JP6367884B2 - Ozone generator - Google Patents

Description

  The present invention relates to an ozone generator, and particularly refers to an ozone generator that generates ozone by making a low conductive material conductive and adjoining an object to be operated, and an ozone generating method thereof.

  With regard to ozone, because of its extremely active nature, it has extremely strong oxidative power and can achieve effects such as sterilization, deodorization, detoxification, bleaching, and maintaining freshness. It is applied to hair and clothing.

For example, the action on the skin of the human body activates the epidermal cells of the skin, bleaches the skin, removes acne and buckwheat, contains cells with oxygen, promotes metabolism, and promptly removes aging skin. It can be replaced with new skin and gradually restore the normal functioning of the skin. Taking the action on clothes as an example, sterilization, disinfection, deodorization and decomposition can be decomposed, and bacteria, molds and viruses can be suppressed.

  However, all existing ozone generators adopt AC (alternating current) 110 / 220V power supply, convert them to high pressure, and pass ozone through neon gas glass tubes to generate ozone. Is inconvenient, the neon gas glass tube is apt to be damaged, and has a defect that it is inferior in safety, and is quickly released from people. Therefore, how to design the present invention that can remedy the above drawbacks is a problem that the inventor has sought to solve.

  The object of the present invention is to conduct low-conductivity material with direct current power, generate ozone adjacent to an object, have a small volume, easy to carry and have high safety. It is to provide an ozone generator and a method for generating ozone.

  In order to achieve the above object, an ozone generator provided by the present invention is applied to an object to be operated, and a housing in which a first opening is opened, is installed in the housing, and is disposed through the first opening. A first low conductive material exposed within the housing, electrically connected to and electrically connected to the first low conductive material, and the first low conductive material adjacent to the object to be exposed to ozone. Generating power supply assembly.

  According to the present invention, an ozone generation method is also provided, which includes a step of providing a first low-conductivity material, a step of providing a power supply assembly to boost the pressure, and a step of conducting the low-conductivity material. A step of providing power to the low-conductive material by conducting power to the low-conductive material and a step of making the low-conductive material adjacent to the object, wherein the low-conductive material after conduction generates static electricity adjacent to the material. Thus, the step of generating ozone by the static electricity acting on oxygen in the air is included.

  Compared to the background art, the present invention has the following advantages. That is, it is possible to generate ozone by adopting DC power to make the first low conductive material conductive, and by using the first low conductive material already conductive to make it adjacent to the object. Is small, easy to carry by hand, and highly safe.

It is a three-dimensional exploded view of the ozone generator in the present invention. It is a local enlarged view based on FIG. 1 in this invention. It is the combination schematic based on FIG. 2 in this invention. It is the combination schematic based on FIG. 1 in this invention. It is a circuit block diagram of the ozone generator in this invention. It is a flowchart of the ozone generation method in this invention.

  The detailed description and technical contents of the present invention will be described below with reference to the drawings. However, the attached drawings are only for reference and description, and do not limit the present invention.

  In the present invention, an ozone generator and an ozone generation method thereof are provided. Due to the extremely active nature of ozone, it has extremely strong oxidizing power, such as sterilization, deodorization, detoxification, bleaching, and freshness maintenance. Since the effect can be achieved, it is applied to an object such as human skin, human hair or clothing.

  As shown in FIGS. 1 to 4, the ozone generator of the present invention is applied to the above-mentioned object (not shown in the figure) and includes a housing 1, a power supply assembly 2, and a first low conductive material 4. The housing 1 can be an integral type (not shown in the figure), or a combination type as shown in the figure. In this embodiment, the combination type will be described as an example.

  The housing 1 includes a first lid 11, a second lid 12 and a carrier 13. A first opening 111 is opened in the first lid 11, a second opening 121 is opened in the second lid 12, and a fourth opening 132 and a fifth opening 133 are opened in the carrier 13. The carrier 13 is used to place an object, and the first and second lid bodies 11 and 12 are combined with each other so as to cover the two opposite sides of the carrier 13 and form a complete housing 1. .

  The first low conductive material 4 (which can be a ceramic sheet or a glass sheet, which will be described as an example below) is installed in the housing 1 corresponding to the position of the first opening 111, and It exposes through the 1st opening 111 so that it may adjoin to a to-be-acted object (the adjacent pointed out here contains an approach or a contact).

Specifically, as shown in FIGS. 2 and 3, a hole is formed in the carrier 13 (see FIG. 1, part number not shown), and a first base corresponding to this hole is formed. 134 is installed and communicated (see FIG. 2), the first base 134 has a first recessed chamber 1341, and the first low conductive material 4 is installed and positioned in the first recessed chamber 1341. The first low conductive material 4 is exposed at the first opening 111 through the hole.

  The power feeding assembly 2 is installed in the housing 1 and is electrically connected to the first low conductive material 4 to make the first low conductive material 4 conductive. Since the ceramic sheet belongs to a low conductive material, the first low conductive material 4 cannot be conducted unless the power supply assembly 2 is at a high voltage, and in this embodiment, the pressure is increased to 5900 to 10000V. An explanation will be given as an example. Preferably, it is 6000 V, and the thickness of the first low conductive material 4 at that time must be controlled to 0.9 mm or less. It is preferably controlled to 0.3 mm.

  The ozone generator of the present invention preferably further includes a circuit board 3, and the power supply assembly 2 can be connected to a commercial power source using a power line, and a battery can be used. You can also. In the present embodiment, description will be made by taking as an example one including the rechargeable battery 21 and the high voltage module 22.

  The circuit board 3 is installed on the carrier 13, the rechargeable battery 21 is electrically connected to the circuit board 3, and the high voltage module 22 is electrically connected between the circuit board 3 and the first low conductive material 4 for charging. The direct current power of the battery 21 is boosted via the high voltage module 22 and the first low conductive material 4 is further conducted.

  As shown in FIG. 4, therefore, the user simply controls the power supply assembly 2 to supply power and the first low conductive material 4 is conducted, so that the first low conductive material 4 is adjacent to the object ( The term “adjacent” indicates that it can generate static electricity by approaching or contacting), and at the same time, the static electricity acts with oxygen in the nearby air to generate ozone, which is the first low conductivity. Can act on an object in the vicinity of the material 4 (for example, activates human skin epidermis cells, activates human hair cells, or disinfects clothes, disinfects, deodorizes and degrades clothes. …Such).

  Among them, the USB connector 31 (corresponding to the fourth opening 132), the manual power supply switch 32 (corresponding to the fifth opening 133), and at least one light emitting element 33 are electrically disposed on the circuit board 3. When a USB transmission line is connected to a power supply (for example, a USB socket of each electronic device) via a USB connector 31 (which can be, but is not limited to, a Micro USB connector), a rechargeable battery 21 (with a lithium battery) Can be charged, but not limited to).

The manual power supply switch 32 can be used to manually switch the power supply assembly 2 on (ON) or off (OFF). The light emitting element 33 can display the state of the rechargeable battery 21 via the housing 1, for example, the charging state, the fully charged state, the low electricity amount state, etc.

  In addition, the ozone generator of the present invention has the second low conductive material 5 (which can also be a ceramic sheet or a glass sheet, and the high voltage module 22 is interposed between the circuit board 3 and the second low conductive material 5. The first and second low conductive materials 4 and 5 can be freely selected and used. The area of the second low conductive material 5 is smaller than that of the first low conductive material 4 so as to be used for a small area portion of the object to be worked.

As shown in FIGS. 1 to 3, the carrier 13 is further provided with a third opening 131 (see FIG. 1), and the carrier 13 is provided with a second base 135 corresponding to the third opening 131. The second base 135 has a second recessed chamber 1351, and the second low conductive material 5 is installed and positioned in the second recessed chamber 1351, The second low conductive material 5 is exposed through the third opening 131.

  In order to stably position the first and second low conductive materials 4 and 5, the ozone generator of the present invention preferably further includes a pressure contact structure 6.

  As shown in FIGS. 2 and 3, the pressure contact structure 6 includes a pressing plate 61, two extending arms 63 extending from one end of the pressing plate 61 toward a direction away from the end, and two And two pressing blocks 62 connected to the extending arm 63. A plurality of perforations 611 are formed in the pressing plate 61, and the first low conductive material 4 can be positioned in pressure contact with the first recessed chamber 1341, and the two pressing blocks 62 include the second low conductive material. 5 is positioned in pressure contact with the second recessed chamber 1351.

  In order to display the state of the rechargeable battery 21 on the housing 1, the ozone generator of the present invention preferably further includes a light guide material 7. The light guide member 7 extends between the second opening 121 and the light emitting element 33 so that the light of the light emitting element 33 can emit light through the second opening 121 of the second lid 12 by the guide of the light guide member 7. Is done.

  In the circuit block diagram of the present invention shown in FIG. 5, at the time of charging, the rechargeable battery is charged through the charge protection circuit. In use, if the manual power supply switch is controlled to be turned on, the DC power of the charging battery can be transmitted to the step-up / step-down circuit and the booster circuit, respectively, and the step-up / step-down circuit boosts and steps down the voltage of the charging battery, Stable power supply can be provided to the control circuit, and the booster circuit first boosts the voltage of the rechargeable battery to DC (direct current) 16-22V and then provides it to the low conductive material (ceramic sheet or glass sheet) via the high voltage circuit. To do.

As a result, the high voltage is isolated through the pores of the low conductive material, so that the low conductive material is adjacent (including approach or contact) to the subject under safe conditions. Can maintain a distance of 1 to 2 mm) to generate an electrostatic effect, and sparks are scattered between the pores of the low-conductivity material and the object to be operated, and oxygen in the vicinity of the object is ionized. Then, ozone gas is generated.

  Further, the isolation circuit in FIG. 5 is used to isolate the control circuit and the high-voltage circuit and to prevent malfunction of the control circuit. About a high voltage circuit, it is used in order to control the low voltage of a voltage booster circuit to the high voltage of 5900-10000V effectively.

  In addition, when the USB connector is inserted, the control circuit automatically switches to the charging state to stop the operation of the ozone generator, and when the USB connector is pulled out, the ozone generator enters the standby state. It can be started and operated at any time.

  FIG. 6 shows an ozone generation method of the ozone generator according to the present invention, the step of providing the first low-conductivity material (S601) and the step of providing the power supply assembly 2 to increase the pressure (S603). And a step of conducting the low conductive material (S605), the step of providing the electric power of the power feeding assembly 2 after boosting to the low conductive material, and the step of making the low conductive material conductive, and the step of adjoining the object (S607), and the step of generating ozone by the action of the low-conductivity material after continuity, by generating static electricity adjacent to the object, and acting on oxygen in the air in the vicinity.

  Among them, in the step of boosting the power supply assembly, the voltage of the power supply assembly 2 is boosted to between 5900 and 10000 V, preferably 6000 V, and the thickness of the low conductive material at that time is controlled to 0.9 mm or less. It is necessary to control to 0.3 mm.

  In summary, the present invention has the following advantages over the background art. DC power is used to conduct a low-conductive material (for example, the first low-conductive material 4 and / or the second low-conductive material 5), and adjacent to an object using the low-conductive material that has already been conducted. Since the static electricity acts on oxygen in the air in the vicinity to generate ozone, the present invention has a small volume, is easy to carry and has high safety. In addition, it can be changed to adopting DC power, and can be supplied to a low conductive material using the rechargeable battery 21, and the volume is small, and it is easy to carry by hand. This is one of the causes.

  The present invention also has the following other advantages. That is, the voltage of the rechargeable battery 21 is increased to DC (direct current) 16 to 22 V by the high voltage module 22 and the first low conductive material 4 and / or the second low conductive material 5 are further conducted. A point in which the first low conductive material 4 and / or the second low conductive material 5 is positioned between the pressure contact structure 6 and the housing 1 by the pressure contact structure 6. Since the USB connector 31 can be charged via each type of electronic product or commercial power socket, it has the effect of being easily charged.

  The above description is only a preferred embodiment of the present invention, and does not limit the scope of the claims of the present invention. The description and drawings of the present invention were used in operation. It is also expressed that all equivalent structural changes are included in the claims of the present invention.

DESCRIPTION OF SYMBOLS 1 Housing 11 1st cover body 111 1st opening 12 2nd cover body 121 2nd opening 13 Carrier 131 3rd opening 132 4th opening 133 5th opening 134 1st base 1341 1st recessed chamber 135 2nd base 1351 2nd Recessed chamber 2 Power supply assembly 21 Rechargeable battery 22 High voltage module 3 Circuit board 31 USB connector 32 Manual power supply switch 33 Light emitting element 4 First low conductive material 5 Second low conductive material 6 Pressure contact structure 61 Press plate 611 Perforation 62 Press block 63 Extending arm 7 Light guide material

Claims (5)

An ozone generator to be applied to an object, and
A housing having a first opening;
A first low conductive material that is installed in the housing and exposed through the first opening;
The first low conductive material is installed in the housing corresponding to the position of the first opening and exposed through the first opening, and a hole is formed in the carrier included in the housing. In addition, a first base is installed and communicated with the hole, the first base has a first recessed chamber, and the first low conductive material is disposed in the first recessed chamber. Installed and positioned, the first low conductive material is exposed at the first opening through the hole,
A power supply assembly installed in the housing and electrically connected to and electrically connected to the first low conductive material, wherein the first low conductive material generates ozone adjacent to the object. Generator.   The ozone generator according to claim 1, wherein the first low conductive material is a ceramic sheet or a glass sheet.   The power supply assembly further includes a circuit board installed in the housing, the power supply assembly is electrically connected to the circuit board, and the power supply assembly includes a rechargeable battery and a high voltage module, and the rechargeable battery is connected to the circuit board. Electrically connected, the high-voltage module is electrically connected between the circuit board and the first low conductive material, and the power supplied by the rechargeable battery is boosted via the high-voltage module and the first The ozone generator according to claim 1, wherein the low conductive material is made conductive.   The power supply assembly further includes a second low-conductive material, and the power supply assembly is also electrically connected to the second low-conductive material to make it conductive, and a third opening is further opened in the housing, and the second low-conductive material is The ozone generator according to claim 1, wherein the ozone generator is installed in the housing and exposed through the third opening.   The pressure contact structure further includes a pressure contact structure, wherein the first low conductivity material and the second low conductivity material are positioned between the pressure contact structure and the housing. 2. The ozone generator according to claim 4, wherein the ozone generator is in pressure contact with the low conductive material.

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