CN101629463A - Remote control lock without power source - Google Patents

Abstract

The invention relates to a remote control lock without a power source. When the remote control lock is not unlocked, the remote control lock is in a locking state because the remote control lock is not provided with a power source. When the remote control lock is unlocked by a remote control unlocking device in a short distance, an electronic amplifier on the remote control unlocking device converts a direct current power source into a non-direct current power source, and the non-direct current power source is superimposed onto an electromagnetic induction output device together with an unlocking signal; the power energy on the remote control unlocking device and the unlocking signal are induced onto a receiving coil through the magnetic contact or the electromagnetic wave radiation contact between the electromagnetic induction output device and an electromagnetic induction receiving device on the remote control lock; then, the power energy is transferred to each electrical appliance on the remote control lock through a rectifier and a capacitor to be used as the power source to support the operation of the remote control lock; the unlocking signal is transferred to an electronic recognizer to confirm whether an executing mechanism is driven to execute the unlocking operation or ont; and when the unlocking signal is incorrect or the remote control unlocking device is closed, the lock is in a locking dormant state again.

Description

A kind of not self-powered remote control lock

Affiliated field

The present invention relates to a kind of not self-powered remote control lock, belong to lock technology field with the control of remote controller lockaid gun.

Background technology

The known existing electronic lock of opening with remote controller, dc source or external AC power supply all need be set to be come to the electrical appliance power supply of locking, also need on remote controller, to be provided with power supply simultaneously, so just cause present various electronic remote-control locks to have the following disadvantages: 1, battery in the electronic lock or external power supply need one day 24 hours power supply, be in blocking at lock exactly, power supply in the lock is being the electrical appliance power supply also, makes the interior battery of lock short application life, the daily cost of use height of lock.When 2, the cell voltage in the electronic lock is low, when perhaps external power supply fluctuates, can make electronic lock can not open or occur the problem of misoperation lock in person even if.3, adopt the electronic lock of external power supply, the time regular meeting run into burst and have a power failure, make electronic lock not open and mistake is locked owner's major issue.4, adopt the electronic lock of external power supply, external environment condition has just limited the use of electronic lock, makes the scope of application of Remote control electronic lock and non-Remote control electronic lock less.5, various remote controls are locked in the use, need to launch unlocking signal from remote controller, because of carrying out remote-control unlocking more at a distance, make the people of the theft unlocking cipher number in this scope obtain the number of unblanking easily, and steal other people property, though adopt encryption technology to launch unlocking signal, anti-encryption technology makes this remote control lock also lose safety.Therefore, the present invention is exactly will be with electronic lock, the advantage of remote control lock combines with the advantage of mechanical lock and develops a kind of not self-powered remote control lock, the use that solves electronic lock and Remote control electronic lock is subjected to the external power supply environmental limitations, dc source energy limited in being locked, easily be stolen by unlocking signal, electronic component is in the temperature variation greatly for a long time in being locked, expose to the sun and rain environment and influence the electronic component stability problems, simultaneously key unlocking and the advantage of closely or deeply locking interior two kinds of modes of unblanking are applied to electronic telecontrol and lock, will produce bigger influence field of lockset.

Summary of the invention

Purpose of the present invention is exactly that a kind of not self-powered remote control lock will be provided, and solves the remote control lock and does not need external power supply and the battery of need not packing into.Utilize electromagnetic induction, electromagnetic radiation theory, the electromagnetic induction output device becomes non-direct current with the power supply on the remote controller on the remote-control unlocking device, closely be defeated by on the electromagnetic induction receiving system that remote control locks, the power supply of the electrical appliance of locking as remote control by the electric energy of responding on the electromagnetic induction receiving system, make electronic lock enter duty, the unlocking signal of responding on the electromagnetic induction receiving system then drives lock and opens.

The present invention seeks to realize like this: by electromagnetic induction, electromagnetic radiation theory the electric energy unlocking signal on the remote-control unlocking device is transferred to not self-powered remote control and locks power supply and unlocking signal as electrical appliance.A kind of not self-powered remote control lock, it comprises: lock body, the code number that identification is unblanked, electric-field intensity, wave frequency, bridge circuit, the electronic identifier of finger print information, the electromagnet that electronic identifier drives, electromagnetic valve, relay, control remote control lock is opened, the remote-control unlocking device that closes, it is characterized in that: at remote control lock (3,48,56) on the door (38) that or fixedly remote control is locked, be provided with and receive remote-control unlocking device (1,61) launch electric wave, the electromagnetic induction receiving system (9,19) in output magnetic field, at remote-control unlocking device (1,16) be provided with to remote control lock provides unlocking signal, the electrical appliance of locking for remote control provides the electromagnetic induction output device (7,17) of power supply; The output coil of wire (23) on the described electromagnetic induction output device (7,17), the emission coil of wire (L ₂, 17) with direct current is become non-galvanic electron-amplifier (85) or (86) and links to each other, and the power supply of oscillator is from dc source on the remote-control unlocking device or external power supply, the reception coil of wire (L on the described electromagnetic induction receiving system (9,19) ₁19,24) the non-direct current of being responded to, power to the electrical appliance that remote control is locked, the unlocking signal of being responded to links to each other with the input of electronic identifier (12) through capacitor C 7 or lead, the open and close of lock is carried out in the operation that determines whether to drive electromagnetic valve (L) by electronic identifier, electric energy on remote control lock and the remote-control unlocking device, but but the transmission means of unlocking signal is by permeability magnetic material (82) on the magnetic induction output device contacts with the magnetic of permeability magnetic material (81) on the magnetic induction receiving system, by output volume (23) or the emission coil of wire (L ₂, 17) with receive the coil of wire (24) or (L ₁, 19) between electromagenetic wave radiation induction will export the coil of wire (23), launch the coil of wire (L ₂, 17) and the electromagnetic energy that go up to produce is transferred to and receives the coil of wire (L ₁, 19,24) on, make to receive the non-direct current of induction on the coil of wire.The electromagnetic induction receiving system (9) that described remote control is locked but be to go up with enamel-covered wire by the permeability magnetic material (81) of definite shape with at this permeability magnetic material (81) press a few the reception coil of wire (24) formation of certain way coiling, this reception coil of wire (24) is from exporting the non-direct current of being responded on the coil of wire (23), through voltage output end (27,28) the electrical appliance power supply of locking to remote control, the mode of this power supply includes: non-direct current is directly to electrical appliance power supply, the dual mode that non-direct current is powered to electrical appliance after rectification becomes direct current; But the shape of described permeability magnetic material (81) includes: " one " font, " E " font, " n " font,

Arc, semicircle several, but described permeability magnetic material (81) and electromagnetic induction output device (7) but on the magnetic head (39 of permeability magnetic material (82) magnetic contact position, 70) lock in remote control at the position, fixedly the position that is provided with on the door of remote control lock includes: on the same one side of remote control lock or door, not on the same one side of remote control lock or door, in the magnet passage hole (57) of remote control lock or door, be hidden in the magnetic bend hole (36) of remote control lock or door, and can not be from lock or several modes of seeing outdoors, between magnetic head (39) and (70), do not establish permeability magnetic material, can establish non-magnet material (41) and avoid magnet short-cut path; Transformation ratio transmission between described electromagnetic induction receiving system (9) and electromagnetic induction output device (7) includes: several modes of constant voltage transmission, step-down transmission, the transmission of boosting.The electromagnetic induction receiving system that described remote control is locked is to receive the coil of wire (L ₁, 19) or by receiving the coil of wire (L ₁19) and behind the serial or parallel connection of electric capacity constitute, the electrical appliance power supply that the non-direct current of responding on this reception coil of wire is locked to remote control as power supply, its power supply mode includes: non-direct current is from voltage output end (31,32) directly power to electrical appliance, non-direct current is from voltage output end (31,32) link to each other with rectifier, become behind the direct current dual mode to the electrical appliance power supply, the described reception coil of wire is to be made of by definite shape coiling number volume enamel-covered wire or conductive material, the shape of this reception coil of wire coiling includes: planar shaped, lap wound shape, hollow, spirality, several shapes of bar type spirality, this receives the coil of wire (L ₁, 19) with the electromagnetic induction output device on the emission coil of wire (L ₂17) electric energy between, the electrical signal transfer mode is electromagnetic radiation (18) contact by closer distance, the electromagnetic radiation between the described reception coil of wire and the emission coil of wire and the coupled modes of reception include: hollow spirality receives the coil of wire and is enclosed within the closely coupling outward of the bar type spirality emission coil of wire, planar shaped receives the coupling of closer distance between the coil of wire and the planar shaped emission coil of wire, the described reception coil of wire remote control lock or fixedly the position that is provided with on the door of remote control lock include: on the surface of remote control lock or door, in remote control lock or door, in the magnet passage hole (57) or dark bend hole (36) of remote control lock or door, the material that the described reception coil of wire and emission can not have counterchecking electromagnetic wave to pass through between the coil of wire is avoided electromagnetic wave to be absorbed or is reflected.Described remote-control unlocking device (1,16) the electromagnetic induction output device (7) on but be by the permeability magnetic material (82) of definite shape and on this permeability magnetic material the output coil of wire (23) with enamel-covered wire coiling number volume constitute, the non-direct current that produces on this output coil of wire on this coil of wire electric connection point (25,26), switch (43) and direct current is become non-galvanic electro coupled oscillator (85 or 86), dc source (5) links to each other; But the shape of described permeability magnetic material (82) includes: " one " font, " E " font, " n " font,

Arc, semicircle several, but the alternating magnetic field (8) on should permeability magnetic material (82) is to be magnetic head (40 by the two ends on this permeability magnetic material, 60) but the two ends on the permeability magnetic material of locking with remote control (81) are magnetic head (70,39) the magnetic contact constitutes magnetic loop, but alternating magnetic field is passed on the permeability magnetic material (81), make to receive on the coil of wire (24) and induce non-direct current, described magnetic head (40,60) include in the position that is provided with on the remote-control unlocking device: a kind of is on same surface, a kind of is not on same surface, a kind of is that two magnetic heads can relatively move, be at least one magnetic energy head (40) but be located on the porose permeability magnetic material (59), but aperture locking bolt (83) on should permeability magnetic material but be connected with hole on the permeability magnetic material (82), be movably to connect the location, but permeability magnetic material (59) is subjected to spring force that two magnetic heads can be moved in opposite directions, a kind of is at remote-control unlocking device upper process, contacts with the magnetic induction of electromagnetic induction receiving system in the door that the magnetic head of this projection or the output coil of wire (23) can enter in the remote control lock or fixedly remote control is locked.Electromagnetic induction output device (17) on the described remote-control unlocking device is the emission coil of wire (L of electric energy transmitting and unlocking signal ₂), the non-direct current that produces on this emission coil of wire is the electric connection point (29 on this coil of wire, 30), switch (43) links to each other with the output device that direct current is become non-galvanic high-frequency amplifier (85) or oscillator (86), and high-frequency amplifier, the input of oscillator links to each other with unlocking signal or controlled source, by the dc source on the remote-control unlocking device to oscillator, the high-frequency amplifier power supply, the described emission coil of wire is to be made of by definite shape coiling number volume enamel-covered wire or conductive material, the shape of this emission coil of wire includes: flat around shape, lap wound shape, hollow spirality, the bar type spirality several, this line of departure twists in the position that is provided with on the remote-control unlocking device and includes: be located in the remote-control unlocking device, be located at remote-control unlocking device surface, at remote-control unlocking device surface upper process, and can enter remote control lock or the fixedly magnet passage (57) in the door of remote control lock or several modes in the magnetic bend (36).Described high-frequency amplifier (85) is by triode BT ₅Emitter stage and capacitor C ₆Link to each other BT with power cathode after linking to each other ₅Base stage and capacitor C ₆, the transmission unlocking signal capacitor C ₇With lock capacitor C ₂An electrode link to each other BT ₅Colelctor electrode and capacitor C ₅, the electric connection point (29) on the electromagnetic induction output device (7,17) or (25) link to each other, capacitor C ₅Another electrode and capacitor C ₃And C ₄Link to each other capacitor C ₃And C ₄Another electrode parallel connection after with feedback capacity C ₂With the high-pass filtering coil of wire (L ₄), another electric connection point (30) on the electromagnetic induction output device (7,17) or (26) link to each other, and the high-pass filtering coil of wire (L ₄) the other end link to each other with positive source or controlled source, so just the direct current on the remote-control unlocking device is become non-direct current through the output coil of wire (L by controlled high-frequency amplifier ₂Or 23) transfer out, described electromagnetic induction output device includes: a kind of electromagnetic induction output device (7) but be to constitute by the permeability magnetic material (82) and the output coil of wire (23) that is enclosed within on this permeability magnetic material, should on the defeated coil of wire electric connection point (25 be arranged, 26), another kind of electromagnetic induction output device (17) is by the emission coil of wire (L ₂) constitute, electric connection point (29,30) is arranged on this emission coil of wire.Described oscillator (86) is by two triode BT ₆, BT ₇The emitter stage parallel connection after link to each other with power cathode, by BT ₆Base stage and resistance R ₁₃And capacitor C ₉Electrode link to each other another electrode and the BT of this resistance and electric capacity ₇Colelctor electrode link to each other, by BT ₇Base stage and resistance R ₁₂And capacitor C ₈Electrode links to each other, another electrode and the BT of this resistance and electric capacity ₆Colelctor electrode link to each other and triode BT ₆, BT ₇Colelctor electrode link to each other with electromagnetic induction output device (7 or 17) on the remote-control unlocking device respectively; Described electromagnetic induction output device includes: a kind of electromagnetic induction output device (17) is by the emission coil of wire (L ₂) on electric connection point (29,30) respectively with triode BT ₆, BT ₇Colelctor electrode link to each other and the emission coil of wire (L ₂) on tap link to each other with positive source, unlocking signal source or controlled signal source VS, another kind of electromagnetic induction output device (7) be by be contained on the output coil of wire (23) that can overlap on the magnetic material (82) electric connection point (25,26) respectively with triode BT ₆, BT ₇Colelctor electrode link to each other, and the dual mode that the tap on the output coil of wire (23) links to each other with positive source, unlocking signal source or controlled signal source VS so just becomes direct current non-direct current, and unlocking signal is superimposed upon on the non-direct current electric wave, through launching the coil of wire (L ₂) electromagnetic wave (18) is transmitted into the space, through the output coil of wire (23) with alternating electromagnetism ripple (8) but transfer out the reception coil of wire (L that locks through remote control again through permeability magnetic material (82) ₁Or 24) electric energy of being responded to provides power supply and unlocking signal to electrical appliance.The electronic identifier that described remote control lock (3,48,56) or fixedly be used on the door (38) of remote control lock detects unlocking signal is a kind of bridge circuit (12), and this electric bridge is by the resistance (R of 4 certain resistances ₁, R ₂, R ₃, R ₄) form the electric bridge of four brachium pontis, resistance (R ₁, R ₂, R ₃) be located on remote control lock or the door resistance (R ₁, R ₂) an electrode parallel connection after form a brachium pontis and link to each other resistance (R with positive source ₂) another electrode and resistance (R ₃) an electrode parallel connection after constitute (W ₂) brachium pontis, and with triode BT ₁Base stage link to each other resistance (R ₁) another electrode and outer meeting resistance (R ₄) electrode (X ₂) back formation (W links to each other ₁) brachium pontis, this brachium pontis and triode BG ₁Emitter stage link to each other outer meeting resistance (R ₄) another electrode (X ₃) and resistance (R ₃) another electrode parallel connection after link to each other resistance (R like this with power cathode ₄) when satisfying bridge balance, (W ₁) and (W ₂) between no-voltage, the electromagnetism coil of wire (L) conducting, the lock be unlocked, otherwise, during the electric bridge disequilibrium, (W ₁) and (W ₂) between voltage is arranged, the electromagnetism coil of wire (L) dead electricity, lock can not be opened; Described resistance R ₄Standard resistance range 1 ohm between 1,000,000 nurses, this electric bridge is located on the remote-control unlocking device, transmits resistance (R ₄) mode include: a kind of is to represent resistance (R ₄) top electrode (X ₂, X ₃) two tie points (55,68) and the bridge circuit (12) that is located on remote control lock or the door in represent two brachium pontis (W ₁, X ₄) tie point (53,54) presses contact and transmit resistance (R ₄) resistance value, another kind is the resistance (R that replaces respective resistance values with certain digital pulse signal ₄), through the output coil of wire (L ₂, 23) and be transferred to the digit pulse that remote control is locked, on behalf of the resistance value of unlocking signal, the resistance converter of resistance will add (the X that cuts at electric bridge ₁Or X ₄) on two brachium pontis, realize unblanking.Described electromagnetic induction output device (7,17) contacts or the magnetic induction contact with the in-plant magnetic of electromagnetic induction receiving system in the interior magnet passage hole (57,36) of remote control lock door interior or fixedly remote control lock and can enter at the surperficial upper process of remote-control unlocking device; Described electromagnetic induction output device includes in the position of remote-control unlocking device upper process: a kind of is the emission coil of wire (L on the electromagnetic induction output device (17) ₂) be arranged on the connecting rod, an end of this connecting rod links to each other with the remote-control unlocking device, and the electric connection point on the emission coil of wire links to each other with amplifier (85 or 86) through connecting rod, by the emission coil of wire (L ₂) and receive the coil of wire (L ₁) in-plant electromagenetic wave radiation contact; A kind of be on the electromagnetic induction output device (7) the output coil of wire (23) but and permeability magnetic material (82) be arranged on the connecting rod, one end of this connecting rod links to each other with the remote-control unlocking device, electric connection point on the output coil of wire links to each other with amplifier (85 or 86) through connecting rod, but by the magnetic head (40 on the permeability magnetic material (82), 60) but respectively with the lock in permeability magnetic material (81) on magnetic head (39,70) magnetic contact, a kind of be electromagnetic induction output device (7) but on the two ends (40 of permeability magnetic material (82), 60) be arranged on the connecting rod away from the remote-control unlocking device, one end of this connecting rod links to each other with the remote-control unlocking device, electric connection point on the output coil of wire links to each other with amplifier (85 or 86), but by the two ends magnetic head (40 on the permeability magnetic material (82), 60) but enter in the lock with the magnetic induction receiving system on permeability magnetic material (81) on two magnetic heads (39,70) several set-up modes of magnetic contact respectively; Electric connection point on the described output coil of wire is (25,26) or (29,30), described connecting rod comprise crooked connecting rod (58), non-crooked connecting rod, bow several.Described remote-control unlocking device (1,61) set-up mode includes: the remote-control unlocking device is located on the mobile phone, the remote-control unlocking device is located on the portable remote controller, the remote-control unlocking device is located on the wrist-watch, the remote-control unlocking device is located on the necklace, the remote-control unlocking device is located on the belt, and the remote-control unlocking device is located at several means on the key; Described electromagnetic induction output device (7,17) link to each other the voltage output connection (27,28) or (31 on the electromagnetic induction receiving system with external power supply, 32) link to each other with battery on the mobile phone, the electromagnetic induction output device be charging mobile phone battery under electromagnetic induction receiving system magnetic contacts.

Good effect of the present invention is: pass through electromagnetic induction, the wave radiation principle, dc source on the remote-control unlocking device is become non-direct current through the electromagnetic induction output device, but and be transmitted into the space or be delivered on the permeability magnetic material, on the electromagnetic induction receiving system that remote control is locked, just responded to electric energy, just the electric energy on the remote-control unlocking device is passed to the electrical appliance use that remote control is locked, make and like that the control lock enters duty, and simultaneously unlocking signal is superimposed upon on the reception coil of wire, as the signal of unblanking, so just solved electronic lock and remote control lock, do not need self-powered significant problem, reduce the volume of lock, strengthened the intensity of lock, enlarged the scope of application of lock, and can solve the potential safety hazard that the remote-control unlocking number easily is stolen, will exert far reaching influence to lock technology.

Description of drawings

The not self-powered remote control lock of Fig. 1 brief description is by wireless mode, and the electric energy on the portable active lockaid gun is transferred to the block diagram that electrical appliance that remote control locks is made power supply.

Fig. 2 is the way of contact of a kind of employing electromagnetism, the dc source on the remote-control unlocking device is become non-direct current after magnetic coupling passes to the square cabinet schematic diagram that electrical appliance that remote control locks is made power supply.

Fig. 3 is a kind of employing electromagnetic radiation mode, the direct current on the remote-control unlocking device is become non-direct current after electromagenetic wave radiation coupling passes to the square cabinet schematic diagram that electrical appliance that remote control locks is made power supply.

Fig. 4 is magnetic coupling principle figure among Fig. 2, i.e. the transmission of electromagnetic energy is to contact with magnetic head on the electromagnetic induction receiving system by the magnetic head on the electromagnetism sense output device to finish.

Fig. 5 is the schematic diagram of the electromagenetic wave radiation coupling among Fig. 3, i.e. the transmission of electromagnetic energy is to finish by contactless, the electromagenetic wave radiation of closer distance between emission longitude circle on the electromagnetic induction output device and the receiving coil on the electromagnetic induction receiving system and reception.

Fig. 6 is a kind of transmitting coil of Fig. 5 and the electromagenetic wave radiation coupled modes between receiving coil, and promptly receiving coil is enclosed within outside the transmitting coil.

Fig. 7 is the A-A view of Fig. 6, and receiving coil is enclosed within transmitting coil closely electromagnetic wave coupling outward.

Fig. 8 is that 2 magnetic heads on the electromagnetic induction output device on the remote-control unlocking device are gone up two magnetic heads magnetic hookups respectively on the magnetic induction receiving system that is provided with the fixing door of remote control lock respectively.

Fig. 9 be on the magnetic induction output device locked of remote control two magnetic heads respectively with padlock on the magnetic induction receiving system on two magnetic head magnetic hookups.

Figure 10 is placed on the magnetic induction output device on the remote-control unlocking device on the crooked connecting rod, can enter in the magnetic bend hole that is hidden in the remote control lock, with magnetic induction receiving system magnetic hookup.

Figure 11 is placed on the magnetic induction output device on the remote-control unlocking device on the non-crooked connecting rod, and with the magnetic induction receiving system magnetic hookup of placing in the magnetic track hole that remote control locks.

Figure 12 is that the remote-control unlocking device is provided with at least one mobilizable magnetic material that overlaps, by on two magnetic heads on the magnetic induction output device and the overlapped magnetic material on the padlock not at same lip-deep two magnetic head magnetic hookups.

Figure 13 is the coupled modes of closer distance electromagenetic wave radiation and reception between the another kind of transmitting coil of Fig. 5 and receiving coil.

Figure 14 is arranged on figure on the crooked connecting rod with the electric connection point that the electric energy on remote-control unlocking device output and unlocking signal are exported.

Figure 15 is that the transmitting coil with the electric energy on remote-control unlocking device output is placed on the figure on the crooked connecting rod of remote-control unlocking device upper process.

Figure 16 is arranged on figure on the crooked connecting rod of another kind of shape with the electric connection point on the electric energy on remote-control unlocking device output and the unlocking signal.

But Figure 17 is made into flexible connecting rod with the part permeability magnetic material on the electromagnetic induction output device on the remote-control unlocking device, just can enter in the magnetic bend hole in the remote control lock, carries out magnetic coupling and enter to receive in the coil of wire hole.

Figure 18 is located at the last figure of non-crooked connecting rod with the electric energy output on output of the electric energy on the remote-control unlocking device and the lockaid gun and the electric connection point of unlocking signal.

Figure 19 is provided in a side of the circuit diagram of the interior a kind of electronic identifier of remote control lock and the executing agency of unblanking.

Figure 20 is provided in a side of the unblank circuit diagram of executing agency of another kind in the remote control lock.

Figure 21 is the structure chart of unblanking to adopt in the executing agency low current, low-voltage, highly sensitive, high reliability relay.

Figure 22 is through the square frame key diagram of radiating circuit biography to the space with the electric energy in external power supply or the remote-control unlocking device (executor).

Figure 23 with the power supply of electric energy as the electrical appliance of locking, makes the work of remote control lock after being the electric energy and unlocking signal of the receiving coil acquisition in the remote control, and unlocking signal is removed to control the frame principle figure that executing agency unblanks through electronic identifier.

Figure 24 is the amplifying circuit that constitutes with a kind of high-frequency triode and relevant capacitor, inductance coil (being transmitting coil), and it becomes non-direct current passes to the space through transmitting coil circuit diagram with direct current.

And be that remote control is locked with receiving the coil of wire as the electromagnetic induction receiving system, the electromagnetic wave that will launch coil of wire output of closer distance receives, and decomposes and the circuit block diagram of acquisition electric energy and unlocking signal.

Figure 25 constitutes electromagnetic induction output device circuit diagram with double-triode valve with relevant electric capacity, resistance and (the vibration coil of wire) output coil of wire on the remote-control unlocking device.

And be that remote control is locked to contact by magnetic and received electric energy and unlocking signal, and with its signal decomposition, respectively as the figure of the unlocking signal of the power supply of electrical appliance and electronic identifier.

Figure 26 is a kind of shape and the magnetic coupling figure that launches the coil of wire and receive the coil of wire among Figure 24.

Figure 27 is the B-B figure of Figure 26, is closely magnetic coupling view of a kind of reception coil of wire and the emission coil of wire.

Embodiment

Ask for an interview Fig. 1, the portable lockaid gun (1) active with the block diagram schematic representation is transferred to unlatching or the locking that not self-powered remote control lock (3) is realized this lock through electromagnetic induction device (2) with electric energy.

Ask for an interview Fig. 2, with block diagram further with the major function of remote-control unlocking device (1): unlocking signal control (4), dc source (5) becomes non-dc source (6), through electromagnetic induction output device (7) but go up permeability magnetic material (82) and remote control lock on (3) electromagnetic induction receiving system (9) but on permeability magnetic material (81) magnetic contact, by the magnetic coupling of alternating magnetic field (8) with the electric energy on the remote-control unlocking device (non-direct current) after receiving the coil of wire (24) and receiving, a kind of situation is directly along shown in the dotted line among the figure with non-direct current (10), power to executing agency, or non-direct current (10) is electronic identifier after rectifier becomes direct current (11), executing agency's power supply of unblanking.

Ask for an interview Fig. 3, with block diagram further with the major function of remote-control unlocking device (1) [see frame of broken lines in]: unlocking signal control (4), dc source (5) becomes non-direct current through oscillating circuit (15), causes big device (16) through high frequency then energy is amplified, through the emission coil of wire (L ₂) promptly export the coil of wire (17) to the space propagation of electromagnetic waves, the reception antenna (L of this electromagnetic wave (18) on remote control lock (3) [seeing in the frame of broken lines] ₁) promptly receive the coil of wire (19) and launch the coil of wire (L ₂) magnetic induction of closer distance, making to receive on the coil of wire and sense non-direct current and unlocking signal, non-direct current becomes the sub-identifier of powered by direct current (12) and the executing agency of unblanking (13) makes power supply through rectifier (22).

Ask for an interview Figure 22 and Figure 23, identical with Fig. 3 square frame principle, power supply on the remote-control unlocking device is become direct current in non-direct current and carries out that high frequency amplifies after electromagenetic wave radiation (18) the induction reception between the reception coil of wire (19) that the emission coil of wire (17) and remote control are locked through controlled radiating circuit, again by receiving circuit with unlocking signal through capacitor C ₇Pass to electronic recognition controller (12) and go to drive executing agency and drive lock and open, and receiving circuit is directly made power supply for electrical appliance with non-galvanic electric energy, or behind rectification circuit, become direct current and supply electrical appliance to make power supply.

Ask for an interview Fig. 4, it is the magnetic-coupled a kind of structure chart in electromagnetic induction output device (7) and the electromagnetic induction receiving system (9) among Fig. 2, electromagnetic induction output device (7) is located on the remote-control unlocking device (1), it is at " n " but the output coil of wire (23) is housed on the permeability magnetic material (82) of font, this output coil of wire is by certain way coiling number volume with at the coil of wire two ends electric connection point (25 to be arranged by enamel-covered wire, 26) constitute, electromagnetic induction receiving system (9) is located on the remote control lock (3), it is at " n " but is equipped with on the permeability magnetic material (81) of font and receives the coil of wire (24), this reception coil of wire is to be rolled up by certain way coiling number by enamel-covered wire, constitute with the electric connection point (27,28) at these coil of wire two ends.But the transmission means of electromagnetic energy be on the permeability magnetic material (82) on the electromagnetic induction output device magnetic head (40), (60) but respectively with the electromagnetic induction receiving system on permeability magnetic material (81) on magnetic head (39), (70) magnetic contact and constitute magnetic loop, through alternating magnetic field (8), electrical energy transfer on the output coil of wire (23) is arrived on the reception coil of wire (24), export through electric connection point (27,28).But the shape of described permeability magnetic material (82,81) include " n " font, " E " font,

Arc, semicircle, "-" font etc. several.The described output coil of wire and the voltage change relation that receives between the coil of wire include: boost, the transmission means of step-down, three kinds of no-load voltage ratios of constant voltage.

Asking for an interview Fig. 5, Figure 24, Figure 25, Fig. 5 is that (18,20) radiation electromagnetic among Fig. 3 and reception are by the emission coil of wire (L ₂) and receive the coil of wire (L ₁) between the magnetic contact of closer distance, the emission coil of wire (17) is to be rolled up by certain way coiling number by conductive material, and with this coil of wire on electric connection point (29,30) constitute, and receive the coil of wire (19) is to be rolled up by certain way coiling number by conductive material, and constitute with electric connection point (31,32) on this coil of wire.See in conjunction with Figure 24 that again Figure 24 is that high-frequency amplifier (85) [seeing in the frame of broken lines], this amplifier are by high-frequency triode BT ₃Emitter stage and GND (ground wire) and capacitor C ₆An electrode link to each other the BT of triode ₃Base stage and C ₆Another electrode and the transmission unlocking signal C ₇With feedback capacity C ₂An electrode link to each other capacitor C ₇Link to each other triode BT with the signal source that unlocking signal is provided ₃Colelctor electrode and capacitor C ₅An electrode link to each other C ₅Another electrode and capacitor C ₃And C ₄An electrode link to each other, again by C ₃And C ₄Another electrode link to each other back and feedback capacity C ₂And the high-pass filtering coil of wire (L ₄) an electrode link to each other, another electrode of the high-pass filtering coil of wire and positive source or controlled power supply link to each other, the vibration coil of wire of this high-frequency amplifier is promptly launched the coil of wire (L ₂) on electric connection point (29,30) respectively with triode BT ₅Colelctor electrode and capacitor C ₃, C ₄And the tie point of the high-pass filtering coil of wire links to each other.This frequency of oscillation is by C ₃, C ₄, C ₅Capacitance and the emission coil of wire (L ₂) inductance value determines that unlocking signal is through capacitor C ₇Be superimposed upon triode BT ₅Base stage on, the emission power output is determined that by the power of supply voltage and triode unlocking signal is through the emission coil of wire (L ₂) being transmitted into the space, (18) radiation that generates electromagnetic waves in the space is seen in conjunction with Figure 24 again, electromagnetic wave (18) is closely through receiving the coil of wire (L ₁), at the coil of wire (L ₁) on induce non-direct current and unlocking signal source, the voltage, the signal output that receive on the coil of wire are to pass to the remote control lock through electric connection point (31,32).As shown in the figure, wherein: a kind of mode is that the electrical appliance that the non-direct current that directly will respond to is locked for remote control is made power supply, and another kind of mode is that non-direct current is made power supply for the electrical appliance that remote control is locked after rectifier (VD) becomes direct current, through capacitor C ₇Pass to the electronic identifier (12) that remote control is locked with receiving the unlocking signal source of responding on the coil of wire, whether drive according to the decision of correctly not going of unlocking signal that executing agency unblanks or still locking by electronic identifier.For obtaining maximum electromagnetic wave induction, receiving the coil of wire (L ₁) electric connection point (31) and (32) between can insert variable capacitance C ₆, by changing capacitor C ₆Capacity to guarantee to receive the coil of wire consistent with the frequency of the emission coil of wire.For further improving emitted power, can be by shown in Figure 25, with the emission coil of wire (L ₂) replace the output coil of wire (23) but and permeability magnetic material (82), press the output coil of wire (23) among Figure 25, will launch the coil of wire (L ₂) on (29) and (30) of electric connection point in the middle of establish a tap.The emission coil of wire is with regard to 3 statures like this, and centre tap still links to each other with unlocking signal source (VS) with positive source by shown in Figure 25, by tie point (29,30) and triode BT ₆, BT ₇Colelctor electrode link to each other, remaining element and be connected that still to press Figure 25 constant, the power output of high-frequency amplifier just can improve more than 1 times like this, better guarantees the unlatching that the remote-control unlocking device is locked remote control.

Ask for an interview Fig. 6 and Fig. 7, Figure 26, Figure 27, Fig. 6, Fig. 7 are a kind of emission coil of wire (L ₁) and receive the coil of wire (L ₂) between adopt the close magnetic coupling structure chart of closer distance, receive the coil of wire and be with conductive material be wound on hollow insulation, non-magnet material (34) is gone up and formation center sky spiral-shaped, the emission coil of wire is to be wound on the non-magnet material (33) of insulation with conductive material, and the spiral in shape of formation handful formula, receive the coil of wire and be enclosed within outside the emission coil of wire, between two coils of wire, be provided with can not the counterchecking electromagnetic wave transmission material (67).The emission coil of wire tie point (29 that powers on, 30) link to each other with electromagnetic induction output device on the remote-control unlocking device, receive the electric connection point (31 on the coil of wire, 32) link to each other with the electromagnetic induction receiving system that remote control is locked, the coiling form of the described emission coil of wire and the reception coil of wire also includes: the shape of lap wound shape.Figure 26 and Figure 27 are the another kind of emission coils of wire (17) and receive the plane magnetic coupling structure chart that adopts closer distance between the coil of wire (19), this emission coil of wire and the reception coil of wire adopt conductive material by the flat winding number volume of certain spacing, on the reception coil of wire, electric connection point (31 is arranged, 32), on the emission coil of wire, electric connection point (29 is arranged, 30), the material (41) of handicapping retaining electromagnetic transmission not between two coils of wire.

Ask for an interview Fig. 8, Figure 25, Figure 21, in Fig. 8, magnetic head (40 on the electromagnetic induction output device (7), 60) be located on the same surface of remote-control unlocking device (1) with the same one side that is located at door (38) on magnetic head (39,70) magnetic contact and be in unlocking condition, magnetic head (39,70) is located on the electromagnetic induction receiving system (9) on the remote control lock (3).Again in conjunction with Figure 25, Figure 25 is that a kind of vibration causes big device (86) [seeing in the frame of broken lines line], Figure 25 is the partial circuit figure in a kind of remote control lock (3), the negative pole of the battery on the remote-control unlocking device (5) links to each other with negative pole on the monofier (86) through switch (43), and the output coil of wire (23) i.e. on the positive pole of battery (5) and the electromagnetic induction output device (7) is (L ₂) centre tap link to each other (L ₂) centre tap link to each other simultaneously with unlocking signal or control signal (VS), the output coil of wire (23, two electric connection points (25,26) L2) respectively with two triode BT of formation monofier ₆, BT ₇Colelctor electrode and the resistance R of operating current and definite frequency of oscillation is provided for respectively the base stage of triode ₁₂And C ₈, resistance R ₁₃And C ₉An electrode link to each other, again by resistance R ₁₂And C ₈Another electrode link to each other back, resistance R ₁₃And C ₉Another electrode link to each other after respectively with triode BT ₆, BT ₇In a base stage link to each other and BT ₆, BT ₇The emitter stage back that links to each other link to each other with negative pole on the battery (5), export the coil of wire (23, L ₂) be contained on the overlapped magnetic material (82) of " n " font.After switch (43) was opened, dc source was added in double-triode valve BT ₆, BT ₇On the monofier of forming, just direct current is become non-direct current and load on the output coil of wire, signal of unblanking simultaneously or control signal (VS) also together load on the output coil of wire.Again in conjunction with Fig. 8, Figure 25 sees, at electromagnetic induction output device (7) but go up magnetic head (40 on the permeability magnetic material (82), 60) be located at the magnetic head (39 that the remote control on the door is locked, 70) magnetic contact, because of magnetic head (39,70) be by electromagnetic induction receiving system (9) go up " n " but two magnetic heads on the permeability magnetic material (81) of font, but make permeability magnetic material (81) and (82) constitute magnetic loop, alternating magnetic field (8) will be exported the electric energy on the coil of wire, unlocking signal is just sensed and is received on the coil of wire, make last non-direct current of responding to of the reception coil of wire (24) and unlocking signal through electric connection point (27,28), lead (37) is gone up input t with bridge rectifier product (VD) ₁And t ₂Link to each other, the output of rectifier just becomes direct current, for electrical appliance (12, the 13) electricity consumption that remote control is locked, make the remote control lock enter duty, and unlocking signal is through capacitor C ₇Separate from the output coil of wire, both capacitor C ₇An electrode link to each other with the output coil of wire, another electrode of this electric capacity links to each other with input on the electronic identifier (12), goes to drive executing agency and unblanks recently determining whether output signal by being pre-stored in the unlocking signal in the electronic identifier and the unlocking signal of input.In conjunction with Figure 21, this figure is a kind of figure that implements to unblank with relay, and when unlocking signal was incorrect, the electromagnetic valve in the executing agency, electromagnet, relay (80) can not move.Mobilizable armature (79) on the relay (80) is by spring (75) pressurization, groove (77) on dead bolt (76) on boss (78) and the door on the armature (79) or the lock bridge etc. cooperated contact, and dead bolt (76) can not be moved, and locks and just still is in blocking.When unlocking signal correct, executing agency gets, the coil of wire (L) on the relay (80) is subjected to, there is electric current to pass through in the coil of wire, just at " E " but the permeability magnetic material (81) of font go up to produce magnetoelectricity stream (8), this magnetoelectricity stream is inhaled removable armature (79) moving, and boss (78) and groove (77) are disengaged, lock bridge or dead bolt (76) are under the effect of spring (75) or hand bright (74), and lock just has been unlocked.Switch (43 on the remote-control unlocking device, 42) close, or magnetic head (40,60) with (39, when 70) breaking away from the magnetic contact, the output coil of wire (L) dead electricity, each electrical appliance outage that remote control is locked, the remote control lock recovers blocking (seeing Figure 21) again, and dead bolt just can not move, the executing agency that adopts high sensitive relay (L) is because this relay only needs low-voltage, electric current just can make moving armature (78) move at several milliamperes to tens milliamperes, and the volume of battery on the remote-control unlocking device is reduced, and power consumption is less, the volume of electromagnetic induction output and receiving system (7,9) is with regard to Miniaturizable.Though each remote-control unlocking is opened than present remote control some electricity of the power autonomous remote control lock consumption of Duo is arranged, saved the electric energy that the remote control lock need long charged consumption in operation, so it more saves, more environmental protection, and safer, its scope of application is wider.Between magnetic head (39) and (70), (40) and (60), be provided with non-magnet material (41), but promptly between said head, be not provided with permeability magnetic material, in case cause magnet short-cut path.Also can by the non-direct current that will receive coil of wire induction among Figure 25 through tie point (27,28) promptly (a, b) tie point directly power to the electrical appliance that remote control is locked.

Ask for an interview Fig. 9, be on the remote-control unlocking device (1,61) magnetic head (40,60) respectively with remote control padlock (48) on magnetic head (39,70) magnetic contact, and be in the figure of the situation of unblanking.The principle of unblanking of this padlock is the same substantially with Fig. 8, so part outlines.Remote-control unlocking device (1,61) battery on (5) is given direct current is become non-galvanic monofier (86) [seeing in Figure 25 frame of broken lines] or (85) [seeing in Figure 24 frame of broken lines] power supply, make the output coil of wire (23) on the electromagnetic induction output device (7) go up the non-galvanic pulse signal of generation, the electromotive force of alternating signal, but this non-direct current is gone up generation alternating magnetic fields (8) at permeability magnetic material (82) and [is seen Fig. 2, Figure 25], the size of this alternating magnetic field and the voltage that loads on the output coil of wire (23), size of current is relevant, alternating magnetic field (8) but magnetic head (40 on permeability magnetic material (82), 60) but with the remote control padlock on permeability magnetic material (81) on magnetic head (39,70) magnetic contact, and the formation magnetic loop, electromagnetic induction is received on the coil of wire (24) sense non-galvanic electric energy, also sense simultaneously by the unlocking signal electric current that is superimposed on the remote-control unlocking device on the output coil of wire, the electromotive force of responding on the coil of wire because of output is through the electric connection point (27 of output, 28) with the input (a of rectifier (VD) [seeing Figure 25], a) link to each other, direct current after the rectification is used for the electronic identifier (12) that remote control locks and the power supply of electromagnetic valve electrical appliance devices such as (44), and unlocking signal is through electric capacity (C ₇) link to each other with the input of electronic identifier (12), the output of electronic identifier links to each other with the amplifier of phase inverter or the action of drive executing agency.In this implementation column, adopt the output of electronic identifier to remove to drive the open and close that another kind of high-sensitive electromagnetic valve (44) is implemented lock.Be wound with the hollow coil of wire (L) on the electromagnetic valve (44), electrode in the electrical connection on this coil of wire (27,28) and triode BG ₃[seeing Figure 19] or controlled electron identifier BT ₁[seeing Figure 20] links to each other, another electrode links to each other with the power supply that remote control is locked, this power supply is provided by the voltage that electromagnetic induction receives the last induction of the coil of wire (24), in the hollow skeleton of electromagnetic valve, be placed with spring (45) and press the locking bolt (49) that contacts, but this locking bolt is a permeability magnetic material, the other end of locking bolt (49) is when locking, contact with groove (50) cooperation on lock body and the lock bridge (47), lock bridge can not be moved, switch (42 on the remote-control unlocking device, 43) connect, battery is to oscillator and the power supply of electromagnetism output device, and when sending unlocking cipher, the reception coil of wire on the electromagnetic induction receiving system that remote control is locked, just electrical appliance operate as normal required voltage and unlocking signal electric current are gone up in induction, differentiate judgement through electronic identifier, correct signal just goes to drive executing agency's work, the electric current that makes the coil of wire (L) but upward flow is inhaled the locking bolt (49) of permeability magnetic material moving with regard to producing magnetic field, make spring (45) compression and move, locking bolt no longer contacts with groove (50) on the lock bridge (47), and padlock (58) has just been opened.Otherwise, after the remote-control unlocking device outage, the coil of wire (L) dead electricity, spring make locking bolt again with padlock on lock body contact with groove fit on the lock bridge, make the locking of remote control padlock, enter uncharged resting state.But described permeability magnetic material (82) and (81) also are the shapes of " n " font.

Ask for an interview Figure 10, Figure 20, Figure 19, Fig. 6, Fig. 7; In Figure 10, it is remote-control unlocking device (1,61) the electromagnetic induction output device (7) on but on permeability magnetic material (82) make the permeability magnetic material (82) of crooked shape (58), the unlocking condition figure that enters another magnet passage hole (36) that hides in the lock is inserted in the magnet passage hole (57) of this permeability magnetic material from remote control lock (56), promptly enter the reception coil of wire (24) that is hidden in the magnetic track hole (36) in, but the reception coil of wire is enclosed within on the permeability magnetic material (82), as preceding embodiment Figure 24, Figure 25 etc. are described, after the power switch (43) of remote control lock is connected, output coil of wire generation electric current on the electromagnetism output device is flowed, but being gone up, permeability magnetic material (82) produces synchronous alternating magnetic field (8), this magnetic field (8) along crooked shape (58) but permeability magnetic material (82) enter in the hollow reception coil of wire, on the hollow reception coil of wire (24), induce alternating current and unlocking signal, the electric connection point (27 of this alternating current on the coil of wire, 28) electrical appliance of locking for remote control is made power supply usefulness, and unlocking signal is arranged on crooked shape connecting rod (58) (non-linear connecting rod) but permeability magnetic material (82) on, at least one electrical pickoff (55) is arranged and be hidden in the transmission pole (53 in the magnet passage hole in the lock, 54) press contact mutually, electrically insulating material (51) is arranged between transmission pole and lock body (56), electrical pickoff (55) but with the permeability magnetic material electric insulation, the unlocking signal source that this electrical pickoff is exported on lead and lockaid gun links to each other transmission pole and spring (52), insulation materials (51), lock body (56) order presses contact.Described lock body (56) is the remote control lock.Another kind of control is unblanked, the mode of electric energy transmitting is with " n " but two magnetic heads (40 of font permeability magnetic material (82), 60) [see Fig. 4], be arranged on the other end of crooked connecting rod (58), but be about to permeability magnetic material (82) and make the shape of crooked shape (58), should " n " but the non-openend and the cover output coil of wire (23) in the above of the permeability magnetic material of font are located in the remote-control unlocking device, and be magnetic head (60 with two openends, 40) be arranged on the other end, just can enter the electromagnetic induction receiving system (9) locked with remote control in another magnet passage hole (36) that is hidden in the lock by the magnet passage hole (57) in the lock but on permeability magnetic material (81) on two magnetic heads (39,70) magnetic contact respectively, make magnetic circuit constitute the closed-loop path, but making to receive on the coil of wire, the alternating magnetic field on the permeability magnetic material (8) senses alternating current, receiving output (27 on the coil of wire, 28) go up generation voltage, for the electrical appliance electricity consumption.Equally, also can be with the line of departure (L ₁) be arranged on the end of crooked connecting rod (58), enter the reception coil of wire (L that is hidden in the interior magnet passage hole (36) of lock and is placed on this magnet passage hole (36) ₂) become in-plant magnetic coupling to come transmission voltage and unlocking signal, this magnetic-coupled mode includes: a kind of closely plane magnetic radiation contact [seeing Figure 26, Figure 27], a kind of is to receive the coil of wire (L ₁) be enclosed within and launch the coil of wire (L ₂) outer [described Fig. 6, Fig. 7 see before] next tight electromagenetic wave radiation cooperation, improve transmission usefulness, there is an opening to make the magnet passage hole can not form short circuit on this magnet passage hole (36) to electromagenetic wave radiation, or nearer zone is to use non-magnet material with receiving the coil of wire in this magnet passage hole (36), in case magnet short-cut path or magnetic field are closed by screen.The setting of unlocking signal can be used code number, finger print information, frequency of oscillation, ultrasonic wave, light etc., also can use bridge circuit, ask for an interview Figure 19, see in conjunction with Figure 10 and Figure 19, the unlocking signal of this remote control lock is to select for use resistance value at 1 ohm of resistance (R that extremely counts between megaohm ₄), select the R of different resistances for use according to different locks ₄, R ₄, R ₂The product of resistance equal R ₁, R ₃The product of resistance, promptly according to the bridge balance principle, and add the size that is the electric bridge both end voltage and wait to determine R ₁To R ₄The resistance value scope.With R ₄Be set on the remote-control unlocking device, the end (55) that these ohmically two electrodes are located at crooked connecting rod (58) is located, make this electrode and crooked connecting rod electric insulation, and an end that guarantees the crooked connecting rod of projection (non-linear connecting rod) on the remote-control unlocking device enters in the magnet passage hole (36) that is hidden in the lock, with two transmission poles (53 on the lock body (56), 54) electricity presses contact, the other end of two transmission poles (53,54) respectively with bridge circuit on X ₁, X ₄Tie point connects (structure, operating principle front about transmission pole etc. are stated), provides to the electrical appliance that remote control is locked at the remote-control unlocking device under the situation of power supply (preceding several embodiment state), and remote control is phase-locked therewith joins, the R of the electric bridge that inserts ₄Resistance makes electric bridge output W ₁With W ₂Between no-voltage when output, at BG ₁Base stage and emitter stage between no-voltage, make BG ₁End BG ₁Terminate in that colelctor electrode is exactly a high potential, through R ₆, R ₇, R ₈Shunting action, during greater than 0.3V, make BG at triode base stage and emission voltage across poles ₂Conducting, positive current just from emitter stage through resistance R ₁₀Enter the base stage of triode, make BG ₃Conducting or saturated, power source voltage just all is carried in electromagnetic valve, on the coil of wire of relay (L), makes its action and unlocking, and lock is unlocked.Otherwise, as the R that inserts ₄The resistance of resistance can not guarantee bridge balance, must make output W ₁With W ₂Between voltage output is arranged, this voltage makes BG ₁Conducting, the about 0.3V of voltage between colelctor electrode and emission is through resistance R ₇, R ₈Shunting, BG ₂The voltage of base stage just is lower than 0.3V, BG ₂Pipe just is in cut-off state, and current/voltage is concentrated between current collection and emitter stage, that is to say that emitter stage is in utmost point low-voltage, can not guarantee BG ₃Conducting, BG ₃Colelctor electrode is with regard to no current, and the coil of wire (L) is gone up no current and passed through, and relay or electromagnetic valve are not just worked, and the remote control lock just is in the resting state of locking all the time.R among the figure ₅, D ₁And D ₂, and R ₈, D ₃And D ₄Be to prevent BG ₁, BG ₂Electrical breakdown and the holding circuit damaged in main power circuit, is provided with the resistance R of certain resistance ₉With electrochemical capacitor C ₂Be to be used for that the voltage between bridge circuit and executing agency is loaded into normal value to have certain hour poor slightly, prevent misoperation.Adopting resistance to do the unlocking signal source, is because the Standard resistance range of resistance is big, and close capacity is just big, and the safety of lock is just big, and simple, reliable, economical and practical, R on the bridge circuit ₁To R ₄Resistance is selected the little same quality resistance of temperature coefficient for use as far as possible, reduces the influence of difference variation to resistance.Power supply is carried on other two brachium pontis of electric bridge, and brachium pontis W ₁With W ₂Be output.Ask for an interview Figure 20, this figure is another circuit diagram that drives executing agency's action with controllable silicon, sees in conjunction with Figure 19, with the W among Figure 20 ₁And W ₂With the electric bridge output W among Figure 19 ₁And W ₂Connect, and with W ₂To R ₅, D ₁, BG ₁The input of base stage and executing agency (13) [seeing in the dashed rectangle] break, and so just make the output W of bridge circuit ₁, W ₂Directly and the W among Figure 20 ₁, W ₂The corresponding connection, in the unlocking signal mistake or when not having unlocking signal, the resistance R on the electric bridge ₄Can not make electric bridge be in balance, voltage, BG just be arranged at the electric bridge output ₄Obtain positive voltage and conducting makes BT ₁The control pole tension become negative and be in cut-off state, with regard to no current, the remote control lock just is in blocking, when the resistance R that inserts electric bridge in the coil of wire (L) ₄Resistance when making bridge balance, at the output W of electric bridge ₁, W ₂Between no-voltage output, BG ₄End, colelctor electrode becomes high potential, makes the control utmost point forward trigger voltage be arranged, controllable silicon BT ₁The conducting that is triggered, electric current produces magnetic field by the coil of wire (L), realizes the unlatching of lock.

Ask for an interview Figure 11, it is that electromagnetic induction output device (7) is arranged on distant controller for lock outer process, and can enter in the magnet passage hole (57) in the padlock (48), and this figure carries out unlocked conditions figure with the remote-control unlocking device, the electromagnetic induction output coil of wire (23) or (L ₁) [seeing Fig. 4, Fig. 6, Fig. 7], enter in the magnet passage hole and the reception coil of wire (24) or (L that place in the magnet passage hole ₂), in-plant electromagnetic radiation and reception have non-magnet material (41) in magnet passage hole (57) to receiving between the coil of wire, but promptly are not provided with magnetic conductive material.When the switch (43) of remote-control unlocking device is connected, as described in the previous embodiment, make the output coil of wire (23) or (L ₁) voltage of non-direct current in the induction, this voltage receives on the coil of wire (24) through in-plant being transferred to of magnetic induction, the same embodiment is described for operating principle, by receiving the working power that coil of wire output voltage removes the electrical appliance locked as remote control, and output unlocking signal source is separated through electric capacity and is sent on the electronic identifier.The characteristics of present embodiment are with the output coil of wire (23) on the electromagnetic induction output device or the emission coil of wire (L ₂) can enter lock (48) or fixedly in the magnet passage hole of the door (38) of remote control lock and reception coil of wire radioinduction closely.Also can be but the magnetic head (40 of the permeability magnetic material (82) of font with " n " on the electromagnetism output device (7), 60) be arranged in parallel, enter easily in the magnet passage hole (57) in the remote control lock, with " n " on the electromagnetic induction receiving system (9) but the magnetic head (39 on the permeability magnetic material (81) of font, 70) magnetic contact respectively, but make permeability magnetic material constitute closed magnetic loop, make the voltage on the output coil of wire, electric current becomes alternating magnetic field (8) and passes on the reception coil of wire (24) on the electromagnetic induction receiving system, voltage is exported (the same embodiment of operating principle is equally so outline) by electric connection point again, be used as the power supply of electrical appliance.

Ask for an interview Figure 12, this embodiment and aforesaid Fig. 8, what Fig. 9 was different is: remote-control unlocking device (1,61) the electromagnetic induction output device (7) on but be by two can be relatively movable permeability magnetic materials (82) and (59) formation, by locking bolt (83) but become movable with permeability magnetic material (82) and hole slot on (59) and be connected, the magnetic head of locking with remote control on the electromagnetic induction output device (39,70) Jie Chu two magnetic heads (40,60) but be located at respectively on permeability magnetic material (82) and (59), and these two magnetic heads (40,60) setting on the remote-control unlocking device is not at grade, and spring makes two magnetic heads (40) and (60) stressed and can move in opposite directions.Equally, at electromagnetic induction receiving system (9) that remote control is locked but on permeability magnetic material (81) on two upper magnetic heads (39,70) also be not at grade, when unblanking with the remote-control unlocking device, with two magnetic heads (40 on the electromagnetic induction output device, 60) be clipped in two upper magnetic heads (39 on the electromagnetic induction receiving system of locking with remote control on two surfaces of remote control padlock (48), 70) magnetic contact respectively, because of magnetic head (40) removable, under the effect of spring force, this magnetic head (40) is closely contacted with magnetic head (39), because of two magnetic heads (40) and (60) are mobile in opposite directions, magnetic head (60) is also closely contacted with magnetic head (70), so just help on two planes that the remote-control unlocking device is clipped in magnetic head padlock easily after, with magnetic head (39,70) closely contact, but make permeability magnetic material (81,82,59) constitute the closed-loop path and improve magnetic induction efficient, reduce the electric energy transmission loss.The 2nd characteristics are to be provided with the fingerprint detection head (59) that detects the unlocking person fingerprint on the remote-control unlocking device among this embodiment, only when unlocking person is the owner of lock, the same with the finger print information in defaulting in the remote-control unlocking device, electromagnetic induction output device on the remote-control unlocking device just has electric current and voltage output, when perhaps this finger print information is pre-stored in remote control and locks, the unlocking signal (finger print information) that sends from the remote-control unlocking device and remote control are locked the finger print information that is stored in the electronic identifier when the same, and lock could be opened.The operating principles of this embodiment etc. are with aforementioned the same so outline.

Ask for an interview Figure 13, this figure is the electromagnetic induction receiving system, and it is a kind of reception coil of wire (19), and this coil of wire adopts conductive material coiling number on hollow non-conductor, non-magnet material to roll up and the formation spirality reception coil of wire (L ₁), and the electromagnetic induction output device is a kind of emission coil of wire (L ₂), this emission coil of wire adopts conductive material non-conductive, and coiling number volume constitutes on the annulus of non-magnetic conduction.The described reception coil of wire (L ₁) be placed on remote control lock (56,48) in the door (38) that or fixedly remote control is locked, receiving the coil of wire between the emission coil of wire, the window (41) that can allow electromagnetic wave (18), (20) pass through is arranged, promptly the available non-magnet material of this window (41), non-reflective materials, non-electromagnetic wave absorbent material are hidden in the reception coil of wire in the lock or in the door, voltage output on this reception coil of wire is through electric connection point (31,32) link to each other with electronic identifier that remote control is locked and discern unlocking signal, and make the electrical appliance power supply of locking to remote control for power supply.The emission coil of wire (L on the remote-control unlocking device (1) ₂) promptly the electric connection point (29,30) on (17) is described the same with Figure 24, inserts the output of high-frequency amplifier (85) [seeing in the frame of broken lines].When unblanking with the remote-control unlocking device, after switch (43) connection, on the emission coil of wire, produce frequency electromagnetic waves (18), (20) to space radiation, when receiving the coil of wire, electromagnetic wave (20) makes and receives the coil of wire and can produce the voltage that satisfies the electrical appliance operate as normal that remote control locks in emission coil of wire closer distance.The emission coil of wire and the voltage change ratio that receives between the coil of wire include: constant voltage, step-down, the three kinds of transmission means of boosting.

Ask for an interview Figure 14, it is a kind of remote-control unlocking device (1,61), on control panel, have and adjust knob or the deconcentrator switch (62) that resistance changes, the reference line (63) of definite input resistance value and the numeral (1 of the certain resistance value of representative are arranged on switch and the panel, 2,3 ... 8) number (64), be provided with power switch (43), bossed crooked extension bar (58) on the shell of remote-control unlocking device, its end links to each other with remote-control unlocking device shell, on the other end of crooked connecting rod, be provided with battery just, the electric contact (66 that negative electrode links to each other, 67), this electric contact links to each other with battery through lead (69), also be provided with two electric contacts (55,68) that link to each other with a electrode on the knob (62) through lead (69) and several resistance parallel connected end, and another electrode of at least one resistance in another electrode on the knob (rotating conduction brush) and several parallel resistances contacts.Described electric contact (66,67,55,68) with to be provided with electrically insulating material (65) aforesaid the same with Figure 10 between crooked connecting rod (58), the way that this remote controller is unblanked is that crooked connecting rod can be entered the interior magnet passage hole (57) of lock (56), oppositely move then, make the electric contact (55 of the representative unlocking signal resistance value on the crooked connecting rod, 68) with the interior transmission pole (53 of lock, 54) [see Figure 10] and electrically contact, then through resistance value being passed to X in the bridge circuit (seeing Figure 19) with the transmission pole of lock body electric insulation ₁And X ₄On the brachium pontis, the positive and negative electrode that contacts with battery (66), (67) electrically contact transmission pole with another with hiding the lock in the interior magnet passage hole (36), are powered to electrical appliance through lead by this transmission pole then.Employing is established electrical pickoff on crooked connecting rod, end on the transmission pole is hidden in the interior magnet passage hole (as shown in figure 10) of lock, make outside the lock and can not see, guarantee on the remote-control unlocking device power supply and unlocking signal safety, be transferred to remote control accurately and lock, when power supply correctly adds, make electronic identifier (12), executing agency's electrical appliances such as (13) that working power arranged, when the resistance value of unblanking correct, the W of bridge circuit (seeing Figure 19) ₁With W ₂Between no-voltage output, electromagnetic valve L produces magnetic field, lock is opened, otherwise electromagnetic valve does not have normal current to be passed through, electromagnetic valve is failure to actuate, and locks and still with regard to locking.Stated before the operating principle of Figure 19 so slightly.

Ask for an interview Figure 15, it is a kind of remote-control unlocking device (1), the switch (42) that control power supply and unlocking signal are arranged on the remote-control unlocking device, (43), tangent bend connecting rod (58) at the shell upper process is arranged, constituting connecting rod (35) after one end of two crooked connecting rods links to each other links to each other with remote-control unlocking device shell, as Figure 14, be provided with and be hidden in the electric contact (55 that the conduction transmission pole on the magnet passage hole (36) [seeing Figure 10] in the remote control lock electrically contacts on one of them crooked connecting rod, 68), this electric contact and crooked connecting rod electric insulation (65), link to each other transmission pole that this resistance is locked through remote control as the R4 in the bridge circuit and the X in the electric bridge shown in Figure 19 with resistance on being pre-stored in the remote-control unlocking device through lead (69) ₁, X ₄Linking to each other is used as unlocking signal, makes bridge balance, output W ₁With W ₂Between no-voltage output (so its effect Figure 19 is described slightly), and the electromagnetic induction output device is housed on another crooked connecting rod, this electromagnetic induction output device includes: a kind of is the emission coil of wire (L ₂), electric connection point (29 on this coil of wire, 30) through lead (69) link to each other with the output of high-frequency amplifier (seeing Figure 24), after the spiral emission coil of wire (17) is in entering the remote control lock, enter remote control again and lock cored screw shape and receive in-plant absorption of electromagnetic radiation [seeing Fig. 6, Fig. 7] in the coil of wire (19), will launch electric energy on the coil of wire and be transferred to the reception coil of wire and get on to be the power supply of electrical appliance.Another kind be output the coil of wire (23) but be enclosed within on the permeability magnetic material (82) [seeing Fig. 4], this output coil of wire (23, L ₂) two colelctor electrodes etc. in electric connection point and the oscillator (86) [seeing in Figure 25 broken line frame] link to each other, export the coil of wire (L ₂) the last alternating current that produces, but go up generation alternating magnetic field (8) at permeability magnetic material (82), but through permeability magnetic material (82) but contact [seeing that Fig. 4 is described] with permeability magnetic material (81) in the magnet passage hole that remote control is locked, but with permeability magnetic material (81,82) structure closed magnetic circuit, make the reception coil of wire induction on the electromagnetic induction receiving system go up non-DC voltage, and as the power supply of electrical appliance.

Ask for an interview Figure 16, it is a kind of remote-control unlocking device (1), at remote-control unlocking device upper process the crooked connecting rod (58) of another kind of shape is arranged, electric contact (55,68) is arranged on crooked connecting rod, this electric contact links to each other with the resistance of representing unlocking signal through lead (69), see that in conjunction with Figure 10 the transmission pole of being locked by electric contact (55,68) and remote control electrically contacts in the hiding magnet passage hole in crooked connecting rod inserts the remote control lock, through transmission pole, the resistance R of unlocking signal will be represented ₄With two brachium pontis W on the electric bridge ₁And X ₄Contact, make bridge balance, lock could be opened [see before in the face of Figure 19 described].Two electric contacts (66 in addition on the crooked connecting rod, 67) link to each other through the signal output part of lead (69) with fingerprint detector (59), by electric contact (66,67) be hidden in that conductive bar electrically contacts in the remote control lock, the fingerprint signal that conductive bar presets in lead and electronic identifier compares, and could drive after correct and lock unlatching, described four electric contacts (55,68,66,67) electric insulation and between crooked connecting rod.

Ask for an interview Figure 17, it is a kind of remote-control unlocking device (1), the tangent bend connecting rod that another shape is arranged at this lockaid gun upper process, one of them crooked connecting rod is provided with electric contact (55,68), electrically insulating material (65) is arranged between this electric contact and crooked connecting rod, and the connection of this electric contact outlines with aforesaid the same event with effect.And but another crooked connecting rod is by the material (82) of magnetic conduction and the electromagnetic induction output device (7) of the cover output coil of wire (23) formation outside, the connected mode of this output coil of wire (23) [seeing that Figure 26 is described], after producing non-direct current on the output coil of wire, but being gone up, permeability magnetic material (82) produces alternating magnetic field, see in conjunction with Figure 10, in this bending connecting rod enters the magnet passage hole that is hidden in the lock, and enter the reception coil of wire (24) or (L that remote control is locked ₁) in, promptly receive the coil of wire and just be enclosed within outside the permeability magnetic material (82), make to receive the coil of wire (24) or (L ₁) inducing non-DC voltage, this voltage is made power supply for the electrical appliance that remote control is locked after rectification.

Asking for an interview Figure 18, is a kind of remote-control unlocking device (1), and what this figure was different with Figure 14 is: electric contact (55,68), (66,67) be provided in a side of on the connecting rod (35) of non-bending, each electric contact has electrically insulating material (65) between the connecting rod (35) of non-bending, and so operating principle is as hereinbefore slightly.

Among Figure 14 to Figure 18, direct current becomes non-direct current on the remote-control unlocking device, and the battery in the remote-control unlocking device or electromagnetism output device etc. does not draw, because of having omited (explanation hereby) with aforesaid identical event.

The remote control lock scope of application of the present invention comprises: make lock on the vehicles such as automobile, motorcycle; on doors such as bank vault, safety cabinet, house, make theftproof lock; on power transformer, make the safety lock of protection transformer; valve on oil transportation, gas transmission, aqueduct is made valve lock; the pattern manhole cover lock that handcuffss locks and preventing well cover are lost, and be used in do not have power supply, the safety lock of poor working environment.And the remote-control unlocking device can be located on the mobile phone, on the remote controller, on the wrist-watch, on the belt, on the key, item connects to wait and exports, launches unlocking signal and the required electric energy of electrical appliance locked of transmission remote control.

According to described electromagnetic induction principle and above-mentioned embodiment, with the electromagnetic induction output device (7,17, L ₂) link to each other with external power supply, with the electromagnetic induction receiving system (9,19, L ₁) be arranged on the mobile phone, by mobile phone and electromagnetic induction output device closely magnetic contact, make the battery on the mobile phone obtain charging, both improved charge efficiency and speed, make the charger unified standardization of various mobile phones again, reduce of waste and the environment pollution of a large amount of chargers resource.

The present invention is by finishing the object of the invention with upper type.

Claims (10)

1, a kind of not self-powered remote control lock, it comprises: the code number that lock body identification is unblanked, electric-field intensity, wave frequency, bridge circuit, the electronic identifier of finger print information, the electromagnet that electronic identifier drives, electromagnetic valve, relay, control remote control lock is opened, the remote-control unlocking device that closes, it is characterized in that: at remote control lock (3,48,56) on the door (38) that or fixedly remote control is locked, be provided with and receive remote-control unlocking device (1,61) launch electric wave, the electromagnetic induction receiving system (9 in output magnetic field, 19), be provided with to remote control lock at remote-control unlocking device (1,16) unlocking signal is provided, the electrical appliance of locking for remote control provides the electromagnetic induction output device (7,17) of power supply; The output coil of wire (23) on the described electromagnetic induction output device (7,17), the emission coil of wire (L ₂, 17) with direct current can be become non-galvanic electron-amplifier (85) or (86) link to each other, the power supply of the sub-amplifier of powering is from dc source on the remote-control unlocking device or external power supply, the reception coil of wire (L on the described electromagnetic induction receiving system (9,19) ₁, 19,24) and the non-direct current responded to, to the electrical appliance power supply that remote control is locked, make the remote control lock enter duty, the unlocking signal of being responded to is through capacitor C ₇Or lead links to each other with the input of electronic identifier (12), and the open and close of lock is carried out in the operation that determines whether to drive electromagnetic valve (L) by electronic identifier; But the electric energy on remote control lock and the remote-control unlocking device, the transmission means of unlocking signal be by permeability magnetic material (82) on the magnetic induction output device but with the magnetic induction receiving system on the magnetic contact of permeability magnetic material (81,51), by output volume (23) or the emission coil of wire (L ₂, 17) with receive the coil of wire (24) or (L ₁, 19) between electromagenetic wave radiation induction will export the coil of wire (23), launch the coil of wire (L ₂, 17) and the electromagnetic energy that go up to produce is transferred to and receives the coil of wire (L ₁, 19,24) on, make to receive non-direct current of induction and unlocking signal on the coil of wire.

2, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: the electromagnetic induction receiving system (9) that described remote control is locked but be to go up with enamel-covered wire by the permeability magnetic material (81) of definite shape with at this permeability magnetic material (81) press a few the reception coil of wire (24) formation of certain way coiling, this reception coil of wire (24) is from exporting the non-direct current of being responded on the coil of wire (23), through voltage output end (27,28) the electrical appliance power supply of locking to remote control, the mode of this power supply includes: non-direct current is directly to electrical appliance power supply, the dual mode that non-direct current is powered to electrical appliance after rectification becomes direct current; But the shape of described permeability magnetic material (81) includes: " one " font, " E " font, " n " font, " ⌒ " arc, semicircle several, but described permeability magnetic material (81) and electromagnetic induction output device (7) but on the magnetic head (39 of permeability magnetic material (82) magnetic contact position, 70) lock in remote control at the position, fixedly the position that is provided with on the door of remote control lock includes: on the same one side of remote control lock or door, not on the same one side of remote control lock or door, in the magnet passage hole (57) of remote control lock or door, be hidden in the magnetic bend hole (36) of remote control lock or door, and can not be from lock or several modes of seeing outdoors, between magnetic head (39) and (70), do not establish permeability magnetic material, can establish non-magnet material (41) and avoid magnet short-cut path; Transformation ratio transmission between described electromagnetic induction receiving system (9) and electromagnetic induction output device (7) includes: several modes of constant voltage transmission, step-down transmission, the transmission of boosting.

3, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: the electromagnetic induction receiving system that described remote control is locked is to receive the coil of wire (L ₁, 19), or by receiving the coil of wire (L ₁19) and two kinds of structures that constitute behind the serial or parallel connection of electric capacity, the electrical appliance power supply that the non-direct current of responding on this reception coil of wire is locked to remote control as power supply, its power supply mode includes: non-direct current is from voltage output end (31,32) directly power to electrical appliance, non-direct current is from voltage output end (31,32) link to each other with rectifier, become behind the direct current dual mode to the electrical appliance power supply, the described reception coil of wire is to be made of by definite shape coiling number volume enamel-covered wire or conductive material, the shape of this reception coil of wire coiling includes: planar shaped, lap wound shape, hollow, spirality, several shapes of bar type spirality, this receives the coil of wire (L ₁, 19) with the electromagnetic induction output device on the emission coil of wire (L ₂17) electric energy between, the electrical signal transfer mode is electromagnetic radiation (18) contact by closer distance, the electromagnetic radiation between the described reception coil of wire and the emission coil of wire and the coupled modes of reception include: hollow spirality receives the coil of wire and is enclosed within the closely coupling outward of the bar type spirality emission coil of wire, planar shaped receives the coupling of closer distance between the coil of wire and the planar shaped emission coil of wire, the described reception coil of wire remote control lock or fixedly the position that is provided with on the door of remote control lock include: on the surface of remote control lock or door, in remote control lock or door, in the magnet passage hole (57) or dark bend hole (36) of remote control lock or door, the material that the described reception coil of wire and emission can not have counterchecking electromagnetic wave to pass through between the coil of wire is avoided electromagnetic wave to be absorbed or is reflected.

4, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: described remote-control unlocking device (1,16) the electromagnetic induction output device (7) on but be by the permeability magnetic material (82) of definite shape and on this permeability magnetic material the output coil of wire (23) with enamel-covered wire coiling number volume constitute, the non-direct current that produces on this output coil of wire on this coil of wire electric connection point (25,26), switch (43) and direct current is become non-galvanic electron-amplifier (85 or 86), dc source (5) links to each other; But the shape of described permeability magnetic material (82) includes: " one " font, " E " font, " n " font, " ⌒ " arc, semicircle several, but the alternating magnetic field (8) on should permeability magnetic material (82) is to be magnetic head (40 by the two ends on this permeability magnetic material, 60) but the two ends on the permeability magnetic material of locking with remote control (81) are magnetic head (70,39) the magnetic contact constitutes magnetic loop, but alternating magnetic field is passed on the permeability magnetic material (81), make to receive on the coil of wire (24) and induce non-direct current, described magnetic head (40,60) include in the position that is provided with on the remote-control unlocking device: a kind of is on same surface, a kind of is not on same surface, a kind of is that two magnetic heads can relatively move, be at least one magnetic energy head (40) but be located on the porose permeability magnetic material (59), but aperture locking bolt (83) on should permeability magnetic material but be connected with hole on the permeability magnetic material (82), be movably to connect the location, but permeability magnetic material (59) is subjected to spring force that two magnetic heads can be moved in opposite directions, a kind of is at remote-control unlocking device upper process, contacts with the magnetic induction of electromagnetic induction receiving system in the door that the magnetic head of this projection or the output coil of wire (23) can enter in the remote control lock or fixedly remote control is locked.

5, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: the electromagnetic induction output device (17) on the described remote-control unlocking device is the emission coil of wire (L2) of electric energy transmitting and unlocking signal, the non-direct current that produces on this emission coil of wire is the electric connection point (29 on this coil of wire, 30), switch (43) links to each other with the output device that direct current is become non-galvanic high-frequency amplifier (85) or oscillator (86), and high-frequency amplifier, the input of oscillator links to each other with unlocking signal or controlled source, by the dc source on the remote-control unlocking device to oscillator, the high-frequency amplifier power supply, the described emission coil of wire is to be made of by definite shape coiling number volume enamel-covered wire or conductive material, the shape of this emission coil of wire includes: flat around shape, lap wound shape, hollow spirality, the bar type spirality several, this line of departure twists in the position that is provided with on the remote-control unlocking device and includes: be located in the remote-control unlocking device, be located at remote-control unlocking device surface, at remote-control unlocking device surface upper process, and can enter remote control lock or the fixedly magnet passage (57) in the door of remote control lock or several modes in the magnetic bend (36).

6, according to the described a kind of not self-powered remote control lock in one of claim 4 or 5, it is characterized in that: described high-frequency amplifier (85) is by triode BT ₅Emitter stage and capacitor C ₆Link to each other BT with power cathode after linking to each other ₅Base stage and capacitor C ₆, the transmission unlocking signal capacitor C ₇With lock capacitor C ₂An electrode link to each other BT ₅Colelctor electrode and capacitor C ₅, the electric connection point (29) on the electromagnetic induction output device (7,17) or (25) link to each other, capacitor C ₅Another electrode and capacitor C ₃And C ₄Link to each other capacitor C ₃And C ₄Another electrode parallel connection after with feedback capacity C ₂With the high-pass filtering coil of wire (L ₄), another electric connection point (30) on the electromagnetic induction output device (7,17) or (26) link to each other, and the high-pass filtering coil of wire (L ₄) the other end link to each other with positive source or controlled source, so just the direct current on the remote-control unlocking device is become non-direct current through the output coil of wire (L by controlled high-frequency amplifier ₂Or 23) transfer out, described electromagnetic induction output device includes: a kind of electromagnetic induction output device (7) but be to constitute by the permeability magnetic material (82) and the output coil of wire (23) that is enclosed within on this permeability magnetic material, should on the defeated coil of wire electric connection point (25 be arranged, 26), another kind of electromagnetic induction output device (17) is by the emission coil of wire (L ₂) constitute, electric connection point (29,30) is arranged on this emission coil of wire.

7, according to the described a kind of not self-powered remote control lock in one of claim 4 or 5, it is characterized in that: described oscillator (86) is by two triode BT ₆, BT ₇The emitter stage parallel connection after link to each other with power cathode, by BT ₆Base stage and resistance R ₁₃And capacitor C ₉Electrode link to each other another electrode and the BT of this resistance and electric capacity ₇Colelctor electrode link to each other, by BT ₇Base stage and resistance R ₁₂And capacitor C ₈Electrode links to each other, another electrode and the BT of this resistance and electric capacity ₆Colelctor electrode link to each other and triode BT ₆, BT ₇Colelctor electrode link to each other with electromagnetic induction output device (7 or 17) on the remote-control unlocking device respectively; Described electromagnetic induction output device includes: a kind of electromagnetic induction output device (17) is by the emission coil of wire (L ₂) on electric connection point (29,30) respectively with triode BT ₆, BT ₇Colelctor electrode link to each other and the emission coil of wire (L ₂) on tap link to each other with positive source, unlocking signal source or controlled signal source VS, another kind of electromagnetic induction output device (7) is by the electric connection point (25 that is contained on the output coil of wire (23) that can overlap on the magnetic material (82), 26) link to each other with the colelctor electrode of triode BT6, BT7 respectively, and the dual mode that the tap on the output coil of wire (23) links to each other with positive source, unlocking signal source or controlled signal source VS, so just direct current is become non-direct current, and unlocking signal is superimposed upon on the non-direct current electric wave, through the emission coil of wire (L ₂) electromagnetic wave (18) is transmitted into the space, through the output coil of wire (23) with alternating electromagnetism ripple (8) but transfer out the reception coil of wire (L that locks through remote control again through permeability magnetic material (82) ₁Or 24) electric energy of being responded to provides power supply and unlocking signal to electrical appliance.

8, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: described remote control lock (3,48,56) electronic identifier that or fixedly is used to detect unlocking signal on the door (38) of remote control lock is a kind of bridge circuit (12), and this electric bridge is by the resistance (R of 4 certain resistances ₁, R ₂, R ₃, R ₄) form the electric bridge of four brachium pontis, resistance (R ₁, R ₂, R ₃) be located on remote control lock or the door resistance (R ₁, R ₂) an electrode parallel connection after form a brachium pontis and link to each other resistance (R with positive source ₂) another electrode and resistance (R ₃) an electrode parallel connection after constitute (W ₂) brachium pontis, and with triode BT ₁Base stage link to each other resistance (R ₁) another electrode and outer meeting resistance (R ₄) electrode (X ₂) back formation (W links to each other ₁) brachium pontis, this brachium pontis and triode BG ₁Emitter stage link to each other outer meeting resistance (R ₄) another electrode (X ₃) and resistance (R ₃) another electrode parallel connection after link to each other resistance (R like this with power cathode ₄) when satisfying bridge balance, (W ₁) and (W ₂) between no-voltage, the electromagnetism coil of wire (L) conducting, the lock be unlocked, otherwise, during the electric bridge disequilibrium, (W ₁) and (W ₂) between voltage is arranged, the electromagnetism coil of wire (L) dead electricity, lock can not be opened; Described resistance R ₄Standard resistance range 1 ohm between 1,000,000 nurses, this electric bridge is located on the remote-control unlocking device, the mode of transmitting resistance (R4) includes: a kind of is to represent resistance (R ₄) top electrode (X ₂, X ₃) two tie points (55,68) and the bridge circuit (12) that is located on remote control lock or the door in represent two brachium pontis (W ₁, X ₄) tie point (53,54) presses contact and transmit resistance (R ₄) resistance value, another kind is the resistance (R that replaces respective resistance values with certain digital pulse signal ₄), through the output coil of wire (L ₂, 23) and be transferred to the digit pulse that remote control is locked, on behalf of the resistance value of unlocking signal, the resistance converter of resistance will add (the X that cuts at electric bridge ₁Or X ₄) on two brachium pontis, realize unblanking.

9, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: described electromagnetic induction output device (7,17) at remote-control unlocking device surface upper process, contact or the magnetic induction contact with the in-plant magnetic of electromagnetic induction receiving system in the interior magnet passage hole (57,36) of remote control lock door interior or fixedly remote control lock and can enter; Described electromagnetic induction output device includes in the position of remote-control unlocking device upper process: a kind of is the emission coil of wire (L on the electromagnetic induction output device (17) ₂) be arranged on the connecting rod, an end of this connecting rod links to each other with the remote-control unlocking device, and the electric connection point on the emission coil of wire links to each other with amplifier (85 or 86) through connecting rod, by the emission coil of wire (L ₂) and receive the coil of wire (L ₁) in-plant electromagenetic wave radiation contact; A kind of be on the electromagnetic induction output device (7) the output coil of wire (23) but and permeability magnetic material (82) be arranged on the connecting rod, one end of this connecting rod links to each other with the remote-control unlocking device, electric connection point on the output coil of wire links to each other with amplifier (85 or 86) through connecting rod, but by the magnetic head (40 on the permeability magnetic material (82), 60) but respectively with the lock in permeability magnetic material (81) on magnetic head (39,70) magnetic contact, a kind of be electromagnetic induction output device (7) but on the two ends (40 of permeability magnetic material (82), 60) be arranged on the connecting rod away from the remote-control unlocking device, one end of this connecting rod links to each other with the remote-control unlocking device, electric connection point on the output coil of wire links to each other with amplifier (85 or 86), but by the two ends magnetic head (40 on the permeability magnetic material (82), 60) but enter in the lock with the magnetic induction receiving system on permeability magnetic material (81) on two magnetic heads (39,70) several set-up modes of magnetic contact respectively; Electric connection point on the described output coil of wire is (25,26) or (29,30), described connecting rod comprise crooked connecting rod (58), non-crooked connecting rod, bow several.

10, a kind of not self-powered remote control lock according to claim 1, it is characterized in that: described remote-control unlocking device (1,61) set-up mode includes: the remote-control unlocking device is located on the mobile phone, the remote-control unlocking device is located on the portable remote controller, the remote-control unlocking device is located on the wrist-watch, the remote-control unlocking device is located on the necklace, and the remote-control unlocking device is located on the belt, and the remote-control unlocking device is located at several means on the key; Described electromagnetic induction output device (7,17) link to each other the voltage output connection (27,28) or (31 on the electromagnetic induction receiving system with external power supply, 32) link to each other with battery on the mobile phone, the electromagnetic induction output device be charging mobile phone battery under electromagnetic induction receiving system magnetic contacts.

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