CN203874165U - Digital and intelligent air purification system based on ultraviolet lamp structure - Google Patents

Abstract

The utility model discloses a digital and intelligent air purification system based on an ultraviolet lamp structure. The digital and intelligent air purification system based on the ultraviolet lamp structure is characterized by mainly comprising a case, a liquid crystal display (2), a key (4) and an ultraviolet lamp generator (8) which are arranged on the case, a chip control unit (1) arranged inside the case, a sensor (3) and a driving motor (5) which are arranged inside the case and respectively connected with the chip control unit (1) as well as a power controller (6) which is arranged inside the case and is respectively connected with the liquid crystal display (2) and the driving motor (5), wherein the ultraviolet lamp generator (8) is composed of an ultraviolet lamp (9) and an ultraviolet lamp driving circuit connected with the ultraviolet lamp (9). The digital and intelligent air purification system based on the ultraviolet lamp structure is simple in an integral structure and easy to make and maintain; meanwhile, the chip control unit in the digital and intelligent air purification system based on the ultraviolet lamp structure can fully process data information acquired by the sensor, and content of PM2.5 in the air is displayed by virtue of the liquid crystal display.

Description

Digital display intelligent air cleaning system based on uviol lamp structure

Technical field

This utility model relates to a kind of Household Air Purifier, specifically refers to the digital display intelligent air cleaning system based on uviol lamp structure.

Background technology

At present, along with the further aggravation of environmental pollution, people also more and more pay attention to the quality of air.How effectively to filter and to purify the air that has a large amount of pollutant, be the topic that people pay close attention to the most.For this reason, air purifier is also given birth to regard to operation, has obtained unprecedented development.But air purifier is in the market only simply to adopt LED light color to indicate air quality, and can not effectively indicate PM2.5 concentration, there is no stand-by power consumption intelligent management function and air sterillization function simultaneously yet.Therefore these air purifiers that, exist at present are not well positioned to meet the multi-level life requirement of people.

Utility model content

The purpose of this utility model is to overcome the current existing defect that can not effectively show PM2.5 concentration, can not effectively realize stand-by power consumption intelligent management and air sterillization function of air purifier on the market, provide a kind of simple in structure, PM2.5 concentration can not only be effectively shown, and the digital display intelligent air cleaning system based on uviol lamp structure of low power-consumption intelligent management and air sterillization can also be realized.

The purpose of this utility model is achieved through the following technical solutions: the digital display intelligent air cleaning system based on uviol lamp structure, mainly by casing, be arranged on liquid crystal display, button and uviol lamp generator in this casing, be arranged on the chip controls unit of casing inside, be arranged on this casing is inner and be connected with chip controls unit respectively sensor and drive motors, and be arranged on the power-supply controller of electric composition that casing is inner and be connected with drive motors with liquid crystal display respectively; Described uviol lamp generator is by uviol lamp, and the uviol lamp drive circuit being connected with this uviol lamp forms.

Described uviol lamp drive circuit is by transformator T2, the bridge rectifier mu balanced circuit being connected with transformator T2 secondary, and the capacitor C X1 being serially connected on the former limit of transformator T2 forms, described uviol lamp is in parallel with this capacitor C X1.

Further, described bridge rectifier mu balanced circuit is by diode-bridge circuit, and forms with electrochemical capacitor EC3 and electrochemical capacitor EC4 that this diode-bridge circuit outfan is in parallel; Two inputs of described diode-bridge circuit are connected with the secondary of transformator T2 respectively.

Described chip controls unit is by chip CR1510, the constant voltage transforming circuit being connected with this chip CR1510, and the filter circuit being connected with this chip CR1510 forms.

Described constant voltage transforming circuit is comprised of transformator T1, diode D1, electrochemical capacitor EC1, electrochemical capacitor EC2, resistance R 1 and resistance R 2 and resistance R 3; The non-same polarity of transformator T1 primary coil is connected with the VCC pin of chip CR1510 after resistance R 2 through resistance R 1 successively, and the Same Name of Ends of transformator T1 primary coil is connected with the VC1 pin of chip CR1510; The Same Name of Ends of transformator T1 secondary coil is connected with the non-same polarity of transformator T1 secondary coil after electrochemical capacitor EC1 through diode D1; Electrochemical capacitor EC2 and electrochemical capacitor EC1 are in parallel, and 3 of resistance R are in parallel with electrochemical capacitor EC2.

Described filter circuit is comprised of diode D2, capacitor C 1, capacitor C 2, capacitor C 3, resistance R 4 and resistance R 5; After described capacitor C 1 is in parallel with diode D2, its one end is connected with the VCC pin of chip CR1510, and the other end is connected with the VSENSE pin of chip CR1510 after resistance R 4; 2 of resistance R 5 and capacitor C are all serially connected between the VSENSE pin and GND pin of chip CR1510; 3 of capacitor C are serially connected between the VCC pin and GND pin of chip CR1510.。

This utility model is compared and is had the following advantages and beneficial effect compared with prior art:

(1) this utility model overall structure is very simple, is convenient to make and safeguard.

(2) the chip controls of the present utility model unit data message that fully processes sensor collects, and by liquid crystal display, demonstrate the content of PM2.5 in air.

(3) this utility model can effectively reduce the electric energy loss of system, thereby reaches fully the object that reduces energy consumption.

(4) this utility model is also provided with the uviol lamp generator of low-power consumption, therefore can well to indoor air, carry out disinfection, thereby guarantee that air quality is up to standard.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model.

Fig. 2 is this utility model circuit structure schematic diagram.

Fig. 3 is the electrical block diagram of chip controls of the present utility model unit.

Fig. 4 is this utility model uviol lamp driving circuit structure schematic diagram.

The specific embodiment

Below in conjunction with embodiment, this utility model is described in further detail, but embodiment of the present utility model is not limited to this.

Embodiment

As shown in Figure 1, 2, digital display intelligent air cleaning system based on uviol lamp structure described in the utility model, it is mainly by casing, be arranged on liquid crystal display 2, button 4 and uviol lamp generator 8 in this casing, be arranged on the chip controls unit 1 of casing inside, be arranged on this casing is inner and be connected with chip controls unit 1 respectively sensor 3 and drive motors 5, and be arranged on power-supply controller of electric 6 compositions that casing is inner and be connected with drive motors 5 with liquid crystal display 2 respectively.

Wherein, chip controls unit 1 is for date processing and analysis, and liquid crystal display 2 is for data show, 3 collections for air data of sensor, button 4 is for man-machine interaction, and 5 of drive motors are for aspirating room air, and uviol lamp generator 8 is for the sterilization of room air.

As shown in Figure 3, this chip controls unit 1 is by chip CR1510, the constant voltage transforming circuit being connected with this chip CR1510, and the filter circuit being connected with this chip CR1510 forms.Uviol lamp generator 8 is by uviol lamp 9, and the uviol lamp drive circuit being connected with this uviol lamp 9 forms.Power supply 7 is processed for power distribution and transformation, and it is directly connected with power-supply controller of electric 6.

For guaranteeing result of use, the preferential IAQ-engine type air mass sensor that adopts Dalian elegance and talent sensing Science and Technology Ltd. to produce of this sensor 3 is realized.And power supply 7 is according to practical situation, can be realized by accumulator alternating current power supply that also can direct external 220V.

Uviol lamp generator 8 has the feature of low-power consumption, its uviol lamp driving circuit structure as shown in Figure 4, by transformator T2, the bridge rectifier mu balanced circuit being connected with transformator T2 secondary, and be serially connected in capacitor C X1 on the former limit of transformator T2 and form.This bridge rectifier mu balanced circuit is by diode-bridge circuit, and forms with electrochemical capacitor EC3 and electrochemical capacitor EC4 that this diode-bridge circuit outfan is in parallel, and two inputs of diode-bridge circuit are connected with the secondary of transformator T2 respectively.Meanwhile, 9 of uviol lamps are in parallel with this capacitor C X1.Wherein, this diode-bridge circuit is comprised of four diodes, diode D3, diode D4, diode D5 and diode D6, consists of.

During connection, diode D5 is connected in series with diode D3, diode D6 is connected in series with diode D4, and the last N utmost point of diode D3 and the N utmost point of diode D4 are connected and form an outfan, and the P utmost point of diode D5 is connected and forms another outfan with the P utmost point of diode D6.The junction point of diode D5 and diode D3 forms an input, and the junction point of diode D6 and diode D4 forms another input.

Described constant voltage transforming circuit is comprised of transformator T1, diode D1, electrochemical capacitor EC1, electrochemical capacitor EC2, resistance R 1 and resistance R 2 and resistance R 3.During connection, the non-same polarity of transformator T1 primary coil is connected with the VCC pin of chip CR1510 after resistance R 2 through resistance R 1 successively, and the Same Name of Ends of transformator T1 primary coil is connected with the VC1 pin of chip CR1510.The Same Name of Ends of transformator T1 secondary coil is connected with the non-same polarity of transformator T1 secondary coil after electrochemical capacitor EC1 through diode D1; Electrochemical capacitor EC2 and electrochemical capacitor EC1 are in parallel, and 3 of resistance R are in parallel with electrochemical capacitor EC2.

In order to ensure result of use, it is that the electric capacity of 330UF/6.3V is realized that this electrochemical capacitor EC1 and electrochemical capacitor EC2 all adopt parameter, and the resistance of resistance R 1 need to be 3k Ω, and the resistance of resistance R 2 and resistance R 3 is 5k Ω.

Described filter circuit is comprised of diode D2, capacitor C 1, capacitor C 2, capacitor C 3, resistance R 4 and resistance R 5.During connection, after capacitor C 1 is in parallel with diode D2, its one end is connected with the VCC pin of chip CR1510, and the other end is connected with the VSENSE pin of chip CR1510 after resistance R 4; 2 of resistance R 5 and capacitor C are all serially connected between the VSENSE pin and GND pin of chip CR1510; 3 of capacitor C are serially connected between the VCC pin and GND pin of chip CR1510.

As mentioned above, just can well realize this utility model.

Claims (6)

1. the digital display intelligent air cleaning system based on uviol lamp structure, it is characterized in that, mainly by casing, be arranged on liquid crystal display (2), button (4) and uviol lamp generator (8) in this casing, be arranged on the chip controls unit (1) of casing inside, be arranged on this casing is inner and be connected with chip controls unit (1) respectively sensor (3) and drive motors (5), and be arranged on power-supply controller of electric (6) composition that casing is inner and be connected with drive motors (5) with liquid crystal display (2) respectively; Described uviol lamp generator (8) is by uviol lamp (9), and the uviol lamp drive circuit being connected with this uviol lamp (9) forms.

2. the digital display intelligent air cleaning system based on uviol lamp structure according to claim 1, it is characterized in that, described uviol lamp drive circuit is by transformator T2, the bridge rectifier mu balanced circuit being connected with transformator T2 secondary, and being serially connected in the capacitor C X1 composition on the former limit of transformator T2, described uviol lamp (9) is in parallel with this capacitor C X1.

3. the digital display intelligent air cleaning system based on uviol lamp structure according to claim 2, it is characterized in that, described bridge rectifier mu balanced circuit is by diode-bridge circuit, and forms with electrochemical capacitor EC3 and electrochemical capacitor EC4 that this diode-bridge circuit outfan is in parallel; Two inputs of described diode-bridge circuit are connected with the secondary of transformator T2 respectively.

4. according to the digital display intelligent air cleaning system based on uviol lamp structure described in claim 1～3 any one, it is characterized in that, described chip controls unit is by chip CR1510, the constant voltage transforming circuit being connected with this chip CR1510, and the filter circuit being connected with this chip CR1510 forms.

5. the digital display intelligent air cleaning system based on uviol lamp structure according to claim 4, it is characterized in that, described constant voltage transforming circuit is comprised of transformator T1, diode D1, electrochemical capacitor EC1, electrochemical capacitor EC2, resistance R 1 and resistance R 2 and resistance R 3; The non-same polarity of transformator T1 primary coil is connected with the VCC pin of chip CR1510 after resistance R 2 through resistance R 1 successively, and the Same Name of Ends of transformator T1 primary coil is connected with the VC1 pin of chip CR1510; The Same Name of Ends of transformator T1 secondary coil is connected with the non-same polarity of transformator T1 secondary coil after electrochemical capacitor EC1 through diode D1; Electrochemical capacitor EC2 and electrochemical capacitor EC1 are in parallel, and 3 of resistance R are in parallel with electrochemical capacitor EC2.

6. the digital display intelligent air cleaning system based on uviol lamp structure according to claim 5, is characterized in that, described filter circuit is comprised of diode D2, capacitor C 1, capacitor C 2, capacitor C 3, resistance R 4 and resistance R 5; After described capacitor C 1 is in parallel with diode D2, its one end is connected with the VCC pin of chip CR1510, and the other end is connected with the VSENSE pin of chip CR1510 after resistance R 4; 2 of resistance R 5 and capacitor C are all serially connected between the VSENSE pin and GND pin of chip CR1510; 3 of capacitor C are serially connected between the VCC pin and GND pin of chip CR1510.