CN115662030B - Tax file department safety alarm device based on artificial intelligence technique - Google Patents

Abstract

The invention relates to the technical field of safety alarm, in particular to a safety alarm device for tax file departments based on an artificial intelligence technology. The alarm comprises an alarm body and an identification outer cylinder, wherein a first identification unit is arranged in the identification outer cylinder; an outer barrel inlet is formed in one side wall of the identification outer barrel; the first identification unit comprises an identification inner cylinder; the identification inner cylinder is arranged on the inner wall of the top of the identification outer cylinder, a center pillar is arranged in the center of the bottom of the identification inner cylinder, and a plurality of groups of image acquisition windows are distributed on one side wall of the center pillar close to the inlet of the outer cylinder at equal intervals; and a second servo motor is installed on the inner wall of the top of the middle column, and a screw rod is installed at the output end of the second servo motor. The invention avoids that non-working personnel use a pre-made palm print or fingerprint mold to open the safe after illegally obtaining palm print or fingerprint information of the working personnel, and further improves the safety of the identification module and the alarm body.

Description

Tax file department safety alarm device based on artificial intelligence technique

Technical Field

The invention belongs to the technical field of safety alarm, and particularly relates to a safety alarm device for a tax file department based on an artificial intelligence technology.

Background

The documents of the tax filing department usually relate to many confidential documents, so that the confidential documents need to be placed in a safe for storage.

Through search, in the prior art, the Chinese patent publication No. CN114983150A, the granted publication date: 2022-09-02, a hospital file management device with an alarm device is proposed. Including the cabinet body 1, take out oxygen protection mechanism 2, cooperation locking mechanical system 3 and preliminary locking mechanical system 4, 1 inner wall bottom fixed mounting of the cabinet body has the oxygen protection mechanism 2 of taking out, and 1 inner wall front end upside of the cabinet body and the equal fixed mounting of downside have cooperation locking mechanical system 3, and 1 front one side of the cabinet body is symmetrical evenly distributed fixed mounting and has two hinges 8, and two hinges 8 other end fixed mounting have cabinet door 5, and cabinet door 5 inner wall fixed mounting has preliminary locking mechanical system 4. This embodiment realizes protection against moisture, fire, protection against insects and corrosion to archives.

However, the following drawbacks still exist in this embodiment: the anti-theft security protection to the file is not enough, and the staff can open the management device on the premise of not needing identity recognition, so that the risk of file content leakage is increased, and the security of the alarm device is also reduced.

Disclosure of Invention

Aiming at the problems, the invention provides a tax file department safety alarm device based on an artificial intelligence technology, which comprises an alarm body and an identification outer cylinder, wherein a first identification unit is arranged in the identification outer cylinder; an outer barrel inlet is formed in one side wall of the identification outer barrel;

the first identification unit comprises an identification inner cylinder; the identification inner cylinder is arranged on the inner wall of the top of the identification outer cylinder, a center pillar is arranged in the center of the bottom of the identification inner cylinder, and a plurality of groups of image acquisition windows are distributed on one side wall of the center pillar close to the inlet of the outer cylinder at equal intervals; a second servo motor is installed on the inner wall of the top of the center pillar, a screw rod is installed at the output end of the second servo motor, and a longitudinal sliding groove is formed in one side, away from the image acquisition window, of the screw rod; the screw rod is connected with a sliding block in a sliding manner, one end of the sliding block is connected in the longitudinal sliding chute in a sliding manner, and the other end of the sliding block is provided with a camera mounting plate; a plurality of groups of image acquisition devices with the same number as the image acquisition windows are distributed on one side wall of the camera mounting plate close to the image acquisition windows at equal intervals;

a second identification unit is connected to one side of the identification inner cylinder, which is far away from the inlet of the outer cylinder, in a transmission manner, and a plurality of groups of body temperature identification units are arranged on one side of the middle column, which is close to the inlet of the outer cylinder, at equal intervals; the second identification unit is used for identifying fingerprints, and the body temperature identification unit is used for detecting body temperature;

and the second servo motor, the image acquisition device, the second identification unit and the body temperature identification unit are all in signal connection with the alarm body.

Further, the alarm body includes but not limited to casing, bee calling organ, central processing unit and alarm lamp, install first far infrared transmitter on the alarm body.

Further, alarm device still includes the support frame, the discernment urceolus is installed on the support frame, install first far infrared receiver on the support frame, first far infrared receiver and first far infrared transmitter signal connection.

Furthermore, a plurality of groups of second far infrared receivers are arranged on the inner wall of the identification outer cylinder at equal intervals, and the signal sending module of the second identification unit is in signal connection with any group of second far infrared receivers.

Further, the central axis of the identification inner cylinder is superposed with the central axis of the identification outer cylinder; a first servo motor is installed in the identification inner cylinder, and a first transverse sliding groove is formed in one side wall, close to the second far infrared receiver, of the identification inner cylinder in the horizontal direction; and a first sliding rod is connected in the first transverse sliding groove in a sliding manner, one end of the first sliding rod is connected to the output end of the first servo motor in a transmission manner, and the other end of the first sliding rod is installed on the shell of the second identification unit.

Further, the base is installed at the center of the bottom of the center pillar, a second transverse sliding groove is formed in a side wall, close to the second far-infrared receiver, of the base, a second sliding rod is connected in the second transverse sliding groove in a sliding mode, and one end of the second sliding rod is installed on a shell of the second recognition unit.

Further, the second recognition unit includes a fingerprint pressing plate; the fingerprint pressing plate is installed on the first sliding rod, and the overlooking cross section of the fingerprint pressing plate is of a fan-shaped ring structure.

Furthermore, four groups of finger grooves are distributed on one side wall of the fingerprint pressing plate, which is far away from the inlet of the outer cylinder, at equal intervals along the vertical direction, and pressure sensors are arranged on the inner walls of the finger grooves; a fingerprint pressing window is arranged on the inner wall of one side of the finger groove, which is far away from the opening; the fingerprint pressing plate is provided with a second far infrared transmitter, and the second far infrared transmitter is in signal connection with any group of second far infrared receivers.

Further, the body temperature identification unit comprises a body temperature identification column; the temperature identification column is located on one side, close to the outer barrel inlet, of the central column, an identification plate is installed on one side wall, close to the outer barrel inlet, of the temperature identification column, and a plurality of groups of temperature sensors are distributed on the identification plate at equal intervals in the vertical direction.

A control method of a tax file department safety alarm device based on artificial intelligence technology comprises the following steps:

when the identity is identified, a worker puts the hand into the identification outer cylinder and attaches the palm to each group of identification plates;

starting a second servo motor, driving the sliding block to descend by using the second servo motor, and acquiring palm print information of a worker through each group of image acquisition devices in the descending process; then collecting the collected image information to obtain complete palm print information;

comparing the complete palm print information with each group of identity information stored in the alarm body one by one;

after the comparison is successful, the first servo motor drives the second identification unit to move until the worker can put fingers into each group of finger grooves respectively under the condition that the palm is not separated from the identification plate, and then fingerprint information comparison is started;

if the palm print information and the fingerprint information are not matched with the information stored in the alarm body, or the palm print information and the fingerprint information are matched, but the body temperature identification unit does not monitor the body surface temperature of the worker, the safe is judged to be illegally opened,

and sending out an alarm signal through the alarm body.

The invention has the beneficial effects that:

1. through the mutual cooperation of the first identification unit, the second identification unit and the body temperature identification unit, the palm prints and the fingerprints of workers are identified, and the safety level of the alarm device is improved. And carry out real-time supervision to the body surface temperature when discerning, ensure to carry out user's body surface and the direct contact of identification module of identity information discernment to avoid non-staff illegally to acquire staff's palm print or fingerprint information after, utilize palm print or fingerprint mould done in advance to open the safe deposit box, further improved the security of identification module and alarm body.

2. Through adjusting the fingerprint and pressing the interval function between a set of discernment board of board and the edge and make the people of different hand sizes all can carry out fingerprint identification when the palm is laminated with each group's body temperature discernment unit. The palm can be prevented from being separated from the surface of the body temperature identification unit when fingerprint identification is carried out due to the fact that the hand is too large or too small. And therefore, the accuracy of the identification work of the identity information is improved.

3. When the working personnel are in front of the safe, the signal connection between the first far infrared receiver and the first far infrared transmitter is interrupted, if the user does not recognize the identity information within the set time, the central processing unit sends a signal to the buzzer and the alarm lamp to enable the buzzer and the alarm lamp to start working and send out an alarm signal, and the situation that non-working personnel privately open the safe by adopting other illegal means under the condition that the identity information is not recognized is avoided. Therefore, the intelligent degree of the alarm device is improved.

4. Through the mutual cooperation of the first identification unit, the second identification unit and the body temperature identification unit, the palm prints and the fingerprints of the workers are identified, and the safety level of the alarm device is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 shows a schematic structural diagram of an alarm device according to an embodiment of the invention;

FIG. 2 shows a schematic structural view of an identification cartridge according to an embodiment of the present invention;

FIG. 3 shows a top cross-sectional view of an identification cartridge according to an embodiment of the present invention;

FIG. 4 shows a schematic connection diagram of a first recognition unit and a second recognition unit according to an embodiment of the invention;

fig. 5 shows a schematic cross-sectional view of a first identification unit according to an embodiment of the invention;

FIG. 6 is a schematic view showing the connection between an image capture device and a camera mounting plate according to an embodiment of the present invention;

FIG. 7 illustrates a schematic structural view of a center pillar according to an embodiment of the present invention;

fig. 8 shows a schematic structural diagram of a second recognition unit according to an embodiment of the present invention;

fig. 9 shows a schematic structural diagram of a body temperature identification unit according to an embodiment of the invention.

In the figure: 100. an alarm body; 110. a first far infrared emitter; 200. a support frame; 210. a first far infrared receiver; 300. identifying the outer cylinder; 310. an outer barrel inlet; 320. a second far infrared receiver; 400. a first recognition unit; 410. identifying an inner cylinder; 411. a first horizontal chute; 412. a first servo motor; 413. a first slide bar; 420. a center pillar; 421. an image acquisition window; 422. a longitudinal chute; 423. a second servo motor; 424. a slider; 425. a camera mounting plate; 426. an image acquisition device; 427. a screw rod; 430. a base; 431. a second transverse chute; 432. a second slide bar; 500. a second recognition unit; 510. a fingerprint pressing plate; 520. a finger groove; 530. pressing the window by the fingerprint; 540. a second far infrared emitter; 600. a body temperature identification unit; 610. a body temperature identification column; 620. a recognition board; 630. a temperature sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The embodiment of the invention provides a tax file department safety alarm device based on an artificial intelligence technology, which comprises an alarm body 100 and an identification module. Illustratively, as shown in fig. 1, 2 and 3, the alarm body 100 includes, but is not limited to, a housing, a buzzer, a central processing unit, and an alarm lamp. The alarm body 100 is provided with a first far infrared emitter 110. The identification module is used for identifying the identity information of the staff.

The identification module comprises a support frame 200, an identification outer cylinder 300, a first identification unit 400, a second identification unit 500 and a plurality of groups of body temperature identification units 600.

The first far infrared receiver 210 is installed on the supporting frame 200, and the first far infrared receiver 210 is in signal connection with the first far infrared transmitter 110.

The alarm body 100 is installed at a high place, and the recognition module is installed on a safe for storing confidential documents in the filing department. A continuous signal connection is then established between the first far infrared receiver 210 and the first far infrared transmitter 110. When the worker is in front of the safe, the signal connection between the first far infrared receiver 210 and the first far infrared transmitter 110 is interrupted, if the user does not recognize the identity information within a specified time, the central processing unit sends a signal to the buzzer and the alarm lamp to start working, and an alarm signal is sent out, so that the condition that the non-worker privately opens the safe by adopting other illegal means under the condition that the identity information is not recognized is avoided. Therefore, the intelligent degree of the alarm device is improved.

The recognition outer cylinder 300 is installed on the support frame 200, an outer cylinder inlet 310 is formed in the side wall of the recognition outer cylinder 300, and a plurality of groups of second far infrared receivers 320 are distributed on the inner wall of the recognition outer cylinder 300 at equal intervals along the horizontal direction.

The first recognition unit 400 is installed in the recognition outer cylinder 300, and a central axis of a housing of the first recognition unit 400 coincides with a central axis of the recognition outer cylinder 300.

The second recognition unit 500 is slidably connected to the output end of the first recognition unit 400, the second recognition unit 500 is located on one side of the first recognition unit 400 far away from the tub inlet 310, and the signal transmission module of the second recognition unit 500 is in signal connection with any group of second far infrared receivers 320.

A plurality of groups of the body temperature recognition units 600 are arranged at equal intervals on one side of the first recognition unit 400 near the tub inlet 310.

Through the mutual cooperation of the first identification unit 400, the second identification unit 500 and the body temperature identification unit 600, the palm prints and the fingerprints of the workers are identified, and the safety level of the alarm device is improved. And the body surface temperature is monitored in real time during identification, so that the body surface of a user who carries out identity information identification is ensured to be in direct contact with the identification module, the safety box is prevented from being opened by a non-worker by utilizing a previously made palm print or fingerprint mold after the non-worker illegally acquires palm print or fingerprint information of the worker, and the safety of the identification module and the alarm body 100 is further improved.

The first recognition unit 400 includes a recognition inner cylinder 410. Illustratively, as shown in fig. 4, 5, 6 and 7, the identification inner cylinder 410 is mounted on the top inner wall of the identification outer cylinder 300, and the central axis of the identification inner cylinder 410 coincides with the central axis of the identification outer cylinder 300. A first servo motor 412 is installed in the identification inner cylinder 410, and a first transverse sliding groove 411 is formed in one side wall of the identification inner cylinder 410, which is close to the second far infrared receiver 320, along the horizontal direction. A first sliding rod 413 is slidably connected in the first horizontal sliding slot 411, one end of the first sliding rod 413 is connected to the output end of the first servo motor 412 in a transmission manner, and the other end of the first sliding rod 413 is installed on the housing of the second recognition unit 500. A center pillar 420 is installed at the center of the bottom of the identification inner cylinder 410, and the diameter of the center pillar 420 is smaller than that of the identification inner cylinder 410. A plurality of groups of image collecting windows 421 are distributed on one side wall of the center pillar 420 close to the tub inlet 310 at equal intervals. A second servo motor 423 is installed on the inner wall of the top of the center pillar 420, a screw rod 427 is installed on the output end of the second servo motor 423, and a longitudinal sliding groove 422 is arranged on one side of the screw rod 427, which is far away from the image acquisition window 421. The screw rod 427 is slidably connected with a sliding block 424, one end of the sliding block 424 is slidably connected in the longitudinal sliding groove 422, and the other end is provided with a camera mounting plate 425. The top view cross section of the camera mounting plate 425 is a fan-shaped ring structure, and a plurality of groups of image acquisition devices 426 with the same number as the image acquisition windows 421 are distributed on one side wall of the camera mounting plate 425 close to the image acquisition windows 421 at equal intervals. The base 430 is installed at the center of the bottom of the center pillar 420, a second horizontal sliding groove 431 is formed in a side wall of the base 430 close to the second far-infrared receiver 320, a second sliding rod 432 is slidably connected in the second horizontal sliding groove 431, and one end of the second sliding rod 432 is installed on the shell of the second recognition unit 500.

Further, the first servo motor 412, the second servo motor 423 and each group of image capturing devices 426 are in signal connection with the central processing unit of the alarm body 100.

When performing identification information recognition, the worker inserts a hand into the recognition outer tub 300 through the outer tub inlet 310 and attaches the palm to each set of body temperature recognition unit 600. Then the central processing unit starts the second servo motor 423, drives the sliding block 424 to descend by using the second servo motor 423, and collects palm print information of the staff through each group of image collecting devices 426 in the descending process. Then gather the image information who gathers, obtain complete palm print information to compare with the central processing unit in alarm body 100, after finding out the staff identity information that this palm print information corresponds, drive second identification element 500 through first servo motor 412 and remove, make the staff no matter the size of hand size, all can carry out fingerprint identification work under the condition that the palm does not take off the temperature identification element.

The second recognition unit 500 includes a fingerprint pressing plate 510. Illustratively, as shown in fig. 8, the fingerprint pressing plate 510 is mounted on the first sliding rod 413, and a top cross section of the fingerprint pressing plate 510 is a sector ring structure. Four groups of finger grooves 520 are distributed on one side wall of the fingerprint pressing plate 510 far away from the outer cylinder inlet 310 at equal intervals along the vertical direction, and pressure sensors are mounted on the inner walls of the finger grooves 520. And a fingerprint pressing window 530 is arranged on the inner wall of one side of the finger groove 520 far away from the opening. The fingerprint pressing plate 510 is provided with a second far infrared emitter 540, and the second far infrared emitter 540 is in signal connection with any group of second far infrared receivers 320.

Further, the pressure sensor and the fingerprint pressing window 530 are in signal connection with the central processing unit of the alarm body 100.

Firstly, identity information of a worker is required to be input, the worker attaches a palm to each group of body temperature identification units 600, palm print information of the worker is input into a central processing unit of the alarm body 100 through the first identification unit 400, then the first sliding rod 413 and the fingerprint pressing plate 510 are driven to move through the first servo motor 412 until other fingers of the worker except a thumb are respectively located in each group of finger grooves 520 and are respectively pressed on each group of fingerprint pressing windows 530, fingerprint information of the worker is collected through the fingerprint pressing plate 510, and the distance from the fingerprint pressing plate 510 to one group of body temperature identification units 600 at the edge is recorded. Because the lengths of the four fingers are different among different people, the obtained space is also one of the identity information of the people. And make the people of different hand sizes all can carry out fingerprint identification when the palm is laminated with each group's body temperature identification unit 600 through the spacing function of adjusting. The palm can be prevented from separating from the surface of the body temperature identification unit 600 when fingerprint identification is performed due to too large or too small hands. And therefore, the accuracy of the identification work of the identity information is improved.

The body temperature recognition unit 600 includes a body temperature recognition column 610. Illustratively, as shown in fig. 9, the body temperature identification column 610 is located at a side of the center pillar 420 close to the tub inlet 310, and the upper and lower ends of the body temperature identification column 610 are respectively mounted on the identification inner tub 410 and the base 430. An identification plate 620 is installed on one side wall of the body temperature identification column 610 close to the outer cylinder inlet 310, and a plurality of groups of temperature sensors 630 are distributed on the identification plate 620 at equal intervals along the vertical direction.

Further, the temperature sensor 630 is in signal connection with the central processing unit of the alarm body 100.

When monitoring the body surface temperature of the worker, since the identification plates 620 are located on a side wall of the body temperature identification column 610 far from the center pillar 420, each group of identification plates 620 respectively attach to each part of the palm of the worker. Several sets of temperature sensors 630, equally spaced, are then used to monitor the temperature at different locations of the worker's palm. The temperature monitoring deviation caused by the oversize or undersize of the palm of the worker is avoided, and therefore the compatibility of the body temperature identification unit 600 is improved.

On the basis of the above tax file department safety alarm device based on artificial intelligence technology, the embodiment of the present invention further provides a control method for the alarm device, which includes, for example:

the alarm body is arranged at a high place, and the identification module is arranged on a safe for storing confidential documents in a file department. Then, establishing continuous signal connection between the first far-infrared receiver and the first far-infrared transmitter;

when the signal connection between the first far infrared receiver and the first far infrared transmitter is interrupted, whether a worker is in front of the identification module is judged, and if identity information identification is not carried out within set time, an alarm signal is sent out through the alarm body;

when the identity is identified, a worker puts the hand into the identification outer cylinder and attaches the palm to each group of identification plates;

and starting the second servo motor, driving the sliding block to descend by utilizing the second servo motor, and acquiring the palm print information of the working personnel through each group of image acquisition devices in the descending process. Then collecting the collected image information to obtain complete palm print information;

comparing the complete palm print information with each group of identity information stored in the alarm body one by one;

after the comparison is successful, the first servo motor drives the second identification unit to move until the worker can put fingers into each group of finger grooves respectively under the condition that the palm is not separated from the identification plate, and then fingerprint information comparison is started;

if the palm print information and the fingerprint information are not matched with the information stored in the alarm body, or the palm print information and the fingerprint information are matched, but the body temperature identification unit does not monitor the body surface temperature of the worker, the safe is judged to be illegally opened,

and sending out an alarm signal through the alarm body.

Through the mutual cooperation of the first identification unit, the second identification unit and the body temperature identification unit, the palm prints and the fingerprints of the workers are identified, and the safety level of the alarm device is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a tax file department safety alarm device based on artificial intelligence technique which characterized in that: the alarm comprises an alarm body (100) and an identification outer cylinder (300), wherein a first identification unit (400) is installed in the identification outer cylinder (300); an outer barrel inlet (310) is formed in one side wall of the identification outer barrel (300);

the first identification unit (400) comprises an identification inner barrel (410); the identification inner cylinder (410) is arranged on the inner wall of the top of the identification outer cylinder (300), a center pillar (420) is arranged at the center of the bottom of the identification inner cylinder (410), and a plurality of groups of image acquisition windows (421) are distributed on one side wall, close to the outer cylinder inlet (310), of the center pillar (420) at equal intervals; a second servo motor (423) is installed on the inner wall of the top of the middle column (420), a screw rod (427) is installed at the output end of the second servo motor (423), and a longitudinal sliding groove (422) is formed in one side, far away from the image acquisition window (421), of the screw rod (427); the screw rod (427) is connected with a sliding block (424) in a sliding manner, one end of the sliding block (424) is connected in the longitudinal sliding groove (422) in a sliding manner, and the other end of the sliding block (424) is provided with a camera mounting plate (425); a plurality of groups of image acquisition devices (426) with the same number as the image acquisition windows (421) are equidistantly distributed on one side wall of the camera mounting plate (425) close to the image acquisition windows (421);

a second identification unit (500) is connected to one side, far away from the outer cylinder inlet (310), of the identification inner cylinder (410), and a plurality of groups of body temperature identification units (600) are arranged on one side, close to the outer cylinder inlet (310), of the middle column (420) at equal intervals; the second identification unit (500) is used for identifying fingerprints, and the body temperature identification unit (600) is used for detecting body temperature;

the second servo motor (423), the image acquisition device (426), the second identification unit (500) and the body temperature identification unit (600) are in signal connection with the alarm body (100);

the second recognition unit (500) includes a fingerprint pressing plate (510); the fingerprint pressing plate (510) is installed in the identification inner cylinder (410), and the overlooking section of the fingerprint pressing plate (510) is of a fan-shaped annular structure; four groups of finger grooves (520) are distributed on one side wall of the fingerprint pressing plate (510) far away from the outer cylinder inlet (310) at equal intervals along the vertical direction, and pressure sensors are mounted on the inner walls of the finger grooves (520); a fingerprint pressing window (530) is arranged on the inner wall of one side, away from the opening, of the finger groove (520); the fingerprint pressing plate (510) is provided with a second far infrared emitter (540), and the second far infrared emitter (540) is in signal connection with any group of second far infrared receivers (320);

the central axis of the identification inner cylinder (410) is superposed with the central axis of the identification outer cylinder (300); a first servo motor (412) is installed in the identification inner cylinder (410), and a first transverse sliding groove (411) is formed in one side wall, close to the second far infrared receiver (320), of the identification inner cylinder (410) along the horizontal direction; a first sliding rod (413) is connected in the first transverse sliding groove (411) in a sliding mode, one end of the first sliding rod (413) is connected to the output end of the first servo motor (412) in a transmission mode, and the other end of the first sliding rod (413) is installed on a shell of the second identification unit (500);

the base (430) is installed at the center of the bottom of the center pillar (420), a second transverse sliding groove (431) is formed in one side wall, close to the second far infrared receiver (320), of the base (430), a second sliding rod (432) is connected in the second transverse sliding groove (431) in a sliding mode, and one end of the second sliding rod (432) is installed on the shell of the second recognition unit (500).

2. The tax file department safety alarm device based on artificial intelligence technology of claim 1, wherein: the alarm body (100) comprises but is not limited to a shell, a buzzer, a central processing unit and an alarm lamp, and a first far infrared emitter (110) is installed on the alarm body (100).

3. The tax file department safety alarm device based on artificial intelligence technology of claim 2, wherein: the alarm device further comprises a support frame (200), the identification outer cylinder (300) is installed on the support frame (200), a first far infrared receiver (210) is installed on the support frame (200), and the first far infrared receiver (210) is in signal connection with the first far infrared transmitter (110).

4. The tax filing department safety alarm device based on artificial intelligence technique of claim 1, characterized in that: a plurality of groups of second far infrared receivers (320) are arranged on the inner wall of the identification outer cylinder (300) at equal intervals, and a signal sending module of the second identification unit (500) is in signal connection with any group of second far infrared receivers (320).

5. The tax file department safety alarm device based on artificial intelligence technology of claim 1, wherein: the body temperature identification unit (600) comprises a body temperature identification column (610); body temperature discernment post (610) are located one side that well post (420) are close to urceolus entry (310), body temperature discernment post (610) are close to a side wall mounting of urceolus entry (310) and are discerned board (620), it has a plurality of temperature sensor (630) of group to go up along the equidistant distribution of vertical direction on discernment board (620).

6. A control method implemented by the safety alarm device of tax filing department based on artificial intelligence technology of any claim 1-5, characterized by: the control method comprises the following steps:

when the identity is identified, a worker puts the hand into the identification outer cylinder and attaches the palm to each group of identification plates;

starting a second servo motor, driving the sliding block to descend by using the second servo motor, and acquiring palm print information of a worker through each group of image acquisition devices in the descending process; then collecting the collected image information to obtain complete palm print information;

comparing the complete palm print information with each group of identity information stored in the alarm body one by one;

after the comparison is successful, the worker places the finger on the second identification unit again to start the fingerprint information comparison;

if the palm print information and the fingerprint information are not matched with the information stored in the alarm body, or the palm print information and the fingerprint information are matched, but the body temperature identification unit does not monitor the body surface temperature of the worker, the safe is judged to be illegally opened;

and sending out an alarm signal through the alarm body.

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