CN217000023U - Toilet capable of flushing MISO - Google Patents

Abstract

The utility model relates to the technical field of sanitary equipment, in particular to a toilet capable of flushing MISO (MISO), which comprises a toilet main body and a sewage discharge pipe, wherein the starting end of the sewage discharge pipe is a sewage inlet, the bottom end of the sewage inlet is connected with a water trap which is downwards inclined from front to back, and the length of the water trap is more than 80 mm; an opening right above the water trap is a feces falling opening, the front part of the feces falling opening is provided with a feces falling receiving plate, and the rear part of the feces falling opening is the top end of the sewage inlet; the flushing device comprises a flushing channel, a flushing valve mounting hole, a flushing hole and a flushing hole, wherein the flushing hole is communicated with the flushing channel; the inner wall of the main flushing channel is provided with a pressurizing convex part. The utility model can solve the problem that the toilet flushes more than 500g of MISO medium which is hard in the prior art.

Description

Can wash MISO's closestool

Technical Field

The utility model relates to the technical field of bathroom equipment, in particular to a toilet capable of flushing MISO.

Background

At present, more and more enterprises in the ceramic industry or more and more ceramic buyers add toilet bowl blockage tests into a function detection standard, MISO (MISO, Japanese bean paste) is generally adopted to simulate artificial excrement and serve as a medium for testing, although the toilet bowl in the prior art can easily pass the first-level water efficiency standard of the national standard test, the MISO medium with the quantity of over 500g can be flushed, the solution has no breakthrough idea, some defects exist in the common toilet bowl, if the MISO medium is in front of the toilet bowl when the excrement falls to the front, the MISO medium cannot easily slide into a water storage bay connected with a sewage inlet, or the excrement falls into a water storage bay, the MISO medium cannot easily flush into a sewer pipe, and the dispersion of the medium is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a toilet capable of flushing MISO (MISO) so as to solve the problem that flushing of MISO media with the volume of more than 500g is difficult in the background art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a closestool capable of flushing MISO comprises a closestool main body and a sewage discharge pipe, wherein the starting end of the sewage discharge pipe is a sewage inlet, the bottom end of the sewage inlet is connected with a water storage bay inclining downwards from front to back, and the length of the water storage bay is more than 80 mm;

an opening right above the trap is a excrement dropping opening, the front part of the excrement dropping opening is provided with an excrement dropping receiving plate, and the rear part of the excrement dropping opening is the top end of the sewage inlet;

the flushing device comprises a flushing plate, a flushing port, a drain valve mounting hole, a flushing channel and a flushing channel, wherein a flushing hole is formed in the flushing channel;

and a pressurizing convex part is arranged on the inner wall of the main channel.

Preferably, the pressurization convex part is positioned right below the drain valve mounting hole;

the water discharging valve is characterized in that the pressurizing convex part comprises a first pressurizing part, a water dividing part and a second pressurizing part which are sequentially connected in a circular arc transition mode, the first pressurizing part is located right below the water discharging valve mounting hole, the first pressurizing part is arranged obliquely downwards, the upper surface of the water dividing part is arranged horizontally, the second pressurizing part is arranged obliquely downwards, and the inclination angle of the second pressurizing part is larger than that of the first pressurizing part.

Preferably, the water diversion part is close to the bifurcate mouth of brushing hole inhalant canal and vice washing way, the upper surface of water diversion part with scrub the bottom of hole inhalant canal's water inlet and be the parallel and level.

Preferably, the pipe diameter from the auxiliary channel to the injection hole is gradually reduced from back to front, and the auxiliary channel is arranged obliquely downwards.

Preferably, the excrement receiving plate is inclined with a high front and a low rear, and the rear end of the excrement receiving plate is flush with the top end of the excrement inlet.

Preferably, the slope of the trap is less than 5 °.

Preferably, the blow off pipe is placed for C style of calligraphy, the blow off pipe divide into ascending pipe section, first turn pipe section, vertical transition pipe section and the second turn pipe section that connects gradually along the rivers direction.

Preferably, the ascending pipe section is arranged obliquely upwards, and the oblique angle is an obtuse angle.

Preferably, the transverse length of the dirt inlet is 75-85 mm.

Preferably, the vertical height of the dirt inlet is 60-65 mm.

Compared with the prior art, the technical scheme has the following beneficial effects: the reasonable excrement receiving plate is arranged at the sewage inlet, so that excrement or test media can smoothly enter the sewage discharge pipe, and the excrement or test media are very important to the dispersion of the excrement or the test media; in addition, the conveying performance of the sewage discharge pipe is improved by transforming the sewage discharge pipe.

Drawings

FIG. 1 is a schematic diagram of the construction of a flushable MISO toilet of the present invention;

FIG. 2 is an enlarged view of the area within the dashed line box of FIG. 1 in accordance with the present invention;

FIG. 3 is a rear cross-sectional view of the flushable MISO toilet of the present invention;

in the drawings: the sewage draining pipe comprises a sewage draining pipe 1, a sewage inlet 11, an ascending pipe section 12, a first turning pipe section 13, a vertical transition pipe section 14, a second turning pipe section 15, a trap inlet 2, a excrement falling port 3, an excrement falling receiving plate 4, a jet hole 5, a main flushing channel 6, a drain valve mounting hole 7, a pressurization convex part 8, a first pressurization part 81, a water dividing part 82, a second pressurization part 83, a cover plate hole 9, a brushing hole water inlet channel 821, an auxiliary flushing channel 822, a gradient alpha of the trap inlet, an inclination angle beta of the second pressurization part, an inclination angle gamma of the first pressurization part, a length A of the trap inlet, a transverse length B of the sewage inlet, a vertical height H of the sewage inlet, and a distance L between the excrement falling point and the cover plate hole.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, a toilet capable of flushing MISO comprises a toilet main body and a sewage discharge pipe 1, wherein the starting end of the sewage discharge pipe 1 is a sewage inlet 11, the bottom end of the sewage inlet 11 is connected with a water trap 2 which is inclined downwards from front to back, and the length a of the water trap 2 is greater than 80 mm;

an opening right above the trap 2 is a excrement falling port 3, the front part of the excrement falling port 3 is provided with an excrement falling receiving plate 4, and the rear part of the excrement falling port 3 is the top end of the sewage inlet 11;

a jet hole 5 is arranged below the excrement receiving plate 4, the jet hole 5 is used for jetting water flow opposite to the excrement inlet 11, the jet hole 5 is communicated with a drain valve mounting hole 7 through a main flushing channel 6, and the drain valve mounting hole 7 is used for being communicated with a water source;

and a pressurizing convex part 8 is arranged on the inner wall of the main runner 6.

Since the excrement receiving plate 4 is disposed in front of the excrement falling port 3, when excrement falls or a test medium, such as MISO medium, falls to an excrement falling point on the excrement receiving plate 4, the excrement falling or test medium is supported by the ceramic body forming the excrement receiving plate 4, and then the movement direction is changed to fall into the position of the excrement storage bay 2 through the excrement falling port 3, preferably, the length a of the excrement storage bay 2 is 80-90mm, and the excrement storage bay 2 is connected with the excrement inlet 11 in a downward inclined manner from front to back, so that the MISO medium can slide into the excrement inlet 11 backwards, the blockage of the excrement inlet 11 caused by the accumulation at the position of the excrement storage bay 2 is avoided, then the drain valve is pressed down, the water body in the drain valve mounting hole 7 enters the jet hole 5 through the main sewer 6 and is jetted towards the excrement inlet 11, the MISO medium can smoothly enter the sewage pipe, the inner wall of the main sewer 6 is provided with the pressurization convex portion 8, the pressurization convex portion 8 is formed by the outward protrusion of the inner wall of the main sewer 6, and the cross section of the main sewer 6 can be reduced, further, the jet impact of the jet hole 5 is increased, and it is preferable that the cross-sectional diameter of the jet hole 5 is 35 mm.

The reasonable excrement receiving plate 4 and the inclined trap 2 are arranged, so that excrement or a test medium can smoothly enter the sewage inlet 11, the pressurizing convex part 8 is arranged on the inner wall of the main flushing channel 6, the jetting impact of the jetting hole 5 is increased, the dispersion of the excrement or the test medium is important, and the problem that the MISO medium with the volume of more than 500g is difficult to flush in the closestool in the prior art can be solved.

Preferably, the toilet body 1 is further provided with a cover plate hole 9, and when the distance L between a certain point on the excrement receiving plate 4 and the cover plate hole 9 is 150mm, the point is called an excrement falling point, which is beneficial to forming siphon in the sewage discharge pipe 1 by the water sprayed from the spray hole 5 and smoothly flushing the excrement falling or the test medium.

To explain further, as shown in fig. 2, the pressurizing protrusion 8 is located right below the drain valve mounting hole 7;

the pressurizing convex part 8 comprises a first pressurizing part 81, a water dividing part 82 and a second pressurizing part 83 which are sequentially connected in an arc transition mode, the first pressurizing part 81 is located right below the drain valve mounting hole 7, the first pressurizing part 81 is arranged obliquely downwards, the upper surface of the water dividing part 82 is horizontally arranged, the second pressurizing part 83 is arranged obliquely downwards, and the inclination angle beta of the second pressurizing part 83 is larger than the inclination angle gamma of the first pressurizing part 81.

The water in the water tank passes through drain valve mounting hole 7 and enters main towards 6, be equipped with pressure boost convex part 8 under the drain valve mounting hole 7, first pressure boost portion 81 slope sets up downwards at first, can lead the water downwards to divide water portion 82, make the potential energy of rivers become kinetic energy and shunt and go, because rivers lose partial kinetic energy when the reposition of redundant personnel, rivers pass through the downward second pressure boost portion 83 that sets up of slope next, it is further, make the inclination increase of second pressure boost portion 83, further pressure boost is realized to the gravitational potential energy of water of recycling, thereby increase the injection impulsive force of jet orifice 5.

In a further description, the water diversion part 82 is close to the bifurcation of the water inlet channel 821 of the brushing hole and the auxiliary flushing channel 822, and the upper surface of the water diversion part 82 is flush with the bottom of the water inlet channel 821 of the brushing hole, so that the pressure of water flow entering the water inlet channel of the brushing hole is prevented from being reduced, the water pressure of water outlet of the brushing hole is increased, and the flushing capacity of the toilet cleaning surface is further improved.

To be more specific, the pipe diameter from the auxiliary channel 822 to the injection hole 5 is gradually reduced from back to front, and the auxiliary channel 822 is arranged obliquely downward. The pipe diameter of the auxiliary channel 822 is gradually reduced and is obliquely arranged downwards, and then the gravitational potential energy of water is used for realizing further pressurization, so that the jetting impulsive force of the jetting holes 5 is further increased.

More specifically, the excrement receiving plate 4 is inclined so that the front end is higher than the rear end, and the rear end of the excrement receiving plate 4 is flush with the top end of the excrement inlet 11. The excrement receiving plate 4 is inclined in a manner that the front part is high and the rear part is low, so that MISO media can move towards the excrement inlet 11, the rear end of the excrement receiving plate 4 is flush with the top end of the excrement inlet 11, the MISO media at any excrement falling point of the excrement receiving plate 4 can smoothly pass through the excrement falling port 3 and then fall into the excrement inlet 11, and the using effect of the excrement receiving plate 4 is further improved.

Stated further, the gradient α of the trap 2 is less than 5 °. The excrement falling or testing medium MISO is combined with a slope structure in water and can slide into a sewage discharge pipe more easily, and tests show that the better effect can be achieved when the gradient alpha of the trap 2 is smaller than 5 degrees.

In a further description, as shown in fig. 2, the sewage pipe 1 is placed in a C shape, and the sewage pipe 1 is divided into an ascending pipe section 12, a first turning pipe section 13, a vertical transition pipe section 14 and a second turning pipe section 15 which are connected in sequence along the water flow direction. When the MISO medium slides into the sewage inlet 11 from the sewage trap 2 and then is sprayed through the water body of the spray hole 5, the MISO medium rushes to the ascending pipe section 12 from the sewage inlet 11 and then enters the first turning pipe section 13 and immediately passes through the vertical transition pipe section 14 downwards to form potential energy which is discharged out of the sewage pipe through the second turning pipe section 15, and the conveying performance of the sewage pipe 1 is improved through the transformation of the sewage pipe 1.

Preferably, the inner diameter sectional areas of the ascending pipe section 12, the first turning pipe section 13, the vertical transition pipe section 14 and the second turning pipe section 15 are circular and uniform in thickness change, stress points of the circular through pipe are uniform, impact of water flow can be borne, the inner diameter of the circular through pipe is uniform, the movement resistance of excrement falling or test media can be reduced, and the conveying performance of the sewage discharge pipe 1 is further improved.

In a further description, the ascending pipe section 12 is disposed obliquely upward and the oblique angle is an obtuse angle. The ascending pipe section 12 is obliquely arranged upwards, so that the length of the vertical transition pipe section 14 can be increased, the MISO medium at the sewage inlet 11 can be easily taken away when the sewage discharge pipe 1 generates siphon, and the conveying performance of the sewage discharge pipe 1 is further improved.

In further detail, as shown in FIG. 3, the transverse length B of the dirt inlet 11 is 75-85mm, and the vertical height H of the dirt inlet 11 is 60-65 mm. The size of the sewage inlet 11 is increased, more than 500g of excrement can be dropped or a test medium can enter the sewage discharge pipe 1 and be discharged, and the sewage discharge capacity of the closestool is improved.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will occur to those skilled in the art without the exercise of inventive faculty based on the explanations herein, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined in the appended claims.

Claims (10)

1. A closestool capable of flushing MISO (MISO) comprises a closestool main body and a sewage discharge pipe, and is characterized in that:

the starting end of the sewage discharge pipe is a sewage inlet, the bottom end of the sewage inlet is connected with a water trap which is inclined downwards from front to back, and the length of the water trap is more than 80 mm;

an opening right above the trap is a excrement dropping opening, the front part of the excrement dropping opening is provided with an excrement dropping receiving plate, and the rear part of the excrement dropping opening is the top end of the sewage inlet;

a jet hole is formed below the excrement receiving plate and used for jetting water flow towards the sewage inlet, the jet hole is communicated with a drain valve mounting hole through a main flushing channel, and the drain valve mounting hole is used for being communicated with a water source;

and a pressurizing convex part is arranged on the inner wall of the main flushing channel.

2. The flushable MISO toilet of claim 1, wherein said pressurization protrusion is located directly below said drain valve mounting hole;

the pressure boost convex part is including circular arc transitional coupling's first pressure boost portion, partial water portion and second pressure boost portion in proper order, first pressure boost portion is located directly below the drain valve mounting hole, first pressure boost portion slope sets up downwards, the upper surface level of partial water portion sets up, second pressure boost portion slope sets up downwards, just the inclination of second pressure boost portion is greater than the inclination of first pressure boost portion.

3. The MISO-flushed toilet of claim 2, wherein the water diverter is near the bifurcation of the brush hole water intake and the secondary flushing path, and the upper surface of the water diverter is flush with the bottom of the water inlet of the brush hole water intake.

4. The MISO flushable toilet according to claim 3, wherein the diameter of the sub-flushing passage from the back to the jet hole is gradually reduced, and the sub-flushing passage is provided obliquely downward.

5. The flushable MISO toilet of claim 1, wherein said stool receiving plate is inclined with a high front and a low rear, and a rear end of said stool receiving plate is flush with a top end of said dirt inlet.

6. The flushable MISO toilet of claim 1, said trap having a slope of less than 5 °.

7. The toilet of claim 1, wherein the blow-off pipe is placed in a C-shape, and the blow-off pipe is divided into an ascending pipe section, a first turning pipe section, a vertical transition pipe section and a second turning pipe section, which are connected in sequence, in the direction of water flow.

8. The flushable MISO toilet of claim 7, wherein said riser section is angled upward and at an obtuse angle.

9. The flushable MISO toilet of claim 1, wherein said dirt intake has a transverse length of 75-85 mm.

10. The flushable MISO toilet of claim 9, wherein the vertical height of said dirty inlet is 60-65 mm.

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