KR20120037243A - Timber bathtub with nano micro air bubble producer - Google Patents

Abstract

PURPOSE: A wooden bath tub including a nano-micro bubble generator is provided to produce the bath tub using cypress timber panels eluting phytoncide for offering a skin disease treating effect. CONSTITUTION: A wooden bath tub including a nano-micro bubble generator includes an outer tank(10), an inner tank(20), and the bubble generator(30). The outer tank stores the inner tank for supporting. The inner tank is formed with a bottom surface and side walls(21) for forming a water storage space, and includes a drain, a switch unit(22a), a spray unit(21a), and an inlet port(21b). The switch unit is formed on one end of a cap(22) in a band shape. The bubble generator is installed in between the outer tank and the inner tank.

Description

Timber Bathtub with nano micro air bubble producer

The present invention is a wood bath made by coating a reinforcement plastic on the outside of the inner cylinder manufactured by assembling a cypress panel without using an integral metal material, reinforcing the durability of the inner cylinder, nano-bubble in the space formed between the inner cylinder and the outer cylinder It is suitable for use as a bathroom bath in an apartment with a built-in generator, and it is pleasant by eluting a large amount of Phytoncide with fresh fragrance and sterilization function in the tissue of cypress, with excellent cleaning effect by nanomicro bubbles. The present invention relates to a wooden bath with a nano-bubble generator, characterized in that it can take a bath and has an excellent effect on skin diseases such as atopic disease, eczema and the like.

Recently, apartments have contributed greatly to the living spaces where about half of the people live as the penetration rate increases for the purpose of efficient use of the narrow country, but it is made of cement material toxic and concrete harmful to the human body. Allergic diseases such as atopic dermatitis and allergic conjunctivitis are increasing due to wallpaper and floorboard, and the symptoms of allergic diseases are further exacerbated by outside air contaminated by soot.

Therefore, as a solution to the above problems, wallpaper materials, wallpaper, floorboards, ceiling materials, etc., which are chemical materials, have been replaced with eco-friendly materials, but especially home facilities, which are bath facilities to clean the human body. As for bathtubs, materials such as polypropylene, which is a chemical material that is harmful to the human body, are still used.

Bathing is the act of washing the body with water for the cleanliness of the human body. As a social practice, bathing has a long history. Since ancient times, Japanese cypress (Hinoki) has been used as a bathtub in the Japanese imperial family because of its high water resistance and endurance, good wood fragrance, and good efficacy in forest bathing and sterilization and skin care (exfoliation). In Japan, it is widely used in the residential bathroom and bathing industry. At present, hinoki hot spring is popular in hot spring facilities, hotel saunas and public bathing industry.

As the importance of the bath material is emphasized along with the well-being boom in recent years, various types of wood baths have been developed and patented, and as shown in FIG. 1 in Japanese Unexamined Patent Publication No. 6-154116, durability such as reinforced plastics and the like. Core material (1-4), a material having sufficient strength to withstand heat resistance and water pressure, an inner material (1-5, 1-6) and an outer material (1-2, 1-3), which are wood materials Wood composite bathtubs are known, but such a wooden tub may repeatedly generate a wet or dry phenomenon of the wooden panel when water is repeatedly introduced or spilled in the tub during long-term use, and the wooden panel may be stretched or distorted by this phenomenon. The gap occurs at the connection part and causes leakage, and unsanitary problems are caused by human beings or foreign substances between the gaps between the wood panels. It was.

In order to improve the above problems, the intermediate barrel (4) made of synthetic resin material between the wooden outer cylinder (2) and the inner cylinder (3) as shown in Figure 2 in the Korean Patent Publication No. 2009-11089 As a wooden tub, characterized in that, as shown in Figure 3 is formed with a metal strip (7) around the outer surface of the outer cylinder (2), the wooden cap (5) is to be seated on the tub upper end The metal piece 8 is fixed to the outer surface of the cap to be formed on the outer cylinder, and each piece of wood of the outer cylinder and the inner cylinder is formed with a binding protrusion on one surface and a binding groove is formed on the other surface so that each piece of wood is bound with the binding protrusion. The grooves are combined in a fitting manner so that each piece of wood in the outer cylinder is fixed with an adhesive or the like, and each piece of wood in the inner cylinder is bonded with an elastic material such as silicone or rubber. Wooden bath has been developed, characterized in that the made packing (6) is fitted, but the wooden bath having the structure as described above for a long time by using a metal piece of metal material, metal strips, binding member, etc. to fix the piece of wood At the time of use, rusted water or the like may penetrate into pieces of wood due to corrosion of metal, or there may be a phenomenon in which a gap is formed between the intermediate cylinder 4 and the attached outer cylinder 2.

On the other hand, whirlpool bathtubs are designed to impart functionality to the bathtub, while circulating the water in the bathtub while spouting high-pressure water and bubbles into the bathtub to hit the user's skin with water, thereby having a massage effect using water and a skin health effect. In the whirlpool baths, although the water in the line remains intact even after the tub water is completely drained through the tub drain, bacteria in the whirlpool nozzle and in the connected pipe and in the water accumulated in the pipe are maintained. When breeding, it decays, and when new water is restarted, foreign substances and germs are leaked out, and there are many hygienic problems as well as the bubbles are ejected by applying pressure to the water filled in the bathtub and water pressurizes the body. Only the effect can be expected, the body is cleaned of bubbles by air bubbles and sterilize the skin There were not properly represented as a problem.

In addition, a technique for applying a nanomicro bubble generator to a bath has been newly emerging as a method for providing more effective functionality than a whirlpool bath. Unlike the bubbles generated in a typical whirlpool bath, nano bubbles are micro bubbles having a size that the particle size cannot be seen with eyes of 50 μm or less, and the general nick bubbles generated in a whirlpool bath gradually rise from the water to the surface. In spite of being ruptured, the nano-micro bubbles have a characteristic that the size of the bubbles is reduced by the pressure in the water, and they generate and dissipate various energies.The nano-micro bubbles with these characteristics have the gas dissolution effect, the self-pressing effect, the charging effect, etc. It is applied to various fields such as fishing, agriculture, medical field, and sewage treatment field.

In particular, nano-micro air bubbles, while the normal contrast in is a foam bubble milky rise to a very slow speed fine bubbles and generating ultrasonic waves of 40Khz, and successively reduced from the number of bursts to extinction, hydroxy radical (OH ^-), etc. It is known to decompose various harmful substances and bacteria in the water as free radicals are generated. Bubbles activated by ultra-fine bubbles penetrate the pores in the skin and clean the pores, exfoliate, and atopy. It is known to be effective for skin diseases.

Therefore, technologies for applying nanomicro bubbles to bathtubs are being developed, and in Korean Laid-Open Patent Publication No. 2009-94413, oxygen is mixed with water and a high concentration of oxygen inside to form and discharge mixed water in which oxygen is mixed in a bubble form. Oxygen micro-nanomicro bubble mixing apparatus for supplying a mixture of water and micro-nano bubble state to the bathtub using a device for mixing water and water, and the domestic Patent Publication No. 2010-3828 shown in Figure 3 As described above, one side of the gas-liquid mixing tube 130 and the gas-liquid moving tube 150 which suck and mix air into the water sucked into the liquid suction unit 110 and the circulation pump 120 where the water filled in the bathtub B is sucked is formed. The microbubble generating unit 170 is connected to the pick-up bucket 160 and the pressure tank 140 is stored in the water is discharged to the bath to generate a microbubble in the microbubble generating unit 170 The microbubble generating device for a bath is known, but the microbubble generating device for the bath is very complicated in the configuration of the device when installed in the standardized bathtub provided in the apartment, the device is very complicated, such as in the bathtub of the apartment bathroom There was a problem that could not be applied.

Therefore, the present invention is to improve the problems as described above, unlike the conventional wood tub, by coating the reinforcement plastic on the outside of the inner cylinder manufactured by assembling the cypress panel without using an integral metal material, the durability of the inner cylinder The task of providing a wood bath with a nanomicro bubble generator, characterized in that the nano-bubble generator built in the space formed between the inner cylinder and the outer cylinder and standardized so as to be suitable for use as a bathroom bath in the apartment Shall be.

In other words, the conventional nano-micro bubble generator for a bathtub is a very complex structure is installed outside the bathtub, it is difficult to apply to the bathtub of the apartment bathroom, while the present invention is standardized by embedding the nano-micro bubble generator between the space of the inner cylinder and the outer cylinder It is designed to be compact and simplified the external structure of the bathtub.

In addition, the present invention, with the excellent cleaning action for the foreign matter accumulated in the human pores of the nano-bubble generated in the wood bath, in particular, while the bubble hits the cypress, fresh fragrance and sterilization function contained in the tissue of the cypress Another object of the present invention is to provide a wooden bath with a nano-bubble generator, characterized in that it is possible to take a pleasant bath by eluting a large amount of phytoncide and has an excellent effect on skin diseases such as atopic disease and eczema. .

Phytoncide is a aromatic compound that is contained in a large amount of cypress, which is a self-protecting substance that plants emit to protect themselves from the pathogens around them.It is a strong sterilizing agent that cleans the air in the forest and drinks the air. Phytoncide inhaled through air is well known as a substance that selectively kills bad bacteria in the human body.

In another aspect, the present invention provides a wood bath with a nano-bubble generator, characterized in that there is no risk of electric shock by using an air switch is a switch attached to the wood bath to generate nanomicro bubbles another problem Shall be.

The present invention is a wood bath with a nano-bubble generator is attached, the outer cylinder for receiving and supporting the inner cylinder therein; The bottom surface and the side wall are formed to accommodate water therein, and a band-shaped cap is coupled along the upper outer circumference of the side wall, and a drain hole is formed on the bottom surface, and a switch part is formed at one end of the band-shaped cap. An inner cylinder in which a spray hole is formed at one side wall and a suction hole is formed at the other side wall; And a nanomicro bubble generator installed between the inner cylinder and the outer cylinder and spraying the nanomicro bubbles into the inner cylinder and sucking and circulating water inside the inner cylinder. Wooden bath made of water is the means for solving the problem.

On the other hand, the inner cylinder and the outer cylinder, a plurality of panels made of wood are bonded to each other, it is preferable that the coupling groove is formed on one side of the panel and the coupling protrusion is formed on the other side.

At this time, the wood, as a cypress, it is preferable that the nano-micro bubbles that generate ultrasonic waves to impinge the phytoncide (Phytoncide) contained in the tissue of the cypress wood.

In addition, the inner cylinder is preferably coated with a reinforced plastic (Fiber Reinforced Plastic) on the outer surface.

On the other hand, the nano-micro bubble generator, the water storage unit for storing the water sucked in the inner cylinder; An oxygen generator for generating oxygen; A pump which is connected to the water storage unit and the oxygen generator, receives water from the water storage unit, and mixes it with oxygen generated from the oxygen generator to spray the bubbles into a bubble form; A chamber for storing the bubbles injected from the pump to maintain the injection pressure of the bubbles; And a micro nozzle unit connected to the chamber and micronizing the size of bubbles through micropores formed at one end thereof, wherein the water storage unit is connected to the inlet of the inner cylinder through an inlet hose, and the nozzle unit It is preferably connected to the injection port of the inner cylinder through the injection hose, the pump is preferably to be interlocked with the switch unit of the inner cylinder via the air tube.

In addition, the pump, it is preferable that the air pressure measuring sensor is provided at the contact with the air tube to detect the change in air pressure in the air tube, and to be on (ON) / off (OFF) correspondingly.

In addition, the outer cylinder is preferably formed with a door portion for opening or closing the inside of the outer cylinder.

The present invention according to the above problem solving means has excellent cleaning action for foreign matters accumulated in the human pores of the nano-bubble generated in the wood bath, and in particular, the bubble hits the cypress, which is contained in a large amount of the cypress's tissue. A fresh bath and a sterilizing phytoncide can be used to elute a large amount of comfortable baths, and are effective in skin diseases such as atopic diseases, eczema, etc., and switches attached to wood baths to generate nanomicro bubbles. By using an air switch, there is no risk of electric shock, and in particular, a reinforced plastic is coated on the outside of an inner cylinder manufactured by assembling a cypress panel without using an integral metal material with a conventional wooden bath to enhance durability of the inner cylinder. In the space formed between the inner cylinder and the outer cylinder. It is expected to greatly increase the demand as it is suitable for use as a bath tub of an apartment by being standardized by being built in.

1 is a view showing a cut surface of a conventional wood bath,
Figure 2 is a view showing a cut surface of another conventional wooden bath,
Figure 3 is an enlarged view showing the cut surface of the wood bath of Figure 2,
4 is a view showing the overall configuration of a conventional micro-bubble generator for the bathtub,
5 is a perspective view of a wooden bath with a nano-bubble generator in accordance with the present invention
Figure 6 is an exploded perspective view of a wooden bath according to the present invention
7 is a plan view of a wooden bath according to the present invention
8 is a cross-sectional view of the wood tub according to the invention
9 is a perspective view showing the structure of a wooden panel according to the present invention
10 is a cross-sectional view showing the internal structure of the nanomicro bubble generator according to the present invention
11 is a perspective view of a micro nozzle unit according to the present invention
12 is a real photograph showing a state in which nano-bubble is sprayed in accordance with the present invention
13 and 14 is a real picture showing a state filled with a nano-micro bubble according to the present invention

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 5 to 11, and the same reference numerals are used for components which perform the same function in FIGS. 5 to 11. On the other hand, in each drawing and detailed description showing and referring to the configuration and operation that can be easily understood by those skilled in the art of general wood processing and bubble generator manufacturing, it is simplified or omitted, in particular, the size between the elements in the drawings Although the ratio is somewhat different or there is a portion where the size between the components coupled to each other is expressed, the representation difference in these drawings are easily understood by those skilled in the art will not be described separately.

5 is a perspective view of a wooden bath with a nano-bubble generator according to the present invention, Figure 6 is an exploded perspective view of a wooden bath according to the present invention, Figure 7 is a plan view of a wooden bath according to the present invention, Figure 8 is 9 is a cross-sectional view showing the structure of the wood panel according to the present invention, Figure 9 is a perspective view showing the structure of the wood panel according to the present invention, Figure 10 is a cross-sectional view showing the internal structure of the nanomicro bubble generator according to the present invention, Figure 11 is the present invention As a perspective view of the micro nozzle unit according to the present invention, as shown in FIG. 6, the outer cylinder 10, the inner cylinder 20, and the nanomicro bubble generator 30 are configured.

The outer cylinder 10 accommodates and supports the inner cylinder 20 and the nanomicro bubble generator 30 therein, and closes the entire wood tub side.

In addition, one end of the outer surface of the outer cylinder 10, as shown in Figure 6, the door portion (11, 11 ') is formed to open or close the interior of the outer cylinder 10, the outer cylinder 10 Easy maintenance and replacement of the nano-micro bubble generator 30 accommodated therein.

On the other hand, the outer cylinder 10 is made of a plurality of panels (P) made of cypresses are bonded to each other, the effect of the cypress and the structure of the panel will be described later.

The inner cylinder 20, as shown in Figure 6 and 7, consisting of a bottom surface and side walls 21 made of cypress wood is formed a space for receiving water therein, the side wall 21 A belt-shaped cap 22 is coupled along the upper outer circumferential surface.

Here, the inner cylinder 20, like the outer cylinder 10, is made of a plurality of panels (P) made of cypress, mutually bonded, as shown in Figure 9, the coupling groove (P2) is formed on one side and the other side A plurality of panels (P) having a coupling protrusion (P1) is inserted into each other to form an appearance.

On the other hand, the cypress elutes phytoncide contained in the tissue of the cypress upon collision with the nanomicro bubbles (B) that generate ultrasonic waves, which creates a fresh fragrance to allow a comfortable bath. By having a sterilizing function, there is an excellent effect on skin diseases such as atopic diseases, eczema.

In addition, as shown in FIG. 7, the inner cylinder has a drain hole 21c formed at the bottom surface, a switch portion 22a formed at one end of the belt-shaped cap 22, and a spray hole formed at one side wall 21. 21a is formed and a suction port 21b is formed on the other side wall 21.

The injection hole 21a formed on one side wall 21 of the inner cylinder 20 serves as a passage for injecting the nano-micro bubbles B generated by the nanomicro bubble generator 30 to be described later, and on the other side wall 21. The formed suction port 21b is a passage for sucking water contained in the inner cylinder 20 through the pump 33 (see FIG. 10) included in the nanomicro bubble generator 30.

Thus, as shown in FIG. 8, the water in the inner cylinder 20 is circulated, thereby rapidly dispersing the nanomicro bubbles (B).

On the other hand, the switch unit 22a formed at one end of the strip-shaped cap 22 turns on / off the nanomicro bubble generator 30 to be described later, and there is a risk of electric shock accident according to the purpose of the bathtub. In consideration of the above, it is preferable to apply an air switch that operates in response to a change in air pressure. The interlocking relationship between the air switch and the nanomicro bubble generator 30 will be described later.

In addition, the outer surface of the side wall 21 of the inner cylinder 20, as shown in Figure 8, is coated with a reinforced plastic (Fi) Reinforced Plastic (F) is preferably to strengthen the durability of the inner cylinder 20 made of wood Do.

On the other hand, the coating of the reinforcement plastic can be applied by various coating methods, such as coating by hand, immersing in the liquid reinforcement plastic or spraying the liquid reinforcement plastic using a separate injection device.

As shown in FIGS. 6 to 8, the nanomicro bubble generator 30 is installed between the outer cylinder 10 and the inner cylinder 20 to inject the nanomicro bubbles B into the inner cylinder 20. And, by sucking the water in the inner cylinder 20 to circulate, as shown in Figure 10, the water storage unit 31, oxygen generator 32, pump 33, chamber 34 and the micro nozzle It is preferable to include a portion 35, but to simplify the external structure of the bathtub by manufacturing a standardized compact.

The nanomicro bubble generator 30 configured as described above, the pump 33 is connected to the water storage unit 31 and the oxygen generator 32 for storing the water sucked in the inner cylinder 20 or water supplied from the general domestic water channel. ) Is supplied with water from the water storage unit 31, mixed with oxygen generated from the oxygen generator 32 and sprayed in the form of bubbles.

In this case, the chamber 34 maintains the injection pressure of the bubbles by storing the bubbles injected from the pump 33, and maintains the pressure in the micro nozzle unit 35 connected to the chamber 34. Micro bubbles are supplied.

In this case, as shown in FIG. 11, the micro nozzle unit 35 micronizes the size of the bubbles through the micropores 35a formed at one end thereof.

That is, unlike the normal bubble by the micro-nozzle unit 35, milky fine nano-micro bubbles (B) are generated, while rising at a very slow rate, generates an ultrasonic wave of 40 kHz, continuously bursts and shrinks in the water. and destroyed, hydroxy radical (OH ^-), such as the free radicals are generated as pores to penetrate a number of hazardous materials or pores as well as the activated cell stained by the second micro-bubble skin to degrade the bacteria present in the water It cleans and exfoliates.

On the other hand, the water storage unit 31 is connected to the inlet 21b of the inner cylinder 20 through the inlet hose 31a, the micro nozzle unit 35 is the inner cylinder through the injection hose 35a Is connected to the injection port 21a of the 20, the pump 33 is interlocked with the switch unit 22a of the inner cylinder 20 via the air tube (33a).

In this case, the pump 33 is provided with a normal air pressure measuring sensor (not shown) at the contact with the air tube 33a to detect a change in air pressure in the air tube 33a, and correspondingly (ON) / OFF (OFF).

Therefore, when the user operates the switch unit 22a after filling the inner cylinder 20, the pump 33 is mixed with water and oxygen supplied from the water storage unit 31 and the oxygen generator 32 to form a bubble. And the micro-bubble portion 35 to micronize the bubbles, and then sprayed through the injection hose (35a) and the injection port (21a) of the inner cylinder (20).

At the same time, the pump 33 sucks the water in the inner cylinder 20 by the amount supplied from the water storage unit 31 and moves it to the water storage unit 31 through the suction port 21b and the suction hose 31a. .

In this case, as the injection port 21a and the suction port 21b are separately provided at both ends of the inner cylinder 20 as shown in FIG. 7, the water in the inner cylinder 20 is circulated as shown in FIG. 8, As a result, the nanomicro bubbles B injected through the injection holes 21a are more quickly dispersed in the inner cylinder 20.

Therefore, the present invention, due to the configuration and operation as described above, as shown in Figure 12 to 14, the nanomicro bubbles (B) injected into the inner cylinder 20, with excellent cleaning action for foreign matters accumulated in the human pores, in particular Bubbles collide with the cypress, eluting a large amount of fresh fragrance and phytoncide with sterilizing function in the cypress's tissue, so that you can take a pleasant bath and have an excellent effect on skin diseases such as atopic disease, eczema, etc. In addition, the switch portion 22a attached to the wooden bath tub to generate the nanomicro bubbles B has no risk of electric shock by using an air switch, and in particular, does not use an integral metal material with the conventional wooden bath tub. Coated reinforcement plastic (F) on the inner cylinder 20 manufactured by assembling the cypress panel (P) without, strengthening the durability of the inner cylinder 20, the inner cylinder ( The nanomicro bubble generator 30 is embedded in the space formed between the outer cylinder 10 and the outer cylinder 10 so as to be suitable for use as a bathroom bath in an apartment.

As described above, the wooden tub with a nano-micro bubble generator according to a preferred embodiment of the present invention is shown according to the above description and drawings, but this is only an example and is not limited to the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made therein.

10: outer cylinder 11: door part
20: inner cylinder 21: side wall
21a: injection port 21b: suction port
21c: drain 22: cap
22a: switch part 30: nano micro bubble generator
31: water storage unit 32: oxygen generator
33 pump 34 chamber
35 micro nozzle part 35a fine hole
B: nanomicro bubble P: panel
P1: Coupling projection P2: Coupling groove
F: Reinforced Plastic

Claims (7)

In a wood bath with a nano-micro bubble generator,
An outer cylinder accommodating and supporting the inner cylinder therein;
The bottom surface and the side wall are formed to accommodate water therein, and a band-shaped cap is coupled along the upper outer circumference of the side wall, and a drain hole is formed on the bottom surface, and a switch part is formed at one end of the band-shaped cap. An inner cylinder in which a spray hole is formed at one side wall and a suction hole is formed at the other side wall; And
It is installed between the inner cylinder and the outer cylinder, and spray the nano-micro bubbles into the inner cylinder, the nano-micro bubble generator for sucking and circulating the water inside the inner cylinder; attached to the nano-micro bubble generator comprising a Wood bathtub
The method of claim 1,
The inner cylinder and outer cylinder,
The panels made of wood are joined together.
One side of the panel is formed with a coupling groove is formed on the other side of the wood tub with a nano-micro bubble generator, characterized in that the coupling projection is formed
The method of claim 2,
The wood,
As a cypress tree, a nano-bubble generator with a nanomicro bubble generator characterized in that the ultrasonic micro-bubbles collide with the cypress and elute phytoncide contained in the tissue of the cypress.
The method of claim 1,
The inner cylinder,
Wood bathtub with nano micro bubble generator characterized in that the outer surface is coated with a reinforced plastic (Fiber Reinforced Plastic)
The method of claim 1,
The nano micro bubble generator,
A water storage unit storing water sucked in the inner container;
An oxygen generator for generating oxygen;
A pump which is connected to the water storage unit and the oxygen generator, receives water from the water storage unit, and mixes it with oxygen generated from the oxygen generator to spray the bubbles into a bubble form;
A chamber for storing the bubbles injected from the pump to maintain the injection pressure of the bubbles; And
And a micro nozzle unit connected to the chamber and configured to micronize the size of bubbles through micropores formed at one end thereof.
The water storage unit is connected to the suction port of the inner cylinder through the inlet hose,
The micro nozzle unit is connected to the injection port of the inner cylinder through the injection hose,
The pump is a wood bath with a nano-bubble generator, characterized in that the interlock with the switch unit of the inner cylinder via the air tube
6. The method of claim 5,
The pump,
An air pressure measuring sensor is provided at a contact point of the air tube to detect a change in air pressure in the air tube, and in response thereto, a wood bath having a nano-micro bubble generator attached thereto.
The method of claim 1,
The outer cylinder,
Nano micro bubble generator characterized in that the door portion for opening or closing the inside of the outer cylinder is formed

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