CN203305960U - Rolling code remote control auxiliary anti-theft control device - Google Patents

Abstract

The utility model relates to a rolling code remote control auxiliary anti-theft control device and belongs to the field of anti-theft warning equipment. The rolling code remote control auxiliary anti-theft control device comprises a shell (16), a locking lug (9) arranged at one side of the shell (16) and a control circuit arranged in the shell (16), and is characterized in that a vibrating induction device and a spring bolt driving device which is driven by a stepping motor (15) are mounted and fixed in the shell (16); a power supply (1), a warner (17), a stirring sheet induction device and the spring bolt driving device are connected with the control circuit. The rolling code remote control auxiliary anti-theft control device is of a simple structure and has reliable performance, can perform anti-theft detection from many aspects and does not need a special spare key for opening so as to avoid the defect that the traditional anti-theft lock is easy to open. The rolling code remote control auxiliary anti-theft control device is provided with a vibrating sensor and a hall sensor, and prevents lawbreakers from unlocking and stealing from two aspects of violent unlocking and technical unlocking.

Description

Anti-theft control device is assisted in a kind of rolling code remote control

Technical field

Anti-theft control device is assisted in a kind of rolling code remote control, belongs to the anti-theft alarming equipment field.Be specifically related to a kind of anti-joyride device of rolling code remote control in conjunction with the passive door lock control that adopt.

Background technology

At present, be accompanied by being becoming increasingly rampant and the raising gradually of the antitheft consciousness of people of pilferage behavior, on the basis of traditional mechanical lock, many high-tech antitheft alarm systems also occurred thereupon.Antitheft alarm system in the market mainly adopts following several mode: the encrypting fingerprint code, the remote control encrypted code, the remote control adding fingerprint, swipe the card induction lock or light code unblanked etc., but be that an identical drawback all can appear in which kind of mode: namely nearly all mode all needs to be equipped with standby key, in case remote control, password, fingerprint or sensor circuit go wrong, just need to use standby key that door is opened, so just given the thief with opportunity, as long as key hole is arranged, the thief just can open door by technology unlocking or the violence mode such as unblank, allow high-tech become ornaments.Moreover most remote-controlled lock is all laid the key under the door, opening door of remote-control, the power consumption of its circuit is also very important problem.

Summary of the invention

The technical problems to be solved in the utility model is: overcome the deficiencies in the prior art, provide a kind of simple in structure, dependable performance, can carry out the antitheft auxiliary anti-theft control device of a kind of rolling code remote control of opening without special standby key simultaneously that detects from many aspects.

The technical scheme that its technical matters that solves the utility model adopts is: anti-theft control device is assisted in this rolling code remote control, comprise shell, be arranged on the lock ear of shell one side and control circuit in the enclosure is set, it is characterized in that: vibration inductor and the tongue driving device driven by stepping motor are fixed in shell, power supply, annunciator are outside shell, and power supply, annunciator, plectrum induction installation and tongue driving device all are connected with control circuit.

Described tongue driving device comprises stepping motor, gear system, dead bolt driver plate and adapter plate, the dead bolt driver plate is fixed on adapter plate, the fixing main circuit board top in the enclosure of adapter plate, gear system is fixed between adapter plate and shell, gear matches with the output shaft of stepping motor, the shifting block matched with gear is installed on the dead bolt driver plate, and dead bolt is fixed on dead bolt driver plate right side.

Left side, described adapter plate top is provided with rectangular preiection, on rectangular preiection, is fixed with magnetic bead, and the both sides of magnetic bead are provided with the latch bolt position induction installation, and described latch bolt position induction installation is two Hall elements that are connected with control circuit.

The Hall element that described plectrum induction installation comprises plectrum and is positioned at plectrum below, plectrum movably cover on key hole in order to cover key hole, and the plectrum inboard is fixed with the magnetics matched with Hall element.

Described vibration inductor is vibration sensor.

Described tongue driving device below is provided with the detecting device of closing the door simultaneously.

The described detecting device of closing the door comprises magneto-dependent sensor and magnetic sheet, and magneto-dependent sensor is positioned at below, shell right side, and the magnetic sheet correspondence is arranged on below, left side in the lock ear.

Described control circuit comprises micro controller system, annunciator driving circuit, buzzer drive circuit, stepper motor driving circuit, power supply voltage testing circuit and power supply, micro controller system is connected with stepping motor by stepper motor driving circuit, the power supply voltage testing circuit is connected with micro controller system, micro controller system is connected with buzzer drive circuit and annunciator driving circuit simultaneously, buzzer drive circuit is connected with buzzer phone, and the annunciator driving circuit is connected with annunciator.

On described gear, be equipped with and the co-axially fixed rotor switch of gear.

Compared with prior art, the beneficial effect had of the present utility model is:

1, this device is deployed troops on garrison duty by remote control and releasing is deployed troops on garrison duty, and without special standby key, opens the drawback of having avoided traditional anti-theft column lock easily to open;

2, be provided with vibration sensor and Hall element, avoided simultaneously the lawless person to unblank to unblank to steal with technology unlocking two aspects from violence;

3, by micro controller system, whole working process is controlled, more intelligent;

4, this device under normal circumstances, is in dormant state, and power consumption is extremely low;

5, simple in structure, dependable performance.

The accompanying drawing explanation

Fig. 1 is the auxiliary anti-theft control device structural representation of a kind of rolling code remote control.

Fig. 2 is the auxiliary anti-theft control device control circuit functional-block diagram of a kind of rolling code remote control.

Fig. 3 is existing machinery anti-theft lock structure schematic diagram.

Fig. 4 is the auxiliary anti-theft control device micro controller system of a kind of rolling code remote control and signal input and output circuit schematic diagram.

Fig. 5 is the auxiliary anti-theft control device stepper motor driving circuit schematic diagram of a kind of rolling code remote control.

Fig. 6 is the auxiliary anti-theft control device power supply voltage testing circuit schematic diagram of a kind of rolling code remote control.

Fig. 7 is the auxiliary anti-theft control device vibration sensor signal input circuit schematic diagram of a kind of rolling code remote control.

Fig. 8 is the auxiliary anti-theft control device buzzer phone of a kind of rolling code remote control and annunciator driving circuit principle figure.

Wherein: 1, power supply 2, buzzer phone 3, vibration sensor 4, main circuit board 5, magnetic bead 6, button 7, adapter plate 8, dead bolt 9, lock ear 10, magnetic sheet 11, magneto-dependent sensor 12, dead bolt driver plate 13, rotor switch 14, gear 15, stepping motor 16, shell 17, annunciator 18, plectrum 19, handle 20, key hole.

The specific embodiment

Fig. 1 ~ 8th, most preferred embodiment of the present utility model, be described further below in conjunction with 1 ~ 8 pair of the utility model of accompanying drawing.

As shown in Figure 1, shell 16 is rectangle, and power supply 1 and annunciator 17 are positioned at the outside of shell 16.In shell 16, the fixing thereunder left side of stepping motor 15, gear 14 is fixed on shell 16 middle parts, and is meshed with the gear on the axle of stepping motor 15.Gear 14 the place aheads are equipped with dead bolt driver plate 12, are provided with the shifting block matched with gear 14 on dead bolt driver plate 12 face relative with gear 14, when gear 14 rotates, drive the shifting block motion, realize dead bolt driver plate 12 motion in the horizontal direction.The top of dead bolt driver plate 12 is provided with adapter plate 7, and adapter plate 7 left sides, top are given prominence to and are provided with a rectangular preiection, on the leading flank of this rectangular preiection, are fixed with magnetic bead 5.The right side of dead bolt driver plate 12 is provided with the dead bolt 8 that can pass shell 16.The rectangular preiection of dead bolt driver plate 12, dead bolt 8, adapter plate 7 and adapter plate 7 tops is integrated structure.When stepping motor 15 rotates, gear 14 rotates thereupon, by gear 14, drive the movement that dead bolt driver plate 12 is realized on horizontal direction, now, dead bolt driver plate 12 drives the magnetic bead 5 on it and promotes to be positioned at dead bolt 8 parallel motions on its right side, extended or the shell 16 that bounces back back of dead bolt 8, realize locking a door and opening the door.The leading flank of dead bolt driver plate 12 is provided with and the co-axially fixed rotor switch 13 that is positioned at shell 16 outsides of gear 14, also can realize the parallel motion of dead bolt driver plate 12 by rotation turn switch 13.

The rear of adapter plate 7 is fixed with main circuit board 4, and the left side of main circuit board 4 is welded with buzzer phone 2 and vibration sensor 3.On main circuit board 4, be welded with simultaneously the left and right sides that two Hall elements (not shown in FIG.) lay respectively at magnetic bead 5, with magnetic bead 5, match, when magnetic bead 5 under the drive of dead bolt driver plate 12 during sway, the Hall element that is positioned at its both sides can detect the change in location of magnetic bead 5, to mean the position of dead bolt 8.The top outer of shell 16 is fixed with the button 6 be connected with main circuit board 4, also can deploy troops on garrison duty by 6 realizations that push button when using a teleswitch.

Lock ear 9 is arranged on shell 16 outsides, and with dead bolt 8 homonymies, dead bolt 8 stretches into lock ear 9 inside and completes and lock.The below of dead bolt 8 is provided with magneto-dependent sensor 11, is symmetrically installed with the magnetic sheet 10 matched with magneto-dependent sensor 11 below lock ear 9 inside.

In the utility model, adopted the battery of two kinds of specifications, carry out respectively the power supply of direct current 12V and direct current 5V, the battery of two kinds of output voltages all is positioned at power supply 1.Power supply 1 and annunciator 17 are connected by the control circuit on the main circuit board 4 in wire and shell 16, and the control circuit on main circuit board 4 is connected to be connected with magneto-dependent sensor 11 with stepping motor 15 by wire simultaneously.The working process of the auxiliary anti-theft control device of a kind of rolling code remote control of the present utility model is controlled by the control circuit on main circuit board 4.

As shown in Figure 2, in the existing machinery anti-theft column lock, key hole 20 is positioned at handle 19 belows, in the utility model, structure to original key hole 20 is changed, opening part installed inside at key hole 20 has plectrum 18, and plectrum 18 can rotate around key hole 20, and key hole 20 is blocked fully.When opening the door, need at first plectrum 18 be pushed aside.On plectrum 18, inboard is fixed with magnetics (not shown in FIG.), with the magnetics on plectrum 18, match below plectrum 18, being provided with the 3rd Hall element (not shown in FIG.), this Hall element is connected with main circuit board 4 simultaneously, when plectrum 18 is pushed aside, the Hall element that is positioned at its below can, to main circuit board 4 output signals, mean the current state of plectrum 18.

As shown in Figure 3, the control circuit of the auxiliary anti-theft control device of a kind of rolling code remote control of the present utility model consists of the following components: micro controller system, annunciator driving circuit, buzzer drive circuit, stepper motor driving circuit, power supply voltage testing circuit and power supply (not shown in FIG.).Micro controller system is realized the control to stepping motor (being stepping motor 15) by the stepper motor driving circuit be attached thereto, to realize the lock and unlock action.Micro controller system is connected with its driving circuit of reporting to the police with buzzer drive circuit simultaneously, buzzer drive circuit is connected with buzzer phone (being buzzer phone 2), the annunciator driving circuit is connected with annunciator (being annunciator 17), micro controller system can send respectively drive buzzer phone (being buzzer phone 2) and annunciator (being annunciator 17) is sounded, the power supply voltage testing circuit is connected with micro controller system, when the power supply voltage testing circuit detects power supply voltage hour, to micro controller system, send signal, micro controller system sends the driving signal to buzzer drive circuit and sends the sound to drive buzzer phone (being buzzer phone 2), battery is changed in prompting.Be provided with simultaneously the sensor and the signal receiver that with micro controller system, are connected, the signal that sensor will detect is passed to micro controller system, and sends corresponding control signal by micro controller system.Signal receiver is connected with micro controller system, by signal receiver, completes to deploy troops on garrison duty and deploy troops on garrison duty to remove operating.

In the utility model, above-mentioned sensor involving vibrations sensor 3, three Hall elements that are arranged on plectrum 18 belows and magnetic bead 5 both sides and magneto-dependent sensor 11, wherein vibration sensor 3 need to be passed to micro controller system by vibration signal by signal input circuit.

For deploying troops on garrison duty and removing the signal receiver of deploying troops on garrison duty and can with micro controller system, be connected by wired and/or wireless mode, in the utility model, preferentially select wireless mode (as remote controller) to be connected with micro controller system, also can realize deploying troops on garrison duty (as the button 6 by being connected with micro controller system) by wired mode.

As shown in Figure 4,1 pin of micro controller system U1 is connected with 2 pins of 3 pins respectively at connection terminal J1 and connection terminal J5, the 1 pin ground connection of connection terminal J1 and connection terminal J5, and 3 pins connect power Vcc.The negative pole of the 4 pins while chemical capacitor C1 in parallel of micro controller system U1 and an end of resistance R 1, the positive pole of chemical capacitor C1 connects power Vcc, the other end ground connection of resistance R 1.5 pins of micro controller system U1 are connected with 3 pins with 2 pins of connection terminal J8 respectively with 7 pins, the 1 pin ground connection of connection terminal J8, and 4 pins connect power Vcc.14 pins of micro controller system U1 and 15 pins are series capacity C3 and the rear ground connection of capacitor C 2 respectively, between capacitor C 2 and capacitor C 3, is parallel with simultaneously crystal oscillator X1, the 16 pin ground connection of micro controller system U1.20 pin of micro controller system U1 are connected with the negative electrode of light-emitting diode D1 ~ D2 respectively with 19 pin, and the anode of light-emitting diode D1 ~ D2 is connected with an end of resistance R 2 simultaneously, and the other end of resistance R 2 is connected with power Vcc.30 pins of micro controller system are connected with 3 pins of 31 pins respectively at connection terminal J7 and connection terminal J9, and 1 pin of connection terminal J7 and connection terminal J9 is connected with power Vcc, 2 pin ground connection.33 pins of micro controller system U1 are connected with 3 pins with 2 pins of connection terminal J3 respectively with 32 pins, the 7 pin ground connection of connection terminal J3, and 8 pins are connected with power Vcc.38 pins of micro controller system U1 are connected with power Vcc.In the utility model, power Vcc is above-mentioned direct current 5V power supply.

In Fig. 4, connection terminal J1 is for accessing magneto-dependent sensor 11, and connection terminal J5 is for accessing the Hall element that Fig. 2 is positioned at plectrum 18 belows.Connection terminal J8 is the program download interface of micro controller system U1.Connection terminal J7 and connection terminal J9 are positioned at two Hall elements of magnetic bead 5 left and right sides for connection diagram 1.Connection terminal J3 is for accessing remote control module.

8 pins of micro controller system U1 are for receiving the signal Z that vibration sensor 3 signal input circuits import into; 21 pins and 22 pin decibels are for output signal BUZ2 and BUZ1, respectively in order to drive annunciator (being annunciator 17) and buzzer phone (being buzzer phone 2); 34 pins and 35 pins are respectively used to receive signal Y3 and Y2, for receiving the signal transmitted from the power supply voltage testing circuit; 41 pins ~ 44 pins are respectively used to output signal BJ4 ~ BJ1, work for Driving Stepping Motor (being stepping motor 15).

As shown in Figure 5, stepper motor driving circuit comprises that stepping motor drives chip U2, resistance R 8 ~ R11 and connection terminal J4.Power Vcc is connected with the end of resistance R 8 ~ R11 simultaneously, the other end of resistance R 8 ~ R11 is connected with 1 pin, 3 pins, 5 pins and 7 pins of stepping motor driving chip U2 respectively, 1 pin, 3 pins, 5 pins and 7 pins that stepping motor drives chip U2 receive respectively signal BJ1 ~ BJ4 successively, with 44 pins of micro controller system U1 ~ 41 pins, are connected successively.10 pins, 12 pins, 14 pins and 16 pins that stepping motor drives chip U2 are connected with 4 ~ 1 pins of connection terminal J4 successively.Stepping motor drives 9 pins of chip U2 and 5 pins of connection terminal J4 are connected with power supply 12V simultaneously, and stepping motor drives the 8 pin ground connection of chip U2.

In Fig. 5, the chip model that stepping motor drives chip U2 employing is ULN2003A, and connection terminal J4 is for connecting stepping motor (being stepping motor 15).

In the utility model, the power supply voltage testing circuit comprises two parts: direct current 12V power sense circuit and 5V power sense circuit, when power line voltage reduces to setting value, send signal to micro controller system.As shown in Figure 6, the model LM358 that the integrated operational amplifier chip adopts, integrated two independently integrated operational amplifier U3A and U3B in it, wherein integrated operational amplifier U3A is for detection of the voltage of power Vcc, integrated operational amplifier U3B is for detection of the voltage of power supply 12V, 8 pins of LM358 are power pin, and 12V is connected with power supply, and 4 pins are ground pin.

Power Vcc is the end of shunt resistance R6 ~ R7 simultaneously, the in-phase input end (i.e. 3 pins) of the other end while integrated operational amplifier U3A in parallel of resistance R 6 and the negative electrode of diode D4, the plus earth of diode D4.The other end of resistance R 7 is connected with 3 pins of potential device W3, the 1 pin ground connection of potential device W3,2 pins be connected with the inverting input of integrated operational amplifier U3A (i.e. 2 pins).The mouth of integrated operational amplifier U3A (i.e. 1 pin) output signal Y2, be connected with 35 pins of micro controller system U1.

Power Vcc is the end of shunt resistance R4 ~ R5 simultaneously, the in-phase input end (i.e. 5 pins) of the other end while integrated operational amplifier U3B in parallel of resistance R 4 and the negative electrode of diode D3, the plus earth of diode D3.The other end of resistance R 5 is connected with 3 pins of potential device W2, the 1 pin ground connection of potential device W2,2 pins be connected with the inverting input of integrated operational amplifier U3A (i.e. 6 pins).The mouth of integrated operational amplifier U3A (i.e. 7 pins) output signal Y3, be connected with 34 pins of micro controller system U1.

As shown in Figure 7, power Vcc is same as 1 pin of potential device W1 in parallel and an end of resistance R 12,2 pins of the other end of resistance R 12 and potential device W1 are connected with inverting input (i.e. 2 pins) with the normal phase input end (i.e. 3 pins) of integrated operational amplifier U4 respectively, the 3 pin ground connection of potential device W1, connection terminal J2 in parallel between 3 pins of integrated operational amplifier U4 and ground terminal, the mouth output signal Z of integrated operational amplifier, be connected with 8 pins of micro controller system U1.

In the utility model, what integrated operational amplifier U4 adopted is the LM393 chip, and its 8 pin is connected with power Vcc, 4 pin ground connection.Connection terminal J2 is for accessing vibration sensor, and when reality was used, vibration sensor was subject to vibrating and sends on-off signal afterwards, to micro controller system U1, sends signal by the mouth (i.e. 1 pin) of integrated operational amplifier U4.

As shown in Figure 8, power Vcc is buzzer phone 2 with buzzer phone S1() positive pole be connected, buzzer phone S1(is buzzer phone 2) negative pole with the emitter of aerotron Q1, be connected, the grounded collector of aerotron Q1, the base stage of aerotron Q1 is connected with an end of resistance R 3, the other end of resistance R 3 is connected with 22 pins of micro controller system U1, receives the signal BUZ1 that micro controller system U1 sends; Power Vcc is connected with 1 pin of connection terminal J6 simultaneously, 4 pins of connection terminal J6 are connected with the emitter of aerotron Q2, the grounded collector of aerotron Q2, the base stage of aerotron Q2 is connected with an end of resistance R 13, the other end of resistance R 13 is connected with 21 pins of micro controller system U1, receives the signal BUZ2 that micro controller system U1 sends.

The specific works process is as follows: when someone was at ordinary times, plectrum 18 blocked key hole 20, and whole device is in dormant state, and power consumption is extremely low.Dead bolt 8 is in retracted mode, relies on original mechanical lock to lock a door.When the people need to go out within doors, press the button of deploying troops on garrison duty on remote controller, after owner closes the door, magneto-dependent sensor 11 receives the pass gate signal of magnetic sheet 10, and signal is sent to micro controller system, micro controller system enters the state of deploying troops on garrison duty, and after entering the state of deploying troops on garrison duty, receives only the detection signal of vibration sensor and Hall element.

As when running into stronger vibration or violence and unblanking, the external vibration sensor of connection terminal J2 detects vibration signal, send on-off signal, this on-off signal is sent signal to micro controller system U1 through the mouth of integrated operational amplifier U4, micro controller system U1 sends instruction to stepping motor and drives chip U2, stepping motor drives chip U2 and controls 15 rotations of the external stepping motor of connection terminal J4, stepping motor 15 drives dead bolt driver plate 12 and moves, dead bolt driver plate 12 drive dead bolts 8 stretch out shell 16 to lock ear 9 simultaneously, and door lock is lived.If after 3 seconds of time delay, vibration sensor still receives signal, micro controller system U1 sends signal to its driving circuit of reporting to the police, and drives the external annunciator (being annunciator 17) of connection terminal J6 and makes too much noise, and reports to the police.

When running into thief and carry out technology unlocking, after plectrum 18 is opened, the Hall element that is positioned at plectrum 18 belows that connection terminal J5 is external can detect plectrum 18 and be pushed aside, and by signal and be sent to micro controller system U1, by micro controller system U1, send instruction to stepping motor equally and drive chip U2, stepping motor drives chip U2 and controls 15 rotations of the external stepping motor of connection terminal J4, stepping motor 15 drives dead bolt driver plate 12 and moves, dead bolt driver plate 12 drive dead bolts 8 stretch out shell 16 to lock ear 9 simultaneously, and door lock is lived.If after 3 seconds of time delay, Hall element still receives signal, micro controller system U1 sends signal to its driving circuit of reporting to the police, and drives the external annunciator (being annunciator 17) of connection terminal J6 and makes too much noise, and reports to the police.

After the house owner went home, the releasing of pressing on remote controller laid button, and this device stops the work of deploying troops on garrison duty automatically, enters dormant state.

In the utility model, the model of micro controller system U1 is STC12C5A16S2, also can adopt the micro controller system of STC11,15 series.

Embodiment 2

Embodiment 2 difference from Example 1 are Hall element is replaced by photosensor, photosensor is positioned at plectrum 18 inboards, when plectrum 18 is pushed aside, photosensor receives optical signal, and optical signal is converted to electric signal transmission to micro controller system, have micro controller system to control, control principle and process are identical with embodiment 1.

The above, it is only preferred embodiment of the present utility model, be not the utility model to be done to the restriction of other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the equivalent embodiment of equivalent variations.But every technical solutions of the utility model content that do not break away from, to any simple modification, equivalent variations and remodeling that above embodiment does, still belong to the protection domain of technical solutions of the utility model according to technical spirit of the present utility model.

Claims (9)

1. anti-theft control device is assisted in a rolling code remote control, comprise shell (16), be arranged on the lock ear (9) of shell (16) one sides and be arranged on the control circuit in shell (16), it is characterized in that: vibration inductor and the tongue driving device driven by stepping motor (15) are fixed in shell (16), power supply (1), annunciator (17) are outside shell (16), and power supply (1), annunciator (17), plectrum induction installation all are connected with control circuit with tongue driving device.

2. anti-theft control device is assisted in a kind of rolling code remote control according to claim 1, it is characterized in that: described tongue driving device comprises stepping motor (15), gear system, dead bolt driver plate (12) and adapter plate (7), dead bolt driver plate (12) is fixed on adapter plate (7), adapter plate (7) is fixed on main circuit board (4) top in shell (16), gear system is fixed between adapter plate (7) and shell (16), gear (14) matches with the output shaft of stepping motor (15), the shifting block matched with gear (14) is installed on dead bolt driver plate (12), dead bolt (8) is fixed on dead bolt driver plate (12) right side.

3. anti-theft control device is assisted in a kind of rolling code remote control according to claim 2, it is characterized in that: left side, described adapter plate (7) top is provided with rectangular preiection, on rectangular preiection, be fixed with magnetic bead (5), the both sides of magnetic bead (5) are provided with the latch bolt position induction installation, and described latch bolt position induction installation is two Hall elements that are connected with control circuit.

4. anti-theft control device is assisted in a kind of rolling code remote control according to claim 1, it is characterized in that: the Hall element that described plectrum induction installation comprises plectrum (18) and is positioned at plectrum (18) below, plectrum (18) movably covers at key hole (20) upper in order to cover key hole (20), and plectrum (18) inboard is fixed with the magnetics matched with Hall element.

5. anti-theft control device is assisted in a kind of rolling code remote control according to claim 1, and it is characterized in that: described vibration inductor is vibration sensor (3).

6. the auxiliary anti-theft control device of a kind of rolling code remote control according to claim 2, is characterized in that: below described tongue driving device, be provided with simultaneously the detecting device of closing the door.

7. anti-theft control device is assisted in a kind of rolling code remote control according to claim 6, it is characterized in that: the described detecting device of closing the door comprises magneto-dependent sensor (11) and magnetic sheet (10), magneto-dependent sensor (11) is positioned at below, shell (16) right side, and magnetic sheet (10) correspondence is arranged on below, left side in lock ear (9).

8. anti-theft control device is assisted in a kind of rolling code remote control according to claim 1, it is characterized in that: described control circuit comprises micro controller system, the annunciator driving circuit, buzzer drive circuit, stepper motor driving circuit, power supply voltage testing circuit and power supply, micro controller system is connected with stepping motor (15) by stepper motor driving circuit, the power supply voltage testing circuit is connected with micro controller system, micro controller system is connected with buzzer drive circuit and annunciator driving circuit simultaneously, buzzer drive circuit is connected with buzzer phone (2), the annunciator driving circuit is connected with annunciator (17).

9. the auxiliary anti-theft control device of a kind of rolling code remote control according to claim 2, is characterized in that: on described gear (14), be equipped with and the co-axially fixed rotor switch of gear (14) (13).

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