CN105317093B - Pressure guiding resultant force replacement toilet - Google Patents
Pressure guiding resultant force replacement toilet Download PDFInfo
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- CN105317093B CN105317093B CN201510378785.0A CN201510378785A CN105317093B CN 105317093 B CN105317093 B CN 105317093B CN 201510378785 A CN201510378785 A CN 201510378785A CN 105317093 B CN105317093 B CN 105317093B
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Abstract
The invention discloses a pressure guiding resultant force replacement closestool, which comprises: the panel, divide water platform, right apopore, the breakwater, the seat, left apopore, lead the water circle, the bedpan, the blow off pipe entry, the blow off pipe export, the blow off pipe, the drain trap because conducted the seat front portion with the help of the beneath rivers that set up of bedpan will have a pressure rivers to make left apopore, the rivers direction of right apopore and the replacement rivers direction of blow off pipe entry unanimous, realized that the blow off pipe forms the siphon fast and energetically the effect of replacement.
Description
Technical Field
The invention relates to a closestool, in particular to a pressure guide resultant replacement closestool which utilizes a water guide ring under a water diversion platform to conduct water pressure, uniformly distributes water flow of a left water outlet hole and a right water outlet hole in the front part of a seat ring by using the water diversion platform and enables the direction of washing water flow from the left water outlet hole and the right water outlet hole to be consistent with the direction of replacement water flow at an inlet of a sewage discharge pipe.
Background
A flushing mode called rotary flushing is popular in the toilet on the market at present, two holes are formed in the rear half part of a seat ring, and water flowing along a toilet bowl is uniformly dispersed on the bottom of the toilet bowl by using a water distribution platform for washing. The washing mode is designed by a famous bathroom manufacturer abroad earlier than a few years ago, and in recent years, various manufacturers at home change patterns to imitate.
The rotary washing mode has the advantages of simple production process and beautiful water flow during washing, but is only beautiful and not used. From the principle of fluid mechanics, the design violates two laws of conservation of kinetic energy and conservation of fluid direction: in the aspect of conservation of kinetic energy, friction and air resistance met by water flow in an open container are main, the designed rotary flushing mode is that the path of the water flow at the bottom of an open bedpan is very long, the longer the path of the water flow is, the more the kinetic energy loss is, and finally, the water flow only depends on the self weight of water to act on the bedpan for washing, so the washing effect is poor; in the aspect of direction conservation, the outlet of flushing water is designed at the rear part of the seat ring, and the direction of flushing water flow is just opposite to the direction of water flow replaced by the inlet of the sewage discharge pipe. Therefore, the current spinning structure is not scientific.
As early as 2007, in order to solve the problem that the existing closestool is insufficient in washing capacity, the invention provides the pressure guide bedpan which is generally adopted by Guangdong Hengyu limited company, so that the washing capacity and the replacement rate of the closestool are improved by more than one time. Good social benefits are obtained. The structure of the pressure-guiding bedpan is applied to a closestool with a water guide ring, a worker needs to punch more than 30 washing holes on the water guide ring, the size, the number and the direction of the washing holes are strictly controlled, and the operation is troublesome. How to improve the structure of the toilet bowl of a toilet bowl by combining the spinning mode with the principle of "pressure guiding toilet bowl", which is considered by users as a better water flow during flushing? We proceed as follows.
Disclosure of Invention
The invention relates to a closestool, in particular to a pressure guide resultant replacement closestool which utilizes a water guide ring under a water diversion platform to conduct water pressure, uniformly distributes water flow of a left water outlet hole and a right water outlet hole in the front part of a seat ring by using the water diversion platform and enables the direction of washing water flow from the left water outlet hole and the right water outlet hole to be consistent with the direction of replacement water flow at an inlet of a sewage discharge pipe.
It is known that the spin-flush toilet bowl which is popular in the market at present seriously affects the flushing effect of the toilet bowl due to the fact that the principle of conservation of flow energy and conservation of fluid direction are violated; meanwhile, the principle of the pressure guide bedpan can guide the pressurized water flow to the front of the seat ring, so that the direction of the washing water flow is consistent with the direction of the replacement water flow at the inlet of the sewage discharge pipe.
The above-described object of the present invention is achieved by providing a pressure-guiding resultant force replacement toilet configured as follows, including: panel, water diversion platform, right apopore, breakwater, ring, left apopore, water guide ring, bedpan, blow off pipe entry, blow off pipe export, blow off pipe, water falling port, its characterized in that: a water guide ring is arranged under the bedpan; water flow of a left water outlet hole and a right water outlet hole in the front part of the seat ring is uniformly distributed by using a water distribution platform; the direction of the washing water flow from the left water outlet hole and the right water outlet hole is consistent with the direction of the replacement water flow from the sewage discharge pipe inlet.
Compared with the existing rotary flushing type closestool in the market, the pressure guide resultant force replacement closestool has the following advantages:
firstly, the washing function is enhanced. The existing spin closestool design violates the law of conservation of kinetic energy, because in the aspect of conservation of kinetic energy, the friction and air resistance met by water flow in an open container are main, the designed spin mode has long water flow path at the bottom of an open bedpan, the longer the water flow path is, the more kinetic energy loss is, only the self weight of water acts on the bedpan at last, and the washing effect is poor. The pressure-guiding resultant force replacement closestool utilizes the principle of 'pressure-guiding bedpan', a flushing water source with pressure is conveyed to the front end of the bedpan from the bottom of the bedpan through a closed pipeline, namely, the kinetic energy of flushing water flow is moved to the front end of the bedpan, the key parts of the bedpan are immediately cleaned after the water flow comes out of the left water outlet hole and the right water outlet hole, the flushing distance is short, the loss of the kinetic energy in the open bedpan is small, and the flushing function is greatly enhanced.
Secondly, the replacement function is enhanced. The existing spin-flush toilet design violates the law of conservation of direction, the outlet of the flush water is designed at the rear part of the seat, and the direction of the flush water flow is just opposite to the direction of the replacement water flow at the inlet of the sewage discharge pipe. The water flow can only slowly flow into the bottom of the toilet bowl by the force of free falling body, and the initial kinetic energy of the water flow does not help the displacement of dirty water and dirt. Therefore, the current rotating and washing structure mode does not help the replacement of dirty water and dirt after washing the toilet bowl. The pressure-guiding resultant force replacement toilet utilizes the principle of 'pressure-guiding bedpan', a flushing water source with pressure is conveyed to the front end of the bedpan from the bottom of the bedpan through a closed pipeline, water flows flush out of the left water outlet hole and the right water outlet hole and flush the bedpan uniformly along the water dividing platform, and main water flows finally flush towards the direction of replacing the water flow of the inlet of the sewage discharge pipe, so that the effect of pushing dirty water and dirt towards the inside of the sewage discharge pipe is formed, the siphon force of the sewage discharge pipe is formed, and the replacement rate is increased.
Thirdly, the water-saving effect is realized. To save water, toilets must satisfy both the prerequisites of higher pressure and greater water flow. In the conventional spin-on toilet, two holes are formed in the rear half part of a seat, and water flowing along a toilet bowl is uniformly dispersed at the bottom of the toilet bowl by using a water distribution platform for washing. For bedpans, it is important that the front half of the bowl be washed vigorously. The existing rotary flushing closestool is supplied with water from the back, the water flow runs to the forefront and then falls off to wash the bedpan, the initial kinetic energy is lost, the bedpan is washed and is not proper, only the bedpan is wetted, and the washing power is not mentioned at all. In addition, the design of the water flow direction of the washing is not scientific. The water flows out from the rear part of the bedpan, the water outlet direction of the bedpan is opposite to the water flow direction of the inlet of the sewage discharge pipe, and the water flow direction does not play a role in assisting the replacement. Therefore, this design does not help to achieve the water saving effect. The pressure-guiding resultant force replacement toilet utilizes the principle of 'pressure-guiding bedpan', a flushing water source with pressure is conveyed to the front end of the bedpan from the bottom of the bedpan through a closed pipeline, and water flows are flushed out of the left water outlet and the right water outlet and then flush the bedpan uniformly along the water dividing platform with the pressure water flows. Because the left water outlet and the right water outlet are designed at the front part of the bedpan, the water flow flushing direction is exactly the same as the water flow direction of the inlet of the sewage discharge pipe, and the water flow with certain kinetic energy directly flushes into the sewage discharge pipe along the inclination of the bedpan, thereby playing the role of jointly displacing dirty water and dirt.
Embodiments of the present invention will be described below with reference to the accompanying drawings.
Fig. 1 is a schematic view of the overall structure of the pressure-inducing and force-displacing toilet according to the present invention.
Fig. 2 is a schematic cross-sectional view of the pressure-inducing and force-displacing toilet according to the present invention.
1-panel, 2-water diversion platform, 3-right apopore, 4-breakwater, 5-ring, 6-left apopore, 7-water guide, 8-bedpan, 9-blow off pipe entry, 10-blow off pipe export, 11-blow off pipe, 12-water falling port.
Detailed Description
Fig. 1 and 2 show an overall structural diagram and a sectional structural diagram of a pressure inducing force displacement toilet according to the present invention, respectively.
In fig. 1: the panel 1 is in the same plane as the seat 5. The rear part of the panel 1 is provided with a water outlet 12, and a left water outlet 6 and a right water outlet 3 are arranged below the seat ring 5 at the front part of the panel 1. The connecting plate between left apopore 6 and right apopore 3 is breakwater 4, is equipped with branch water platform 2 below it. A water guiding ring 7 is arranged below the horizontal platform 2. The bedpan 8 connects the water guiding ring 7 with the sewage pipe inlet 9 smoothly. The tail end of the sewage draining pipe 11 is provided with a sewage draining pipe outlet 10.
In fig. 1: the bedpan 8 is structurally combined with the water guide ring 7, and the platform is the water diversion platform 2. The platform above the water diversion platform 2 is a seat 5.
When people start to wash, the water flow of the water outlet 12 is transmitted to the water baffle 4 through the water guide ring 7 and then is forced to flow out of the left water outlet 6 and the right water outlet 3. The water from the left water outlet 6 and the right water outlet 3 uniformly rushes the water with a certain initial speed into the sewage pipe inlet 9 along the periphery of the bedpan 8 through the water diversion platform 2. Because the left water outlet 6 and the right water outlet 3 respectively wash water flow from two sides of the bedpan 8, when the water flow washes the sewage pipe inlet 9, two water flows form resultant force and simultaneously wash the sewage pipe inlet 9, and the direction of the water flow is exactly the same as the direction of the water flow needed by the sewage pipe inlet 9. Therefore, the siphon is formed in the sewage discharge pipe 11 as early as possible, the speed of water flow is accelerated after the siphon is formed in the sewage discharge pipe 11, and the best effect of replacing dirty water and dirt is achieved.
It goes without saying that the pressure inducing force replacement toilet of the present invention can be changed and modified in many ways, and is not limited to the specific configurations of the above-described embodiments, such as various changes in the positions and directions of the left and right outlets. In summary, the scope of the present invention for pressure inducing force displacement toilets shall also include those exchanges, substitutions and modifications that will be apparent to those of ordinary skill in the art.
Claims (1)
1. A pressure inducing resultant force displacement toilet, comprising: panel, water diversion platform, right apopore, breakwater, ring, left apopore, water guide ring, bedpan, blow off pipe entry, blow off pipe export, blow off pipe, water falling port, its characterized in that: a water guide ring is arranged below the water diversion platform; the water diversion platform is used for uniformly distributing water flow of the left water outlet hole and the right water outlet hole in the front of the seat ring, the connecting plate between the left water outlet hole and the right water outlet hole is the water baffle, and when people start washing, water flow of the water outlet is transmitted to the water baffle through the water diversion ring and then is forced to flow out of the left water outlet hole and the right water outlet hole only; the direction of the washing water flow from the left water outlet hole and the right water outlet hole is consistent with the direction of the replacement water flow from the sewage discharge pipe inlet.
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CN201510378785.0A CN105317093B (en) | 2015-07-02 | 2015-07-02 | Pressure guiding resultant force replacement toilet |
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CN201510378785.0A CN105317093B (en) | 2015-07-02 | 2015-07-02 | Pressure guiding resultant force replacement toilet |
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CN105317093B true CN105317093B (en) | 2020-06-23 |
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CN107661062A (en) * | 2016-07-28 | 2018-02-06 | 谢泽淦 | It is Jing Yin to help suction cover plate closestool |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2045311B (en) * | 1979-04-03 | 1983-04-20 | Armitage Shanks Ltd | Water closet pan |
CN101082234A (en) * | 2007-08-01 | 2007-12-05 | 段鳗珊 | Pressure guiding bed-pan |
CN102359165A (en) * | 2011-10-31 | 2012-02-22 | 广东恒洁卫浴有限公司 | Water-saving pedestal pan |
CN102953419A (en) * | 2011-08-24 | 2013-03-06 | Toto株式会社 | Flush toilet |
CN102995730A (en) * | 2012-06-25 | 2013-03-27 | 虞吉伟 | Toilet with smooth water diversion platform |
-
2015
- 2015-07-02 CN CN201510378785.0A patent/CN105317093B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2045311B (en) * | 1979-04-03 | 1983-04-20 | Armitage Shanks Ltd | Water closet pan |
CN101082234A (en) * | 2007-08-01 | 2007-12-05 | 段鳗珊 | Pressure guiding bed-pan |
CN102953419A (en) * | 2011-08-24 | 2013-03-06 | Toto株式会社 | Flush toilet |
CN102359165A (en) * | 2011-10-31 | 2012-02-22 | 广东恒洁卫浴有限公司 | Water-saving pedestal pan |
CN102995730A (en) * | 2012-06-25 | 2013-03-27 | 虞吉伟 | Toilet with smooth water diversion platform |
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