CN113543033B - Logistics tracking device and using method - Google Patents

Abstract

The invention provides a logistics tracking device and a usage method, which relate to the field of logistics transportation. The logistics tracking device includes a storage mechanism, a cloud base station, a display mechanism and a carrying mechanism, the storage mechanism, the cloud base station and the display mechanism are connected by wireless signals, and the storage mechanism and the carrying mechanism are connected by infrared rays and carried The mechanism, the cloud base station and the display mechanism are connected through wireless signals, a storage box is arranged in the storage mechanism, and a spring is arranged in a groove at the lower end of the storage box. By setting the spring inside the storage box, the pressure of the objects on the left and right sides can be reduced. Secondly, after the objects are put into the storage box, the gas is injected under the action of the airbag and the air-blocking plug, which realizes the anti-corrosion during transportation. Secondly, through the detection system, observation system, cloud storage system and terminal receiving system, the function of real-time detection of logistics objects is realized.

Description

A logistics tracking device and method of use

technical field

The invention relates to the technical field of logistics transportation, in particular to a logistics tracking device and a usage method.

Background technique

Logistics transportation technology mainly includes two categories: transportation facilities and transportation operations. The former belongs to the hard technology of transportation, and the latter belongs to the soft technology of transportation. The hard technology of transportation mainly includes the improvement of transportation infrastructure, such as roads, railways, sea transportation, and transport vehicles, and the soft technology of transportation includes management methods, logistics technology, and the quality of logistics personnel.

The current object has the problem that it is easy to shake during the transportation process, and secondly, there is the problem that it cannot quickly respond to the display for real-time detection when an abnormal situation occurs during the transportation of the object during the logistics transportation process.

Contents of the invention

(1) Solved technical problems

Aiming at the deficiencies of the prior art, the present invention provides a logistics tracking device and its use method, which solves the problem that the object is easy to shake during transportation and the device cannot be reused. detection problem.

(2) Technical solution

In order to achieve the above objectives, the present invention is achieved through the following technical solutions: a logistics tracking device, including a storage mechanism, a cloud base station, a display mechanism and a carrying mechanism, the storage mechanism, the cloud base station and the display mechanism are connected by wireless signals, The storage mechanism and the carrying mechanism are connected by infrared rays and the carrying mechanism, the cloud base station and the display mechanism are connected by wireless signals. The storage mechanism is provided with a storage box, and the groove at the lower end of the storage box is provided with a spring and A display light is arranged outside the left end of the storage box, one end of the display light is connected to one end of the power supply and the other end of the display light is connected to the other end of the power supply through an electric wire, and one end of the electric wire is fixedly connected to the inside of the slide cover. The opening at the top of the slide cover is provided with an air-blocking plug and the opening inside the slide cover is provided with an airbag, the inside of the slide cover is provided with a controller and the bottom side of the right end of the slide cover is connected to the storage box through a sliding groove.

Preferably, a working system of a logistics tracking device includes: a detection system, an observation system, a cloud storage system, and a terminal receiving system. The inside of the detection system includes a pressure sensor module, a temperature sensor module, a humidity sensor module, a GPS positioning module, and a circuit An on-off detector, a first processor, an infrared signal transmitting module and a first signal transmitter, the pressure sensor module, temperature sensor module, humidity sensor module, GPS positioning module, and the circuit on-off detector communicate with the first processor through a transmission line and the processor is connected with the infrared signal emitting module and the first signal emitter through a transmission line.

Preferably, the observation system includes an infrared signal receiving module, a steering motor, a camera and a second signal transmitter, the infrared signal receiving module is connected to the infrared signal transmitting module through an infrared signal, and the infrared signal receiving module is connected to the infrared signal transmitting module through a transmission line The steering motors are connected and a camera is fixedly connected to the output end of the steering motor, and a second signal transmitter is arranged inside the camera.

Preferably, the cloud storage system includes a third signal transmitter, a first signal receiver and a cloud storage, and the first signal receiver is respectively connected to the first signal transmitter and the second signal transmitter through wireless signals, The first signal receiver is connected to the cloud storage through the transmission line, and the cloud storage is connected to the third signal transmitter through the transmission line.

Preferably, the terminal receiving system includes a second signal receiver, a fourth signal transmitter, a second processor and a display, and the second signal receiver communicates with the first signal transmitter and the second signal transmitter through wireless signals It is connected with the third signal transmitter, the second signal receiver is connected with the second processor through the transmission line and the second processor is connected with the display through the transmission line, and the fourth signal transmitter is arranged on the second processor And the fourth signal transmitter is connected with the first signal receiver through a wireless signal.

Preferably, the chute includes a first chute plate, a second chute plate, a third chute plate and a fourth chute plate, the lower side of the first chute plate is slidably connected to the second chute plate and The lower side of the second chute plate is slidably connected with a third chute plate, the lower side of the third chute plate is slidably connected with a fourth chute plate, the upper end of the first chute plate is fixedly connected with a slide cover, and the upper end of the first chute plate is fixedly connected with a slide cover. A storage box is fixedly connected to the lower side of the fourth chute plate.

Preferably, buckles are provided on the left side of the outer end of the storage box and the left side of the outer end of the sliding cover.

Preferably, a method for using a logistics tracking device includes the following steps:

Step 1, the first chute plate, the second chute plate, and the third chute plate in the chute open the upper slide cover of the storage box, and put the items to be transported inside;

Step 2: Slide the sliding groove again to close the storage box. At this time, the positive and negative poles of the power supply are connected to the display light with the help of the wire, and the gas is injected into the airbag through the air-tight plug and sealed;

Step 3, the pressure sensor module, temperature sensor module, humidity sensor module, GPS positioning module and circuit continuity detector in the controller inside the storage box start to operate;

Step 4: The pressure sensor module monitors the external extrusion force, the temperature sensor module monitors the external temperature, the humidity sensor module monitors the humidity, the GPS positioning module and the satellite realize the positioning effect, and the circuit continuity detector One end is connected to the wire. When the sliding cover is opened, it can have a detection effect. When each module detects abnormal data, the data is transmitted to the first processor and transmitted to the cloud through the first signal transmitter and wireless signal. The inner side of the base station and the display mechanism, and the inner side of the carrier mechanism through the infrared signal transmitting module;

Step 5: Receive the infrared signal through the infrared signal receiving module to determine the location of the abnormality, and control the steering motor to turn the camera to the abnormal position, take pictures, and transmit the information to the cloud base station and the display mechanism through the second signal transmitter;

Step 6, through the first signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and stored in the cloud storage;

Step seven, through the fourth signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and converted into an image by the second processor and displayed on the display, and the cloud storage can be transferred to the fourth signal transmitter The information within can be recalled for inspection at any time.

(3) Beneficial effects

The invention provides a logistics tracking device and a usage method. Has the following beneficial effects:

1. The present invention can reduce the pressure of objects on the left and right sides by providing a spring inside the storage box. Secondly, after putting the object into the storage box, the gas is injected under the action of the air bag and the air-closing plug. Since the air bag is Deformable, easy to fit objects, and realize the anti-shaking effect during transportation.

2. The present invention detects the pressure, temperature, humidity, and geographic location of the environment where the objects inside the storage box are located through the detection system, observation system, cloud storage system, and terminal receiving system, and can be fed back to the display in time. Secondly, through the circuit The on-off detector can monitor whether the storage box is opened, ensuring that the object is not easy to drop during transportation, and realizes the function of quickly responding to the display for real-time detection when an abnormal situation occurs during the transportation of the object.

Description of drawings

Fig. 1 is the overall flow schematic diagram of the present invention;

Figure 2 is a schematic structural view of the storage box of the present invention;

Fig. 3 is the first chute plate schematic diagram of the present invention;

Fig. 4 is the schematic diagram of detection system of the present invention;

5 is a schematic diagram of the observation system of the present invention;

Fig. 6 is a schematic diagram of the cloud storage system of the present invention;

FIG. 7 is a schematic diagram of a terminal receiving system of the present invention.

Among them, 1. storage box; 2. display light; 3. power supply; 4. electric wire; 5. air bag; 6. air blocking plug; 7. controller; ; 11, the second chute plate; 12, the third chute plate; 13, the fourth chute plate; 14, the sliding cover; 15, the storage mechanism; 16, the cloud base station; 17, the display mechanism;

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Embodiment one:

As shown in Figures 1-7, the embodiment of the present invention provides a logistics tracking device, including a storage mechanism 15, a cloud base station 16, a display mechanism 17 and a carrying mechanism 18, and the storage mechanism 15, the cloud base station 16 and the display mechanism 17 are connected by wireless The signals are connected, the storage mechanism 15 and the carrying mechanism 18 are connected by infrared rays and the carrying mechanism 18, the cloud base station 16 and the display mechanism 17 are connected by wireless signals, the storage mechanism 15 is provided with a storage box 1, and the concave storage box 1 lower end A spring 9 is arranged in the groove and a display lamp 2 is provided outside the left end of the storage box 1. One end of the display lamp 2 is connected to one end of the power supply 3 and the other end of the display lamp 2 is connected to the other end of the power supply 3 by an electric wire 4. The electric wire 4 One end is fixedly connected to the inside of the slide cover 14, the opening at the top of the slide cover 14 is provided with an air-tight plug 6 and the opening inside the slide cover 14 is provided with an air bag 5, the inside of the slide cover 14 is provided with a controller 7 and the bottom of the right end of the slide cover 14 The side is connected with the storage box 1 through a slide groove 8 . The object to be transported is placed inside the storage box 1 to prevent shaking through the air bag 5 and the spring 9 .

Detection system, observation system, cloud storage system and terminal receiving system, the inside of the detection system includes a pressure sensor module, a temperature sensor module, a humidity sensor module, a GPS positioning module, a circuit continuity detector, a first processor, an infrared signal transmitting module and The first signal transmitter, the pressure sensor module, the temperature sensor module, the humidity sensor module, the GPS positioning module, and the circuit on-off detector are connected to the first processor through the transmission line, and the processor is connected to the infrared signal transmitting module and the first signal through the transmission line. The transmitter is connected. Real-time detection of the temperature, humidity, pressure and geographical location of the object.

The observation system includes an infrared signal receiving module, a steering motor, a camera and a second signal transmitter. The infrared signal receiving module is connected to the infrared signal transmitting module through an infrared signal. The infrared signal receiving module is connected to the steering motor through a transmission line and the output of the steering motor A camera is fixedly connected to the end, and a second signal transmitter is arranged inside the camera. The situation where the abnormality occurs is photographed and transmitted to the monitor.

The cloud storage system includes a third signal transmitter, a first signal receiver and a cloud storage, the first signal receiver is respectively connected to the first signal transmitter and the second signal transmitter through wireless signals, and the first signal receiver is connected to the first signal transmitter through a transmission line It is connected with the cloud storage and the cloud storage is connected with the third signal transmitter through the transmission line. The data is stored and retained for easy viewing at any time.

The terminal receiving system includes a second signal receiver, a fourth signal transmitter, a second processor and a display, and the second signal receiver communicates with the first signal transmitter, the second signal transmitter and the third signal transmitter through wireless signals connection, the second signal receiver is connected to the second processor through the transmission line and the second processor is connected to the display through the transmission line, the second processor is provided with a fourth signal transmitter and the fourth signal transmitter is connected to the first A signal receiver is connected. The detection results are displayed in real time.

The chute 8 includes a first chute plate 10, a second chute plate 11, a third chute plate 12 and a fourth chute plate 13, the lower side of the first chute plate 10 is slidably connected with the second chute plate 11 and The lower side of the second chute plate 11 is slidably connected with the third chute plate 12, the lower side of the third chute plate 12 is slidably connected with the fourth chute plate 13, and the upper end of the first chute plate 10 is fixedly connected with a slide cover 14, The storage box 1 is fixedly connected to the lower side of the fourth chute plate 13 . The floor space can be reduced by the sliding way of lamination.

Buckles are provided on the left side of the outer end of the storage box 1 and the left side of the outer end of the sliding cover 14 . The positions of the storage box 1 and the sliding cover 14 can be fixed through the clamping holes.

Embodiment two:

An embodiment of the present invention provides a method for using a logistics tracking device, including the following steps:

Step 1, the first chute plate 10, the second chute plate 11, and the third chute plate 12 in the chute 8 open the upper end slide cover 14 of the storage box 1, and put the items to be transported inside;

Step 2, slide the sliding groove 8 again, thereby closing the storage box 1, at this time, the positive and negative poles of the power supply 3 are connected to the display lamp 2 with the help of the electric wire 4, and the gas is injected into the air bag 5 through the air-tight plug 6 and sealed;

Step 3, the pressure sensor module, temperature sensor module, humidity sensor module, GPS positioning module and circuit continuity detector in the controller 7 inside the storage box 1 start to operate;

Step 4: The pressure sensor module monitors the external extrusion force, the temperature sensor module monitors the external temperature, the humidity sensor module monitors the humidity, the GPS positioning module and the satellite realize the positioning effect, and the circuit continuity detector One end is connected to the wire 4. When the slide cover 14 is opened, it can have a detection effect. When each module detects abnormal data, the data is transmitted to the first processor and transmitted through the first signal transmitter and wireless signal Go to the inside of the cloud base station 16 and the display mechanism 17, and transmit the inside of the carrying mechanism 18 through the infrared signal transmitting module;

Step 5, receive the infrared signal through the infrared signal receiving module to determine the abnormal position, and control the steering motor to turn the camera to the abnormal position, take pictures, and transmit the information to the cloud base station 16 and the display mechanism 17 through the second signal transmitter;

Step 6, through the first signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and stored in the cloud storage;

Step seven, through the fourth signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and converted into an image by the second processor and displayed on the display, and the cloud storage can be transferred to the fourth signal transmitter The information within can be recalled for inspection at any time.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (5)

1. A logistics tracking device, comprising a storage mechanism (15), a cloud base station (16), a display mechanism (17) and a carrying mechanism (18), characterized in that: the storage mechanism (15), the cloud base station (16) It is connected with the display mechanism (17) through wireless signals, the storage mechanism (15) and the carrying mechanism (18) are connected through infrared rays, and the carrying mechanism (18), the cloud base station (16) and the display mechanism (17) pass through The wireless signal is connected, the storage mechanism (15) is provided with a storage box (1), the groove at the lower end of the storage box (1) is provided with a spring (9) and the outside of the left end of the storage box (1) is provided with a display lamp (2), one end of the display lamp (2) is connected to one end of the power supply (3) and the other end of the display lamp (2) is connected to the other end of the power supply (3) through a wire (4), and the wire One end of (4) is fixedly connected to the inner side of the sliding cover (14), the opening at the top of the sliding cover (14) is provided with an air blocking plug (6) and the opening inside the sliding cover (14) is provided with an airbag (5), The inside of the slide cover (14) is provided with a controller (7), and the bottom side of the right end of the slide cover (14) is connected to the storage box (1) through a slide groove (8); The chute (8) includes a first chute plate (10), a second chute plate (11), a third chute plate (12) and a fourth chute plate (13), the first chute The lower side of the plate (10) is slidably connected with the second chute plate (11) and the lower side of the second chute plate (11) is slidably connected with the third chute plate (12), and the third chute plate (12) The lower side is slidingly connected with the fourth chute plate (13), the upper end of the first chute plate (10) is fixedly connected with the sliding cover (14), and the lower side of the fourth chute plate (13) is fixedly connected with the storage box(1); The working system of the logistics tracking device includes: a detection system, an observation system, a cloud storage system, and a terminal receiving system. The first processor, the infrared signal transmitting module and the first signal transmitter, the pressure sensor module, the temperature sensor module, the humidity sensor module, the GPS positioning module, the circuit on-off detector are connected to the first processor through the transmission line and processed The transmitter is connected with the infrared signal transmitting module and the first signal transmitter through a transmission line; The method for using the logistics tracking device includes the following steps: Step 1, the first chute plate (10), the second chute plate (11) and the third chute plate (12) in the chute (8) open the upper slide cover (14) of the storage box (1) , put the items to be transported inside; Step 2, slide the sliding groove (8) again to close the storage box (1), at this time, the positive and negative poles of the power supply (3) are connected to the display light (2) with the help of the wire (4), and then pass through the air-tight plug ( 6) Inject gas into the air bag (5) and seal it; Step 3, the pressure sensor module, temperature sensor module, humidity sensor module, GPS positioning module and circuit continuity detector in the controller (7) inside the storage box (1) start to operate; Step 4: The pressure sensor module monitors the external extrusion force, the temperature sensor module monitors the external temperature, the humidity sensor module monitors the humidity, the GPS positioning module and the satellite realize the positioning effect, and the circuit continuity detector One end is connected to the wire (4), and when the sliding cover (14) is opened, it can have a detection effect, and when each module detects abnormal data, the data is transmitted to the first processor and passed through the first signal transmitter and The wireless signal is transmitted to the inside of the cloud base station (16) and the display mechanism (17), and is transmitted to the inside of the carrying mechanism (18) through the infrared signal transmitting module; Step five, receive the infrared signal through the infrared signal receiving module to determine the location of the abnormality, and control the steering motor to turn the camera to the abnormal position, take pictures, and transmit the information to the cloud base station (16) and the display mechanism ( 17) inside; Step 6, through the first signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and stored in the cloud storage; Step seven, through the fourth signal receiver, the signals of the first signal transmitter and the second signal transmitter can be received and converted into an image by the second processor and displayed on the display, and the cloud storage can be transferred to the fourth signal transmitter The information within can be recalled for inspection at any time. 2. A kind of logistics tracking device according to claim 1, characterized in that: the observation system includes an infrared signal receiving module, a steering motor, a camera and a second signal transmitter, and the infrared signal receiving module communicates with the infrared signal through the infrared signal The infrared signal transmitting module is connected, the infrared signal receiving module is connected with the steering motor through a transmission line and the output end of the steering motor is fixedly connected with a camera, and a second signal transmitter is arranged inside the camera. 3. A logistics tracking device according to claim 1, wherein the cloud storage system includes a third signal transmitter, a first signal receiver and a cloud storage, and the first signal receiver passes a wireless signal They are respectively connected to the first signal transmitter and the second signal transmitter, the first signal receiver is connected to the cloud storage through the transmission line, and the cloud storage is connected to the third signal transmitter through the transmission line. 4. A logistics tracking device according to claim 1, characterized in that: said terminal receiving system comprises a second signal receiver, a fourth signal transmitter, a second processor and a display, said second signal receiving The transmitter is connected with the first signal transmitter, the second signal transmitter and the third signal transmitter through wireless signals, the second signal receiver is connected with the second processor through the transmission line, and the second processor is connected with the display through the transmission line The second processor is provided with a fourth signal transmitter, and the fourth signal transmitter is connected to the first signal receiver through a wireless signal. 5. The logistics tracking device according to claim 1, characterized in that: the left side of the outer end of the storage box (1) and the left side of the outer end of the sliding cover (14) are provided with buckles.

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