WO2021082615A1

WO2021082615A1 - Vehicle-mounted logistics monitor based on internet of things

Info

Publication number: WO2021082615A1
Application number: PCT/CN2020/108545
Authority: WO
Inventors: 段亮亮; 陆蕴倩; 许敏亚
Original assignee: 苏州江左盟网络科技有限公司
Priority date: 2019-11-01
Filing date: 2020-08-12
Publication date: 2021-05-06
Also published as: DE202020106334U1; CN110706375A

Abstract

A vehicle-mounted logistics monitor based on an Internet of Things, comprising a monitor main body (1), a rainproof cover (2), a vehicle-mounted fixing plate (3) used for fixing a monitor on a vehicle, and a power line (41); a monitoring mechanism (5) is placed inside the monitor main body (1), and comprises a high-definition camera (51), a scanner (52), and an induction radar (53); a laser transmitter (521) and a bar code scanner (522) are disposed in front of the scanner (52); a laser reflecting plate (523) is disposed in front of the monitor main body (1), and the laser reflecting plate (523) is embedded in a reflecting plate embedding frame (14) on the monitor main body (1) by means of a clamping groove; a camera lens hole (13) is formed in the upper portion of the reflecting plate embedding frame (14); a side protection plate (12) is detachably positioned and disposed on each of two sides of the monitor main body (1); the rainproof cover (2) is fixedly disposed on a top protection plate of the monitor main body (1); the vehicle-mounted fixing plate (3) is fixedly connected to the back of the monitor main body (1), the monitor main body (1) is fixed on the vehicle, logistics information is acquired on the vehicle in real time, monitoring and management are carried out by utilizing the Internet of things, the application range is wide, and the operation and use are convenient.

Description

On-board logistics monitor based on the Internet of Things

Technical field

The invention belongs to the technical field of logistics monitoring, and is specifically a vehicle-mounted logistics monitor based on the Internet of Things.

Background technique

In recent years, the logistics industry has developed rapidly, and my country's logistics infrastructure and equipment conditions have been greatly developed and improved. However, logistics companies with low operating levels still have products out of stock, loss of orders, cargo damage, and cargo leakage. The original meaning of logistics is "physical distribution" or "goods distribution." China's logistics terminology standard defines logistics as: logistics is the physical flow of goods from the place of supply to the receiving place. According to actual needs, the transportation, storage, loading and unloading, Handling, packaging, circulation processing, distribution, information processing and other functions are organically combined to realize the process of user requirements. Logistics is centered on warehousing to promote production and market synchronization. Logistics management refers to the physical flow of material data in the social production process. The law of logistics, applying the basic principles and scientific methods of management, planning, organizing, commanding, coordinating, controlling and supervising logistics activities, so as to achieve the best coordination and cooperation of various logistics activities, in order to reduce logistics costs and improve logistics efficiency and Economic benefits, modern logistics management is based on system theory, information theory and cybernetics. With the gradual improvement of the level of technology, scanners have been widely used in the logistics industry. At present, when the existing scanners are in use, the scanners need to be operated manually. When the objects are large and large, they will Increased manual labor and difficulty of operation bring inconvenience to the use of scanners, and scanners are less intelligent, unable to accurately record the logistics status and cargo warehousing status in real time, and cannot perform real-time monitoring and management.

Summary of the invention

The main technical problem solved by the present invention is to provide a vehicle-mounted logistics monitor based on the Internet of Things, which is fixed on the vehicle with a fixed board, uses a laser scanner and a high-definition camera to collect logistics information in real time, and uses the Internet of Things to monitor and manage , Wide application range, convenient operation and use.

In order to solve the above technical problems, a technical solution adopted by the present invention is: a vehicle-mounted logistics monitor based on the Internet of Things, including a monitor body, a rain cover, a vehicle-mounted fixing plate for fixing the monitor on the vehicle, and a power cord Characterized in that the monitoring mechanism is arranged inside the main body of the monitor, the monitoring mechanism includes a high-definition camera, a scanner and an induction radar, the outer surface of the high-definition camera is provided with a circular glass cover, the high-definition camera A high-definition camera is arranged inside; a laser transmitter and a barcode scanner are arranged in front of the scanner; a laser reflector is arranged in front of the monitor body, and the laser reflector is embedded in the monitor body through a card slot The reflector inlay frame; there is a camera lens hole above the reflector inlay frame, an LED light strip is arranged on the camera lens hole, and a light sensor is arranged above the LED light strip; the two sides of the main body of the monitor are respectively The detachable positioning is provided with a side protective shield; the rain cover is fixed on the top protective plate of the monitor body; the vehicle-mounted fixing plate is fixedly connected to the back of the monitor body.

Furthermore, the output end of the vehicle battery is connected to the input end of the light sensor through a power line, and the output end of the light sensor is connected to the input end of the LED light strip; the output end of the vehicle battery is connected to the input end of the light sensor through the power line. The input end of the induction radar is connected, the output end of the induction radar is connected to the input end of the high-definition camera; the output end of the induction radar is connected to the input end of a laser transmitter, and the output end of the laser transmitter is connected to the input end of the laser transmitter. The input end of the barcode scanner is connected; the output end of the high-definition camera and the output end of the barcode scanner are respectively connected to the input end of the image processor; the output end of the image processor is connected to the input end of the IOT network module , The output terminal of the IOT network module is connected with the input terminal of the control center terminal.

Furthermore, the rainproof cover is an inclined structure with a middle line height and low sides, which can effectively prevent rain and drainage and protect the main body of the monitor.

Furthermore, the side protection plate and the top protection plate are provided with heat dissipation grilles, which can effectively dissipate heat and prevent the monitoring mechanism from being damaged by excessive temperature.

Furthermore, the light sensor and the LED light strip are connected to the main body of the monitor through a card slot, and there are several LED lights on the LED light strip. When the surrounding light source is insufficient, the light is supplemented.

The monitoring mechanism is fixed in the main body of the monitor through a screw connection.

The beneficial effects of the present invention have at least the following points:

1. The vehicle-mounted logistics monitor based on the Internet of Things of the present invention includes four parts: a monitor body, a rain cover, a vehicle fixing plate, and a power cord. It is easy to assemble, and the monitor body is a detachable structure, and the parts are easy to repair.

2. The vehicle-mounted logistics monitor based on the Internet of Things of the present invention is installed on the inner side of the car door, and there is no need to hold it when using it. The barcode of the goods can be directly pointed to the scanning area of the monitor to automatically scan. When loading and unloading, The goods will pass through the monitor to avoid the omission of the goods, thereby realizing real-time recording and supervision, and convenient to use. The present invention is directly connected to the control center terminal through the network, data transmission is timely, and the recording is accurate.

Description of the drawings

Figure 1 is a schematic diagram of the assembly structure of the present invention;

Figure 2 is a schematic diagram of the main body of the monitor and the fixing plate of the present invention;

Figure 3 is a schematic diagram of the monitoring mechanism of the present invention;

Figure 4 is a schematic diagram of the fixing plate of the present invention;

Figure 5 is a schematic diagram of the monitoring process of the present invention;

The parts in the drawings are marked as follows:

Monitor body 1, top protection board 11, side protection board 12, camera lens hole 13, reflector inlay frame 14, heat dissipation grill 15, rain cover 2, vehicle mounting plate 3, vehicle battery 4, power cord 41, Monitoring mechanism 5, high-definition camera 51, round glass cover 511, high-definition camera 512, scanner 52, laser transmitter 521, barcode scanner 522, laser reflector 523, induction radar 53, LED light strip 6, LED light 61 , Light sensor 7, image processor 8, IOT network module 9, control center terminal 10.

Detailed ways

The preferred embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, so that the protection scope of the present invention can be more clearly defined.

This embodiment: a vehicle-mounted logistics monitor based on the Internet of Things, including a monitor body 1, a rain cover 2, a vehicle-mounted fixing plate 3 for fixing the monitor on the vehicle, and a power cord 41; it is characterized in that: A monitoring mechanism 5 is arranged inside the main body of the monitor. The monitoring mechanism includes a high-definition camera 51, a scanner 52, and an induction radar 53. The outer surface of the high-definition camera is provided with a circular glass cover 511. The interior of the high-definition camera A high-definition camera 512 is provided; a laser transmitter 521 and a barcode scanner 522 are provided in front of the scanner; a laser reflector 523 is provided in front of the main body of the monitor, and the laser reflector is embedded in the monitor through a card slot. At the reflector inlay frame (14) on the main body of the device; there is a camera lens hole 13 above the reflector inlay frame, an LED light strip 6 is arranged on the camera lens hole, and a light sensor 7 is arranged above the LED light strip The two sides of the main body of the monitor are respectively detachably positioned with a side protective shield 12; the rain cover is fixed on the top protective plate 11 of the main body of the monitor; the vehicle-mounted fixing plate is fixedly connected to the monitor The back of the main body.

The output end of the vehicle battery 4 is connected to the input end of the light sensor through a power line, and the output end of the light sensor is connected to the input end of the LED light strip; the output end of the vehicle battery is connected to the induction radar through the power line The input end of the induction radar is connected to the input end of the high-definition camera; the output end of the induction radar is connected to the input end of a laser transmitter, and the output end of the laser transmitter is connected to the barcode scanner The input end of the high-definition camera and the output end of the barcode scanner are respectively connected to the input end of the image processor 8; the output end of the image processor is connected to the input end of the IOT network module 9, The output end of the IOT network module is connected to the input end of the control center terminal 10.

The rainproof cover is an inclined structure with a middle line height and low sides, which can effectively prevent rain and drain water and protect the main body of the monitor.

The side protection board and the top protection board are provided with a heat dissipation grid 15 to effectively dissipate heat and prevent the monitoring mechanism from being damaged by excessive temperature.

The light sensor and the LED light strip are connected to the main body of the monitor through a card slot, and there are several LED lights 61 on the LED light strip. When the surrounding light source is insufficient, the light is supplemented.

The working principle of the present invention is as follows:

When in use, the vehicle-mounted logistics monitor is fixed on the inner side of the rear door of the carriage. Before fixing, adjust the height of the vehicle logistics monitor so that it corresponds to the height of the cargo during loading and unloading, which is convenient for camera and scanning. After installation, connect the vehicle battery with a wire and it can be put into use. The main body of the monitor is a vehicle battery The method of energy supply is to provide electrical energy to each component for operation through its power cord. An induction radar is installed inside the monitor body. When the goods pass in front of the monitor body, the induction radar will sense it and turn on the high-definition camera for shooting. At the same time, the sensor radar will turn on the scanner, the laser transmitter emits laser light through the reflector to expand the scanning range, the barcode scanner processes the scanned cargo barcode, and the high-definition camera and scanner scan the results of the image processor for data After processing, the captured image information is transferred to the computer of the control center through the IOT network, so that it can be recorded in time; the main body of the monitor is equipped with a light sensor and an LED light strip, through which the light sensor can sense the external The brightness of the light changes. At night or when the light is too dark, the LED light strip is turned on in time to illuminate, which is also convenient for taking pictures of goods at night.

The above are only the embodiments of the present invention and do not limit the scope of the present invention. Any equivalent structural transformations made by using the contents of the description and drawings of the present invention, or directly or indirectly applied to other related technical fields, are the same. The rationale is included in the scope of patent protection of the present invention.

Claims

A vehicle-mounted logistics monitor based on the Internet of Things, including a monitor body (1), a rain cover (2), a vehicle-mounted fixing plate (3) and a power cord (41) for fixing the monitor on the vehicle; its characteristics It is provided that a monitoring mechanism (5) is arranged inside the main body of the monitor, and the monitoring mechanism includes a high-definition camera (51), a scanner (52) and an induction radar (53), and the outer surface of the high-definition camera is provided with A round glass cover (511), a high-definition camera (512) is arranged inside the high-definition camera; a laser transmitter (521) and a barcode scanner (522) are arranged in front of the scanner; the main body of the monitor A laser reflector (523) is installed in the front, and the laser reflector is inlaid at the reflector mounting frame (14) on the monitor body through a card slot; there is a camera lens hole (13) above the reflector mounting frame, so An LED light strip (6) is arranged on the camera lens hole, and a light sensor (7) is arranged above the LED light strip; a side protection guard (12) is detachably positioned on both sides of the main body of the monitor. ); The rain cover is fixed on the top protection plate (11) of the monitor body; the vehicle-mounted fixing plate is fixedly connected to the back of the monitor body.
The vehicle logistics monitor based on the Internet of Things according to claim 1, characterized in that: the output end of the vehicle battery (4) is connected to the input end of the light sensor through a power cord, and the output end of the light sensor is connected to the LED The input end of the light strip is connected; the output end of the vehicle battery is connected to the input end of the induction radar through a power cord, and the output end of the induction radar is connected to the input end of the high-definition camera; the output end of the induction radar is connected to The input end of the laser transmitter is connected, and the output end of the laser transmitter is connected to the input end of the barcode scanner; the output end of the high-definition camera and the output end of the barcode scanner are respectively connected to the image processor (8 ) Is connected to the input terminal; the output terminal of the image processor is connected to the input terminal of the IOT network module (9), and the output terminal of the IOT network module is connected to the input terminal of the control center terminal (10).
The vehicle-mounted logistics monitor based on the Internet of Things according to claim 1, characterized in that: the rain cover is an inclined structure with a middle line height and low sides.
The vehicle-mounted logistics monitor based on the Internet of Things according to claim 1, characterized in that: the side protection board and the top protection board are provided with a heat dissipation grid (15).
The vehicle-mounted logistics monitor based on the Internet of Things according to claim 1, characterized in that: the light sensor and the LED light strip are connected to the main body of the monitor through a card slot, and there are several LED lights on the LED light strip (61).
The vehicle-mounted logistics monitor based on the Internet of Things according to claim 1, wherein the monitoring mechanism is fixed in the monitor body through a screw connection.