JP3226825U - Electric shock warning device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric shock warning device having high practicality as a preventive measure against electric shock due to static electricity. An electric shock warning device (10) that warns that there is a risk of electric shock due to static electricity is provided by a pair of electrodes (14A) that are antenna portions formed of a conductor and a charged body charged with static electricity that approaches the antenna portion. The apparatus main body 12 includes a detection circuit that detects generated electrostatic induction, and a buzzer 20 that is a notification unit that notifies that the detection circuit has detected electrostatic induction. The device main body 12 can be attached to an electric shock object by magnets 30A and 30B that are attachment means. [Selection diagram] Fig. 3

Description

The present invention relates to an electric shock warning device, and more particularly to an electric shock warning device that warns that there is a risk of electric shock due to static electricity.

When you touch a car door (body) or front door (particularly the handle), you may feel an electric shock. This is a kind of electric shock caused by static electricity, and is widely known as a familiar phenomenon that many people experience.

Non-Patent Document 1 discloses a static electricity checker that detects static electricity charged on an object. In this static electricity checker, a weak current flowing between an antenna and a circuit is amplified and an LED is turned on to detect static electricity. In addition, an attempt has been made to predict the occurrence of a natural disaster such as a lightning strike or an earthquake by using a detection principle similar to this (Patent Document 1).

JP, 2006-90998, A

Genichi Watakuhei, “High School Physics Electrostatic Checker Production and Class Practice,” Toray Science Promotion Society 2016 Toray Science Education Award Winning Works (48th) <http://www.toray-sf.or .jp/activity/science_edu/pdf/h28_02.pdf>

By the way, "electrostatic shock due to static electricity" is a phenomenon in which static electricity charged on the body appears as a sudden discharge between the shock-sensitive object (in the above example, the door of the car or the front door), and There are quite a few cases that emit a flash of light. Although there are individual differences in how electric shock is felt, it is desirable to avoid such electric shock as much as possible.

Therefore, an electric shock countermeasure may be considered in which static electricity is detected by using the above-described static electricity checker before touching the electric shock object to prevent electric shock. However, first of all, it is necessary to always carry an electrostatic checker. Further, even if the user carries the static electricity checker, there is a case in which he/she unknowingly touches the electric shock object to receive an electric shock, so that it cannot be said to be a sufficient countermeasure and it is not practical.

In view of the above problems, the present invention aims to provide an electric shock warning device that is highly practical as a preventive measure against electric shock due to static electricity.

In order to achieve the above object, the present invention is an electric shock warning device for warning that there is a risk of electric shock due to static electricity, in which an antenna part formed of a conductor and a charged body charged with static electricity approach the antenna part. Having a device main body including a detection circuit for detecting electrostatic induction caused by doing so, and a notification part for notifying that the detection circuit has detected electrostatic induction, and mounting the device main body to an electric shock target. It is characterized by comprising means.

Further, the attaching means is a magnet or a double-sided tape.

Further, the device main body has a constant thickness and has an elongated plate-like external shape with rounded end portions in the longitudinal direction, and the antenna unit includes the first main surface of the device main body and the first main surface. It is characterized in that it is composed of a pair of electrodes provided over the entire surface of each of the second main surfaces on the side opposite to the main surface.

According to the electric shock warning device of the present invention having the above-mentioned configuration, since the device main body can be attached to the electric shock target subject to the electric shock due to static electricity by the attaching means, it is possible to unintentionally touch the electric shock target object. Even in such a case, when the charged body charged with static electricity approaches the antenna unit, it is notified that the detection circuit has detected the static induction. In this way, it is possible to warn beforehand that there is a risk of electric shock due to static electricity. Of course, it can also be used as a portable detection device for detecting static electricity. This makes it possible to take electric shock preventive measures that are highly practical.

It is a perspective view showing the appearance shape of the electric shock warning device concerning an embodiment. It is a block diagram which shows the main structures of the said electric shock warning apparatus. It is an exploded view of the electric shock warning device. It is a figure which shows the state which attached the said electric shock warning apparatus to the electric shock target object. It is a figure which shows another example of attachment of the said electric shock warning device.

Hereinafter, an embodiment of an electric shock warning device according to the present invention will be described with reference to the drawings.

The electric shock warning device 10 according to the embodiment shown in FIGS. 1 to 3 is a device for warning that there is a risk of electric shock due to static electricity, and is used by being attached to an electric shock object such as a car door or a front door. It The electric shock warning device 10 has a device body 12 having a constant thickness and an elongated plate-like external shape with rounded ends in the longitudinal direction.

An electrode 14A is provided on the first main surface 12A of the device body 12. The electrode 14A is made of a conductive material such as metal and is formed over substantially the entire first main surface 12A. An electrode 14B is also provided on the second main surface 12B of the device body 12 opposite to the first main surface 12A. Similar to the electrode 14A, the electrode 14B is also made of a conductive material such as metal and is formed over substantially the entire second main surface 12B.

One of the pair of electrodes 14A and 14B is arranged on the side of the electric shock object as a ground electrode, and the other is arranged on the side of the charged body charged with static electricity. When the charged body approaches the other electrode, the internal charge is biased due to electrostatic induction. Utilizing this phenomenon, the static electricity charged on the charged body is detected. In this way, the pair of electrodes 14A and 14B function as the antenna unit 14 that detects static electricity.

It should be noted that the electrodes 14A and 14B may be basically arranged on either side. However, for convenience, in the following description, the electrode 14A is on the charged body side and the electrode 14B is on the electric shock target side. Shall be distributed.

As shown in FIG. 2, a detection circuit 16 that detects electrostatic induction generated in the electrode 14A is provided inside the device body 12. The detection circuit 16 converts a change in charge generated between the electrodes 14A and 14B into a change in voltage. The voltage converted by the detection circuit 16 is input to the MCU 18 via the amplifier circuit. The MCU 18 compares the input voltage with a preset threshold value. When the input voltage exceeds the threshold, the buzzer 20 sounds according to the output signal from the MCU 18.

The electric shock warning device 10 detects static electricity by the MCU 18 performing the detection process described above. In this detection process, the buzzer 20 functions as a notification unit that notifies that the detection circuit 18 has detected electrostatic induction.

Note that a specific circuit configuration for performing such static electricity detection processing is disclosed in, for example, Patent Document 1 (especially FIG. 3) and Non-Patent Document 1 (especially FIG. 4) described above. Since well-known circuits can be used as appropriate, detailed description of the circuit configuration will be omitted here.

As shown in FIG. 3, the bottom of the apparatus body 12 is a printed circuit board 22. Various electronic components (transistor, diode, resistor, capacitor, etc.) that compose the detection circuit 16 described above, the MCU 18, and the buzzer 20 are mounted on the upper surface of the printed circuit board 22 (the surface facing the inside of the apparatus body 12). There is. In addition, a power supply (button batteries 24A, 24B) for driving the electric shock warning device 10 is also installed on the upper surface of the printed circuit board 22. In addition, an electrode 14B (not shown in FIG. 1B and FIG. 3) is formed on the back surface of the printed board 22 (the surface that is the outside of the apparatus main body 12).

On the other hand, the upper part of the apparatus main body 12 has the same structure as that in which various components are not mounted on the printed board 22. That is, the upper part of the device body 12 is also another printed circuit board 24 having the same configuration as the printed circuit board 22. Further, the electrode 14A is also formed on the upper surface of the printed circuit board 24 (the surface on the outer side of the apparatus main body 12).

Further, in the electric shock warning device 10 of the present embodiment, the discharge resistor 26 is provided between the pair of electrodes 14A and 14B forming the antenna unit 14 as a discharging means for discharging static electricity charged on the charging body. .. As a result, even if the charged body approaches the electrode 14A, the static electricity does not suddenly discharge, and by contacting the charged body with the electrode 14A, the charged static electricity can be slowly discharged and removed. Has become.

A housing 28 made of synthetic resin is provided between the printed boards 22 and 24, and a space is formed on the upper surface of the printed board 22 to accommodate mounted components. Then, the device main body 12 is assembled by sandwiching and mounting the housing 28 between the printed boards 22 and 24. Such a part design is advantageous in that the constituent parts can be shared. Further, since the areas of the electrodes 14A and 14B forming the antenna unit 14 can be made large, the device size can be reduced while maintaining the detection sensitivity of static electricity.

The electric shock warning device 10 having the above-mentioned configuration can be used as a portable static electricity checker as a matter of course, but in the present embodiment, in order to take measures against the electric shock by unintentionally touching an electric shock object, We are making further efforts. This will be described in detail below.

A typical scene where an electric shock is generated by static electricity is when the door of a car or the front door is touched, and in particular, an electric shock is almost always felt due to contact with a metal part. Therefore, if it is used as a portable static electricity checker, the device held in the hand is brought close to the metal part of the electric shock object to check whether there is a risk of electric shock.

On the other hand, even in a situation in which the user is unconsciously touching the electric shock object to receive an electric shock, the hand still approaches the electric shock object. The difference is whether or not there is a device for detecting static electricity in the vicinity of a hand approaching the electric shock object. The present inventor paid attention to this point and came up with the present invention.

That is, in the electric shock warning device 10 of the present embodiment, the magnets 30A and 30B are provided at both ends in the longitudinal direction of the upper surface of the printed circuit board 22 as mounting means for mounting the device body 12 to the electric shock target. Since the magnets 30A and 30B are arranged inside the apparatus main body 12, the contact area between the metal portion of the electric shock object and the electrode 14B serving as the ground electrode is sufficiently wide.

FIG. 4 is a diagram showing a state in which the electric shock warning device 10 is attached immediately below the door knob KN. Since the electric shock warning device 10 near the door knob KN is in the field of view of the person who is trying to open the door, it is possible to positively urge the user to confirm the risk of electric shock before touching the door knob KN. Further, even if the user does not notice the electric shock warning device 10 and unconsciously tries to touch the door knob KN, if the hand approaches the door knob KN while static electricity is charged, the buzzer 20 sounds and the electric shock may occur. It is possible to warn that there is.

As described above, according to the electric shock warning device 10 of the present embodiment, the device body 12 can be easily attached to the electric shock object (near the door knob KN in this example) that may be electric shock due to static electricity by the magnets 30A and 30B. Since it can be set, even if the user is unconsciously trying to touch the object to be electrocuted, the sound of the buzzer 20 can warn the user of the possibility of electric shock. The electric shock warning device 10 can also be used as a portable static electricity detection device. Therefore, it becomes possible to take electric shock preventive measures that are more practical.

The electric shock warning device according to the present invention has been described above based on the embodiment. However, it goes without saying that the present invention is not limited to the above-described mode, and may be carried out in the following modes, for example. ..

In the above-described embodiment, the magnets 30A and 30B are used as the attachment means, but the magnets 30A and 30B cannot be attached to a door made of aluminum or stainless steel, for example. In addition, even in an automobile, there are cases where the magnets 30A and 30B cannot attach the magnets 30A and 30B at appropriate positions because the materials of the in-vehicle accessories differ depending on the vehicle type. In such a case, the double-sided tape 32 with a ground wire as shown in FIG. 5 may be used as the attaching means.

The double-sided tape 32 with a ground wire has a ground wire 34, and one end of the ground wire 34 is a double-sided tape 36 having a metal foil, which is a connection terminal with the apparatus main body 12 side, attached to one surface. However, a grounding electrode tape 38 having a metal foil serving as a grounding terminal is attached to each of the opposite ends.

For example, the case where the electric shock warning device 10 is attached to the door portion of the inside of the automobile will be described as an example. First, the surface of the double-sided tape 36 on the side where the metal foil is provided is attached to the electrode 14B. Then, the other protective paper of the double-sided tape 36 is peeled off, and the device body 12 is attached to a desired attachment position. Then, the protective paper of the grounding electrode tape 38 is peeled off and attached to the metal portion of the door. Then, the loose portion of the ground wire 34 is appropriately fixed. In this way, the electric shock warning device 10 can be attached.

<Modification>
(1) Although the electric shock warning device 10 according to the above-described embodiment exemplifies a mode in which the device body 12 is attached to the electric shock object side and used, the device body 12 is attached to the charged body (body) side and used. Of course, it does not matter if it is carried out. Specifically, it may be implemented in the form of a ring or a bracelet. In this case, the ring portion of the ring and the bracelet type body shape itself serve as the attaching means.

The present invention can be implemented in a mode in which various improvements, modifications, or variations are added based on the knowledge of those skilled in the art without departing from the spirit of the invention. Further, within the range in which the same action or effect is produced, any of the devised specific items may be replaced with another technique.

INDUSTRIAL APPLICABILITY The present invention can be used in a situation where an electric shock due to static electricity is likely to occur such as touching a door of a car or a front door. In addition, it may be installed at a gas station and used before refueling.

10 Electric Shock Warning Device 12 Device Main Body 14 Antenna Section 16 Detection Circuit 20 Buzzer (Notification Section)
30A magnet (mounting means)
30B magnet (mounting means)

Claims (3)

An electric shock warning device that warns that there is a risk of electric shock due to static electricity.
An antenna part formed of a conductor,
A detection circuit for detecting electrostatic induction generated when a charged body charged with static electricity approaches the antenna unit,
An informing unit for informing that the detection circuit has detected electrostatic induction,
Having a device body including
An electric shock warning device comprising a mounting means for mounting the device body on an electric shock target. The electric shock warning device according to claim 1, wherein the attaching means is a magnet or a double-sided tape. The apparatus main body has a constant thickness, and exhibits an elongated plate-like external shape with rounded end portions in the longitudinal direction,
The antenna part is composed of a pair of electrodes provided over the entire surface of each of the first main surface of the device body and the second main surface opposite to the first main surface. The electric shock warning device according to claim 1 or 2.