CN211181010U - Positioning label - Google Patents

Abstract

The utility model relates to a location label, this location label includes: the connecting piece is used for wearing the positioning tag on a positioning object; the label body is connected with the connecting piece; a microprocessor encapsulated within the tag body; the communication module is encapsulated in the tag body, connected with the microprocessor and communicated with the positioning equipment; the attitude sensor is encapsulated in the label body and is connected with the microprocessor; the alarm unit is encapsulated in the label body and is connected with the microprocessor; and the power supply is packaged in the label body and is connected with the microprocessor. The positioning tag is provided with the attitude sensor and the alarm unit which are connected with the microprocessor, so that a person or equipment wearing the positioning tag can send an alarm by using the alarm unit under the condition that the attitude is abnormal, a user can find the abnormal attitude condition of the person or equipment wearing the positioning tag through the alarm at the first time, and the user is prompted to timely process the abnormal attitude condition so as to reduce loss.

Description

Positioning label

Technical Field

The utility model relates to a label technical field especially relates to a location label.

Background

The positioning tag is an electronic device capable of positioning. The positioning label has a wide application range and can be used for positioning people or articles. If in the electric power production field, fix the location label on personnel or equipment, can track personnel and the position of equipment, discover in time unusually and handle.

Generally, a positioning tag is applied to a person or equipment of which a user is interested to locate the person or equipment in real time, so that the user can know position information of the person or equipment wearing the positioning tag through the positioning tag. Naturally, the object used by the positioning tag has a high value for the user, and people or equipment wearing the positioning tag have accidents, and if the accidents cannot be found in time, the accidents will bring great loss to the user.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a positioning tag to solve the problem of single function of the positioning tag.

A positioning tag, comprising:

the connecting piece is used for wearing the positioning tag on a positioning object;

the label body is connected with the connecting piece;

a microprocessor encapsulated within the tag body;

the communication module is encapsulated in the tag body, connected with the microprocessor and communicated with the positioning equipment;

the attitude sensor is packaged in the tag body and is connected with the microprocessor;

the alarm unit is encapsulated in the label body and is connected with the microprocessor; and

and the power supply is packaged in the label body and is connected with the microprocessor.

In one embodiment, the attitude sensor includes at least one of an acceleration sensor and a multi-axis sensor.

In one embodiment, the tag further comprises a charging module which is packaged in the tag body and connected with the power supply.

In one embodiment, the communication module employs at least one of UWB, bluetooth, WIFI, RFID, and GPS communication modules.

In one embodiment, the charging module is at least one of a wireless charging module or a wired charging module.

In one embodiment, the wired charging module is a USB charging module.

In one embodiment, the connecting member is at least one of a rope, a buckle and a magic tape.

In one embodiment, the locator tag further comprises a height sensor disposed within the tag body and coupled to the microprocessor.

In one embodiment, the alarm unit is an audible and visual alarm.

In one embodiment, the power supply comprises a battery and a low power consumption control circuit connected with the battery.

According to the positioning tag, the attitude sensor and the alarm unit which are connected with the microprocessor are arranged in the positioning tag, the attitude of the positioning tag is monitored by the attitude sensor, and an alarm is given out by the alarm unit when the attitude is abnormal. Therefore, when the posture of the person or equipment wearing the positioning tag is abnormal, the alarm unit can be used for giving an alarm, so that the user can find the abnormal posture condition of the person or equipment wearing the positioning tag through the alarm at the first time, and the user is prompted to timely handle the abnormal posture condition to reduce the loss.

Drawings

Fig. 1 is a schematic structural diagram of a positioning tag according to an embodiment.

Detailed Description

As shown in fig. 1, a positioning tag 100 includes: the positioning tag comprises a connecting piece 102 used for wearing the positioning tag on a positioning object, a tag body 104 connected with the connecting piece 102, a microprocessor 108 packaged in the tag body 104, a communication module 106 packaged in the tag body 104, connected with the microprocessor 108 and communicated with the positioning device 200, an attitude sensor 112 packaged in the tag body 104 and connected with the microprocessor 108, an alarm unit 114 packaged in the tag body 104 and connected with the microprocessor 108, and a power supply 110 packaged in the tag body 104 and connected with the microprocessor 108.

The connecting piece 102 shown in fig. 1 is an example of a connecting piece that can be conveniently worn on a positioning object, and in practical applications, the connecting piece 102 can be designed according to an actual positioning object, for example, the connecting piece can be a rope, a bolt, a buckle, a magic tape, etc., and the tag body 104 is connected with the connecting piece 102, so that the positioning tag 100 can be conveniently worn on the positioning object. The application of the positioning tag is very wide in applicable objects, and the positioning objects can be people or articles. Through wearing the location label in the location object through the connecting piece, can realize fixing a position the location object.

The tag body 104 is the housing in which the tag is located and the electronics are enclosed within the housing. The electronic components housed within the tag body 104 include a communication module 106, a microprocessor 108, a power supply 110, an alarm unit 114, and an attitude sensor 112. A power supply 110 is coupled to the microprocessor 108 to provide power to the various electronic devices.

The microprocessor 108 is an existing chip, and the chip provides an interface to connect with the communication module 106, the power supply 110, the alarm unit 114, and the attitude sensor 112. For example, the communication module 106 and the attitude sensor 112 are connected to a Serial Peripheral Interface (SPI) of the microprocessor 108.

The communication module 106 is in communication connection with the positioning device 200 to realize positioning. In one embodiment, the positioning apparatus 200 is a positioning base station. Specifically, the positioning tag sends a signal once to the outside, all positioning base stations within the wireless coverage area of the tag receive the wireless signal, the distances between the positioning tag and different positioning base stations are different, and the time nodes at which different positioning base stations receive the same tag signal are different, so that a "time difference of arrival" is obtained. The time difference of the signals received by the base stations is used for determining the position of the positioning tag. The communication module communicates with the positioning base station to determine positioning is a mature technology, and details are not described here. The application realizes positioning by using the existing communication module. The communication module may adopt at least one of UWB (ultra wide Band), bluetooth, WIFI, RFID (Radio Frequency Identification) or GPS communication module.

Preferably, communication module adopts UWB communication module, and the UWB location has positioning accuracy height, and the consumption is little, does not make the advantage that the interference ability is strong, and sub-meter level can be accomplished to its positioning accuracy, through wearing or installing the location label, can realize accurate positioning such as indoor outer animal, personnel, all kinds of device apparatus. The label is suitable for accurate positioning and monitoring of personnel and articles in places such as electric power, petrochemical industry, rail transit, mineral products, factories and the like.

The attitude sensor 104 is connected to the microprocessor 108 through a serial peripheral interface of the microprocessor 108. The attitude sensor 104 collects attitude information of the positioning tag, and the microprocessor 108 transmits the attitude information collected by the attitude sensor 104 to the positioning base station 200 through the communication module 106, and transmits the attitude information to the application server 300 through the positioning base station 200.

The attitude sensor 104 can adopt an existing device, and the attitude anomaly monitoring of the positioning tag is realized by installing the attitude sensor in the positioning tag. The attitude sensor 104 collects attitude data differently depending on the device used. For example, the attitude sensor can adopt an inclination angle sensor to acquire the inclination angle of the positioning label. For another example, the attitude sensor may employ an acceleration sensor or a multi-axis sensor to acquire acceleration data of the positioning tag.

The application server 300 is a server for managing the position tags, the posture information is sent to the application server 300, and the application server 300 processes the posture information and monitors the posture of the position tags according to the posture information. When the positioning tag posture is monitored to be abnormal, an alarm signal is sent to the communication module 106 through the positioning device 200, the microprocessor 108 receives the alarm signal of the application server 300, and the alarm unit 114 is controlled to give an alarm. Wherein, the alarm unit 114 can be an audible and visual alarm, and the alarm unit 114 responds to the control of the microprocessor 108 to emit audible and visual alarm.

Specifically, the application server 300 monitors the posture of the position tag according to the posture information, and may use an existing algorithm, for example, compare the data collected by the posture sensor with a threshold value to determine the posture of the position tag. The method specifically comprises the following steps: when the acceleration value is greater than the threshold value, the positioning tag can be judged to be in the falling posture. When the inclination angle is larger than the preset value, the positioning tag can be judged to be in the inclined posture. When the positioning tag is monitored to be in the inclined posture and the falling posture, the application server 300 sends an alarm signal to the positioning tag. The microprocessor 108 receives the alarm signal from the application server 300 and controls the alarm unit 114 to issue an alarm.

According to the positioning tag, the attitude sensor and the alarm unit which are connected with the microprocessor are arranged in the positioning tag, the attitude of the positioning tag is monitored by the attitude sensor, and an alarm is given out by the alarm unit when the attitude is abnormal. Therefore, when the posture of the person or equipment wearing the positioning tag is abnormal, the alarm unit can be used for giving an alarm, so that the user can find the abnormal posture condition of the person or equipment wearing the positioning tag through the alarm at the first time, and the user is prompted to timely handle the abnormal posture condition to reduce the loss.

In another embodiment, the attitude sensor includes at least one of an acceleration sensor and a multi-axis sensor. By analyzing the attitude data acquired by the attitude sensor by using the application server, the application server sends an alarm to the positioning tag when monitoring the abnormity. Specifically, the application server sends the information to the microprocessor of the positioning label through the communication module, and the microprocessor controls the alarm unit to give an alarm. The positioning tag in use is worn on the positioning object, and the posture of the positioning object is identified and judged through the posture of the positioning tag, so that the application server can identify the abnormal state of the positioning object conveniently, and give an alarm or a correction prompt when the abnormality is monitored.

Taking an acceleration sensor as an example, the acceleration sensor is a sensor capable of measuring acceleration. The damper is generally composed of a mass block, a damper, an elastic element, a sensitive element, an adjusting circuit and the like. In the acceleration process, the sensor obtains an acceleration value by measuring the inertial force borne by the mass block and utilizing Newton's second law. By utilizing the acceleration sensor, when an object is positioned, such as a person or an object falls in the high altitude, the alarm module of the positioning label gives an alarm, and field management personnel can timely process the alarm, so that consequences and loss caused by incapability of timely finding and disposing can be avoided.

In another embodiment, the positioning tag further comprises a height sensor 118 disposed within the tag body 104 and coupled to the microprocessor 108. The positioning tag is combined with a traditional positioning technology, such as a UWB (ultra Wide band) positioning technology, by utilizing height data acquired by the height sensor, so that positioning (equivalent to three-dimensional positioning) of a person or an object is realized, and the positioning precision is more accurate.

In another embodiment, continuing to refer to fig. 1, the tag further includes a charging module 116 enclosed within the tag body 104 and connected to a power supply. The power supply 110 may be a lithium battery, and the charging module 116 can charge the power supply 110 to implement the reuse of the positioning tag.

Specifically, the power supply includes a battery and a low power consumption control circuit connected to the battery. The low power consumption control circuit is connected with the microprocessor. And the microprocessor controls the low-power consumption control circuit according to the data acquired by the attitude sensor. Specifically, when the acquired attitude data, such as the acceleration value, is higher than the threshold value, the acceleration sensor outputs a trigger signal to wake up the positioning tag and periodically sends out self information. When the acceleration value is lower than the threshold value, the positioning tag enters a low power consumption mode, the microprocessor controls the low power consumption control circuit to work, the power supply of an unrelated circuit is turned off, monitoring is continued, and low power consumption is achieved.

Specifically, the charging module 116 may be at least one of a wireless charging module or a wired charging module. The wired charging module may be a USB charging module, and specifically, the USB charging module is a USB interface. The USB charging module is specially used for an external power supply of a charger. The wireless charging module is specially used for supplying power by using commercial power. The wireless charging module and the USB charging module work in a wireless power supply priority mode to ensure that the mains supply is used preferentially. The wireless charging removes a physical connecting wire during charging, so that the charging site is more orderly, and the USB charging interface supports the use of a temporary power supply for charging the electronic tag, so that the electronic tag can still work by using an external temporary power supply when the electric quantity is low.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A positioning tag, comprising:

the connecting piece is used for wearing the positioning tag on a positioning object;

the label body is connected with the connecting piece;

a microprocessor encapsulated within the tag body;

the communication module is encapsulated in the tag body, connected with the microprocessor and communicated with the positioning equipment;

the attitude sensor is packaged in the tag body and is connected with the microprocessor;

the alarm unit is encapsulated in the label body and is connected with the microprocessor; and

and the power supply is packaged in the label body and is connected with the microprocessor.

2. The location tag of claim 1, wherein the attitude sensor comprises at least one of an acceleration sensor and a multi-axis sensor.

3. The location tag of claim 1, further comprising a charging module enclosed within the tag body and coupled to the power supply.

4. The location tag of claim 1, wherein the communication module employs at least one of a UWB, bluetooth, WIFI, RFID, and GPS communication module.

5. The location tag of claim 3, wherein the charging module is at least one of a wireless charging module and a wired charging module.

6. The location tag of claim 5, wherein the wired charging module is a USB charging module.

7. The positioning tag of claim 1, wherein the connector is at least one of a string, a snap, and a velcro.

8. The locator tag of claim 1, further comprising a height sensor disposed within the tag body and coupled to the microprocessor.

9. The location tag of claim 1, wherein the alarm unit is an audible and visual alarm.

10. The location tag of claim 1, wherein the power supply comprises a battery and a low power control circuit coupled to the battery.

Images