CN203673599U - Multi-channel infrared monitoring wireless alarm system - Google Patents

Abstract

The utility model discloses a multi-channel infrared monitoring wireless alarm system, which comprises a plurality of infrared detection transmitters and a wireless audible and visual alarm receiver, wherein each infrared detection transmitter is composed of an infrared detector, an encoder, a transmitter and a first power supply, the wireless audible and visual alarm receiver is composed of a receiver, a decoder, an audible and visual alarm and a second power supply, a control signal output end of each infrared detector is connected with a control signal input end of each encoder, a control signal output end of each encoder is connected with a control signal input end of each transmitter, a control signal output end of the receiver is connected with a control signal input end of the decoder, and a control signal output end of the decoder is connected with a control signal input end of the audible and visual alarm. The multi-channel infrared monitoring wireless alarm system is capable of monitoring day and night by adopting pyroelectric infrared sensors, avoids the interference of visible light, has strong anti-interference performance and has multi-channel monitoring alarm function; and the transmission units are relatively independent without the need of wiring and networking among the units, and the installation is convenient.

Description

A kind of hyperchannel infrared monitoring wireless alarm system

Technical field

The utility model relates to a kind of warning system, relates in particular to a kind of hyperchannel infrared monitoring wireless alarm system.

Background technology

Along with scientific and technological development, people's living standard is greatly improved, simultaneously, high-tech development also provides new crime technology to offender, the antitheft mode of that dependence installation Anti-theft door and window more and more can not meet the requirement of the daily strick precaution of people in the past, people are in the urgent need to a kind of intelligent guard against theft and alarm system, so the developing of automatic alarm system of locating about family, office and warehouse etc. come into one's own day by day, on market, there is various warning systems now, but mostly had the shortcoming that anti-interference is poor and wiring bothers.

Utility model content

The purpose of this utility model is just to provide in order to address the above problem a kind of hyperchannel infrared monitoring wireless alarm system.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of hyperchannel infrared monitoring wireless alarm system, comprise multiple infrared acquisition transmitters and a wireless acousto-optic warning receiver, described infrared acquisition transmitter is by infrared eye, scrambler, transmitter and the first power supply composition, described wireless acousto-optic warning receiver is by receiver, demoder, audible-visual annunciator and second source composition, described the first power supply respectively with the power end of described infrared eye, the power end of described scrambler is connected with the power end of described transmitter, the control signal output terminal of described infrared eye is connected with the control signal input end of described scrambler, the control signal output terminal of described scrambler is connected with the control signal input end of described transmitter, described second source respectively with the power end of described receiver, the power end of described demoder is connected with the power end of described audible-visual annunciator, the control signal output terminal of described receiver is connected with the control signal input end of described demoder, the control signal output terminal of described demoder is connected with the control signal input end of described audible-visual annunciator.

Particularly, described infrared eye comprises pyroelectric infrared sensor, the first electric capacity to the seven electric capacity, the first resistance to the six resistance, direct supply, triode, potentiometer and model are the single-chip microcomputer of BISS0001, the positive pole of described direct supply is connected with described the 6th first end of resistance and the power end of described pyroelectric infrared sensor respectively, the signal output part of described pyroelectric infrared sensor is connected with the first end of described the first electric capacity and the 14 pin of described single-chip microcomputer respectively, the second end of described the first electric capacity respectively with the earth terminal of described pyroelectric infrared sensor, the first end of described potentiometer, the first end of described the 5th electric capacity, the first end of described the 6th electric capacity, ground connection after described the 7th first end of electric capacity and the emitter of described triode are connected, the second end of described potentiometer and the sliding end of described potentiometer are connected with the tenth pin of described single-chip microcomputer respectively, the second end of described the 5th electric capacity is connected with the first end of described the 4th resistance, the second end of described the 4th resistance respectively with the first end of described the 4th electric capacity, the 15 pin of the first end of described the 3rd resistance and described single-chip microcomputer is connected, the second end of described the 3rd resistance respectively with the second end of described the 4th electric capacity, the 16 pin of the first end of described the second electric capacity and described single-chip microcomputer is connected, the second end of described the second electric capacity is connected with the first end of described the first resistance, the second end of described the first resistance respectively with the first end of described the second resistance, the 13 pin of the first end of described the 3rd electric capacity and described single-chip microcomputer is connected, the second end of described the second resistance is connected with the second end of described the 3rd electric capacity and the 12 pin of described single-chip microcomputer respectively, the second end of described the 6th electric capacity is connected with the 4th pin of described single-chip microcomputer, the second end of described the 7th electric capacity is connected with the first end of described the 5th resistance, the second end of described the 5th resistance is connected with the 6th pin of described single-chip microcomputer, the base stage of described triode is connected with the second pin of described single-chip microcomputer, the collector of described triode is connected with the second end of described the 6th resistance.

The beneficial effects of the utility model are:

The utility model is made up of multiple infrared acquisition transmitters and a wireless acousto-optic warning receiver, adopt pyroelectric infrared sensor to monitor round the clock, avoid visible ray to disturb, the strong interference immunity of system, simultaneity factor has hyperchannel monitoring alarm ability, and each transmitter unit is relatively independent, without wiring networking, easy for installation between unit.

Accompanying drawing explanation

Fig. 1 is a kind of hyperchannel infrared monitoring of the utility model wireless alarm system structured flowchart;

Fig. 2 is the circuit diagram of infrared eye described in the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, a kind of hyperchannel infrared monitoring of the utility model wireless alarm system, comprise multiple infrared acquisition transmitters and a wireless acousto-optic warning receiver, infrared acquisition transmitter is by infrared eye, scrambler, transmitter and the first power supply composition, wireless acousto-optic warning receiver is by receiver, demoder, audible-visual annunciator and second source composition, the first power supply respectively with the power end of infrared eye, the power end of scrambler is connected with the power end of transmitter, the control signal output terminal of infrared eye is connected with the control signal input end of scrambler, the control signal output terminal of scrambler is connected with the control signal input end of transmitter, second source respectively with the power end of receiver, the power end of demoder is connected with the power end of audible-visual annunciator, the control signal output terminal of receiver is connected with the control signal input end of demoder, the control signal output terminal of demoder is connected with the control signal input end of audible-visual annunciator.

As shown in Figure 2, infrared eye comprises pyroelectric infrared sensor S, the first capacitor C 1 is to the 7th capacitor C 7, the first resistance R 1 is to the 6th resistance R 6, direct supply V, triode VT, potentiometer RP and model are the single-chip microcomputer IC of BISS0001, the positive pole of direct supply V is connected with the first end of the 6th resistance R 6 and the power end of pyroelectric infrared sensor S respectively, the signal output part of pyroelectric infrared sensor S is connected with the first end of the first capacitor C 1 and the 14 pin of single-chip microcomputer IC respectively, the second end of the first capacitor C 1 respectively with the earth terminal of pyroelectric infrared sensor S, the first end of potentiometer RP, the first end of the 5th capacitor C 5, the first end of the 6th capacitor C 6, ground connection after the first end of the 7th capacitor C 7 is connected with the emitter of triode VT, the second end of potentiometer RP is connected with the tenth pin of single-chip microcomputer IC respectively with the sliding end of potentiometer RP, the second end of the 5th capacitor C 5 is connected with the first end of the 4th resistance R 4, the second end of the 4th resistance R 4 respectively with the first end of the 4th capacitor C 4, the 15 pin of the first end of the 3rd resistance R 3 and single-chip microcomputer IC is connected, the second end of the 3rd resistance R 3 respectively with the second end of the 4th capacitor C 4, the 16 pin of the first end of the second capacitor C 2 and single-chip microcomputer IC is connected, the second end of the second capacitor C 2 is connected with the first end of the first resistance R 1, the second end of the first resistance R 1 respectively with the first end of the second resistance R 2, the 13 pin of the first end of the 3rd capacitor C 3 and single-chip microcomputer IC is connected, the second end of the second resistance R 2 is connected with the second end of the 3rd capacitor C 3 and the 12 pin of single-chip microcomputer IC respectively, the second end of the 6th capacitor C 6 is connected with the 4th pin of single-chip microcomputer IC, the second end of the 7th capacitor C 7 is connected with the first end of the 5th resistance R 5, the second end of the 5th resistance R 5 is connected with the 6th pin of single-chip microcomputer IC, the base stage of triode VT is connected with the second pin of single-chip microcomputer IC, the collector of triode VT is connected with the second end of the 6th resistance R 6.

This system is utilized infrared eye perception periphery situation, in the time there is the thermal objects that such as human body etc. moved around certain infrared eye, it receives faint infrared signal, and through internal circuit processing, output a control signal to scrambler, scrambler sends one group of corresponding serial code, and this serial code is delivered to transmitter as modulation signal, and modulation signal is by the built-in aerial transmitting of transmitter; Receiver amplifies and detection processing the signal receiving, the modulation signal of reduction serial, and sent into demoder, demoder is identified this signal, in the time that the geocoding of demoder and scrambler is in full accord, start audible-visual annunciator, supervisor just can judge according to light emitting diode position the warning which passage sends.

Claims (2)

1. a hyperchannel infrared monitoring wireless alarm system, it is characterized in that: comprise multiple infrared acquisition transmitters and a wireless acousto-optic warning receiver, described infrared acquisition transmitter is by infrared eye, scrambler, transmitter and the first power supply composition, described wireless acousto-optic warning receiver is by receiver, demoder, audible-visual annunciator and second source composition, described the first power supply respectively with the power end of described infrared eye, the power end of described scrambler is connected with the power end of described transmitter, the control signal output terminal of described infrared eye is connected with the control signal input end of described scrambler, the control signal output terminal of described scrambler is connected with the control signal input end of described transmitter, described second source respectively with the power end of described receiver, the power end of described demoder is connected with the power end of described audible-visual annunciator, the control signal output terminal of described receiver is connected with the control signal input end of described demoder, the control signal output terminal of described demoder is connected with the control signal input end of described audible-visual annunciator.

2. a kind of hyperchannel infrared monitoring wireless alarm system according to claim 1, it is characterized in that: described infrared eye comprises pyroelectric infrared sensor, the first electric capacity to the seven electric capacity, the first resistance to the six resistance, direct supply, triode, potentiometer and model are the single-chip microcomputer of BISS0001, the positive pole of described direct supply is connected with described the 6th first end of resistance and the power end of described pyroelectric infrared sensor respectively, the signal output part of described pyroelectric infrared sensor is connected with the first end of described the first electric capacity and the 14 pin of described single-chip microcomputer respectively, the second end of described the first electric capacity respectively with the earth terminal of described pyroelectric infrared sensor, the first end of described potentiometer, the first end of described the 5th electric capacity, the first end of described the 6th electric capacity, ground connection after described the 7th first end of electric capacity and the emitter of described triode are connected, the second end of described potentiometer and the sliding end of described potentiometer are connected with the tenth pin of described single-chip microcomputer respectively, the second end of described the 5th electric capacity is connected with the first end of described the 4th resistance, the second end of described the 4th resistance respectively with the first end of described the 4th electric capacity, the 15 pin of the first end of described the 3rd resistance and described single-chip microcomputer is connected, the second end of described the 3rd resistance respectively with the second end of described the 4th electric capacity, the 16 pin of the first end of described the second electric capacity and described single-chip microcomputer is connected, the second end of described the second electric capacity is connected with the first end of described the first resistance, the second end of described the first resistance respectively with the first end of described the second resistance, the 13 pin of the first end of described the 3rd electric capacity and described single-chip microcomputer is connected, the second end of described the second resistance is connected with the second end of described the 3rd electric capacity and the 12 pin of described single-chip microcomputer respectively, the second end of described the 6th electric capacity is connected with the 4th pin of described single-chip microcomputer, the second end of described the 7th electric capacity is connected with the first end of described the 5th resistance, the second end of described the 5th resistance is connected with the 6th pin of described single-chip microcomputer, the base stage of described triode is connected with the second pin of described single-chip microcomputer, the collector of described triode is connected with the second end of described the 6th resistance.

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