KR102205301B1 - A kind of wall hung toilet - Google Patents

Abstract

The present invention relates to a wall-mounted siphon toilet, comprising a water intake passage, a toilet cylinder block, and a siphon pipe, and a water inlet is installed at an end of the intake passage, and the water inlet is connected to an auxiliary water channel and a water channel. And, the water channel is located above the toilet cylinder block, the auxiliary water channel is located below the water channel, the lower part of the toilet cylinder block is provided with a trap, and when used, water is stored in the upper part of the trap. In addition, a large hole and a small hole are installed on the waterway, and the quantity and distribution of the large and small holes ensure the flow of water, so that the water in the trap where the water is stored is sufficiently mixed to improve siphon efficiency. I can.

Description

Wall-mounted siphon toilet {A KIND OF WALL HUNG TOILET}

The present invention relates to a toilet (toilet), in particular, to a wall-mounted siphon type toilet.

Until now, most toilets in Korea are drained through the ground discharge method, and drain pipes need to pass through the floor. After installing the drain pipe, perform the blockade work. During construction, the influence of artificial factors in the construction process is very large, and the effect of the difference between thermal expansion and cold shrinkage between the pipe material and concrete, and the aging of the waterproofing material are likely to cause water leakage problems in the toilet. The advantages of the toilet using the wall-mounted siphon type discharge method are as follows. (1) Wall-mounted mounting is not restricted by the location of the dirt discharge hole on the ground. Its mounting position can be adjusted to be relatively flexible, making the toilet design convenient and excellent. (2) Wall-mounted mounting does not come into contact with the ground, so it brings convenience in maintaining hygiene and cleanliness in normal times. (3) Wall-mounted mounting can be used by matching the drainage technology of the same floor, and the drainage branch pipe does not need to pass through the floor, just waterproofing the entire toilet floor. In this way, the occurrence of the leakage problem was fundamentally blocked. Existing relevant industry or national standards stipulate the distance between the inlet and the drain for a siphon type toilet, so it is quite difficult to produce a relatively good siphon effect within the distance stipulated by the standard. Accordingly, most of the toilets of the current wall discharge type are flush toilets.

At present, conventional wall-mounted siphon toilet products such as (TOTO CW551HB) used a flush valve set to increase water pressure, realize the function of discharging waste according to the high pressure water hammer, and the amount of water used is 6 liters ( litre) and more. However, since the flush valve raises the water pressure, the sound of flushing is relatively loud, which is not suitable for use in a home environment. In addition, the cost of the flush valve is relatively high, and it is not usually suitable for use at home. Accordingly, these kinds of products are not suitable for use as furniture, and are generally used in public toilets such as airports, stations, and hospitals.

When looking at the above, in order to satisfy the current demand for wall-mounted siphon toilets, wall-mounted siphon toilets with high siphon force and strong waste discharge power are needed.

In order to solve the above technical problem, the present invention provides a wall-mounted siphon type toilet with a high siphon force.

In order to solve the above technical problem, the technical solution used in the present invention is as follows. The wall-mounted siphon type toilet includes a water intake passage, a toilet cylinder block and a siphon pipe, and a water inlet is installed at the end of the water intake passage, and the water inlet is connected to and communicates with an auxiliary water channel and a water channel, and the water passage is the toilet. Located at the top of the cylinder block, the auxiliary water channel is located at the bottom of the water channel, the lower portion of the toilet cylinder block has a trap, and when in use, there is a water surface in which water is stored, and the siphon pipe is It is classified into an ascending section and a descending section, the descending section is an S-type, and the descending section is divided into an upper S section and a lower S section, and the pipe diameter of the S section on the descending section gradually changes, and The first half of the section S is a section that gradually changes in the first section, and the pipe diameter of the pipe gradually decreases in the horizontal direction of the water flow direction, and the pipe diameter gradually decreases in the vertical direction of the water flow direction. The pipe diameter gradually increases.

Preferably, when the diameter of the S section pipe on the descending section gradually changes, the pipe cut surface does not change.

Preferably, the left end point of the S section on the descending section is located to the left of the right end point of the S section below the descent section.

Preferably, a large hole and a small hole are installed on the channel.

Preferably, a first large hole is installed on the water channel, and the narrow angle α between the first large hole and the center of the water surface in which the water is stored and the axis in the horizontal direction of the water surface in which the water is stored is 8 to 14 degrees. .

Preferably, a second large hole is installed on the waterway, and a narrow angle β between the second large hole and the center of the water surface in which the water is stored and the axis in the horizontal direction of the water surface is 17 to 21 degrees. .

Preferably, a third large hole is installed on the water channel, and a narrow angle γ between the third large hole and the center of the water surface in which the water is stored, and the horizontal axis of the water surface in which the water is stored, is 45 to 52 degrees. .

Preferably, the number of small holes is 25 to 35, all of which are evenly distributed on the channel.

Preferably, the diameter of the small hole is 4mm to 6mm, the diameter of the large hole is 6mm to 10mm.

Preferably, the narrow angle a between the intake channel and the vertical surface is 10 degrees to 20 degrees.

Preferably, a ventilation passage is installed between the auxiliary water channel and the water passage, the ventilation passage is outside the toilet cylinder block, and the lower end of the ventilation passage is connected to and communicates with the auxiliary water passage, and the upper end of the ventilation passage Is connected to and communicates with the waterway.

Preferably, the ventilator is located at a point of a tenth section to a point of a fifth section starting from a point through which the channel arc section and the intake channel are connected to each other.

Preferably, the ratio of the water flowing into the water channel and the auxiliary water channel is 1:2 to 1:3.

Compared with the existing technology, the beneficial effects that can be obtained through the present invention are as follows.

The present invention is installed according to the size and position of the dripping hole on the waterway, and after the flow of water on the waterway enters the toilet siphon, it generates a relatively large flush wave force, which siphons fairly quickly.

In the present invention, the pipe of the S section on the siphon pipe descending section is designed to gradually change, and after the flow of water enters the descending section, the pipe is sufficiently filled to discharge gas in the pipe, thereby improving siphon efficiency.

In the present invention, the right end point of the left pipe wall of the siphon pipe descending section is on the right side of the left end point of the right pipe wall (右管壁). This design determined the S-shaped refraction information of the siphon pipe descending pipe, and ensured that the gas in the drainage system could not enter the siphon pipe, and that the siphon action was performed.

In the present invention, the water intake path is designed with an oblique line, and through this structure, it is possible to improve the heat loss of the ceramic wall (陶瓷壁); Increased the speed of water flow in the canal; The flush performance was further improved; A sinked water inlet is installed at the end of the intake channel, and the restriction on the water inflow ratio is effectively raised through the structure. In addition, the ratio of water volume and water inflow was reasonably improved, and the flushing performance of the product was improved.

The ratio of water flowing into the channel and auxiliary channel of the present invention is 1:2 to 1:3. The pipe siphon speed of the water inflow ratio is fast, the flush wave power is strong, and a fairly good flush effect is reached.

A ventilation path is installed on the auxiliary channel of the present invention, so that the gas in the auxiliary channel can be discharged to improve drainage efficiency.

The flush method of the present invention saves water by using a gravity flush method, like existing products. The single flush water consumption is 4.8L, reaches the national second-class water use efficiency, and the cost is relatively low. The wall-mounted wall drainage structure optimizes the toilet space and increases the efficiency of maintaining the cleanliness of the toilet. This prevented the problem of leaking toilets, and satisfied people's demand for siphon-type toilets with a siphon design. Since the present invention is used, convenience and comfort can be achieved, and flush noise can be reduced. The design of the gravity flush wall discharge siphon toilet is realized, and the siphon pipe has a relatively high flush wave power.

1 is a perspective view of the present invention;
Figure 2 is a side view of the present invention;
Figure 3 is an AA cross-sectional view of the present invention;
Figure 4 is a plan view of the present invention;
Figure 5 is a cross-sectional view taken along BB of the present invention;
6 is a cross-sectional view of an embodiment of the present invention;
7 is a cross-sectional view showing a siphon type pipeline according to an embodiment of the present invention;
8 is a cross-sectional view showing a siphon type pipeline according to an embodiment of the present invention;
9 is a schematic diagram showing that the diameter of the S section pipe gradually changes in the descending section of an embodiment of the present invention;
Fig. 10 is a schematic diagram showing water flowing in an embodiment of the present invention;
Fig. 11 is a cross-sectional view showing a second embodiment of the present invention;
12 is a cross-sectional view showing a siphon pipe according to a second embodiment of the present invention.
Fig. 13 is a cross-sectional view showing a siphon type pipe of a second embodiment of the present invention;
Fig. 14 is a schematic diagram showing that the diameter of the S section pipe on the descending section of the second embodiment of the present invention gradually changes;
Fig. 15 is a schematic diagram showing water flowing in the second embodiment of the present invention;
Fig. 16 is a perspective view showing a third embodiment of the present invention;
Fig. 17 is a side view showing a third embodiment of the present invention;
18 is a cross-sectional view of a CC showing a third embodiment of the present invention.

In the following, with reference to the accompanying drawings in the specification, the present invention will be further described in detail.

Example 1.

1 to 10, the wall-mounted siphon type toilet includes an intake passage (1), a toilet cylinder block (2), and a siphon pipe (3), and is disposed on one side of the toilet in the diagonal direction of the intake passage (1). , The preferred range of the narrow angle a between the intake channel 1 and the vertical surface is between 10 degrees and 20 degrees, and a water inlet 8 is installed at the end of the intake channel 1, and the water inlet 8 is It is connected to and communicates with the auxiliary channel 4 and the channel 5, and after the water flow reaches the intake channel 8 through the intake channel 1, there is a constant velocity in the flow of water, and at the same time, the action of gravity Therefore, due to inertia, a part of the water flow can flow into the waterway 5 according to the direction in which the existing water flows, and the other part sinks downward from the water inlet 8 due to the action of gravity and the auxiliary waterway ( It flows into 4). More preferably, the intake passage 1 has a sinking design. That is, there is a narrow angle in the horizontal direction with the lower pipe of the intake channel 1, and the range of the narrow angle b is 3 degrees to 10 degrees, whereby more water flow is controlled to flow into the auxiliary channel 4. The size of the water inlet 8 or the angle at which the water in the intake passage 3 sinks may control the ratio of the amount of water flowing into the water channel 5 and the auxiliary channel 4. That is, the water inflow rate can be controlled. Preferably, the ratio of the water flowing into the channel 5 and the auxiliary channel 4 is 1:2 to 1:3. 25 to 35 small holes 54 and 3 large holes are installed in the waterway, the hole diameter of the small hole is 4mm to 6mm, the hole diameter of the large hole is 6mm to 10mm, and the small holes are respectively It is distributed in the water channel 5, and the three large holes are a first large hole 51, a second large hole 52, and a third large hole 53, respectively. When the toilet is used normally, water may collect in the upper part of the trap 6 under the toilet cylinder block 2 after flushing, and the water surface at the top of the accumulated water is the water storage surface 7 , The horizontal axis of the water storage surface 7 is the widest axis in the horizontal direction of the water storage surface 7, and the vertical axis of the water storage surface 7 is the widest vertical width of the water storage surface. Axis, and the center of the water storage surface 7 is an intersection of the horizontal axis of the water storage surface 7 and the vertical axis of the water storage surface 7, and the first large hole 51 and the water storage The narrow angle α between the center connection line of the water surface 7 and the horizontal axis of the water storage surface 7 is 8 to 14 degrees, and the connection line between the second large hole 52 and the center of the water storage surface 7 And the narrow angle β of the horizontal axis of the water storage surface 7 is 17 degrees to 21 degrees, and the connection line of the center of the third large hole 53 and the water storage surface 7 and the water storage surface 7 The narrow angle γ of the transverse axis of is 45 degrees to 52 degrees.

After the flow of water enters the canal 5, the flow of water can flow along the canal 5, and in the flow process, some water is inside the toilet cylinder block 2 according to the evenly distributed small hole. Is introduced into the toilet cylinder block 2 to clean the inner surface of the toilet cylinder block 2, and when water flows into the large hole, more water may flow out compared to the small hole. Since the flow of water flow has an initial velocity, when water flows out from a large hole, it flows out at an initial velocity, and an arc is formed along the upper surface of the toilet cylinder block 2 to form the water storage surface 7 It can fall to the top, and the position where the three holes are formed is when the water flowing out of the large hole flows into the water storage surface 7, the water flow and the edge of the water storage surface 7 are in contact or close to the contact. So that the water flow can mix the water storage surface 7 to the greatest level. In this embodiment, three large holes are set, and if one or two holes are installed in three large holes, a certain effect can be achieved. The auxiliary channel 4 is located under the channel 5, the auxiliary channel 4 and the trap 6 are connected to each other, and the siphon type pipe 3 and the siphon apex as a boundary line, It can be classified into a rising section (31) and a falling section (32), the falling section (32) is of the "S" type, is classified into an upper section and a lower section, and the rising section (31) and the trap (8) are connected The pipe diameter of the rising section 31 gradually decreases according to the direction in which the water flows, and the gradually reduced pipe diameter allows the dirt to fill the pipe at a high speed after entering the rising section, It has the effect of discharging the gas in the pipe as quickly as possible and effectively increasing the flow rate of water. This improves the siphon speed. The auxiliary channel 4 outlet bottom, the trap 6 bottom, and the bottom of the start section of the rising section 31 are smoothly connected, and the smooth connection can reduce the heat loss of the flow of water, It can be ensured that the flows merge and generate sufficient centrifugal force. When the flow of water enters the siphon pipe 3, since it has a constant wave force, the siphon wave force can be improved. The descending section 32 is classified into an upper S section and a lower S section, and there is a first water surface 321 in the upper section of the right pipe wall of the upper S section of the descent section 32 of the siphon pipe 3, The first water supply surface 321 may lead the flow of water at the top of the siphon pipe to the second water supply surface 322 on the left side of the descending section 32. The second power guide surface is located at the end of the S section on the descending section 32, and the method of determining the end of the upper S section is to align the tangent line of the first power guide surface 321 to the left pipe wall of the siphon pipe descent section. It extends to the point of intersection and cuts the surface along the pipe diameter direction. The cut surface is also the end of the S section. The pipe diameter of section S on the descending section 32 gradually changes, the first half section of section S on the descending section 32 is a section that gradually changes in the first step, and the pipe diameter of the pipe is water. The diameter of the pipe in the transverse direction gradually changes according to the flowing direction, and gradually changes in the diameter of the longitudinal pipe according to the direction in which the water flows. The remaining arc section of section S on the descending section is a section that gradually changes in the first step, and the pipe diameter of the pipe gradually changes according to the horizontal pipe diameter in the direction in which water flows, and It changes gradually and greatly with the longitudinal pipe diameter. 9 is a schematic diagram showing that the start section, the end of the first gradually changing section, and the sectional plane at the end of the second gradually changing section gradually change. The design in which the pipe diameter of the S section on the descending section 32 gradually changes may allow the flow of water to sufficiently fill the S section on the descent section after the flow of water passes through the siphon peak. First, it is possible to prevent the air in the descending section 32 from circulating to the rising section 31, and at the same time, the air in the descending section 32 can be quickly and completely discharged, thereby ensuring siphon efficiency. The flow of water causes turbulence to occur at a high speed after impacting the second guide surface 322, and rapidly excludes air in the siphon pipe 10 to generate negative pressure. The range of the first power surface 321 and the horizontal plane narrow angle c is 40 degrees to 50 degrees, the range of the second power surface 322 and the horizontal plane narrow angle d is 8 degrees to 12 degrees, and the descending section 32 The lower S section and the drainage passage 9 are connected and passed, and after washing water flows to the lower S section of the descending section and reaches the drainage passage 9, water is discharged to the main drainage pipe. With the S-shaped design of the descending section 32, the lower pipe wall of the lower S section of the descending section 32 protrudes, and the lower pipe wall is a trap with a concave structure when compared to the drainage passage 9. , After draining all the water, water seal water exists in the trap with the concave below. There may be a "single-way valve" action, it may effectively discharge the flow of gas and water in the pipe, and may prevent the process of destroying the siphon by external gas entering the pipe in the reverse direction.

Example 2.

11 and 15, the difference between this embodiment and the embodiment is that there is no second power surface at the end of the upper S section of the descent section 32 of the siphon-type pipe 3, and the descent section The contact point between the right pipe surface of the upper S section of (32) and the vertical direction is the left end point L of the upper S section of the descending section (32), and the left pipe surface of the lower S section of the descending section (32) and the vertical direction The contact point of is located on the left side of the right end point R of the S section under the descending section 32, and this design prevents the air in the drainage passage from circulating into the siphon pipe and destroying the siphon. Thereby, siphon efficiency is improved.

Example 3.

As shown in Figs. 16 and 18, the difference between the present embodiment and the first and second embodiments is that a ventilation path 10 is provided between the auxiliary channel 4 and the channel 5, and the The ventilator is located on the outer wall of the toilet cylinder block 2, and the lower end of the ventilator 10 is connected to and communicates with the auxiliary channel 4. The upper end of the ventilation passage 10 is connected to the water passage 5, and the ventilation passage 10 is located in the arc section of the water passage 5 and is connected to and communicates with the water intake passage 1 From the starting point, it is located in the position of the 1/10 section to the 1/5 section. During drainage, the air in the auxiliary channel 4 can be discharged through the ventilation channel 10, thereby increasing the flow rate of water and improving siphon efficiency.

Hereinafter, the direction in which water flows in the toilet will be described in detail with reference to FIGS. 10 and 15.

The water in the bucket enters the intake passage (1), flows through the water inlet (8), partly enters the auxiliary waterway (4), partly enters the waterway (5), and the waterway (5). ) In the process of flowing water in the waterway (5), it may flow out through the small holes and large holes on the waterway (5), and enter the trap (6) after washing the toilet cylinder block (2). . At this time, the flow of water in the auxiliary channel 4 reaches the trap 6, and then, the flow of water enters the peak of the rise 31 section along the siphon pipe 3, and the first water surface 321 Through the guidance of, it collides on the second power surface 322 (there is no second power surface in Example 2) to form turbulence and enter the lower S section of the descending section 32, and then the drainage ( 9), and flows into the main waste discharge pipe.

Summarizing the above, the present invention proposes a technical solution having a large siphon wave force, and realizes a wall-mounted siphon toilet using a gravity flush method.

The above-described embodiment is only a preferred embodiment of the present invention, and is not a limiting embodiment of the present invention. For general technical personnel in the present field, on the premise that it does not deviate from the principle and spirit of the present invention, all prominent modifications may be made thereto, and all of them should be considered to be within the scope of the claims of the present invention.

In the text, parts according to numbers are as follows. 1-intake channel, 2-toilet cylinder block, 3-siphon pipe, 31-rising section, 32-descending section, 321-first water surface, 322-second water surface, 4-auxiliary waterway, 5-waterway, 51 -1st big hall, 52-2nd big hole, 53-3rd big hole, 54-small hole, 6-trap, 7-water storage surface, 8-water inlet, 9-drainage, 10-ventilation in

Claims (13)

Including a water intake channel, a toilet cylinder block and a siphon pipe,
A water inlet is installed at the end of the intake channel, the water inlet is connected to and communicated with an auxiliary channel and a channel, the channel is located above the toilet cylinder block, and the auxiliary channel is located below the channel, The lower part of the toilet cylinder block has a trap, and when in use, there is a water surface in which water is stored in the upper part of the trap, and the siphon pipe is classified into a rising section and a descending section, and the descending section is S-shaped, and the The descending section is divided into an upper S section and a lower S section, and the pipe diameter of the upper S section of the descending section is gradually changed, and the first section corresponding to the front half of the upper S section of the descent section is gradually The pipe diameter gradually decreases in the horizontal direction of the water flow direction, and gradually increases in the vertical direction of the water flow direction.
Wall-mounted siphon toilet.
The method of claim 1,
When the pipe diameter of the upper S section of the descending section gradually changes, the pipe cutting surface does not change,
Wall-mounted siphon toilet.
The method according to claim 1 or 2,
The left end point of the upper S section of the descending section is located to the left of the right end point of the S section below the descending section,
Wall-mounted siphon toilet.
The method of claim 1,
A large hole and a small hole are installed on the waterway,
Wall-mounted siphon toilet.
The method of claim 4,
A first large hole is installed on the waterway, and a narrow angle α between the first large hole and a center connecting line of the water surface in which the water is stored and the horizontal axis of the water surface in which the water is stored is 8 to 14 degrees,
Wall-mounted siphon toilet.
The method of claim 4,
A second large hole is installed on the channel,
The narrow angle β between the second large hole and the connecting line at the center of the water surface in which the water is stored and the horizontal axis of the water surface in which the water is stored is 17 to 21 degrees,
Wall-mounted siphon toilet.
The method of claim 4,
A third large hole is installed on the waterway, and a narrow angle γ between the third large hole and a center connecting line of the water surface in which the water is stored and the horizontal axis of the water surface in which the water is stored is 45 to 52 degrees,
Wall-mounted siphon toilet.
The method of claim 4,
The number of small holes is 25 to 35, all of which are distributed on the channel,
Wall-mounted siphon toilet.
The method according to any one of claims 4 to 8,
The hole diameter of the small hole is 4 to 6 mm (mm), the hole diameter of the large hole is 6 mm to 10 mm,
Wall-mounted siphon toilet.
The method of claim 1,
The narrow angle a between the intake channel and the vertical surface is 10 degrees to 20 degrees,
Wall-mounted siphon toilet.
The method of claim 1,
A ventilation path is installed between the auxiliary channel and the water channel, the ventilation channel is outside the toilet cylinder block, the lower end of the ventilation channel is connected to and communicates with the auxiliary channel, and the upper end of the ventilation channel is the channel Connected with,
Wall-mounted siphon toilet.
The method of claim 11,
The ventilator is located at a point of a tenth section to a point of a fifth section from a point through which the waterway arc section and the intake channel are connected,
Wall-mounted siphon toilet.
The method of claim 1,
The ratio of water distributed to the waterway and the auxiliary waterway is 1:2 to 1:3,
Wall-mounted siphon toilet.

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