CN214132310U - Automatic spraying sterilizer control system - Google Patents

Abstract

The utility model discloses an automatic spraying sterilizer control system, including integrated circuit one, infrared receipt and transmitting circuit, battery charging circuit, play fog circuit, battery and switch S1, integrated circuit one, infrared receipt and transmitting circuit, play fog circuit are connected with the battery positive pole, and battery charging circuit is connected with the battery, install the USB interface on the battery charging circuit, integrated circuit one is equipped with 8 pins altogether 1-8, and 1 one end of its pin is connected with diode D4, and it has resistance R12, resistance R11, diode D3 to establish ties between switch S1 and the battery positive pole, and pin 4 of integrated circuit one connects in parallel between resistance R12 and resistance R11, the utility model discloses a position of infrared induction' S effect response object through automatic control spraying time, reaches the control of spraying volume, realizes the effect of contactless spraying sterilization.

Description

Automatic spraying sterilizer control system

Technical Field

The utility model relates to an automatic spraying sterilizer control system.

Background

At most, the water faucet in the public place can only clean the dirt of the hands of people, the hands which seem to be clean are still full of bacteria, and people who have bad habits can not accept the water faucet. Many sterilizing devices all need to touch with the hand and just can start the switch, in the in-process that touches with the hand, the bacterium again can be followed the hand and uploaded to sterilizing device, it is the same when next person uses to be so that sterilizing device itself is just from carrying the bacterium, contradict with sterilizing device itself, and many sterilizing devices are the antiseptic solution that sprays in the mode of liquid, only will disinfect as far as possible and also spray on the surface of hand, can not perfect each corner of covering, in order to solve above-mentioned problem, an automatic type spray sterilizer has been developed, and obtain wide use, this also makes the kind of automatic spray sterilizer more, however the operation and the using-way of each section automatic sterilizer are all different, all accomplish control through different control system.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a convenient to use, easy operation, the position of effect response object through infrared induction through automatic control spraying time, reaches the control of spraying volume, realizes the effect that contactless spraying was disinfected, can satisfy the use on the majority sterilizer simultaneously, has practicality and the automatic spraying sterilizer control system who uses the universality.

In order to solve the above problem, the utility model adopts the following technical scheme:

the control system comprises a first integrated circuit, an infrared receiving and transmitting circuit, a battery charging circuit, a mist outlet circuit, a battery and a switch S1, wherein the first integrated circuit, the infrared receiving and transmitting circuit and the mist outlet circuit are connected with the anode of the battery, the battery charging circuit is connected with the battery, a USB interface is installed on the battery charging circuit, the first integrated circuit is provided with 1-8 pins which are totally 8, one end of the pin 1 is connected with a diode D4, a resistor R12, a resistor R11 and a diode D3 are connected in series between the switch S1 and the anode of the battery, and the pin 4 of the first integrated circuit is connected between a resistor R12 and a resistor R11 in parallel.

Preferably, the infrared receiving and transmitting circuit comprises an infrared receiving circuit and an infrared transmitting circuit, the infrared receiving circuit and the infrared transmitting circuit are arranged in parallel, the infrared transmitting circuit is formed by connecting a diode D1, a triode Q1 and a resistor R6 in series, and the infrared receiving circuit is formed by connecting a diode D2 and a resistor R7 in series.

Preferably, a resistor R3 is connected between the pin 2 of the first integrated circuit and the infrared transmitting circuit, the resistor R3 is connected in parallel to the triode Q1, a resistor R4 is connected between the pin 3 of the first integrated circuit and the infrared receiving circuit, and the resistor R4 is connected in parallel between the diode D2 and the resistor R7.

Preferably, the battery charging circuit comprises a second integrated circuit, the second integrated circuit is provided with 1-8 pins, the total number of the 8 pins is 8, the pin 2 of the second integrated circuit is connected with a resistor R1 in series, the pin 4 of the second integrated circuit is connected with a capacitor C1 in parallel, the pin 5 of the second integrated circuit is connected with the positive electrode of the battery, the pin 6 of the second integrated circuit is connected with an LED2 in series, the pin 7 of the second integrated circuit is connected with an LED1 in series, the pin 8 of the second integrated circuit is connected with the pin 7 of the first integrated circuit, one end of the USB interface is connected with a resistor R2, and the resistor R2 is connected between the LED1 and the LED2 in parallel.

Preferably, an electrolytic capacitor E1 is connected in parallel between the fog outlet circuit and the positive electrode of the battery.

Preferably, the positive pole one end of atomizing piece interface is connected with inductance L1, and atomizing piece interface negative pole one end is connected with inductance L, and inductance L1, inductance L and electrolytic capacitor E1 series connection, it has electric capacity C3 to connect in parallel between the positive pole of atomizing piece interface and the atomizing piece interface negative pole.

Preferably, one end of the pin 5 of the first integrated circuit is connected with a capacitor C2, the capacitor C2 is connected with a triode Q2, the triode Q2 is connected with the negative electrode of the atomizing sheet interface, and the triode Q2 is connected with a resistor R8 and a resistor R9 in parallel.

Preferably, a pin 7 of the first integrated circuit is connected with an LED3, one end of an LED3 is connected with the positive electrode of the battery, and a resistor R10 is arranged between the LED3 and the pin 7.

Preferably, a resistor R5 is provided between the charging circuit and the positive electrode of the battery, and the resistor R5 is 0R.

The utility model has the advantages that: convenient to use, easy operation, the position of effect response object through infrared induction through automatic control spraying time, reaches the control of spraying volume, realizes the effect that contactless spraying was disinfected, can satisfy the use on the majority sterilizer simultaneously, has practicality and the universality of using.

Drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, but the protection scope of the present invention is not limited thereto.

FIG. 1 is a schematic diagram of a circuit layout of an integrated circuit according to the present invention;

fig. 2 is a schematic diagram of the battery charging circuit according to the present invention;

FIG. 3 is a schematic diagram of the mist outlet circuit of the present invention;

FIG. 4 is a schematic diagram of the connection of the infrared receiving and transmitting circuit of the present invention;

FIG. 5 is a schematic diagram of the circuit connection of the work light of the present invention;

fig. 6 is a schematic diagram of the USB interface circuit layout of the present invention;

the device comprises an integrated circuit I, an integrated circuit II, an atomization sheet interface, an infrared transmitting tube 4, an infrared receiving tube 5 and a USB interface 6.

Detailed Description

Referring to fig. 1 to 6, the automatic spray sterilizer control system comprises a first integrated circuit 1, an infrared receiving and transmitting circuit, a battery charging circuit, a mist outlet circuit, a battery and a switch S1, wherein the first integrated circuit, the infrared receiving and transmitting circuit and the mist outlet circuit are connected with the positive electrode of the battery, the battery charging circuit is connected with the battery, the battery charging circuit is provided with a USB interface 6, the first integrated circuit is provided with 1-8 pins with 8 pins in total, one end of the pin 1 is connected with a diode D4, a resistor R12, a resistor R11 and a diode D3 are connected in series between the switch S1 and the positive electrode of the battery, the resistor R12 is 1K, the resistor R11 is 10K, and the pin 4 of the first integrated circuit is connected in parallel between the resistor R12 and the resistor R11.

Further, the infrared receiving and transmitting circuit comprises an infrared receiving circuit and an infrared transmitting circuit, the infrared receiving circuit and the infrared transmitting circuit are arranged in parallel, the infrared transmitting circuit is formed by connecting a diode D1, a triode Q1 and a resistor R6 in series, the infrared receiving circuit is formed by connecting a diode D2 and a resistor R7 in series, the resistor R6 is 10K, and the resistor R7 is 200K.

Further, a resistor R3 is connected between the pin 2 of the first integrated circuit and the infrared transmitting circuit, the resistor R3 is 1K, the resistor R3 is connected in parallel to the triode Q1, a resistor R4 is connected between the pin 3 of the first integrated circuit and the infrared receiving circuit, the resistor R4 is 1K, and the resistor R4 is connected in parallel between the diode D2 and the resistor R7.

Further, the battery charging circuit comprises a second integrated circuit 2, the second integrated circuit is provided with 1-8 pins which are totally 8, the pin 2 is connected with a resistor R1 in series, the pin 4 is connected with a capacitor C1 in parallel, the capacitor C1 is 10UF, the pin 5 is connected with the positive electrode of the battery, the pin 6 is connected with an LED2 in series, the LED2 is an infrared receiving tube, the pin 7 is connected with an LED1 in series, the LED1 is an infrared emitting tube, the pin 8 is connected with the pin 7 of the first integrated circuit, one end of the USB interface is connected with a resistor R2, the resistor R2 is 1K, and the resistor R2 is connected between the LED1 and the LED2 in parallel.

Furthermore, an electrolytic capacitor E1 is connected in parallel between the fog outlet circuit and the positive electrode of the battery, and the electrolytic capacitor E1 is 220 UF/16V.

Furthermore, one end of the positive electrode of the atomization sheet interface is connected with an inductor L1, one end of the negative electrode of the atomization sheet interface is connected with an inductor L, the inductor L1 and the inductor L are connected with an electrolytic capacitor E1 in series, a capacitor C3 is connected between the positive electrode of the atomization sheet interface and the negative electrode of the atomization sheet interface in parallel, and the capacitor C3 is 1 nF/100V.

Further, a capacitor C2 is connected to one end of a pin 5 of the first integrated circuit, a capacitor C2 is connected to a triode Q2, a triode Q2 is connected to the negative electrode of the atomizing sheet interface, a resistor R8 and a resistor R9 are connected to the triode Q2 in parallel, the R8 is 100K, and the R9 is 0.36R.

Further, a pin 7 of the first integrated circuit is connected with an LED3, one end of an LED3 is connected with the positive electrode of the battery, a resistor R10 is arranged between the LED3 and the pin 7, the R10 is 1K, and the LED3 is an illumination atmosphere lamp.

Further, a resistor R5 is arranged between the charging circuit and the positive electrode of the battery, and the resistor R5 is 0R.

The utility model discloses during the use, through the work of the whole spraying sterilizer system of integrated circuit one control, carry out infrared signal's transmission and meet through infrared receipt and transmitting circuit and send, confirm whether there is the object spraying sterilizer the place ahead, charge or directly be connected with the power to spraying sterilizer's battery through battery charging circuit, through the atomizing blowout of the circuit control antiseptic solution that disinfects that goes out fog.

When the utility model is powered on, the power is defaulted to the standby state without any action; in a standby state, a key switch S1 is pressed, the atomizing sheet enters a working state, the lighting atmosphere lamp is lightened, and the machine is in the working state at the moment; in the working state of the machine, the atomization sheet stops working when a key switch S1 is pressed, the lighting atmosphere lamp is turned off, and the machine enters a standby state;

the utility model discloses an induction mode of operation as follows:

when the machine is in a working state, when hands or other sensing objects enter a sensing area (an area which is perpendicular to the horizontal plane of the atomization sheet and has a distance of about 12-15 CM), the infrared receiving and sending circuit finishes detection work, the atomization sheet starts atomization disinfection work, if the hands are taken away or the other sensing objects leave the sensing distance in the disinfection work, the work is stopped immediately, and the working time length of each time is not more than 8S. If the atomizing plate is operated again, the above operations should be repeated.

The above is only the specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the creative work should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (9)

1. An automatic spray sterilizer control system which is characterized in that: the intelligent fog-free battery charging device comprises a first integrated circuit, an infrared receiving and transmitting circuit, a battery charging circuit, a fog-out circuit, a battery and a switch S1, wherein the first integrated circuit, the infrared receiving and transmitting circuit and the fog-out circuit are connected with the positive pole of the battery, the battery charging circuit is connected with the battery, a USB interface is installed on the battery charging circuit, the first integrated circuit is provided with 1-8 pins which are totally 8, one end of the pin 1 is connected with a diode D4, a resistor R12, a resistor R11 and a diode D3 are connected between the switch S1 and the positive pole of the battery in series, and the pin 4 of the first integrated circuit is connected between the resistor R12 and the resistor R11 in parallel.

2. The automatic spray sterilizer control system according to claim 1, wherein: the infrared receiving and transmitting circuit comprises an infrared receiving circuit and an infrared transmitting circuit, the infrared receiving circuit and the infrared transmitting circuit are arranged in parallel, the infrared transmitting circuit is formed by connecting a diode D1, a triode Q1 and a resistor R6 in series, and the infrared receiving circuit is formed by connecting a diode D2 and a resistor R7 in series.

3. The automatic spray sterilizer control system according to claim 2, wherein: a resistor R3 is connected between the pin 2 of the first integrated circuit and the infrared transmitting circuit, a resistor R3 is connected to the triode Q1 in parallel, a resistor R4 is connected between the pin 3 of the first integrated circuit and the infrared receiving circuit, and the resistor R4 is connected between the diode D2 and the resistor R7 in parallel.

4. The automatic spray sterilizer control system according to claim 2, wherein: the battery charging circuit comprises a second integrated circuit, wherein the second integrated circuit is provided with 1-8 pins which are totally 8 pins, the pin 2 of the second integrated circuit is connected with a resistor R1 in series, the pin 4 of the second integrated circuit is connected with a capacitor C1 in parallel, the pin 5 of the second integrated circuit is connected with the anode of a battery, the pin 6 of the second integrated circuit is connected with an LED2 in series, the pin 7 of the second integrated circuit is connected with an LED1 in series, the pin 8 of the second integrated circuit is connected with the pin 7 of the first integrated circuit, one end of the USB interface is connected with a resistor R2, and the resistor R2 is connected between the LED1 and the LED2 in parallel.

5. The automatic spray sterilizer control system according to claim 2, wherein: an electrolytic capacitor E1 is connected in parallel between the fog outlet circuit and the positive electrode of the battery.

6. The automatic spray sterilizer control system according to claim 5, wherein: the positive pole one end of atomizing piece interface is connected with inductance L1, and atomizing piece interface negative pole one end is connected with inductance L, inductance L1, inductance L and electrolytic capacitor E1 series connection, it has electric capacity C3 to connect in parallel between the positive pole of atomizing piece interface and the atomizing piece interface negative pole.

7. The automatic spray sterilizer control system according to claim 2, wherein: one end of a pin 5 of the first integrated circuit is connected with a capacitor C2, a capacitor C2 is connected with a triode Q2, a triode Q2 is connected with the negative electrode of the atomizing sheet interface, and a resistor R8 and a resistor R9 are connected to the triode Q2 in parallel.

8. The automatic spray sterilizer control system according to claim 2, wherein: the pin 7 of the first integrated circuit is connected with an LED3, one end of an LED3 is connected with the positive electrode of the battery, and a resistor R10 is arranged between the LED3 and the pin 7.

9. The automatic spray sterilizer control system according to claim 2, wherein: and a resistor R5 is arranged between the charging circuit and the positive electrode of the battery, and the resistor R5 is 0R.

Images