JP6901121B2 - Flush toilet and flush toilet system - Google Patents

Description

The present invention relates to flush toilets and flush toilet systems.

For those who have difficulty walking and cannot go to the toilet on their own, a mobile toilet (portable toilet) may be installed in the hospital room, the resident's bedroom of a nursing facility, or the bedside of the bedroom at home. Then, the user who gets up from the bed can immediately transfer to the toilet seat of this portable toilet by himself or with the assistance of a caregiver. In such a conventional mobile toilet, generally, the excrement excreted by the user is temporarily stored in a bowl provided detachably on the toilet body, and the excrement is collected from the toilet body by a nurse or a caregiver. Remove the containing bowl. Then, carry this bowl to the toilet and transfer the excrement to a flush toilet in the toilet. After that, after cleaning the bowl, it is set in the toilet bowl again.

By the way, in hospitals and long-term care facilities, one nurse or long-term care worker has to care for a large number of patients and residents of the long-term care facility. Absent. However, in the case of hospitals and nursing homes, it is common to have multiple beds in one room called a multi-bed room, so if you do not clean the bowl frequently, you will have a strange odor of excrement. There is a problem that the patient stays in the hospital room or bedroom and makes patients and residents in the same room feel uncomfortable.

Therefore, a negative pressure suction type toilet has been proposed in which the above-mentioned mobile toilet bowl is made like a flush toilet so that the excrement of the bowl can be easily discharged and the burden on the nurse or caregiver can be reduced (for example). , Patent Document 1). This negative pressure suction type toilet opens and closes a toilet body having a discharge port at the bottom, a negative pressure tank connected to the discharge port of the toilet body through a drainage pipe, and a connection between the negative pressure tank and the toilet body. It is equipped with an on-off valve, a vacuum pump attached to the negative pressure tank, a discharge valve for opening and closing the discharge port provided at the bottom of the negative pressure tank, and a control device. Then, the control device is configured to execute step A for operating the vacuum pump to bring the negative pressure tank into a negative pressure state, step B for opening the on-off valve, and step C for opening the discharge valve.

That is, in this negative pressure suction type toilet, after the inside of the negative pressure tank is put into a negative pressure state by a vacuum pump, the on-off valve provided in the drainage pipe connecting the toilet bowl body and the negative pressure tank is opened to open the negative pressure. The excrement in the toilet bowl body is sucked into the tank together with washing water. Then, when the suction of excrement into the negative pressure tank is completed, the on-off valve is closed and the inside of the negative pressure tank is returned to atmospheric pressure. After that, the drain valve provided at the bottom of the negative pressure tank is opened so that the sewage containing excrement in the negative pressure tank is drained to the sewage mass.

Japanese Unexamined Patent Publication No. 2015-124546

However, in the case of the negative pressure suction type toilet as described above, the excrement discharged from the toilet bowl is once stored in the negative pressure tank, and then the excrement is discharged from the negative pressure tank. Therefore, there is a problem that the structure of the flush toilet system is complicated. In addition, there has been a demand for a simple structure of the toilet itself. Further, when the stool is clogged when the stool is discharged, if the flush water is continuously supplied, the flush water may overflow from the toilet bowl.

The present invention has been made to solve the above problems, and to provide a flush toilet and a flush toilet system having a simple structure and capable of detecting a clogged stool. I am aiming.

The water-washing toilet according to the present invention is a water-washing toilet that can be connected to a negative pressure pump, and is connected to a bowl having a discharge port, a water injection channel for supplying water-washing water to the bowl, and the negative pressure pump. The valve mechanism includes a valve mechanism for discharging the water stored in the valve mechanism from the discharge port and a control unit for controlling the opening and closing of the valve mechanism, and the valve mechanism has a suction side end portion and a discharge side end portion. A valve body that opens and closes the discharge path between the suction side end portion and the discharge side end portion, a discharge path that allows the sewage discharged from the discharge port to flow to the negative pressure pump side, and the valve. A first series that communicates a cylinder portion accommodating a body, an urging means for urging the valve body so that the discharge path is closed, and the cylinder portion and the discharge side end portion of the discharge path. In the passage, the first on-off valve provided in the middle of the first connecting passage, and in the first connecting passage, between the first on-off valve and the cylinder portion, and between the first on-off valve and the discharge side end. A second communication passage communicating between the portions, a branch passage provided in the second communication passage and having an end open to atmospheric pressure, and a second on-off valve provided in the middle of the branch passage. , A first check valve that is arranged between the discharge side end side end of the second communication passage and the discharge side end portion and allows only air flow to the discharge side end portion side. A second check valve, which is arranged on the cylinder portion side of the branch path in the second continuous passage and allows only air to flow to the cylinder portion side, and the first check valve in the first continuous passage. (1) The pressure detecting unit is attached to either the discharge side end side of the on-off valve or the discharge side end side of the second on-off valve in the second communication passage.

According to this configuration, the valve mechanism can be directly or indirectly connected to the negative pressure pump without providing a toilet tank, so that the structure can be simplified. Further, since it is provided with a pressure detecting unit, it is possible to detect clogging of stool by monitoring the pressure.

In the flush toilet, the control unit drives the negative pressure pump when the first on-off valve and the second on-off valve are closed in the initial state and the discharge operation of discharging the filth from the bowl is started. The first step, the second step of opening the first on-off valve and reducing the pressure of the cylinder portion to move the valve body against the urging means and opening the discharge path, and the first step. 1 The third step of closing the on-off valve, opening the second on-off valve, increasing the pressure of the cylinder portion, moving the valve body by the urging means, and closing the discharge path, and the negative The fourth step of stopping the pressure pump and the step of supplying flush water to the bowl can be further executed during the discharge operation.

In each flush toilet, when the pressure detected by the pressure detecting unit drops from the initial value after the first step, the pressure detected by the pressure detecting unit after the second step is determined. When the temperature does not rise to a predetermined first reference value, the step of supplying the flush water can be stopped or not executed.

In each flush toilets, the control unit, after the third step, the pressure of the pressure detecting unit detects is, when dropped from the initial value, after the fourth step, the pressure detection unit is a pressure to be detected, When it does not rise to a predetermined second reference value, the step of supplying the flush water can be stopped or not executed.

Each flush toilet can be configured to be movable.

The flush toilet system according to the present invention includes a negative pressure pump, a sewage pipe connected to the negative pressure pump, and any of the above-mentioned flush toilets, and the valve mechanism of the flush toilet is for the sewage. It is detachably connected to the pipe.

According to the flush toilet and the flush toilet system according to the present invention, the structure is simple, and it is possible to detect when the stool is clogged.

It is a figure which outlines the flush toilet system which concerns on this invention. It is a figure explaining the connection state of the sewage pipe of the flush toilet system of FIG. 1 and a negative pressure pump. It is sectional drawing of one example of the negative pressure pump used for the flush toilet system of FIG. It is schematic cross-sectional view of the mobile toilet of the flush toilet system of FIG. It is a figure which shows typically the valve mechanism part of the mobile toilet of FIG. It is a figure explaining the operation of the mobile toilet of the flush toilet system of FIG. It is a figure explaining the operation of the mobile toilet of the flush toilet system of FIG. It is a figure explaining the operation of a valve mechanism. It is a figure explaining the operation of a valve mechanism. It is a timing chart of the operation of a valve mechanism.

Hereinafter, an embodiment of the flush toilet system according to the present invention will be described with reference to the drawings. FIG. 1 is a plan view of a living room in which a flush toilet system according to the present embodiment is arranged, FIG. 2 is a diagram for explaining a connection state between a pipe of the flush toilet system and a negative pressure pump, and FIG. 3 is a view showing a negative pressure. It is sectional drawing of a pump.

Hereinafter, the flush toilet system will be described in detail after explaining the outline of the living room in the building where the flush toilet system of the present embodiment is arranged.

<1. Outline of living room ＞
As shown in FIG. 1, the living room in which the flush toilet system according to the present embodiment is arranged is formed in a rectangular shape, and a living space 42 and a toilet booth 41 are provided therein. Here, for convenience of explanation, the wall of the upper living room 4 in FIG. 1 is the first wall 401, the wall of the lower living room 4 is the second wall 402, the wall of the right living room 4 is the third wall 403, and the left side. The wall of the living room 4 of the above will be referred to as a fourth wall 404. There are multiple living rooms in nursing care facilities such as elderly homes and condominiums for the elderly, and in buildings such as hospitals.

A window 44 is provided on the first wall 401 of the living room 4, and a door 45 is provided on the fourth wall 404 side of the second wall 402. Further, a toilet booth 41 having a rectangular shape in a plan view is provided at a corner between the second wall 402 and the third wall 403, and a mobile toilet bowl is usually arranged in the toilet booth 41. A negative pressure pump 3 is arranged on the third wall 403 side of the toilet booth 41, and the piping main body 21 connected to the negative pressure pump 3 is embedded in the third wall 403 and along the third wall 403. Is extending.

As shown in FIG. 2, the piping main body 21 connected to the negative pressure pump 3 is provided with a first toilet bowl connection port 22 and a second toilet bowl connection port 23. As shown in FIG. 1, the first toilet bowl connection port 22 is arranged so as to be exposed from the third wall 403 in the toilet booth 41, and the second toilet bowl connection port 23 is the third wall 403. 1 It is exposed near the end on the wall 401 side. The first toilet bowl connection port 22 and the second toilet bowl connection port 23 are connected to the joint portion at the end of the flexible hose 12a, which will be described later, so that the valve is opened and the joint portion is removed. It has a valve structure that closes the valve. The toilet bowl connection ports 22 and 23 and the joint portion as described above can be configured to maintain decompression.

Further, a bed 43 is provided in the vicinity of the window 44, and a mobile toilet (flush toilet) 1 moved from the toilet booth 41 can be arranged on the right side of the bed 43. Then, in order to be able to arrange the mobile toilet bowl 1, a water tap 6 and a power outlet 150 are provided on the first wall 401, and the second toilet bowl connection port 23 described above is provided on the third wall 403. Is provided. Therefore, water washing water is supplied to the mobile toilet bowl 1 from the water tap 6 via the hose 61, and the cable 15a provided in the mobile toilet bowl 1 is connected to the power outlet 150 to connect the mobile toilet bowl 1 to the power outlet 150. It is possible to supply power to the toilet. Further, by connecting the flexible hose 12a provided on the mobile toilet 1 to the second toilet connection port 23, the feces of the mobile toilet 1 can be discharged into the piping main body 21 via the flexible hose 12a. It has become. Similarly, the power outlet 150 and the water tap 6 can be arranged in the toilet booth 41.

<2. Flush toilet system ＞
The flush toilet system according to the present embodiment includes the above-mentioned mobile toilet bowl 1, a sewage pipe 2, and a negative pressure pump 3. Hereinafter, these will be described in detail.

<2-1. Piping and negative pressure pump>
The sewage pipe 2 is composed of the above-mentioned pipe main body 21 and the first and second toilet connection ports 22 and 23 connected to the main body 21. Further, as shown in FIGS. 2 and 3, the negative pressure pump 3 can use, for example, a liquid-sealed vacuum pump, and includes a pump main body 3a and a motor 31. The pump main body 3a includes a housing 32, and a screw rotor 33 and a cutter 34 are rotatably arranged in the housing 32. The screw rotor 33 and the cutter 34 are rotated by a motor 31 adjacent to the housing 32.

Further, the housing is provided with a suction side pipe 3b and a discharge side pipe 3c. The above-mentioned piping body 21 is connected to the suction side piping 3b. Further, the suction side pipe 3b has its highest position higher than the highest position of the housing 32 and is connected to the above-mentioned pipe main body 21. On the other hand, the discharge side pipe 3c is connected to a sewage pipe line 5 such as a building drainage vertical pipe, and its highest position is higher than the highest position of the housing 32. Therefore, the sealing water is always collected in the housing 32. Then, the sewage pipe line 5 is connected to an outdoor sewage mass, and the sewage is discharged to the sewage mass via the sewage pipe line 5.

The motor 31 is turned on and off by a control signal from the control device 15 described later. Further, the control signal is sent to the negative pressure pump 3 side wirelessly or by wire via a control signal line provided along the sewage pipe 2.

Then, in the negative pressure pump 3, when the screw rotor 33 is rotated by the drive of the motor 31, the sealing water accumulated in the housing 32 flows to the discharge side pipe 3c side along the inner wall of the housing 32 by centrifugal force, and the suction side is negative. It becomes a pressure state. As a result, the pressure inside the sewage pipe 2 is reduced, and the water and air in the sewage pipe 2 are discharged to the sewage pipe line 5 via the discharge side pipe 3c. Further, the cutter 34 rotates together with the screw rotor 33 to crush the solid matter flowing into the housing 32 from the sewage pipe 2 side to prevent clogging in the housing 32.

<2-2. Mobile toilet ＞
<2-2-1. Overview of mobile toilets ＞
FIG. 4 is a schematic cross-sectional view of the mobile toilet bowl, and FIG. 5 is a diagram schematically explaining a vacuum valve portion of the mobile toilet bowl of FIG. As shown in FIG. 4, the mobile toilet bowl 1 flushes the toilet bowl body 10, the bowl 11 housed in the toilet bowl body 11, the drainage channel 12 for discharging stool together with water from the bowl 11, and the bowl 11 with flush water. It is provided with a water injection channel 14 for supplying water. Further, the mobile toilet bowl 1 includes a valve mechanism (for example, a vacuum valve) 13 provided in the middle of the drainage channel 12, a control device 15 for controlling water injection and drainage, and a remote controller 19 for operating the control device 15. And have. Hereinafter, these members will be described in detail.

The toilet body 10 includes a body 10a, which is configured to accommodate a bowl 11, a drainage channel 12, a water injection channel 14, and a control device 15, and has wheels (not shown) at the lower end. .. Further, the body 10a is provided with a toilet seat 10b arranged on the upper surface of the bowl 11, a lid 10c for closing the upper opening of the bowl 11 from the upper surface of the toilet seat 10b, and a handle 10d. The bowl 11 is housed in the body 10a and has a discharge port 11a at the bottom thereof. Further, in the bowl 11, as shown in FIG. 6A, which will be described later, water is stored in advance to a predetermined height before use.

The discharge port 11a has the same or slightly smaller diameter as the pipe body 21, and one end of the drainage channel 12 is connected to the discharge port 11a. In the drainage channel 12, a valve mechanism 13 is incorporated in the middle, and a portion provided outside from the body 10a is a flexible hose 12a. Although not shown, the tip of the flexible hose 12a has a joint structure that can be attached to and detached from the toilet bowl connection ports 22 and 23 as described above.

<2-2-2. Overview of valve mechanism>
FIG. 5 is a schematic explanatory view of the vacuum valve according to the present embodiment. As shown in FIG. 5, the valve mechanism 13 constitutes a part of the drainage channel 12 and includes a body 13a. The body 13a has a cylinder portion 13h having an internal space, a suction pipe portion 13i communicating with the cylinder portion 13h and forming a part of the drainage channel 12, and a discharge pipe portion 13j. The suction pipe portion 13i is connected to the discharge port 11a of the bowl 11, and the reducer 12b forming a part of the drainage channel 12 is connected to the discharge pipe portion 13j. The reducer 12b has a large diameter side connected to the discharge port 11a side of the bowl 11, and an end portion on the small diameter side penetrates the body 10a and is exposed to the outside, and one end portion of a flexible hose 12a forming a part of the drainage channel 12. Are detachably connected.

A valve body 13b is housed in the cylinder portion 13h, and the drainage channel 12 can be opened and closed between the suction pipe portion 13i and the discharge pipe portion 13j by sliding in the cylinder portion 13h. Further, a spring 13k, which is an urging means, is connected to the valve body 13b, and the valve body 13b is always urged in the direction of closing the drainage channel 12 by the spring 13k.

As shown in FIG. 5, the valve mechanism 13 is provided with a first communication pipe (first communication passage) 13r for connecting the upper portion of the cylinder portion 13h and the discharge pipe portion 13j and communicating them. There is. Then, in the middle of the first communication pipe 13r, a first check valve 13s is provided on the discharge pipe portion 13j side, and a first electromagnetic on-off valve (first on-off valve) 13t is provided on the cylinder portion 13h side. Has been done. By the second check valve 13y, air flows through the first communication pipe 13r only from the cylinder portion 13h side to the discharge pipe portion 13j.

Further, the valve mechanism 13 has a second communication pipe (second communication pipe) connecting the cylinder portion 13h and the first electromagnetic on-off valve 13t and between the first check valve 13s and the second check valve 13y. Communication passage) 13v is provided. A branch pipe 13w is connected to the second communication pipe 13v. A second electromagnetic on-off valve 13x (second on-off valve) is provided in the middle of the branch pipe 13w. Further, the end of the branch pipe 13w is open to the atmosphere. Specifically, it is opened in the bowl 11 at a position above the water storage of the bowl 11. Further, in the second communication pipe 13v, a second check valve 13y is provided on the cylinder portion 13h side of the branch pipe 13w. By the second check valve 13y, air flows through the second communication pipe 13v only from the discharge pipe portion 13j side to the cylinder portion 13h side. Further, in the first communication pipe 13r, a pressure sensor (pressure detection unit) 13u for detecting the pressure in the first communication pipe 13r is provided between the first electromagnetic on-off valve 13t and the first check valve 13s. ing.

<2-2-3. Overview of water injection mechanism>
Returning to FIG. 4, the water injection mechanism of the mobile toilet bowl 1 will be described. As shown in FIG. 4 and FIG. 6 to be described later, a water injection port 14a facing the upper edge of the bowl 11 is provided at one end of the water injection channel 14, and a water supply port 14b is provided at the other end. A water injection channel electromagnetic on-off valve 14c is provided between the water injection port 14a and the water supply port 14b.

The water supply port 14b is exposed to the outside from the body 10a, and is connected to the water supply plugs 6 provided in the vicinity of the first toilet bowl connection port 22 and the second toilet bowl connection port 23 described above via a hose 61. It has become so.

The control device 15 is provided in the body 10a, and drives the negative pressure pump 3 by operating the operation buttons of the remote controller 19. Further, the control device 15 controls the opening and closing of the water injection channel electromagnetic on-off valve 14c, the first electromagnetic on-off valve 13t, and the second electromagnetic on-off valve 13x. In particular, as will be described later, the control device 15 controls the opening and closing of the electromagnetic on-off valves 14c, 13t, and 13x based on the pressure detected by the pressure sensor 13u. Further, the control device 15 is connected to a cable 15a having a plug provided so as to penetrate the body 10a, and as described above, power is supplied by connecting the plug of the cable 15a to a power outlet. It has become like.

<3. How to use the flush toilet system>
<3-1. Overview of usage ＞
Next, the usage and operation of this vacuum flush toilet system will be described in detail with reference to FIGS. 6 to 10. 6 and 7 are diagrams showing the operation of the mobile toilet of the flush toilet system, FIGS. 8 and 9 are diagrams for explaining the operation of the vacuum valve, and FIG. 10 is a diagram for opening and closing each solenoid valve of the valve mechanism. It is a timing chart showing.

(1) First, as shown in FIG. 1, the mobile toilet bowl 1 is moved into the toilet booth 41, which is the assumed installation position, or to the bedside of the living space 42, and the toilet bowl connection port 22 provided in the vicinity thereof (1) The flexible hose 12a connected to the reducer 12b is connected to 23). Further, the hose 61 connected to the water injection channel 14 is connected to the water tap 6, and the plug of the power cable 15a of the control device 15 is connected to the power outlet (not shown). In this state, as shown in FIG. 6A, water is stored up to a predetermined height of the bowl 11. Further, in the initial state shown in FIG. 5, the first electromagnetic on-off valve 13t and the second electromagnetic on-off valve 13x are in the closed state. Then, the pressure sensor 13u generally detects the atmospheric pressure (initial value).

(2) When the user finishes the stool and the user or the caregiver presses the switch of the remote controller 19, the water injection channel electromagnetic on-off valve 14c is opened, and as shown in FIG. 6B, the water injection port is opened. Washing water for washing is supplied from 14a into the bowl 11. At this time, the remote controller 19 is operated, and the time when the water injection channel electromagnetic on-off valve 14c is opened is set to 0. Then, after a short time t1 from this, the negative pressure pump 3 operates. At this time, the first electromagnetic on-off valve 13t and the second electromagnetic on-off valve 13x are in the closed state. At this time, the pressure detected by the pressure sensor 13u decreases from atmospheric pressure to negative pressure.

(2) When the control unit of the control device 15 determines that the time t2 has elapsed, the water injection channel electromagnetic on-off valve 14c is closed and the supply of flush water is stopped. At the same time, the control device 15 opens the first electromagnetic on-off valve 13t with the second electromagnetic on-off valve 13x closed. As a result, the cylinder portion 13h and the negative pressure pump 3 communicate with each other, so that the air inside the cylinder portion 13h is sucked into the sewage pipe 2 side through the first communication pipe 13r. At this time, since the second check valve 13y is arranged on the cylinder portion 13h side of the second communication pipe 13v, the air in the cylinder portion 13h does not flow into the second communication pipe 13v. In this way, the pressure inside the cylinder portion 13h is reduced, so that the valve body 13b is pulled up above the cylinder portion 13h against the urging force of the spring 13k, as shown in FIGS. 7A and 8. Then, by pulling up the valve body 13b, the valve mechanism 13 is opened, and as shown in FIG. 8, the stored water containing the filth in the bowl 11 is sucked into the sewage pipe 2 side.

At this time, in the first communication pipe 13r, the first electromagnetic on-off valve 13t is opened, so that the pressure detected by the pressure sensor 13u returns from the negative pressure to the atmospheric pressure.

(3) When the control unit of the control device 15 determines that the time t3 from the start of drainage to the sufficient suction of sewage to the sewage pipe 2 side has elapsed, the control unit of the control device 15 controls. The signal causes the first electromagnetic on-off valve 13t to be closed and the second electromagnetic on-off valve 13x to be opened. As a result, the air from the branch pipe 13w due to the atmospheric pressure flows only to the cylinder portion 13h side. As a result, the inside of the cylinder portion 13h becomes atmospheric pressure through the first communication pipe 13r and the second communication pipe 13v, and as shown in FIGS. 7B and 9, the valve body 13b is drained by the urging force of the spring 13k. Move to close twelve. In this way, the suction of the water stored in the bowl 11 to the sewage pipe 2 side is stopped.

Further, by opening the second electromagnetic on-off valve 13x, the odor around the mobile toilet bowl 1 passes through the branch pipe 13w, the second communication pipe 13v, and the first communication pipe 13r, and is sucked into the sewage pipe 2. .. Then, the odor sucked into the sewage pipe 2 is sucked into the negative pressure pump 3 together with the sewage in the sewage pipe 2, and then exhausted to the sewage pipe line 5 together with the sewage.

At this time, in the first communication pipe 13r, the first electromagnetic on-off valve 13t is closed again, so that the pressure detected by the pressure sensor 13u drops from atmospheric pressure to negative pressure due to suction by the negative pressure pump 3. I will go.

(4) After that, in the control unit of the control device 15, at the time t4 after a lapse of a short time from the time t3, the water injection channel electromagnetic on-off valve 14c is opened and water washing water is supplied. That is, the washing water is supplied so as to fill the drained bowl 11 during the time t2 to t3.

(5) Then, when the control unit of the control device 15 determines that the time t5 has elapsed, the negative pressure pump 3 is stopped, and at the time t6 when a short time has elapsed from that time, the water injection channel electromagnetic on-off valve The 14c is closed and the supply of flush water is stopped. In this way, when the negative pressure pump 3 is stopped, the pressure detected by the pressure sensor 13u returns from the negative pressure to the atmospheric pressure. Then, after time t7, the second electromagnetic on-off valve 13x is also closed, and the air flow and odor suction due to atmospheric pressure are also stopped.

<3-2. Detection of clogging by pressure sensor>
By the way, as shown in FIG. 10, the pressure sensor 13u detects the negative pressure twice in the periods A and B by opening and closing the two electromagnetic on-off valves 13t and 13x and sucking by the negative pressure pump 3. After that, it has returned to atmospheric pressure. However, for example, if the drain pipe portion 13j is clogged with stool or the like, the pressure may not return to atmospheric pressure. This point will be described below.

First, during the period A in FIG. 10, if the stool is clogged around the valve body 13b and the stool does not flow from the suction pipe portion 13i to the discharge pipe portion 13j, it is detected by the pressure sensor 13u due to the influence of the negative pressure pump 3. The pressure does not return from the negative pressure to the atmospheric pressure (first reference value). This makes it possible to detect clogging of stool. When the clogging of the stool is detected in this way, the control unit closes the water injection channel electromagnetic on-off valve 14c and stops the water washing water from being supplied to the bowl.

Further, in the period B of FIG. 10, if the stool is clogged between the discharge pipe portion 13j and the negative pressure pump 3, the negative pressure state is maintained even if the negative pressure pump 3 is stopped, so that the pressure sensor 13u is used. The detected pressure does not return from the negative pressure to the atmospheric pressure (second reference value). This makes it possible to detect clogging of stool. When the clogging of the stool is detected in this way, the control unit closes the water injection channel electromagnetic on-off valve 14c and stops the water washing water from being supplied to the bowl 11.

<3. Features>

(1) As the installation position of the mobile toilet 1, the toilet booth 41 and the living space 42 near the bed 43 are selected as necessary, and the mobile toilet 1 is used as a flush toilet at each position. can do. That is, the excrement can be immediately discharged to the sewage pipe line 5 simply by pressing the button of the remote controller 19, and the nurse or the caregiver can perform the work of dumping the excrement of the bowl into the flush toilet and the work of cleaning the bowl. There is no need to do it, and the burden of nursing and long-term care can be reduced.

(2) Two locations, a toilet booth 41 and a living space 42, can be selected as the installation position of the mobile toilet bowl 1. For example, when the toilet booth 41 is healthy or can be walked with light assistance, the mobile toilet bowl 1 is permanently installed in the toilet booth 41. If the toilet is used as a normal flush toilet and becomes older, or if it is difficult to move to the toilet booth 41 due to obstacles that make it difficult to walk with light assistance, move the mobile toilet 1 to the living space 42. You can use the toilet at the bedside.

(3) Since the sewage in the sewage pipe 2 is discharged to the sewage pipe line 5 and at the same time the odor in and near the bowl 11 is discharged to the sewage pipe line 5, the offensive odor of excrement is less likely to leak into the room or the like. ..

(4) Since the negative pressure pump 3 is drained directly to the sewage pipe line 5, it is not necessary to install a tank or the like. Further, since the negative pressure pump 3 is arranged in the living room, sewage can be discharged by using the sewage pipe line 5 installed in the building in advance.

(5) When the drainage is completed, the inside of the sewage pipe 2 is empty and the negative pressure pump 3 is a liquid-sealed type. Therefore, when the mobile toilet bowl 1 is reconnected, the sewage pipe line 5 is used. It is possible to prevent the odor in the sewage pipe 2 from leaking into the room as much as possible as well as the odor on the side.

(6) Since the negative pressure pump 3 includes the cutter 34, the solid matter is crushed by the cutter 34, and clogging in the negative pressure pump 3 can be prevented.

(7) By the time t2 when the drainage is stopped, the water in the bowl 11 is emptied so that the air is not sucked from the discharge port 11a, so that the drainage noise in the bowl 11 can be prevented as much as possible. ..

(8) Since the number of electromagnetic on-off valves is two, the cost can be reduced and the control becomes easy. In addition, the inside of the cylinder portion 13h can be made atmospheric pressure and the odor can be sucked only by the branch pipe 13w. Therefore, the number of branch pipes can be reduced. The position where the end of the branch pipe 13w is arranged is not particularly limited as long as it is open to the atmosphere and the odor generated by the mobile toilet bowl 1 can be sucked. Therefore, it may be arranged at a position facing the bowl 11 as in the first embodiment, or it may be in the vicinity of the valve mechanism 13.

(9) Since the pressure detection unit is provided, clogging of stool can be detected as described above. Therefore, it is possible to control the water injection channel electromagnetic on-off valve 14c after the detection to stop the supply of the flush water or prevent the supply of the flush water. As a result, the bowl is supplied with flush water even though the stool is clogged, and the bowl can be prevented from overflowing with the flush water.

<4. Modification example>
Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention. Hereinafter, a modified example will be described. However, the following modifications can be combined as appropriate.

<4-1>
The position where the pressure sensor 13u is provided is not particularly limited, and is between the first electromagnetic on-off valve 13t and the discharge pipe portion 13j in the first communication pipe 13r, or the branch pipe 13w and the first communication in the second communication pipe 13v. It may be in any position between the pipe 13r and the pipe 13r.

<4-2>
In the above embodiment, the negative pressure pump 3 is arranged in the living room 4 (including the inside of the wall), and the negative pressure pump 3 is connected to the sewage pipe line 5 such as a building drainage pipe. However, the negative pressure pump 3 can be arranged inside a building other than the living room 4 or outside the building. Then, the negative pressure pump 3 can be connected to the sewage pipe line 5. Further, the mobile toilet bowls 1 of the plurality of living rooms 4 can be connected to one negative pressure pump 3.

<4-3>
In each of the above embodiments, drainage and water injection are performed by opening and closing an electromagnetic on-off valve, but an electric valve, a hydraulic valve, an air valve, or the like may be used.

<4-4>
The timing of driving the negative pressure pump 3, opening and closing the first electromagnetic on-off valve 13t, and opening and closing of the second electromagnetic on-off valve 13x in the above embodiment is an example. The body 13b may move to open the drainage channel 12, and the stool may flow to the negative pressure pump 3 side. (2) The valve body 13b may move to close the drainage channel 12. Further, the timing of water injection is not particularly limited as long as the bowl 11 can be supplied with flush water so as to encourage the flow of stool or prevent the bowl 11 from overflowing.

<4-5>
In each of the above embodiments, water injection is stopped when the pressure detected by the pressure sensor 13u does not return from the negative pressure to the atmospheric pressure, but the reference pressure is not limited to this. That is, even if the pressure does not return to atmospheric pressure after dropping from the predetermined initial value to the negative pressure below the predetermined value, if it exceeds the predetermined reference values (first reference value and second reference value), there is no clogging. You can also judge. Further, in the above periods A and B, the reference values (first reference value and second reference value) for determining that there is no clogging may be the same or different. Moreover, the initial value does not have to be atmospheric pressure.

<4-6>
The negative pressure pump is not particularly limited and may not be as shown in FIGS. 2 and 3. That is, it is not particularly limited as long as it can suck sewage.

<4-7>
In the above embodiment, the toilet bowl body is configured to be movable, but it does not necessarily have to be movable and may be fixed.

1 Mobile toilet 11 Bowl 11a Outlet 12 Outlet 13 Valve mechanism 13b Valve body 13h Cylinder 13k Spring 14 Water injection channel 15 Control device 2 Sewage piping 3 Negative pressure pump

Claims (6)

A flush toilet that can be connected to a negative pressure pump
A bowl with an outlet and
A water injection channel that supplies wash water to the bowl and
A valve mechanism connected to the negative pressure pump and for discharging the water stored in the bowl from the discharge port,
A control unit that controls the opening and closing of the valve mechanism, and
With
The valve mechanism
A discharge path having a suction side end and a discharge side end, and flowing sewage discharged from the discharge port to the negative pressure pump side.
A valve body that opens and closes the discharge path between the suction side end and the discharge side end.
A cylinder portion that houses the valve body and
The urging means for urging the valve body so that the discharge path is closed, and
A first connecting passage that communicates the cylinder portion and the discharge side end portion of the discharge path, and
A first on-off valve provided in the middle of the first passage, and
In the first communication passage, a second communication passage that communicates between the first on-off valve and the cylinder portion, and between the first on-off valve and the discharge side end portion, and
A branch road provided in the second passage and having an end open to atmospheric pressure,
A second on-off valve provided in the middle of the branch path and
A first check valve that is arranged between the discharge side end side end of the second passage and the discharge side end portion and allows only air flow to the discharge side end portion side. ,
In the second continuous passage, a second check valve arranged on the cylinder portion side of the branch passage and allowing only air flow to the cylinder portion side.
A pressure detection unit attached to either the discharge side end side of the first on-off valve in the first passage, or the discharge side end side of the second on-off valve in the second passage. When,
A flush toilet equipped with. The control unit
In the initial state, the first on-off valve and the second on-off valve are closed.
When the discharge operation for discharging the filth from the bowl is started,
The first step of driving the negative pressure pump and
The second step of opening the first on-off valve and reducing the pressure of the cylinder portion to move the valve body against the urging means and opening the discharge path.
A third step of closing the first on-off valve, opening the second on-off valve, and increasing the pressure of the cylinder portion to move the valve body by the urging means and closing the discharge path.
The fourth step of stopping the negative pressure pump and
And at the same time
The flush toilet according to claim 1, wherein a step of supplying flush water to the bowl is further executed during the discharge operation. The control unit
After the first step, when the pressure detected by the pressure detection unit drops from the initial value,
The water washing according to claim 2, wherein after the second step, when the pressure detected by the pressure detecting unit does not rise to a predetermined first reference value, the step of supplying the water washing water is stopped or not executed. toilet. The control unit
After the third step, when the pressure detected by the pressure detection unit drops from the initial value,
The second or third aspect of the present invention, wherein when the pressure detected by the pressure detecting unit does not rise to a predetermined second reference value after the fourth step, the step of supplying the flush water is stopped or not executed. Flush toilet. The flush toilet according to any one of claims 1 to 4, which is configured to be movable. Negative pressure pump and
The sewage pipe connected to the negative pressure pump and
The flush toilet according to any one of claims 1 to 5 and
A flush toilet system in which a flush toilet valve mechanism is detachably connected to the sewage pipe.

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