JPH0349469B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a steam generation method in a steam injection machine for spraying steam onto the face for hairdressing or beauty treatments.

[Conventional technology]

In general, steam at a suitable temperature promotes sweating and blood circulation on the skin due to its temperature effect and moisturizing effect.
It is known to moisturize the skin, remove dirt from pores, and smooth the skin.

For this reason, in cosmetics, it is mainly sprayed directly on the face or other skin, and in hairdressing, it is sprayed directly on the face and used for shaving. However, this steam injection machine consists of a steam generator equipped with an electric heating element (heater) as a heating means and a nozzle protruding from the steam generator, and the steam generated by the heater of the steam generator is passed through a steam outlet pipe to the nozzle. Steam at a temperature of around 90 degrees Celsius is ejected, and this is sprayed towards the face from a distance of 20 to 40 cm.

[Problem to be solved by the invention]

The steam injected from the nozzle via this steam outlet pipe may sometimes contain hot water beads, and the
There is a risk of burns if a 90℃ hot water ball hits your face directly. Foaming is one of the causes of the formation of hot water beads in this water vapor. This is a phenomenon in which water is bubbled due to organic substances contained in water poured into a steam generator equipped with an electric heater. In addition, if this water injection is pure, the above-mentioned foaming phenomenon will not occur, but when tap water is used repeatedly, the concentration of impurities contained in the water in the tank increases and bubbles appear on the water surface of the generator. However, this often increases and a forming phenomenon occurs that spreads throughout the interior of the vessel. This bubble vapor may pass through the steam outlet pipe and be ejected from the nozzle. This phenomenon is called carryover.

Furthermore, since water is directly heated with a heater to generate steam, a large amount of thermal energy is required, and it takes time to heat the water and generate steam. For this reason, a method has been proposed in which the steam generator is always heated above a certain temperature so that steam is generated in a relatively short time when the heater starts heating and can be used, but there is no way to eliminate the loss of thermal energy. I can't.

In the present invention, instead of generating steam using an electric heater, it is an object of the present invention to turn water into fine particles by vibration, and then heat the fine particles with a heater to generate steam.

[Means to solve the problem]

The present invention was made to achieve the above-mentioned object, and consists of making water into fine particles using vibrations such as ultrasonic waves installed in a tank that is connected to the atmosphere and can be supplied with water.
This is collected in an inner cylinder installed in the tank, temporarily stored in the upper chamber of the tank, and guided into a horizontally long steam outlet pipe connected to this upper chamber via a discharge pipe. When the fine particles are sent out toward the nozzle side by a blower installed at the base end of the steam outlet pipe, they are heated by a far-infrared heater installed in the steam outlet pipe to turn them into steam, which is then blown by the blower. The gist is that the liquid is sprayed from a nozzle at

[Effect]

Water is made into fine particles using ultrasonic waves, collected in a tank, temporarily stored, and then sent through a long steam delivery pipe connected to the tank towards a nozzle using a blower. Since it is heated by a heater and evaporated, steam is immediately generated at the switch, the formation of hot water balls is prevented, and there is no loss of thermal energy, making it an economical and safe steam generation method.

〔Example〕

Next, the steam generation method in the steam injector of the present invention will be explained in detail based on the illustrated embodiment.

The drawing is a schematic view showing an embodiment of the method of the present invention, and 1 is a tank, and water can be supplied from the bottom of the tank or from any arbitrary position through a water supply pipe 11. One or more holes 12 are bored in the upper part of the outer periphery of the tank 1 or in a position where the water inside the tank does not flow out, thereby communicating the inside of the tank with the atmosphere and making the inside of the tank under atmospheric pressure.

A vibrator, such as an ultrasonic generator (hereinafter referred to as a vibrator) 2, is provided at the bottom of the tank 1, and the water in the tank is vibrated with a predetermined frequency vibration of this vibrator. As a result, the water in the tank is turned into fine particles by ultrasonic vibration without being vaporized by heating. The fine particles of water are collected and sent to the next process. In order to effectively collect and send out fine water particles, an inner cylinder 13 is provided inside the tank in the form of a cylinder with a bottom, that is, a cup-shaped cylinder.The inner cylinder 13 is inserted into the tank upside down, and a hole 4 is formed in the upper part. A partition plate 15 is provided between the outer periphery of the inner cylinder and the inner periphery of the tank, and the inner cylinder 13 is fixed within the tank by this partition plate. As a result, fine particles of water generated by the action of the vibrator are collected in the inner cylinder 13, gasified, and ascended, but are led to the upper chamber 1R of the tank through the hole 14. This upper chamber 1R is a space sealed by the ceiling of the tank 1 and a partition plate, and the fine particles of water introduced through the hole 14 are temporarily stored in this upper chamber 1R. Note that a hole 12 bored in the tank and communicating with the atmosphere is located at a lower position than this partition plate 15.

When the amount of water in the tank decreases due to fine particles generated in the tank, water is supplied through the water supply pipe 11. This determines the water level and controls the water supply so that the set water level is always maintained.

A delivery pipe 16 is provided protruding from the upper chamber 1R of the tank.
A steam outlet pipe 3 containing a far-infrared heater 4 is connected to the upper end of the delivery pipe 16 .

When the fine particles of water sent out from the upper chamber of the tank are guided into the steam outlet pipe 3, they are heated by the far-infrared heater 4 in the pipe and become steam. Furthermore, since a blower 5 is connected to the base end side of this steam outlet pipe 3, when air is blown into the pipe at a predetermined speed, the steam heated by the far-infrared heater mentioned above is discharged by this blower. It is sprayed from a nozzle 6 provided at the tip of the tube 3.

Further, by making the blower 5 variable speed, the steam injection speed can be made variable and the ultrasonic waves can be further controlled.

〔Effect of the invention〕

In the present invention, water is made into fine particles using ultrasonic waves in a tank that is connected to the atmosphere and can be supplied with water.The water is collected in the tank and temporarily stored, and then the long steam outlet pipe connected to the tank is connected to a blower. When it is sent out towards the nozzle, it is heated by a far infrared heater installed in the tube and vaporized, so steam is generated and injected at the same time as the steam injector is used.
Moreover, it can be sprayed uniformly at a predetermined spray speed using a blower, and after being made into fine particles by ultrasonic waves, when passing through a long steam outlet pipe, it is heated by a far-infrared heater, so it is heated evenly. Moreover, there is no loss of heat energy, the generation of hot water beads can be prevented, and furthermore, the beauty effect of far infrared rays can be improved.

[Brief explanation of drawings]

The drawing shows an embodiment of the steam generation method in the steam injector of the present invention. 1 is a tank, 2 is a vibrator, 3 is a steam outlet pipe, 4
is a far-infrared heater, 5 is a blower, and 6 is a nozzle.

Claims (1)

[Claims] 1 Water is made into fine particles using vibrations such as ultrasonic waves installed in a tank that is connected to the atmosphere and can be supplied with water.
This is collected in an inner cylinder installed in the tank, temporarily stored in the upper chamber of the tank, and guided into a horizontally long steam outlet pipe connected to this upper chamber via a discharge pipe. When the fine particles are sent out toward the nozzle side by a blower installed at the base end of the steam outlet pipe, they are heated by a far-infrared heater installed in the steam outlet pipe to turn them into steam, which is then blown by the blower. 1. A method for generating steam in a steam injector, characterized in that the steam is injected from a nozzle in a steam injector.