JP2004065767A - Bubble bath unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bubble bath unit in which control such as adjustment of a jet air strength and maintenance of a set state is made possible with a secondary battery as a power source. <P>SOLUTION: In a main body part 1, a motor-driven pump is operated by mounting a battery unit 2 wherein the secondary battery is charged by a battery charger. Air exhausted from the motor-driven pump is emitted from an air panel 3 via an air feed hose 4. The strength of jet air is adjusted from a control panel 6 provided on the main body part 1, and the motor-driven pump is controlled not to be affected by a load fluctuation with a voltage change of the secondary battery or a water level change. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a bubble bath apparatus in which air supplied by an electric pump that is driven to rotate by using a secondary battery as a power source is blown into a bathtub so that a bubble bath can be obtained.
[0002]
[Prior art]
It is well known that facilities such as hot spring facilities and public baths are provided with facilities that allow air bubbles to be blown out from the bathtub to enjoy a so-called bubble bath. In addition, since the bubble bath provides a sedative effect by a massage effect of bubbles in addition to a warming effect, it is also used for treatment of insomnia, anxiety and the like. This type of bubble bath apparatus generally requires large-scale equipment, and it is difficult to enjoy it easily at home. Therefore, a bubble bath apparatus has been developed which allows the user to easily enjoy the bubble bath even in the bathroom at home.
[0003]
For example, in the bubble blowing device disclosed in Japanese Utility Model Application Laid-Open No. 61-88831, air supplied from a compressed air supply source is blown out from an air box arranged in a bathtub to perform bubble bathing in a home bathtub. I can do it. This type of bubble bath apparatus is also disclosed in Japanese Utility Model Laid-Open No. 63-114640. However, arranging the air supply source in the bathroom not only requires the waterproof function to be complete, but also draws the power cord into the bathroom from the outside while the door is opened, and the bathroom door is closed. There was a problem that there was no such thing and there was a risk of electric shock and leakage.
[0004]
In order to solve the above problems, a bubble bath apparatus for driving an air supply source using a storage battery as a power source is disclosed in Japanese Patent Application Laid-Open No. S59-151961, Japanese Utility Model Application Laid-Open No. 2-37627, and the like. By configuring the air supply source using the storage battery as a power source, the power cord does not need to be drawn into the bathroom, and can be installed at any location in the bathroom to enjoy the bubble bath.
[0005]
[Problems to be solved by the invention]
However, bathrooms and bathtubs at home are not of a fixed shape and size, and are not provided with an adjusting function for accommodating environmental conditions used by a user. For example, the length of the connection pipe between the main body serving as an air supply source and the air ejection part arranged in the bathtub cannot be adjusted to the most preferable position unless the length can be adjusted according to the size and shape of the bathroom. Cannot be arranged, or the place where the main body is placed is limited.
[0006]
In addition, since there was no function of adjusting the air ejection pressure according to each person's preference, it was difficult to obtain an optimum state. Since the air ejection pressure also changes depending on the depth of the bathtub and the amount of hot water, it is necessary to change the air ejection pressure according to the water pressure corresponding to the water level so that the set air ejection pressure can be obtained.
[0007]
Also, when the storage battery is used as a power source, when the battery voltage changes, the rotation speed of the electric pump changes and the ejection pressure of air is affected, so that the ejection pressure is not affected by the battery voltage change. Is required. In addition, when the storage battery is used as a power source, a decrease in the discharge capacity leads to a decrease in the bubble bath device. Therefore, a configuration capable of knowing the remaining capacity of the storage battery has been desired.
[0008]
It is an object of the present invention to provide a bubble bath apparatus that uses a secondary battery (storage battery) as a power supply, and that can adjust the bubble bath according to the user's preference and use environment, and a control method thereof.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a bubble bath apparatus according to the first invention of the present application has a main body having an electric pump driven by using a secondary battery as a power supply, and a secondary battery which is detachably mounted on the main body with the secondary battery being built therein. A battery unit to be mounted, a charging unit that charges the secondary battery by mounting the battery unit detached from the main body unit, and a fumarole unit that is connected to the main body unit by a flexible pipe to blow out air. , Is provided.
[0010]
According to the above-described configuration, the main body disposed in the bathroom can perform the bubble bath by driving the electric pump by attaching the battery unit to eject bubbles from the fumarole disposed in the bathtub. Since the electric pump is operated using a secondary battery as a power source, there is no need to draw the power cord into the bathroom, and problems such as the inability to close the bathroom door to draw in the power cord and the risk of electrical leakage have been resolved. You. When the discharge capacity of the secondary battery decreases, the secondary battery is charged when the battery unit is mounted on the charging unit, so that the secondary battery can be used repeatedly by mounting it on the main unit.
[0011]
Further, the bubble bath device according to the second invention of the present application includes an electric pump driven by using a secondary battery as a power supply, a control means for controlling the rotation of the electric pump, and an operation means for setting and inputting the rotation speed of the electric pump. A main unit, a battery unit that contains a secondary battery and is detachably attached to the main unit, a charging unit that attaches the battery unit detached from the main unit and charges the secondary battery, And a fumarole connected to the main body by a flexible pipe to blast air.
[0012]
According to the above configuration, when the operating means inputs the number of rotations of the electric pump at which the desired blast strength is obtained from the fumar section, the control means controls the rotation of the electric pump. Therefore, it is possible to select different intensities of the fumarole for each person and enjoy the bubble bath in an optimal state.
[0013]
Further, the bubble bath apparatus according to the third invention of the present application is an electric pump driven by using a secondary battery as a power supply, a control means for controlling rotation of the electric pump, a load state detecting means for detecting a load state of the electric pump, and an electric pump. A main body having operating means for setting and inputting the number of revolutions of the pump, a battery part which is equipped with a secondary battery and is detachably mounted on the main body, and a battery part detached from the main body. A charging unit for charging the secondary battery by using the charging unit, and a blowing unit connected to the main unit by a flexible pipe and blowing out air.
[0014]
According to the above configuration, when the load state of the electric pump, which fluctuates according to the water level in the bathtub, is detected by the load state detection means, and the electric pump is controlled by the control means based on the detection output, the operation means can be operated regardless of the change in the load state. The electric pump is controlled to the number of revolutions at which the fume strength set and input from is obtained.
[0015]
Further, the bubble bath device according to the fourth invention of the present application is an electric pump driven by using a secondary battery as a power supply, a control means for controlling rotation of the electric pump, a battery voltage detecting means for detecting a voltage of the secondary battery, and an electric motor. A main body having operating means for setting and inputting the number of revolutions of the pump, a battery part which is equipped with a secondary battery and is detachably mounted on the main body, and a battery part detached from the main body. A charging unit for charging the secondary battery by using the charging unit, and a blowing unit connected to the main unit by a flexible pipe and blowing out air.
[0016]
According to the above configuration, when the voltage of the secondary battery is detected by the battery voltage detection unit, and the electric pump is controlled by the control unit based on the detection output, even if the voltage of the secondary battery changes, the operation of the operation unit is performed by the control unit. The electric pump is controlled to the number of revolutions at which the set and input fume strength is obtained.
[0017]
Further, the bubble bath apparatus according to the fifth invention of the present application is an electric pump driven by a secondary battery as a power supply, a control means for controlling the rotation of the electric pump, a load state detecting means for detecting a load state of the electric pump, A main unit having a battery voltage detecting unit for detecting the voltage of the secondary battery and an operating unit for setting and inputting the number of revolutions of the electric pump; and a battery unit which contains a secondary battery and is detachably attached to the main unit. A charging unit that charges the secondary battery by attaching the battery unit detached from the main body unit, and a fumarole unit that is connected to the main body unit by a flexible pipe and that blows out air. It is characterized by.
[0018]
According to the above configuration, since the load state detecting means and the battery voltage detecting means are provided, by inputting the respective detection outputs to the control means, even when the load state changes or the battery voltage changes. The control means controls the number of revolutions of the electric pump so that the fume strength set and input from the operation means is maintained.
[0019]
Further, the bubble bath device according to the sixth invention of the present application is an electric pump driven by a secondary battery as a power supply, a control means for controlling rotation of the electric pump, a load state detecting means for detecting a load state of the electric pump, Battery voltage detecting means for detecting the voltage of the next battery, operating means for setting and inputting the number of revolutions of the electric pump, timing means for measuring the operating time of the electric pump, and storing the set input value, load state and battery voltage for each elapse of time And a main unit having a calculating unit for calculating the remaining capacity of the secondary battery and a user's usage pattern from the data stored in the storing unit. A battery unit to be charged, a charging unit that charges the secondary battery by attaching the battery unit detached from the main body unit, and a fumarole unit that is connected to the main body unit by a flexible pipe to blow out air, Equipped Characterized in that it comprises.
[0020]
According to the above configuration, the use state is stored in the storage means every time elapses, so that the calculation means can calculate the most preferred fumarolic strength and water level of the user from the stored data, and the control means can use the calculated value to obtain the electric power. By setting it as a standard value for the control of the number of revolutions of the pump, a change range can be set above and below the standard value, and the change range of the blast gas strength can be widened. Further, the power consumption of the secondary battery corresponding to the use state can be calculated from the stored data, and the remaining capacity can be calculated by subtracting the power consumption from the remaining capacity at the start of use.
[0021]
In each of the second to sixth inventions, by providing the display means, it is possible to display the setting input by the operation means and the remaining capacity of the secondary battery calculated by the calculation means.
[0022]
Further, in each of the above inventions, the battery unit is provided with a connection mechanism for electrically connecting to the main unit or the charging unit, and is provided with a shutter mechanism that covers the connection terminal when detached from the main unit or the charging unit. By doing so, it is possible to prevent a short circuit due to a metal object coming into contact with the external connection terminal in a state where the battery unit is detached from the main unit or the charging unit.
[0023]
In addition, by configuring the flexible pipe so that the length can be adjusted, the flexible pipe can be adjusted to an optimum length according to the shape and size of the bathroom.
[0024]
In addition, the fumarole is configured such that both ends of the air pipe having the air outlet formed therein can be opened, so that it is possible to clean dirt in the air pipe that is immersed in water and easily adheres to scale. Become.
[0025]
Further, the suction port of the electric pump is opened upward in the main body, and an air intake port communicating with the suction port is formed on a side surface of the main body, so that water hardly intrudes into the main body. However, since the suction port of the electric pump is opened upward in the main body, water can be prevented from entering the electric pump.
[0026]
If the air intake is formed on the side facing the battery section and a concave portion is formed on the opposite side, the battery has a space at the front of the air intake, so that scattered water can be taken in by the air. It does not directly hit the mouth and is effective in preventing water from entering the main body, and the flow of outside air to the air intake is made through recesses communicating with the side and bottom surfaces.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings to facilitate understanding of the present invention. The embodiment described below is an example embodying the present invention, and does not limit the technical scope of the present invention.
[0028]
As shown in FIG. 1, the bubble bath device according to the present embodiment includes a main body 1 provided with an electric pump and a control unit therefor, a battery unit (battery unit) 2 detachably mounted on the main body 1, A charger (charging unit) for charging by attaching a fumarole (a fumarole) 3 connected to the main body 1 by an air supply hose 4 and a battery unit 2 detached from the main body 1 as shown in FIG. 5 is provided. The main body 1 and the fumarolic disk 3 are arranged in a bathroom, the charger 5 is arranged at an arbitrary place which can be connected to an AC outlet, and the battery unit 2 is attached to the charger 5 when the bubble bath device is not used. The battery unit 2 is detached from the charger 5 and brought into the bathroom when the bubble bath device is used, and the battery unit 2 is attached to the main body 1 so that the bubble bath device can be used. It becomes.
[0029]
As shown in FIG. 3A, the main body 1 is provided with an operation panel (operation means) 6 on the upper surface, and the battery unit 2 mounted on the side is locked by a lock release lever 9 provided on the upper surface. It can be detached from the main body 1 by releasing and lifting it up. As shown in the sectional view of FIG. 3B, the electric pump 7 is disposed vertically inside the main body case 10, and air sucked from a suction port 7 a formed above the electric pump 7 is disposed below the electric pump 7. The compressed gas is exhausted from the air blown board 3 through the air supply hose 4 connected to the air supply port 11 provided with the check valve 13 by the main body connection portion 29.
[0030]
The air is introduced into the main body case 10 through an air intake port 12 formed on a side surface facing the battery unit 2 at a distance from the battery unit 2. An outside air introduction path is formed on a surface facing part 1. As described above, the front of the air intake 12 is formed on the surface facing the battery unit 2, and the front of the air intake 12 is covered with the battery unit 2 at intervals, so that water is directly supplied to the air intake 12. Thus, it is possible to prevent water from entering the main body case 10 from the air intake port 12. As shown in FIG. 5, the outside air introduction path to the air intake port 12 includes an air introduction recess 14 formed on the surface facing the main body 1 of the battery unit 2 so as to communicate with the side surface, and fitting portions 24 b on both sides. , 24b from the recessed position formed to communicate with the bottom surface. The concave portion between the fitting portions 24b, 24b communicating with the bottom surface becomes a main outside air introduction path because of a large flow path cross-sectional area, but may be closed by accumulated water although the support leg 15 is provided. Therefore, even if the outside air introduction path leading to the bottom surface is blocked, outside air is introduced from the air introduction concave portion 14 located above the bottom surface. Further, the air inlet 12 and the air inlet recess 14 are provided at a position above the bottom surface, and the support legs 15 are provided. Water can be prevented from entering. Even if water enters the main body 1, since the suction port 7 a of the electric pump 7 is provided above the main body case 10, water does not enter the electric pump 7.
[0031]
Further, in the configuration in which the battery unit 2 is disposed in front of the air intake port 12 without providing the air intake port 12 on the outer surface, the air inflow noise generated when the outside air is sucked from the air intake port 12 is directly radiated to the outside. And the effect of improving the quietness of the bubble bath apparatus can be obtained.
[0032]
An operation panel 6 is provided on the upper surface of the main body case 10 and is closed by a control unit case 16 in which a control circuit board 8 is housed. A step 16a of the control unit case 16 has a step portion 16a as shown in FIG. As shown in FIG. 4, the handle 17 for carrying the main body 1 is stored. When the handle 17 is turned upright from the turning shaft 17a as shown in FIG. The main unit 1 to which the unit 2 is attached can be carried, and can be stored on the step 16a when used as a bubble bath device.
[0033]
As shown in FIG. 4B, a power input terminal 19a connected to the air intake port 12 and the external connection terminals 18a and 18b provided on the battery unit 2, as shown in FIG. , 19b, fitting holding portions 21a, 21b for fitting and holding the battery unit 2, and a lock recess 22. As shown in FIGS. 5A and 5B, fitting portions 24a and 24b fitted to the fitting holding portions 21a and 21b of the main body 1 are provided on the mounting surface of the battery unit 2 corresponding to the mounting side surface. , External connection terminals 18 a, 18 b, 18 c and a lock projection 23 are provided.
[0034]
In order to attach the battery unit 2 to the main body 1, the flange portions of the fitting portions 24 a and 24 b of the battery unit 2 correspond to the concave positions where there is no flange portion of the fitting holding portions 21 a and 21 b of the main body portion 1. When the battery unit 2 is pressed down in this state, the flange portions of the fitting holding portions 21a and 21b are fitted into the flange portions of the fitting portions 24a and 24b, and the battery unit 2 is mounted on the main body 1. As shown in FIG. 6, the mating positions when the battery unit 2 is mounted on the main body 1 are indicated by mating marks 27a and 27b provided on the side surfaces of the battery unit 2 and the main body 1, respectively. When the positions of the marks 27a and 27b are aligned, the battery unit 2 comes into close contact with the main body 1. Therefore, when the battery unit 2 is pushed down from that position, the battery unit 2 is fitted to the main unit 1 and the battery unit 2 is attached to the main body 1. Is made.
[0035]
When the battery unit 2 is not attached to the main body 1 or the charger 5, the external connection terminals 18a to 18c are covered with the shutter 25 as shown in FIG. This prevents a short circuit between the terminals. The shutter 25 is urged by an urging means (not shown) provided in a shutter holder 25a in a direction to cover the external connection terminals 18a to 18c. Open the external connection terminals 18a to 18c. At the time of attachment to the main body 1, the shutter 25 comes into contact with the terminal block 26 to which the power input terminals 19a and 19b of the main body 1 are attached, and is pushed up. As shown in FIG. The connection between the external connection terminals 18a and 18b and the power input terminals 19a and 19b is made. Of the three external connection terminals 18a, 18b, 18c provided in the battery unit 2, the external connection terminal 18c is connected to the charger 5 to detect the temperature of the secondary battery 20 when charging. It is not necessary to use the temperature detection terminal for power supply connection to the main body 1, and no terminal corresponding to the main body 1 is provided.
[0036]
The lock projection 23 provided on the upper part of the battery unit 2 is urged in the protruding direction, and when the battery unit 2 is mounted on the main body 1, the lock recess 22 provided on the main body 1 is provided. It has an action of locking the battery unit 2 in the main body 1 by being fitted therein. When detaching the battery unit 2 from the main body 1, as shown in FIG. 5B, the lock projection 23 is pulled out from the lock recess 22 by operating the lock release lever 9 provided on the upper surface of the battery unit 2. Since the lock can be released, the battery unit 2 can be detached from the main body 1 by putting a finger into the clue concave portion 28 provided in the battery unit 2 and pulling up the battery unit 2.
[0037]
As shown in FIG. 1, a main body connection portion 29 provided at one end of a hose 33 constituting the air supply hose 4 is fitted and connected to the air supply port 11 of the main body portion 1, and provided at the other end of the hose 33. The compressed air exhausted from the electric pump 7 is supplied to the fumarolic disk 3 through the air supply hose 4 by fitting the provided fumarolic connection portion 30 to the connecting pipe 40 of the fumarolic disk 3. The fumarolic disk 3 is fixed to the bottom and / or side wall of the bathtub by a suction cup 31, and the air sent through the air supply hose 4 blows out from a number of fumarolic ports 32, so that the bather riding on the fumarolic disk 3 A bubble bath can be implemented in which air bubbles hit the air.
[0038]
If the length of the air supply hose 4 is too long, the surplus portion becomes an obstacle, so that the length of the air supply hose 4 can be adjusted according to the size and shape of the bathroom using the bubble bath apparatus or the location of the main body 1. The hose 33 is formed by coating a resin film on an inner layer and an outer layer in which a resin wire is spirally wound at a predetermined interval, and the outer layer is configured as a flexible hose having a spiral shape of the resin wire on the surface. Thus, it can be cut to any length from the main body connection portion 29 side. As shown in FIG. 6, an inner tube 34 made of a hard resin is fitted into the hose 33 on the side of the main body connection portion 29, and a screw corresponding to the spiral of the resin wire projecting to the outer surface of the hose 33 is provided on the inner surface of the main body connection portion 29. A groove 65 is formed, and the body connection portion 29 is screwed into the hose 33. Therefore, after removing the main body connecting portion 29 and the inner tube 34 from one end of the hose 33, cutting the hose 33 to an arbitrary length, inserting the inner tube 34 into the cut end, and screwing the main body connecting portion 29 into use, It can be adjusted to the length of the air supply hose 4 corresponding to the environment.
[0039]
Further, the fumarolic disk 3 includes first and second fumarolic disks 41 formed by arranging a plurality of fumarolic pipes 36 having a large number of flammable ports 32 in parallel between a plurality of rows of gantry blocks 35. , 42 are connected by a connecting plate 38 and a flexible pipe 37. A connecting pipe 40 connected to one end of the first fumarolic disk 41 by a connecting plate 38 and rotatably mounted between piping sections 39, 39 connected to the fumarolic pipes 36 has an air supply hose 4. An end-side fumarole connection part 30 is fitted. One end of each fumarolic pipe 36 of the second fumarolic disk 42 is connected to each fumarolic pipe 36 of the first fumarolic disk 41 by a flexible pipe 37, and the other end of each fumarolic pipe 36 is closed by a pipe end cap 43. ing. The compressed air supplied from the main body 1 to the connecting pipe 40 through the air supply hose 4 is sent from the pipe section 39 to each of the fuze pipes 36 and blows out from the many fuze ports 32.
[0040]
With the above configuration, the fumarolic disk 3 can fold the first and second fumarolic disks 41 and 42 in two at the connecting plate 38 and the flexible pipe 37, and reduce the volume when packing or storing the product. Not only the reduction can be achieved, but also the degree of freedom of arrangement in the bathtub can be improved. The basic arrangement method is to dispose the fumaroc disks 3 on the bottom surface and side surfaces of the bathtub so that the first and second fumarolic disks 41 and 42 are located on the same plane as shown in FIG. When the second fumarolic disk 42 is bent in a substantially L shape so as to be located on the bottom surface of the bathtub and the first fumarolic disk 41 is positioned on the side surface of the inclined bathtub, air bubbles may hit the buttocks and back of the bather. it can.
[0041]
In addition, the blower disk 3 having the above-described configuration is configured to be easily submerged in water, so that scales and the like easily adhere to the blower disk 3, so that cleaning can be easily performed. The outer surface can be easily cleaned with a brush or the like, but the inside of the fumarolic pipe 36 that could not be cleaned conventionally can be cleaned. The flexible pipe 37 is detachable from the fume pipe 36, and the end of the fume pipe 36 can also be pulled out of the pipe end cap 43. Therefore, a spiral brush or the like is taken in and out of the fume pipe 36 to clean the inside of the pipe. Can be.
[0042]
The battery unit 2 serving as a power source for driving the electric pump 7 disposed in the main body 1 is configured by connecting a plurality of secondary batteries 20 (here, nickel-hydrogen storage batteries) in series and requiring a motor of the electric pump 7. It is configured to be able to supply electric power to In addition, a charge / discharge control circuit for preventing the influence of over-discharge and memory effect, and a safety function against short-circuit and electric leakage are provided. As described above, the battery unit 2 can be detached from the main body 1 and attached to the charger 5, charged to the secondary battery 20, and used repeatedly.
[0043]
As shown in FIG. 2, the charger 5 arranges the insertion plug 45 provided at the end of the power cord 44 at an arbitrary place where it can be connected to an AC outlet, and attaches the battery unit 2 detached from the main body 1. Thereby, the secondary battery 20 can be charged. The charger 5 has the mounting portion 46 into which the flange portions of the fitting portions 24a and 24b (see FIG. 4) provided on the battery unit 2 are inserted and the charging terminals 47a, 47b and 47c provided on the front standing wall. As shown in FIG. 8, the mating mark 27c provided on the charger 5 is aligned with the mating mark 27b of the power supply unit 2 so that both faces each other, and the battery unit 2 is fitted with its fitting portions 24a and 24b to the mounting portion 46. When pushed in while being inserted, the shutters 25 of the battery unit 2 are pushed up by the charging terminals 47a to 47c to expose the external connection terminals 18a to 18c, and the external connection terminals 18a to 18c are connected to the charging terminals 47a to 47c, respectively. Then, the bottom surface of the battery unit 2 is received in a concave portion on the receiving base 48 of the charger 5, and the battery unit 2 is mounted on the charger 5.
[0044]
The charger 5 includes a charge control circuit and a charge display panel 49 (not shown), and starts charging when the battery unit 2 is mounted, and automatically stops charging when the battery unit 2 is charged to a predetermined fully charged state. Then, charging completion is displayed on the charging display panel 49. The charging terminal 47c is connected to the external connection terminal 18c of the battery unit 2, detects the temperature of the secondary battery 20, and performs charging corresponding to the temperature of the secondary battery 20.
[0045]
Next, a method for handling and controlling the bubble bath apparatus configured as described above will be described with reference to FIG.
[0046]
When the battery unit 2 charged by the charger 5 is attached to the main body 1 and the power button 50 of the operation panel 6 provided on the upper surface of the main body 1 is pressed as shown in FIG. The energization of the pump 7 is started, and an operation state is established in which air is supplied to the fumarolic disk 3 through the air supply hose 4. When the power button 50 is pressed again, the power supply to the electric pump 7 is cut off and the electric pump 7 is stopped. In the operating state, when the strength selection button 52 is pressed, the rotation speed of the electric pump 7 can be selected to select the strength of the blast from the blast board 3, and the selection state is displayed step by step on the display unit 51. Further, when the rhythm button 53 is pressed in the operating state, a rhythm bubble bath in which the intensity of the fumarole changes periodically can be obtained.
[0047]
FIG. 9 shows a configuration of a control circuit, which is configured on a control circuit board 8 provided in the main body 1. The motor 54, which is the drive source of the electric pump 7, is driven by the drive unit 55 under PWM control, and the duty ratio of the PWM control is determined by the control unit (control means) 60. The setting output from the operation unit 59 such as the power button 50 and the strength selection button 52 provided on the operation panel 6 is input to the control unit 60, and the control unit 60 controls the driving unit 55 in accordance with the setting output. I do. For example, a control value (duty ratio) according to the selection by the strength selection button 52 is read out from the storage unit 61, a duty ratio of the PWM control according to the control value is instructed to the driving unit 55, and the selected value is displayed on the display unit 51. Let it.
[0048]
The voltage of the secondary battery 20 provided in the battery unit 2 changes depending on the load state, discharge capacity, and the like, and the change in the power supply voltage changes the rotation speed of the motor 54, and changes from the state in which the strength of the fumarolic gas is set. Will be done. A voltage detecting section (battery voltage detecting means) 57 is provided to prevent a change in the flammable gas set value due to the voltage change, and the control section 60 executes a control operation for correcting a change in the rotation speed of the motor 54 due to the voltage change. . For example, when the voltage detection unit 57 detects that the voltage of the secondary battery 20 has decreased, the control unit 60 increases the ON duty of the PWM control proportional to the amount of decrease in the voltage to reduce the rotation speed due to the voltage decrease. to correct.
[0049]
If the water level in the bathtub is different, the water pressure applied to the fumarolic disk 3 is prevented from changing and the intensity of the fumarica specified by the operation unit 59 is prevented from changing. Means) 56 are provided. Since the current detector 56 detects the current flowing through the motor 54, it is possible to detect a change in load on the motor 54 due to a change in water pressure. Therefore, it is possible to control the driving unit 55 by the control unit 60 in accordance with the detection output of the current detection unit 56 so as to correct the intensity of the blast gas so as not to change. For example, when the current detecting unit 56 detects that the load on the motor 54 has increased as a result of the increase in the water level and the water pressure on the fumarolic disk 3, the state in which the rotation speed of the motor 54 has decreased due to the increase in the load is considered. The control unit 60 increases the ON duty and controls the command value to the drive unit 55 so as to increase the rotation speed so as to correct the correction. it can.
[0050]
In addition, a timekeeping unit (timekeeping means) 58 is provided, and the current value detected by the current detection unit 56 is integrated into the storage unit (storage means) 61 at each predetermined time, and the secondary battery detected by the voltage detection unit 57 is integrated. A voltage change of the secondary battery 20, preferably a temperature of the secondary battery 20, is detected, and the load state of the motor 54 detected by the current detection unit 56 and the strength of the fumarole selected from the operation unit 59 are stored over time in a storage unit. Means), the remaining capacity of the secondary battery 20 is calculated by the calculating section (calculating means) 62 from the integrated value of the current value, the voltage and the temperature, and displayed on the display section 51. . With this configuration, even when the power consumption of the secondary battery 20 changes due to a change in the water level or the strength of the fumarolic gas, the calculation of the remaining capacity is accurately performed. Therefore, the usable time can be predicted before use, and it is possible to prevent the remaining capacity from being lost during use and stopping.
[0051]
Further, the selected value of the fumarolic strength set from the operation unit 59 and the desired water level detected by the current detection unit 56 are stored in the storage unit 61, and the user can store the selected water level based on a plurality of usage records stored in the storage unit 61. The control unit 60 can be configured to start the automatic operation at the standard value by determining the use pattern of the standard and setting it as the standard value of the flammable intensity. Since the intensity of the fumarole and the water level in the bathtub are different for each person, a standard value can be obtained from a plurality of uses, and the control unit 60 sets a standard value that sets the selected value of the fumarolic intensity from the operation unit 59. Control up and down from the value. For example, for a user who prefers a stronger fumarole intensity, the standard value is set to a higher value, thereby making it possible to widen the adjustment range of the fumarole intensity.
[0052]
Further, a predetermined time (for example, 5 minutes) is measured from the time when the power button 50 is turned ON by the timer 58, and a signal is output to the control unit 60 when the predetermined time has elapsed. Can be automatically stopped. Although the bubble bath has an effect of promoting blood circulation, it is not preferable to use the air bath for a long time, so that it is preferable to automatically stop the operation at the most effective time.
[0053]
【The invention's effect】
As described above, according to the present invention, since the electric pump is driven by using the secondary battery as a power supply, it is possible to solve the problems that the door is not closed by pulling the power cord into the bathroom, that there is a risk of electric leakage or electric shock. can do. In addition, the user can enjoy the most preferable bubble bath by providing control for adjusting the strength of the fumarolic gas ejected from the fumarolic disk, fluctuating control that is not affected by a change in the voltage of the secondary battery, and a change in the load state due to a change in the water level. .
[Brief description of the drawings]
FIG. 1A is a plan view and FIG. 1B is a side view showing a configuration of a bubble bath device according to an embodiment.
2 (a) is a plan view, FIG. 2 (b) is a front view, and FIG. 2 (c) is a side view of a charger constituting the bubble bath apparatus.
3A and 3B are a plan view and a cross-sectional view taken along line AA, respectively, showing the configuration of a main body and a battery unit.
FIG. 4 is a perspective view showing the main body in a state where the battery unit is detached.
FIG. 5 is a side view of the battery unit showing opening and closing of a shutter.
FIG. 6 is a perspective view illustrating a method of attaching and detaching the battery unit to and from the main body.
FIG. 7 is a cross-sectional view illustrating a length adjustment structure of an air supply hose.
FIG. 8 is a perspective view illustrating mounting of a battery unit on a charger.
FIG. 9 is a block diagram illustrating a configuration of a control circuit.
[Explanation of symbols]
1 Body
2 Battery unit (battery part)
3 Fumarolic disk (fumarolic part)
4 Air supply hose
5 Charger (Charging part)
6 Operation panel
7 Electric pump
8 Control circuit board
12 air intake
14 Air introduction recess
18a-18c External connection terminal
19a, 19b power input terminal
20 Secondary battery
25 shutter
36 Fumarolic pipe
43 Pipe end cap
47a-47c charging terminal
54 motor
56 current detection unit (load state detection means)
57 voltage detection unit (battery voltage detection means)
58 Clock section (measuring means)
60 control unit (control means)
61 storage unit (storage means)
62 operation unit (operation means)

Claims (12)

A main body section provided with an electric pump driven by a secondary battery as a power supply, a battery section containing a secondary battery therein and detachably mounted on the main body section, and the battery section detached from the main body section are mounted. A bubble bath device, comprising: a charging unit for charging a secondary battery by charging the battery unit; and a fumarole unit connected to the main body unit by a flexible pipe to blast air. An electric pump driven by a secondary battery as a power source, a main body including a control unit for controlling the rotation of the electric pump, and an operating unit for setting and inputting the number of rotations of the electric pump; A battery unit detachably mounted to the unit, a charging unit for charging the secondary battery by mounting the battery unit detached from the main unit, and air connected to the main unit with a flexible pipe to release air. A bubble bath device, comprising: An electric pump driven by a secondary battery as a power supply, control means for controlling the rotation of the electric pump, load state detecting means for detecting a load state of the electric pump, and operation means for setting and inputting the number of revolutions of the electric pump. A main unit, a battery unit that contains a secondary battery and is detachably attached to the main unit, a charging unit that attaches the battery unit detached from the main unit and charges the secondary battery, A bubble bath device comprising: a main body portion; and a fumarole portion which is connected by a flexible pipe and gushes air. An electric pump driven by a secondary battery as a power source, a control unit for controlling the rotation of the electric pump, a battery voltage detecting unit for detecting a voltage of the secondary battery, and an operating unit for setting and inputting the number of rotations of the electric pump. A main unit, a battery unit that contains a secondary battery and is detachably attached to the main unit, a charging unit that attaches the battery unit detached from the main unit and charges the secondary battery, A bubble bath device comprising: a main body portion; and a fumarole portion which is connected by a flexible pipe and gushes air. Electric pump driven by a secondary battery as a power supply, control means for controlling rotation of the electric pump, load state detecting means for detecting a load state of the electric pump, battery voltage detecting means for detecting a voltage of the secondary battery, and electric motor A main body having operating means for setting and inputting the number of revolutions of the pump, a battery part which is equipped with a secondary battery and is detachably mounted on the main body, and a battery part detached from the main body. A bubble bath device, comprising: a charging unit for charging a secondary battery by using a charging unit; and a fumarole unit connected to the main body unit by a flexible pipe to blow air. Electric pump driven by a secondary battery as a power source, control means for controlling rotation of the electric pump, load state detecting means for detecting a load state of the electric pump, battery voltage detecting means for detecting a voltage of the secondary battery, Operation means for setting and inputting the number of revolutions of the pump, timekeeping means for measuring the operation time of the electric pump, storage means for storing the set input value, load state and battery voltage every time elapses, and data stored in the storage means. A main unit having a calculating unit for calculating a remaining capacity of the secondary battery and a usage pattern of a user; a battery unit having a secondary battery mounted therein and detachably mounted on the main unit; and a battery unit detached from the main unit. An air bubble bath device comprising: a charging unit for charging a secondary battery by mounting a battery unit; and a fumarole unit connected to the main body unit by a flexible pipe to blast air. The bubble bath apparatus according to any one of claims 2 to 6, further comprising display means for displaying a setting input state and an operation state. 7. The battery unit, wherein a connection terminal electrically connected to the main unit or the charging unit is formed, and a shutter mechanism for covering the connection terminal when detached from the main unit or the charging unit is provided. The bubble bath apparatus according to claim 1. The bubble bath device according to any one of claims 1 to 6, wherein the flexible pipe is configured to be adjustable in length. The bubble bath device according to any one of claims 1 to 6, wherein the fumarole unit is configured such that both ends of an air pipe having an air outlet formed therein can be opened. The bubble bath device according to any one of claims 1 to 6, wherein a suction port of the electric pump is opened upward in the main body, and an air intake outside air suction port communicating with the suction port is formed on a side surface of the main body. . The bubble bath apparatus according to claim 11, wherein the air intake outside air intake port is formed on a side surface facing the battery unit, and a concave portion communicating outward is formed on the side surface facing the battery unit.

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