CN211894112U

CN211894112U - Anti-theft container

Info

Publication number: CN211894112U
Application number: CN201922500792.XU
Authority: CN
Inventors: 偶瑞军; 韦红文; 陈晓敏
Original assignee: Aisino Corp
Current assignee: Aisino Corp
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-11-10
Anticipated expiration: 2029-12-31

Abstract

The utility model discloses an anti-theft container, which comprises a hollow shell, a cover body for sealing the hollow shell, a processor and at least one sensor which are positioned in the anti-theft container, at least one sensor which is positioned in the anti-theft container is used for measuring the value of corresponding measurement parameter and sending the value of each measurement parameter to the processor which is arranged in the anti-theft container, the processor receives the value of the measurement parameter in the anti-theft container which is sent by each sensor, judges whether the value of any measurement parameter is in the credible range of the corresponding target measurement parameter, determines whether the state of the article carried by the anti-theft container is abnormal, if the value of any measurement parameter is not in the credible range of the corresponding target measurement parameter, determines whether the article is replaced by a counterfeit product or is stolen, and improves the safety of the article, the uniqueness of the articles carried by the anti-theft container is ensured.

Description

Anti-theft container

Technical Field

The utility model relates to an anti-theft device technical field especially relates to an anti-theft container.

Background

With the improvement of living standard and the enhancement of anti-theft consciousness of people, how to realize the anti-theft of articles becomes a focus of increasing attention of people.

In the prior art, in the process of realizing the theft prevention of an article, theft prevention marks such as a theft prevention buckle or a theft prevention label can be added on the article. However, in practical applications, for the anti-theft method using the anti-theft mark, the method can realize the anti-theft only by relying on detection devices such as a detection door, and the like, in each link of article transportation and circulation, each link cannot be provided with a detection device, and the anti-theft mark cannot play an anti-theft role in the link without the detection device. In addition, the theft prevention also comprises the identification of whether the article is replaced, and the existing methods cannot determine whether the current article is the original article, so that the uniqueness and the safety of the article cannot be guaranteed.

In another possible approach, the article may be placed in an anti-theft device such as a safe, a pack or a packaged package. In general, if an antitheft device is not damaged, it is assumed that an article in the antitheft device is not stolen or replaced, and thus theft prevention of the article is achieved. However, in practical applications, there is still a risk that the article may be replaced or stolen without destroying the anti-theft device, for example, the article in the safe is stolen or replaced by breaking the password of the safe, and the original article in the package is replaced by a counterfeit product and the package is re-packaged, so that the uniqueness of the article and the safety of the article cannot be guaranteed.

In summary, the anti-theft methods in the prior art cannot guarantee the uniqueness and the safety of the articles.

Disclosure of Invention

The utility model provides an anti-theft container for solve the problem that the uniqueness of article can't be guaranteed to current theftproof method.

In order to solve the above problem, the utility model provides an anti-theft container, anti-theft container includes: the anti-theft container comprises a hollow shell, a cover body for sealing the hollow shell, a processor and at least one sensor, wherein the processor and the at least one sensor are positioned in the anti-theft container; wherein the anti-theft container is used for carrying articles;

the sensor is used for measuring the value of the corresponding measurement parameter and sending the value of the measurement parameter to the processor;

the processor is connected with the at least one sensor and used for receiving the value of the measurement parameter sent by the at least one sensor; judging whether the value of any one of the measurement parameters is within the credible range of the corresponding target measurement parameter; if not, determining that the state of the article carried by the anti-theft container is abnormal.

Further, the item is located within the anti-theft container or attached to the outside of the anti-theft container.

Further, the at least one sensor may comprise a shock sensor if an item is attached to the outside of the anti-theft container.

Further, the anti-theft container further comprises a communication module located within the anti-theft container;

the communication module is connected with the processor and is used for acquiring a reference value of any measurement parameter randomly configured for the anti-theft container, sending identification information of configuration equipment of the reference value and sending the reference value and the identification information of the configuration equipment to the processor;

the processor is further configured to receive the reference value and the identification information of the configuration device, and determine a target measurement parameter corresponding to the reference value according to the identification information of the configuration device; and determining the credible range of the target measurement parameter according to the reference value.

Further, the processor is further configured to generate an alarm instruction after determining that the state of the article carried by the anti-theft container is abnormal, and send the alarm instruction to the communication module;

and the communication module is also used for sending the received alarm instruction to the corresponding intelligent equipment.

Further, the processor is further configured to generate identification information of the articles in the anti-theft container according to a preset target measurement parameter sorting rule and each received reference value;

the anti-theft container also comprises a display module positioned in the anti-theft container;

the display module is connected with the processor and used for displaying the identification information.

Further, the processor is further configured to output prompt information of the abnormal state of the article carried by the anti-theft container after determining that the state of the article carried by the anti-theft container is abnormal, and send the prompt information to the display module;

the display module is also used for receiving and displaying the prompt message.

Further, the processor is further configured to determine that the state of the article carried by the anti-theft container is normal if it is determined that the value of any one of the measurement parameters is within the confidence range of the corresponding target measurement parameter.

Further, the sensors include a humidity sensor, a temperature sensor, a pressure sensor, a vibration sensor, and a positioning sensor.

Because the embodiment of the utility model provides a theftproof container includes the cavity casing, the lid of sealed this cavity casing, be located treater and at least one sensor of theftproof container, through being located at least one sensor of theftproof container, measure the value of corresponding measurement parameter, and send the value of every measurement parameter to the treater of installing in the theftproof container, the treater receives the value of the measurement parameter in the theftproof container that every sensor sent, judge whether the value of any measurement parameter all is in the credible range of corresponding target measurement parameter, confirm whether the state of the article that the theftproof container carried is unusual, if the value of any measurement parameter is not in the credible range of corresponding target measurement parameter, confirm the state of the article that the theftproof container carried is unusual, thereby confirm whether article is replaced by imitation goods or stolen, improve the security of article, the uniqueness of the articles carried by the anti-theft container is ensured.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an anti-theft container provided in embodiment 1 of the present invention;

fig. 2 is a schematic structural view of an anti-theft container provided in embodiment 2 of the present invention;

fig. 3 is a schematic structural view of an anti-theft container according to embodiment 3 of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In order to ensure the uniqueness of the article and further improve the safety of the article, the utility model provides a theftproof container.

Fig. 1 is a schematic structural diagram of an anti-theft container provided in embodiment 1 of the present invention, the anti-theft container includes: a hollow shell 11, a cover body 12 for sealing the hollow shell 11, a processor 13 and at least one sensor 14 which are positioned in the anti-theft container; wherein the anti-theft container is used for carrying articles;

the sensor 14 is configured to measure a value of a corresponding measurement parameter and send the value of the measurement parameter to the processor 13;

the processor 13 is connected with the at least one sensor 14 and is used for receiving the value of the measurement parameter sent by the at least one sensor 14; judging whether the value of any one of the measurement parameters is within the credible range of the corresponding target measurement parameter; if not, determining that the state of the article carried by the anti-theft container is abnormal.

In the embodiment of the present invention, when the hollow shell 11 of the anti-theft container is produced, the hollow shell 11 may be any shape, as long as the cavity is ensured to exist inside, and the anti-theft container can also be produced according to the shape and the volume of the article to be carried in the anti-theft container. For example, if the stored articles are medicines, the volume of the general medicines is small, and the amount of the stored medicines is not too large, the hollow shell 11 can be produced into a bottle shape, and the volume is set to be smaller; for the stored articles being ceramic bottles, it is possible to produce the hollow housing 11 as a rectangular parallelepiped and set the volume of the hollow housing 11 according to the volume of the bottles placed. The shape and size of the lid 12 for sealing the hollow case 11 are set according to the shape and size of the portion where the hollow case 11 is connected to the lid. For example, in the case of a bottle-shaped anti-theft container, the body of the bottle is a hollow case 11 of the anti-theft container, and the cap is a lid 12 for closing the hollow case 11.

The hollow housing 11 and the cover 12 may be made of plastic, metal, glass, or the like. The specific characteristics of the article carried by the anti-theft container may be selected, for example, if the article reacts with the plastic hollow shell 11 and the plastic cover 12, the plastic hollow shell 11 and the plastic cover 12 should not be selected. The material of the hollow case 11 and the material of the cover 12 may be the same or different.

In practical use, the utility model provides a when theftproof container, article are located theftproof container, or attach to outside the theftproof container. The specific article placing mode can be flexibly set according to actual requirements, and is not particularly limited.

Further, in order to subsequently assist the processor 13 in determining the state of the article, in the embodiment of the present invention, at least one sensor 14 is installed in the anti-theft container. The type of the installed sensor 14 can be flexibly set according to actual needs, more of the type of the installed sensor 14 can be set if strict requirements are made on the safety of the article, and less of the type of the installed sensor 14 can be set if cost saving is desired.

For at least one sensor 14 located inside the anti-theft container, each sensor 14 is connected to the processor 13 inside the anti-theft container and can send the measured value of the corresponding measurement parameter to the processor 13. The processor 13 performs corresponding processing on the value of each measured parameter based on the received value of each measured parameter, thereby determining the status of the item carried by the anti-theft container.

Since the value of the corresponding measurement parameter measured by each sensor 14 located in the anti-theft container is generally constant under the condition that the state of the article carried by the anti-theft container is normal, in the actual measurement process, the value of the corresponding measurement parameter measured by each sensor 14 may fluctuate within a range above and below the corresponding constant value, but the deviation is generally not too large, that is, the value of the corresponding measurement parameter measured by each sensor 14 is within a certain range. If the value of the measured parameter measured by any of the sensors 14 is not within the corresponding range, it is likely to be caused by theft of the article carried by the antitheft container or replacement of the article carried by the antitheft container with a counterfeit.

Therefore, in order to conveniently determine the state of the article carried by the anti-theft container, in the embodiment of the present invention, the user can set the confidence range of each target measurement parameter in advance according to the best storage environment of the article carried by the anti-theft container, and help the subsequent processor 13 determine whether the state of the article carried by the anti-theft container is abnormal according to the received measurement parameters and the confidence range of the target measurement parameters corresponding to the measurement parameters.

In order to determine the state of the article carried by the anti-theft container, the processor 13 is further configured to determine that the state of the article carried by the anti-theft container is normal if the value of any one of the measurement parameters is within the confidence range of the corresponding target measurement parameter.

In a specific implementation, after the processor 13 of the anti-theft container receives the values of the measurement parameters sent by the at least one sensor 14, it is determined whether the received value of any measurement parameter is not within the confidence range of the corresponding target measurement parameter, so as to determine whether the state of the article carried by the anti-theft container is abnormal. If the received value of any one of the measurement parameters is not in the credible range of the corresponding target measurement parameter, the state of the article carried by the anti-theft container is changed, and the state of the article carried by the anti-theft container is determined to be abnormal; and if the received value of any one of the measurement parameters is within the credible range of the corresponding target measurement parameter, which indicates that the state of the article carried by the anti-theft container is not changed, determining that the state of the article carried by the anti-theft container is normal.

For example, assume that the confidence range of the target measurement parameter A is 0.05-0.2, the confidence range of the target measurement parameter B is 0-6, and the confidence range of the target measurement parameter C is 95-100. The processor 13 determines that the state of the article carried by the anti-theft container is normal if the received value of the measurement parameter a is 0.1, the value of the measurement parameter B is 6, and the value of the measurement parameter C is 99, and determines that the received value of any measurement parameter is within the credible range of the corresponding target measurement parameter, which indicates that the state of the article carried by the anti-theft container is not changed.

If the value of the measurement parameter a received by the processor 13 is 0.1, the value of the measurement parameter B is 6, and the value of the measurement parameter C is 101, the processor 13 determines that the value of the received measurement parameter C is not within the confidence range of the corresponding target measurement parameter C, which indicates that the state of the article carried by the anti-theft container changes, and determines that the state of the article carried by the anti-theft container is abnormal.

It should be noted that, because the container may be a liquid or other corrosive article, in order to ensure the normal use of the sensor 14 and the processor 13, a groove is provided in the container, which may be provided on the hollow shell 11 or on the cover 12, specifically, both are provided on one side relative to the inside of the container, the sensor 14 and the processor 13 provided in the container are located in the groove, and in order to enable the sensor 14 to measure the corresponding measurement parameter in the container, the groove is sealed with a waterproof and anticorrosive material, so as to ensure the normal operation of the sensor 14 and the processor 13 provided in the groove.

Because the embodiment of the utility model provides a theftproof container includes hollow shell 11, the lid 12 of sealed this hollow shell 11, be located the treater and at least one kind of sensor 14 of theftproof container, through being located the at least one kind of sensor 14 of theftproof container, measure the value of corresponding measurement parameter, and send the value of every measurement parameter to the treater of installing in the theftproof container, the treater receives the value of the measurement parameter that every sensor 14 sent, judge whether the value of any measurement parameter all is in the credible range of corresponding target measurement parameter, confirm whether the state of the article that the theftproof container carried is unusual, if the value of any measurement parameter is not in the credible range of corresponding target measurement parameter, confirm whether the state of the article that the theftproof container carried is unusual, thereby confirm whether article is replaced by the imitation goods or stolen, improve the security of article, the uniqueness of the articles carried by the anti-theft container is ensured.

Example 2:

in order to accurately determine the state of an article carried by the anti-theft container, fig. 2 is a schematic structural diagram of an anti-theft container provided in embodiment 2 of the present invention, where the anti-theft container further includes a communication module 21 located inside the anti-theft container;

the communication module 21 is connected to the processor 13, and is configured to obtain a reference value of any measurement parameter randomly configured for the anti-theft container, send identification information of a configuration device of the reference value, and send the reference value and the identification information of the configuration device to the processor 13;

the processor 13 is further configured to receive the reference value and the identification information of the configuration device, and determine a target measurement parameter corresponding to the reference value according to the identification information of the configuration device; and determining the credible range of the target measurement parameter according to the reference value.

The embodiment of the utility model provides an in, in the link of article production, can be according to the value scope of at least one kind of measurement parameter in the environment that article normally deposited, the benchmark value of the target measurement parameter that the configuration theftproof container corresponds at random makes the article that the theftproof container carried have the uniqueness through every benchmark value. For example, the value range of the measurement parameter a in the environment where a certain type of article is normally stored is 0-6, the value range of the measurement parameter B is 0.1-0.3, the value range of the measurement parameter C is 90-100, the value of the measurement parameter a of the randomly configured number 1 anti-theft container is 2, the value of the measurement parameter B is 0.15, the value of the measurement parameter C is 95.6, the reference value of the measurement parameter a of the randomly configured number 2 anti-theft container is 4, the reference value of the measurement parameter B is 0.21, and the reference value of the measurement parameter C is 97.

Since the value of the measurement parameter of the anti-theft container is generally constant under the condition that the state of the article carried by the anti-theft container is normal, and the upper and lower ranges of the corresponding constant value may float, but the deviation is not too large, after the reference value of at least one measurement parameter of the anti-theft container is randomly configured in advance, the value of the measurement parameter configured on the anti-theft container should float on the upper and lower ranges of the corresponding reference value, but the deviation is not too large. In order to determine the state of the article conveniently, in the embodiment of the present invention, a communication module 21 is installed in the anti-theft container, and is configured to obtain a reference value of any measurement parameter randomly configured for the anti-theft container, send identification information of a configuration device of the reference value, and send the reference value and the identification information of the configuration device to the processor 13, so that the processor 13 can determine the state of the article carried by the anti-theft container according to the received reference value and the identification information of the configuration device.

In a specific implementation, after the processor 13 receives the reference value sent by the communication module 21 and the identification information of the configuration device, first, a target measurement parameter corresponding to the received reference value is determined. The measurement parameters in the anti-theft container configured by different configuration devices may be different, such as: the configuration device A configures the measurement parameters A of the anti-theft container, and the configuration device B configures the measurement parameters B of the anti-theft container. And the processor determines the target measurement parameter corresponding to the received reference value according to the identification information corresponding to the received reference value and the relationship between the identification information of the configuration equipment and the target measurement parameter which are prestored. For example, the identification information of the configuration device sending the reference value 3 is a, and according to the identification information a and the relationship between the pre-stored identification information of the configuration device and the target measurement parameter, the target measurement parameter corresponding to the reference value 3 is determined to be a. And after the target measurement parameter corresponding to the received reference value is determined, determining the credible range of the target measurement parameter according to the reference value and the corresponding preset floating threshold value.

When the floating threshold is set, the target measurement parameter corresponding to the floating threshold needs to be considered, and the floating thresholds corresponding to different target measurement parameters are different, for example, the floating threshold corresponding to the measurement parameter a is 0.1, and because the floating range of the measurement parameter B is larger, the floating threshold corresponding to the measurement parameter B is 1. When the floating threshold corresponding to each target measurement parameter is set, different values can be set according to different scenes, if strict requirements are made on the state of an article carried by the anti-theft container, the floating threshold of the target measurement parameter can be set to be smaller, if the normal false detection of the state of the article as the abnormal state of the article is hoped to be avoided, the floating threshold of the target measurement parameter can be set to be larger, but the floating threshold is not too large, and the value range of the measurement parameter normally stored by the article cannot be exceeded.

For example, the value of the measurement parameter a of the anti-theft container is configured to be a reference value 3, the communication module 21 receives the reference value 3 and then sends the reference value to the processor 13, the processor 13 determines that the target measurement parameter corresponding to the reference value is the measurement parameter a after receiving the reference value, and determines that the confidence range of the target measurement parameter is 2.9 to 3.1 according to the reference value 3 and a preset floating threshold value 0.1.

It should be noted that the preset floating threshold may include an upper threshold and a lower threshold, and the upper threshold may be the same as or different from the lower threshold, and may be flexibly set, and is not specifically limited herein.

Still taking the above as an example, if the preset upper threshold is 0.1 and the preset lower threshold is 0.2, the confidence range of the target measurement parameter is determined to be 2.8-3.1.

In order to further improve the security of the article, the processor 13 is further configured to determine that the state of the article carried by the anti-theft container is abnormal, and then generate an alarm command, and send the alarm command to the communication module 21;

the communication module 21 is further configured to send the received alarm instruction to a corresponding intelligent device.

In order to inform the owner of the relevant staff or article in time, the utility model discloses in, when processor 13 confirms that the value of arbitrary received measurement parameter is not in the credible scope of the target measurement parameter that corresponds, confirm the unusual back of the state of the article that this theftproof container carried, processor 13 can also generate alarm command to through the communication module 21 that links to each other with this processor 13, send the alarm command who generates for the smart machine that corresponds, in order to inform the owner of smart machine to know in time that the state of the article that this theftproof container carried is unusual.

The communication module 21 may send the generated alarm instruction to the intelligent device of the relevant staff or the owner of the article through a short message, a mail or an alarm phone.

Also in order to ensure proper operation of the telecommunications module 21, the telecommunications module 21 is also arranged in the recess.

Because the embodiment of the utility model provides an in be provided with communication module 21 in the anti-theft container, this communication module 21 not only can send received benchmark value for treater 13, so that treater 13 confirms the credible scope of the target measurement parameter by the random configuration benchmark value, be favorable to whether the state of the article that treater 13 confirmed the anti-theft container and carried is unusual, can also confirm the state of the article that the anti-theft container carried at treater 13 when unusual, generate alarm information with treater 13 and send for the smart machine that corresponds, in time inform the user, not only further improve the security of article, user experience has still been improved.

Example 3:

in order to further ensure the uniqueness of the article, fig. 3 is a schematic structural diagram of an anti-theft container provided in embodiment 3 of the present invention, where the processor 13 is further configured to generate identification information of the article in the anti-theft container according to a preset target measurement parameter sorting rule and each received reference value;

the anti-theft container further comprises a display module 31 located within the anti-theft container;

the display module 31 is connected to the processor 13 and configured to display the identification information.

After determining the target measurement parameter corresponding to each reference value, the processor 13 may further generate identification information identifying the article in the anti-theft container according to a preset target measurement parameter sorting rule for each received reference value. The identification information may be information such as a two-dimensional code or other character strings.

For example, if the preset target measurement parameter sorting rule is measurement parameter C, measurement parameter B, and measurement parameter D, the received target measurement parameters corresponding to each reference value and the preset target measurement parameter sorting rule are sorted to generate identification information identifying the articles in the anti-theft container.

After determining the target measurement parameter corresponding to each received reference value, the method may determine the value of the corresponding target measurement parameter for each received reference value according to a preset algorithm, and then generate a corresponding numerical value according to a preset sorting rule.

In order to improve interactive variety, improve user experience the embodiment of the utility model provides an in, be provided with display module 31 in the theftproof container, after the identification information of the article that processor 13 generated the theftproof container and carried, display module 31 shows this identification information on the display screen to make things convenient for the user to know the information of the article that the theftproof container carried.

In order to further improve the security of the article, the processor 13 is further configured to determine that the state of the article carried by the anti-theft container is abnormal, and then output a prompt message indicating that the state of the article carried by the anti-theft container is abnormal, and send the prompt message to the display module 31;

the display module 31 is further configured to receive and display the prompt message.

In order to inform the user in time, the utility model discloses in, when processor 13 confirms that the value of arbitrary received measurement parameter is not in the credible range of the target measurement parameter that corresponds, confirm the unusual back of state of the article that this theftproof container carried, processor 13 can output the unusual prompt message of state of the article that the theftproof container carried to give display module 31 with this prompt message transmission. Wherein the prompt message can be a text message, such as "the status of the article is abnormal, please check in time", or "abnormal warning! The text information may also be instruction information for controlling the display module 31 to display, for example, instruction information for controlling a preset red display interface to flash on the display screen of the display module 31 according to a certain frequency, or instruction information for controlling the display module 31 to clear identification information displayed on the display screen. The embodiment of the utility model provides an in, can also combine multiple prompt information, for example, include text message and the instruction information that control display module 31 shows in the prompt information of output. The specific output prompt information can be flexibly set according to actual requirements.

When the display module 31 receives the prompt message sent by the processor 13, the prompt message is displayed on the display screen. In a specific implementation, if the prompt message is a text message, the display module 31 directly displays the text message on the display screen; if the prompt information is instruction information for controlling the display module 31 to display, the display module 31 performs corresponding operations according to the instruction information in the prompt information, for example, flashing a preset red display interface on the display screen at a frequency of 20 times per second, or clearing identification information displayed on the display screen; if the prompt message is a text message and an instruction message for controlling the display module 31 to display, the display module 31 displays the text message on the display screen and executes an operation corresponding to the instruction message, for example, displaying "the state of the article is abnormal, please check in time" on the display screen, and blinks the red light 20 times per second.

Also in order to ensure proper operation of the display module 31, the display module 31 is also disposed in the recess.

Because the embodiment of the utility model provides an in the theftproof container is provided with display module 31, processor 13 is according to every reference value of received and preset target measurement parameter sequencing rule, generate the identification information of the article that the theftproof container carried, this identification information can be shown to this display module 31, thereby further guarantee the uniqueness of article, after the state of the article that the theftproof container carried is confirmed to processor 13 is unusual, this display module 31 can also show the unusual suggestion information of state of the article that the theftproof container carried of processor 13 output, thereby further improve the security of article, in time inform the user when the state of the article that the theftproof container carried is unusual, improve user experience.

Example 4:

in order to ensure the safety of the articles carried by the anti-theft container, on the basis of the above embodiments, in the embodiment of the present invention, the sensor 14 includes a humidity sensor, a temperature sensor, a pressure sensor, a vibration sensor and a positioning sensor.

In order to ensure the safety of the articles carried by the anti-theft container, the utility model discloses in, install at least one kind of sensor 14 in the anti-theft container, and this sensor 14 can be humidity transducer, temperature sensor, pressure sensor, vibrations sensor and positioning sensor.

It should be noted that, when selecting at least one sensor 14 installed in the anti-theft container, it is also necessary to consider whether the article is located inside the anti-theft container or outside the anti-theft container, and in order to be able to accurately determine the state of the article carried by the anti-theft container, if the article is attached outside the anti-theft container, the at least one sensor 14 includes a vibration sensor.

If the item is located in a theft-proof container, the at least one sensor 14 may be a pressure sensor, a vibration sensor and a positioning sensor, but may also be a humidity sensor, a temperature sensor.

When an article is placed in the anti-theft container, if the anti-theft container is internally provided with the humidity sensor, the humidity sensor can measure the value of the humidity in the anti-theft container and send the value of the humidity to the processor 13, and after the processor 13 receives the value of the humidity sent by the humidity sensor, the processor 13 judges whether the value of the humidity is not in the credible range of the corresponding target humidity, and determines whether the state of the article in the anti-theft container is abnormal. If the value of the humidity is not within the confidence range of the corresponding target humidity, and the state of the article in the anti-theft container is changed, the state of the article in the anti-theft container is determined to be abnormal.

For example, when the anti-theft container is broken, air outside the anti-theft container enters the anti-theft container to change the humidity in the anti-theft container, the humidity sensor in the anti-theft container measures the value of the humidity in the anti-theft container and sends the value of the humidity to the processor 13, and after receiving the value of the humidity, the processor 13 judges that the value of the humidity is not in the corresponding credible range of the target humidity, and determines that the state of the article in the anti-theft container is abnormal.

When an article is placed in the anti-theft container, if the temperature sensor is installed in the anti-theft container, the temperature sensor measures the temperature value in the anti-theft container and sends the temperature value to the processor 13, and after the processor 13 receives the temperature value sent by the temperature sensor, the processor 13 judges whether the temperature value is not in the corresponding credible range of the target temperature, and determines whether the state of the article in the anti-theft container is abnormal. If the temperature value is not within the confidence range of the corresponding target temperature, and the state of the article in the anti-theft container is changed, the state of the article in the anti-theft container is determined to be abnormal.

For example, when the anti-theft container is broken, air outside the anti-theft container enters the anti-theft container to change the temperature in the anti-theft container, the temperature sensor in the anti-theft container measures the value of the temperature in the anti-theft container and sends the value of the temperature to the processor 13, and after receiving the value of the temperature, the processor 13 judges that the value of the temperature is not in the corresponding credible range of the target temperature, and determines that the state of the article in the anti-theft container is abnormal.

When an article is placed in the anti-theft container, if the pressure sensor is installed in the anti-theft container, the pressure sensor measures the value of the air pressure in the anti-theft container and sends the value of the air pressure to the processor 13, and after the processor 13 receives the value of the air pressure sent by the pressure sensor, the processor determines whether the value of the air pressure is not in the corresponding credible range of the target pressure, and determines whether the state of the article in the anti-theft container is abnormal. If the value of the air pressure is not in the corresponding credible range of the target air pressure, the state of the article in the anti-theft container is changed, and the state of the article in the anti-theft container is determined to be abnormal.

For example, when the anti-theft container is broken, the air pressure in the anti-theft container changes, the pressure sensor in the anti-theft container measures the value of the air pressure in the anti-theft container, the value of the air pressure is sent to the processor 13, after the processor 13 receives the value of the air pressure, the processor judges that the value of the air pressure is not in the corresponding credible range of the target air pressure, and the state abnormality of the article in the anti-theft container is determined.

When an article is placed in the anti-theft container or attached to the outer side of the anti-theft container, if the anti-theft container is internally provided with the vibration sensor, the vibration sensor can measure the value of the vibration frequency of the article carried by the anti-theft container and send the value of the vibration frequency to the processor 13, and after the processor 13 receives the value of the vibration frequency sent by the vibration sensor, whether the value of the vibration frequency is not in the credible range of the corresponding target vibration frequency is judged, and whether the state of the article carried by the anti-theft container is abnormal is determined. And if the value of the vibration frequency is not in the credible range of the corresponding target vibration frequency, the state of the article carried by the anti-theft container is changed, and the state of the article carried by the anti-theft container is determined to be abnormal.

For example, when an article in the anti-theft container is taken out of the anti-theft container through an illegal way, the article is shaken, namely the vibration frequency of the article is changed, the vibration sensor attached to the article measures the value of the vibration frequency of the article, the value of the vibration frequency is sent to the processor 13, and after the processor 13 receives the value of the vibration frequency, the processor judges that the value of the vibration frequency is not in the corresponding credible range of the target vibration frequency, and determines that the state of the article carried by the anti-theft container is abnormal.

For another example, when an article attached to the outside of the antitheft container is removed by an illegal means, the antitheft container is shaken to change the vibration frequency of the article, the vibration sensor attached to the antitheft container measures the value of the vibration frequency of the antitheft container, the value of the vibration frequency is sent to the processor 13 as the value of the vibration frequency of the article, and the processor 13 determines that the value of the vibration frequency is not within the confidence range of the corresponding target vibration frequency after receiving the value of the vibration frequency, and determines that the state of the article carried by the antitheft container is abnormal.

When an article is placed in the anti-theft container or attached to the outer side of the anti-theft container, if a positioning sensor is installed in the anti-theft container, the positioning sensor can measure a value of a positioning coordinate of the article carried by the anti-theft container and send the value of the positioning coordinate to the processor 13, and after the processor 13 receives the value of the positioning coordinate sent by the vibration sensor, whether the value of the positioning coordinate is not in a credible range of a corresponding target positioning coordinate is judged, and whether the state of the article carried by the anti-theft container is abnormal is determined. And if the value of the positioning coordinate is not in the credible range of the corresponding target positioning coordinate, the state of the article carried by the anti-theft container is changed, and the state of the article carried by the anti-theft container is determined to be abnormal.

For example, when an article in the anti-theft container is stolen through an illegal way, the positioning coordinate of the article is not in the preset safety range of the positioning coordinate, the positioning sensor attached to the article measures the value of the positioning coordinate of the article, the value of the positioning coordinate is sent to the processor 13, and after the processor 13 receives the value of the positioning coordinate, the processor determines that the value of the positioning coordinate is not in the corresponding credible range of the target positioning coordinate, and determines that the state of the article in the anti-theft container is abnormal.

For another example, when an article attached to the outside of the antitheft container and the antitheft container are stolen by an illegal means, the positioning coordinate of the antitheft container is not within the safety range of the preset positioning coordinate, and the article attached to the antitheft container is not within the safety range of the preset positioning coordinate, the positioning sensor in the antitheft container measures the value of the positioning coordinate of the antitheft container, transmits the value of the positioning coordinate to the processor 13 as the value of the positioning coordinate of the article, and the processor 13 determines that the value of the positioning coordinate is not within the confidence range of the corresponding target positioning coordinate after receiving the value of the positioning coordinate, and determines that the state of the article in the antitheft container is abnormal.

If the at least two sensors 14 are installed in the anti-theft container, the processor 13 determines that the value of any received measurement parameter is within the credible range of the corresponding target measurement parameter, and determines that the state of the article in the anti-theft container is normal.

For example, a temperature sensor and a humidity sensor are installed in the anti-theft container, the processor 13 determines that the received temperature value is within the corresponding confidence range of the target temperature, and the received humidity value is within the corresponding confidence range of the target humidity, and determines that the state of the article in the anti-theft container is normal.

Because the embodiment of the utility model provides an in install at least one kind sensor 14 among humidity transducer, temperature sensor, pressure sensor, shock transducer and the positioning sensor in this theftproof container, the state of the article in the monitoring theftproof container that can be more comprehensive to be favorable to follow-up treater 13 according to the value of every 14 measuring measurement parameters of sensor, the state of the article of confirming in the theftproof container is all unusual, improves the security of article, guarantees the uniqueness of the article that the theftproof container carried.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims

1. An anti-theft container, characterized in that it comprises: the anti-theft container comprises a hollow shell, a cover body for sealing the hollow shell, a processor and at least one sensor, wherein the processor and the at least one sensor are positioned in the anti-theft container; wherein the anti-theft container is used for carrying articles;

2. The tamperproof container of claim 1, wherein an item is located inside the tamperproof container or attached to the exterior of the tamperproof container.

3. The tamperproof container of claim 2, wherein said at least one sensor comprises a shock sensor if an item is attached to the exterior of said tamperproof container.

4. The tamperproof container of claim 1, further comprising a communication module located within the tamperproof container;

5. The anti-theft container according to claim 4, wherein the processor is further configured to generate an alarm instruction after determining that the state of the article carried by the anti-theft container is abnormal, and send the alarm instruction to the communication module;

6. The anti-theft container according to claim 4, wherein the processor is further configured to generate identification information of the items in the anti-theft container according to a preset target measurement parameter sorting rule and each received reference value;

7. The anti-theft container according to claim 6, wherein the processor is further configured to output a prompt message indicating that the state of the article carried by the anti-theft container is abnormal after determining that the state of the article carried by the anti-theft container is abnormal, and send the prompt message to the display module;

8. The anti-theft container according to claim 1, wherein the processor is further configured to determine that the state of the article carried by the anti-theft container is normal if the value of any one of the measured parameters is determined to be within the confidence range of the corresponding target measured parameter.

9. The tamperproof container of any one of claims 1 to 8, wherein the sensor comprises a humidity sensor, a temperature sensor, a pressure sensor, a vibration sensor, and a positioning sensor.