KR102274670B1 - Showerhead - Google Patents

Abstract

A shower head that can be sprayed is provided by generating hot water containing many microbubbles by increasing the dissolved concentration of air. A gas-liquid dissolving unit 10 configured to agitate the hot water to increase the dissolved concentration of air, and a fine bubble generating unit 20 configured to generate fine bubbles using the hot water stirred by the gas-liquid dissolving unit as a swirling flow, the shower head body (2) by the built-in shower head (1). Since this shower head has a built-in gas-liquid dissolving unit, it is possible to increase the dissolved concentration of air in the hot water without installing a separate dissolution tank. can do.

Description

shower head {SHOWERHEAD}

The present invention relates to a shower head that sprays hot water including fine bubbles.

Conventionally, a shower head having a function of generating fine bubbles for spraying hot water containing fine bubbles has been disclosed (for example, refer to Patent Document 1). The shower head of Patent Document 1 has a built-in micro-bubble generating mechanism, so that hot water containing micro-bubbles can be directly sprayed onto the skin from the spray hole, effectively removing contamination of the skin.

Japanese Patent Laid-Open No. 2016-220909

However, in the shower head, since the dissolved concentration of air is low, many microbubbles are not generated and a desired effect cannot be obtained.

The present invention has been made in view of the above problem, and an object of the present invention is to provide a shower head that can be sprayed by increasing the concentration of dissolved air and generating hot water containing many microbubbles.

The above object is to have a gas-liquid dissolving unit configured to increase the dissolved concentration of air by stirring the hot water, and a fine bubble generating unit configured to generate fine bubbles by using the hot water stirred by the gas-liquid dissolving unit as a swirling flow in the shower head body. It can be solved by a shower head.

On the other hand, the shower head body consists of a grip part having an inlet hole for hot water supplied from the mixing stopper at one end, and a tip part having a spray plate connected to the grip part for spraying hot water, and the gas-liquid dissolving part is the grip part. It consists of a dissolution chamber formed inside, and a stirring member disposed in the center of the dissolution chamber and extending in the longitudinal direction, and the stirring member of the gas-liquid dissolving unit forms a tubular shape having a bottom portion and an introduction flow path formed therein at the tip end, and the tip is arranged to face the introduction hole at a predetermined distance, so that the hot water supplied from the introduction hole flows into the space formed by the outer peripheral surface of the stirring member and the inner peripheral surface of the dissolution chamber to stir in this space, and the outer peripheral surface has It is preferable that a through hole for communicating the dissolution chamber and the introduction flow passage is perforated, and the introduction flow passage communicates with the microbubble generating unit.

On the other hand, the stirring member of the gas-liquid dissolving part is preferably formed in an umbrella shape with an outer shape of the tip.

According to the shower head of the present invention, since both the gas-liquid dissolving unit and the microbubble generating unit are built in the shower head body, the concentration of dissolved air in the hot water is increased without installing a dissolution tank separately from the shower head. By generating the microbubbles, it is possible to provide a shower head capable of spraying hot water including many microbubbles.

1 is an external view of a shower head according to the present invention.
2 is a longitudinal cross-sectional view of a shower head according to the present invention.
3 is a perspective view of a microbubble generating unit of the shower head according to the present invention viewed from an upstream side.
4 is a perspective view viewed from a downstream side of the microbubble generating unit of the shower head according to the present invention.
5 is a partially enlarged longitudinal cross-sectional view of a shower head according to the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described based on drawing. In FIG. 1 , reference numeral 1 denotes a shower head, and a gripper 3 for introducing hot water supplied from a mixing stopper (not shown), and a gripper 3 formed at the tip of the gripper 3 to be attached to the gripper 3 . The shower head main body 2 is constituted by the head 4 which sprays the introduced hot water. A hose (not shown) extending from the mixing stopper is connected to an end of the gripping portion 3, and a hot water introduction hole 3a is formed at this end. The head 4 is provided with a watering plate 4a in which a plurality of watering holes 4b are perforated in its entire surface, and is configured to spray hot water from the watering holes 4b. In addition, in FIGS. 2-5, the arrow of the double-dotted chain line shows the direction in which hot water flows.

As shown in FIG. 2 , in the shower head body 2 , a gas-liquid dissolving unit 10 configured to increase the dissolved concentration of air by stirring hot water, and hot water stirred by the gas-liquid dissolving unit 10 as a swirling flow A microbubble generator 20 configured to generate microbubbles is built-in.

The gas-liquid dissolving unit 10 is built in the holding unit 3, the dissolving chamber 11 formed inside the holding unit 3, and a stirring member disposed in the center in the dissolving chamber 11 and extending in the longitudinal direction It is composed of (12).

The stirring member 12 of the gas-liquid dissolving unit 10 has a bottomed tubular shape having a bottom portion 12b at a tip portion 12a, and an introduction passage 12c is formed therein.

The stirring member 12 has a distal end 12a facing the introduction hole 3a with a predetermined distance therebetween, and is formed by the outer circumferential surface of the stirring member 12 and the inner circumferential surface of the dissolution chamber 11 in the stirring chamber ( 13) is formed. For this reason, the hot water supplied from the introduction hole 3a flows toward the outer side of the front-end|tip part 12a, and flows into the stirring chamber 13. As shown in FIG. The hot water flowing into the stirring chamber 13 is stirred like an arrow indicated by a double-dotted line, and becomes a gas-liquid mixture in which the dissolved concentration of air is increased.

On the other hand, it is preferable that the tip portion 12a of the stirring member 12 is formed in an umbrella shape. This is to set the volume of the stirring chamber 13 wide while narrowing the inlet to the stirring chamber 13. By doing this, the flow rate of the hot water flowing into the stirring chamber 13 is increased to increase the stirring efficiency. there is

In addition, through holes 12d are perforated in two places on the outer peripheral surface of the stirring member 12 to communicate the stirring chamber 13 and the introduction flow path 12c. For this reason, the hot water stirred by the stirring chamber 13 passes through the through hole 12d and flows into the introduction passage 12c.

The micro-bubble generating unit 20 is built in the head unit 4 of the shower head body 2, is molded inside the head unit 4, and turns to communicate with the introduction passage 12c of the stirring member 12. It is comprised by the chamber 21 and the swirl flow generation|occurrence|production part 22 arrange|positioned in the center of this swirl chamber 21 and generate|occur|produces a swirl flow.

As shown in FIG. 3 , the swirl flow generating unit 22 has a substantially triangular pyramid shape, and the inner shape of the swirl chamber 21 is also molded to conform to the outer shape. The swirl flow generating unit 22 has an outer peripheral surface disposed toward the upstream side, and a plurality of upstream swing blades 22a are integrally formed on the outer peripheral surface.

Moreover, as shown in FIG. 4, the swirl flow generation part 22 has the several downstream swing blade|wing 22b integrally molded to the bottom surface, and hot water turns by these swing blades 22a, 22b. It becomes a swirling flow shown by the arrow of a double-dotted line within the thread 21.

As shown in FIG. 5 , a lead-out flow path 23 communicates with the exit of the revolving chamber 21 , and a plurality of slits 24 branch off from the lead-out flow path 23 . Since these slits 24 are reduced in diameter, the flow rate of hot water (gas-liquid mixture) increases when passing through the slits 24, and microbubbles are generated in the hot water by shearing force. In addition, the punching metal 25 is surrounded by the exit of the slit 24 to further subdivide fine bubbles contained in the hot water that has passed through the slit 24 . And, as shown in FIG. 1, hot water containing microbubbles is sprayed to the outside from the watering hole 4b of the watering|sprinkling plate 4a.

On the other hand, the circulation pipe 26 may be built in the lead-out flow path 23 . This circulation pipe 26 is provided with through-holes 26a and 26b at the upper and lower sides, and hot water in the lead-out flow path 23 is introduced from the downstream side through-holes 26a to the inside, and through the upstream side through-holes 26b. it will emit In this way, the circulation pipe is configured to increase the dissolved concentration of the gas by circulating the hot water in the lead-out flow path 23 .

According to the shower head 1, since the gas-liquid dissolving unit 10 is built-in, the concentration of dissolved air in the hot water is increased even if a dissolution tank is not provided separately from the shower head. And it becomes possible to produce|generate many microbubbles by producing|generating microbubble with the hot water which the dissolved concentration of air became high.

Further, since the gas-liquid dissolving unit 10 is configured to stir the hot water around the stirring member 12, that is, it is configured to stir the hot water from the outside in the inside of the holding unit 3, the shower head 1 ), even when the stirring chamber 13 is not filled with hot water, hot water is stored in the stirring chamber 13, so the stirring efficiency is not reduced. In addition, the through hole 12d of the stirring member 12 is formed at a position to become a side surface with respect to the spray plate 4a. For this reason, when the shower head 1 is tilted so that the water spray plate 4a faces downward, even when the inside of the stirring chamber 13 is not filled with hot water, from the stirring chamber 13 to the introduction passage 12c Since hot and cold water can be supplied, spraying does not stop.

In addition, the specific structure of each part of this invention is not limited to the above-mentioned embodiment, A various deformation|transformation is possible in the range which does not deviate from the meaning of this invention.

1 shower head
2 shower head body
3 grip part
3a introduction hole
4 head
4a sprinkler plate
4b watering hole
10 Gas-liquid dissolving part
11 melting chamber
12 Stirring member
12a tip
12b bottom
12c introduction euro
12d through hole
13 stirring chamber
20 microbubble generator
21 turning room
22 swirl flow generator
22a upstream side slewing wing
22b downstream side slewing wing
23 derived euros
24 slits
25 punched metal
26 circulation pipe
26a Downstream Through Hole
26b Upstream side through hole

Claims (3)

A gas-liquid dissolving unit configured to agitate the hot water to increase the dissolved concentration of air, and a fine bubble generating unit configured to generate fine bubbles by using the hot water stirred by the gas-liquid dissolving unit as a swirling flow is built into the shower head body,
The shower head body consists of a holding part having an introduction hole for hot water supplied from the mixing stopper at one end, and a head part having a spray plate connected to the holding part for spraying hot water, and the gas-liquid dissolving part is located inside the holding part. It consists of a dissolving chamber formed, and a stirring member disposed in the center of the dissolution chamber and extending in the longitudinal direction,
The stirring member of the gas-liquid dissolving unit forms a bottomed tubular shape with a bottom portion and an introduction flow path formed therein at the tip portion, and is disposed so that the tip portion faces the introduction hole at a predetermined distance, so that the hot water supplied from the introduction hole is mixed with the stirring member It flows into the space formed by the outer circumferential surface of and the inner circumferential surface of the dissolution chamber and is configured to stir in this space, and a through hole for communicating the dissolution chamber and the introduction flow path is perforated on the outer circumferential surface, and the introduction flow path communicates with the microbubble generating unit, Shower head, characterized in that there is. delete The method of claim 1,
A shower head, characterized in that the outer shape of the distal end of the stirring member of the gas-liquid dissolving unit is formed in an umbrella shape.

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