CN211571879U - High-efficient squatting pan that washes - Google Patents

Abstract

The utility model relates to a sanitary wares technical field specifically is a squatting pan is washed to high efficiency, and the rear end of squatting pan is inside to be provided with the water inlet, and the water inlet intercommunication has the delivery port, and the blowdown import of squatting pan is located the urinal front end, and blowdown import intercommunication trap and blow off pipe, intercommunication have the secondary to wash by water mechanism between trap and the squatting pan front end, are provided with the pressure maintaining formula water conservancy diversion on the inner wall of urinal both sides and wash by water the mechanism. The utility model discloses can solve among the prior art squatting pan front end bath not enough, can't be with the excrement problem of washing totally.

Description

High-efficient squatting pan that washes

Technical Field

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

Background

The prior popular squatting pan in the market is generally a squatting pan with a trap and capable of moving back and forth, and the structure of the product is characterized in that water inlets are arranged at the rear end of the squatting pan; the inlet of the sewage discharge pipeline is arranged at the rear part of the squatting pan, and water flow is sprayed out from the water inlet hole to flow to the front end around the side wall of the inner ring of the squatting pan during flushing, and then flows to the sewage discharge inlet after being flushed from the front end.

In the practical application process, if the flushing water quantity is not enough, or the flushing water pressure is low (namely the flushing water flow rate is not enough), or the flushing water fall is low, the water in the inner ring of the squatting pan cannot flush the front end of the squatting pan, or the water quantity flushing the front end is less. If the excrement is arranged at the front end or the middle part of the squatting pan in the excretion process, or the excrement has stronger viscosity, when the front end is insufficient for flushing, the excrement can not be flushed to a water storage bend or can not be flushed cleanly, so that the excrement needs to be flushed secondarily or other modes are added for flushing.

In addition, after the flushing is started, more water is discharged from the rear end, when excrement is not flushed and pushed into the trap, the water which enters the trap firstly directly enters the trap to be discharged, the flushing effect is not achieved, the flushing is ineffective, and waste of water resources is caused. If the ineffective flushing water in the early stage is more, the flushing water at the front end is not enough to flush the excrement into the water trap or only flush the water trap, and does not flush the sewage pipeline for discharging, so that the excrement needs to be flushed for the second time or other modes are added.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is anticipated to provide a high-efficient squatting pan that washes to it is not enough to wash by water to solve among the prior art squatting pan front end, can't be with the excrement problem of washing totally.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a high-efficient squatting pan that washes, the rear end inside of squatting pan is provided with the water inlet, and the water inlet communicates the delivery port, and the blowdown import of squatting pan is located the urinal front end, and the blowdown import communicates trap and blow off pipe, and the intercommunication has secondary bath mechanism between trap and the squatting pan front end, is provided with the pressure-retaining formula water conservancy diversion bath mechanism on the urinal both sides inner wall.

The principle and the beneficial effect of the scheme are as follows:

the water inlet is used for being externally connected with water sources such as a water tank and the like, and the sewage discharge inlet is used for discharging excrement in the excrement pool. When the flushing is started, a part of water flow rushes out a larger water flow through the water outlet to push excrement in the squatting pan into the trap; the other part of water flows through the pressure-maintaining flow-guiding flushing mechanism and flows out to flush the inner wall of the urinal, and simultaneously assists in pushing excrement. In addition, rivers among the pressure-maintaining formula water conservancy diversion bath mechanism can also strike the excrement once more through secondary bath mechanism inflow trap to realize that secondary rivers helping hand pushes the excrement in the blow off pipe, realize washing.

The water inlet sets up in the squatting pan rear end, and the blowdown import sets up in the squatting pan front end, and the direct blowdown import department that strikes the front end from the squatting pan rear end of spun water in the delivery port, and the in-process does not have all the other energy consumptions, and the impact force is great, is convenient for strike the excrement to the blowdown import in, can reduce the excrement and leave the condition of stubborn spot in the urinal bottom. In addition, carry out the secondary through introducing partial rivers and wash the excrement in the trap, improvement that can be better washes the effect, guarantees that the excrement thoroughly drains away. Moreover, the pressure-maintaining type flow guide flushing mechanism is adopted to flush the inner wall of the urinal and simultaneously ensure that the pressure of water flow flowing to the front end of the squatting pan is enough, so that the water flow converged into the trap is ensured to have enough flow velocity to impact excrement. Reduces water resource waste and improves the excrement flushing effect.

Furthermore, the pressure-maintaining type flow guide flushing mechanism comprises flow guide pipelines arranged on the inner walls of the two sides of the urinal, the flow guide pipelines are communicated with the water inlet, a plurality of water spray holes are formed in the flow guide pipelines, and the diameters of the water spray holes are sequentially reduced from the rear end to the front end of the squatting pan. The guide pipeline is used for guiding water flow, and the water spraying holes are used for discharging the water flow in the guide pipeline so as to flush the inner wall of the urinal; the diameters of the water spray holes are sequentially reduced from the rear end to the front end of the squatting pan, so that water flow can keep a certain flow velocity, the pressure consumption of the water flow is reduced, the pressure and the flow velocity of the water flow converged into the trap are guaranteed, and a better impact effect is achieved.

Further, the secondary flushing mechanism comprises a vertically arranged jet orifice pipeline, the high end of the jet orifice pipeline is positioned at the front end of the squatting pan and communicated with the flow guide pipeline, and the bottom end of the jet orifice pipeline is communicated with the trap. The jet orifice pipeline is used for communicating the diversion pipeline and the trap, water flow in the diversion pipeline flows into the jet orifice pipeline after the inner wall is washed, and impacts the trap under the action of self flow speed and gravity, so that on one hand, excrement in the trap can be impacted for the second time; on the other hand, compare and set up water course intercommunication jet pipeline alone, under the condition of the same inflow, can reduce inlet port department rivers share quantity, can guarantee every rivers velocity of flow and pressure, and then guarantee to wash the effect. And the water inflow does not need to be increased, and the water resource is saved.

Further, the bottom end of the jet orifice pipeline is communicated with the bottom end of the trap. So set up, the bottom of the direct impact trap of rivers that flow out in the jet pipeline, can be at utmost with the excrement in the trap promote to the blow off pipe, strike effectually.

Further, the path length of the water flow from the water inlet to the trap is less than the path length of the water flow through the diversion duct and the jet port duct to the trap. So set up, can make the excrement after being washed into the trap, the water in the water conservancy diversion pipeline just flows into the trap and washes by water to its secondary.

Furthermore, the inside of the joint of the jet orifice pipeline and the trap is arc-shaped. So set up, compare the junction and be the condition that the broken line set up, can reduce the potential energy consumption that rivers impacted and cause at the junction.

Furthermore, the connection part of the diversion pipeline and the jet orifice pipeline is arranged in a staggered mode. The arrangement can avoid potential energy consumption caused by mutual impact of water flows in the diversion pipelines at two sides of the urinal when the water flows are converged at the jet orifice pipeline.

Further, the water spray hole is obliquely arranged towards the sewage discharge inlet. Compared with the water spraying holes which are vertical to the inner wall of the urinal, the water spraying holes which are obliquely arranged can reduce the situation that the impacted excrement is remained in the water spraying holes; in addition, the hole for water spraying inclines towards the blowdown import, and the water of hole for water spraying spun can promote excrement toward blowdown import department, is convenient for wash away excrement.

Furthermore, the water spray holes are arranged at the bottom of the diversion pipeline and are uniformly distributed. So set up, the rivers that wash out distribute evenly, and are better to the washing effect of urinal inner wall.

Furthermore, the water inlet is strip-shaped and is arranged parallel to the surface of the squatting pan. The water inlet that the water inlet of rectangular shape compares the slope setting or the crooked setting can reduce the potential energy consumption that the impact of rivers and water inlet inner wall caused.

Drawings

Fig. 1 is a top view of a first embodiment of the present invention;

fig. 2 is a schematic side view of a first embodiment of the present invention;

fig. 3 is a top view of a second embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a diversion pipeline 2, a water inlet 3, a urinal 4, a sewage inlet 5, a jet orifice pipeline 6, a sewage discharge pipe 7, a trap 8 and a diversion trench 9.

The arrows in fig. 1 and 3 indicate the water spray direction of the water spray holes.

The arrows in fig. 2 indicate the flow direction of the water flow.

Example one

As shown in figures 1 and 2, the left end of the high-efficiency flushing squatting pan is the rear end, and the right end of the high-efficiency flushing squatting pan is the front end. A strip-shaped water inlet 3 is transversely formed in the rear end of the squatting pan, the right side of the water inlet 3 is communicated with a water outlet, and the water outlet is located at the rear end of the squatting pan. The strip-shaped water inlet 3 can reduce potential energy consumption caused by impact of water flow in the strip-shaped water inlet. The sewage inlet 5 of the squatting pan is positioned at the front end of the urinal 4, and the sewage inlet 5 is communicated with a trap 8 and a sewage pipe 7.

A secondary flushing mechanism is communicated between the trap 8 and the front end of the squatting pan, pressure-maintaining type flow guide flushing mechanisms are arranged on the inner walls of the two sides of the urinal 4, and the pressure-maintaining type flow guide flushing mechanisms are communicated with the secondary flushing mechanism. As shown in fig. 1, the pressure-maintaining type diversion flushing mechanism includes diversion pipes 2 installed on inner walls of both sides of a urinal 4, and the diversion pipes 2 are communicated with a water inlet 3. The bottom of the diversion pipeline 2 is evenly provided with a plurality of water spraying holes, and the diameters of the water spraying holes are reduced from the rear end to the front end of the squatting pan in sequence. As can be seen from the combination of FIG. 2, the secondary flushing mechanism includes a vertically disposed jet orifice pipeline 6, the high end of the jet orifice pipeline 6 is located at the front end of the squatting pan and is communicated with the diversion pipeline 2, and the bottom end of the jet orifice pipeline 6 is communicated with the bottom end of the trap 8. The path length of the water flow from the water inlet 3 to the water trap 8 is shorter than the path length of the water flow through the diversion duct 2 and the jet port duct 6 to the water trap 8.

The specific implementation process is as follows:

when in actual use, the water inlet 3 is externally connected with water sources such as a water tank and the like. When the squatting pan is used for flushing, a part of water is flushed out of a large water flow through the water outlet to flush excrement in the squatting pan 4 to the trap 8, and meanwhile, the bottom of the squatting pan 4 can be flushed. The other part of water flow is divided into two paths to guide the water flow from the guide pipelines 2 at the two sides to the front end of the squatting pan, and the water flow flows out through the water spraying holes in the guide process to push the excrement in the urinal 4 and simultaneously wash the inner wall of the urinal 4.

Because the diameter of the water spray hole is reduced from the rear end to the front end of the squatting pan in sequence, two water flows in the diversion pipeline 2 can keep a certain flow speed and flow into the jet orifice pipeline 6 from the front end. After the confluence, add the gravity action of rivers dead weight, from jet orifice pipeline 6 down stroke, then spout into in the trapway 8 with certain velocity of flow, carry out the secondary impact to the excrement in the trapway 8 from this for the excrement can discharge better, has improved the washing effect.

The path length of the water flow which is sprayed from the water inlet 3 and directly flows into the drain inlet 5 through the urinal 4 to enter the water trap 8 is larger than that of the water flow which enters the water trap 8 from the diversion pipeline 2 through the jet orifice pipeline 6. So set up, under the same circumstances of inflow, can guarantee that the rivers of jet orifice pipeline 6 can just spout in trap 8 after the excrement gets into in trap 8, realize the secondary of excrement and wash from this. In practical use, the time of the process from the diversion of the two water flows of the diversion pipeline 2 to the water flow collection to the formation of the water flow sprayed from the spraying holes can be controlled by controlling the area size of the spraying hole diameter (namely the ratio of the water inlet area to the water outlet area of the spraying pipeline), and the time is slightly delayed than the time of the excrement moving to the water trap 8, so that the purpose of secondary flushing is achieved.

In the scheme, water entering from the water inlet 3 is only divided into two paths, so that the flow speed and potential energy of each path of water can be ensured. Wherein, one strand of the toilet bowl directly washes the front end blowdown import 5 from the rear end of the toilet bowl with larger potential energy, and can better wash away the excrement in the toilet bowl 4. No matter the excrement is arranged at any position such as the front end, the rear end, the middle part and the like of the urinal 4, the flushing mode of the scheme can effectively flush away the excrement. The other strand of water surrounds a circle from two sides of the urinal 4 and then is flushed into the trap 8 through the jet orifice pipeline 6, so that circumferential flushing is realized. The water jet holes, which are sequentially reduced in diameter from the rear end to the front end, can maintain the impact force and the flow velocity after the water is converged into the water trap 8. In addition, in this scheme in the back in preceding share water-washed pours into trap 8, back share water just gets into trap 8, realizes the secondary bath from this.

Example two

As shown in fig. 3, the present embodiment is different from the first embodiment in that the inside of the turning part of the connection part of the jet port pipe 6 and the water trap 8 is arc-shaped. So set up, compare the junction and be the condition that the broken line set up, can reduce the potential energy consumption that rivers impacted and cause at the junction.

In addition, the connection between the diversion pipeline 2 and the jet orifice pipeline 6 is staggered. The arrangement can avoid potential energy consumption caused by mutual impact when water flows in the guide pipelines 2 at two sides of the urinal 4 are converged at the jet orifice pipeline 6.

Furthermore, the water spray holes at both sides of the urinal 4 are inclined toward the sewage inlet 5. Compared with the water spraying holes which are vertical to the inner wall of the urinal 4, the water spraying holes which are obliquely arranged can reduce the situation that the impacted excrement is remained in the water spraying holes; in addition, the hole for water spraying inclines towards blowdown import 5, and the water of hole for water spraying spun can promote excrement toward blowdown import 5 department, is convenient for wash away the excrement.

Finally, a diversion trench is formed at the bottom of the urinal 4 at the left side of the sewage inlet 5, and two sides of the diversion trench are respectively positioned at two sides of the sewage inlet 5. So set up and to lead the excrement, the accurate dashing of the excrement of being convenient for is discharged in 5.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The utility model provides a squatting pan is washed to high efficiency which characterized in that: the inside water inlet that is provided with of rear end of squatting pan, the water inlet intercommunication has the delivery port, and the blowdown import of squatting pan is located the urinal front end, and the blowdown import communicates trap and blow off pipe, and it has the secondary to wash by water mechanism to communicate between trap and the squatting pan front end, is provided with the pressure-retaining formula water conservancy diversion on the urinal both sides inner wall and washes by water the mechanism.

2. The high-efficiency flushing squatting pan as claimed in claim 1, wherein: the pressure-maintaining type flow guide flushing mechanism comprises flow guide pipelines arranged on the inner walls of two sides of the urinal, the flow guide pipelines are communicated with the water inlet, a plurality of water spray holes are formed in the flow guide pipelines, and the diameters of the water spray holes are sequentially reduced from the rear end to the front end of the squatting pan.

3. The high-efficiency flushing squatting pan as claimed in claim 2, wherein: the secondary flushing mechanism comprises a vertically arranged jet orifice pipeline, the high end of the jet orifice pipeline is positioned at the front end of the squatting pan and communicated with the flow guide pipeline, and the bottom end of the jet orifice pipeline is communicated with the trap.

4. The high-efficiency flushing squatting pan as claimed in claim 3, wherein: the bottom end of the jet orifice pipeline is communicated with the bottom end of the trap.

5. The high-efficiency flushing squatting pan as claimed in claim 4, wherein: the path length of the water flow from the water inlet to the trap is less than the path length of the water flow through the diversion conduit and the jet orifice conduit to the trap.

6. The high-efficiency flushing squatting pan as claimed in claim 5, wherein: the inside of the joint of the jet orifice pipeline and the water trap is arc-shaped.

7. The high-efficiency flushing squatting pan as claimed in claim 6, wherein: the connection part of the diversion pipeline and the jet orifice pipeline is arranged in a staggered mode.

8. An efficient flushing squatting pan as claimed in any one of claims 2-7, wherein: the water spray holes are obliquely arranged towards the sewage discharge inlet.

9. The high-efficiency flushing squatting pan as claimed in claim 8, wherein: the water spray holes are arranged at the bottom of the diversion pipeline and are uniformly distributed.

10. The high-efficiency flushing squatting pan as claimed in claim 9, wherein: the water inlet is in a strip shape and is arranged in parallel to the surface of the squatting pan.

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