CN216646609U - Touch optical coupler direct current detector module - Google Patents

Touch optical coupler direct current detector module Download PDF

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Publication number
CN216646609U
CN216646609U CN202120978911.7U CN202120978911U CN216646609U CN 216646609 U CN216646609 U CN 216646609U CN 202120978911 U CN202120978911 U CN 202120978911U CN 216646609 U CN216646609 U CN 216646609U
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electrically connected
touch
direct current
lead wire
lead
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CN202120978911.7U
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滕洪福
滕翔升
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Weihai Fushai Non Radiation New Technology Research Institute Co ltd
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Weihai Fushai Non Radiation New Technology Research Institute Co ltd
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Abstract

The utility model discloses a touch optical coupler direct current detector module which comprises a plastic shell, an optical coupler, a resistor R1, a resistor R2, a touch sheet, a light emitting diode, an alternating current power supply line A1, a direct current power supply anode and a direct current power supply cathode. A1 pin of the touch optocoupler direct current detector module is electrically connected with the touch sheet, a 2 pin of the touch optocoupler direct current detector module is electrically connected with an alternating current power supply line A1, a 3 pin of the touch optocoupler direct current detector module is electrically connected with a negative electrode of a direct current power supply, a 4 pin of the touch optocoupler direct current detector module is electrically connected with a negative electrode of a light emitting diode, a positive electrode of the light emitting diode is electrically connected with one end of a resistor R2, and the other end of the resistor R2 is electrically connected with a positive electrode of the direct current power supply. When the touch sheet is touched by hand, if the light emitting diode emits light, the alternating current power supply line A1 is proved to be a live wire, and if the light emitting diode does not emit light, the alternating current power supply line A1 is proved to be a zero wire, so that whether the 220V alternating current power supply connected with the A1 is a zero wire or a live wire can be conveniently detected, and the zero wire or the live wire can be displayed in a striking mode.

Description

Touch optical coupler direct current detector module
Technical Field
The utility model relates to the field of detecting zero and live wires of an alternating current power supply, in particular to a touch optocoupler direct current detector module.
Background
With the rapid popularization of the modernization of electric appliances, a device for rapidly and accurately judging the zero line or the live line of an alternating current power supply is needed when the electric appliances are installed or the electromagnetic radiation of household electric appliances is eliminated by using the zero line of the power supply.
Market research and patent retrieval prove that no device capable of quickly detecting zero and live wires of an alternating current power supply and emitting light is obvious at present.
Disclosure of Invention
In order to have a product which can accurately judge the zero and the live wire of the power supply and use the LED to emit light, the device adopts the touch principle of a test pencil, and uses a direct current power supply to supply power to a touch optical coupler direct current detector module of the LED, not only can accurately detect the zero and the live wire of the power supply, but also can emit light remarkably, and the technical method comprises the following steps: the utility model provides a touch opto-coupler direct current detector module, by plastic casing (1), optoelectronic coupler (2), resistance (R1), resistance (R2), lead wire (1), lead wire (2), lead wire (3), lead wire (4), touch-sensitive strip (CMP), emitting diode (LED), exchange (220V) power cord (A1), the anodal (+) of DC power supply, DC power supply negative pole (-) is constituteed. Wherein optoelectronic coupler (2), resistance (R1), adorn in plastic casing (1) to with lead wire (1), lead wire (2), lead wire (3), the one end of lead wire (4) corresponds and carries out the encapsulating after the electricity is connected in with plastic casing (1), its characterized in that: one end of a resistor (R1) is electrically connected with one end of a lead (1), the other end of a resistor (R1) is electrically connected with a pin (1) of a photoelectric coupler (2), a pin (2) of the photoelectric coupler (2) is electrically connected with one end of the lead (2), a pin (3) of the photoelectric coupler (2) is electrically connected with one end of the lead (3), a pin (4) of the photoelectric coupler (2) is electrically connected with one end of the lead (4), the other end of the lead (1) is electrically connected with a touch pad (CMP), the other end of the lead (2) is electrically connected with an A1 of an alternating current (220V) power line, the other end of the lead (3) is electrically connected with a negative pole (-) of a direct current power supply, the other end of the lead (4) is electrically connected with an electrode of a Light Emitting Diode (LED), a positive pole (+) of the Light Emitting Diode (LED) is electrically connected with one end of a resistor R2, and the other end of a resistor R2 is electrically connected with a positive pole (+) of the direct current power supply.
According to the principle of the test pencil, when a touch pad (CMP) is touched by a hand, if a power line (A1) is a live wire, a neon lamp (ND) in a photoelectric coupler (2) can emit light, and after the photoelectric tube (GD) is illuminated, the internal resistance of the photoelectric tube (GD) is reduced from high to low so that a light-emitting diode (LED) emits light; if the power line (A1) is a zero line, the light-emitting diode (LED) of the touch pad (CMP) can not emit light when touched by hands, so that whether the AC power connected with the power line (A1) is a zero line or a live line can be conveniently detected, and the power line can be displayed in a striking way through the LED.
The plastic shell (1) is a deep groove type shell with three plastic surfaces and one opening, and after corresponding devices are installed, insulating black glue is filled in the plastic shell to carry out encapsulation to form a module.
The lead (1), the lead (2), the lead (3) and the lead (4) are made of one of a conductive hard lead and a conductive soft lead, and the part positioned in the plastic shell (1) needs to be firmly packaged by black glue.
The touch sheet (CMP) is a conductive metal material.
The alternating current (220V) power line (A1) is one line of 220V alternating current power lines.
The anode (+) and the cathode (-) of the direct current power supply are direct current power supplies which are introduced into corresponding electrical equipment.
The photoelectric coupler (2) is composed of a neon lamp (ND) and a photoelectric tube (GD), the neon lamp (ND) and the photoelectric tube (GD) are tightly combined together and can achieve the light and electric coupling effects, wherein one end of the neon lamp (ND) is a pin (1) of the photoelectric coupler (2), the other end of the neon lamp (ND) is a pin (2) of the photoelectric coupler (2), one end of the photoelectric tube (GD) is a pin (3) of the photoelectric coupler (2), and the other end of the photoelectric tube (GD) is a pin (4) of the photoelectric coupler (2).
The neon lamp (ND) is a glass transparent shell neon lamp (ND) with an external lead wire and a starting voltage of more than 60V.
The photoelectric tube (GD) adopts one of a photoresistor, a phototriode, a photodiode and a photothyristor which are popular at present.
According to the utility model, through human body touch, the zero line and the live wire of the 220V alternating current power supply can be judged, and the beneficial effects are as follows: the method is simple, low in cost, striking in light emitting and high in reliability, and can be suitable for being used in more places needing to judge the zero line and the live line of the power supply.
Description of the drawings:
the utility model is further illustrated with reference to the following figures and examples.
Fig. 1 is a schematic diagram of one principle of the present invention.
Fig. 2 is a schematic structural diagram of an appearance of an embodiment of the present invention.
The labels in the figure are: 1. plastic shell, 2, photoelectric coupler, resistor R1, resistor R2, neon lamp ND, photoelectric tube GD, lead wire 1, lead wire 2, lead wire 3, lead wire 4, touch pad CMP, light emitting diode LED, alternating current 220V power line A1, direct current power positive pole +, direct current power negative pole-.
The utility model is further explained below with reference to the schematic diagrams of the principles and the schematic structural diagrams of the embodiments in the drawings:
the specific implementation mode is as follows: fig. 1 is a schematic diagram of a touch opto-coupler dc detector module, which is composed of a plastic housing (1), an opto-coupler (2), a resistor (R1), a resistor (R2), a lead (1), a lead (2), a lead (3), a lead (4), a touch pad (CMP), a Light Emitting Diode (LED), an alternating current (220V) power line (a 1), a dc power supply anode (+), and a dc power supply cathode (-). Wherein optoelectronic coupler (2), resistance (R1), adorn in plastic casing (1) to with lead wire (1), lead wire (2), lead wire (3), the one end of lead wire (4) corresponds and carries out the encapsulating after the electricity is connected in with plastic casing (1), its characterized in that: one end of a resistor (R1) is electrically connected with one end of a lead (1), the other end of a resistor (R1) is electrically connected with a pin (1) of a photoelectric coupler (2), a pin (2) of the photoelectric coupler (2) is electrically connected with one end of the lead (2), a pin (3) of the photoelectric coupler (2) is electrically connected with one end of the lead (3), a pin (4) of the photoelectric coupler (2) is electrically connected with one end of the lead (4), the other end of the lead (1) is electrically connected with a touch pad (CMP), the other end of the lead (2) is electrically connected with an A1 of an alternating current (220V) power line, the other end of the lead (3) is electrically connected with a negative pole (-) of a direct current power supply, the other end of the lead (4) is electrically connected with an electrode of a Light Emitting Diode (LED), a positive pole (+) of the Light Emitting Diode (LED) is electrically connected with one end of a resistor R2, and the other end of a resistor R2 is electrically connected with a positive pole (+) of the direct current power supply.
Fig. 2 is an appearance structure diagram of an embodiment of a touch opto-coupler dc detector module. The LED touch screen is composed of a plastic shell (1), a lead (2), a lead (3), a lead (4), a touch sheet (CMP), an alternating current (220V) power line (A1), a direct current power supply cathode (-) a light-emitting diode (LED), a resistor R2 and a direct current power supply anode (+).
The lead (1) is electrically connected to the touch pad (CMP), the lead (2) is electrically connected to (a 1) of an ac (220V) power line, the lead (3) is electrically connected to the negative (-) of the dc power supply, the lead (4) is electrically connected to the (-) pole of the Light Emitting Diode (LED), the positive (+) of the Light Emitting Diode (LED) is electrically connected to one end of the resistor R2, and the other end of the resistor R2 is electrically connected to the positive (+) of the dc power supply.
According to the principle of the test pencil, when a touch pad (CMP) is touched by a hand, if a power line (A1) is a live wire, a neon lamp (ND) in a photoelectric coupler (2) can emit light, and after the photoelectric tube (GD) is illuminated, the internal resistance of the photoelectric tube (GD) is reduced from high to low so that a light-emitting diode (LED) emits light; if the power line (A1) is a zero line, the Light Emitting Diode (LED) of the touch pad (CMP) can not emit light when touched by hands, and the method can conveniently detect whether the AC power connected with the power line (A1) is the zero line or the live line and can display the zero line or the live line in a striking way through the LED.
The plastic shell (1) is a deep groove type shell with three plastic surfaces and one opening, and after corresponding devices are installed, insulating black glue is filled in the plastic shell to carry out encapsulation to form a module.
The lead (1), the lead (2), the lead (3) and the lead (4) are made of one of a conductive hard lead and a conductive soft lead, and the part positioned in the plastic shell (1) needs to be firmly packaged by black glue.
The touch sheet (CMP) is a conductive metal material.
The alternating current (220V) power line (A1) is one line of 220V alternating current power lines.
The anode (+) and the cathode (-) of the direct current power supply are direct current power supplies which are introduced into corresponding electrical equipment.
The photoelectric coupler (2) is composed of a neon lamp (ND) and a photoelectric tube (GD), the neon lamp (ND) and the photoelectric tube (GD) are tightly combined together and can achieve the light and electric coupling effects, wherein one end of the neon lamp (ND) is a pin (1) of the photoelectric coupler (2), the other end of the neon lamp (ND) is a pin (2) of the photoelectric coupler (2), one end of the photoelectric tube (GD) is a pin (3) of the photoelectric coupler (2), and the other end of the photoelectric tube (GD) is a pin (4) of the photoelectric coupler (2).
The neon lamp (ND) is a glass transparent shell neon lamp (ND) with an external lead wire and a starting voltage of more than 60V.
The photoelectric tube (GD) adopts one of a photoresistor, a phototriode, a photodiode and a photothyristor which are popular at present.
According to the utility model, the zero line and the live line of the alternating current 220V power supply can be correctly judged by touching the touch pad (CMP), and the method has the beneficial effects that: the module structure and the method are simple, low in cost, obvious in light emitting, safe and reliable, and can be widely applied to places needing to judge the zero line and the live line of the power supply.

Claims (8)

1. The utility model provides a touch opto-coupler direct current detector module, by plastic casing (1), photoelectric coupler (2), resistance R1, resistance R2 lead wire 1, lead wire 2, lead wire 3, lead wire 4, touch piece CMP, emitting diode LED, alternating current power cord A1, the positive +, direct current power supply negative pole-constitutes, wherein photoelectric coupler (2), resistance R1, adorn in plastic casing (1), and correspond the encapsulating of carrying out the encapsulating in plastic casing (1) after the electricity is connected with lead wire 1, lead wire 2, lead wire 3, lead wire 4 one end, its characterized in that: one end of a resistor R1 is electrically connected with one end of a lead wire 1, the other end of a resistor R1 is electrically connected with a pin 1 of a photoelectric coupler (2), a pin 2 of the photoelectric coupler (2) is electrically connected with one end of the lead wire 2, a pin 3 of the photoelectric coupler (2) is electrically connected with one end of the lead wire 3, a pin 4 of the photoelectric coupler (2) is electrically connected with one end of the lead wire 4, the other end of the lead wire 1 is electrically connected with a touch pad CMP, the other end of the lead wire 2 is electrically connected with an alternating current power supply line A1, the other end of the lead wire 3 is electrically connected with a negative pole of a direct current power supply, the other end of the lead wire 4 is electrically connected with a light emitting diode LED pole, the positive pole + of the light emitting diode LED is electrically connected with one end of a resistor R2, and the other end of a resistor R2 is electrically connected with the positive pole + of the direct current power supply.
2. The touch opto-coupler dc detector module according to claim 1, characterized in that: the plastic shell (1) is a deep groove type shell with three plastic surfaces and one opening, and after corresponding devices are installed, insulating black glue is filled in the plastic shell to carry out encapsulation to form a module.
3. The touch opto-coupler dc detector module according to claim 1, characterized in that: the lead 1, the lead 2, the lead 3 and the lead 4 are made of one of a conductive hard lead and a conductive soft lead, and the part in the plastic shell (1) needs to be firmly packaged by black glue.
4. The touch opto-coupler dc detector module according to claim 1, characterized in that: the touch sheet CMP is a conductive metal material.
5. A touch optocoupler direct current detector module according to claim 1, characterized in that: the AC power line A1 is one of the AC power lines.
6. A touch optocoupler direct current detector module according to claim 1, characterized in that: the photoelectric coupler (2) is composed of a neon lamp ND and a photoelectric tube GD, the neon lamp ND and the photoelectric tube GD are tightly combined together and can achieve the effect of optical coupling and electric coupling, wherein one end of the neon lamp ND is a pin 1 of the photoelectric coupler (2), the other end of the neon lamp ND is a pin 2 of the photoelectric coupler (2), one end of the photoelectric tube GD is a pin 3 of the photoelectric coupler (2), and the other end of the photoelectric tube GD is a pin 4 of the photoelectric coupler (2).
7. A touch optocoupler direct current detector module according to claim 6, characterized in that: the neon lamp ND is a glass transparent shell neon lamp ND with an external lead and a starting voltage larger than 60V.
8. A touch optocoupler direct current detector module according to claim 6, characterized in that: the photoelectric tube GD adopts one of a photoresistor, a phototriode, a photodiode and a photothyristor which are popular at present.
CN202120978911.7U 2021-05-10 2021-05-10 Touch optical coupler direct current detector module Active CN216646609U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120978911.7U CN216646609U (en) 2021-05-10 2021-05-10 Touch optical coupler direct current detector module

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120978911.7U CN216646609U (en) 2021-05-10 2021-05-10 Touch optical coupler direct current detector module

Publications (1)

Publication Number Publication Date
CN216646609U true CN216646609U (en) 2022-05-31

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CN202120978911.7U Active CN216646609U (en) 2021-05-10 2021-05-10 Touch optical coupler direct current detector module

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Country Link
CN (1) CN216646609U (en)

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