Magnetic anti-theft device

Abstract

A magnetic anti-theft device, includes: a control circuit, in connection with a plurality of magnetic sensors and a control unit; the plurality of magnetic sensors, allowing different magnetic induction strengths to be preset; and an unlock piece, configured with a plurality of magnetic elements corresponding to the magnetic induction strengths of the plurality of magnetic sensors, whereby, when the correct unlock piece is placed on the magnetic sensors, the plurality of magnetic sensors will induct correct magnetic forces, the control unit is driven to release a monitoring state after interpretation of the control circuit; if the induction is incorrect, the control unit is driven to form a warning action after the interpretation of the control circuit so as to achieve an anti-theft effect and increase safety effectively probably because the magnetic force of the magnetic element of the unlock piece is too small or too large.

Claims

1. A magnetic anti-theft device, comprising: a control circuit, in connection with a plurality of magnetic sensors and a control unit; said plurality of magnetic sensors, allowing different magnetic induction strengths to be preset; and an unlock piece, configured with a plurality of magnetic elements corresponding to said magnetic induction strengths of said plurality of magnetic sensors, whereby, when a correct unlock piece is placed on said magnetic sensors, said plurality of magnetic sensors will induct correct magnetic forces, said control unit is driven to release a monitoring state after interpretation of said control circuit; if said induction is incorrect, said control unit is driven to form a warning action after said interpretation of said control circuit so as to achieve an anti-theft effect and increase safety because said magnetic force of said magnetic element of said unlock piece is too small or too large.

2. The device according to claim 1, wherein said magnetic sensor is a magnetic induction coil having an action of inducting a magnetic strength, thereby inducting said magnetic strengths of said unlock piece for said interpretation of said control circuit.

3. The device according to claim 1, wherein said magnetic element configured in said unlock piece is a magnet having a different magnetic strength.

4. The device according to claim 1, wherein said control unit is an alarm or lock.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view of the present invention;

(2) FIG. 2 is a schematic view of the present invention upon installation;

(3) FIG. 3 is a schematic view of the present invention in an induction state;

(4) FIG. 4 is a schematic view of the present invention in another induction state; and

(5) FIG. 5 is a schematic view of the present invention for another application.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(6) Referring to FIG. 1, a magnetic anti-theft device of the present invention includes a control circuit 1 and a plurality of magnetic sensors 2 in connection with the control circuit 1, and an unlock piece 3 corresponding to the plurality of magnetic sensors 2, where the control circuit 1 may be allowed to be in connection with a control unit 4. In a preferred embodiment, the control unit 4 may be a device such as an alarm or lock.

(7) The magnetic sensors 2 are arranged side by side, and each of them is provided with a magnetic induction coil 21 sensing magnetic strength for different preset induction magnetic strength (different induction magnetic strength is constituted by the different magnetic induction coil 21).

(8) The unlock piece 3 is configured with a plurality of magnetic elements 31 corresponding to the induction magnetic strengths of the magnetic sensors 2. In the embodiment, the magnetic elements 31 are magnets having different magnetic strength.

(9) The magnetic anti-theft device of the present invention is formed by combining the above components together. The magnetic sensors 2 are installed on proper locations. Whereby, they will sense correct magnetic forces corresponding to the induction magnetic strengths when the correct unlock piece 3 is placed on the magnetic sensors 2. Therefore, the monitoring state is disarmed after the interpretation of the control circuit 1 (the control unit 4 is released to close the alarm or the unlock function is formed). Furthermore, if an incorrect magnetic force is sensed, it may be because the magnetic force of the magnetic element 31 of the unlock piece 3 is too small or too large. Thereafter, the alarm of the control unit 4 is actuated so to achieve an anti-theft effect after the interpretation of the control circuit 1, and further to enhance the safety effectively.

(10) Referring to FIG. 2, the magnetic sensors 2 of the present invention, upon installation, are buried in or installed on proper locations and in connection with the control circuit 1 and control unit 4 configured on secret locations. In a normal state, the control unit 4 is kept in a standby state (the alarm is in a close and static state, and the lock is in a locking state).

(11) Referring to FIG. 3, the magnetic anti-theft device of the present invention, in an induction state, will induct the magnetic sensor 2 with a magnetic object (unlock piece 3) when thieves or gangsters want to open it; provided thieves or gangsters understand the structure of magnetic sensor 2, they make an unlock piece 3 at the same time. But, the control unit 4 is driven to emit warning sound immediately through the interpretation of the control circuit 1 so as to achieve deterrence warning after the magnetic sensors are inducted because the magnetic forces of the magnetic elements of the unlock piece 3 are incorrect, and the lock will be locked and won't open if the control unit 4 is in connection with the lock, thereby achieving an anti-theft effect. In the embodiment, provided that the magnetic induction strength of the magnetic sensors are 1, 2 and 3 Gauss in sequence for example, and the magnetic strengths of the magnetic elements 31 of the unlock piece 3 held by a thief or gangster are 3, 3 and 3 Gauss in sequence for example such that the magnetic strengths of the unlock element 3 does not correspond to the magnetic induction strengths of the magnetic sensors 2; the control circuit 1 judges that the magnetic strength correspondence of the both are not correct after the induction of the magnetic sensors 2 and further drives the control unit 4 to emit warning sound or cause the lock to be kept in a locking state.

(12) Referring to FIG. 4, the magnetic anti-theft device of the present invention will close the control unit 4 and won't emit sound through the interpretation of the control circuit 1 and will unlock the lock at the same time when a user holds a correct unlock piece 3 to induct the magnetic sensors 2. Given that the magnetic induction strengths of the magnetic sensors 2 are 1, 2 and 3 Gauss in sequence in the embodiment for example, the magnetic strengths of the magnetic elements 31 of the unlock piece 3 held by the user are also 1, 2 and 3 Gauss in sequence such that the magnetic strengths of the unlock piece 3 correspond to the magnetic induction strengths of the magnetic sensors 2. The control circuit 1 then judges the magnetic strength correspondence is correct after the magnetic sensors 2 are inducted, and further closes the driver so that warning sound will not be emitted or unlocks the lock.

(13) Referring to FIGS. 1 and 5, the magnetic anti-theft device of the present invention can be used on a lock 5. The magnetic sensors 2 are arranged in sequence on a spring bolt 51 of the lock 5. Similarly, the corresponding unlock piece 3 can be placed on the magnetic sensors 2, which will induct the correct magnetic forces so that the lock will be unlocked after the interpretation of the control circuit. If the magnetic force inducted is not correct, the alarm of the control unit 4 will be driven to emit sound after the interpretation of the control circuit 1 and the lock 5 is kept in a locking state so as to achieve an anti-theft effect probably because the magnetic force of the magnetic element 31 of the unlock 3 is too small or too large.

(14) To sum up, the present invention configures a plurality of magnetic sensors having different magnetic induction strength in advance and an unlock piece having a plurality of magnetic elements corresponding to the magnetic sensors to form a magnetic anti-theft device. The present invention can achieve the anti-theft effect by inducting correct magnetic force, and further can increase safety effectively.