CN203441346U - Roller shutter door infrared resistance protection circuit - Google Patents

Abstract

A roller shutter door infrared resistance protection circuit comprises an infrared emission circuit, an infrared receiver circuit, a roller shutter controller and a power supply. The infrared emission circuit and the infrared receiver circuit are connected with the roller shutter controller. The infrared emission circuit comprises a first voltage stabilizing regulator circuit, a first controller and a light emitting circuit. The output end of the power supply is connected with the positive electrode of a first diode. The negative electrode of the first diode is connected with the power supply input end of the voltage stabilizing regulator circuit. The power supply input end of the first controller is connected with the output end of a voltage stabilizing power supply regulator circuit. The emission control end of the first controller is connected with the input end of the light emitting circuit. A new circuit design is adopted, the circuit is simplified, cost is reduced, and controllability is improved.

Description

The infrared holding circuit that is hampered of a kind of rolling door

Technical field

The utility model relates to the infrared holding circuit that is hampered in rolling door control circuit field, particularly a kind of rolling door.

Background technology

Along with scientific and technical development, as the desirable auxiliary products of electric rolling door engineering, rolling screen door controller of a great variety, rolling screen door controller mainly contains AC type, alternating current-direct current storing electricity and this three types of fire-type in the market.Different types has its perfect function, as " left and right installation ", " the infrared protection that is hampered ", " wireless remote control control ", " break alarm " etc.The infrared protection that is hampered refers to be controlled motor when rolling screen door controller and makes rolling door in process of rising or falling, if infrared receiving device is not received the waveform of correct infrared launcher transmitting, relay in infrared receiving device is action just, and feed back to the signal of a high level of rolling screen door controller, rolling door is slack or bounce-back (situation about declining for roller shutter) immediately just; Stopping or rebounding is the program decision by rolling screen door controller, and the action that dissimilar rolling screen door controller is carried out is different; Under working as like this, there is Vehicle Driving Cycle, when people passes through, just played the effect of protection.There is following shortcoming in traditional circuit design: 1, be only applicable to the level-type Receiver of direct-coupling (not with noise suppressed), and the impulse type of Capacitance Coupled (band noise suppressed) can not be suitable for; 2, Receiver is easily subject to the impact of the similar wavelength such as fluorescence lamp, sunshine; 3, Receiver level just changes soon, causes relay turn-on and turn-off frequently, affects the life-span of relay and feeds back to the stability of controller signals, increases the weight of to disturb and false triggering; 4, be subject to the interference ratio of IR remote controller larger.

Utility model content

Main purpose of the present utility model is to overcome the above-mentioned shortcoming of prior art, proposes a kind of simplification circuit, increases controllability, the infrared holding circuit that is hampered of rolling door applied widely.

The utility model adopts following technical scheme:

The infrared holding circuit that is hampered of a kind of rolling door, comprise an infrared transmitting circuit, one infrared receiving circuit, one roller shutter controller and power supply, this infrared transmitting circuit is connected with roller shutter controller with infrared receiving circuit, it is characterized in that: described infrared transmitting circuit comprises one first voltage stabilizing Circuit tuning, one first controller and an illuminating circuit, this power supply output connects the first diode cathode, this first diode cathode is connected with the power input of voltage stabilizing Circuit tuning, the power input of this first controller is connected with the output of voltage-stabilized power supply Circuit tuning, the emission control end of this first controller is connected with the input of illuminating circuit.

Further, described the first voltage stabilizing Circuit tuning comprises a power input, an earth terminal and a power output end, between this power input and earth terminal, be connected with one first light emitting diode and one first resistance, between this first voltage stabilizing Circuit tuning output and ground, connect one first electric capacity, on this first electric capacity, be parallel with one the 3rd electric capacity, this first voltage stabilizing Circuit tuning output also connects the power input of the first controller.

Further, described the first controller includes a power input, an earth terminal, judgement end and an emission control end, this power input is connected with the power output end of the first voltage stabilizing Circuit tuning, this judgement end is connected with the earth terminal of the first voltage stabilizing Circuit tuning by one second resistance, and this emission control end connects described illuminating circuit by one the 3rd resistance.

Further, described illuminating circuit comprises an infraluminescence pipe and one first triode, the base stage of described the first triode connects described the 3rd resistance, the grounded emitter of this first triode, the colelctor electrode of this first triode connects the negative pole of infraluminescence pipe, and the positive pole of this infraluminescence pipe connects the power input of voltage stabilizing Circuit tuning.

Further, described infrared receiving circuit comprises one second voltage stabilizing Circuit tuning, an infrared receiving terminal, a second controller and a relay circuit, the input of this second voltage stabilizing Circuit tuning is connected with the negative pole of the first diode, the output of this second voltage stabilizing Circuit tuning is connected with the power input of infrared receiving terminal input and second controller, this infrared receiving terminal output connects the reception control end of second controller, the relay control end of this second controller is connected with the input of relay circuit, and the output of this relay circuit connects roller shutter controller.

Further, described the second voltage stabilizing Circuit tuning comprises a power input, an earth terminal and a power output end, between this power input and earth terminal, be connected with one the 4th electric capacity, one the 5th electric capacity in parallel on the 4th electric capacity, between the power output end of this second voltage stabilizing Circuit tuning and earth terminal, connect one the 6th electric capacity, the power output end of this second voltage stabilizing Circuit tuning also connects the input of infrared receiving terminal and the power input of second controller.

Further, described second controller comprises that a power input, an earth terminal, a judgement end, receive control end and a relay control end, between this power input and judgement end, be connected with one the 7th resistance, between the earth terminal of this power input and the second voltage stabilizing Circuit tuning, be connected with one the 7th electric capacity, this reception control end is connected with the output of infrared receiving terminal, and this relay control end connects the input of described relay circuit by one the 8th resistance.

Further, described relay circuit comprises one second triode, a relay and one second diode, this relay comprises a power input, a control input end and a feedback output end, the base stage of this second triode is connected with the 8th resistance, grounded emitter, colelctor electrode is connected with the input control end of relay, and the power input of relay is connected with the negative pole of the first diode, and the feedback output end of relay is connected with the input of roller shutter controller.

From above-mentioned, to description of the present utility model, compared with prior art, the utlity model has following beneficial effect:

1, the utility model is not only applicable to direct-coupled level-type infrared receiving terminal, is applicable to capacity coupled impulse type infrared receiving terminal yet;

2, infrared receiving terminal level of the present utility model does not just change and can cause the frequent break-make of relay because radiating circuit is interfered, and has increased the stability of relay feedback signal, reduces false triggering;

3, the utility model adopts new circuit design, has simplified circuit, has reduced cost, has increased controllability.

Accompanying drawing explanation

Fig. 1 is the connection diagram of the utility model radiating circuit;

Fig. 2 is the connection diagram of the utility model receiving circuit.

The specific embodiment

Below by the specific embodiment, the utility model will be further described.

With reference to Fig. 1; the infrared holding circuit that is hampered of a kind of rolling door; for controlling rolling door process of rising or falling at rolling screen door controller; if while having vehicle or people to pass through; control rolling door and stop action; play a protective role, it comprises an infrared transmitting circuit, an infrared receiving circuit, roller shutter controller and a power supply.Infrared transmitting circuit is connected with roller shutter controller with infrared receiving circuit, is installed on respectively the both sides of rolling door, and keeps certain height and be positioned in same level.

Infrared transmitting circuit comprises one first voltage stabilizing Circuit tuning, one first controller and an illuminating circuit.The first voltage stabilizing Circuit tuning comprises a power input Vin, an earth terminal GND and a power output end Vout.Between this power input Vin and earth terminal GND, be connected with one first light emitting diode D2 and one first resistance R 1, between this first voltage stabilizing Circuit tuning output end vo ut and earth terminal GND, connect one first capacitor C 1, the power output end Vout of this first voltage stabilizing Circuit tuning also connects the power input of the first controller.Between the power input Vin of the output VCC of power supply and the first voltage stabilizing Circuit tuning, be connected with the first diode D1, between the negative pole of this first diode D1 and the earth terminal GND of power supply, be connected with the second capacitor C 2.

The first controller includes a power input VDD, an earth terminal VSS, judgement end GP5 and an emission control end GP2.This power input VDD is connected with the power output end Vout of the first voltage stabilizing Circuit tuning, between the power input VDD of this first controller and the earth terminal GND of the first voltage stabilizing Circuit tuning, is connected with the 3rd capacitor C 3.The judgement end GP5 of this first controller is connected with the earth terminal GND of the first voltage stabilizing Circuit tuning by one second resistance R 2, by this judgement, holds the low and high level of GP5 to judge whether to launch infrared rays.The emission control end GP2 of this first controller connects illuminating circuits by one the 3rd resistance R 3, and the low and high level of the emission control end GP2 by this first controller is controlled illuminating circuit transmitting infrared rays.Other interfaces GP0, GP1, the GP3 of the first controller form the connector of online cd-rom recorder together with VDD, GND, wherein between GP3 and the power output end Vout of voltage stabilizing Circuit tuning, are connected with the 4th resistance R 4.

Illuminating circuit comprises an infraluminescence pipe D3 and one first triode Q1, and the base stage of the first triode Q1 connects the 3rd resistance R 3, grounded emitter, and colelctor electrode connects the negative pole of infraluminescence pipe D3.The positive pole of this infraluminescence pipe D3 connects by two mutual the 5th resistance R 5 in parallel and is connected the power input Vin of voltage stabilizing Circuit tuning with the 6th resistance R 6.

With reference to Fig. 2, infrared receiving circuit comprises one second voltage stabilizing Circuit tuning, an infrared receiving terminal IR, a second controller and a relay circuit.The second voltage stabilizing Circuit tuning comprises a power input Vin, an earth terminal GND and a power output end Vout.The power input Vin of the second voltage stabilizing Circuit tuning and earth terminal GND are connected respectively output VCC and the earth terminal GND of power supply.Infrared receiving terminal IR comprises input Vcc, output OUT and earth terminal GND.Between the power input Vin of the second voltage stabilizing Circuit tuning and earth terminal GND, be connected with one the 4th capacitor C 4, one the 5th capacitor C 5 in parallel in the 4th capacitor C 4, between the power output end Vout of this second voltage stabilizing Circuit tuning and earth terminal GND, connect one the 6th capacitor C 6, the power output end Vout of this second voltage stabilizing Circuit tuning also connects the input VCC of infrared receiving terminal IR and the power input of second controller.

Second controller comprises that a power input VDD, an earth terminal VSS, a judgement end GP5, receive control end GP4 and a relay control end GP2.Between this power input VDD and judgement end GP5, be connected with one the 7th resistance R 7, between this power input VDD and the earth terminal GND of the second voltage stabilizing Circuit tuning, be connected with one the 7th capacitor C 7.The judgement end GP5 of this second controller judges whether receiving infrared-ray by low and high level.This reception control end GP4 is connected with the output OUT of infrared receiving terminal for controlling infrared receiving terminal IR receiving infrared-ray, this relay control end GP2 connects relay circuit input by one the 8th resistance R 8, and the low and high level of this relay control end GP2 has determined the action of relay circuit.Other interfaces GP0, GP1, the GP3 of second controller form the connector of online cd-rom recorder together with VDD, GND.

Relay circuit comprises one second triode Q2, one second diode D4, a relay K, and the base stage of this second triode Q2 is connected with the 5th resistance R 8, grounded emitter.Relay K comprises a power input a and a control input end b and a feedback output end c, and its power input a is connected with the negative pole of the first diode D1.The control input end b of relay K is connected with the colelctor electrode of the second triode Q2, the negative pole and the positive pole that between the power input c of relay K and control input end, connect respectively the second diode D4, the anodal negative pole that connects the second light emitting diode D5 of this second diode D4, between the input OUT of the positive pole of the second light emitting diode D5 and infrared receiving terminal, be in series with one the 9th resistance R 9 and 1 the tenth resistance R 10, the feedback output end c of this relay K is connected for controlling the action of roller shutter controller with the input of roller shutter controller.Between the GP3 end of the tenth resistance R 10 and second controller, be connected with the 11 resistance R 11.

First, second voltage stabilizing Circuit tuning of the present utility model all adopts 78L05, and first, second controller all adopts 12F509, and first, second triode Q1, Q2 adopt respectively C9013 and B9013.DATA terminals in Fig. 2 connect roller shutter controller, between these DATA terminals and the earth terminal of power supply, are connected with the 12 resistance.Second and third, five, six electric capacity all adopt electrochemical capacitor, capacitance values is respectively 100UF/25V, 47UF/16V, 100UF/25V, 47UF/16V, its both positive and negative polarity connects respectively with reference to shown in Fig. 1, Fig. 2, and the first, the 4th, the 7th capacitance is 0.1UF/25V.The first resistance R 1 is to the 4th resistance R 4, and the 7th, the 8th, the resistance of the 11 resistance R 7, R8, R11 is 4.7k; Five, the resistance of the 6th resistance R 5, R6 is 1.2k; The 9th resistance R 9 is 1k; The tenth resistance R the 10, the 12 resistance is 10k.

Operating principle of the present utility model is as follows:

Power supply is opened as radiating circuit and receiving circuit power supply, the first controller controls the first triode Q1 conducting by emission control end GP2 or thereby cut-off control illuminating circuit for example, is launched infrared waveform at interval of one end time (20ms), second controller receives the infrared waveform from infrared receiving terminal IR by receiving control end GP4, if infrared receiving terminal IR receives correct waveform, relay K is failure to actuate, its feedback output end c output low level, roller shutter controller continues action; If do not receive infrared waveform or the infrared waveform mistake of receiving, the relay control end GP2 control relay K of second controller action, the second light emitting diode D5 is bright, and the feedback output end c output high level of relay is to roller shutter controller, and screen-roller is controlled rolling door and stopped action.

Above are only the specific embodiment of the present utility model, but design concept of the present utility model is not limited to this, allly utilizes this design to carry out the change of unsubstantiality to the utility model, all should belong to the behavior of invading the utility model protection domain.

Claims (8)

1. the infrared holding circuit that is hampered of rolling door, comprise an infrared transmitting circuit, one infrared receiving circuit, one roller shutter controller and power supply, this infrared transmitting circuit is connected with roller shutter controller with infrared receiving circuit, it is characterized in that: described infrared transmitting circuit comprises one first voltage stabilizing Circuit tuning, one first controller and an illuminating circuit, this power supply output connects the first diode cathode, this first diode cathode is connected with the power input of voltage stabilizing Circuit tuning, the power input of this first controller is connected with the output of voltage-stabilized power supply Circuit tuning, the emission control end of this first controller is connected with the input of illuminating circuit.

2. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 1; it is characterized in that: described the first voltage stabilizing Circuit tuning comprises a power input, an earth terminal and a power output end; between this power input and earth terminal, be connected with one first light emitting diode and one first resistance; between this first voltage stabilizing Circuit tuning output and ground, connect one first electric capacity; on this first electric capacity, be parallel with one the 3rd electric capacity, this first voltage stabilizing Circuit tuning output also connects the power input of the first controller.

3. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 2; it is characterized in that: described the first controller includes a power input, an earth terminal, judgement end and an emission control end; this power input is connected with the power output end of the first voltage stabilizing Circuit tuning; this judgement end is connected with the earth terminal of the first voltage stabilizing Circuit tuning by one second resistance, and this emission control end connects described illuminating circuit by one the 3rd resistance.

4. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 3; it is characterized in that: described illuminating circuit comprises an infraluminescence pipe and one first triode; the base stage of described the first triode connects described the 3rd resistance; the grounded emitter of this first triode; the colelctor electrode of this first triode connects the negative pole of infraluminescence pipe, and the positive pole of this infraluminescence pipe connects the power input of voltage stabilizing Circuit tuning.

5. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 1, it is characterized in that: described infrared receiving circuit comprises one second voltage stabilizing Circuit tuning, one infrared receiving terminal, one second controller and a relay circuit, the input of this second voltage stabilizing Circuit tuning is connected with the negative pole of the first diode, the output of this second voltage stabilizing Circuit tuning is connected with the power input of infrared receiving terminal input and second controller, this infrared receiving terminal output connects the reception control end of second controller, the relay control end of this second controller is connected with the input of relay circuit, the output of this relay circuit connects roller shutter controller.

6. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 5; it is characterized in that: described the second voltage stabilizing Circuit tuning comprises a power input, an earth terminal and a power output end; between this power input and earth terminal, be connected with one the 4th electric capacity; one the 5th electric capacity in parallel on the 4th electric capacity; between the power output end of this second voltage stabilizing Circuit tuning and earth terminal, connect one the 6th electric capacity, the power output end of this second voltage stabilizing Circuit tuning also connects the input of infrared receiving terminal and the power input of second controller.

7. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 6; it is characterized in that: described second controller comprises that a power input, an earth terminal, a judgement end, receive control end and a relay control end; between this power input and judgement end, be connected with one the 7th resistance; between the earth terminal of this power input and the second voltage stabilizing Circuit tuning, be connected with one the 7th electric capacity; this reception control end is connected with the output of infrared receiving terminal, and this relay control end connects the input of described relay circuit by one the 8th resistance.

8. the infrared holding circuit that is hampered of a kind of rolling door as claimed in claim 7; it is characterized in that: described relay circuit comprises one second triode, a relay and one second diode; this relay comprises a power input, a control input end and a feedback output end; the base stage of this second triode is connected with the 8th resistance; grounded emitter; colelctor electrode is connected with the input control end of relay; the power input of relay is connected with the negative pole of the first diode, and the feedback output end of relay is connected with the input of roller shutter controller.