CN206773752U - A kind of van charging ratio management system based on Internet of Things cloud computing - Google Patents

Abstract

The utility model embodiment provides a kind of van charging ratio management system based on Internet of Things cloud computing, and the system includes：Single object cubing equipment, the three-dimensional dimension of tote product is treated for obtaining, and the single object cubing equipment connects cloud server；Compartment charging ratio measuring apparatus, the clearance spaces of vehicle are obtained for the array of ultrasonic sensors by being arranged in van；Intelligent terminal, for connecting the intelligent terminal of the compartment charging ratio measuring apparatus and cloud server；Wherein described intelligent terminal connects the compartment charging ratio measuring apparatus by bluetooth communication module, and connects cloud server by data communication module；The cloud server receive clearance spaces in the van that compartment charging ratio measuring apparatus measures and single object cubing device measuring to the volume for treating tote product, determine in van can useful load, and be pushed to the intelligent terminal.

Description

A kind of van charging ratio management system based on Internet of Things cloud computing

Technical field

It the utility model is related to field of cloud computer technology, and in particular to a kind of van dress based on Internet of Things cloud computing Load rate management system.

Background technology

Vehicle loading rate refers to that the volume of haulage vehicle loading goods accounts for the ratio of volume available, is conventionally used to indicate vehicle The utilization rate in space.Van is typically to determine how arrangement and dress by the experience of loading person in logistics transportation at present Put, thus in the prevalence of space rate rate it is bad the problem of, the carrying capacity of vehicle can not be given full play to.Existing logistics enterprise Industry is all generally to use extensive way to manage, i.e., is loaded entirely by loading the experience of worker, therefore can only rely on estimation To determine required vehicle.This extensive way to manage often causes the waste of useful load, therefore many loglstics enterprises need Want prepare more car, send a car more, cause the waste to traffic resource and oil plant.

Utility model content

The problem of for vehicle loading demand can not be predicted in advance in the prior art, what the utility model embodiment to be solved Technical problem is to propose a kind of more simple accurately van charging ratio management system based on Internet of Things cloud computing, can Standby car is determined how while loading.

In order to solve the above problems, the utility model embodiment proposes a kind of van based on Internet of Things cloud computing Charging ratio management system, including：

Single object cubing equipment, the three-dimensional dimension of tote product is treated for obtaining, and the single object volume is surveyed Measure equipment connection cloud server；

Compartment charging ratio measuring apparatus, vehicle is obtained for the array of ultrasonic sensors by being arranged in van Clearance spaces,

Intelligent terminal, for connecting the intelligent terminal of the compartment charging ratio measuring apparatus and cloud server；Wherein institute State intelligent terminal and the compartment charging ratio measuring apparatus is connected by bluetooth communication module, and cloud is connected by data communication module Hold server,

The cloud server receive clearance spaces in the van that compartment charging ratio measuring apparatus measures and Single object cubing device measuring to the volume for treating tote product, determine in van can useful load, and push To the intelligent terminal.

Wherein, the single object cubing equipment includes three ultrasonic sensors set along x, y, z axle, and Three ultrasonic sensors to the distance of coordinate vertices be x₀,y₀,z₀；By three ultrasonic sensors and it is located at coordinate Treat the distance between tote product d in summit_x、d_y、d_z；Volume V=(the x for treating tote product are calculated with this₀–d_x)×(y₀–d_y) ×(z₀–d_z)。

Wherein, the compartment charging ratio measuring apparatus includes being arranged on the array of ultrasonic sensors at the top of van, Wherein described array of ultrasonic sensors is included into the latticed multiple ultrasonic sensors for being uniformly distributed setting.

Wherein, the cloud server determines the charging ratio k of goods by below equation

Wherein i is that the ultrasonic sensor included in array of ultrasonic sensors is numbered, i=1~n；

zd₀For the interior height of van, zd_iBelow the ultrasonic sensor measured for i-th of ultrasonic sensor Goods is the distance between to the ultrasonic sensor；zx₀And zy₀For the distance between adjacent ultrasonic wave sensor.

Above-mentioned technical proposal of the present utility model has the beneficial effect that：Above-mentioned technical proposal proposes one kind and is based on Internet of Things The boxcar charging ratio management system of net cloud computing, transport quantity, the size of goods, the compartment size and loading of haulage vehicle The real-time upload server of rate, can effectively improve resource utilization.Scheme of submitting a written statement to a higher authority measures transport goods by ultrasonic sensor The length, width and height three-dimensional dimension of thing, and associated with transport odd numbers, convenient management；And article chi is measured by array of ultrasonic sensors Very little and Room utilization rate, there is the features such as measurement accuracy is high, simple to operate, measuring speed is fast.Meanwhile intelligent terminal APP Developed using Android open source systems, compatible most of main flow producer cell phone system, facilitate download to install and use；Cloud service The software of device uses open source software framework LNMP, is easily installed, disposes, extending and follow-up data mining；Supersonic sensing Device is smaller by the influence of the environment such as weather, temperature, light, and use occasion is extensive.

Brief description of the drawings

Fig. 1 is the system architecture diagram of the utility model embodiment；

Fig. 2 is the structural representation of the single object cubing equipment of the utility model embodiment；

Fig. 3 is the structural representation of the compartment charging ratio measuring apparatus of the utility model embodiment.

Embodiment

To make the technical problems to be solved in the utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing And specific embodiment is described in detail.

As shown in Figure 1, the utility model embodiment proposes a kind of van based on Internet of Things cloud computing and loaded Rate management system, including：

Single object cubing equipment, the three-dimensional dimension of tote product is treated for obtaining, and the single object volume is surveyed Measure equipment connection cloud server；

Compartment charging ratio measuring apparatus, vehicle is obtained for the array of ultrasonic sensors by being arranged in van Clearance spaces,

Intelligent terminal, for connecting the intelligent terminal of the compartment charging ratio measuring apparatus and cloud server；Wherein institute State intelligent terminal and the compartment charging ratio measuring apparatus is connected by bluetooth communication module, and cloud is connected by data communication module Hold server,

The cloud server receive clearance spaces in the van that compartment charging ratio measuring apparatus measures and Single object cubing device measuring to the volume for treating tote product, determine in van can useful load, and push To the intelligent terminal.

Wherein, the single object cubing equipment includes three ultrasonic sensors set along x, y, z axle, and Three ultrasonic sensors to the distance of coordinate vertices be x₀,y₀,z₀；By three ultrasonic sensors and it is located at coordinate Treat the distance between tote product d in summit_x、d_y、d_z；Volume V=(the x for treating tote product are calculated with this₀–d_x)×(y₀–d_y) ×(z₀–d_z)。

Wherein, the compartment charging ratio measuring apparatus includes being arranged on the array of ultrasonic sensors at the top of van, Wherein described array of ultrasonic sensors is included into the latticed multiple ultrasonic sensors for being uniformly distributed setting.

Wherein, the cloud server determines the charging ratio k of goods by below equation

Wherein i is that the ultrasonic sensor included in array of ultrasonic sensors is numbered, i=1~n；

zd₀For the interior height of van, zd_iBelow the ultrasonic sensor measured for i-th of ultrasonic sensor Goods is the distance between to the ultrasonic sensor；zx₀And zy₀For the distance between adjacent ultrasonic wave sensor.

After charging ratio k is obtained, cloud server can is according to the current charging ratio of vehicle and needs freight To plan the arrangement of haulage vehicle.

Described above is preferred embodiment of the present utility model, it is noted that for the ordinary skill of the art For personnel, on the premise of principle described in the utility model is not departed from, some improvements and modifications can also be made, these improvement The scope of protection of the utility model is also should be regarded as with retouching.

Claims (3)

1. A kind of 1. van charging ratio management system based on Internet of Things cloud computing, it is characterised in that including：

   Single object cubing equipment, the three-dimensional dimension of tote product is treated for obtaining, and the single object cubing is set Standby connection cloud server；

   Compartment charging ratio measuring apparatus, the sky of vehicle is obtained for the array of ultrasonic sensors by being arranged in van Complementary space,

   Intelligent terminal, for connecting the intelligent terminal of the compartment charging ratio measuring apparatus and cloud server；Wherein described intelligence Energy terminal connects the compartment charging ratio measuring apparatus by bluetooth communication module, and passes through data communication module and connect high in the clouds clothes Business device,

   The cloud server receives the clearance spaces and single-piece in the van that compartment charging ratio measuring apparatus measures What object volume measuring apparatus measured treats the volume of tote product, determine in van can useful load, and be pushed to institute State intelligent terminal.
2. 2. the van charging ratio management system according to claim 1 based on Internet of Things cloud computing, it is characterised in that The single object cubing equipment includes three ultrasonic sensors set along x, y, z axle, and three ultrasounds Wave sensor to the distance of coordinate vertices be x₀,y₀,z₀；By three ultrasonic sensors with waiting to load positioned at coordinate vertices The distance between article d_x、d_y、d_z；Volume V=(the x for treating tote product are calculated with this₀–d_x)×(y₀–d_y)×(z₀–d_z)。
3. 3. the van charging ratio management system according to claim 1 based on Internet of Things cloud computing, it is characterised in that The compartment charging ratio measuring apparatus includes being arranged on the array of ultrasonic sensors at the top of van, wherein the ultrasonic wave Sensor array is included into the latticed multiple ultrasonic sensors for being uniformly distributed setting.