in that the underside of the pedal (1) is spaced from the upper side of the U-shaped cavity wall (13) by a distance forming a water outlet (12).

8. The high-efficiency flushing squatting pan according to claim 1, characterized in that the space of the water outlet cavity (9) far from the water outlet (12) is larger than the space of the water outlet cavity (9) near the water outlet (12).

9. The high-efficiency flushing squatting pan according to claim 1, characterized in that a baffle (14) for shielding a water outlet (12) is arranged on one side of the pedal (1) facing the basin opening of the flushing basin body (3), and the baffle (14) is close to the water outlet (12).