JPH02131763A - Bubble generating bathtub - Google Patents

Abstract

PURPOSE:To emit bathing hot water, to which bubbles are mixed, over the wide range of a body, to attain electric insulation by utilizing the fluid energy of the bathing hot water and to secure safety by automatically oscillating a nozzle. CONSTITUTION:For a nozzle 25, the external shape of a middle part 25b is formed in a spherical surface shape and the nozzle 25 is supported to a nozzle supporting body 27, which is provided in a foot side emitting port 2, freely oscillatably up and down with the above mentioned spherical surface as a center. A base edge 25c of the nozzle 25 is connected and linked to a tip C'-2 of a bathing hot water forcibly sending pipe C-2 by a connecting pipe 28 which is flexible and formed in a bellows shape. Even when the nozzle is oscillated up and down, the supply of the bathing hot water from the bathing hot water forcibly sending pipe C-2 to the said nozzle 25 can be kept. A nozzle oscillating means 26 is interlocked and linked to an oscillating link 32, whose one edge is interlocked and linked to linking pieces 25a and 25a, and a deceleratingmechanism 33 which is interlocked and linked to the other edge of the link 32. Then, a propeller 34 for oscillation drive, whose shaft is supported freely rotatably, is provided in the tip part of the bathing hot water forcibly sending pipe C-2. The propeller 34 is revolved by the bathing hot water which is forcibly sent in the bathing hot water forcibly sending pipe C-2.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a bubble-generating bathtub. (mouth)
Conventional technology Conventionally, bubble generating bathtubs have been constructed by interposing a bathwater circulation pipe consisting of a bathwater suction pipe and a bathwater forced delivery pipe between the bathtub and a circulation pump installed outside the bathtub. An air suction part is provided in the middle of the pipe, so that air bubbles can be generated at the same time as hot water is spewed out from the opening in the bathtub of the forced pipe. (c) Problems to be Solved by the Invention However, in the above-mentioned bubble-generating bathtub, the bathwater mixed with bubbles is ejected only in a certain direction, and only hits a small part of the bather's body. If the bather wants to apply the bath to the bathing area, the bather has to change the bathing position or bathing posture, which is troublesome. Therefore, a method was developed in which a nozzle was attached to the opening inside the bathtub so that it could swing freely, and by manually adjusting the swing angle of the nozzle, it was possible to change the spouting direction of bath water mixed with air bubbles. In this case as well, the direction of the jet of bathwater mixed with air bubbles changes, and it still hits only a small part of the bather's body, so the nozzle must be adjusted manually each time, which is a hassle. There was a time. <<2>> Means for solving the problem In the present invention, a bath water circulation pipe composed of a bath water suction pipe and a bath water forced delivery pipe is interposed between a bathtub and a circulation pump section installed outside the bathtub. , an air suction part is provided in the middle of the forced bath water pipe, and a nozzle swingably attached to the opening in the bathtub of the forced bath water pipe is configured to generate air bubbles at the same time as the bath water is spouted. It is an object of the present invention to provide a bubble-generating bathtub that is equipped with a nozzle swinging means that automatically swings the nozzle using the fluid energy of the bathwater forced through a hot water supply pipe. <<E>> Function/Effect In the present invention, since the nozzle is configured to swing automatically as described above, bathwater mixed with air bubbles can be sprayed over a wide range of the bather's body. You can enjoy a comfortable bath due to the massage effect of the bath water mixed with air bubbles. Moreover, since the nozzle swing drive source uses the fluid energy of the bath water forced through the bath water forced transfer pipe, it can be electrically insulated, ensuring that there will be no electrical leakage. It is possible to prevent this from occurring and ensure safe use. 《》》》Example》Example of the present invention will be explained in detail based on the drawings. Fig. 1 (A) shows a bubble-generating bathtub according to the present invention, and the bathtub (8) has a constant width on the periphery. A flange-shaped edge (1) is formed, and a controller (
a) is installed. In addition, a circulation pump section (B) is installed outside the bathtub (^), and a bath water circulation pipe (C) is installed between the bathtub (^) and the pump section (8). It is intervening. In other words, the bath water circulation pipe (C) is the bubble generating bathtub (8).
A bath water suction pipe (C-1) for sending bath water from the pump (B) to the circulation pump section (8), and a bath water suction pipe (C-1) for sending bath water from the pump (B) to the circulation pump section (8)
) to send bath water in a jet form (C-2)
), and the suction pipe (C-1) has one end opened at the bottom of the bubble generating bath m (A), and the other end opened at the water inlet of the pump body (b) of the circulation pump section (B). The ends are connected to draw bath water into the pump body (b),
In addition, the forced bath water pipe (C-2) is connected to the pump body (b).
One end communicates with the drain port of the bathtub (A), and the other end communicates with the foot side spout (2) and the dorsal side spout (3), which are opened at the front and rear lower portions of the bathtub (A). A separate intake pipe (4) serving as an air intake section is connected to and branches from the forced bath water pipe (C-2) near each of the spout ports (2) and (3).
By driving the pump body (b) in the circulation pump section (B), the bath water in the bubble-generating bathtub (A) is sucked in from the bath water suction pipe (C-1) and transferred to the bath water forced delivery pipe (C-
2) to forcibly open the foot side spout (2) as an opening inside the bathtub.
) and to the dorsal outlet (3), and at this time, the negative pressure of the bath water circulation is applied to the air from the intake pipe (4) that communicates with the vicinity of each outlet (2) and (3). The air mixed with the bath water becomes bubbles and is ejected from each outlet (2) and (3) along with the bath water. A jet flow switching valve (5) is interposed in the middle of the bath water forced pipe C-2) from the pump body (b) to the bubble generating bathtub (A). The bath water can be switched between the foot side and the back side by operation, and there is a foot side air bubble adjustment valve (6) at the base end of the intake pipe (4) so that the air bubbles can be adjusted depending on the amount of intake air. and,
A back air bubble control valve (7) is connected, and each valve (5) (607) is connected to a controller (a) on the edge (1) of the bathtub. That is, as shown in FIG. 2, the controller (a) has a slightly raised controller table (a-1) formed on the edge of the bathtub (1), and each valve is placed above the table (a-1). (5) (6) (7) handle {5°) (6')
(7°), and each valve (5), (6), and (7) is placed vertically below the edge (1). A bubble generation switch (0) is installed in the middle of the controller (a), and when the switch (D) is operated, an output signal is generated and the output signal is sent to the bathroom. It is sent to the control device (8) attached to the wall etc.
), the pump body (b) is driven and stopped, and the bath water is jetted to generate bubbles. Moreover, the on/off signal of the switch (D) can be transmitted to the control device <<8>> using an optical fiber. In addition, an operation line (9) is connected from the control device (8) to the circulation pump section (B), and an operation line (9) is connected to the circulation pump section (8).
) is connected to an electric wire (10) for energizing from an AC power source. Here, to explain the configuration of the bubble generation switch (D), as shown in FIGS. 2 to 4, the switch (D)
consists of a water-repellent operation display sheet (11), an operation panel (12) to which the operation display sheet (11) is attached, a casing body (13), and a touch switch built into the casing body (13). It is composed of (14). The touch switch (14) has two rectangular spiral notch grooves that are alternately combined in opposite directions, and a protrusion (15) on the back side of the central portion surrounded by the two notch grooves. A shielding plate (16) is attached to the lower end of the protrusion (15). By pressing the center portion of the touch switch (14), the blocking plate (16) can be easily moved in the vertical direction. And on both sides of the blocking plate (16),
A light emitting part (17) and a light receiving part (18) are provided, which can be cut off and made conductive by vertical movement of the cutoff plate (16).
The light projecting section (17) and the light receiving section (18) are connected to the photoelectric conversion device (1
9) a light emitting element (17a) and a light receiving element (18
It is formed at the tip of the optical fiber (2G) (21) connected to a). On the other hand, in this embodiment, the photoelectric conversion device (19) is a control device (
8) It is incorporated within. And the same photoelectric conversion device f
(19) is connected to the input side interface of the control device (8) via a lead wire or a printed circuit board, as shown in FIG.

Next, the operation of the bathtub switch structure having the above-mentioned top structure will be explained with reference to FIGS. 1 to 3. The bather presses the touch switch (14) with his/her hand (H) from inside the bathtub.
When you press , the blocking plate (16) connects the optical fiber (20) (
21), the light emitting element (17a) and the light receiving element (18a)
), thereby generating an ON output as an optical signal. The on-output is then sent to the photoelectric conversion device (19), where the on-output is converted from an optical signal to an electrical signal (voltage signal), and then the control device (
8). The control device (8) controls the operation line (8) based on the electrical signal.
9), the electric switch on the pump body (b) of the circulation pump section (B) is turned ON and OFF to eject and stop the bubbles. In such a configuration, the gist of the present invention is that the foot side spout (2
) and the dorsal side spout (3), a nozzle (25) is attached to each of the nozzles (25) so as to be able to swing freely, and the nozzle (25) is configured to generate bubbles at the same time as bath water is spouted, and the same nozzle (25) is attached to the bathtub. This feature is provided with a nozzle swinging means (26) for automatically swinging the nozzle, which will be explained below based on FIG. That is, the nozzle (25) has a midway portion (25b) having a spherical outer shape, and is supported by a nozzle support (27) provided at the foot side spout (2) so as to be able to swing vertically around the spherical surface. The base end (25C) of the same nozzle (25)
At the tip (C'-2) of the forced bath water pipe (C-2),
The flexible, bellows-like communication pipe (28) is used to communicate and connect the nozzle (25), so that even when the nozzle (25) swings up and down, the bath water is forced to flow from the bath water pipe (C-2) to the nozzle (25). (29) is a pipe support plate that cantilevers the nozzle support (27) on the outside of the bathtub, and the pipe for forced bath water is attached to the support plate (29). (C
-2) tip @ (C'-2) fixed bracket (30)
It is fixed with a fixing bolt (31) through the. There is a communication pipe (28) on the left and right sides of the base end of the nozzle (25).
) The connecting pieces (25aH25a) are protruded toward both sides of the connecting pieces (25a), and the nozzle swinging means (
26) are interlocked and connected. The nozzle swinging means C26) includes a swinging link (3) whose one end is operatively connected to the connecting pieces (25a) (25a).
2), a deceleration mechanism (33) interlockingly connected to the other end of the link (32), and a deceleration mechanism (33) interlockingly connected to the deceleration mechanism (33) and rotating inside the tip of the bath water forced feeding pipe (C-2). It has an elliptical shape with a swinging drive propeller (34) that is freely pivoted, and the propeller (34) is rotated by the bath water forced through the bath water forced feed pipe (C-2). ing. The intake pipe (4) is connected to the hot water forced pipe (C-2) on the downstream side of the oscillating propeller (34), and the water flow after rotating the propeller (34) is used to blow air. I try to inhale it. The swing link (32) has an upper end connected to the connecting piece (25).
a) Y-shaped lifting link (32a) connected to (25a)
), and a crank (32b) whose one end is connected to the lower end of the link (32a) and whose other end is connected to the output shaft (33a) of the reduction mechanism (33). (32c)
(32d) is each connection pin, and (33b) is an input shaft.
Therefore, the rotational force of the oscillating drive propeller (34) rotated by the forced bath water is decelerated by the reduction mechanism (33) and transmitted from the output shaft (33a) to the crank (32b). 32b) to the lifting link (32b)
a) is converted into vertical push/pull force and transmitted to the same link (3
2a) to the connecting pieces (25a) (25a) as a vertical push/pull force, and this vertical push/pull force causes the nozzle (25) to oscillate vertically around the spherical surface formed in the midway portion (25b). It can be activated. The embodiment of the present invention is constructed as described above, and according to this embodiment, the following effects are produced.

In other words, since the nozzles [25] attached to the foot side spout (2) and the dorsal side spout (3) are configured to swing automatically, the bath water mixed with air bubbles is sprayed onto the bather. The water can be sprayed over a wide area on the feet and back of the body, and the massage effect of the bubble-filled bath water allows you to enjoy a comfortable bath. Moreover, the nozzle swing drive source is connected to the bath water forced pipe (C
-2) Since it uses the fluid energy of the bath water that is forced through the bath, it can be electrically insulated and can reliably prevent electrical leakage, ensuring safe use. It can be secured. (3): Back spout (25): Nozzle (26): Nozzle swinging means

[Brief explanation of drawings]

Fig. 1 is an overall explanatory diagram of the bubble generating bathtub of the present invention, Fig. 2 is a sectional view of the controller portion, Fig. 3 is an explanatory diagram of the bubble generating switch, Fig. 4 is an explanatory plan view of the same, and Fig. 5 is a nozzle. FIG. 3 is a partially cutaway side view of the swinging means. (A): Bubble-generating bathtub (2): Foot side nostalgic outlet

Claims (1)

[Claims] 1) A bath water suction pipe (C-1) and a bath water forced delivery pipe (C
A bath water circulation pipe (C) composed of -2) is interposed, an air suction part is provided in the middle of the forced bath water pipe (C-2), and It is constructed so that bubbles are generated at the same time as the bath water is ejected from the nozzle (25) which is swingably attached to the inner opening, and the bath water forced-feeding pipe (
C-2) A bubble-generating bathtub equipped with a nozzle swinging means (26) that automatically swings the nozzle (25) using the fluid energy of the bath water forced through the bath.