JPH055072U - Bath cleaning equipment - Google Patents

Abstract

(57) [Summary] [Purpose] To wash the bath by circulating and spraying the washing liquid to every corner of the inner wall of the bath. [Structure] A tank 5 is connected to a bottom surface 2 of a bath 1, a drain port 10 is provided on the bottom surface of the tank 5, and a drain valve 12 for opening and closing the drain port 10 is provided in the tank 5. The tank 5 is provided with a pressure introducing pipe 25, and the tip opening of the pressure introducing pipe 25 faces the bottom surface 2 of the bath 1, and the pressure introducing tip opening is covered with a cover 19. A return pipe 30 is connected to the tank 5 to form a circulation circuit from the return pipe 30 to the circulation pump 35, the heater 28, the cleaning liquid supply pipe 43, the cleaning liquid branch supply pipes 46 and 47 to the cleaning nozzles 48 and 49. The cleaning liquid accumulated in the tank 5 is circulated and sprayed from the cleaning nozzles 48 and 49 to the inner wall surface of the bath through a circulation circuit to remove dirt.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention relates to a bath cleaning device of the type that circulates and sprays a cleaning liquid.

[0002]

[Prior art]

  Japanese Utility Model Laid-Open No. 63-71869 is known as a device for automatically cleaning a bathtub. This device consists of a single cleaning nozzle that sprays a cleaning liquid containing detergent on the lid of the bathtub. , A single water jet nozzle for jetting water such as tap water is provided to clean the bathtub. The cleaning liquid is supplied from the detergent tank to the cleaning nozzle with a pump and sprayed into the bathtub. Clean the dirt and then supply water such as tap water to the water spray nozzle to spray it into the bathtub. To wash away the dirt components and cleaning liquid in the bathtub dropped by the cleaning liquid. It is discharged from the mouth.

[0003]

[Problems to be solved by the device]

  However, the conventional device does not repeatedly use the cleaning liquid sprayed from the cleaning nozzle, Since it is a method that flows out from the drain with the water that is jetted next, when using detergent There was a waste.

[0004]   To eliminate such waste of detergent use, wash the bathtub with a mixture of detergent and water. Store the cleaning solution and circulate this cleaning solution to the cleaning nozzle to use the cleaning solution repeatedly. It is also possible.

[0005]   However, when cleaning was performed with the cleaning liquid stored in the bath, it was sprayed from the cleaning nozzle. It is difficult for the cleaning solution to be blocked by the cleaning solution that has accumulated and to forcefully collide with the bottom of the bathtub. There is a problem that it becomes difficult to clean the dirt on the bottom of the bathtub effectively. Occurs.

[0006]   The present invention has been made to solve the above problems, and its purpose is to provide a cleaning liquid. When cleaning the bathtub by circulating and spraying the water, the cleaning liquid is sprayed and collides with every corner of the inner wall surface of the bathtub. Another object of the present invention is to provide a bathtub cleaning device that can remove dirt by cleaning it.

[0007]

[Means for Solving the Problems]

  The present invention is configured as follows to achieve the above object. That is, The present invention is a cleaning nozzle that sprays a cleaning liquid on the inner wall surface of a bathtub, and a cleaning nozzle Built-in circulation pump that circulates the sprayed cleaning liquid to the cleaning nozzle via the heater. A bathtub cleaning device having a circulation circuit for communicating with the bathtub on the lower side of the bottom surface of the bathtub. A tank is provided, and the return side of the circulation circuit is connected to this tank, In addition, the tank has a drainage means for draining the bath water and a pressure for detecting the bath water level. A force introducing pipe is provided, and the pressure guide pipe is provided. The tip of the inlet pipe faces the opening on the bottom of the bath from the tank side. The opening must be covered with a cover to prevent collision of the cleaning liquid, and the valve of the drainage means. The opening / closing mechanism must be installed inside the tank, and the bath must be There is a slope that rises toward the communication port to the tank, and the bottom of the tank has a slope. The present invention also has a slope that descends from the side toward the drain outlet. It has a characteristic configuration of.

[0008]

[Action]

  In the present invention having the above structure, the cleaning liquid is stored in the tank, and in this state, the circulation pump is When the pump is driven, the cleaning liquid in the tank is guided to the cleaning nozzle through the circulation circuit, The cleaning liquid at room temperature or heated by the heater is sprayed from the cleaning nozzle on the inner wall of the bath. The stains on the inner wall of the bathtub are removed by the jet collision force and the chemical cleaning power of the detergent. .

[0009]   After the circulating injection of the cleaning liquid, this time, water such as tap water is introduced into the circulation circuit, and the water or Is sprayed on the inner wall of the bathtub from the washing nozzle, which is heated by the heater and turned into hot water. The cleaning liquid adhering to the inner wall of the bathtub is thoroughly washed away and enters the tank, It is discharged to the outside by the drainage means, and the bathtub cleaning is completed.

[0010]

【Example】

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a bathtub according to the present invention. A system configuration of a first embodiment of a cleaning device is shown. In the figure, bathtub 1 An opening 3 is provided on the bottom surface 2 of the The tank 5 is connected.

[0011]   An opening 6 is formed on the upper surface of the tank 5 so as to face the opening 3 of the bath 1. The opening 6 and the hole 7 of the connecting fitting 4 and the opening 3 on the bottom of the bath are in continuous communication. Communication between the tank 5 and the bathtub 1 is achieved by the mouth. The upper surface of the tank 5 The sloped surface 8 has a slope rising from the peripheral portion toward the opening 6. Further, it also descends on the bottom surface of the tank 5 from its peripheral portion toward the drain port 10. A sloped surface 9 is provided.

[0012]   A drain port 10 is formed on the bottom surface of the tank 5, and the upper part of the drain port 10 is a valve. It is seat 11. Inside the tank 5, a drainage means for opening and closing the drainage port 10 is provided. A valve opening / closing mechanism for the water valve 12 is provided. This drain valve 12 is a valve body that opens and closes the drain port 10. 13 and an arm 14 that moves the valve body 13 up and down. The tip side of the drive wire 15 is connected to 14, and the base end side of the drive wire 15 is a tank. 5 and is connected to the drain valve motor 16. This drive wire 15 is a resin It is slidably inserted into the pipe 17, and is guided by this resin pipe 17 to drive it. The ear 15 moves back and forth, and the drain valve 12 is opened and closed.

[0013]   That is, the drive wire 15 is pulled back by the rotational drive of the drain valve motor 16. Retreat. Along with this, the arm 14 rotates clockwise about the pin 21 as a fulcrum, and the valve The body 13 is pulled upward against the pressing force of the spring 22, and the drain port 10 functioning as a valve hole is opened. Keep open. On the other hand, when the drain valve motor 16 is turned off, the drive wire 15 Moves back in the direction of advance. As a result, the arm 14 rotates counterclockwise and the valve body Lower 13 to close drain 10. In this way, the drain valve motor 16 is turned on and off By doing so, the opening / closing operation of the drain valve 12 is performed.

[0014]   A pressure introducing pipe 25 is inserted through the side wall 23 on one side of the tank 5, and the pressure introducing pipe 25 is introduced. The tip opening of the pipe 25 faces the opening 3 of the bath bottom surface 2. A cover 19 is placed in this opening 3. It is detachably attached, and this cover 19 allows the tip opening of the pressure introducing pipe 25 (pressure The force detection opening) is covered. The proximal end of the pressure introducing pipe 25 is connected to the forward pipe 26. A pressure sensor for detecting the pressure introduced from the tip opening of the pressure introduction pipe 25 is provided in the forward pipe 26. Service 29 is connected. The inlet side of the forward pipe 26 is heated by a pressure opening / closing valve 27 such as a solenoid valve. It is connected to the exit side of 28.

[0015]   A return branch pipe 30 is connected to the lower portion of the side wall 24 of the tank 5. On the other hand, bathtub 1 The return port of the return branch pipe 31 is connected to the side wall of the return branch pipe 30 and 31. They are merged via return pipe on-off valves 32 and 33 such as solenoid valves, and these merge to form a single valve. The return pipe 34 is connected to the suction side of the circulation pump 35. And the circulation pump 35 The discharge side conduit 39 is connected to the inlet side of the heater 28 via a water flow sensor 36. It An inlet side temperature sensor 37 is provided on the inlet side of the heater 28, An outlet temperature sensor 38 is provided on the outlet side.

[0016]   Further, a water supply pipe 40 is connected to the return pipe 34, and the inlet side of the water supply pipe 40 is electromagnetic. It is connected to a water supply source such as a water supply via a water supply valve 41 such as a valve. Also, in the water supply pipe 40 Is provided with a flow rate sensor 42 for detecting the amount of supplied water.

[0017]   A washing liquid supply pipe 43 is branched and connected to the outward pipe 26. Are provided with nozzle opening / closing valves 44 and 45 such as solenoid valves, and cleaning liquid branch supply pipes 46 and 47 are branched. The outlet side of the cleaning liquid branch supply pipe 46 is provided on the side wall surface of the bathtub 1. It is connected to the nozzle 48, and the outlet of the cleaning liquid branch supply pipe 47 is connected to the wall surface on the cleaning nozzle 48 side. It is connected to a cleaning nozzle 49 (not shown) provided on the opposite side wall surface.

[0018]   A detergent supply pipe 51 is connected to the cleaning liquid supply pipe 43. The inlet side is connected to a detergent tank 53 via a detergent injection valve 52 such as a solenoid valve. this Liquid detergent is stored in the detergent tank 53. In the system shown in FIG. , Return branch pipe 30 to return pipe 34, circulation pump 35, heater 28, cleaning liquid supply pipe 43 and The route from the cleaning liquid branch supply pipes 46, 47 to the cleaning nozzles 48, 49 is a circulation circuit of the cleaning liquid. And a route from the return branch pipe 31 to the cleaning nozzles 48, 49 through the return pipe 34 in the same manner. Constitutes a circulation circuit for reheating the bath water. In the figure, 50 is a bathtub lid.

[0019]   Operation control of the drain valve motor 16, nozzle opening / closing valves 44, 45, return pipe opening / closing valve 32, 33, pressure opening / closing valve 27, detergent injection valve 52, and water supply valve 41 for opening / closing the conduit (valve opening / closing) control The operation control of the circulation pump 35 and the combustion control of the heater 28 (burner combustion control) are controlled. It is performed by the control section 54. A remote controller is connected to this control unit 54. The remote control is provided with a wash button for performing a wash operation.

[0020]   As shown in FIG. 2, the control unit 54 includes a signal input unit 55, a command / control unit 56, and a tie. It has a processor 57, a calculation unit 58, and a memory 60. The signal input section 55 can be accessed from the remote Signal, the water flow detection signal from the water flow sensor 36, and the temperature detection signals from the temperature sensors 37 and 38. Output signal, the flow rate detection signal from the flow rate sensor 42, and the pressure detection signal from the pressure sensor 29. Signal and applies these signals to the command / control unit 56. The command / control unit 56 Receives the signal from the signal input section 55 and the information of the program stored in the memory 60. Monitor the progress of the bath washing operation program, and if necessary, set a timer 57 Command the operation of the water, command the calculation unit 58 to calculate the amount of water, and appropriately select various valves 27, 32, 33, 41. , 44, 45, 52 to output the open / close control signal, and to operate and add the circulation pump 35. The burner combustion of the heater 28 is controlled. As described above, the memory 60 is used for the bathtub washing operation. The program is built in, and the calculation result of the calculation unit 58 is stored as necessary.

[0021]   The present embodiment is configured as described above, and the flow shown in FIGS. 3 and 4 will be described below. An example of the bath cleaning operation will be described based on the chart. First, the cleaning button on the remote control When is turned on, this ON signal is sent to the command / control unit 56 via the signal input unit 55 of the control unit 54. Added. When the command / control unit 56 receives the command for the cleaning operation mode, first the step 10 At 1, whether or not the bath 1 is empty is detected by a signal from the pressure sensor 29. Water level pressure If it is not detected, it is determined that the bath 1 is empty, and the drain valve motor 16 is driven. Open the drain valve 12. Drives drain valve motor 16 when bath 1 is not empty Then, the drain valve 12 is opened and the hot and cold water in the bathtub 1 is discharged from the drain port 10. And step At 104, it is judged again whether or not the bathtub 1 is empty, and when it is empty, the nozzle is opened. The closing valve 44 is opened, and then the water supply valve 41 is opened.

[0022]   Then, water such as tap water enters through the water supply pipe 40, and the pump 35, the heater 28, The cleaning liquid supply pipe 43 and the cleaning liquid branch supply pipe 46 are sequentially passed to be guided to the cleaning nozzle 48. Water or hot water is sprayed from the cleaning nozzle 48 onto the inner wall surface of the bathtub, and adheres to the inner wall surface of the bathtub. Dust such as hair is washed off, enters the tank 5, and is discharged to the outside through the drainage port 10. .

When the jet of water from the washing nozzle 48 has passed T ₁ hour, the nozzle opening / closing valve 45 is opened and 44 is closed, so that the jetting of water from the washing nozzle 49 on the opposite side is performed in the same manner. When the injection has passed T ₂ hours, the water supply valve 41 is closed in step 111. The washing with water removes large dust such as hair adhering to the inner wall surface of the bathtub.

Next, by closing the nozzle opening / closing valve 45 and turning off the drain valve motor 16, the drain valve 12 is closed and the drain port 10 is closed. Next, in step 113, the pressure on-off valve 27 is opened, and the return pipe on-off valve 32 is opened, so that the water supplied from the water supply pipe 40 enters the outward pipe 26 and the return pipe 34, and the water entering the outward pipe 26 introduces pressure. The water is discharged through the pipe 25 to the bottom side of the bath 1 while cleaning the pipe, and the discharged water starts to accumulate in the tank 5. Similarly, the water entering the return pipe 34 is also discharged from the return branch pipe 30 to the tank 5. The amount of water supplied to these tanks 5 is obtained from time to time by calculating the flow rate detected by the flow rate sensor 36. When the water supply amount becomes Q ₁ , the pressure on-off valve 27 is closed and the pressure sensor 29 detects the water level. Water is supplied into the tank 5 from the return branch pipe 30. Then, the water level in the bathtub 1 in step 117 it is judged whether the became H _1, the water level continues to supply water from the branch pipe 30 back to the tank 5 when not lead to H _1, in the bathtub 1 Wait for the water level to reach H ₁ .

When the water level becomes H ₁ , it is judged that the priming water exceeding the amount of water required for rotationally driving the circulation pump 35 has been obtained, and the water supply valve 41 is closed to inject water into the tank 5. Stop.

[0026]   Next, at step 119, the nozzle opening / closing valve 44 is opened, and at step 120, the circulation pump 35 is started. Move. Then, the water in the tank 5 circulates through the return branch pipe 30 and the return pipe 34. It is sucked by the ring pump 35 and discharged from the circulation pump 35. Discharge of this circulation pump 35 The water passes through the heater 28, the cleaning liquid supply pipe 43, and the cleaning liquid branch supply pipe 46, and then the cleaning nozzle 48. The water is sprayed into the bath and the water is circulated using the circulation circuit of the cleaning liquid. Step In step 121, based on the water flow detection signal of the water flow sensor 36, the water circulation is normally performed. The drain valve motor 16 to open the drain valve 12 in step 122. .

Then, the water in the tank 5 is circulated in the circulation circuit while being discharged from the drain port 10, and the water level in the bathtub 1 gradually drops. The water level in the bathtub 1 is detected by the pressure sensor 29. In step 123, it is determined whether or not the water level in the bathtub 1 has reached the level H ₂ at the bottom of the bathtub 1, and the water level is set to H ₂ . When the bottom of the bathtub 1 is completely exposed, it is determined that the optimum amount of water for cleaning the bathtub has been stored in the tank 5, and the drain valve motor 16 is turned off in step 124. , Close the drainage port 10.

[0028]   Next, in step 125, the detergent injection valve 52 is opened and a predetermined amount (for example, 20cc) of detergent is added. The cleaning liquid is supplied to the cleaning liquid supply pipe 43 and the detergent injection valve 52 is closed. This detergent supply pipe 43 is supplied Detergent is guided to the washing nozzle 48 together with the circulating water and sprayed into the bathtub, resulting in The cleaning liquid mixed with the detergent accumulates in the tank 5, and the circulating injection of this cleaning liquid starts. .

[0029]   Next, in step 126, burner combustion of the heater 28 is started, and the circulating cleaning liquid is cleaned. Optimum temperature suitable to exert, constant temperature in the range of 50 ℃ ~ 60 ℃ in this example, For example, it is controlled at 60 ° C. Then, the cleaning liquid controlled to this constant temperature is washed As a result of being circulated and sprayed from the nozzle 48, dirt on the inner wall surface of the bathtub will not collide with the spray collision force of the cleaning liquid. Cleaned off by the detergent's chemical cleaning power. The jet from the washing nozzle 48 is T ₃ When the time has passed, open the nozzle opening / closing valve 45, close 44, and then wash the opposite side. Circulation injection of the cleaning liquid is similarly performed from the nozzle 49. And from this cleaning nozzle 49 The circulating injection of cleaning liquid is T_FourWhen the time has passed, the burner combustion of the heater 28 is stopped, The circulation pump 35 is stopped. Next, by turning on the drain valve motor 16 The mouth 10 is opened, and the dirty cleaning liquid accumulated in the tank 5 is discharged.

Next, when the water supply valve 41 is opened, clean water from the water supply or the like flows to the cleaning nozzle 49 side from the water supply pipe 40 through the circulation pump 35, but most of the water returns with a small load resistance. It flows from the pipe 34 to the inside of the tank 5 through the return branch pipe 30, and the pipe line is washed by passing water. In step 135, the water flow rate is calculated and the return pipe on-off valve 32 is closed when the water flow rate becomes Q ₂ .

Then, the water supplied from the water supply pipe 40 passes through the circulation pump 35, the heater 28, the cleaning liquid supply pipe 43, and the cleaning liquid branch supply pipe 47 in this order, and is sprayed from the cleaning nozzle 49 onto the inner wall surface of the bathtub, thereby The cleaning liquid adhering to the wall surface and the water passage and the dirt component dropped by this cleaning liquid are washed away and discharged from the drain port 10. When the amount of water jetted from the washing nozzle 49 reaches Q ₃ , the nozzle opening / closing valve 44 is opened and 45 is closed this time, and clean water supplied from the water supply pipe 40 is jetted from the washing nozzle 48. Similarly, the cleaning liquid adhering to the inner wall surface of the bathtub and the dirt component removed by the cleaning liquid are washed out and discharged from the drain port 10. When the water injection amount from the cleaning nozzle 48 reaches Q ₄ , the water supply valve 41 and the nozzle opening / closing valve 44 are closed. Then, when the time T ₅ required for completely discharging the water in the tank 5 from the drain port 10 has elapsed, the drain valve motor 16 is turned off in step 143, the drain port 10 is closed, and the bath cleaning operation is performed. It is finished and the water is filled.

[0032]   According to this embodiment, the water level of the cleaning liquid is higher than that of the bottom surface of the bath 1 during the circulating injection of the cleaning liquid. The amount of cleaning liquid is set in steps 120 to 124 so that Therefore, when spraying the cleaning liquid from the cleaning nozzles 48 and 49, the cleaning liquid is also applied to the bottom surface 2 of the bathtub 1. Can collide vigorously and cleanly clean all corners of the inner wall of the bathtub Becomes

[0033]   Also, when the cleaning liquid sprayed from the cleaning nozzles 48, 49 enters the tank 5, air Is taken in and air is also taken in, but on the upper surface of the tank 5 Since there is a rising slope, the air opens along this inclined surface 8. Since it will escape from the part 6 into the bathtub 1, the air will be sucked into the circulation pump 29 together with the cleaning liquid. It is possible to smoothly operate the circulation pump 29 without being pulled. Also , The bottom surface of the tank 5 is provided with an inclined surface 9 that decreases toward the drainage port 10. Therefore, when the cleaning liquid in the tank 5 is discharged from the drain port 10, the bottom surface of the tank 5 The accumulated dust will be discharged from the drainage port 10 along the inclined surface 9, It is very convenient because dust is not accumulated in the chamber 5.

Further, in this embodiment, since the tip opening portion of the pressure introducing pipe 25 is covered with the cover, the jet collision force ejected from the cleaning nozzles 48 and 49 directly causes the tip opening (pressure detecting opening) of the pressure introducing pipe 25. ), And when adjusting the water level in the bathtub ₁ from H ₁ to H ₂ while circulatingly injecting water in steps 120 to 124, the water level is subjected to the dynamic pressure of the injection collision force. The water level can be accurately detected by the pressure sensor 29 without any use, and the optimum amount of water suitable for cleaning can be accurately set. Moreover, since the tip end opening of the pressure introducing pipe 25 faces the bottom surface opening of the bathtub 1, the pressure sensor 29 can detect the water level of the bathtub with reference to the bottom surface of the bathtub, and set the filling water level. It is advantageous in controlling and.

[0035]   Further, in this embodiment, the valve opening / closing mechanism of the drain valve 12 is provided in the tank 5. Therefore, it is possible to reduce the height from the bottom surface of the tank 5 to the floor surface. The fruit is obtained. As shown in FIG. 5A, the valve opening / closing mechanism of the drain valve 12 is When projecting downward from the bottom surface of No. 5, the height space between the floor surface and the tank bottom surface is greatly reduced. However, the valve opening / closing mechanism is shown in FIG. 5 (b). When the sea urchin is laterally projected from the side wall of the tank 5, a step is created between the bottom of the tank and the drainage port. However, there is a problem that the dust accumulated on the bottom of the tank cannot be effectively discharged. However, in the case of this embodiment, the drainage port 10 is provided on the bottom surface of the tank, and a valve opening / closing device for the drainage valve 12 is provided. By providing the structure inside the tank 5, the height space between the floor surface and the bottom surface of the tank can be reduced. In addition to the above, the dust that collects on the bottom of the tank can be effectively discharged from the drain port 10. The excellent effect of being able to do is obtained.

[0036]   FIG. 6 shows a second embodiment of the present invention. This second embodiment is based on the above Fully automatic with a cleaning function by connecting a water heater 61 capable of filling water to the system of the first embodiment The system configuration of the bath kettle is the same as that of the first embodiment except for the configuration. It is the same.

[0037]   In the second embodiment, the hot water supply pipe 62 of the hot water supply device 61 and the return pipe 34 of the heater 28 are connected to each other. A pipe 63 is connected for communication, and the connection pipe 63 is provided with a water supply valve 41 and a flow rate sensor 42. That The inlet side of the water supply pipe connected to the inlet side of the hot water supply heat exchanger 64 of the water heater 61 A flow rate sensor 65 is provided in the water supply pipe 40, which is connected to the supply source. And hot water heat exchange A water supply temperature sensor 66 is provided on the inlet side of the exchanger 64, and hot water is supplied on the outlet side of the hot water heat exchanger 64. A temperature sensor 67 is provided.

[0038]   In the second embodiment, the bath washing operation is performed by the same operation as in the first embodiment. After cleaning the bathtub, open the water supply valve 41 and use the hot water produced by the water heater 61. Is supplied to the circulation circuit side of the cleaning liquid and reheating, and the inside of the bathtub 1 is passed through this circulation circuit. It becomes possible to perform hot water filling.

[0039]   It should be noted that the present invention is not limited to the above-mentioned embodiments, and various modes of implementation are adopted. Is possible. For example, in each of the above embodiments, the heater 28 is a gas combustion type. This was made up of other heating means such as oil burning type or electric heater. You may. Further, the cleaning nozzles 48 and 49 of the above-mentioned embodiment are discharge ports of the reheating circulating hot water. Although it is also used as a nozzle, when using it as a dedicated nozzle for spraying cleaning liquid, for example, a bathtub It may be provided on a place other than the wall surface of the bathtub such as the lid 50.

[0040]

[Effect of device]

  The present invention provides a tank at the bottom of the bath and circulates the cleaning liquid stored in this tank. Since it is configured to spray from the cleaning nozzle to the inner wall surface of the bath, The cleaning liquid can be jetted and collided vigorously from the nozzle to the bottom of the bathtub. Dirt can be removed cleanly over the entire wall of the tank. Also, the cleaning liquid is circulated. Since it is sprayed and used repeatedly, there is no waste in using detergent.

[0041]   In addition, the tip opening of the pressure introducing pipe facing the opening on the bottom of the bathtub is covered with a cover. As a result, the collision force of water or hot water sprayed from the cleaning nozzle is introduced by pressure. It is possible to prevent it from acting on the pressure detection surface of the pipe, which circulates water or hot water. It is possible to accurately detect the water level in the bathtub while the ring injection is being performed. The optimum amount of water for the cleaning liquid can be set accurately, and the detergent concentration of the cleaning liquid is also regulated to be constant. It is possible to obtain an excellent effect of being able to.

[0042]   Further, in the structure in which the valve opening / closing mechanism of the drainage means is provided in the tank, Space saving is achieved compared to the method of projecting the valve opening / closing mechanism on the lower surface of the tank or in the lateral direction. The height of the bottom surface of the tank and the floor surface can be reduced.

[0043]   Furthermore, there is a structure on the upper surface of the tank that has a slope that rises toward the communication port to the bathtub. By mixing the cleaning liquid with the cleaning liquid, air will enter the tank during cleaning. However, this air easily escapes to the bathtub side along the gradient, and the air becomes the cleaning liquid. The circulation pump can be prevented from being sucked into the It becomes possible to perform smoothly. Also, on the bottom of the tank, face the drainage port from the periphery. By providing a descending gradient, the cleaning liquid in the tank can be removed at the end of bath cleaning. When discharging, the dust collected on the bottom of the tank should be removed from the drain along the sloped surface. It can be easily discharged and dust can be prevented from accumulating in the tank. .

[Brief description of drawings]

FIG. 1 is a system configuration diagram showing a first embodiment of a bathtub cleaning apparatus according to the present invention.

FIG. 2 is a block diagram of a main configuration of a control device that constitutes the system of the embodiment.

FIG. 3 is a flowchart of a cleaning operation in the same embodiment.

FIG. 4 is a flowchart continued from FIG.

FIG. 5 is an explanatory diagram of a problem when a drain valve is provided in a tank provided in a lower portion of a bathtub so as to project downward or laterally.

FIG. 6 is a system configuration diagram of a second embodiment of the present invention.

[Explanation of symbols]

1 bathtub 5 tanks 8,9 inclined surface 12 Drain valve 19 cover 25 Pressure introducing pipe 28 heater 35 Circulation pump 48, 49 Cleaning nozzle 53 Detergent tank

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Creator Tetsuo Ueda             3-4 Fukamidai, Yamato City, Kanagawa Stock             Inside the company Gaster

Claims (4)

[Scope of utility model registration request] 1. A bath cleaning apparatus comprising: a cleaning nozzle for spraying a cleaning liquid on the inner wall surface of a bath; and a circulation circuit incorporating a circulation pump for circulating the cleaning liquid sprayed from the cleaning nozzle to the cleaning nozzle via a heater. Then, a tank communicating with the bath is provided below the bottom of the bath, and the return side of the circulation circuit is connected to the tank, and the tank has a drainage means for draining the bath water and a bath level. A bath cleaning device provided with a pressure introducing pipe for detecting 2. The tip of the pressure introducing pipe faces the opening on the bottom of the bath from the tank side, and the tip opening of the pressure introducing pipe is covered with a cover for avoiding the collision of jetting of the cleaning liquid.
The bath cleaning device described. 3. The bath cleaning device according to claim 1, wherein the valve opening / closing mechanism of the drainage means is provided in the tank. 4. A slope is provided on the upper surface of the tank so as to rise from the peripheral portion toward the communication port to the bathtub, and a slope is provided on the bottom surface of the tank so as to descend from the peripheral portion toward the drainage port. The bathtub cleaning device according to claim 1, 2 or 3.