CN214033951U - Toilet stool - Google Patents

Abstract

The utility model provides a toilet stool, which comprises a base, a bedpan and a water tank seat, wherein the bedpan is positioned in a containing cavity of the seat body; the water tank seat comprises a tank body and a seat body, wherein the seat body is positioned on the upper portion of the bedpan, the seat body is provided with a first flushing port, a second flushing port and a water diversion port, the distance from the second flushing port to the tank body is shorter than that of the first flushing port, and the water diversion port is used for forming spiral downward water flow so that the first water flow flushed from the first flushing port and the second water flow flushed from the second flushing port do not converge. The utility model provides a toilet bowl, when seting up the flushing port, can be more accurate seting up, and then improve the effect of washing the pot face of washing by water, prevent to remain. The water diversion port can isolate the water flow of the first flushing port and the second flushing port and supplement and flush the region where the first water flow and the second water flow do not converge, and therefore the flushing effect is further improved.

Description

Toilet stool

Technical Field

The utility model relates to a sanitary bath equipment technical field, concretely relates to stool pot.

Background

When the current common toilet is used for flushing the pan surface (namely the inner surface of a bedpan), the flushing water has small strength, narrow range and weak cleaning capability, which directly causes that the sewage cannot be flushed away near the center line of the flushing surface of the common toilet, so that the residual sewage is remained, and the pan surface becomes yellow and smelly after a long time. It is unsightly and also presents a hygiene problem. Meanwhile, the existing toilet is usually formed by a grouting forming mode, and a water outlet is usually formed in the upper edge part of the toilet, so that the flushing water cannot well take away the dirt on the surface of the pan, and the flushing effect is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a toilet stool to improve above-mentioned technical problem.

The embodiment of the utility model provides a toilet stool, which comprises an integrally formed base, a bedpan and a water tank seat, wherein the toilet stool is formed by an independent base mold blank, a bedpan mold blank and a water tank seat mold blank in an integrally formed mode, the base encloses a containing cavity, and the bedpan is positioned in the containing cavity of the seat body; the water tank seat comprises a tank body and a seat body, the seat body is positioned at the edge of the upper part of the bedpan, the seat body is provided with a flushing port, the flushing port comprises a first flushing port, a second flushing port and a water diversion port, the horizontal distance from the second flushing port to the tank body is shorter than that from the first flushing port to the tank body, the first flushing port and the second flushing port are both towards the inner surface of the bedpan, the tank body is used for containing flushing water and communicated with the first flushing port and the second flushing port, the water diversion port is led out from the first flushing port and/or the second flushing port and used for forming spiral downward water flow, so that the first water flow flushed from the first flushing port and the second water flow flushed from the second flushing port do not converge, or the spiral downward water flow is used for flushing the area where the first water flow and the second water flow do not converge.

In some embodiments, the first stream of water flushed from the first flush port and the second stream of water flushed from the second flush port both spiral along the inner surface of the bowl.

In some embodiments, the seat is configured as a ring for fitting the toilet bowl, the seat has a long axis direction, the tank is located at one end of the long axis direction of the seat, the first flushing port is located at one side of the long axis direction of the seat and far away from the tank, the second flushing port is located at the other side of the long axis direction of the seat and close to the tank, and the water diversion port is led out from one side of the second flushing port and located on the flow path of the first water flow.

In some embodiments, the toilet bowl includes a first region, a second region, a third region, and a fourth region, the first region, the second region, the third region, and the fourth region are respectively formed in four quadrants with the center of the toilet bowl as an origin and the long axis of the seat as an axis, the first flush port is located in the fourth region, and the second flush port and the diversion port are located in the second region.

In some embodiments, the first flush port is configured to be angled away from a center of the bowl such that a first stream of water flushed from the first flush port spirals along an inner surface of the bowl.

In some embodiments, the second flush port is angled in a direction toward the first flush port such that a second stream of water flushed from the second flush port spirals along the inner surface of the bowl.

In some embodiments, the water diversion port leads from a side of the second flush port and is configured to provide a spiral downward flow of water.

In some embodiments, the water diversion opening is formed by one or more porous structures.

In some embodiments, the water diversion opening is disposed toward the water accumulation portion.

In some embodiments, the toilet is formed by integrally molding a base mold, a bowl mold, and a tank base mold.

The utility model provides a toilet stool, including base, bedpan and water tank seat triplex, because the mould embryo of water tank seat is independent with other two parts, consequently when seting up the flushing port, can be more accurate set up according to predetermined position, and then improve the effect that washes the bath face of a boiler by water, prevent to remain. Adopt the form of a plurality of flushing ports, can increase the dynamics of washing to the bedpan, the water diversion mouth can play and make the rivers of first flushing port and second flushing port not converge, the replenishment washes the regional effect that first rivers and second rivers do not converge, and then further improvement washes the effect.

These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a toilet stool according to an embodiment of the present invention.

Fig. 2 is a schematic view of a split structure of a toilet bowl according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a base in a toilet bowl according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a toilet bowl in a toilet according to an embodiment of the present invention.

Fig. 5 is a schematic view of a water flow passage structure in a toilet according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of a toilet seat in a toilet according to an embodiment of the present invention.

Fig. 7 is a schematic structural view of a water dividing opening in a toilet bowl according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of another water diversion port in a toilet according to an embodiment of the present invention.

Fig. 9 is a schematic view of the water flow of a toilet according to an embodiment of the present invention during flushing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 and 2 together, the present embodiment provides a toilet 10, which includes a base 100, a bedpan 200 and a water tank base 300, wherein the bedpan 200 is located on the base 100, and the water tank base 300 is located on the bedpan 200. The toilet 10 may be formed by combining an independent base mold, a toilet bowl mold, and a water tank base mold and then integrally forming the base mold, the toilet bowl mold, and the water tank base mold.

Referring to fig. 2 and 3, the base 100 is a part for supporting or mounting the whole toilet bowl 10 and is located at the bottom of the toilet bowl 10. Base 100 encloses a receiving cavity 101. receiving cavity 101 may be of a generally oval configuration and may be adapted to receive bowl 200. In this embodiment, the base 100 includes opposing bottom 110 and top 120, the bottom 110 being adapted to be mounted to the floor, and the top 120 being adapted to engage the bowl 200 and the tank seat 300. The chassis 100 also includes a side portion 130, the side portion 130 is positioned between the bottom portion 110 and the top portion 120, and the side portion 130 can be either open or closed.

Referring to fig. 1 and 4, the bedpan 200 includes a basin 210 and a sewer pipe 220, the basin 210 is disposed on the top 120 of the base 100 and is recessed toward the accommodating cavity 101, an inner surface 201 (i.e., a pan surface) of the basin 210 faces the top 120 of the base 100 and is exposed, the basin 210 forms a water accumulation portion 230, and the sewer pipe 220 is connected to the water accumulation portion 230 and is used for being connected to an external sewer pipe network. The water accumulating part 230 is used to store a certain amount of water to form a water seal to prevent odor of the sewer pipe network from flowing back into the room, and the water accumulating part 230 is disposed near the side part 130 of the base 100.

In one embodiment, referring to fig. 5, the bedpan 200 includes a first area 211, a second area 212, a third area 213 and a fourth area 214, wherein the first area 211, the second area 212, the third area 213 and the fourth area 214 are respectively formed in four quadrants forming a coordinate system with the center O of the bedpan 200 as an origin and the major axis X and the minor axis Y of the seat body, and the second area 212 and the third area 213 are close to the lateral portion 130. The water accumulation part 230 is located in the second area 212 and the third area 213, that is, the water accumulation part 230 is arranged across the first area 211 and the fourth area 214, and the first area 211 and the fourth area 214 are pan surfaces, so that the advantage of the arrangement is that: since the water containing part 230 is deviated from the center of the bedpan 200, the slope of the first region 211 and the fourth region 214 can be more gentle, thereby avoiding the formation of dead angles for water flow washing, so that the water flow can wash the pan surface of the first region 211 and the fourth region 214 more cleanly in a spiral pouring manner.

Referring to fig. 6, the tank seat 300 includes a housing 320 and a seat body 310, the seat body 310 is formed integrally, the seat body 310 is located at an upper edge of the bedpan 200, the seat body 310 is provided with a flushing port facing the inner surface 201 of the bedpan 200 (i.e., the inner surface 201 of the bowl 210), and the housing 320 is used for containing flushing water and is communicated with the flushing port so as to flush the inside of the bedpan 200 through the flushing port. In the embodiment, referring to fig. 5 and fig. 6, a main water channel 313 and a water diversion water channel 314 are disposed on the seat body 310, and the tank body 320 is communicated with the water diversion water channel 314 through the main water channel 313 so as to be communicated with the flushing port.

In this embodiment, the stool pot 10 is by the base, the bed pan and the water tank seat are fired into an organic whole after slip casting and bonding, namely by mutually independent base mould embryo, bed pan mould embryo and water tank seat mould embryo form the base through slip casting, bed pan and water tank seat, fire formation stool pot 10 after bonding mutually, because base 100 mould embryo, bed pan 200 mould embryo and water tank seat 300 mould embryo are mutually independent, consequently when seting up the flushing port on the mould embryo, it can be more accurate to set up the position, and then make the bath effect better. Meanwhile, the production and manufacturing cost is reduced.

Referring to fig. 5 and 6, the base 310 is configured as a ring shape to match the bedpan 200, and the base 310 encloses a substantially elliptical structure, the base 310 has a major axis direction (i.e. the direction of the major axis X) and a minor axis direction (i.e. the direction of the minor axis Y), the box 320 is located at one end of the major axis direction of the base 310, and the box 320 is close to the side 130 of the base 100.

In this embodiment, with continuing reference to fig. 6 and 7, the flushing port includes a first flushing port 311, a second flushing port 312, and a diversion port 315, the first flushing port 311 and the second flushing port 312 are both in communication with the tank 320, and a horizontal distance from the second flushing port 312 to the tank 320 is shorter than a horizontal distance from the first flushing port 311 to the tank 320, where the horizontal distance is a distance between the first flushing port 311 and the second flushing port on a horizontal plane. The water diversion port 315 leads out from the first flushing port 311 and/or the second flushing port 312, in this embodiment, the water diversion port 315 leads out from one side of the second flushing port 312, that is, the water diversion port 315 is communicated with the second water diversion port 312. Specifically, the tank 320 communicates with the diversion water channel 314 through the main water channel 313, and the diversion water channel 314 divides the water flow into two parts, which are respectively communicated with the first flushing port 311 and the second flushing port 312. And the first water flow rushing out of the first flushing port 311 and the second water flow rushing out of the second flushing port 312 do not converge together, the first water flow rushing out of the first flushing port 311 and the second water flow rushing out of the second flushing port 312 both spiral along the inner surface 201 of the toilet bowl 200. The water diversion opening 315 is used to form a spiral downward water flow, wherein the spiral downward water flow means that the water flow rushing out from the water diversion opening 315 directly flows towards the water-holding portion 230 below and directly enters the water-holding portion 230. Because the spiral downward water flow flows directly downwards, when the spiral flow of the first water flow flushed from the first flushing port 311 reaches the position of the water diversion port 315, the spiral downward water flow is blocked and turns downward to flow directly into the water accumulation part, so that the spiral downward water flow can prevent the confluence of the first water flow flushed from the first flushing port 311 and the second water flow flushed from the second flushing port 312. Alternatively, the first flow of the spiral downward water flow rushing out of the first flush port 311 and the second flow of the spiral downward water flow rushing out of the second flush port 312 have an unwashed region (non-confluent region), and the flushing is supplemented by the water diversion port.

Referring to fig. 7, in the present embodiment, as an example, the water diversion opening 315 is formed by a plurality of hole-shaped structures, each hole is communicated with the second flushing opening 312, and when water flows into the second flushing opening 312, the water is guided out from the water outlet 315 to form a downward spiral water flow. The plurality of hole structures may be arranged side by side or in any other way. In some embodiments, the water diversion opening 315 can also be designed with a flow diversion structure towards the water accumulation portion 230, such that the water flow rushing out of the water diversion opening 315 directly forms a spiral downward water flow.

As another embodiment, referring to fig. 8, the water diversion port 315 may also be disposed in a strip structure and connected to the second flushing port 312. It is understood that in other embodiments, the water diversion port 315 may be provided in any other form, which is not limited in this embodiment.

It will be appreciated that in other embodiments, the water diversion port 315 may also exit from a side of the first flush port 311 and be used to create a spiral downward flow of water. Furthermore, the water diversion port 315 may be a plurality of water diversion ports, and a part of the plurality of water diversion ports is led out from one side of the first flushing port 311, and another part is led out from one side of the second flushing port 312, which is not limited herein.

Specifically, the first flushing port 311 is located on one side of the long axis direction of the seat body 310 and is far away from the tank body 320, and the second flushing port 312 is located on one side of the long axis direction of the seat body 310 and is close to the tank body 320, so that the distance between the first flushing port 311 and the second flushing port 312 can be increased, and further, a proper distance is formed between a first water flow rushed out from the first flushing port 311 and a second water flow rushed out from the second flushing port 312, so that confluence of water flows twice is avoided, and splashing caused by water flow collision is prevented. Further, the first flushing port 311 and the second flushing port 312 may be respectively located at two sides of the long axis direction of the seat body 310, so as to appropriately increase the interval between the first flushing port 311 and the second flushing port 312. The water diversion port 315 is led out from one side of the second flushing port 312 and is located on the flow path of the first water flow, so that the spiral downward water flow flushed by the water diversion port 315 can block the first water flow. As an embodiment, the water diversion port 315 may be located behind the second flush port 312 even though the spiral downward flow of water flushed by the water diversion port 315 does not block the second flow of water flushed by the second flush port 312.

In some embodiments, referring to fig. 6 and 9, the first flush port 311 is located in the fourth region 214, and the second flush port 312 is located in the second region 212 and adjacent to the tank 320. The flushing path of the water flow flushed out by the first flushing port 311 is: enters the inner surface 201 (pan surface) of the tub 210 from the fourth region 214, and spirally flows along the surfaces of the fourth region 214, the first region 211 and the second region 212 in sequence, and flows into the water accumulation part 230 at the junction of the second region 212 and the third region 213. The flush path of the second water flow from the second flush port 312 is: enters the inner surface 201 (pan surface) of the tub 210 from the second region 212, and flows into the water storage part 230 along the second region 212, the third region 213 and the fourth region 214 in sequence to the junction of the second region 212 and the third region 213. The flow paths of the first water flow rushing out of the first flush port 311 and the second water flow rushing out of the second flush port 312 are different. Water diversion port 315 is also located in second region 212, and water diversion port 315 is closer to first region 211 than second flush port 312, i.e. water diversion port 315 is located behind second flush port 312, and the flow path of the spiral downward water flow flushed by water diversion port 315 is: the water flow rushing out of the water diversion opening 315 flows directly downward toward the water storage part 230. When first rivers rush out from first washing water mouth 311, when second rivers rush out from second washing water mouth 312, spiral downward rivers rush out from water knockout hole 315 downwards, and first rivers can reach spiral downward rivers department earlier than the second rivers, receive spiral downward rivers to block to get into ponding portion, consequently can not form with the second rivers in ponding portion 230 top and converge, avoid rivers collision to produce and splash, and then can improve the washing effect.

Specifically, with continued reference to fig. 5, the first flush port 311 is configured to be angled away from the center of the bowl 200 such that the first flow of water rushing out of the first flush port 311 spirals along the inner surface 201 of the bowl 200. That is, the first water flow rushing out of the first flushing port 311 does not flow back toward the third region 213, so as to avoid the confluence effect with the second water flow rushing out of the second flushing port 312 and influence the water flow speed of the second water flow rushing out of the second flushing port 312.

The second flush port 312 is angled toward the first flush port 311 so that the second flow of water rushing out of the second flush port 312 spirals along the inner surface 201 of the bowl 200. Similarly, the second water flow rushing out of the second flushing port 312 does not flow back towards the first region 211, so as to avoid the confluence effect with the first water flow rushing out of the first flushing port 311, and influence on the water flow speed of the first water flow rushing out of the first flushing port 311. The water diversion opening 315 is configured to be disposed directly toward the water product portion 230 such that the spiral downward water flow rushed out by the water diversion opening 315 directly enters the water product portion 230 downward.

In the toilet bowl 10 provided by this embodiment, since the mold blank of the water tank base 300 is independent of the other two parts, when the flush water port is opened, the flush water port can be opened more precisely according to a predetermined position, and by providing the water diversion port, the first water flow flushed from the first flush water port and the second water flow flushed from the second flush water port do not converge, so that the effect of flushing the pan surface is improved, and the residual is prevented.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A toilet bowl is characterized by comprising a base, a toilet bowl and a water tank seat which are integrally formed, wherein the base encloses an accommodating cavity, and the toilet bowl is positioned in the accommodating cavity of the base; the water tank seat comprises a tank body and a seat body, the seat body is positioned at the edge of the upper part of the bedpan, the seat body is provided with a flushing port, the flushing water port comprises a first flushing water port, a second flushing water port and a water diversion port, the horizontal distance from the second flushing water port to the tank body is shorter than the horizontal distance from the first flushing water port to the tank body, the first flushing port and the second flushing port face the inner surface of the bedpan, the box body is used for containing flushing water, and is communicated with the first flushing port and the second flushing port, the water diversion port is led out from the second flushing port and/or the first flushing port and is used for forming spiral downward water flow, so that the first water flow rushing out of the first flushing port and the second water flow rushing out of the second flushing port do not converge, or the downward spiral water flow is used for flushing the area where the first water flow and the second water flow do not converge.

2. The toilet of claim 1, wherein the first stream of water flushed from the first flush port and the second stream of water flushed from the second flush port both spiral along the inside surface of the bowl.

3. The toilet according to claim 2, wherein the seat body is configured in a ring shape to fit the toilet bowl, the seat body has a long axis direction, the tank is located at one end of the long axis direction of the seat body, the first flushing port is located at one side of the long axis direction of the seat body and away from the tank, the second flushing port is located at the other side of the long axis direction of the seat body and adjacent to the tank, and the diversion port is led out from one side of the second flushing port and located on the flow path of the first water flow.

4. The toilet according to claim 3, wherein the toilet bowl includes a first area, a second area, a third area, and a fourth area, the first area, the second area, the third area, and the fourth area being formed in four quadrants with an origin at a center of the toilet bowl and a long axis of the housing, the first flush port being located in the fourth area, the second flush port and the diversion port being located in the second area.

5. The toilet of claim 4, wherein the first flush port is configured to be angled away from a center of the bowl such that a first stream of water flushed from the first flush port spirals along the inner surface of the bowl.

6. The toilet according to claim 4, wherein said second flush port is angled in a direction towards said first flush port such that a second flow of water flushed from said second flush port spirals along the inner surface of said bowl.

7. The toilet according to claim 1, wherein the water diversion port leads from one side of the second flush port and/or the first flush port and is configured to form a spiral downward flow.

8. The toilet bowl according to claim 7, wherein the water diversion port is formed by one or more hole-like structures.

9. The toilet according to any one of claims 1 to 8, wherein a water reservoir is provided in the bowl, and the water diversion port is provided toward the water reservoir.

10. The toilet bowl according to any one of claims 1 to 8, wherein the toilet bowl is formed by integrally molding a separate base mold, a bowl mold, and a tank base mold.

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