JP2012057395A - Toilet device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a toilet device which is usable by a user in accordance with dwelling conditions and time zone without concerning about vibration and operation noise.SOLUTION: A toilet device includes a control unit which is structured to change an operating condition of a crushing mechanism, an air compressor and the like based on an operation mode selected from a plurality of operation modes (for example, normal mode and silent mode). This makes it possible to operate the crushing mechanism set to prolong an operation time and decrease the operation speed at night, and at daytime, to reduce the operation time and increase the operation speed. As a result, the user is allowed to use the toilet device in accordance with dwelling conditions and time zone without concerning about vibration and operation noise.

Description

  The present invention relates to a toilet device that is improved in convenience by changing operating conditions of a crushing mechanism unit, a pressure feeding unit, and the like according to housing circumstances and time zones.

  Conventionally, a portable toilet device for care is used for a person who needs care. This portable toilet device is often in the form of a stool type (so-called Western type) in which a user sits on a toilet seat. The portable toilet device generally has a form including a container for receiving and discharging filth and a form in which filth drainage is performed under natural flow.

  Patent Document 1 discloses a toilet apparatus including a stirring means and a compressed air tank as means for forcibly discharging filth in a place where a drain pipe gradient cannot be obtained. According to this toilet device, the toilet body is hermetically sealed, the filth is fluidized by the stirring means provided in the toilet body to form a filth fluid, and the compressed air from the compressed air tank is fed into the toilet body. The waste fluid is pumped and discharged.

  Patent Document 2 discloses a toilet apparatus including an air compressor. According to this toilet apparatus, the inside of the crushing apparatus is sealed, and the filth is pulverized by the crushing apparatus to form a filth fluid, and then the compressed air from the air compressor is sent to the pulverizing apparatus to pump out the filth fluid. .

JP 2000-8442 A JP 2008-86880 A

  By the way, when the toilet apparatus of patent document 1 and patent document 2 is used in a nighttime or an apartment house, it is the family living together by the opening and closing of the valve in the said toilet apparatus, the vibration and operation sound which generate | occur | produce at the time of crushing and pumping of filth. And inconvenience to neighboring residents.

  On the other hand, it is conceivable to reduce the operation speed in order to suppress the vibration and the operation sound, but in this case, the processing time of each part becomes long. For example, a long processing time is required even in the daytime or the like even in a situation where some vibrations and operating noises are not a concern.

  Then, this invention solves the above-mentioned subject, Comprising: It aims at providing the toilet apparatus which can be used according to a housing condition or a time zone, without minding a vibration and an operation sound. .

  The toilet apparatus according to the present invention is provided so that washing water can flow in, and a toilet body that receives excreted waste and washing water, and a waste that flows out of the toilet body provided in the lower part of the toilet body. A pulverizing mechanism that pulverizes and forms a filth fluid together with washing water, and a lower part of the pulverizing mechanism that can be filled with compressed air supplied from a compressed air supply device. And a discharge port that can be connected to a discharge pipe member that guides the filth fluid flowing into the inlet to a disposal site, and the filth fluid flowing from the inflow port is pumped with compressed air to the discharge port. Based on the operation mode selected from among a plurality of operation modes stored in the storage unit, and a storage unit that stores a plurality of operation modes including operation conditions of the crushing mechanism unit and the pumping unit. , Crushing mechanism part or pumping part, young Ku is characterized in that a control unit for changing both operating conditions.

  Further, the toilet device according to the present invention is provided so that washing water can flow in, and is provided in a toilet body part that receives excreted waste and washing water, and in a lower part of the toilet body part, and flows out from the toilet body part. A pulverizing mechanism that pulverizes the filth and flows down as a filth fluid with washing water, a storage unit that stores a plurality of operation modes including operating conditions of the pulverizing mechanism, and a plurality of operations stored in the storage unit And a control unit that changes the operating condition of the crushing mechanism unit based on the operation mode selected from the modes.

  The toilet device according to the present invention includes a control unit that changes the operating conditions of the crushing mechanism unit, the pressure feeding unit, or both based on the operation mode selected from the plurality of operation modes.

  Thus, for example, at night, the operation time is set to be long and the operation speed is set to be slow. In addition, it is possible to operate the pulverizing mechanism portion or the like set so as to increase the operation speed. As a result, the toilet device can be used without worrying about vibrations and operating sounds according to housing circumstances and time zones, and convenience is improved.

It is the schematic which shows the structural example of the toilet apparatus 100 which concerns on 1st Embodiment. 3 is a block diagram illustrating a configuration example of a control system of the toilet apparatus 100. FIG. FIG. 5 is an explanatory diagram showing a configuration example of an operation mode switching lever 8. It is explanatory drawing which shows the example of a setting of an operation mode. 5 is a flowchart illustrating an operation example of the toilet apparatus 100. It is a block diagram which shows the structural example of the control system of the toilet apparatus 200 which concerns on 2nd Embodiment. It is explanatory drawing which shows the structural example of the operation mode switching lever 8A. 5 is a flowchart illustrating an operation example of the toilet apparatus 200.

  Hereinafter, a toilet apparatus will be described as an example of an embodiment of the present invention with reference to the drawings. The toilet device is a crushing mechanism provided below the toilet body that accepts excreted waste and used toilet paper, etc., and crushes dirt, toilet paper, etc. along with the wash water supplied to the toilet body. It can be installed in hospital hospital rooms or living rooms of houses.

<First Embodiment>
[Configuration Example of Toilet Device 100]
First, a configuration example and a normal cleaning example of the toilet apparatus 100 according to the first embodiment will be described. As shown in FIG. 1, the toilet device 100 includes a toilet body 1, a crushing mechanism 2, a pressure feed tank 3, a water supply tank 4, a control unit 7, and the like.

  The water supply tank 4 stores, for example, 1.5 to 3 liters of washing water. This washing water is supplied to the water supply tank 4 from a built-in toilet 5 (an existing normal toilet) which is an example of a disposal place in a room different from the room where the toilet device 100 is installed.

  A water supply pipe 5a for supplying water from the equipped toilet 5 to the water supply tank 4 is provided with a water supply tank electromagnetic valve 4a and a flow rate sensor 4b. For example, when the toilet lid opening / closing detection sensor 4d provided on the front surface of the water supply tank 4 detects the opening / closing of the toilet lid 1a or when the user presses the washing button 4c, the control unit 7 opens the water tank electromagnetic valve 4a. To. Then, the wash water from the equipped toilet 5 is supplied to the water supply tank 4 through the water supply tank electromagnetic valve 4a. The flow rate sensor 4b provided in the water supply pipe 5a integrates the flow rate of the cleaning water flowing through the water supply pipe 5a during the water supply. When the washing water flows by a predetermined flow rate, a signal is output from the flow rate sensor 4b to the control unit 7, and the control unit 7 closes the water supply tank electromagnetic valve 4a to stop water supply to the water supply tank 4. In this way, a predetermined amount of washing water is stored in the water supply tank 4. In addition, you may provide the flow sensor which integrates the time of the washing water which flows into the water supply pipe 5a instead of a flow sensor.

  A water supply valve 4 e is provided at the water supply port at the lower part of the water supply tank 4. In addition, a water supply pipe 4 f is provided from the water supply port toward the water flow port 1 c of the toilet body 1. When the water supply valve 4e is opened, the wash water stored in the water supply tank 4 flows into the toilet body 1 from the water outlet 1c through the water supply pipe 4f. Thereafter, when the cleaning water is stored again in the water supply tank 4, the water supply valve 4 e is closed and the cleaning water is supplied from the equipped toilet 5.

  A toilet lid 1a and a toilet seat 1b are provided above the toilet body 1. When the toilet lid opening / closing detection sensor 4d detects opening / closing of the toilet lid 1a, various processes of the toilet device 100 are performed. The toilet seat 1b is connected to a water supply pipe (not shown) connected to the attached toilet 5. Wash water from the attached toilet 5 is supplied to the water supply pipe, and the wash water is ejected from the toilet seat 1b to wash the user's buttocks seated on the toilet seat 1b.

  The toilet body 1 includes a water outlet 1c through which washing water flows, an upper opening 1d that receives filth from the upper part, and a lower opening 1e that discharges washing water and filth from the lower part. The toilet body 1 receives the filth excreted from the user who opened the toilet lid 1a and sat on the toilet seat 1b through the upper opening 1d. And the filth received by the toilet bowl main-body part 1 is discharged | emitted from the lower opening part 1e with the wash water which flows through the flowing water port 1c.

  A crushing mechanism 2 is provided below the toilet body 1. The crushing mechanism unit 2 has an opening 2a through which filth and washing water that flows out of the toilet body 1 flows. The crushing mechanism unit 2 includes a rotating tooth 2b that rotates in a substantially disk shape, and a fixed tooth 2c that is provided on the lower side of the rotating tooth 2b and is integrated with the housing 2d. Have The pulverized teeth according to the present invention are formed by the rotating teeth 2b and the fixed teeth 2c.

  The crushing mechanism unit 2 takes in filth and washing water flowing out from the toilet body 1 from the opening 2a, and rotates the rotating tooth 2b by a crushing tooth motor M2 connected through a shaft, a pulley, a belt, and the like. Then, the filth and the cleaning water flow between the rotating teeth 2b and the fixed teeth 2c and are crushed by the concave and convex portions where the rotating teeth 2b and the fixed teeth 2c face each other. By this pulverization, the filth and the washing water become a filth fluid.

  The crushing mechanism 2 is provided with a discharge valve 2e. The discharge valve 2e is connected to a discharge valve motor M3 through a worm gear 2f. As the discharge valve motor M3 rotates, the worm gear 2f rotates, and the discharge valve 2e moves left and right in FIG.

  For example, when pulverizing the filth by the pulverizing mechanism 2, the discharge valve 2e is moved to the left, and the discharge valve 2e is closed so that the filth fluid or the like is not discharged from the pulverizing mechanism 2. When the crushing operation of the crushing mechanism unit 2 is completed, the discharge valve 2e is moved to the right, and the discharge valve 2e is opened so that the filth fluid is discharged from the crushing mechanism unit 2.

  A partition mechanism 10 is provided between the toilet body 1 and the crushing mechanism 2. The partition mechanism part 10 opens and closes the opening part 2a by the opening / closing cover 10a that performs a crank operation by the action of the opening / closing cover motor M1, and partitions the toilet body part 1 and the crushing mechanism part 2.

  For example, when the user completes excretion and stands up from the toilet seat 1b and closes the toilet lid 1a, the opening / closing lid motor M1 rotates and the opening / closing lid 10a moves (moves to the left in FIG. 1). The opening 2a is opened. When the filth and washing water received by the toilet body 1 flow into the crushing mechanism 2 through the opening 2a, the opening / closing lid motor M1 further rotates and the opening / closing lid 10a moves ( In FIG. 1, it moves to the right side) to close the opening 2a.

  A pressure tank 3 and an air compressor 6, which are examples of a pressure feeding unit, are provided below the crushing mechanism unit 2. The pressure tank 3 is made of, for example, metal or resin processed into a cylindrical shape. The capacity of the pressure tank 3 is about 3 to 5 liters.

  The pressure feed tank 3 is provided so as to be able to be filled with compressed air supplied from an air compressor 6 which is a compressed air supply device, and is pulverized by an air supply port 3 a for taking in compressed air from the air compressor 6 and the pulverizing mechanism 2. The inflow port 3b into which the filth fluid flows in, and the discharge port 3c to which the tube 53, which is an example of the discharge pipe member that is provided with the filth fluid inflow into the inflow port 3b and leads to the toilet 5, can be connected. The tube 53 is made of a bendable resin material or rubber material.

  The pressure feed tank 3 pumps the filth fluid flowing in from the inflow port 3b with compressed air by the air compressor 6 and discharges it from the discharge port 3c. Thereafter, the filth fluid discharged from the discharge port 3 c is discharged through the tube 53 to the provided toilet 5 in a room different from the room in which the toilet device 100 is installed.

[Configuration Example of Control System of Toilet Device 100]
Then, the structural example of the control system of the toilet apparatus 100 is demonstrated. As illustrated in FIG. 2, the toilet apparatus 100 includes a control unit 7 that is an example of a control unit. The control unit 7 includes a CPU 7a (Central Processing Unit) having an arithmetic function, a memory 7b for storing various programs, and an I / O interface 7c. The CPU 7a, the memory 7b, and the I / O interface 7c are connected via a system bus 7d.

  For example, in the memory 7b as an example of the storage unit, in addition to the system program for controlling the toilet device 100, control information for executing water supply control, discharge control, pumping control, etc., the crushing mechanism unit 2, A plurality of operation modes including operation conditions such as the air compressor 6 are temporarily stored. When the power is turned on, the CPU 7a that has detected the power-on information reads the system program from the memory 7b, starts the system, and controls the entire toilet device 100.

  In addition to the control unit 7, the control system of the toilet device 100 is a water tank electromagnetic valve 4a, a flow rate sensor 4b, a washing button 4c, a toilet lid opening / closing detection sensor 4d, an opening / closing lid motor driving unit 11, and a grinding tooth motor driving unit 12. The exhaust valve motor drive unit 13, the air compressor 6, and the operation mode switching lever 8 are configured.

  A water tank electromagnetic valve 4a, a flow sensor 4b, a washing button 4c, and a toilet lid opening / closing detection sensor 4d are connected to the control unit 7 via an I / O interface 7c.

  When the cleaning button 4c is pressed by the user, a cleaning signal S3 is output from the cleaning button 4c to the control unit 7. When the toilet lid opening / closing detection sensor 4 d detects the opening operation of the toilet lid 1 a shown in FIG. 1, the toilet lid opening / closing detection sensor 4 d outputs a lid opening / closing detection signal S 4 indicating the start of use of the toilet body 1 to the control unit 7. Incidentally, the lid opening / closing detection signal S4 is also a signal indicating the opening / closing of the toilet lid 1a. For the toilet lid opening / closing detection sensor 4d, for example, a transmission type sensor or the like is used. The toilet lid opening / closing detection sensor 4d is an example of a detection unit that detects the start and end of use of the toilet apparatus 100 and the unused state and generates a detection signal.

  When receiving the washing signal S3 from the washing button 4c or the lid opening / closing detection signal S4 from the toilet lid opening / closing detection sensor 4d, the control unit 7 generates an electromagnetic valve control signal S1 for opening and closing the water tank electromagnetic valve 4a. Then, the control unit 7 outputs the generated electromagnetic valve control signal S1 to the water tank electromagnetic valve 4a.

  The water supply tank solenoid valve 4a changes from the closed state to the open state upon receiving the solenoid valve control signal S1 output from the control unit 7, and the wash water is supplied from the equipped toilet 5 shown in FIG. 1 through the water supply pipe 5a. 4 is stored. At this time, the flow rate sensor 4b integrates the flow rate of the cleaning water flowing through the water supply pipe 5a, and outputs a water supply stop signal S2 to the control unit 7 when the flow rate reaches a predetermined level.

  When the control unit 7 receives the water supply stop signal S2 output from the flow sensor 4b, the control unit 7 outputs the electromagnetic valve control signal S1 again to the water tank electromagnetic valve 4a. And the water supply tank solenoid valve 4a will be in a closed state from the open state, if the solenoid valve control signal S1 output from the control unit 7 is received, and the water supply from the equipped toilet 5 will be interrupted | blocked.

  The control unit 7 further includes an opening / closing lid motor drive unit 11, a crushing tooth motor drive unit 12, a discharge valve motor drive unit 13, an air compressor 6 and an operation mode switching lever 8 via an I / O interface 7c. Connected. The opening / closing lid motor drive unit 11 is connected to an opening / closing lid motor M1, the grinding tooth motor driving unit 12 is connected to a grinding tooth motor M2, and the discharge valve motor driving unit 13 is connected to a discharge valve. A motor M3 is connected.

  The opening / closing lid motor drive unit 11 receives the motor drive data D1 output from the control unit 7, decodes the motor drive data D1, and generates a motor control signal S5. The opening / closing lid motor drive unit 11 outputs the generated motor control signal S5 to the opening / closing lid motor M1 to drive the opening / closing lid motor M1.

  The open / close lid motor M1 is rotationally driven in a predetermined direction upon receiving the motor control signal S5. The opening / closing lid motor M1 opens and closes the opening 2a by moving the opening / closing lid 10a shown in FIG.

  For example, when the opening / closing lid 10a moves to the left side, the opening 2a is opened, and when the opening / closing lid 10a moves to the right side, the opening 2a is closed. By such an operation of the opening / closing lid 10a, toilet paper, filth, washing water, and the like flowing into the crushing mechanism unit 2 from the toilet main body 1 are passed or stopped.

  The pulverized tooth motor drive unit 12 receives the motor drive data D2 output from the control unit 7, decodes the motor drive data D2, and generates a motor control signal S6. The pulverization tooth motor drive unit 12 outputs the generated motor control signal S6 to the pulverization tooth motor M2 to drive the pulverization tooth motor M2.

  When receiving the motor control signal S6, the pulverization tooth motor M2 is driven to rotate in a predetermined direction. And while the axis | shaft of the motor M2 for grinding | pulverization teeth rotates, the rotation tooth | gear 2b connected via a shaft, a pulley, a belt, etc. rotates. By rotating the rotating tooth 2b, filth, washing water, etc. flow between the rotating tooth 2b and the fixed tooth 2c, and the filth, washing water, etc. that flowed in are crushed.

  The discharge valve motor drive unit 13 receives the motor drive data D3 output from the control unit 7, decodes the motor drive data D3, and generates a motor control signal S7. The discharge valve motor drive unit 13 drives the discharge valve motor M3 by outputting the generated motor control signal S7 to the discharge valve motor M3.

  Upon receiving the motor control signal S7, the discharge valve motor M3 is driven to rotate in a predetermined direction. The shaft of the discharge valve motor M3 rotates, and the worm gear 2f rotates to open and close the discharge valve 2e connected to the worm gear 2f.

  For example, when the discharge valve motor M3 rotates clockwise, the discharge valve 2e moves to the right side in FIG. 1 to open the discharge valve 2e, so that the filth fluid, washing water, etc. in the crushing mechanism section 2 can flow from the inlet 3b. It flows into the pressure tank 3. Further, when the discharge valve motor M3 rotates counterclockwise, the discharge valve 2e moves to the left in FIG. 1 to close the discharge valve 2e, and the filth fluid, washing water, etc. in the crushing mechanism unit 2 are stored.

  The control unit 7 controls the air compressor 6 to stop the filling of the compressed tank 3 with compressed air based on a pressure detection signal from a pressure detection sensor (not shown) that detects the pressure inside the pressurized tank 3. The air compressor 6 receives the pressure control signal S8 from the control unit 7, compresses air based on the pressure control signal S8, and sends the compressed air into the pressure feed tank 3. Thereby, for example, fluidized filth, washing water, or compressed air in the pressure tank 3 can be discharged from the discharge port 3c.

  The operation mode switching lever 8 is an example of an operation unit, and selects and operates a desired operation mode from among a plurality of operation modes of the toilet apparatus 100. For example, the operation mode switching lever 8 is provided on the front surface of the water supply tank 4 in FIG. 1, and as shown in FIG. 3, a rotation shaft 8 a that rotates clockwise and counterclockwise, and a rotation shaft 8 a that is provided on this rotation shaft. It is comprised with the instruction | indication part 8b which points out "normal mode" or "silent mode."

  When the instruction unit 8 b indicates the normal mode, a normal mode signal S 9 is output from the operation mode switching lever 8 to the control unit 7. When the instruction unit 8 b indicates the silent mode, the silent mode signal S 10 is output from the operation mode switching lever 8 to the control unit 7.

  The CPU 7a of the control unit 7 receives the normal mode signal S9 or the silent mode signal S10 output from the operation mode switching lever 8 via the I / O interface 7c.

  Upon receiving the normal mode signal S9, the CPU 7a selects a normal mode from a plurality of operation modes stored in advance in the memory 7b, and based on the selected normal mode, the crushing mechanism unit 2 and the air compressor 6 are selected. Change the operating conditions.

  Further, when the CPU 7a receives the silent mode signal S10, the CPU 7a selects a silent mode from a plurality of operation modes stored in advance in the memory 7b, and based on the selected silent mode, the crushing mechanism unit 2 and the air Change the operating conditions of the compressor 6, etc.

  Each operation mode and operation condition shown in FIG. 4 is stored as data in the memory 7b. In the normal mode, for example, the rotation of the grinding teeth (rotating teeth 2b) is 100%, the opening degree of the discharge valve 2e is 100%, the opening / closing speed of the discharge valve 2e is 100%, and the operation of the air compressor 6 is continuous operation. In the silent mode, for example, the rotation of the grinding teeth (rotating teeth 2b) is 70%, the opening degree of the discharge valve 2e is 50%, the opening / closing speed of the discharge valve 2e is 50%, and the operation of the air compressor 6 is intermittent operation. Become.

  That is, in the quiet mode, the number of rotations of the grinding teeth (rotating teeth 2b) is smaller than that in the normal mode, the opening degree of the discharge valve 2e is small, the opening and closing speed of the discharge valve 2e is slow, and the operation of the air compressor 6 is intermittent. Become. Thus, if each operation condition is set, the vibration and operation sound of the toilet apparatus 100 can be reduced. Since the user can appropriately switch the operation mode with the operation mode switching lever 8, if the user is concerned about the vibration or operation sound of the toilet apparatus 100, the user can switch the operation mode to the silent mode with the operation mode switching lever 8. good.

[Operation example of toilet apparatus 100]
Next, an operation example of the toilet apparatus 100 will be described using a flowchart. As shown in FIG. 5, in step ST1, it is determined whether or not the user has pressed the cleaning button 4c. In other words, the CPU 7a determines whether or not the cleaning signal S3 output from the cleaning button 4c is input to the CPU 7a. If the cleaning button 4c is pressed, the process proceeds to step ST3, and if the cleaning button 4c is not pressed, the process proceeds to step ST2.

In step ST2, the CPU 7a determines whether or not the toilet lid 1a has been closed by the toilet lid opening / closing detection sensor 4d. That is, the CPU 7a determines whether or not the lid opening / closing detection signal S4 output from the toilet lid opening / closing detection sensor 4d is input to the CPU 7a.
If the toilet lid opening / closing detection sensor 4d detects that the toilet lid 1a is closed, the process proceeds to step ST3. If the toilet lid opening / closing detection sensor 4d does not detect that the toilet lid 1a is closed, the process returns to step ST1. .

  In step ST3, the CPU 7a determines whether the normal mode or the silent mode is set. When the normal mode signal S9 or the silent mode signal S10 is output from the operation mode switching lever 8, they are stored in the memory 7b, and the CPU 7a stores the normal mode signal S9 or the silent mode from the memory 7b. This can be determined by reading the signal S10.

  When the toilet apparatus 100 is in the normal mode, that is, when the normal mode signal S9 is stored in the memory 7b, the process proceeds to step ST4. When the toilet apparatus 100 is in the silent mode, that is, when the silent mode signal S10 is stored in the memory 7b, the process proceeds to step ST6.

  In step ST4, the CPU 7a reads normal mode operating condition data from the memory 7b. And it transfers to step ST5 and CPU7a performs normal mode with the read operation condition data. For example, as shown in FIG. 4, the CPU 7a has a rotation speed of the rotating tooth 2b of 100%, an opening degree of the discharge valve 2e of 100%, an opening / closing speed of the discharge valve 2e of 100%, and the operation of the air compressor 6 is continuously operated. Each part is controlled to become.

  In step ST6, the CPU 7a reads the operation condition data for the silent mode from the memory 7b. Then, the process proceeds to step ST7, and the CPU 7a executes the silent mode with the read operation condition data. For example, as shown in FIG. 4, the CPU 7a has 70% rotation of the rotating tooth 2b, 50% opening degree of the discharge valve 2e, 50% opening / closing speed of the discharge valve 2e, and intermittent operation of the air compressor 6. Each part is controlled to become.

  As described above, according to the toilet apparatus 100 according to the first embodiment, the crushing mechanism unit 2 or the like based on the operation mode selected from a plurality of operation modes (for example, the normal mode and the silent mode). A control unit 7 for changing the operating conditions of the air compressor 6 and the like is provided.

  For example, the operating conditions of the crushing mechanism unit 2 include the rotation speed of the crushing tooth motor M2, the opening degree of the discharge valve 2e, and the opening / closing speed. The operating conditions of the air compressor 6 include the pressurization time (continuous operation or Intermittent operation). In addition, switching between a plurality of operation modes can be performed by an operation mode switching lever 8.

  Thereby, for example, at night, the operation time is set to be long and the operation speed is set to be slow, and the crushing mechanism unit 2 is set to be slow, or the daytime is set to be short. In addition, it is possible to operate the crushing mechanism unit 2 and the like set so as to increase the operation speed. As a result, the toilet device 100 can be used without worrying about vibrations and operating sounds according to housing circumstances and time zones, and convenience is improved.

<Second Embodiment>
In the second embodiment, a toilet apparatus 200 in which an RTC 7e is added to the toilet apparatus 100 described in the first embodiment will be described. The same names and reference numerals as those of the first embodiment have the same functions, and thus description thereof is omitted.

[Configuration Example of Control System of Toilet Device 200]
First, a configuration example of a control system of the toilet apparatus 200 according to the second embodiment will be described. As shown in FIG. 6, the toilet apparatus 200 includes a control unit 7A, a water tank electromagnetic valve 4a, a flow rate sensor 4b, a washing button 4c, a toilet lid opening / closing detection sensor 4d, an opening / closing lid motor drive unit 11, and a grinding tooth motor drive. Part 12, a discharge valve motor drive part 13, an air compressor 6, and an operation mode switching lever 8 </ b> A. Water supply tank solenoid valve 4a, flow rate sensor 4b, cleaning button 4c, toilet lid opening / closing detection sensor 4d, opening / closing lid motor drive unit 11, grinding tooth motor drive unit 12, discharge valve motor drive unit 13, air compressor 6 and operation The mode switching lever 8A is connected to the control unit 7A.

  Water tank electromagnetic valve 4a, flow rate sensor 4b, washing button 4c, toilet lid open / close detection sensor 4d, open / close lid motor drive unit 11, grinding tooth motor drive unit 12, discharge valve motor drive unit 13 and air compressor 6 Since it has the same function as the toilet device 100 described in the first embodiment (FIG. 2), the description thereof is omitted.

  The control unit 7A includes a CPU 7a, a memory 7b, an I / O interface 7c, an RTC 7e (Real Time Clock), and a battery 7f. The CPU 7a, the memory 7b, the I / O interface 7c, and the RTC 7e are connected via a system bus 7d. A battery 7f is connected to the RTC 7e.

  The RTC 7e is an example of a time management unit, and selects and outputs a desired operation mode from a plurality of operation modes (normal mode or silent mode) based on the current time. The RTC 7e is not turned off by the power supply from the battery 7f, for example, even when the toilet device 200 is in a power failure.

  As shown in FIG. 7, the operation mode switching lever 8A includes a rotation shaft 8c that rotates clockwise and counterclockwise, and a “normal mode”, “silent mode”, or “automatic mode” provided on the rotation shaft. It is comprised with the instruction | indication part 8d to point.

  When the instruction unit 8d indicates the normal mode, a normal mode signal S9 is output from the operation mode switching lever 8A to the control unit 7A. When the instruction unit 8d indicates the silent mode, the silent mode signal S10 is output from the operation mode switching lever 8A to the control unit 7A. When the instruction unit 8d indicates the automatic mode, an automatic mode signal S11 is output from the operation mode switching lever 8A to the control unit 7A.

  The CPU 7a of the control unit 7A receives the normal mode signal S9, the silent mode signal S10 or the automatic mode signal S11 output from the operation mode switching lever 8A via the I / O interface 7c.

  Upon receiving the normal mode signal S9, the CPU 7a selects a normal mode from a plurality of operation modes stored in advance in the memory 7b, and based on the selected normal mode, the crushing mechanism unit 2 and the air compressor 6 are selected. Change the operating conditions.

  Further, when the CPU 7a receives the silent mode signal S10, the CPU 7a selects a silent mode from a plurality of operation modes stored in advance in the memory 7b, and based on the selected silent mode, the crushing mechanism unit 2 and the air Change the operating conditions of the compressor 6, etc.

  When receiving the automatic mode signal S11, the CPU 7a reads the current time from the RTC 7e, switches to the normal mode or the silent mode based on the read time, and operates the crushing mechanism unit 2, the air compressor 6 and the like. Change the condition. For example, the CPU 7a switches to the silent mode if the current time is between 22:00 and 7:00, and switches to the normal mode if the current time is not between 22:00 and 7:00.

[Operation example of toilet device 200]
Next, an operation example of the toilet apparatus 200 will be described using a flowchart. As shown in FIG. 8, in step ST11, the CPU 7a determines whether or not the cleaning button 4c is pressed by the user. In other words, the CPU 7a determines whether or not the cleaning signal S3 output from the cleaning button 4c is input to the CPU 7a. If the cleaning button 4c is pressed, the process proceeds to step ST13, and if the cleaning button 4c is not pressed, the process proceeds to step ST12.

  In step ST12, the CPU 7a determines whether or not the toilet lid 1a has been closed by the toilet lid opening / closing detection sensor 4d. That is, the CPU 7a determines whether or not the lid opening / closing detection signal S4 output from the toilet lid opening / closing detection sensor 4d is input to the CPU 7a. If the toilet lid opening / closing detection sensor 4d detects that the toilet lid 1a is closed, the process proceeds to step ST13. If the toilet lid opening / closing detection sensor 4d does not detect that the toilet lid 1a is closed, the process returns to step ST11.

  In step ST13, the CPU 7a determines whether the normal mode, the silent mode, or the automatic mode is selected. The normal mode, the silent mode, and the automatic mode are determined when the normal mode signal S9, the silent mode signal S10, or the automatic mode signal S11 is output from the operation mode switching lever 8A and stored in the memory 7b, and the CPU 7a stores the memory 7b. Can be determined by reading the normal mode signal S9, the silent mode signal S10, or the automatic mode signal S11.

  When the toilet device 200 is in the normal mode, that is, when the normal mode signal S9 is stored in the memory 7b, the process proceeds to step ST14. When the toilet apparatus 200 is in the silent mode, that is, when the silent mode signal S10 is stored in the memory 7b, the process proceeds to step ST15. When the toilet apparatus 200 is in the automatic mode, that is, when the automatic mode signal S11 is stored in the memory 7b, the process proceeds to step ST18.

  Steps ST14 to ST17 are the same as steps ST4 to ST7 described above in the first embodiment (FIG. 5), and thus description thereof is omitted.

  In step ST18, the CPU 7a detects the current time. For example, the CPU 7a detects the current time by reading time data from the RTC 7e counting the time.

  Moving to step ST19, the CPU 7a determines whether or not the current time is between 22:00 and 7:00. If the current time is not between 22:00 and 7 o'clock, the process proceeds to step ST14, and the toilet apparatus 200 is operated in the normal mode. Thereby, it is not necessary to lengthen the processing time of each part of the toilet device 200 by normally driving the toilet device 200 in the daytime when some vibrations and operation sounds are not worrisome. If the current time is between 22:00 and 7:00, the process proceeds to step ST16 and the toilet apparatus 200 is operated in the silent mode. Thereby, the user can use the said toilet device 200 without caring around by driving the toilet device 200 quietly at night.

  As described above, the toilet device 200 according to the second embodiment includes the operation mode switching lever 8A that can switch between the normal mode, the silent mode, and the automatic mode, and the RTC 7e that measures the current time. is there.

  Thus, when the operation mode switching lever 8A is set to the automatic mode, the toilet device 200 is driven in the silent mode at night, and the toilet device 200 is driven in the normal mode at daytime. As a result, the operation mode of the toilet device 200 is automatically switched (depending on the time), so that the troublesome work for the user to switch to the silent mode or the normal mode can be reduced, and the convenience of the toilet device 200 is improved.

  In the first and second embodiments, the toilet apparatus that pulverizes the filth by the pulverization mechanism 2 and then pumps and discharges the filth fluid by the pumping tank 3 has been described. The filth fluid may be discharged directly from the crushing mechanism unit 2 to the outside of the toilet apparatus without being pumped by the tank 3.

  In the first and second embodiments, the normal mode and the silent mode are given as examples of the operation mode. However, the present invention is not limited to this, and a mode that is quieter than the silent mode may be set. A mode in which the operation speed of each unit is faster and the operation time is shorter than in the normal mode may be set.

  In the second embodiment, the operation mode is switched based on whether or not the current time is from 22:00 to 7:00. However, the present invention is not limited to this, and the operation mode switching time can be changed as appropriate. It is.

  DESCRIPTION OF SYMBOLS 1 ... Toilet seat main-body part, 1a ... Toilet lid, 1b ... Toilet seat, 2 ... Crushing mechanism part, 3 ... Pressure feed tank (tank part), 4 ... Water supply tank, 5 ...・ Equipped toilet (disposal place), 6 ... Air compressor (compressed air supply unit), 7, 7A ... Control unit (control unit), 7a ... CPU, 7b ... Memory (storage unit), 7c: I / O interface, 7d: system bus, 7e: RTC (time management unit), 7f: battery, 8, 8A: operation mode switching lever (operation unit), 100, 200 ... Toilet device

Claims (6)

Washing water is provided so that it can flow in, and the excreted waste and the toilet main body that receives the washing water;
A crushing mechanism provided at a lower portion of the toilet body, and crushing the waste flowing out of the toilet body to form a waste fluid together with the washing water;
Provided at a lower portion of the pulverization mechanism section so as to be able to be filled with compressed air supplied from a compressed air supply device, an inlet through which the filth fluid flows from the pulverization mechanism section, and the filth flow flowing into the inlet A discharge port to which a discharge pipe member that leads the body to a disposal site is connectable, and a pumping unit that pumps the waste fluid flowing in from the inflow port with compressed air and discharges it from the discharge port;
A storage unit for storing a plurality of operation modes including operation conditions of the crushing mechanism unit and the pressure feeding unit;
A control unit that changes the operating conditions of the crushing mechanism unit or the pressure feeding unit, or both, based on the operation mode selected from a plurality of operation modes stored in the storage unit, Toilet equipment to do.   The operating conditions of the crushing mechanism section include at least one of the rotation speed of a crushing tooth motor that drives crushing teeth provided in the crushing mechanism section, the opening degree of a discharge valve that opens and closes the inflow port, and the opening and closing speed. The toilet device according to claim 1, wherein the toilet device is included.   The toilet device according to claim 1 or 2, wherein the operating condition of the pressure feeding unit includes a pressurizing time in the compressed air supply device. An operation unit for selecting and operating a desired operation mode from the plurality of operation modes;
The controller is
The operation condition of the crushing mechanism unit or the pressure feeding unit or both is changed based on the operation mode selected from a plurality of operation modes by the selection operation of the operation unit. The toilet device according to any one of 3 above. A time management unit that selectively outputs a desired operation mode from the plurality of operation modes based on the current time;
The controller is
The operation condition of the crushing mechanism unit or the pressure feeding unit or both is changed based on the operation mode selected from a plurality of operation modes by the selection output of the time management unit. The toilet apparatus in any one of thru | or 3. Washing water is provided so that it can flow in, and the excreted waste and the toilet main body that receives the washing water;
A crushing mechanism provided at a lower portion of the toilet body, and crushing the waste flowing out of the toilet body and forming a waste fluid together with the washing water;
A storage unit for storing a plurality of operation modes including operation conditions of the crushing mechanism unit;
A toilet apparatus comprising: a control unit that changes an operation condition of the crushing mechanism unit based on the operation mode selected from the plurality of operation modes stored in the storage unit.

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