SUMMERY OF THE UTILITY MODEL
In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content does not imply any attempt to define the essential features and essential features of the claimed solution, nor is it implied to be intended to define the scope of the claimed solution.
In order to solve the above technical problem at least partially, according to the utility model discloses an aspect provides an electron lead sealing, electron lead sealing includes: the lock body is provided with a Hall sensor and a controller, and the controller is electrically connected with the Hall sensor; the permanent magnet, the permanent magnet can remove the sensing range of fixing at the hall sensor, and the hall sensor responds to the permanent magnet so that the controller control electron lead seal is in the dormancy state.
According to the utility model discloses an electron lead sealing removes the permanent magnet from the lock body to outside making the permanent magnet be located hall sensor's response scope, can awaken up electron lead sealing, so that electron lead sealing normal work need not to awaken up the controller that electron lead sealing was awaken up through handheld awakening equipment, awakens up easy operation, and work efficiency is high.
Optionally, the lock body is provided with a lock rod, and the electronic lead seal further comprises a lock head which is matched with the lock rod to seal with lead, and the lock head is removably fixed on the lock body.
Optionally, a permanent magnet is disposed within the lock cylinder.
Optionally, when the lock head and the lock rod are connected with a lead seal, the permanent magnet is out of the sensing range of the hall sensor, so that the controller controls the electronic lead seal to be in the working state.
Optionally, a positioning device, a wireless communication device, a storage device, and a real-time clock device electrically connected to the controller are further disposed in the lock body, and when the electronic lead seal is in a dormant state, the positioning device, the wireless communication device, the storage device, and the real-time clock device are all in a stop state.
Optionally, when the electronic lead seal is in a working state, the positioning device, the wireless communication device, the storage device, and the real-time clock device are all in a working state.
Optionally, the electronic lead seal further comprises a connecting member, and the connecting member is respectively connected with the lock body and the lock head.
Optionally, a lock bar detection circuit electrically connected to the controller is disposed in the lock bar, and the controller determines whether the lock bar is opened according to the detected voltage of the lock bar detection circuit.
Optionally, a power supply device electrically connected with the controller is further arranged in the lock body to supply electric energy to the electric elements in the lock body.
The utility model also provides a container, container include aforementioned electron lead sealing.
According to the utility model discloses a container, container include aforementioned electron lead sealing, remove the permanent magnet from the lock body to make the permanent magnet be located hall sensor's response scope, can awaken up electron lead sealing, so that electron lead sealing normally works, need not to awaken up the controller that electron lead sealing was awaken up through handheld awakening equipment, awakens up easy operation, and work efficiency is high.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that embodiments of the invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring embodiments of the present invention.
In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the invention. It is apparent that the implementation of the embodiments of the present invention is not limited to the specific details familiar to those skilled in the art. The following detailed description of the preferred embodiments of the invention, however, the invention is capable of other embodiments in addition to those detailed.
The utility model provides an electron lead sealing. The electronic lead seal is used for a structure for opening and closing a door of a lead-sealed (sealed) container, a structure for opening and closing a tank door of an oil tank, and the like (hereinafter, an opening and closing structure for a door of a container sealed by an electronic lead seal will be described as an example). Thus, only by opening the electronic lead seal (the lock lever 118 which shears the electronic lead seal to be described later), the door of the container or the tank door of the tank can be opened. When the electronic lead seal is opened, the electronic lead seal can record the time when it is opened and the position at which it is opened (i.e., the position of the container in which the electronic lead seal is disposed). The electronic lead seal can also transmit the time and position of the electronic lead seal being opened to the user's terminal device (e.g., computer, cell phone, etc.). Therefore, a user can monitor whether the electronic lead seal is opened or not, and further monitor the state of the door of the container or the oil tank door of the oil tank packaged by the electronic lead seal, so that goods are prevented from being exchanged or stolen. The electronic lead seal of the present embodiment can also be used for a switch structure for sealing a metering device such as electricity, water, gas, etc.
As shown in fig. 2, the electronic lead seal includes a lock body 110 and a lock head 120. The lock body 110 may have a rectangular parallelepiped hollow structure. The lower end surface of the lock body 110 is provided with a lock bar 118 extending downward. The locking head 120 may be a cylinder structure. The locking head 120 is provided with a locking hole (not shown) corresponding to the locking lever 118. After the lock rod 118 is inserted into the opening and closing structure of the door of the container, the lock hole of the lock head 120 is sleeved on the free end of the lock rod 118, so that the door of the container can be sealed, and only the lock rod 118 is cut off at this time, so that the electronic lead seal can be opened.
As shown in fig. 2, the locking head 120 may be fixedly coupled to one side of the lock body 110 by a coupling member 130. The connector 130 may be a plastic plate having a thickness of 2mm to 3 mm. One end of the connecting member 130 is fixedly connected to the top end of the locking head 120. The other end of the connecting member 130 is fixedly connected to the top end of the lock body 110. Thus, when the electronic lead seal is not used (for example, during the storage, transportation, and sale of the electronic lead seal, and the electronic lead seal is in a dormant state), the lock head 120 and the lock body 110 are fixedly connected. When the electronic lead seal is needed (the electronic lead seal is used to seal the opening and closing structure of the door of the container), the user can cut the connecting member 130 and then connect the lock head 120 and the lock rod 118 (at this time, the electronic lead seal is in the working state).
As shown in fig. 1, the lock body 110 is provided therein with a hall sensor 111, a controller 112, a positioning device 113, a wireless communication device 114, a storage device 115, a real-time clock device 116, and a power supply device 117. Latch lever 118 has disposed therein a latch lever detection circuit (not shown) that is electrically connected to controller 112.
The controller 112 may be a microprocessor. The locating device 113 may be a GPS locating device for determining the real-time location of the electronic lead seal. The positioning device 113 is electrically connected with the controller 112 to transmit the real-time position of the lead seal of the electric appliance to the controller 112. The real time clock device 116 is used for timing. The real time clock device 116 is electrically connected to the controller 112 to transmit the current time to the controller 112.
The wireless communication device 114 can communicate with the user's terminal equipment or the background server through one or more of GPRS, GSM, 3G, and 4G. For example, the wireless communication device 114 includes a SIM card or an ESIM card. In this way, the wireless communication device 114 communicates with the background server over the mobile network. The wireless communication device 114 is electrically connected to the controller 112, so that the controller 112 can communicate with the user's terminal equipment or a background server through the wireless communication device 114. For example, when the lead seal is opened, the controller 112 can send the time and location of the electronic lead seal being opened to the user's terminal device via the wireless communication device 114. The controller 112 may also perform alarms, etc.
The storage device 115 may be one or more of a ferroelectric memory, an EEPROM memory, a NAND-FLASH memory, an SD memory card. The memory device 115 is electrically connected to the controller 112 to store data in the controller 112, such as the time and location at which the electronic lead seal was opened.
The power supply device 117 may include a battery. The power supply device 117 is electrically connected to the hall sensor 111, the controller 112, the positioning device 113, the wireless communication device 114, the storage device 115, the real-time clock device 116, and the lock lever detection circuit, respectively, to supply power.
In this embodiment, when the latch 118 is not cut when the electronic lead seal is in the operating state, the latch detection circuit is closed, and the controller 112 can detect a voltage signal of the latch detection circuit. When latch lever 118 is tripped, the latch lever detection circuit is tripped and is in an open state, and controller 112 cannot detect the voltage signal of the latch lever detection circuit.
Thus, if the lock lever 118 is sheared when the electronic lead seal seals the door of the container, the controller 112 cannot receive the voltage signal from the lock lever detection circuit. The controller 112 determines the current position of the electronic lead seal through the positioning device 113. The controller 112 determines the current time of day via the real time clock device 116. The controller 112 controls the storage device 115 to store the current position and the current time of the electronic lead seal so as to save the position and the time at which the electronic lead seal is opened. The controller 112 transmits the current location and the current time of the electronic lead seal to the terminal device of the user through the mobile network or to the background server through the wireless communication device 114. Therefore, a user can conveniently obtain the position and the moment when the electronic lead seal is opened. In the embodiment, the state of the electronic lead seal can be traced, the electronic lead seal provides a real-time monitoring function for the safety of goods transported by the container, and the electronic lead seal has complete functions and strong reliability.
In the present embodiment, the hall sensor 111 and the controller 112 are electrically connected. A permanent magnet 121 may be disposed in the locking head 120. When the electronic lead seal is not used (when the lock cylinder 120 is connected to the lock body 110 through the connecting member 130), the distance between the lock cylinder 120 and the lock body 110 may enable the permanent magnet 121 to be located within the sensing range of the hall sensor 111. At this time, the permanent magnet 121 can make the hall sensor 111 generate an induction signal. The sensing signal is transmitted to the controller 112.
When the electronic lead seal is used (the lock 120 is connected with the lock rod 118, and the electronic lead seal is in an operating state), the distance between the lock 120 and the lock body 110 can enable the permanent magnet 121 to be located outside the sensing range of the hall sensor 111. At this time, the permanent magnet 121 cannot make the hall sensor 111 generate an induction signal. The controller 112 cannot receive the sensing signal.
In this embodiment, the controller 112 is configured to control the electronic lead seal to be in the dormant state when the controller 112 receives the sensing signal. At this time, the controller 112 controls the operation of the pointing device 113, the wireless communication device 114, the storage device 115, the real time clock device 116, and the lock bar detection circuit to be stopped. While controlling the power supply means 117 to stop supplying power to the positioning means 113, the wireless communication means 114, the storage means 115, the real time clock means 116, and the lock lever detecting circuit. At this time, only the hall sensor 111, the controller 112, and the power supply device 117 are operated in the electronic lead seal. The power supply device 117 only supplies power to the controller 112 and the hall sensor 111, and the controller 112 only processes communication data between the controller 112 and the hall sensor 111, so that the processing amount of the controller 112 is small and the energy consumption is low. Therefore, the electronic lead seal has the advantages of minimum energy consumption, low power consumption of the power supply device and long service life.
The controller 112 is configured to control the electronic lead seal to be in an operating state when the controller 112 does not receive the sensing signal. The controller 112 controls the detent device 113, the wireless communication device 114, the storage device 115, the real time clock device 116, and the lock bar detection circuit to be in an operating state. While controlling the power supply means 117 to supply power to the positioning means 113, the wireless communication means 114, the storage means 115, the real time clock means 116, and the lock lever detection circuit. At this time, all electrical components in the electronic lead seal work normally. The power supply device 117 supplies power to the controller 112, the hall sensor 111, the positioning device 113, the wireless communication device 114, the storage device 115, the real-time clock device 116, and the latch lever detection circuit, and the electronic lead seal consumes the most power.
In this embodiment, when the electronic lead seal is in the dormant state, the connecting member 130 is cut off, and then the lock head 120 is connected to the lock rod 118, so that the electronic lead seal in the dormant state can be awakened, all electrical components in the electronic lead seal can work normally, and the operation of awakening the electronic lead seal is fast and convenient.
In this embodiment, the permanent magnet 121 is removed from the lock body, and the permanent magnet 121 is located outside the sensing range of the hall sensor 111, so that the electronic lead seal can be waken up, the electronic lead seal can work normally, the controller 112 of the electronic lead seal is not required to be waken up through a handheld wakening device, the wakening operation is simple, and the working efficiency is high.
The utility model also provides a container. The container comprises the electronic lead seal.
In this embodiment, the container includes the aforementioned electronic lead seal, removes the permanent magnet 121 from the lock body, and makes the permanent magnet 121 be located outside the sensing range of the hall sensor 111, can awaken up the electronic lead seal, so that the electronic lead seal normally works, need not to awaken up the controller 112 of the electronic lead seal through handheld awakening device, awakens up easy operation, and work efficiency is high.
Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "component" and the like, when used herein, can refer to either a single part or a combination of parts. Terms such as "mounted," "disposed," and the like, as used herein, may refer to one component as being directly attached to another component or one component as being attached to another component through intervening components. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.
The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. It will be appreciated by those skilled in the art that many more modifications and variations are possible in light of the above teaching and are intended to be included within the scope of the invention.