JP6066705B2 - Toilet bowl cleaning tank - Google Patents

Description

  The present invention relates to a toilet bowl cleaning tank.

  Patent Document 1 discloses a structure in which a toilet flushing tank for storing flush water discharged to a toilet bowl is accommodated in a flush toilet. The toilet body is formed with a rear space opened upward behind the toilet bowl, and the toilet bowl is accommodated so as to be dropped into the rear space. Since the toilet flushing tank is disposed only in the area behind the toilet bowl, in order to increase the water storage capacity, the toilet flushing tank is enlarged upward or the plan view shape of the toilet flushing tank is enlarged. There is a need.

  However, in the former method, the toilet bowl cleaning tank protrudes greatly upward from the toilet bowl portion behind the toilet bowl portion, and the toilet bowl cleaning tank becomes bulky. In the latter method, the plan view shape of the flush toilet becomes large in the front-rear direction or the left-right direction. As a countermeasure, pay attention to the fact that the lower part of the toilet bowl is a dead space in the internal space of the toilet body, and by communicating this dead space with the rear space, it is necessary to accommodate the toilet cleaning tank. It is conceivable to use it effectively as part of the accommodation space.

  In this case, the form of the toilet bowl cleaning tank also needs to be changed. Specifically, the toilet flushing tank is stowed upward from the rear end portion of the lower water storage space and the lower water storage space accommodated across the dead space and the lower end side region of the rear space, and into the upper end side region of the rear space. It consists of the upper water storage space to be accommodated. The upper water storage space is provided with a water supply port for connecting a cleaning water supply pipe, and the cleaning water supplied from the water supply port is stored in the upper water storage space and the lower water storage space. At the time of toilet bowl cleaning, the cleaning water stored in both water storage spaces is sucked up by a cleaning pump and discharged into the toilet bowl.

JP 2008-240402 A

  The first problem to be solved by the invention will be described. The toilet bowl washing tank of the said form can increase the water storage capacity | capacitance of an upper water storage space, if an upper water storage space is started up rather than the toilet bowl upper end. In this case, if an overflow drainage channel communicating with the upper water storage space is provided, the overflow water can be discharged to the toilet bowl through the overflow drainage channel.

  Thus, when the two tanks are provided with a height difference, it is necessary to provide an air venting means for releasing air in the process of supplying cleaning water from the water supply port in the lower water storage space where the water supply port is not provided. . As an air venting means, it is conceivable to open an air vent hole at the upper end of the lower water storage space. However, since the position of the air vent hole is lower than the set water storage level when the upper water storage space is full, the wash water overflows from the air vent hole in the process of supplying the wash water from the water supply port. The first aspect of the present invention is a toilet flushing tank provided with two tanks having different elevations, and an object is to prevent air from being discharged from the lower lower water storage space.

  Next, a second problem to be solved by the invention will be described. In the toilet flushing tank of the above form, when draining the inside of the toilet water supply channel from the lower water storage space to the toilet body, the upstream end of the drainage channel is connected to the toilet water supply channel, and the water sucked up by the drain pump is used. It is desirable to drain to the rim water passage in the toilet bowl as in the case of washing. However, if the downstream end of the water drainage channel is made to face the rim water channel, a seal structure is required at the connecting portion between the water channel and the rim water channel. Therefore, there arises a problem that the number of parts increases and the structure becomes complicated. 2nd invention makes it a subject to ensure the drainage path of a toilet bowl water supply path, without making a drainage channel face a toilet bowl part.

The toilet bowl cleaning tank of the first invention is
Lower water storage space,
An overflow drainage channel whose upper end opens in the upper first tank;
An upstream end communicates with the lower water storage space, and a downstream end includes an air vent channel facing the overflow drainage channel.

The toilet bowl cleaning tank of the second invention is
A toilet cleaning tank attached to a toilet bowl body having a toilet bowl,
Lower water storage space,
An upper water storage space protruding upward from the lower water storage space;
An overflow drainage channel having an upper end opened in the upper water storage space and a lower end facing the toilet bowl,
A toilet water supply path constituting a flow path of washing water leading to the toilet body from the lower water storage space,
A drainage flow path having an upstream end communicating with the toilet water supply channel and a downstream end facing the overflow drainage channel;
A drainage pump provided in the middle of the drainage flow path is provided.

  According to the first invention, in the process in which the wash water is supplied to the upper water storage space and the lower water storage space, the water level of the wash water rises while the air is discharged through the air vent channel in the lower water storage space. . Since the air vent flow path, which is the air vent means of the lower water storage space, faces the downstream end to the overflow drainage channel, the washing water in the lower water storage space does not overflow illegally.

  According to the second aspect of the invention, since the drainage channel is connected to the existing overflow drainage channel, the drainage channel of the toilet water supply channel is secured without facing the drainage channel to the toilet bowl. can do.

The perspective view which looked at the toilet bowl washing tank of Example 1 from diagonally forward A perspective view of the toilet bowl cleaning tank as viewed obliquely from the rear Cross section of flush toilet with a toilet flush tank Cross section of flush toilet with a toilet flush tank Partial enlarged sectional view of toilet bowl cleaning tank Disassembled perspective view of water discharge channel for cleaning The partial expanded sectional view of the toilet bowl washing tank of Example 2

The toilet bowl cleaning tank of the first invention is
A part of the air vent channel may be arranged at a position higher than a set water storage level when the upper water storage space is full.
According to this configuration, even when the cleaning water in the lower water storage space flows toward the overflow drainage channel in the air vent channel in the process in which the cleaning water is supplied to the upper water storage space and the lower water storage space, When the wash water reaches the same height as the set reservoir level when the upper reservoir space is full, it stops flowing further. Therefore, the washing water in the lower water storage space is not discharged to the overflow drainage channel.

The toilet bowl cleaning tank of the first invention is
The communication position of the overflow drainage channel with the air vent channel may be higher than a set water storage level when the upper water storage space is full.
According to this configuration, even when the cleaning water in the lower water storage space flows toward the overflow drainage channel in the air vent channel in the process in which the cleaning water is supplied to the upper water storage space and the lower water storage space, Before the washing water reaches the overflow drainage channel, it reaches the same height as the set water level when the upper water storage space is full, and at that point, the flow of water is stopped. Therefore, the washing water in the lower water storage space is not discharged to the overflow drainage channel.

The toilet bowl cleaning tank of the second invention is
A part of the drainage channel may be disposed at a position higher than a set water storage level when the upper water storage space is full.
According to this configuration, when the inside of the drain pump becomes free to flow, the water in the toilet water supply channel is drained in the process of supplying wash water to the upper water storage space and the lower water storage space. There is concern about the flow in the flow path toward the overflow drainage channel. However, when the water reaches the same height as the set reservoir level when the upper reservoir space is full, it stops flowing further. Therefore, the washing water in the toilet water supply channel is not discharged to the overflow drainage channel.

The toilet bowl cleaning tank of the second invention is
Communicating position between the drainage can flow passage in the overflow drainage channel may be a position higher than the set water level at full capacity of the upper water storage space.
According to this configuration, in the process in which the wash water is supplied to the upper water storage space and the lower water storage space, the wash water in the toilet water supply channel flows in the drainage channel toward the overflow drainage channel, The washing water reaches the same height as the set water level when the upper water storage space is full before reaching the overflow drainage channel, and stops further flow at that point. Therefore, the washing water in the toilet water supply channel is not discharged to the overflow drainage channel.

<Example 1>
A first embodiment of the present invention will be described below with reference to FIGS. The toilet bowl washing tank A according to the first embodiment is attached to the toilet bowl body 10 having the toilet bowl 11 and constitutes a flush toilet. As a means for storing flush water W discharged into the toilet bowl 11. It has the function of. As the cleaning water W, well water and middle water are used in addition to tap water.

<Toilet bowl body 10>
The toilet body 10 is made of earthenware, and as shown in FIG. 3, the toilet bowl part 11, the toilet drain pipe part 12 communicating with the downstream side of the toilet bowl part 11, and the toilet bowl part 11 over the entire circumference. And the peripheral wall portion 13 that surrounds the body. The toilet bowl part 11 has the rim water passage 14 formed along the upper-end periphery. The toilet drain pipe portion 12 is disposed inside the peripheral wall portion 13, and includes a first descending flow path 15 extending obliquely downward and rearward from the toilet bowl portion 11, and an ascending flow path 16 extending obliquely upward and rearward from the first descending flow path 15. And a second descending channel 17 extending substantially vertically downward from the ascending channel 16. The upper end of the drain connection pipe 18 is connected to the lower end of the second descending flow path 17.

  The lower end of the drainage connection pipe 18 is connected to a drainage pipe 19 drawn out to the floor surface F. The toilet drain pipe 12, the drain connection pipe 18, and the drain pipe 19 constitute a washing drain 20 for discharging the stored water in the toilet bowl 11, the washing water W discharged to the toilet bowl 11 and the filth. doing. The portion below the sealing surface 21 of the toilet bowl 11, the first descending flow path 15, and the ascending flow path 16 constitute a sealed section 22.

  The peripheral wall portion 13 of the toilet body 10 extends downward without spreading outward from the outer peripheral edge of the upper surface of the toilet body 10, and the lower end of the peripheral wall portion 13 is in contact with the floor surface F over the entire periphery. In the toilet body 10, a reinforcing wall portion 23 is integrally formed with a region in which the region in front of the lower end of the lower surface of the toilet bowl portion 11 is connected to the front end side regions in the left and right side walls of the peripheral wall portion 13. Has been. A substantially horizontal support wall portion 24 that connects the outer surface of the second descending flow path 17 and the inner surface of the peripheral wall portion 13 is integrally formed in the toilet body 10.

  The support wall portion 24 is formed to prevent the second descending flow path 17 that protrudes in a cantilevered manner from the toilet bowl portion 11 from being deformed downward due to its own weight in the molding process of the toilet body 10. is there. The support wall portion 24 is formed with a pair of left and right through holes (not shown) disposed so as to sandwich the second descending flow path 17. The toilet bowl water supply channel 51, the air vent channel 47, and the water drain channel 60 of the cleaning pump 50 are penetrated through the right through hole. A communication passage 35 connecting the lower water storage space 30 and the upper water storage space 34 is passed through the left through hole.

  A rear space 25 provided for accommodating the toilet flushing tank A is formed in a region behind the toilet bowl 11 in the internal space of the toilet body 10. The rear space 25 is configured such that both the left and right sides and the rear side are partitioned by the peripheral wall portion 13 and opened upward and downward. In the rear space 25, the above-described support wall portion 24 and a portion of the cleaning drainage channel 20 excluding the first descending flow channel 15 and the upstream end portion of the ascending flow channel 16 are disposed.

  Of the internal space of the toilet body 10, a region below the toilet bowl 11 and behind the reinforcing wall 23 is a dead space 26 opened downward. The dead space 26 is present below the toilet bowl 11 because the proper height of the toilet seat (not shown), the proper height of the sealing surface 21 in the toilet bowl 11, and the sealing section 22 are stored. This is because the toilet bowl 11 is designed in consideration of the amount of water and the like. The dead space 26 accommodates the upstream end portions of the first descending flow path 15 and the ascending flow path 16 in the cleaning drainage channel 20. The dead space 26 communicates with the rear space 25 at the rear end thereof, and the dead space 26 and the rear space 25 function as an accommodation space for accommodating the toilet flushing tank A.

<Toilet bowl cleaning tank A>
1 and 2, the toilet flushing tank A includes a lower water storage space 30, an upper water storage space 34, an overflow drainage channel 40, an air vent channel 47, a cleaning pump 50, a toilet water supply channel 51, and a cleaning water discharge channel 54. , A water draining channel 60 and a water draining pump 62 are provided. The lower water storage space 30 and the upper water storage space 34 are for storing the wash water W, and communicate with each other to form one water storage space.

<Lower water storage space 30>
As shown in FIG. 3, the lower water storage space 30 is accommodated in a lower end side region below the support wall portion 24 in the dead space 26 and the rear space 25 in the internal space of the toilet body 10. The rear end portion of the lower water storage space 30 is a pair of left and right branch portions 31L and 31R that are bifurcated. The left branch 31L is formed with a left reservoir 32L that is raised upward, and the right branch 31R is formed with a right reservoir 32R that is raised upward.

  Parts of the lower water storage space 30 that are in front of the branch portions 31L and 31R and the left and right water storage portions 32L and 32R are disposed in the dead space 26. The left and right branch portions 31L and 31R and the left and right water storage portions 32L and 32R are disposed below the support wall portion 24 in the rear space 25. A water inlet 52 at the upstream end of the toilet water supply channel 51 faces the bottom surface of the lower water storage space 30. The suction port 52 allows the wash water W to flow out from the lower water storage space 30 to the toilet water supply channel 51 side, but prevents backflow of the wash water W from the toilet water supply channel 51 to the lower water storage space 30 side. A check valve 53 is provided.

<Upper water storage space 34>
As shown in FIGS. 1 and 2, the upper water storage space 34 is disposed above the left water storage portion 32L. The lower end of the upper water storage space 34 and the upper end of the lower water storage space 30 (left water storage part 32L) communicate with each other via a communication path 35. A lower end side portion of the upper water storage space 34 is disposed in a region above the support wall portion 24 in the rear space 25, and an upper end side portion of the upper water storage space 34 is from the rear space 25 (the upper end of the toilet bowl 11). Is also arranged in a form protruding upward.

  A water supply port 36 for supplying cleaning water into the upper water storage space 34 is provided at the upper end surface of the upper water storage space 34. A tank water supply channel (not shown) is connected to the water supply port 36. A float switch 37 is attached to the upper end surface of the upper water storage space 34. This float switch 37 detects whether or not the inside of the upper water storage space 34 is full, and an open / close valve (not shown) provided in the tank water supply path opens and closes according to the detection signal. As a result, a predetermined amount of cleaning water W is stored in the toilet bowl cleaning tank A. As shown in FIG. 5, the set water storage level La when the wash water W in the toilet bowl cleaning tank A becomes full is set to a position slightly lower than the upper end of the upper water storage space 34.

  An intake / exhaust portion 38 is provided on the upper end surface of the upper water storage space 34. The intake / exhaust section 38 discharges the air in the toilet bowl cleaning tank A to the atmosphere when supplying the wash water into the upper water storage space 34. The intake / exhaust section 38 allows air to flow from the atmosphere into the upper water storage space 34 when the cleaning water W in the toilet bowl cleaning tank A is discharged to the toilet bowl 11 side. Therefore, the intake / exhaust portion 38 smoothly performs the storing operation of the cleaning water W in the toilet bowl cleaning tank A and smoothly discharges the cleaning water W stored in the toilet bowl cleaning tank A to the toilet bowl 11 side. To be done.

<Drainage channel 40 for overflow>
As shown in FIG. 5, the overflow drainage channel 40 includes an overflow inflow chamber 41 and an overflow pipe 42. The overflow inflow chamber 41 is formed inside the upper water storage space 34. The upper end surface of the overflow inflow chamber 41 opens upward as a receiving port 43 in the upper water storage space 34. The receiving port 43 is disposed (not shown) at a position away from the water supply port 36 in the horizontal direction. The overflow inflow chamber 41 is partitioned from a flow-down path (not shown) of the cleaning water W flowing from the water supply port 36 by a partition wall portion 44 connected to the inner surface of the outer wall portion of the upper water storage space 34.

  The upper receiving port 43 of the overflow inflow chamber 41 (overflow drainage channel 40) is set to a height higher than the set water storage level La when the upper water storage space 34 is full and lower than the intake / exhaust portion 38. Yes. At the lower end of the overflow inflow chamber 41, an outlet 45 is formed that penetrates the outer wall of the upper water storage space 34. An upstream end of an overflow pipe 42 disposed outside the upper water storage space 34 is connected to the outlet 45. When the water level in the upper water storage space 34 exceeds the set water storage level La at the time of full water and rises to a height beyond the receiving port 43, the wash water W in the upper water storage space 34 flows from the receiving port 43 to the overflow inflow chamber 41. Into the toilet bowl 11 through the overflow pipe 42. The height of the upper end of the right water storage portion 32R of the lower water storage space 30 is set to a position lower than the upper end of the upper water storage space 34, the opening of the upper end of the overflow drainage channel 40, and the upper end of the toilet bowl portion 11. Yes.

<Air vent channel 47>
In the first embodiment, since there is a height difference between the right reservoir 32R, which is the highest part of the lower reservoir 30, and the upper reservoir 34, the lower right reservoir 32R is supplied with water. It is necessary to provide an air vent for releasing air in the process of supplying the cleaning water W from the port 36. As an air venting means, it is conceivable to open an air vent hole (not shown) at the upper end of the right water reservoir 32R. However, in this case, since the position of the air vent hole is lower than the set water storage level La when the upper water reservoir space 34 is full, the wash water W overflows from the air vent hole in the process of supplying the wash water W.

  Therefore, in the first embodiment, the upper end of the right water storage part 32R (lower water storage space 30) is communicated with the overflow drainage channel 40. Specifically, as shown in FIG. 1, the upstream end of the air vent channel 47 made of a flexible hose is connected to the upper end surface of the right water reservoir 32R. The downstream end of the air vent channel 47 penetrates the outer wall portion of the upper water storage space 34 and is connected so as to directly face the overflow inflow chamber 41 as the air vent inlet 48. The height of the air vent 48 (the communication position with the air vent channel 47 in the overflow inflow chamber 41 (overflow drainage channel 40)) is higher than the set water storage level La when the upper water storage space 34 is full, Moreover, it is set at a position lower than the opening at the upper end of the overflow drainage channel 40.

  In the process of storing the wash water W in the toilet flushing tank A, as the water level in the right water storage portion 32R rises, the air in the right water storage portion 32R passes through the air vent channel 47 and the overflow inflow chamber 41 in order. As a result, the air is discharged from the intake / exhaust section 38 into the atmosphere (outside the toilet bowl cleaning tank A). Therefore, the wash water W is stored in a full water state in the right water storage section 32R without causing an air reservoir in the upper part.

<Washing pump 50, toilet water supply channel 51>
As shown in FIGS. 1 and 2, the cleaning pump 50 is disposed above the right water reservoir 32R. The toilet water supply channel 51 extending from the lower surface of the cleaning pump 50 is bent at the lower end thereof and is routed along the lower surface of the lower water storage space 30. The toilet water supply channel 51 constitutes a flow path (water supply route) for the wash water W from the lower water storage space 30 to the toilet body 10 (the toilet bowl 11). As shown in FIG. 3, the upstream end of the toilet water supply channel 51 can communicate with the lower water storage space 30 through the water inlet 52 and the check valve 53 described above. The wash water W stored in the toilet bowl washing tank A (lower water storage space 30) is sucked up by the washing pump 50 from the water supply port 36 through the toilet bowl water supply channel 51 and through the flush water discharge channel 54 described later. Water is discharged.

<Washing channel 54 for cleaning>
The cleaning water discharge channel 54 includes a first water discharge pipe 55 whose upstream end is connected to a discharge port (not shown) of the cleaning pump 50, a joint 56 connected to the downstream end of the first water discharge pipe 55, It is composed of a pair of left and right branch pipes 57L and 57R connected to the downstream end branched into two branches. Water outlets are opened at the tip ends (downstream end portions) of the branch pipes 57L and 57R, respectively. Both outlets are arranged so as to face the rim water passage 14 formed along the upper edge of the toilet bowl 11. As shown in FIG. 6, a connecting tube portion 58 that surrounds the outer periphery and opens to the rim water passage 14 is formed in the middle of the left branch tube 57 </ b> L among the left and right branch tubes 57 </ b> L and 57 </ b> R. The downstream end portion of the overflow pipe 42 is connected to the connection cylinder portion 58 in a communicating state. Accordingly, the cleaning water W that has flowed into the overflow pipe 42 passes through the connecting cylinder portion 58 and is discharged to the rim water passage 14.

  In addition, since the upstream side of both the left and right branch pipes 57L and 57R facing the rim water passage 14 is connected to the cleaning pump 50, even if a foreign matter such as an insect enters the branch pipes 57L and 57R, the foreign matter will remain in the toilet bowl. It does not reach the cleaning tank A. On the other hand, the overflow drainage passage 40 facing the rim water passage 14 as well as the branch pipes 57L and 57R does not have a portion or member that blocks the entry of foreign matter in the middle. For this reason, there is a concern that the foreign matter that has entered from the connecting tube portion 58 reaches the toilet cleaning tank A. Thus, in the first embodiment, a flange-like filter 59 is formed on the outer periphery of the left branch pipe 57L. The filter 59 is formed in a net shape and is assembled so as to cover the opening of the connecting tube portion 58. The filter 59 allows the washing water W to flow out of the overflow drainage channel 40, but prevents solid foreign matter from entering the overflow drainage channel 40.

<Drain channel 60, drain pump 62>
In the first embodiment, immediately after the flushing water W is discharged to the toilet bowl 11 side, the flushing water W in the toilet water supply channel 51 from the lower water storage space 30 to the washing pump 50 is not cut off. As a means, a check valve 53 is provided at the water inlet 52 facing the lower water storage space 30. Therefore, in order to drain the inside of the toilet water supply channel 51, a drain channel 60 made of a flexible hose and a dedicated drain pump 62 are provided. The upstream end of the drainage channel 60 communicates with the lower end portion of the toilet bowl water supply channel 51, and the wash water W in the toilet bowl water supply channel 51 sucked up by the drain pump 62 is the same as that of the toilet bowl 11. The rim water passage 14 is drained. However, if the downstream end of the water drainage channel 60 is to face the rim water passage 14, a seal structure is required at the connection portion between the water drainage channel 60 and the rim water passage 14. Therefore, there arises a problem that the number of parts increases and the structure becomes complicated.

  Therefore, in the first embodiment, the downstream end of the drainage flow channel 60 is not directly exposed to the rim water flow channel 14 but is exposed to the existing overflow drainage channel 40 connected to the rim water flow channel 14. . Specifically, as shown in FIG. 5, the downstream end of the drainage channel 60 passes through the outer wall portion of the upper water storage space 34 and directly faces the overflow inflow chamber 41 as the drainage inlet 61. Connected to. The height of the drainage inlet 61 (the communication position with the drainage flow path 60 in the overflow inflow chamber 41 (overflow drainage channel 40)) is the same as that of the air drainage inlet 48 when the upper water storage space 34 is full. Is set at a position higher than the set water storage level La and lower than the opening at the upper end of the overflow drainage channel 40.

  A drain pump 62 is provided in the middle of the drain channel 60. The drain pump 62 is disposed above the support wall 24 and adjacent to the cleaning pump 50. When the drain pump 62 is operated, the wash water W in the toilet water supply channel 51 is sucked into the drain channel 60, flows into the overflow inflow chamber 41, passes through the overflow pipe 42, and enters the rim channel 14. To be discharged.

<Operation and Effect of Example 1>
In the toilet bowl cleaning tank A of the first embodiment, in the process in which the cleaning water W is supplied to the upper water storage space 34 and the lower water storage space 30, a part of the supplied cleaning water W is stored in the right water storage via the lower water storage space 30. While flowing into the portion 32R, the water level of the cleaning water W rises while air is discharged through the air vent channel 47 in the right water storage portion 32R. Since the air vent channel 47 that is an air vent means of the right water reservoir 32R faces the overflow drainage channel 40 at the downstream end, the washing water W in the right water reservoir 32R does not overflow illegally.

  Further, the toilet bowl cleaning tank A of the first embodiment has an air vent inlet 48 that is a communication position with the air vent channel 47 in the overflow drainage channel 40 (that is, a part of the air vent channel 47), and the upper water storage space. It is arranged at a position higher than the set water storage level La when 34 is full. Accordingly, in the process in which the cleaning water W is supplied to the upper water storage space 34 and the lower water storage space 30, the cleaning water W in the right water storage portion 32R flows in the air vent channel 47 toward the overflow drainage channel 40. The washing water W stops flowing when it reaches the same height as the set water storage level La when the upper water storage space 34 is full. Accordingly, the cleaning water W in the right water storage portion 32R is not discharged to the overflow drainage channel 40.

  Further, the toilet flushing tank A according to the first embodiment connects the drainage channel 60 to the overflow drainage channel 40, thereby allowing the flushing water W in the toilet water supply channel 51 to be drained by the drainage pump 62. 60 and the overflow drainage channel 40 are sequentially passed through and discharged to the toilet bowl 11. Thus, since the existing overflow drainage channel 40 is used as a drainage route from the toilet bowl water supply channel 51 to the toilet bowl 11, the drainage channel of the toilet bowl water supply channel 51 interferes with the cleaning water discharge channel 54. It is realized to ensure without doing.

  Further, in the case of the toilet flushing tank A of the first embodiment, the process in which the washing water W is supplied to the right water storage portion 32R and the lower water storage space 30 when the inside of the drain pump 62 is in a freely water-permeable state. Thus, there is a concern that the cleaning water W in the toilet water supply channel 51 flows in the drainage channel 60 toward the overflow drainage channel 40. However, in the first embodiment, the drainage inlet 61, which is a communication position with the drainage channel 60 in the overflow drainage channel 40 (that is, a part of the drainage channel 60), is provided in the upper water storage space 34. It arrange | positions in the position higher than the setting water storage level La at the time of a full water. Therefore, when the washing water W reaches the same height as the set water storage level La when the upper water storage space is full, it stops flowing further. Therefore, the washing water W in the toilet water supply channel 51 is not discharged to the overflow drainage channel 40.

<Example 2>
Next, a second embodiment of the present invention will be described with reference to FIG. The toilet bowl cleaning tank B of the second embodiment has a configuration in which the air vent channel 70 and the drain channel 72 are different from those in the first embodiment. Since other configurations are the same as those in the first embodiment, the same reference numerals are given to the same configurations, and descriptions of the structure, operation, and effects are omitted.

  The toilet flushing tank B of the second embodiment is similar to the toilet flushing tank A of the first embodiment in that the downstream end of the air vent channel 70 penetrates the outer wall of the upper water storage space 34 and serves as an air vent inlet 71 for overflow. It is connected so as to directly face the inflow chamber 41. However, in the toilet flushing tank A of the first embodiment, the height of the air vent 48 is set to a position higher than the set water storage level La when the upper water storage space 34 is full, whereas the toilet of the second embodiment is used. In the cleaning tank B, the air vent inlet 71 is set to a position lower than the set water storage level La when the upper water storage space 34 is full. A part 70H of the upstream side of the air vent channel 71 in the air vent channel 70 is set at a position higher than the set water storage level La when the upper water storage space 34 is full.

  As described above, if a part 70H of the air vent channel 70 is disposed at a position higher than the set water level La when the upper water storage space 34 is full, the wash water W in the right water reservoir 32R becomes the air vent channel 70. Even if the water flows toward the overflow drainage channel 40, the washing water W stops flowing when it reaches the same height as the set water level La when the upper water storage space 34 is full. . Therefore, also in the second embodiment, the washing water W in the right water storage portion 32R is not discharged to the overflow drainage channel 40.

  Further, the toilet flushing tank B of the second embodiment is similar to the toilet flushing tank A of the first embodiment in that the downstream end of the drainage flow path 72 penetrates the outer wall portion of the upper water storage space 34 and the drainage inflow port. 73 is directly connected to the overflow inflow chamber 41. However, in the toilet bowl washing tank A of the first embodiment, the height of the drainage inlet 61 is set to a position higher than the set water storage level La when the upper water storage space 34 is full, whereas in the second embodiment. In the toilet bowl cleaning tank B, the drainage inlet 73 is set at a position lower than the set water storage level La when the upper water storage space 34 is full. Then, a part 72H of the upstream side of the drainage inlet 73 in the drainage channel 72 is set at a position higher than the set water storage level La when the upper water storage space 34 is full.

  Thus, if the part 72H of the drainage flow path 72 is disposed at a position higher than the set water storage level La when the upper water storage space 34 is full, the inside of the water drainage pump 62 is in a state where water can freely pass therethrough. In the case where the cleaning water W is supplied to the right water storage portion 32R and the lower water storage space 30, the cleaning water W in the toilet water supply channel 51 moves in the drainage channel 72 toward the overflow drainage channel 40. Even if it flows, the washing water W stops flowing when it reaches the same height as the set water level La when the upper water storage space 34 is full. Therefore, the washing water W in the toilet water supply channel 51 is not discharged to the overflow drainage channel 40.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the said Example 1, 2, although the position of the upper end of the right water storage part of a lower water storage space was set to the position lower than the upper end of a toilet bowl part, the position of the upper end of a right water storage part is a toilet bowl part May be the same height as the upper end of the stool, or may be set at a position higher than the upper end of the toilet bowl.
(2) In Examples 1 and 2, the overflow drainage channel is arranged inside the outer wall of the upper water storage space, but the overflow drainage channel may be arranged outside the outer wall of the upper water storage space. In this case, the upper end of the overflow drainage channel may be opened in a form penetrating the outer wall of the upper water storage space.
(3) In the first and second embodiments, the water supply port connected to the tank water supply channel is provided in the upper water storage space. However, the water supply port may be provided in the lower water storage space.

A ... toilet flush tank La ... set storage level when full of water W ... wash water 30 ... lower reservoir space 34 ... upper reservoir space 40 ... drainage channel for overflow 47 ... air vent channel 50 ... cleaning pump 51 ... toilet water channel 60 ... water Drain channel 62 ... Drain pump B ... Toilet bowl 70 ... Air vent channel 72 ... Drain channel

Claims (6)

Lower water storage space,
An upper water storage space protruding upward from the lower water storage space;
An overflow drainage channel whose upper end opens in the upper water storage space;
A toilet flushing tank comprising an air vent channel that communicates with the lower water storage space at an upstream end and an air vent channel with a downstream end facing the overflow drainage channel. A toilet cleaning tank attached to a toilet bowl body having a toilet bowl,
Lower water storage space,
An upper water storage space protruding upward from the lower water storage space;
An overflow drainage channel having an upper end opened in the upper water storage space and a lower end facing the toilet bowl,
A toilet water supply path constituting a flow path of washing water leading to the toilet body from the lower water storage space,
A drainage flow path having an upstream end communicating with the toilet water supply channel and a downstream end facing the overflow drainage channel;
A toilet flushing tank, comprising: a drain pump provided in the middle of the drain channel.   The toilet flushing tank according to claim 1, wherein a part of the air vent channel is disposed at a position higher than a set water storage level when the upper water storage space is full.   The toilet flushing tank according to claim 2, wherein a part of the drainage channel is arranged at a position higher than a set water storage level when the upper water storage space is full. The toilet flushing tank according to claim 3, wherein a communication position of the overflow drainage channel with the air vent channel is higher than a set water storage level when the upper water storage space is full. The communicating position between the drainage can flow path in the overflow drainage path, toilet flushing tank according to claim 4, characterized in that the position higher than the set water level at full capacity of the upper water storage space.

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