KR970009260B1 - Water-closet - Google Patents

Abstract

As pressing and releasing the handle(2), two rubber tops(3A,3B) are opened at the same time, then water of each buck is drained out through the hole. When the water of the left bucket(1B) is starting to drain, it drains at fast speed since the water drops straight through the sewer(7B,8), at the time the water of the left bucket is almost drained out, the rubber top(3B) stops the hole by its weight.

Description

Water-saving toilet

1 is a conventional toilet structure.

2 is a basic structure of the water-saving toilet of the present invention.

The present invention relates to a water-saving toilet that is designed to reduce the disadvantages of existing toilets and to consume a small amount of water.

If there are ten human invention gowns, one of them is called a toilet. The toilets are installed in all modern buildings, apartments, and homes, because the water is sanitized and sanitized. This flush toilet is very convenient and hygienic while one drawback is that it consumes a lot of water.

Needless to say, water is one of the important resources. Moreover, clean water supplied through the water purification process is a valuable asset without any other examples. But the amount of water so purified is being dumped directly through the toilet to the sewer. According to statistics, the consumption of water per person in Korea is about 0.4 tons per day. Multiplying the South Korean population by 40 million, the amount of water consumed by each household is equivalent to 16 million purified water purified per day. Of this, about 30% of the water consumed through the toilet is about 5 million tons of water is being consumed every day. Considering the amount of water consumed over a year, this is an enormous amount, and if it is possible to save water by changing the structure of the toilet, it would be a great national benefit.

There are some examples of attempts to save water by changing the structure of toilets, but they are not widely used due to the appearance or inconvenience of use in return for water saving. Therefore, in manufacturing a water-saving toilet, it would be most desirable if the following conditions were satisfied.

First, because everyone is familiar with the existing toilet, it should be equal in appearance or convenience.

Ducep, the operation is simple, so that it is not easy to break.

Third, even small amounts of water should be able to clean the stools.

The toilet of the present invention was devised with an emphasis on the above three, and the operation principle thereof will be described next.

First of all, the existing toilet and its operation principle and problems are as follows. After finishing the toilet and pressing the handle (2), the rubber stopper (3) at the bottom of the water tank (1) is teased and water is poured down from the water tank (1) to the toilet (6). Therefore, the water level of the toilet bowl 6 is raised, and when it is higher than the peak P of the U-shaped sewer pipe 7, the water starts to fall down through the sewer pipe 7. As the amount of water falling down gradually decreases the air pressure inside the male tube 7 due to the force of the water falling down, and thus the water in the toilet 6 starts to be sucked into the sewer pipe 7. The water once sucked back down beyond the vertex (P) of the magnetotube (7) to lower the pressure even more, and thus, the force increases rapidly to suck the contents of the toilet with a strong force. This phenomenon can be explained as a kind of positive feed-back phenomenon, and the most important point in order to generate positive suction and generate strong suction force is that the suction force inside the pipe 7 must be greater than a certain threshold value in the intermediate process. Is that. To understand this, let's look at the case of a faulty toilet.

As an example, consider a case where the size of the side is large enough to block the bottom hole of the toilet 6. In this case, even if water is poured from the water container 1 to the toilet by pressing the handle 2, the suction force inside the tube 7 cannot exceed the critical suction force through the hole below the toilet 6, beyond the vertex P. Therefore, a malfunction occurs because the phenomenon cannot be corrected. As described in the above process, it can be seen that the most important point of the operation process of the toilet is to pass the initial critical town manpower inside the Mangwan (7). This critical suction force can be generated after a considerable amount of water has passed through the male tube 7 starting from the time when the knob 2 is pressed. It is the main cause of the cause. In particular, by pressing the handle (2), the water rises beyond the peak (P) level due to the water flowing from the bucket (1) is that the level rise rate is slow. This is slow because the toilet is wider near the peak level. By the way, in order to increase the pressure inside the sewage pipe 7 at a speed faster than the critical suction force, the speed of raising the level of the toilet 6 is better. In other words, a slower rate of rise would require more water to reach the critical suction. Particularly, when the large side blocks a substantial portion of the hole under the toilet 6, a higher water level is required.

The present invention relates to a water-saving toilet that is designed to be operated cleanly while consuming a small amount of water by easily generating a strong suction force within a short time through a separate path through a separate path. The basic structure of the present invention is as shown in FIG. The difference between the basic structure and the first structure is that the water tank is smaller in size and is divided into two (1 _A and 1 _B ) with a partition (9), and each rubber stopper (3 _A and 3 _B ) is placed under each bucket. It is installed separately, and the bifurcated sewage pipes 7 _A and 7 _B are merged into one pipe 8 from the position P past the vertex P of the U-shaped sewer pipe 7 _A. .

Looking at the principle of operation of the toilet of the present invention, the two rubber stoppers (3 _A , 3 _B ) are opened at the same time, the moment when the handle (2) is pressed and released, the water of each bucket (1 _A , 1 _B ) is a hole respectively Will exit. That is, the water in the right barrel 1 goes down to the toilet 6, and the water in the left barrel 1 _A is discharged through the left sewer pipe _7B . At this time, the rate at which the water exits can be adjusted to the hole size of each of the whole wheat, and it is preferable that the water of the right barrel 1 _A is drawn out more slowly than the water of the left barrel 1 _B. The water in the left barrel 1 _B is vertically dropped through the sewage pipes 7 _A and 8 from the beginning of the evacuation, thereby rapidly exiting. Left tube (1 _B) exits the internal water very little left cylinder (1 _B) is be empty, and thus the operation of the rubber plug _(3-B) is a rubber plug (3) of the basic toilet (FIG. 1) by its own weight As with the principle, the low-roll hole is blocked. When the left hole is blocked, a strong suction force is generated inside the sewer pipes 7 _A , 7 _B , and 8 by the water that has already flowed through the sewer pipe 8, and thus the toilet 6 connected through the sewage pipe 7 _A. The contents of the inside will be sucked down in no time. After a short time is granted a certain amount of water by the right bucket water flowing down slowly fills the toilet 6 and donor block the air back flow of sewage pipe (8), a rubber plug (3 of the right side tube (1 _A) over time _A ) is also closed so that the water in the left and right barrels 1 _A and 1 _B is refilled. When water is the is first filled with one barrel (1 _B) by the height of the two cylindrical partition 9 in the process of filling the tube becomes the other tube (1 _A) is rather low populated than the height of the partition (9) plastic reservoir The buoyancy valve 4 is configured to close by the buoyancy force of (5). On the other hand, if the lengths of the straps (10 _A and 10 _B ) connecting the handle (2) and the rubber stopper (3 _A , 3 _B ) are different, the rubber stopper of one barrel (1 _A ) when the handle (2) is slightly pressed It is suitable for urine because it opens only (3 _A ) and operates as in the existing toilet (Figure 1). In this case, only water in the empty container 1 _A is refilled. If the handle is pressed more two rubber stopper (3 _A, 3 _B) as previously discussed is opened almost at the same time it is suitable for chare for feces.

The toilet of the present invention operated in the above-described manner is equivalent in appearance and convenience to the existing toilet and generates a critical suction force through a separate hole, unlike conventional toilets, almost no failure, and a small amount of There is an advantage that can be treated cleanly using water. It is convinced that the toilet of the present invention will greatly contribute nationally in view of the efficient use of precious water resources if widely used.

Claims (3)

As detailed in the text and illustrated in the drawings, the water tank is divided into two (1 _A and 1 _B ), and the water in each water tank is respectively flushed through the holes under the rubber stoppers 3 _A and 3 _B under the respective water tanks. connect to _B) to flow in and ridorok, sewer connected directly to the cylinder in (7, _B) are connected across the toilet ∩ party sewer (7 _B) other sewer (8) combined through the vertex (P) of |) and sewer (7 With the structure made, the handle 2 was pressed hard. When placed, the two rubber stoppers 3 _A and 3 _B open at about the same time, so that a separate suction force is strongly generated inside the sewer pipes 7 _A , 7 _B and 8 by the water directly flowing out of one barrel 1 _B. Water-saving toilet bowl invented to clean the contents of the toilet (6). 2. The handle 2 is pressed lightly. When placed one rubber plug (3 _B), only the open structure different from each other, the length of the strap (10 _A, 10 _B) to handle the urine and so on only one side of the water tub (1 _A). 2. The water supply valve according to claim 1, wherein when the water in the two cylinders (1 _A , 1 _B ) is filled, there is a water pipe valve (4) in one cylinder (1 _B ) and an air cylinder (5) in the other cylinder (1 _A ). Structure to be filled with water.