CN213204337U - Self-pressurization efficient energy-saving toilet bowl - Google Patents

Abstract

The utility model provides a self-pressurization efficient energy-saving toilet bowl, which comprises a toilet bowl body, a water tank, a flushing water channel and a flushing water channel. The toilet body is provided with a wash basin; the water tank is arranged at the top of the closestool body and is positioned on one side of the back surface of the closestool body. The flushing water channel is positioned between the water tank and the wash basin and is communicated with the bottom of the wash basin. The flushing water channel is communicated between the flushing water channel and the top of the wash basin. A washing water channel is arranged between the water tank and the wash basin, and the cross section of the washing water channel is gradually reduced from large to small. When the bath, the water pressure that erodees in the water course can increase gradually, erodees the basin through higher water pressure, reaches and reduces the water yield of erodeing with improving the impulsive force, reduces the duration of bath simultaneously.

Description

Self-pressurization efficient energy-saving toilet bowl

Technical Field

The utility model relates to a closestool field, in particular to from energy-efficient toilet bowl of pressure boost.

Background

The common siphon toilet has a flushing system formed by a separate or integrated water tank and a laterally inverted S-shaped flushing pipe inside the toilet. The principle is generally as follows: the water in the water tank is flushed into the urinal through a ring of flushing port in the urinal, so that the water level in the urinal is gradually increased, when the water level exceeds the water sealing surface of the urinal, a pressure difference is formed, and the water and the sewage in the urinal are sucked into the sewage discharge pipeline through the siphon action. The siphon type toilet bowl has the problems of long flushing time, high water consumption and the like because the siphon effect can be triggered only by ensuring that the water level in the toilet bowl reaches a certain height.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a self-supercharging high-efficiency energy-saving toilet bowl, which solves the problems of long flushing time and large water consumption of the prior siphon toilet bowl.

For realizing the purpose of the utility model, the utility model adopts the technical proposal that: a self-pressurization efficient energy-saving toilet comprises a toilet body, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the toilet body is provided with a washbasin;

the water tank is arranged at the top of the closestool body and is positioned on one side of the back of the closestool body;

the flushing water channel is positioned between the water tank and the wash basin, the cross section from the water tank to the wash basin is gradually reduced from large to small, and the flushing water channel is communicated with the bottom of the wash basin;

and the flushing water channel is communicated between the flushing water channel and the top of the wash basin.

Preferably, a sewage pipeline communicated with the bottom of the washbasin is arranged in the closestool body, and the sewage pipeline is provided with a section of bent pipe section to form a water seal in the washbasin.

Preferably, the water outlet of the flushing water channel is arranged towards a sewage discharge port of the sewage discharge pipeline.

Preferably, the connection position of the flushing water channel and the flushing water channel is positioned on the plane where the water sealing surface of the water seal is positioned.

Preferably, the flushing water channel is communicated with the bottom surface of the water tank.

Preferably, wash the water course with set up the delivery port intercommunication between the top surface of basin, the top inboard of basin is provided with the opening annular, the delivery port sets up towards the opening annular.

Preferably, the water outlet is a single-hole water outlet, the single-hole water outlet is arranged towards the opening ring groove and sprays water flow to form swirling flushing cleaning on the wash basin.

Preferably, the water outlet is a double-hole water outlet with two outlets and opposite directions, and the double-hole water outlet is arranged towards the opening ring groove and used for washing the washbasin.

Preferably, the flushing water channel is of an inverted cone structure.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. a washing water channel is arranged between the water tank and the wash basin, and the cross section of the washing water channel is gradually reduced from large to small. When the bath, the water pressure that erodees in the water course can increase gradually, erodees the basin through higher water pressure, reaches and reduces the water yield of erodeing with improving the impulsive force, reduces the duration of bath simultaneously.

2. A flushing water channel is led out from the flushing water channel and communicated with the top of the wash basin, when the flushing water channel is filled with water to flush the wash basin, the surface of the wash basin can be cleaned through the flushing water channel, and the use comfort level of the toilet is improved.

3. The water outlet of the flushing water channel is arranged towards the sewage discharge port of the drainage pipeline, so that certain impulsive force can be provided for drainage of the sewage discharge pipeline during flushing, the power of water flow during sewage discharge is improved, the purpose of flushing with less water is achieved, and water resources are saved.

Drawings

FIG. 1 is a sectional view of a self-pressurizing energy-efficient toilet according to an embodiment;

FIG. 2 is a top view of the self-pressurizing energy-efficient toilet according to the embodiment;

FIG. 3 is a schematic view of a single outlet for water from the self-pressurizing toilet bowl according to the embodiment;

FIG. 4 is a schematic view of a self-pressurizing energy-efficient toilet with dual outlets for discharging water according to an embodiment;

reference numerals:

10. a toilet body; 101. a wash basin; 102. a blowdown line; 103. water sealing;

1031. a water cover; 1011. an opening ring groove; 1021. a drain outlet of the drain pipe;

20. a water tank;

30. flushing the water channel; 301. flushing the water outlet of the water channel;

40. flushing the water channel; 401. a water outlet;

4011. a single-hole water outlet; 4012. a double-hole water outlet.

Detailed Description

The siphon type toilet bowl in the prior art can initiate the siphon effect only when the water level in the toilet bowl reaches a certain height, so that the problems of long flushing time and high water consumption are caused. Therefore, the present invention provides a new solution, and for a clearer representation, the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the self-pressurization energy-efficient toilet bowl is characterized by comprising a toilet bowl body 10, a water tank 20, a flushing water channel 30 and a flushing water channel 40. The toilet body 10 is provided with a wash basin 101; the water tank 20 is provided on the top of the toilet body 10 at a rear surface side thereof. The flush channel 30 is located between the tank 20 and the basin 101 and communicates with the bottom of the basin 101. The flush channel 40 communicates between the flush channel 30 and the top of the basin 101. When flushing, water tank 20 carries out the drainage, because wash away the water course 30 by the cross section between water tank 20 to basin 101 by big diminishing gradually, so rivers can be by the pressure boost in washing away water course 30 for wash away the water course 30 and have an impulsive force to wash away the bottom of basin 101, the water yield in the quick supplementary basin 101, and then reach the required water yield height of siphon blowdown, accomplish the purpose of washing away basin 101 with less water yield fast.

The flushing water channel 30 in this embodiment is of an inverted conical configuration. The inverted conical structure facilitates limiting the magnitude of the momentum of the pressurization of the water flow. The use of trumpet-shaped structures, funnel-shaped structures or hollow prism structures etc. is of course not excluded. The realization is to washing away water course 30 when letting in rivers, to this rivers pressure boost, and then improves the velocity of flow when washing away, and it is long when sparingly washing by water to save the water.

As shown in fig. 1, in the toilet body 10 of the present embodiment, a sewage pipeline 102 is disposed in communication with the bottom of the basin 101, and the sewage pipeline 102 has a bent pipe section to form a water seal 103 in the basin 101. The bent pipe of the sewage discharge pipeline 102 is bent towards the top surface of the basin 101, so that a water seal 103 is formed at the bottom of the basin 101, some water can be retained in the basin 101, and the sewage discharge port of the sewage discharge pipeline is also positioned at the bottom of the basin 101, so that all water in the basin 101 can be discharged, and the effect of complete sewage discharge is achieved.

The water outlet 301 of the flushing water channel in this embodiment is arranged towards a sewage outlet 1021 of the sewage pipeline. During flushing, the flushing water channel 30 enables water flow impulsive force to be larger through pressurization, and the sewage pipeline 102 is directly flushed, so that certain impulsive force can be provided for drainage of the sewage pipeline 102, power of water flow during sewage drainage is improved, the purpose of flushing with less water volume is achieved, and water resources are saved.

In this embodiment, the connection between the flushing channel 40 and the flushing channel 30 is located on the plane of the water seal surface 1031 of the water seal 103. The flush channel 40 diverts water in the flush channel 30 to the top of the basin 101 to flush the inside of the basin 101. Because the water in the flushing water channel 30 is continuously pressurized, a portion of the water can be partially diverted and depressurized through the flushing water channel 40, and the water flowing through the flushing water channel 40 has a certain momentum, or a fast flow rate. When the wash water channel 30 is used for washing the wash basin 101, water in the wash basin 101 can be drained through a siphon effect until the water level in the wash basin 101 reaches the water seal surface 1031 of the water seal 103, at the moment, the wash water channel 30 does not have water in the water tank 20 to flow in any more, and then the water flow in the wash water channel 40 is reduced and flows back to the wash water channel 30, so that the washing function is more perfect, and the purposes of saving energy and water are achieved.

The flush channel 30 is in this embodiment in communication with the bottom surface of the tank 20. The switch valve is arranged between the flushing water channel 30 and the water tank 20, when the switch valve is opened, water flow in the water tank 20 can be directly discharged into the flushing water channel 30, the gravitational potential energy for flushing the water channel 30 is located at the position of the water surface of the water tank 20, the impulsive force for flushing the water flow in the water channel 30 is improved, water can rapidly enter the wash basin 101, meanwhile, the impact force is used for flushing the wash basin 101, the efficient flushing toilet is achieved, the purpose of complete flushing can be achieved by using less water, and the energy-saving and water-saving effects are achieved.

In this embodiment, the flushing water channel 40 is communicated with the top surface of the basin 101 through a water outlet 401, and an opening ring groove 1011 is formed in the inner side of the top of the basin 101. And the cross-sectional area of the flushing water channel 40 is gradually reduced along the direction of the water outlet, and the flushing water channel 40 can be a conical pipeline, so that the water flow in the flushing water channel 40 can also achieve the effect of accelerating the spraying.

As shown in fig. 3, in this embodiment, the water outlet 401 may be a single-hole water outlet 4011 having only one outlet, and the single-hole water outlet 4011 is disposed toward the opening ring slot 1011, and the wash basin 101 is cleaned by single-hole spray swirling. When the flushing water channel 30 flushes the toilet, the water flow is sprayed towards the opening ring groove 1011 through the single hole in the flushing water channel 40, and the flushing water channel 40 is the pressure relief water channel for shunting the flushing water channel 30, so that the flow velocity of the water flow in the flushing water channel 40 is high, and the effect of whirling flushing the washing basin 101 through single hole spraying can be realized. After the flushing is finished, the flow velocity of the water flow in the flushing water channel 30 is reduced, the water flow in the flushing pipeline loses the flushing force and can flow back to the flushing water channel 30, and then a water seal 103 can be formed in the wash basin 101, so that the flushing function is more complete, and the purposes of saving energy and water are achieved.

In another embodiment, shown in fig. 4, the outlet 401 is a dual outlet 4012 with two outlets facing opposite directions, and the dual outlet 4012 faces the opening ring groove 1011 for flushing the basin 101. Efficiency of washing can be improved through diplopore delivery port 4012, the impulsive force of washing when also having the haplopore simultaneously for the structure of toilet bowl is diversified, is applicable to different crowds, improves the practicality from pressure boost energy-efficient toilet bowl. Of course, it is not excluded to provide a plurality of water outlets in the opening ring groove 1011 for washing to satisfy the washing requirement.

The above embodiments are only used for explaining the technical solution of the present invention and not for limiting the same, and although the above embodiments are specific to the present invention, it should be understood by those skilled in the art that the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the present invention, which should be covered by the claims of the present invention.

Claims (9)

1. The utility model provides a self-pressurization energy-efficient toilet bowl which characterized in that includes:

a toilet body provided with a wash basin;

the water tank is arranged at the top of the closestool body and is positioned on one side of the back of the closestool body;

the flushing water channel is positioned between the water tank and the wash basin, the cross section from the water tank to the wash basin is gradually reduced from large to small, and the flushing water channel is communicated with the bottom of the wash basin; and

and the flushing water channel is communicated between the flushing water channel and the top of the wash basin.

2. The self-pressurizing efficient energy-saving toilet bowl according to claim 1, characterized in that: the toilet bowl is characterized in that a sewage discharge pipeline communicated with the bottom of the washbasin is arranged in the toilet bowl body, and the sewage discharge pipeline is provided with a section of bent pipe section to form a water seal in the washbasin.

3. The self-pressurizing energy-efficient toilet according to claim 2, wherein: the water outlet of the flushing water channel is arranged towards the sewage discharge port of the sewage discharge pipeline.

4. The self-pressurizing energy-efficient toilet according to claim 2, wherein: the joint of the flushing water channel and the flushing water channel is positioned on the plane where the water sealing surface of the water seal is positioned.

5. The self-pressurizing efficient energy-saving toilet bowl according to claim 1, characterized in that: the flushing water channel is communicated with the bottom surface of the water tank.

6. The self-pressurizing efficient energy-saving toilet bowl according to claim 1, characterized in that: the wash water course with set up the delivery port intercommunication between the top surface of basin, the top inboard of basin is provided with the opening annular, the delivery port sets up towards the opening annular.

7. The self-pressurizing energy-efficient toilet according to claim 6, wherein: the water outlet is a single-hole water outlet which is arranged towards the opening ring groove and sprays water flow to form swirling washing for cleaning the washbasin.

8. The self-pressurizing energy-efficient toilet according to claim 6, wherein: the delivery port is for having two exports and the opposite diplopore delivery port of orientation, diplopore delivery port is used for right towards opening annular setting the basin washes.

9. The self-pressurizing efficient energy-saving toilet bowl according to claim 1, characterized in that: the washing water channel is of an inverted cone structure.

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