CN107437317B - Biological induction safety paste and using method thereof - Google Patents

Abstract

The invention discloses a biological induction safety paste and a use method thereof, wherein the safety paste comprises a decorative layer, an induction layer, an adhesive layer and a protective film, and further comprises a lead, a pulse signal generator, a triode, a step-up transformer, a processor and an alarm, wherein the decorative layer is used for coating/printing patterns; an excitation wire and an induction wire are arranged on the induction layer; the adhesive layer is suitable for being adhered to the surfaces of insulating materials such as glass, wood, plastics and the like; the protective film is covered on the surface of the adhesive layer; the excitation wire is used for forming an induction electric field, the induction wire is positioned in the induction electric field to induce the change of the induction electric field caused by the human biological magnetic field and transmit the change to the processor, and the processor is used for judging whether an alarm needs to be started or not; the safety sticker can adapt to the interference of the external environment, eliminates false alarm and missing report caused by small animals, abiotic weather and natural weather, and improves the application range and reliability.

Description

Biological induction safety paste and using method thereof

Technical Field

The invention relates to the technical field of biological induction sensors, in particular to a biological induction safety sticker.

Background

Compared with other anti-theft induction devices, the biological induction safety paste security device is rare in the current domestic and foreign markets, compared with other anti-theft devices such as infrared induction devices and the like, the biological induction safety paste security device has the characteristic of adhesive tape, can be pasted on the surface of glass or an insulating material to serve as decoration, particularly has the physical characteristic of generating an induction electric field and detecting a human biological magnetic field to generate an alarm signal in a non-contact mode, and also has the advantages of high reliability, wide application, convenience in use, good safety and the like.

For the reasons, the inventor makes an intensive study on the existing biological sensing security equipment, and designs a biological sensing security sticker which can be pasted on the surface of glass, is beautiful and convenient, and can sense a non-contact alarm of a human body, and can solve the problems.

Disclosure of Invention

In order to overcome the above problems, the present inventors have conducted intensive research to design a safety sticker which can be adhered to the surface of glass as a decoration and has the function of inducing a human body biomagnetic field to generate an alarm, the safety sticker comprises a decoration layer, an induction layer, an adhesive layer and a protection film, the safety sticker further comprises a processor and an alarm,

wherein, the decorative layer is used for coating/printing patterns and can be used as the surface decoration of glass or other objects; an excitation wire and an induction wire are arranged on the induction layer; the processor is used for receiving the induction electric field information sensed by the induction wires and judging whether an alarm needs to be started according to the information; the adhesive layer is convenient to adhere to and peel off the surface of glass or other objects; the protective film is convenient to tear. The biological induction safety paste provided by the invention can be suitable for being pasted on the surface of glass or other insulating materials, has the physical characteristics of generating an alarm signal by non-contact induction of a human body biological magnetic field, eliminating false alarm and missing alarm caused by small animals, abiological, natural climate and other interferences, and improves the application range and reliability of the biological induction safety paste, thereby completing the invention.

In particular, the invention aims to provide a biological sensing safety paste,

the safety sticker comprises a decorative layer 11, an induction layer 12, an adhesive layer 13 and a protective film 14, and further comprises a processor 4 and an alarm 5,

wherein the decorative layer 11 is used for coating/printing a pattern;

an excitation wire 2 and an induction wire 3 are arranged on the induction layer;

wherein the excitation wire 2 is used for forming an induced electric field,

the induction lead 3 is positioned in the induction electric field and used for inducing the induction electric field and transmitting the induced induction electric field information to the processor 4,

the processor 4 is used for receiving the induction electric field information induced by the induction lead 3 and judging whether the alarm 5 needs to be started according to the information;

wherein, the bonding surface of the adhesive layer 13 and the protective film 14 is coated with adhesive, which is convenient for being adhered or peeled off on the glass surface;

wherein, the protective film 14 is convenient to tear;

wherein, the decoration layer 11, the induction layer 12, the adhesive layer 13 and the protective film

14 are made of paper material or plastic material as a carrier.

Wherein, the induction lead 3 converts the induced biological magnetic field information into a voltage signal and transmits the voltage signal to the processor 4,

the processor 4 is used for receiving the voltage signal transmitted by the induction lead 3 and controlling the alarm 5 to work when the voltage value of the voltage signal is larger than a preset alarm voltage value.

The processor 4 is further configured to control the strength of the induced electric field formed by the excitation wire 2 in real time according to the received voltage signal, so that the voltage value of the received voltage signal is stabilized within the defense voltage range.

Wherein the processor 4 comprises a judging module 41 and an adjusting module 42,

the judgment module 41 stores a preset alarm voltage value, a defense voltage range and a working voltage value, wherein the working voltage value falls within the defense voltage range;

when the judging module 41 senses that the voltage value of the voltage signal is greater than the preset alarm voltage value, the alarm 5 is started to send out an audible and visual alarm signal,

when the judging module 41 senses that the voltage value of the voltage signal falls within the defense voltage range, the adjusting module 42 is started,

the adjusting module 42 is configured to control the exciting wire to form the strength of the induced electric field after the activation, so that the voltage value of the voltage signal received by the processor 4 is substantially equal to the working voltage value.

Wherein, the operating voltage value is the voltage value information that biological response safety paste automatic recording and storage, and its process of record is:

when the bio-sensing safety patch is powered on and started, the judging module 41 receives a voltage signal transmitted by the sensing wire 3, judges whether the voltage value of the received voltage signal is within a defense voltage range, and records a fixed voltage value as a working voltage value when the voltage value of the voltage signal is within the defense voltage range and is substantially stabilized near the fixed voltage value within a predetermined time.

Wherein the predetermined alarm voltage value is greater than a maximum value in the arming voltage range.

Wherein, the safety paste also comprises a power supply for supplying power to the exciting lead 2 and a filter for filtering the voltage signal transmitted by the induction lead.

The alarm 5 comprises a loudspeaker 51, an indicator lamp 52 and a remote calling module 53, wherein the remote calling module is used for sending remote alarm information according to an indication;

preferably, the safety sticker also comprises a pulse signal generator (6), a boosting transformer, a triode and a lead.

Wherein the excitation wire 2 and the induction wire 3 are arranged in parallel.

The invention has the advantages that:

(1) The biological induction safety sticker provided by the invention can induce a human biological magnetic field to generate an alarm signal;

the biological induction safety paste provided by the invention can be pasted on the surfaces of insulating materials such as glass, wood, plastics and the like to be placed as a decorative cover;

according to the biological induction safety sticker provided by the invention, the strength of an induction electric field emitted by the excitation wire can be adjusted according to the change of the external environment, so that a voltage signal generated by the induction wire is stabilized in a smaller range, and the adverse interference of the external environment on the safety sticker is reduced;

(2) The biological sensing safety sticker provided by the invention can distinguish human bodies from small animals through different sensed voltage values, thereby eliminating false reports and missing reports caused by small animals, abiotic weather and natural weather and improving the reliability of the device.

Drawings

FIG. 1 shows a schematic overall structure according to a preferred embodiment of the present invention;

FIG. 2 is a partial enlarged view of a security laminate structure according to a preferred embodiment of the present invention;

FIG. 3 illustrates a block diagram of a security sticker construction in accordance with a preferred embodiment of the present invention;

fig. 4 shows a circuit diagram of a processor architecture according to a preferred embodiment of the invention.

The reference numbers illustrate:

11-decorative layer

12-sensitive layer

13-adhesive layer

14-protective film

2-excitation wire

3-induction conductor

4-processor

41-judging module

42-adjustment module

5-alarm

51-horn

52-indicator light

53-remote calling module

6-pulse signal generator

Detailed Description

The invention is explained in more detail below with reference to the figures and examples. The features and advantages of the present invention will become more apparent from the description.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

According to the biosensing intrusion alarm security sticker provided by the invention, as shown in fig. 1 and fig. 2, the security sticker comprises a decorative layer 11, an induction layer 12, an adhesive layer 13 and a protective film 14, and further comprises a processor 4 and an alarm 5, wherein the decorative layer 11 is used for coating/printing patterns, and the outermost layer can be provided with different decorative patterns according to needs;

an excitation wire 2 and an induction wire 3 are arranged on the induction layer, preferably, the induction layer is provided with a preset space for accommodating the excitation wire 2 and the induction wire 3, the excitation wire 2 and the induction wire 3 are both in a flat linear shape, the thickness of the safety paste is reduced as much as possible, the aesthetic decorative property of the safety paste is improved, and signal wires are respectively led out from one ends of the excitation wire 2 and the induction wire 3;

the adhesive layer 13 is suitable for glass and articles, is convenient to paste and tear, does not leave residual adhesive or pollute the pasted objects, does not leave any trace after being stripped, and does not cause environmental pollution;

the protective film 14 is used for protecting the adhesive layer 13 and is convenient to tear down;

the processor 4 and the alarm 5 are arranged at one end or outside the decorative layer 11, the induction layer 12, the adhesive layer 13 and the protective film 14.

The adhesive layer 13 is coated with adhesive, when the protective layer 14 is torn off, one side of the adhesive layer 13 coated with the adhesive is exposed outside, the adhesive layer is attached to glass or some objects, and the self-adhesive paper alarm can be fixed on the objects under the action of adhesive bonding, so that the self-adhesive paper alarm is attached;

the decorative layer 11, the sensing layer 12, the adhesive layer 13 and the protective film 14 are made of paper materials or plastic insulating materials as carriers, and the surfaces of the carriers bonded with the adhesive layer 13 are coated with glue, so that the adhesive layer is protected from being polluted and can be quickly separated when needed.

Preferably, the excitation wire 2 is used for forming an induced electric field around the excitation wire, the radiation range and the radiation shape of the induced electric field are related to the shape of the excitation wire, preferably, the induced electric field area, i.e. the action range of the induced electric field generated by the excitation wire, is mainly an induced electric field which is centered on the excitation wire and radiates outwards around the excitation wire in 360-degree direction, the induced electric field radiating outwards in 360-degree direction forms a virtual space barrier, and the extension area of the space barrier is also the alert range of the apparatus provided by the present invention, i.e. a living organism entering the area can cause the sensed voltage value to change, and the apparatus can make a corresponding response; the virtual space barrier in the present invention will cover at least the entire security sticker and preferably includes a predetermined area outside the security sticker. The induction electric field is a very low frequency signal, namely the induction electric field is a very low frequency induction electric field, the working frequency of the induction electric field is 3-30 kilohertz (KHz), and the induction electric field has no adverse effect on a human body.

In a preferred embodiment, the excitation conductor and the sensing conductor on the security sticker are parallel to each other.

In a preferred embodiment, the sensing wire 3 is disposed in the sensing electric field, and is used for sensing (or collecting) information of the sensing electric field, especially strength information of the sensing electric field, converting the sensed information into a voltage signal, and transmitting the voltage signal to the processor 4, where the shape and position of the sensing wire are not particularly limited as long as the sensing wire is located in the sensing electric field and can sense a signal of the sensing electric field, and in the present invention, preferably, the excitation wire 2 and the sensing wire 3 are disposed in parallel and have unchanged relative positions, so that the strength of the sensing electric field sensed by the sensing wire 3 is not easily changed, at least not due to the device itself; because organisms in the nature can generate very low frequency induction electric fields (caused by body fluid flow), when a human body enters the induction electric fields generated by the exciting leads, the induction electric fields sensed by the induction leads 3 can change along with the human body, and whether a person invades or attempts to invade the induction electric field range generated by the exciting leads can be discriminated through the research and the calculation of the changed induction electric fields, so that the biological induction function can be realized;

the processor 4 is used for receiving the voltage signal transmitted by the induction lead 3 and controlling the alarm to work when the voltage value of the voltage signal is larger than a preset alarm voltage value, namely starting an alarm program,

the alarm 5 is used for sending out sound and light alarm signals under the control of the processor 4, the duration time of the signals is 1-10 s, and the signals can be preset or adjusted by a user.

In a preferred embodiment, the processor 4 is further configured to control the strength of the induced electric field formed by the excitation wire according to the received voltage signal, so that the voltage value of the received voltage signal is stabilized within a predetermined defense voltage range, that is, the processor 4 has a function of adjusting the strength of the induced electric field around the excitation wire 2, and the adjustment mode is generally to adjust the excitation voltage generating the induced electric field, where the excitation voltage applied to the excitation wire is increased, and the strength of the induced electric field generated by the excitation wire is correspondingly increased, and vice versa.

The reason for providing the processor with the function of adjusting the strength of the induced electric field is that the bio-induction safety sticker provided by the invention has a long service life, and can have a working life of several years or even several decades, and the working place can be outdoors, and the external environment will inevitably change during the working period, including the change of temperature, the change of air humidity, the change of illumination condition, etc., which may affect the strength of the induced electric field around the excitation wire 2, and if the strength is disturbed by external factors and changed too much, the occurrence of bad phenomena such as false alarm, etc. is easily caused.

In particular, as shown in fig. 3, the processor 4 comprises a decision module 41 and a regulation module 42,

the judgment module 41 stores a predetermined alarm voltage value, a protection voltage range and a working voltage value, and the working voltage value falls within the protection voltage range;

when the determining module 41 senses that the voltage value of the voltage signal is greater than the predetermined alarm voltage value,

when the judging module 41 senses that the voltage value of the voltage signal falls within the protection voltage range, the adjusting module 42 is started,

and the alarm 5 can send out alarm prompt tone, alarm indication light and remote alarm information after being started.

The adjusting module 42 is configured to control the strength of the induced electric field formed by the excitation wire in real time after the activation, so that the voltage value of the voltage signal received by the processor 4 is substantially equal to the working voltage value, and the interference of the external condition on the induced electric field strength is eliminated by the adjusting module 42, so that the voltage value of the voltage signal received by the processor 4 is substantially constant under different external conditions, and if the received voltage value changes suddenly and the changed voltage value exceeds the defense deployment voltage range, the reason is that an organism enters the induced electric field generated by the excitation wire, so that the induced electric field induced by the induction wire changes suddenly.

The protection voltage range is a numerical range with a certain voltage span, and in the invention, preferably, under different external environments, under the condition that no organism capable of causing an alarm approaches the alarm device (no organism capable of causing an alarm enters the induction electric field generated by the excitation wire), namely under the condition that the alarm device normally works, the voltage value of the voltage signal transmitted by the induction wire 3 and received by the processor 4 falls within the protection voltage range, and in the invention, further preferably, the different external environments comprise rain and snow weather, damp, hot and high temperature weather, cold conditions and the like which are common in nature. Namely, the received voltage value is the result of the interaction between the induced electric field generated by the exciting wire and the induced electric field in the nature.

In a preferred embodiment, the predetermined alarm voltage value is greater than the maximum value in the arming voltage range, and the external environment which can only change the voltage value of the voltage signal transmitted by the sensing wire 3 cannot make the voltage value of the voltage signal rise to the predetermined alarm voltage value, that is, the external natural environment cannot trigger the alarm; specifically, when the induction wire is operated for more than two hours at the temperature of 70 +/-2 ℃, the voltage value of the voltage signal transmitted by the induction wire 3 is smaller than a preset alarm voltage value, and an alarm cannot be triggered; when the device works for more than 48 hours under the conditions of constant moist heat (40 +/-2) DEG C and RH (93 +/-2)%, the voltage value of the voltage signal transmitted by the induction lead 3 is less than the preset alarm voltage value, and an alarm cannot be triggered.

In a preferred embodiment, a predetermined difference exists between the predetermined alarm voltage value and the maximum value in the arming voltage range, the difference is used for distinguishing whether the change of the voltage is a factor of a natural environment or whether a living organism enters the range of an induced electric field, when the living organism enters the induced electric field generated by the excitation wire, the induced electric field induced by the induction wire changes suddenly, and further, the voltage value of the voltage signal received by the processor 4 changes suddenly, if a small animal smaller than 1kg enters the induced electric field, the change amount of the induced electric field generated by the excitation wire is small due to small volume mass, so that the change of the voltage value of the voltage signal received by the processor 4 is also small, and at this time, the voltage value of the voltage signal received by the processor 4 may exceed the arming voltage range, but is certainly smaller than the predetermined alarm voltage value, and an alarm is not triggered.

In a preferred embodiment, the predetermined alarm voltage value is related to the voltage of the power supply part for generating the induced electric field on the excitation wire 2, and if the voltage of the power supply part is adjusted, the predetermined alarm voltage value is adjusted accordingly; the protection voltage range is 0 to 3V, preferably 0.1 to 2V, and more preferably 0.2 to 1.5V.

In a further preferred embodiment, the predetermined alarm voltage value is 50% to 80% of the voltage value of the power supply portion that excites the electric field induced in the wire 2; the value range of the preset alarm voltage value is 2.5-24V, and the optimal value range is 3.5-10V; the voltage of the power supply part generating the induced electric field on the excitation wire 2 is generally a safe voltage, preferably 5 to 30V, and when the voltage of the power supply part generating the induced electric field on the excitation wire 2 is 12V, the predetermined alarm voltage value is 3 to 4.5V, preferably 3.6V.

In a preferred embodiment, the working voltage value is the voltage value information automatically recorded and stored by the bio-sensing security sticker, and the recording process is as follows: when the bio-sensing security sticker is powered on and started, the determining module 41 receives a voltage signal transmitted by the sensing wire 3, determines whether the voltage value of the received voltage signal is within a defense voltage range, and records the fixed voltage value as a working voltage value when the voltage value of the voltage signal is within the defense voltage range and is substantially stabilized near a fixed voltage value within a predetermined time, which is also referred to as a defense process, wherein the defense process is started every time the bio-sensing security sticker is powered on and started within 10 seconds, that is, the bio-sensing security sticker can enter a normal alert state within 10 seconds of being started. If the voltage value received during the power-on starting is in the defense voltage range, the device normally works, and if the voltage value is not in the defense voltage range, an alarm signal is sent until the received voltage signal is in the defense voltage range, and at the moment, the device possibly has a fault or an organism is in an induced electric field area.

The induced electric field area, i.e. the action range of the induced electric field generated by the excitation wire, in the present invention, is preferably an electric field which is centered on the excitation wire and radiates outwards in a direction of 360 degrees around the excitation wire, the electric field radiating outwards in the direction of 360 degrees constitutes a virtual space barrier, and the extension area of the space barrier is also the warning range of the apparatus provided by the present invention, i.e. the living body entering the area can cause the induced voltage value to change, and then make a corresponding response.

In a preferred embodiment, the processor 4 includes a timing module, which is configured to time when the voltage value of the received voltage signal is greater than or equal to a predetermined alarm voltage value, and record the duration of the voltage value, at which the alarm has not been activated, and if the duration of the voltage value greater than the predetermined alarm voltage value is greater than 0 to 5 seconds, preferably 1 to 2 seconds, most preferably 1s in the present invention, activate the alarm, and then send out an alarm signal.

In a preferred embodiment, the security sticker further comprises a power source, preferably a dc power source, which may be a battery, a filter for filtering the voltage signal delivered by the sensing conductor, i.e. for filtering out noise in the space, and a pulse signal generator 6. Further, one or more of a high voltage generator, a power amplifying circuit, a transformer and an inverter are optionally arranged in the safety sticker, wherein the high voltage generator comprises an oscillator and a triode.

As shown in fig. 4, the processor in the biosensing security sticker provided by the invention preferably has a circuit structure, wherein the processor comprises an excitation wire 2, a sensing wire 3, a processor 4, an alarm 5, a pulse signal generator 6 and a voltage amplifier, wherein the voltage amplifier comprises a triode, a step-up transformer, a lead wire and the like, and preferably, the above components are connected through the lead wire.

In a preferred embodiment, the adjusting module and the determining module in the processor are both single-chip microcomputers, may be an integrated single-chip microcomputer or a combination of multiple single-chip microcomputers, and are preferably all configured as embedded single-chip microcomputers.

In a preferred embodiment, the processor 4 is further provided with an access port for an external device, which may be an external input device for inputting initial data thereto.

In a preferred embodiment, the alarm 5 comprises a speaker 51, an indicator light 52 and a remote call module 53. Loudspeaker can send the alarm sound that drips, also can send the language information that prestores to satisfy the "audio alert" demand of various application scenarios, remote call module is used for sending remote alarm information according to the instruction, and this information can be various signals such as radio signal, so that the long-range receiving terminal can receive this information, and knows that there is the organism to invade among the intelligent security system.

According to the use method of the biological induction safety sticker, provided by the invention, firstly, the protective film is torn off from the safety sticker, so that the adhesive layer is exposed, and the adhesive layer is pasted on the surface of glass or hidden in other insulating materials;

then, supplying power to the biological induction safety sticker, forming an induction electric field around the excitation wire by the excitation wire, converting an induced induction electric field signal into a voltage signal by the induction wire, and transmitting the voltage signal to a judgment module in the processor; the process is the starting of the alarm device;

the judging module receives a voltage signal transmitted by the induction lead, judges whether the voltage value of the received voltage signal is in a defense voltage range, and records a fixed voltage value as a working voltage value when the voltage value of the voltage signal is in the defense voltage range and is basically stabilized near the fixed voltage value within a preset time; the process is the arming of the alarm device, generally the time used in the process is less than 10 seconds,

the processor continuously receives the voltage signal transmitted by the induction lead in real time, judges whether the voltage signal is in a defense voltage range, and regulates the received voltage signal by controlling the exciting lead to enable the voltage value of the voltage signal to be basically equal to the working voltage value if the voltage signal is in the defense voltage range; if the signal value is larger than the preset alarm voltage value, judging that someone invades, controlling an alarm to work, and sending out an acousto-optic alarm signal; if the signal value is not greater than the preset alarm voltage value and is not within the defense voltage range, the small animal is judged to be touched by mistake and is not processed.

The present invention has been described above in connection with preferred embodiments, which are merely exemplary and illustrative. On the basis of the above, the invention can be subjected to various substitutions and modifications, and the substitutions and the modifications are all within the protection scope of the invention.

Claims (5)

1. A biological induction safety sticker is characterized by comprising a decorative layer (11), an induction layer (12), an adhesive layer (13) and a protective film (14), a processor (4) and an alarm (5),

wherein the decorative layer (11) is coated or printed with a pattern;

an excitation wire (2) and an induction wire (3) are arranged on the induction layer (12);

wherein the excitation wire (2) is used for forming an induction electric field,

the induction lead (3) is positioned in the induction electric field and is used for inducing the induction electric field and transmitting the information of the induced induction electric field to the processor (4),

the processor (4) is used for receiving induction electric field information induced by the induction lead (3) and judging whether the alarm (5) needs to be started or not according to the information;

the induction lead (3) converts the induced electric field information into a voltage signal and transmits the voltage signal to the processor (4),

the processor (4) is used for receiving the voltage signal transmitted by the induction lead (3) and controlling the alarm (5) to work when the voltage value of the voltage signal is greater than a preset alarm voltage value;

when the voltage value of the voltage signal received by the processor (4) exceeds the defense voltage range and is smaller than the preset alarm voltage value, the alarm is not triggered;

the processor (4) is also used for controlling the strength of an induced electric field formed by the exciting wire (2) in real time according to the received voltage signal, so that the voltage value of the received voltage signal is stabilized within a defense voltage range;

the processor (4) comprises a judging module (41) and an adjusting module (42),

the judgment module (41) stores a preset alarm voltage value, a defense voltage range and a working voltage value, and the working voltage value falls in the defense voltage range;

when the judging module (41) senses that the voltage value of the voltage signal is larger than the preset alarm voltage value, an alarm (5) is started to send out an audible and visual alarm signal,

when the judging module (41) senses that the voltage value of the voltage signal falls within the defense voltage range, the adjusting module (42) is started,

the adjusting module (42) is used for controlling the exciting wire to form the strength of an induced electric field after being started, so that the voltage value of a voltage signal received by the processor (4) is basically equal to the working voltage value;

the working voltage value is the voltage value information automatically recorded and stored by the biological induction safety sticker, and the recording process is as follows:

when the biological induction safety paste is electrified and started, the judging module (41) receives a voltage signal transmitted by an induction lead (3), judges whether the voltage value of the received voltage signal is in a defense voltage range, and records a fixed voltage value as a working voltage value when the voltage value of the voltage signal is in the defense voltage range and is basically stabilized near the fixed voltage value within a preset time;

the defense voltage range is 0-3V, and the value range of the preset alarm voltage value is 3.5-10V;

the preset alarm voltage value is larger than the maximum value in the defense voltage range, and the external environment which can only change the voltage value of the voltage signal transmitted by the induction lead (3) cannot enable the voltage value of the voltage signal to rise to the preset alarm voltage value, namely the external natural environment cannot touch the alarm.

2. The security sticker of claim 1,

the decorative layer (11), the induction layer (12), the adhesive layer (13) and the protective film (14) take paper materials or plastic materials as bearing bodies, and adhesive is coated on the surface between the adhesive layer (13) and the protective film (14).

3. The biosensing security sticker of claim 1,

the safety sticker also comprises a power supply for supplying power to the exciting lead (2) and a filter for filtering voltage signals transmitted by the induction lead.

4. The biosensing security sticker of claim 1,

the alarm (5) comprises a loudspeaker (51), an indicator lamp (52) and a remote calling module (53), and the remote calling module is used for sending out remote alarm information according to the indication;

the safety sticker also comprises a pulse signal generator (6), a boosting transformer, a triode and a lead.

5. The biosensing security sticker of claim 1,

the exciting lead (2) and the induction lead (3) are arranged in parallel.

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