JP2830055B2 - Bubble tub - Google Patents

Description

The present invention relates to a bubble generating bath tub which is highly safe at the time of bathing and can be controlled at a low cost.

(B) Conventional technology Conventionally, as one form of a bathtub, there is a bubble generating bathtub provided with a bubble generating device separately from a bathtub body, and the bubble generating bathtub generates bubbles in the bathtub by the bubble generating device. By doing so, massage the body with bubbles,
It is configured so that a feeling of taking a bath can be enhanced.

That is, such a bubble-generating bathtub is provided with a spout on the side wall of the bathtub main body, and communicates with a circulating pump for circulating bath water through the circulating pump to the spout, and further has an ejector effect near the spout. An air suction unit that allows air to be mixed into the bath water is installed using this.

With this configuration, by operating the circulation pump, the bath water can be spouted from the spout on the side wall of the bathtub body, and at the time of the spout, the air is suctioned at a negative pressure from the air suction unit, and the bath water is injected into the bath water. By mixing air and jetting out hot water mixed with air from the jet port, air bubbles are generated in the bath tub and applied to the bather's body, thereby improving the massage effect and the like.

In recent years, as described in Japanese Utility Model Application Laid-Open No. 63-100035, an electric motor used as a pump driving device for driving a circulating pump is controlled by an inverter to periodically change the injection power of bath water. Something that can be done has also been proposed.

(C) Problems to be Solved by the Invention However, the above-mentioned bubble generating bath still has the following disadvantages.

That is, in the above-described bubble generating bath, when the electric motor is inverter-controlled in order to change the amount and pressure of the bath water, the high frequency component generated at the time of the switching operation by the switching element insulates the bath from the circulating pump. If not, leakage current flows to the bathtub side, increasing the danger to the human body.

Further, since the inverter is still expensive, the bubble generating bathtub is also expensive.

An object of the present invention is to provide a bubble generating bathtub that can solve the above-described problems.

(D) Means for Solving the Problems The present invention provides a bath water circulation flow path comprising a bath water suction flow path and a bath hot water supply flow path between a bathtub body and a circulation pump. An air intake section is connected to the strong hot water flow path, and the air taken in by the air intake section is mixed with the hot water in the hot water strong flow path, and air bubbles are mixed into the bathtub body from each ejection nozzle. A bubble generating bath tub in which bath water can be ejected, wherein a pump driving device connected to a circulating pump is formed by a DC motor whose speed can be controlled by changing an armature voltage. It is.

(E) Function and Effect In the present invention, the pump drive device for driving the circulation pump is formed by a DC motor based on so-called thyristor Leonard control that can change the rotation speed of the circulation pump by changing the armature voltage. doing.

Therefore, based on the control signal from the control device, the armature voltage can easily change the rotation speed of the circulating pump, and can arbitrarily change the amount and pressure of the bath water to be spouted.
You can enjoy various blow modes.

In addition, since a DC motor using armature voltage control is used, the blow mode can be changed without performing inverter control, and the possibility of electric shock accidents related to human life due to high frequency components can be reduced as much as possible.

Moreover, since an expensive inverter can be dispensed with, the bubble generating bath can be manufactured at low cost.

(F) Example Hereinafter, the bubble generation bath A according to the present invention will be described in detail with reference to examples shown in the accompanying drawings.

1 and 2 show the overall structure of the bubble generating bathtub A. The bubble generating bathtub A is ejected on the front and rear walls and the left and right side walls of the bathtub body 1 formed in a box shape having an upper surface opening, respectively. A nozzle 2, a back side ejection nozzle 3, and a ventral side ejection nozzle 4 are provided.

The tub body 1 has a flange-shaped edge with a fixed width around the periphery.
1a is formed, and an air intake portion 5 is provided at the same edge portion 1a.

Further, the air intake section 5 is provided with a bubble amount adjustment valve Va and a bubble amount adjustment valve body driving motor M2 for driving the adjustment valve Va.

In the bubble tub A, a pump protection case 9 is provided around the outer periphery of the bathtub body 1.
A circulating pump P for circulating bath water in the bathtub body 1 and a filter R for filtering the bath water circulated by the circulating pump P;
And the drive of the pump drive M for driving the pump P, the motor M1 for driving the nozzle valve advancing / retreating drive for the nozzle, the motor M2 for driving the valve body for adjusting the amount of air bubbles, and the electric three-way valve Q to be described later. And a control unit C for controlling.

In addition, Q1 is a hot water pipe for discarding a part of bath water at the time of back washing.

A bath water circulation channel D is interposed between the bathtub body 1 and the circulation pump P.

That is, the bath water circulation flow path D includes a bath water suction pipe (bath water suction path) 10 for sending bath water from the bubble generation bath A to the circulation pump P, and a bath from the circulation pump P to the bath A. It is composed of a hot water supply pipe (bath tank high power supply channel) 11 for supplying hot water.

The bath water suction pipe 10 has one end opened at the lower part of the bathtub main body 1 to form a suction port 22, and the other end communicates with the water supply port of the circulation pump P to suck the bath water into the circulation pump P. Like that.

On the other hand, one end of the bath hot water pipe 11 has a circulation pump P
And the other end thereof is connected to the above-mentioned foot-side, ventral-side, and back-side jet nozzles 2, 3, and 4, respectively.

Further, as shown in FIG. 3, the pump driving device M of the circulation pump P is provided with a rotation speed detection sensor 6 for detecting the rotation speed of the circulation pump P, and the detection output from the detection sensor 6 is It is sent to a control unit C, which will be described later, and controls the rotation speed of the circulation pump P by the control unit C.

Further, as shown in FIG. 3, a pressure detection sensor 12 for detecting the pressure of the bath water fed into the pipe 11 is installed in the middle of the hot water bath 11. Then, a detection signal from the pressure detection sensor 12 is sent to a control unit C, which will be described later, and the control unit C determines the ejection pressure of the bath water ejected from each of the ejection nozzles 2, 3, and 4 by the pump drive device M. The control is performed by changing the number of rotations and the position of the valve body for adjusting the ejection amount of each of the foot, back, and ventral ejection nozzles 2, 3, and 4.

The pressure detection sensor 12 can also be used as a water level sensor for detecting the amount of hot water in the bathtub body 1.

Each of the ejection nozzles 2, 3, and 4 uses an ejection amount automatic adjustment ejection nozzle having the same configuration that is capable of automatically changing the ejection amount and ejection pressure of the bath water.

As shown in FIG. 3, an intake pipe 5a from the air intake unit 5 is connected to the ejection nozzles 2, 3, and 4.

Then, by utilizing the ejector effect by the ejection pressure generated by operating the circulation pump P, air is mixed into the bath water through the intake pipe 5a, and the bath water containing bubbles is ejected from the ejection nozzles 2, 3, and 4. Can squirt more.

Next, the configuration of the pump driving device M and the control unit C for controlling the foot-side, back-side, and ventral-side jet nozzles 2, 3, and 4 will be described.

The control unit C includes a microprocessor as shown in FIG.
It comprises an MPU, input / output interfaces 13 and 14, a memory 15 composed of a ROM and a RAM, and a timer 16.

In the above configuration, the input interface 13
A rotation speed detection sensor 6 for detecting the rotation speed of the circulation pump P, a valve body reference position detection sensor 17 for detecting the opening / closing amount of the ejection amount adjustment valve body, and a valve reference for detecting the opening / closing amount of the bubble amount adjustment valve. A position detection sensor 18, a pressure detection sensor 12 for detecting the water pressure of the hot water supply pipe 11, a bath temperature detection sensor T for detecting the temperature of the bath in the bathtub body 1, and a remote controller 20.
And an operation unit / light receiving unit 21 for receiving a drive signal based on infrared rays from the camera.

In the present embodiment, the light receiving unit 21 is connected to the air intake unit 5.
It is provided above.

On the other hand, the output interface 14 is connected to a pump driving device M, a motor M1 for driving the nozzle valve advancing and retreating, a motor M2 for driving the valve element for adjusting the bubble amount, and an electric three-way valve Q.

The memory 15 further includes, based on output signals from the above-described sensors and driving signals from the remote controller 20, the above-described pump driving device M, the nozzle valve advance / retreat driving motor M1, and the bubble amount adjusting valve. A driving sequence program for driving the driving unit of the body driving motor M2 and the electric three-way valve Q is stored.

The above-described bubble-generating bath A can have the same configuration as that disclosed in Japanese Patent Application No. 63-331772, except for the configuration of a pump driving device M described below.

According to the present invention, in the bubble generation bath A configured as described above, as the pump driving device M that drives the circulation pump P, the rotation speed of the circulation pump P can be changed by changing the armature voltage. It is characterized by using a DC motor.

Then, by applying the thyristor leonard control described later and changing the armature voltage, it is possible to easily change the rotation speed of the circulation pump P and arbitrarily change the ejection amount and ejection pressure of the bath water. Is the Japanese Patent Application No. 63-331772
The various blow types disclosed in No.
You can enjoy shiatsu blow, pulse blow and massage blow.

Further, since a DC motor using armature voltage control is used, the blow mode can be changed without performing inverter control, and the possibility of electric shock accidents related to human life due to high frequency components can be reduced as much as possible.

Moreover, since an expensive inverter can be dispensed with, the bubble generating bath A can be manufactured at low cost.

Next, the thyristor Leonard control will be briefly described. In the control, the voltage is changed by the chopper control by using the thyristor control device 50 having an electric circuit conceptually shown in FIG. To change it.

In FIG. 4, reference numeral 51 denotes an exciting device, and 52 denotes a motor cooling fan.

Further, a resistance method can be adopted according to the method and application of controlling the generation of bubbles.

[Brief description of the drawings]

FIG. 1 is a perspective view of a bubble generation bathtub of the present invention, FIG. 2 is a plan view of the bathtub, FIG. 3 is a block diagram of a piping system and a control system of the bubble generation bathtub, and FIG. It is a conceptual electric circuit explanatory view by simple thyristor Leonard control. (A): Bubble generation bath (D): Bath hot water circulation channel (P): Circulation pump (M): Pump driving device

Continuation of the front page (72) Inventor Mitsuaki Hashida 2-81-1, Honmura, Chigasaki-shi, Kanagawa Prefecture Tochiki Kiki Co., Ltd. Chigasaki Plant (72) Inventor Koichi Uchiyama 2-81-1, Honmura, Chigasaki-shi, Kanagawa Prefecture Toto (72) Inventor Kenji Moriyama 2-81-1, Motomura, Chigasaki-shi, Kanagawa Prefecture Tochiki Equipment Co., Ltd. Chigasaki Plant (56) References JP-A-2-243146 (JP, A) JP-A-2-154761 (JP, A) JP-A-2-95369 (JP, A) JP-A-64-86970 (JP, A) JP-B-51-798 (JP, B1) (58) Fields investigated (Int) .Cl. ⁶ , DB name) A61H 23/00 520

Claims (1)

(57) [Claims] 1. A hot-water bath circulation channel comprising a hot-water bath suction flow channel and a hot-water bath strong-feeding channel is interposed between a bathtub body and a circulation pump, and an air intake section is provided in the hot-water bath strong-feeding channel. And air is mixed into the bath water in the bath hot water flow path, and air bubbles can be blown out from each of the nozzles into the bath tub body. An air bubble generation bath, characterized in that a pump driving device connected to a circulation pump is formed by a DC motor whose speed can be controlled by changing an armature voltage.