JP2006059534A - Static electricity neutralization device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a static electricity neutralization device which neutralizes the static electricity discharged from various kinds of equipment, which neutralizes positive ions and eliminates influences on a human body by using negative ions generated from a negative ion generator using ceramics formed especially by almandine. <P>SOLUTION: The static electricity is generated in a CRT display 2 used for a personal computer 1, and this static electricity is neutralized by supplying the negative ions to a duct 6 installed upward the CRT display 2 and by discharging the negative ions from long holes 6a to 6e formed in the duct 6. Especially, the negative ions to be supplied to the duct 6 are generated by the ceramics 10 formed by the almandine, the static electricity is neutralized by using the small type negative ion generator 7 and adverse effects on the human body is eliminated. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a static electricity neutralization device that neutralizes static electricity discharged from various devices and supplies negative ions into a room.

Today, display devices that emit static electricity and cations are widely used in information appliances such as personal computers and household appliances such as televisions. For example, a CRT display generates a positive ion state of +100 to 300 V within 1 m ² in use, and reaches +2,500 to 3500 V in a plasma system used particularly in a television or the like.

  Therefore, personal computer users and the like are working in the above environment, and it is expected from various literatures and clinical data that they will suffer various adverse effects. In the case of a television, it is viewed from a certain distance from the screen, but the cation spreads in the room itself, and an adverse effect on the human body is inevitable.

Patent Document 1 is an invention in which anion is generated from the tip of an electrode pin by corona discharge, and static electricity is gradually reduced by the ion, and the electrode pin is attached to a bar portion on the ceiling in the electrostatic slowing device. In this configuration, corona discharge is generated and static electricity in the apparatus is removed.
Japanese Patent Laid-Open No. 2001-217095

  However, the static electricity slow-down device configured as described above is for removing static electricity inside the device, and for example, static electricity released from the surface of a CRT display cannot be removed. It is also necessary to effectively remove static electricity generated from a CRT display or the like.

  Therefore, the present invention provides a static electricity neutralization device that emits negative ions generated by a negative ion generator on the surface of a CRT display or the like, neutralizes positive ions, and eliminates the influence on the human body.

  In order to achieve the above object, the present invention generates negative ions by applying a high voltage to a duct provided in the vicinity of the surface of a CRT display, with holes provided at predetermined intervals, and ceramic made of precious stone. This can be achieved by providing an electrostatic neutralization device comprising a negative ion generator and a guide member that guides the negative ions generated by the negative ion generator to the duct.

  With this configuration, static electricity generated in a CRT display used in a personal computer or the like can be neutralized effectively, and adverse effects on users such as personal computers can be avoided.

  In order to achieve the above-mentioned object, the present invention generates negative ions by applying a high voltage to a duct provided in the vicinity of a cathode ray tube display surface and having long holes at predetermined intervals, and ceramic made of precious stone. This can be achieved by providing an electrostatic neutralization device comprising a negative ion generator and a guide member that guides the negative ions generated by the negative ion generator to the duct.

With this configuration, static electricity generated in a cathode ray tube used in a television can be effectively neutralized, and the influence on the human body can be eliminated.
In order to achieve the above object, the present invention provides a negative ion generator that is provided in a doll and applies a high voltage to a ceramic made of precious stone to generate negative ions, and is generated by the negative ion generator. This can be achieved by providing a static electricity neutralizing device comprising a guide member that guides the negative ions to a predetermined portion of the doll and an output portion of the negative ions formed in the predetermined portion of the doll.

By comprising in this way, the environment of a negative ion good for health can be provided with respect to the child etc. which play with a doll.
In addition, in order to achieve the above object, the present invention generates negative ions by applying a high voltage to a duct provided in a hood of a desk lamp, provided with long holes at predetermined intervals, and ceramic made of precious stone. This can be achieved by providing an electrostatic neutralization device comprising a negative ion generator and a guide member that guides the negative ions generated by the negative ion generator to the duct.

By comprising in this way, not only the desk lamp vicinity but the whole room can be made into a negative ion environment, and a healthy living environment can be provided.
Further, in order to achieve the above object, the present invention generates negative ions by applying a high voltage to a duct provided in the vicinity of a static electricity generating portion and having holes provided at predetermined intervals, and ceramic made of precious stone. This can be achieved by providing an electrostatic neutralization device comprising a negative ion generator and a guide member that guides the negative ions generated by the negative ion generator to the duct.

  With this configuration, static electricity can be neutralized by negative ions for a device that generates static electricity, and the ion balance in the room can be maintained.

According to the present invention, a negative ion is generated using a ceramic made of Kiyoishi, and an efficient electrostatic neutralizer is provided.
Moreover, the indoor ion balance is maintained and a healthy indoor environment is easily provided.

Embodiments of the present invention will be described below with reference to the drawings.
(Embodiment 1)
FIG. 1 is a diagram for explaining the first embodiment and shows the appearance of a personal computer. The personal computer 1 includes a CRT display 2, a computer main body 3, and a keyboard 4. The computer main body 3 includes a CPU, a ROM, and a RAM, and the CPU is driven according to a program stored in the ROM.

  The computer main body 3 is provided with a media driver 5, and a program and data are acquired from the recording medium by mounting a recording medium such as a flexible disk or a CD-ROM on the media driver 5.

  The CRT display 2 is covered with a housing 2a, and the display surface 2b is attached to the housing 2a. A pipe-like elongated duct 6 is disposed at the position of the housing 2a 'above the display surface 2b, and negative ions to be described later flow through the duct 6. The duct 6 has long holes 6a to 6e formed at regular intervals, and negative ions are released from the long holes 6a to 6e.

On the other hand, a negative ion generator 7 is attached in the CRT display 2. FIG. 2 is a diagram showing an external configuration of the negative ion generator 7.
The negative ion generator 7 is attached to the above-described housing 2 a by fastening a screw (not shown) in a hole 8 provided on the side surface of the negative ion generator 7. A circuit board 9 is disposed in the negative ion generator 7, and a ceramic 10 that generates negative ions is attached to the circuit board 9. Also, a fan 11 is attached to one end of the negative ion generator 7 to create a wind flow in the direction of the arrow.

  On the other hand, an opening 12 is formed at the other end of the negative ion generator 7, and the wind flow flows through the ceramic 10 and is sent from the opening 12 to the duct 6. A guide 13 is disposed between the opening 12 of the negative ion generator 7 and the duct 6 (see FIG. 1), and the negative ions generated by the negative ion generator 7 are guided to the duct 6.

  In addition, a circuit for generating negative ions is formed on the circuit board 9 and the ceramic 10 is sandwiched between the electrodes (+, −). For example, a circuit for applying a DC voltage of 3000 V is incorporated between the electrodes. ing. The ceramic 10 for generating negative ions can be realized by using Kiyoishi, and can generate at least 1 million ions / cc (air) or more negative ions.

The circuit board 9 is configured to be supplied with electric power when the CRT display 2 is turned on. On the other hand, a battery may be built in and power may be supplied to the circuit board 9.
Therefore, by configuring as described above, when the user uses the personal computer 1, the power is automatically supplied to the circuit board 9 of the negative ion generator 7 at the same time when the CRT display 2 is turned on. A DC voltage of 3000 V is applied between the electrodes of the ceramic 10 composed of Kiyoishi. Therefore, negative ions are generated from the ceramic 10 as described above, and the negative ion generator 7 is filled with negative ions.

  At this time, the fan 11 is also driven, and an air flow is generated in the negative ion generator 7, and the negative ions generated in the negative ion generator 7 are sent to the duct 6 through the guide 13 through the opening 12. Further, the negative ions sent to the duct 6 are released downward from the long holes 6a to 6e formed in the duct 6, and as shown in FIG. 3, the negative ions are generated from above the display surface 2b of the CRT display 2. Flows downward. Static electricity is generated on the display surface 2b of the CRT display 2, and the negative ions flow in front of the display surface 2b, so that the static electricity generated on the CRT display 2 is efficiently neutralized.

  Therefore, the user who operates the personal computer can provide an excellent static electricity neutralizing device without being affected by static electricity generated on the CRT display 2. Further, since the apparatus of this example operates simultaneously with the power supply to the CRT display 2, negative ions are immediately generated, and the influence on the human body can be eliminated.

(Embodiment 2)
Next, Embodiment 2 of the present invention will be described.
In this example, the static electricity neutralization apparatus of the present invention is applied to a cathode ray tube television. This will be specifically described below.

  FIG. 4 is a diagram showing a configuration of a CRT television 15. A box-shaped panel 17 covers the outer periphery of the cathode ray tube 16, and a display surface 18 of the cathode ray tube 16 becomes a television screen. The cathode ray tube 16 is attached to a bracket 19.

  The panel 17 above the display surface 18 of the cathode ray tube 16 is provided with a pipe-like elongated duct 20 as in the first embodiment, and negative ions flow through the duct 20. The duct 20 has long holes 21a to 21e formed at regular intervals, and negative ions are released from the long holes 21a to 21e.

  A negative ion generator 22 is attached in the panel 17 as described above, and the negative ion generator 22 is attached to a hole 23 provided on the side surface of the panel 17 by fastening a screw (not shown).

  The circuit board provided in the negative ion generator 22 and the ceramic structure for generating negative ions are the same as those in the above-described embodiment, and a fan 24 is attached to one end of the negative ion generator 22 and the other end. Is provided with an opening 25, and a guide 26 is provided between the opening 25 of the negative ion generator 22 and the duct 20.

  Therefore, with the configuration described above, when the user turns on the TV, power is automatically supplied to the circuit board of the negative ion generator 22, and the ceramic electrodes made of precious stones are connected. A DC voltage of 3000 V is applied, and negative ions are generated from the ceramic as described above. Negative ions generated by the negative ion generator 7 are sent to the duct 20 through the guide 26.

  Further, the negative ions sent to the duct 20 are released from the long holes 21a to 21e formed in the duct 20, and the negative ions are released to the display surface 18 of the cathode ray tube 16, as shown in FIG.

  At this time, static electricity is generated on the display surface 18, and the negative ions flow through the front surface of the display surface 18, so that the static electricity is neutralized efficiently. Therefore, also in this example, it is possible to provide a static electricity neutralizing device that is excellent in health without causing adverse effects of static electricity on the user watching TV.

(Embodiment 3)
Next, a third embodiment of the present invention will be described.
In this example, the static electricity neutralizing apparatus of the present invention is applied to a doll. This will be specifically described below.

  FIG. 5 is a diagram showing the appearance of a doll used in this example. In the figure, a negative ion generator having the same structure as described above is attached to the inside of the doll 30. For example, a negative ion output unit 31 is provided on the stomach of the doll 30. The eyes 32 of the doll 30 are provided with LEDs, and power is supplied to the doll 30 via the power cord 33.

  With this configuration as well, power can be supplied to the doll 30, negative ions can be generated by the negative ion generator, and negative ions can be output from the output unit 31 formed on the stomach of the doll 30. Note that the negative ion output is not limited to the stomach, and may be configured to be discharged from other locations such as the mouth 34 of the doll 30.

Therefore, also in this example, negative ions are released from the doll 30 and, for example, a device excellent in health for children playing with the doll 30 or the like.
In addition, in this example, it can be set as the structure which displays the power-on state or the presence or absence of negative ion generation using LED arrange | positioned in the part of eyes 32. FIG. For example, a green LED is emitted to indicate that the doll 30 is powered on, and a red LED is emitted to indicate that the negative ion generator is being driven.

(Embodiment 4)
Next, a fourth embodiment of the present invention will be described.
In this example, the static electricity neutralization apparatus of the present invention is applied to a desk lamp. This will be specifically described below.

  FIG. 6 is an external view of a desk lamp used in this example. In the figure, a stand 40 includes a hood 41, a support 42, a pedestal 43, and a switch 44, and a pipe-like duct 45 is disposed on the periphery of the hood 41, and negative ions flow through the duct 45. Further, long holes 46a to 46e are formed in the duct 45 at regular intervals, and negative ions are released from the long holes 46a to 46e.

  Further, a negative ion generator is attached to the stand 40, and the negative ion generator is disposed at a position hidden by the hood 41. The configuration of the negative ion generator is the same as that of the above-described embodiment, and a circuit board is disposed therein, and negative ions are generated by applying a high voltage between the ceramic electrodes.

The negative ions are sent to the duct 45 through a guide (not shown), discharged from the long holes 46a to 46e formed in the duct 45, and the vicinity of the desk lamp 40 is filled with the negative ions.
By comprising in this way, the influence of static electricity can be eliminated with respect to the person who is indoors, and it can be set as the apparatus excellent in health.

(Other embodiments)
The present invention is not limited to the above embodiment, and the present invention can be applied to various devices. For example, the present invention can be applied to a microwave oven, a forehead, a humidifier, a stove, and the like, and can be an extremely effective electrostatic neutralizer.

  In addition, the present invention may be configured such that a duct is provided on the upper glass surface of the pachinko machine and negative ions are supplied. In this case, negative ions generated by a negative ion generator provided in the pachinko machine are sent to the duct through a guide (not shown), and released downward from a long hole formed in the duct, thereby the vicinity of the pachinko machine. Can be filled with negative ions. Further, by providing a static neutralization device having the same configuration on many pachinko machines, the entire store can be filled with negative ions in a pachinko store filled with cigarette smoke, and a more effective device can be obtained.

  Further, as shown in FIG. 7, the negative ion generators 51a and 51b having the above-described configuration are disposed inside the outside air or cold air outlet 50 provided in the panel portion in front of the driver's seat of the automobile, and are not shown. It is good also as a structure which discharge | releases a negative ion in the vehicle interior using the wind flow of the external air or cold air by a fan.

In this case, a configuration may be adopted in which a button (not shown) provided on the operation unit 52 is operated to control driving and non-driving of the negative ion generators 51a and 51b.
In the description of each of the above embodiments, a fan is attached to the negative ion generator. However, the fan is not necessarily required to be attached.

  Further, the negative ion emission portion is not necessarily limited to the upper side of the display surface, and may be a side portion or a lower portion of the display surface.

It is a figure which shows the structure of the static electricity neutralization apparatus with respect to the personal computer which uses a CRT display. It is a figure explaining the structure of a negative ion generator. It is a figure explaining the flow of a negative ion. It is a figure which shows the structure of the static electricity neutralization apparatus with respect to the television using a cathode ray tube. It is a figure which shows the structure of the static electricity neutralization apparatus which uses a doll. It is a figure which shows the structure of the static electricity neutralization apparatus applied to the desk lamp. It is a figure explaining the example which provided the negative ion generator in the panel part in front of the driver's seat of a motor vehicle.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Personal computer 2 CRT display 3 Computer main body 4 Keyboard 5 Media driver 6 Duct 6a-6e Long hole 7 Negative ion generator 8 Hole 9 Circuit board 10 Ceramic 11 Fan 12 Opening 13 Guide 15 Television 16 CRT 17 Box-shaped panel 18 Display surface 19 Bracket 20 Ducts 21a to 21e Long hole 22 Negative ion generator 23 Hole 24 Fan 25 Open 26 Guide 30 Doll 31 Output unit 32 Eye 33 Power cord 34 Port 40 Desk lamp 41 Hood 42 Post 43 Base 44 Switch 45 Duct 46a to 46e Long hole 50 Outside air or cold air outlet 51a, 51b Negative ion generator 52 Operation section

Claims (6)

A duct provided in the vicinity of the surface of the CRT display and provided with long holes at predetermined intervals;
A negative ion generator that generates negative ions by applying high voltage to ceramics made of Kiyoishi,
A guide member for guiding negative ions generated by the negative ion generator to the duct;
An electrostatic neutralization device comprising:   The electrostatic neutralization apparatus according to claim 1, wherein the CRT display is a display of a personal computer. A duct provided in the vicinity of the cathode ray tube display surface and provided with long holes at predetermined intervals;
A negative ion generator that generates negative ions by applying high voltage to ceramics made of Kiyoishi,
A guide member for guiding negative ions generated by the negative ion generator to the duct;
An electrostatic neutralization device comprising: A negative ion generator that is provided in the doll and applies a high voltage to the ceramic made of Kiyoishi, and generates negative ions,
A guide member for guiding negative ions generated by the negative ion generator to a predetermined portion of the doll;
An output part of the negative ions formed in a predetermined part of the doll;
An electrostatic neutralization device comprising: A duct provided in a hood of a desk lamp, provided with long holes at predetermined intervals;
A negative ion generator that generates negative ions by applying high voltage to ceramics made of Kiyoishi,
A guide member for guiding negative ions generated by the negative ion generator to the duct;
Static neutralization device characterized by comprising A duct provided in the vicinity of the static electricity generating portion and provided with long holes at predetermined intervals;
A negative ion generator that generates negative ions by applying high voltage to ceramics made of Kiyoishi,
A guide member for guiding negative ions generated by the negative ion generator to the duct;
An electrostatic neutralization device comprising: