KR20170106528A - Water saving closet - Google Patents

Abstract

The present invention relates to a water-saving toilet capable of reducing waste of washing water by reducing a delay time of storing a part of the washing water in a bowl by directly supplying the part of the washing water to a sewage discharge unit rotating by the weight thereof when a predetermined amount of the washing water for washing is stored without passing through the bowl when the washing water is injected into the toilet. According to the present invention, the water-saving toilet comprises: a toilet body unit (1100) including the bowl (1110) in which a predetermined amount of sewage is stored having a direct water inlet path (1150), wherein the toilet main body (1100) includes a connection pipe (1120) discharging the sewage stored in the bowl (1110), and a cover unit (1130); a branch unit (1200) dividing a part of direct water from the direct water inlet path (1150), enabling the part of the direct water to fall down into a cover unit (1130); a corrugated pipe (1300) capable of bending; a sewage discharge pipe (1400) located in the cover unit (1130), wherein an end on one side is connected to the corrugated pipe (1300) and is erect; a cover (1410) to discharge the sewage installed in a discharge end of the sewage discharge pipe (1400) and being able to be opened and closed while closing the sewage discharge pipe (1400); a storage unit (1420) rotating the sewage discharge pipe (1400) by the weight thereof when the predetermined amount of the direct water is stored; and an elastic unit (1500) elastically connecting the connection pipe (1120) and the sewage discharge pipe (1400).

Description

Water-saving toilet bowl {WATER SAVING CLOSET}

The present invention relates to a water-saving toilet bowl, and more particularly, it relates to a water-saving toilet bowl, in which when washing water for washing is put into a toilet, a portion of the washing water is stored in a bowl, Thereby reducing the waste of the washing water.

Generally, the principle of siphon is used to store a certain amount of water in the toilet bowl to smoothly wash the odor or manure coming from the outlet of the manure.

This siphon principle is that when the water level in the inverted U-tube and the water level in the toilet are in equilibrium, the water is stagnant while when the water level in the toilet bowl suddenly increases, the pressure in the toilet bowl is accompanied, And the water in the toilet bowl is discharged by the pressure difference of the toilet bowl.

A conventional toilet bowl comprises a bowl 2 for draining a predetermined amount of water as shown in Fig. 1, and a bowl 2 for storing water for a predetermined amount at a position higher than the bowl 2, And a water storage tank 1 connected to the water storage tank 2 through a supply passage 2a closed by a water supply port packing 5. The operation of the water discharge lever 3 provided in the water storage tank 1 causes the water discharge lever The water supply port packing 5 connected to the water supply port 3 opens the water supply port 10 so that the water in the water storage tank 1 is rapidly supplied to the bowl 2 through the supply path 2a, (2b) by the siphon effect produced by the water drained along the drainage passage (2b) of the bowl by the water pressure generated in the bowl (2) and the water pressure thereof in accordance with the increase in the water level in the bowl 2c to the drain port 2d.

However, the conventional toilet bowl as described above must always maintain a water level higher than the level of the drain trap 2c to prevent reverse flow of odor and the like in the bowl, and also to maintain the water level of the drain trap 2c There has been a problem that the consumption of water is large because water must be used.

Further, since the existing toilet bowl should have a diameter of 45 mm or more, which is normally set to 45 to 55 mm, which is determined by the KS standard or the like, for discharging the dirt of the bowl discharge tube, it is necessary to generate a siphon phenomenon in order to clean the dirt in the bowl. In order to generate such a siphon phenomenon, at least 60 mm of water must be supplied to the inside of the bowl at a time. Therefore, in order to solve this problem, a conventional toilet is provided with a water tank and a certain amount of water is stored in the water tank. The siphon phenomenon occurs and water is supplied to the inside of the bowl through the water channel which communicates with the water tank and the bowl.

Therefore, even if water is supplied to the inside of the bowl, the diameter of the bowl discharge pipe is usually 45 to 55 mm, so that the siphon phenomenon can not be generated, and the bowl is discharged through the bowl discharge pipe. Can not be cleaned.

In the case of the male urinal, the automatic urinal can not be generalized because the dirty water can not be cleaned by the direct connection of the water pipe for the above-mentioned reason, although the automatic urinal cleaning is generalized by the detector using the water direct connection.

In addition, since the existing toilet has to have the function of the water tank, it can be cleaned. Therefore, there are space limitations because the design can not be reduced due to the design limitation and the water tank. In addition, when making a pottery (a so-called "one piece type toilet)" with a tank and a seat integrally formed, the defective rate is high and the yield of production is decreased,

In addition, even if water leakage occurs due to a failure of the water supply pipe installed in the water tank, it is difficult for the user to easily detect the water leakage. In addition, in the case of a public toilet, such as a public toilet, a so-called flash toilet, there is no water tank, so a separate 25 mm (1 in) diameter pipe is provided separately from the water pipe As the equipment must be installed, enormous equipment cost is added. In case of lever operation, it is a phenomenon called "water hammer" and it is accompanied by severe noise and can not be used for general residential use.

In order to solve some of such problems, Korean Patent Registration No. 10-1131810 entitled " Variable Double Line Tubular Water Saving Toilet Seat " filed by the present applicant has been disclosed.

However, since the variable double-rectilinear tube can operate in a conventional water supply channel and a bowl rim, when the water level in the bowl rises when the water is supplied to the water, the variable rectilinear pipe is downward, It is impossible to use the water pressure as a result, and there is a problem in washing the inside of the bowl, and it is difficult to control the downward delay time of the variable linear tube when discharging the dirt, Backflow occurs occasionally.

Therefore, in the case of supplying the water supply directly to the toilet without using the water tub described in the above-mentioned patent, the above-described problem is accompanied. Therefore, in order to solve the above-mentioned problem, a water tank must be provided. As described above, since the water tank is provided, the manufacturing cost is increased, and the space occupied by the water tank is not utilized.

In addition, if the length of the variable double-rectilinear tube is long, rotation of the variable double-rectilinear tube by weight may be performed to discharge the dirt. As the length of the variable double rectilinear tube becomes longer, the radius of rotation of the variable double rectilinear tube becomes larger, and the space of the cover portion accommodating the variable double rectilinear tube becomes larger. As a result, the toilet becomes bigger and the installation becomes difficult in a narrow space .

In addition, since the variable double-rectilinear tube is required to store a low water content inside the bowl by maintaining an angle of about 45 degrees when the dirt is discharged, that is, in the air, the elastic force of the constant tension spring You must keep it. In addition, the elastic force of the tension spring must be further increased to restore the original state of the variable double-rectilinear tube rotated at 45 degrees or more during the dirt washing. Therefore, if the washing water is not used more than the proper amount to have a larger weight than the elastic force of the tension spring, the restoring force of the tension spring becomes strong and the variable double linear tube does not rotate over a certain angle for discharging the dirt. There is a problem of backflow.

In addition, one side of the tension spring coupled with the variable dual straight tube is fixed to the bracket, which is attached to the pottery. In order to attach the bracket to a bowl made of ceramics, it is attached using screws or the like. However, since it is difficult to attach the bracket due to the nature of ceramics, there is a problem in productivity and stable quality control.

In order to solve such a problem, Korean Patent Registration No. 10-1453013 (entitled "Rectangular water saving toilet bowl") has been disclosed and is shown in FIG. 2 to FIG.

The direct water-taking water-saving toilet seat is installed on a floor or a wall, and a direct-milk-water receiving portion (101a) in which a direct water-feeding inlet (50) A bowl 101 for storing a predetermined amount of water and a connection pipe 110 for discharging waste water to be stored in the bowl 101. The bowl 101 covers the rear of the bowl 101, A toilet bowl body 100 having a cover portion 102 for guiding exhausted dirt to a bottom pipe 103 for discharging exhausted water to the outside of the toilet bowl; A corrugated pipe 200 connected to the connection pipe 110 and forming a flow path of wastewater drained from the bowl 101 and capable of being bent; When the wastewater flowing from the corrugated pipe 200 has a predetermined amount, the wastewater flows elastically along the downward direction to discharge the wastewater to the outside through the main discharge channel. In addition, A waste water discharge pipe 400 for storing a predetermined amount of water and discharging the waste water to the outside through the auxiliary discharge flow path to delay the discharge time of the waste water discharged through the main discharge flow path; And elastically connecting the connection pipe 110 and the wastewater discharge pipe 400. When the amount of wastewater flowing from the wrinkle pipe 200 becomes less than a predetermined amount, (500); The elastic part 500 is fixed to the connection pipe 110 and is connected to the connection pipe 110 at a right angle to the direction of flow of the connection pipe 110 outside the connection pipe 110. A pair of first squeezing members 510 protruding from both sides of the sewage pipe 400 and provided with projections 511 formed with first hook holes 511a, A pair of second stretching members 520 on which the hooking holes 521 are formed and a pair of second hooking members 520 having one end connected to the first hooking hole 511a And a pair of elastic members (530).

The wastewater discharge pipe 400 includes a cylindrical main discharge pipe 410 connected to an end of the bell pipe 200 on the discharge side of the wastewater pipe 200 and a portion of the main discharge pipe 410 The main discharge pipe 410 and the auxiliary discharge pipe 420 are communicated with each other so that the main discharge pipe 410 and the auxiliary discharge pipe 420 are connected to each other through the corrugated pipe 200 A drainage hole 411 for discharging the wastewater flowing into the auxiliary discharge pipe 420 is formed at an end of the auxiliary discharge pipe 420 on the discharge side of the discharge pipe 420, And an auxiliary discharge hole 421 for discharging the auxiliary discharge hole 421 to the outside is formed.

2 and 3, the wastewater stored in the bowl 101 flows into the connection pipe 110 and the corrugated pipe (not shown) The wastewater flowing into the main discharge pipe 410 flows into the main discharge pipe 410 through the auxiliary discharge pipe 420 contacting the auxiliary discharge pipe 420 surrounding the main discharge pipe 410, (420) connected to the lower end of the main discharge pipe (410) through a pair of discharge holes (411) formed on both sides of the main discharge pipe (410) located on both ends of the main discharge pipe ). ≪ / RTI > When a predetermined amount of wastewater is stored in the auxiliary discharge pipe 420, the entire wastewater discharge pipe 400 is rotated to be horizontal (90 degrees or more) as shown in FIG. 4, and discharged to the auxiliary discharge pipe 420 The stored wastewater is discharged to the outside through the auxiliary discharge hole 421 formed at the rear end of the auxiliary discharge pipe 420, that is, at the waste water discharge side end, and is discharged downward.

The water stored in the bowl 101 is discharged into the auxiliary discharge pipe 420 and a certain amount of wastewater is stored in the auxiliary discharge pipe 420 so that the waste water discharge pipe 400 is discharged downward and discharged , And an operation delay time.

In addition, even when water is manually introduced into the bowl 101 for washing the bowl 101, a certain amount of wastewater is discharged into the auxiliary discharge pipe 420 and stored in the auxiliary discharge pipe 420, 400 are dropped downward and the water stored in the bowl 101 is discharged. In the case of such a malfunction, there is no water left in the bowl 101, so that there is a problem in that the operation for introducing the direct water into the bowl 101 must be performed again.

Even if the bowl 101 is continuously filled with direct water for cleaning the bowl 101, the sewage is discharged into the auxiliary discharge pipe 420 and a certain amount of wastewater is stored in the auxiliary discharge pipe 420, 400 are dropped downward and the water stored in the bowl 101 is discharged. In the case of such a malfunction, there is no water left in the bowl 101, so that there is a problem in that the operation for introducing the direct water into the bowl 101 must be performed again.

In order to wash the sewage in the bowl 101, a direct water is injected into the bowl 101 by operating a button or a lever. When the amount of water injected into the bowl 101 becomes a predetermined amount or more, 411 to the inside of the auxiliary discharge pipe 420 and the sewage discharge pipe 400 is rotated downward by its own weight when the predetermined amount of wastewater stored in the auxiliary discharge pipe 420 is stored to discharge the sewage in the bowl 101 . At this time, when discharged from the main discharge pipe 410 to the auxiliary discharge pipe 420, the wastewater is discharged into the auxiliary discharge pipe 420 and has a delay time until a certain amount is stored.

The delay time until the wastewater in the bowl 101 is discharged to the inside of the auxiliary discharge pipe 420 and stored in a certain amount causes the phenomenon that the wastewater in the bowl 101 gradually becomes mixed with the charged water. When the sewage in the bowl 101 gradually increases with the input water, the dirt is scattered not only in the bowl 101 but also inside the toilet. This scattered dirt contains a large amount of germs, and even if the bowl 101 is washed, the germs are left on the upper part of the bowl 101, and the germs are attached to a toothbrush provided on a sink or the like. Accumulation of these germs due to frequent use will adversely affect the cleanliness of the bowl 101 and the toilet.

When the wastewater in the bowl 101 is gradually increased in accordance with the delayed time, the water that has been introduced into the bowl 101 is discharged from the main discharge pipe 410 through the discharge hole 411 to the auxiliary discharge pipe 420, and the amount of the water flowing into the bowl 101 is much larger than the amount of the water discharged into the auxiliary discharge pipe 420 and stored therein. At this time, the water injected into the bowl 101 does not largely participate in the washing, and is mainly discharged and stored in the auxiliary discharge pipe 420. As described above, the entering water into the bowl 101 does not greatly contribute to the washing, and rather the dirt increases in the bowl, thus wasting washing water.

The present invention relates to a water-saving toilet bowl, and more particularly, it relates to a water-saving toilet bowl wherein when a washing water for cleaning is supplied to a toilet, a portion of washing water is directly supplied to a waste water discharge unit Thereby reducing the waste of the washing water.

It is another object of the present invention to provide a water saving toilet bowl which prevents wasted washing water and scattering of dirt from being scattered by preventing wash water for cleaning from entering the toilet bowl together with wastewater in the bowl.

The water-saving toilet bowl according to an embodiment of the present invention includes a direct water inflow path 1150 formed in a floor or a wall and having an upper portion opened and opened at an outer periphery thereof, A bowl 1110 and a connection pipe 1120 for discharging the waste water stored in the bowl 1110. The bowl 1110 covers the rear of the bowl 1110 and discharges dirt discharged through the connection pipe 1120, A toilet bowl body 1100 having a cover 1130 to be guided to a bottom pipe 1140 to be discharged to the outside; A branching part 1200 installed inside the direct-path inflow path 1150 and parting direct water from the direct-path inflow path 1150 when the water flows into the bowl 1110 and falling into the cover part 1130, ; A bellows pipe 1300 connected to the connection pipe 1120 and forming a flow path of wastewater drained from the bowl 1110 and capable of being bent; And is disposed in the cover part 1130 so that one end thereof is connected to the corrugated pipe 1300 so as to be communicated and erected and the wastewater flowing from the bowl 1110 through the corrugated pipe 1300 A wastewater discharge pipe 1400 as a straight pipe to be discharged to the cover portion 1130; A cover 1410 disposed at a discharge side end of the waste water discharge pipe 1400 to close the waste water discharge pipe 1400 and to be rotated when the waste water is discharged to be opened; When the direct water stored in the upper part of the cover for discharging the waste water 1410 and branched by the branching unit 1200 is stored and the stored water has a predetermined amount, the waste water discharge pipe 1400 is rotated (1420); The connection pipe 1120 and the waste water discharge pipe 1400 are elastically connected to each other and the waste water discharge pipe 1400 is uprighted after the waste water is discharged, so that the sewage in the bowl 1110 is discharged to the waste water discharge pipe 1400 An elastic part 1500 having an elastic force for preventing discharge; And a control unit.

The direct water inflow passage 1150 is formed with a branch portion coupling hole 1151 through which the branch portion 1200 is inserted and coupled, and the branch portion 1200 is connected to the inside of the direct water inflow passage 1150 And the end of the branch portion 1200 positioned inside the direct-path inflow path 1150 is inserted into the branch portion coupling hole 1151 vertically to the straight-line inflow path 1150, Is positioned higher than the bottom of the direct-current inflow path (1150) so that a part of direct water from the inflow path (1150) can be prevented from being branched by the branching section (1200).

The upper end of the branched portion 1200 located inside the direct-current inflow path 1150 is formed with a sloped surface 1210 formed to be inclined such that one side is high and the other side is low.

In addition, the branching unit 1200 can change the angle formed by the inclined surface 1210 with the direct water inflow direction to control the amount of direct water flowing into the branching unit 1200, And is rotatably coupled to the main body.

In addition, a lower portion of the branch portion 1200 is opened when the direct water is partially branched from the direct water inflow passage 1150 through the branch portion 1200, and is closed when the direct water does not flow, To prevent the odor from flowing back to the direct-path inflow path (1150).

And an odor preventing part 1600 installed inside the corrugated pipe 1300 and being opened by the flow of the wastewater when the wastewater flows and being closed when the wastewater does not flow .

The water saving toilet bowl according to another embodiment of the present invention includes a water tub 500; A bowl 1110 is installed at the bottom of the water tank 500 and is installed on a floor or a wall and a predetermined amount of wastewater is stored from the water tank 500 through a water inlet / And a bottom pipe 1140 covering the rear of the bowl 1110 and discharging the dirt discharged through the connection pipe 1120 to the outside of the toilet bowl A toilet body portion 1100 provided with a cover portion 1130; A branching part 1200 provided inside the water supply inflow path 1160 and allowing a part of water to flow from the water supply inflow path 1160 to the inside of the cover part 1130 when water is supplied to the bowl 1110; A bellows pipe 1300 connected to the connection pipe 1120 and forming a flow path of wastewater drained from the bowl 1110 and capable of being bent; And is disposed in the cover part 1130 so that one end thereof is connected to the corrugated pipe 1300 so as to be communicated and erected and the wastewater flowing from the bowl 1110 through the corrugated pipe 1300 A wastewater discharge pipe 1400 as a straight pipe to be discharged to the cover portion 1130; A cover 1410 disposed at a discharge side end of the waste water discharge pipe 1400 to close the waste water discharge pipe 1400 and to be rotated when the waste water is discharged to be opened; The wastewater discharged from the branched portion 1200 is stored in the upper portion of the cover 1410 for discharging the wastewater. When the stored wastewater reaches a predetermined amount, the wastewater discharge pipe 1400 is rotated (1420); The connection pipe 1120 and the waste water discharge pipe 1400 are elastically connected to each other and the waste water discharge pipe 1400 is uprighted after the waste water is discharged, so that the sewage in the bowl 1110 is discharged to the waste water discharge pipe 1400 An elastic part 1500 having an elastic force for preventing discharge; And a control unit.

In addition, the water supply inlet passage 1160 is formed with a branch portion coupling hole 1151 through which the branch portion 1200 is inserted and coupled, and the branch portion 1200 is connected to the inside of the water supply inlet path 1160 And the end portion of the branched portion 1200 positioned inside the water inlet inflow passage 1160 is connected to the water inlet inflow passage 1160 at a predetermined water level The water supply inlet path 1160 is positioned higher than the bottom of the water supply inlet path 1160 so that a portion of the water from the water supply inlet path 1160 can be prevented from being branched by the branching section 1200.

In addition, the upper end of the branched portion 1200 located inside the water inlet flow path 1160 is formed with a sloped surface 1210 which is inclined so that one side is high and the other side is low.

The branched portion 1200 may be formed in the branched portion coupling hole 1151 so as to control the amount of water flowing into the branched portion 1200 so that the angle formed between the inclined surface 1210 and the water inlet / And is rotatably coupled to the motor.

In addition, a lower portion of the branch portion 1200 is opened when the water supply is partially branched from the water supply inflow passage 1160 through the branch portion 1200, and is closed when the water supply does not flow, To prevent the odor from flowing back to the water supply inflow path (1160).

And an odor preventing part 1600 installed inside the corrugated pipe 1300 and being opened by the flow of the wastewater when the wastewater flows and being closed when the wastewater does not flow .

The present invention relates to a storage unit provided in a waste water discharge cover provided at a discharge side end portion of a waste water discharge pipe which is rotated by its own weight when a direct water for washing is stored in a bowl without passing through a bowl, So that the delay time stored in the bowl for washing can be reduced.

Since the portion of the direct water is directly supplied to the storage portion provided in the waste discharge cover provided at the discharge side end of the waste water discharge pipe without passing through the bowl, the washing water for washing or the washing water supplied from the water tank is supplied to the toilet Most of the washing water is involved in the washing when put in the washing water, and thus waste of the washing water can be drastically reduced.

Further, since the delay time stored in the storage unit can be reduced, it is prevented that the wash water supplied from the water tank for washing or the washing water supplied from the water tank comes into contact with wastewater in the bowl when it is put in the toilet bowl, do.

In addition, since scattering of dirt is prevented, cleanliness of the bowl and the toilet can be maintained.

In addition, when the water stored in the running water or the water tank is not supplied, the sewage discharge pipe can not be rotated. Therefore, when a large amount of water is artificially introduced into the lumber for cleaning the lumber or the user keeps pressing the lever, There is an effect that a rotation malfunction is not caused.

Further, when the water supplied from the running water or the water tank is partially branched, the amount of the branched water necessary for rotating the waste water discharge pipe according to the water pressure can be controlled.

1 is a view showing a configuration of a conventional toilet bowl.
2 to 4 are views showing a conventional water-saving type water-saving toilet bowl.
5 and 6 are views showing a state of the water-saving toilet bowl before sewage is discharged according to an embodiment of the present invention.
7 and 8 are views showing a state in which waste water is discharged from a water saving toilet seat according to an embodiment of the present invention.
9 is an exploded perspective view showing a connection state between a drain pipe and a resilient part of the water saving toilet seat according to the present invention.
10 is a view showing a water saving toilet bowl according to another embodiment of the present invention.

Hereinafter, a water saving toilet seat of the present invention will be described with reference to the accompanying drawings.

The water saving toilet bowl of the present invention can be distinguished as a direct drinking water toilet flushing with direct water and a water toilet flushing water using water stored in the water bath.

The water-saving toilet bowl according to one embodiment of the present invention is described as follows.

FIGS. 5 and 6 are views showing a state of the water-saving toilet seat before the water is discharged according to an embodiment of the present invention, and FIGS. 7 and 8 are views showing a state in which the water of the water-saving toilet seat according to the embodiment of the present invention is discharged And FIG. 9 is an exploded perspective view showing a connection state between a waste discharge portion and an elastic portion of the water saving toilet seat according to the present invention.

5 to 8, a water saving toilet bowl according to an embodiment of the present invention includes a toilet body portion 1100, a branch portion 1200, a corrugated pipe 1300, a sewage discharge pipe 1400, A discharge cover 1410, a storage portion 1420, and an elastic portion 1500.

The urinal body portion 1100 and the corrugated tube 1300 and the elastic portion 1500 are the same as those disclosed in Korean Patent No. 10-1453013 entitled "Rectangular water saving toilet bowl".

The toilet flap body 1100 according to the present invention is installed on the floor or wall of the toilet. The figure shows the state of being installed on the floor of the toilet. Since the toilet according to the present invention does not need a water tank, the weight of the toilet can be light and the length of the waste water discharge pipe 1400 can be shortened. Therefore, the toilet can be downsized and can be installed on the wall of the toilet.

The toilet bowl body 1100 includes a bowl 1110 storing a predetermined amount of wastewater, a connection pipe 1120 discharging sewage water from the bowl 1110, and a cover portion 1130 covering the rear of the bowl 1110 .

The bowl 1110 is formed with a direct water inflow path 1150 through which the direct water flows from the outside to the outer periphery of which the upper part is opened and opened and a certain amount of direct water flowing through the direct water inflow path 1150 is stored. The bowl 1110 has the same shape as that applied to a general toilet seat, but in the case of a direct-intake toilet seat according to the present invention, the water supply passage typically has a diameter of 60 mm or more because the toilet seat is supplied with water at a general toilet seat. The direct intake passage 1150 of the bowl 1130 is approximately 20 mm in diameter, and the direct intake passage of the normal left-hand side formed in the outer periphery of the bowl is generally 30 mm or more in diameter. The direct water inflow path 1150 formed in the opened outer periphery has to be about 15 mm so that the direct water pressure can be used as it is.

The connection pipe 1120 discharges wastewater stored in the bowl 1110 to the cover part 1130 and protrudes toward the rear of the bowl 1110.

The cover 1130 is guided to the bottom pipe 1140 which covers the rear of the bowl 1110 and discharges the dirt discharged through the connection pipe 1120 to the outside of the toilet bowl.

The corrugated pipe 1300 according to the present invention forms a flow path of the wastewater discharged from the bowl 1110 and is connected to the connection pipe 1120. That is, one end of the bellows pipe 1300 is connected to the end of the connection pipe 1120.

One end of the corrugated pipe 1300 may be fixed to the connection pipe 1120, or may be screwed and screwed.

The corrugated pipe 1300 is flexible and can be bent by an external force.

And an odor prevention part 1600 installed inside the corrugated pipe 1300 and opened by the flow of the wastewater when the wastewater flows and closed when the wastewater does not flow.

5 to 8, the odor prevention part 1600 according to the present invention is installed inside the bell pipe 1300, and when the wastewater flows, it is opened by the flow of the wastewater, If not, it is closed.

The odor prevention part 1600 is also the same as that disclosed in Korean Patent No. 10-1453013 (entitled "Rectangular water saving toilet bowl").

The malodor prevention part 1600 includes a malodor prevention member 1610 disposed inside the corrugated pipe 1300 and formed in a hollow shape and formed of flexible vinyl or thin rubber.

The malodor-preventing member 1610 may be formed of a flexible or flexible vinyl or rubber.

One end of the malodor-preventing member 1610 is fixed to one end of the bellows pipe 1300 on the inflow side. The fixing method may be performed using an adhesive.

The other end of the malodor-preventing member 1610 is disposed to form a free end along the waste water discharge side of the corrugated pipe 1300. That is, the other end of the malodor-preventing member 1610 is not fixed inside the corrugated pipe 1300.

When the wastewater stored in the bowl 1110 flows into the corrugated pipe 1300 through the connection pipe 1120, the flowing wastewater flows into the hollow of the odor prevention member 1610 and flows into the odor prevention member 1610, Can be opened.

At this time. The periphery of the odor preventing member 1610 can be brought into close contact with the inner periphery of the bellows pipe 1300.

When the flow of the wastewater through the corrugated pipe 1300 is completed, the other end of the malodor-preventing member 1610 disposed at the free end is changed in appearance so as to be in close contact with each other.

That is, after all the wastewater is discharged, the other end of the malodor-preventing member 1610 is in close contact with each other and closed.

Accordingly, the other end of the odor prevention member 1610 is closed to some extent, and thus, the odor from the side from which the sewage is discharged can be minimized to flow back toward the bowl 1110 side.

5 and 7, the branching unit 1200 according to the present invention is installed inside the direct-running water inflow passage 1150, and when the direct water is introduced into the bowl 1110, So that it falls into the cover part 1130. [0052] As shown in FIG.

The direct water inflow path 1150 is formed with a branch portion coupling hole 1151 through which the branching portion 1200 is inserted and coupled and the branching portion 1200 is connected to the inside of the direct water inflow path 1150 To be inserted into the branched portion coupling hole 1151 in a vertical direction.

The wastewater discharge pipe 1400 is located in the cover part 1130 and is connected to the corrugated pipe 1300 so as to communicate with the corrugated pipe 1300. The corrugated pipe 1300, So that the wastewater flowing into the cover portion 1130 is discharged through the pipe 1130.

The wastewater discharge cover 1410 is provided at a discharge side end of the wastewater discharge pipe 1400 to close the wastewater discharge pipe 1400 and is fixed at one side so as to be rotated when the waste water is discharged. In the state where the waste water discharge pipe 1400 is upright, the waste water discharge pipe 1400 closes the waste water discharge pipe 1400. When the waste water discharge pipe 1400 is rotated downward to discharge the waste water, The discharge cover 1410 is opened by the discharge pressure of the waste water to open the discharge side of the waste water discharge pipe 1400 to discharge the waste water.

In addition, when the waste water discharge pipe 1400 is in the upright state, the waste water discharge cover 1410 may be disposed in the cover part 1130 through the waste water discharge pipe 1400, through the corrugated pipe 1300, To prevent backflow into the inside.

The storage unit 1420 is provided at an upper portion of the outside of the cover 1410 for discharging the waste water and stores the direct water that is branched by the branch unit 1200. When the stored direct water has a predetermined amount, And serves to rotate the waste water discharge pipe 1400.

The wastewater discharge pipe 1400 is in an upright state in an initial state. When the directivity branching by the branching unit 1200 is stored in the storage unit 1420, the wastewater discharge pipe 1400 enters the storage unit 1420 So that the wastewater flowing from the corrugated pipe 1300 through the connection pipe 1120 is discharged from the bowl 1110 to the cover part 1130. Since the wastewater discharge pipe 1400 is a straight pipe, the wastewater is discharged to the rear of the cover part 1130.

The storage unit 1420 provided at an upper portion of the outside of the waste water discharge cover 1410 provided at the discharge side end of the waste water discharge pipe 1400 is configured to store a direct water dropped by the branch unit 1200 And direct water stored in the storage part 1420 is completely discharged through the discharge port 1421 provided in the lower part of the storage part 1420 when the waste water discharge pipe 1400 rotates downward. At this time, when the direct water flows into the storage unit 1420, the water is discharged through the discharge port 1421, but the amount of direct water branched by the branching unit 1200 is much larger than the amount discharged through the discharge port 1421 Therefore, there is no problem in that the number of directings branched by the branching unit 1200 is stored in the storage unit 1420 at all.

When the waste water discharge pipe 1400 is rotated to discharge the waste water through the waste water discharge pipe 1400, the direct water stored in the storage unit 1420 is discharged through the discharge port 1421 and the waste water discharged through the waste water discharge pipe 1400 The storage portion 1420 is almost empty and the waste water discharge pipe 1400 is rotated upward by the elastic force of the elastic portion 1500 to maintain the upright state.

The elastic part 1500 elastically connects the connection pipe 1120 and the wastewater discharge pipe 1400 as shown in FIGS. 6, 8 and 9, and the wastewater flowing from the wrinkle pipe 1300 6, the wastewater discharge pipe 1400 is in an upright state and has an elastic force to prevent the wastewater in the bowl 1110 from being discharged to the wastewater discharge pipe 1400.

The elastic part 1500 is the same as the elastic part described in Korean Patent No. 10-1453013 (entitled "Rectangular water saving toilet bowl").

6, 8, and 9, the elastic part 1500 is fixed to the connection pipe 1120 and is disposed outside the connection pipe 1120 at a right angle to the misfire direction of the connection pipe 1120, A pair of first stretching members 1510 protruding from both sides of the outer side of the connection pipe 1120 and provided with protrusions 1511 formed with first hooking holes 1511a, A pair of second stretching members 1520 provided on the outer side of the second supporting member 1520 and each having a second engaging hole 1521 formed therein and one end connected to the pair of second stretching members 1520, And a pair of elastic members 1530 connected to the one-piece sink hole 1511a.

The first engaging members 1511a of the first engaging member 1510 are spaced apart from the protruding portions 1511 of the first engaging member 1510.

The first strapping member 1510 may be fastened to the connection pipe 1120 by bolts and inserted into the connection pipe 1120. Since the toilet bowl is mostly made of ceramics, the connecting pipe 1120 of the toilet bowl may be damaged in the case of the bolt fastening method when the first strapping member 1510 is fastened.

In the case of the fixed fitting type, a coupling pipe coupling part 1512 is further provided to be fitted to the coupling pipe 1120 by fitting the coupling pipe 1120 into the first stretching member 1510. The coupling tube coupling portion 1512 is a ring-shaped pipe.

The pair of second stretching members 1520 are formed in a plate-like shape and protrude outward from the waste water discharge pipe 1310, respectively.

It is preferable that the second hooking holes 1521 are provided at a plurality of intervals in the vertical or horizontal direction in each of the pair of second stretching members 1520.

A plurality of first engaging holes 1511a of the first engaging member 1510 and a second engaging hole 1521 of the second engaging member 1520 are provided to adjust the elastic force of the elastic member 1530 to be. The adjustment of the elastic force of the elastic member 1530 is related to the rotation of the waste water discharge pipe 1400 due to the weight of the water stored in the storage part 1420 according to the inflow amount of the direct water to the storage part 1420. When the elastic force of the elastic member 1530 is increased, the waste water discharge pipe 1400 is rotated by the self weight of the water stored in the storage part 1420 when the direct water inflow amount in the storage part 1420 is large, When the elastic force of the elastic member 1530 is reduced, even if the inflow amount of the direct water branched by the branching unit 1200 and stored in the storage unit 1420 is small, So that the waste water discharge pipe 1400 is rotated by the weight of the discharged water. However, in order to smoothly discharge the wastewater, it is desirable that the elastic force of the elastic member 1530 is appropriately maintained.

The pair of second stagger members 1520 may be arranged at a right angle to the inflow direction of the wastewater discharge pipe 1310 so as to be close to the upper portion of the connection pipe 1120 on the wastewater inflow side end portion of the wastewater discharge pipe 1310. [ So as to protrude outwardly of the waste water discharge pipe 1310.

The pair of second squeezing members 1520 may be disposed at a position orthogonal to the inflow direction of the waste water in the waste water discharge pipe 1310 so as to be close to the upper portion of the connection pipe 1120 on the waste water inflow side end portion of the waste water discharge pipe 1310. [ The sewage discharge pipe 1400 can be smoothly rotated upright after the discharge of the waste water. If the pair of second squeezing members 1520 are provided far from the upper portion of the connection pipe 1120 on the end portion of the sewage discharge pipe 1310 on the sewage discharge pipe 1310, And can be rotated downward. In this case, even if the direct water is supplied into the bowl 1110 after the discharge of the waste water, the waste water is completely discharged through the waste water discharge pipe 1310, so that the waste water is not stored in the bowl 1110. Therefore, in order to prevent such a malfunction, the pair of second squeezing members 1520 may be connected to the waste water discharge pipe 1310 so as to be close to the upper portion of the connection pipe 1120 on the waste water inflow side end portion of the waste water discharge pipe 1310, So that the sewage discharge pipe 1400 can be rotated upright after the discharge of sewage water.

Referring to the configuration of the water-saving toilet bowl of the present invention, when the direct water does not flow into the direct water inflow path 1150, the waste water discharge pipe 1400 remains in an upright state as shown in FIG. 5 and FIG. When the waste water discharge pipe 1400 is in the upright state, the corrugated pipe 1300 and the waste water discharge pipe 1310 are almost perpendicular to each other and the water contained in the bowl 1110 is not discharged.

When the direct water flows into the direct water inflow path 1150 for washing the bowl 1110, some direct water is branched into the branch part 1200 installed inside the direct water inflow path 1150, And then stored in the storage unit 1420. [0064] FIG. Since the storage unit 1420 is provided outside the waste water discharge cover 1430 provided at the discharge side of the waste water discharge pipe 1400 when the stored water is stored in the storage unit 1420, The wastewater discharge pipe 1400 is rotated downward by the weight of the direct water stored in the portion 1420 (see FIGS. 7 and 8).

When the waste water discharge pipe 1400 is rotated downward, the connection pipe 1120 is substantially horizontal with the corrugated pipe 1300 and the waste water discharge pipe 1310 (actually, the waste water discharge pipe 1310 is in a low state The dirt contained in the bowl 1110 is discharged to the cover part 1130 through the corrugated pipe 1300 and the waste water discharge pipe 1310.

At this time, the direct water stored in the storage unit 1420 is discharged through the discharge port 1421 provided in the lower part of the storage unit 1420 at the time of discharging the waste water in the bowl 1110 while the waste water discharge pipe 1400 is rotated downward. And is discharged to the outside of the unit 1420.

The direct water stored in the storage unit 1420 is discharged to the outside of the storage unit 1420 through the discharge port 1421 discharged to the outside of the storage unit 1420, The sewage discharge pipe 1400 is returned to its original position due to the elastic force of the elastic part 1500 so that the sewage discharge pipe 1400 is maintained in an upright state as shown in FIG. ), The direct water stored in the bowl 1110 is no longer discharged to the outside from the bowl 1110 after washing.

When the direct water stored in the storage part 1420 is discharged through the discharge port 1421, the waste water discharge pipe 1400 is returned to its original position in a state of being uprighted by the elastic force of the elastic part 1500, do.

In the water-saving toilet bowl of the present invention, when the direct water for washing is put into the toilet bowl, unlike the conventional method in which the water is stored through the bowl into the waste water discharge unit and a delay time is generated, So that it is possible to reduce the delay time of the water stored in the water discharge pipe 1400. [

Since a part of the direct water is directly supplied to the waste water discharge pipe 1400 without passing through the bowl 1110, the delay time stored in the waste water discharge pipe is reduced, so that when the direct water for washing is put into the toilet, So that the waste of the washing water can be drastically reduced.

In addition, since the delay time stored in the waste water discharging portion can be reduced, it is prevented that the direct water for washing is filled with the waste water in the bowl when the toilet water is introduced into the toilet, so that the waste water can be prevented from scattering. In addition, since scattering of dirt is prevented, cleanliness of the bowl and the toilet can be maintained.

The direct water dropped through the branching unit 1200 is stored in the storage unit 1420, and the waste water in the bowl 1110 is discharged in a state where the waste water discharge pipe 1400 is rotated downward by the self weight of the stored direct water . At this time, when the wastewater discharge pipe 1400 is rotated downward, the wastewater flowing into the corrugated pipe 1300 through the connection pipe 1120 is discharged from the bowl 1110 to the wastewater discharge pipe 1400, The wastewater discharge pipe 1400 is maintained to be rotated downward. When discharge of the wastewater in the bowl 1110 is completed by the wastewater discharge pipe 1400, the wastewater discharge pipe 1400 should be turned upright in its original state. The direct water stored in the storage unit 1420 is discharged into the cover unit 1130 and the direct water is discharged from the storage unit 1420 and the self weight is discharged from the storage unit 1420. [ The water discharge pipe 1400 is rotated upright in its original state, and the water contained in the bowl 1110 is not discharged. The water accommodated in the bowl 1110 is accommodated in the bowl 1110 without being discharged from the bowl 1110 as washing water at the time of supplying the bowl 1110 through the direct water inflow path 1150.

The direct water flowing into the direct water inflow path 1150 is partially branched by the branching unit 1200. In order to allow direct water for washing into the bowl 1110 to flow into the bowl 1110, The direct water is dropped by the branching unit 1200.

However, when the bowl 1110 is cleaned after the bowl 1110 is cleaned, the water level of the direct water inflow path 1150 is gradually lowered. However, when the bowl 1110 is cleaned by the direct water inflow path 1150, The water discharge pipe 1400 is maintained in an upright state and remains in the direct water inflow path 1150 only when the direct water is prevented from falling down by the branching unit 1200 at the time of the end of washing the bowl 1110, The direct water flows into the bowl 1110 and is stored.

When the water level of the direct water inflow path 1150 is lowered at a time when the bowl 1110 is cleaned and the level of the direct water inflow path 1150 becomes lower than a certain water level, the direct water inflow path 1150 The upper end of the branch portion 1200 located in the upper portion of the direct-current inflow path 1150 is positioned higher than the bottom of the direct-current inflow path 1150.

The branching part 1200 is inserted into the direct-current inflow path 1150 so as to be perpendicular to the direct-flow direction. In order to facilitate branching of the direct flow into the branching part 1200, It is preferable that a sloped surface 1210 is formed at an upper end of the branched portion 1200 located inside the direct water inflow path 1150 so that one side is high and the other side is low.

On the other hand, when the water pressure of the direct water flowing into the direct water inflow path 1150 is high, the amount of some direct water to be branched by the branching unit 1200 is increased, and when the direct water pressure is low, The amount of some directing water that branches is reduced. It is preferable that the amount of water that is branched to the branching section 1200 can be adjusted according to the water pressure of the direct water.

For this purpose, the branching unit 1200 may be provided with a branched portion coupling hole (not shown) so as to control the amount of direct water flowing into the branching portion 1200 by making the angle formed by the inclined surface 1210 with the direct- 1151, respectively. A nut portion 1220 is formed at a lower portion of the branch portion 1200 located outside the direct-current inflow path 1150 so that the branch portion 1200 coupled to the branch portion coupling hole 1151 can be rotated by a tool .

In addition, since the branching unit 1200 is vertically inserted into the direct-path inflow path 1150, the stepped portion 1210 branches a part of the direct path that is branched from the direct-path inflow path 1150 and falls, And also facilitates branching to the base 1200.

When the direct water flows through the direct water inflow passage 1150 by the branch portion 1200, the lower portion of the branch portion 1200 is closed. When the direct water does not flow, the cover portion 1130 (Not shown) for preventing a malodor from flowing back to the direct-path inflow path 1150 from the maldistribution path (not shown).

The odor prevention part (not shown) for the branching part 1200 prevents odor from flowing back from the inside of the cover part 1130 to the direct water inflow path 1150, The odor can be prevented from flowing into the bowl 1110 through the inflow path 1150 to diffuse into the toilet. The structure of the odor prevention part (not shown) for the branched part 1200 is the same as the structure of the odor prevention part 1600 described above.

Meanwhile, it is preferable that the toilet bowl of the present invention has an index valve (not shown) capable of supplying and shutting the water directly to the front end of the position where the direct water heater 1200 is installed. The above-mentioned exponential valve may be provided mechanically or electronically, and a well-known one that controls the opening and closing time is used. As an example of the mechanical type, there is a check valve type which is operated to open and close the ball that is opened and closed by the push switch and to restore the ball to a closed state after a certain time due to the elastic force of the spring. As an example of an electronic type, there is a solenoid valve type which can be time-controlled by a push switch. In addition, a conventional valve can be used. However, the water saving effect can be obtained by providing the exponent valve on the direct water inflow path 1150, and the water level of the wastewater can be maintained constantly in the bowl 1110.

Therefore, the embodiment according to the present invention can make it possible to drain the desalinated water into the bowl 1110 of the toilet without the water tank by using the direct water directly supplied from the water pipe.

As a water saving toilet bowl according to another embodiment of the present invention, a water toilet for washing water using water stored in a water tank will be described as follows.

10 is a view showing a water saving toilet bowl according to another embodiment of the present invention.

10, a water saving toilet bowl according to another embodiment of the present invention includes a water tank 500, a toilet body portion 1100, a branch portion 1200, a corrugated pipe 1300, a waste water discharge pipe 1400, A cover 1410 for discharging the waste water, a storage portion 1420 and an elastic portion 1500.

The water tank 500 stores wash water for supplying wash water to the bowl 1110, and is a component of a general toilet.

The waste water discharge pipe 1400, the waste water discharge cover 1410, the storage portion 1420, and the elastic portion 1500 are provided in the above-described embodiment of the present invention The water-saving toilet bowl according to the embodiment is the same or similar to that of the water-saving toilet bowl according to the embodiment, so that only the other parts will be described.

The bowl 1110 of the toilet bowl body 1100 is the same as the structure of a general water tank type toilet bowl in which a predetermined amount of wastewater is stored from the water tub 500 through the water inflow path 1160.

The branching part 1200 is installed inside the water supply inflow path 1160 and a part of water is branched from the water supply inflow path 1160 when the water is supplied to the bowl 1110 to be dropped into the cover part 1130 It plays a role.

The branching unit 1200 is the same as the water saving toilet bowl which is installed inside the direct water inflow path 1150 and can be used directly with the water according to the embodiment of the present invention described above.

The branch portion 1200 is formed in the branch portion coupling hole 1151 and the branch portion coupling hole 1151 is formed in the water inlet flow path 1160. In addition, And the end of the branching part 1200 located inside the water inlet inflow path 1160 may be connected to the water inlet inflow path 1160 by a part of the water supply from the water inflow path 1160 Is positioned higher than the bottom of the water supply inlet path (1160) so as to be blocked from branching by the branching section (1200).

The configuration of the slope 1210 formed in the branching part 1200, the rotatable structure of the branching part 1200, the odor prevention part for branching part and the malodor prevention part 1600 is the same as that of the above- It is the same as a water saving toilet seat that can be used.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

500: water tank 1100: toilet body portion
1110: Bowl 1120: Connector
1130: cover part 1140: floor pipe
1150: direct water inlet line 1300: corrugated pipe
1400: sewage discharge pipe 1410: cover for discharging sewage water
1420: storage part 1421: outlet
1500: elastic portion 1510: first stretch member
1511: protruding portion 1511a:
1520: second sputtering member 1521: second sputtering hole
1530: elastic member 1600: odor preventing member
1610: odor preventing member

Claims (12)

The bowl 1110 is provided with a direct water inflow path 1150 through which the direct water flows from the outside and a predetermined amount of wastewater is stored in the outer periphery of the bottom and the wall. A connection pipe 1120 for discharging waste water to be stored and a bottom pipe 1140 for covering the rear of the bowl 1110 and discharging the dirt discharged through the connection pipe 1120 to the outside of the toilet bowl A toilet body portion 1100 provided with a cover portion 1130 for covering the body portion 1130;
A branching part 1200 installed inside the direct-path inflow path 1150 and parting direct water from the direct-path inflow path 1150 when the water flows into the bowl 1110 and falling into the cover part 1130, ;
A bellows pipe 1300 connected to the connection pipe 1120 and forming a flow path of wastewater drained from the bowl 1110 and capable of being bent;
And is disposed in the cover part 1130 so that one end thereof is connected to the corrugated pipe 1300 so as to be communicated and upright and the wastewater flowing through the corrugated pipe 1300 from the bowl 1110 by the downward rotation, A wastewater discharge pipe 1400 as a straight pipe to be discharged to the cover portion 1130;
A cover 1410 disposed at a discharge side end of the waste water discharge pipe 1400 to close the waste water discharge pipe 1400 and to be rotated when the waste water is discharged to be opened;
When the direct water stored in the upper part of the cover for discharging the waste water 1410 and branched by the branching unit 1200 is stored and the stored water has a predetermined amount, the waste water discharge pipe 1400 is rotated (1420);
The connection pipe 1120 and the waste water discharge pipe 1400 are elastically connected to each other and the waste water discharge pipe 1400 is uprighted after the waste water is discharged, so that the sewage in the bowl 1110 is discharged to the waste water discharge pipe 1400 An elastic part 1500 having an elastic force for preventing discharge; Wherein the water-saving toilet seat is a water-saving toilet seat. The method according to claim 1,
The direct water inflow path 1150 is formed with a branch portion coupling hole 1151 into which the branched portion 1200 is inserted and coupled,
The branched portion 1200 is inserted into the branched portion coupling hole 1151 vertically into the direct-current inflow path 1150,
A portion of the direct water from the direct water inflow passage 1150 may flow into the branch portion 1200 when the end of the branch portion 1200 located inside the direct water inflow passage 1150 is below a certain level of the direct water inflow passage 1150, Is located higher than the bottom of the direct-current inflow path (1150) so as to be blocked from being branched by the direct water inflow path (1150). 3. The method of claim 2,
Wherein the upper end of the branched portion 1200 located inside the direct water inflow path 1150 is formed with a sloped surface 1210 formed to be inclined so that one side is high and the other side is low. The method of claim 3,
The branching section 1200 may be formed in the branching section coupling hole 1151 so as to control the amount of direct water flowing into the branching section 1200 so that the angle formed by the slanted surface 1210 with the direct- Wherein the water-resistant toilet bowl is rotatably coupled to the water-saving toilet bowl. The method of claim 3,
In the lower portion of the branched portion 1200,
When the direct water is partially branched from the direct water inflow path 1150 through the branching part 1200 and is closed when the direct water does not flow and the odor is introduced into the direct inflow path 1150 from the cover part 1130 And a malodor-preventing part for the branching part is provided to prevent the backflow. The method of claim 3,
And a malodor control part (1600) installed inside the corrugated pipe (1300) and opened by the flow of the wastewater when the wastewater flows, and closed when the wastewater does not flow. . A water tank 500;
And is installed at the bottom of the water tank 500,
A bowl 1110 in which a predetermined amount of wastewater is stored from the water tank 500 through a water inlet and an inlet path 1160 and a connection pipe 1120 for discharging waste water stored in the bowl 1110, A toilet bowl body portion 1100 having a cover portion 1130 which covers the rear of the toilet bowl 1110 and is guided to a bottom tube 1140 for discharging the dirt discharged through the connection tube 1120 to the outside of the toilet bowl;
A branching part 1200 provided inside the water supply inflow path 1160 and allowing a part of water to flow from the water supply inflow path 1160 to the inside of the cover part 1130 when water is supplied to the bowl 1110;
A bellows pipe 1300 connected to the connection pipe 1120 and forming a flow path of wastewater drained from the bowl 1110 and capable of being bent;
And is disposed in the cover part 1130 so that one end thereof is connected to the corrugated pipe 1300 so as to be communicated and upright and the wastewater flowing through the corrugated pipe 1300 from the bowl 1110 by the downward rotation, A wastewater discharge pipe 1400 as a straight pipe to be discharged to the cover portion 1130;
A cover 1410 disposed at a discharge side end of the waste water discharge pipe 1400 to close the waste water discharge pipe 1400 and to be rotated when the waste water is discharged to be opened;
The wastewater discharged from the branched portion 1200 is stored in the upper portion of the cover 1410 for discharging the wastewater. When the stored wastewater reaches a predetermined amount, the wastewater discharge pipe 1400 is rotated (1420);
The connection pipe 1120 and the waste water discharge pipe 1400 are elastically connected to each other and the waste water discharge pipe 1400 is uprighted after the waste water is discharged, so that the sewage in the bowl 1110 is discharged to the waste water discharge pipe 1400 An elastic part 1500 having an elastic force for preventing discharge; Wherein the water-saving toilet seat is a water-saving toilet seat. 8. The method of claim 7,
The water supply inlet passage 1160 is formed with a branch portion coupling hole 1151 into which the branched portion 1200 is inserted and coupled,
The branched portion 1200 is inserted into the branched portion coupling hole 1151 vertically into the water inlet flow path 1160,
A portion of the water from the water supply inlet path 1160 flows into the branching portion 1200 of the branching portion 1200 located inside the water supply inlet path 1160 when the water supplied into the water supply inlet path 1160 becomes a certain level or less, Is positioned higher than the bottom of the water supply inlet (1160) so as to be blocked from being branched by the water supply inlet (1200). 9. The method of claim 8,
Wherein the upper end of the branched portion 1200 located inside the water inlet flow path 1160 is formed with a sloped surface 1210 formed to be inclined such that one side is high and the other side is low. 10. The method of claim 9,
The branching section 1200 may be configured to rotate the branching section coupling hole 1151 so as to adjust the amount of water flowing into the branching section 1200 so that the angle formed by the slanted surface 1210 with the water supply / The water-saving toilet bowl comprising: 11. The method of claim 10,
In the lower portion of the branched portion 1200,
When the water supply is partially branched from the water supply inlet passage 1160 through the branching section 1200 and the water supply flow does not flow, the odor is returned from the cover section 1130 to the water supply inlet passage 1160, And a malodor-preventing part for the branching part is provided to prevent the malodor-removing part from becoming stale. 11. The method of claim 10,
And a malodor control part (1600) installed inside the corrugated pipe (1300) and opened by the flow of the wastewater when the wastewater flows, and closed when the wastewater does not flow. .

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