CN213182425U - Park management system based on Internet of things - Google Patents

Abstract

The utility model relates to a garden management system based on thing networking has solved the poor technical problem of garden service experience among the prior art. The technical scheme of the disclosed subject matter discloses a park management system based on the Internet of things, which comprises a server, a distributor, a target identifier and a portable terminal, wherein the distributor, the target identifier and the target identifier are all communicated with the server, the distributor loads a distributed object and acquires target position information of the distributed object, the target position information corresponds to the target identifier one by one, the server acquires the target position information of the distributed object through the distributor, the server controls the distributor to work according to the target position information, the server acquires the real-time position of the distributor, and the server pushes the real-time position of the distributor to the portable terminal. The scheme realizes unmanned distribution by using the distributor.

Description

Park management system based on Internet of things

Technical Field

The utility model relates to a thing networking technology field especially relates to a garden management system based on thing networking.

Background

With the development of industry, the distribution of industrial parks is more and more concentrated, which causes the management of industrial parks to be more and more difficult. Such as the management of people flow in an industrial park, etc. The development of the online industry has further increased the management of people flow in industrial parks.

Among the prior art, personnel in the industry garden buy various commodity through the on-line, and the delivery personnel need personnel to get into the garden according to the address with commodity configuration to the user, this kind of delivery mode, to the comparatively concentrated garden of personnel, this kind of delivery mode greatly increased the flow of people in the garden, brought very big inconvenience for the personnel management in garden. In addition, along with the mass influx of the distribution personnel, certain damage is brought to the environment of the park, for example, certain noise is brought to frequent walking, calling and the like of the distribution personnel, and the service experience of the park is deteriorated.

SUMMERY OF THE UTILITY MODEL

The technical scheme of the disclosed subject matter discloses a park management system based on the Internet of things, and solves the technical problem that park service experience is poor in the prior art.

Some embodiments adopted to solve the above technical problems include:

the utility model provides a garden management system based on thing networking, includes server, distributor, target identifier and portable terminal, the distributor, target identifier all with the server communication, wherein, the distributor loads the delivered object and obtains the target position information of delivered object, target position information and target identifier one-to-one, the server passes through the distributor obtains the target position information of delivered object, the server is according to the work of target position information control the distributor, the server obtains the real-time position of distributor, and, the server to portable terminal propelling movement the real-time position of distributor.

The technical scheme of the disclosed subject matter discloses a park management system based on the Internet of things, which comprises a server, a distributor, a target identifier and a portable terminal, wherein the distributor, the target identifier and the target identifier are all communicated with the server, the distributor loads a distributed object and acquires target position information of the distributed object, the target position information corresponds to the target identifier one by one, the server acquires the target position information of the distributed object through the distributor, the server controls the distributor to work according to the target position information, the server acquires the real-time position of the distributor, and the server pushes the real-time position of the distributor to the portable terminal. According to the scheme, unmanned distribution is achieved by using the distributor, the server determines the target position of the distributed object by using the target identifier and the target identifier according to the target position information, distribution is achieved through the distributor, in practice, a user can obtain the real-time position of the distributor through the portable terminal, and the user can collect the distributed object conveniently.

Preferably, the dispenser comprises a dispensing vehicle, the object identifier is arranged on the dispensing vehicle, and the object identifier identifies the object identifier through the near-field communicator.

In the scheme, the target identifier is identified by the target identifier through the near-field communicator, so that the structure of the distributor is simplified, and the construction cost of the park management system is reduced.

Preferably, the dispenser further comprises a track defining a displacement trajectory of the dispensing vehicle, the dispensing vehicle is provided with a track identifier, the track identifier identifies the track trajectory and modifies the displacement trajectory of the dispensing vehicle, the track is laid on the ground, and the track is flush with the ground.

In the scheme, the arrangement of the tracks limits the moving track of the dispenser, and the displacement precision of the dispenser is improved.

Preferably, the track is provided with a position sensor, and the server identifies the real-time position of the delivery vehicle through the position sensor.

In the scheme, the configuration of the position sensor improves the position precision of the server for acquiring the real-time position of the distribution vehicle, and optimizes the performance of the park management system.

Preferably, the track is provided with a warning layer, and the warning layer and the track are of an integrated structure.

In this scheme, the configuration on warning layer can play the warning function, avoids personnel to occupy the track.

Preferably, the park management system based on the Internet of things further comprises an elevator, the elevator is communicated with the server, and the server controls the elevator to work according to the target position information and the real-time position of the distributor.

In the scheme, the server controls the elevator to work, so that the distributor can conveniently enter the elevator, the distributor can enter different floors, and the performance of the distributor is optimized.

Preferably, the dispenser is provided with an information recorder, and the information recorder comprises a manual input unit, a sensing input unit and an identifiable code scanner.

In the scheme, the information input device has multiple information input modes, the information input is flexible, and the operation experience of the information input device is optimized.

Preferably, the dispenser is provided with an alarm, the alarm is controlled by the server to work, and the alarm is an LED lamp.

In the scheme, the alarm is configured to avoid collision between a person and the distributor, so that the performance of the distributor is optimized.

Preferably, the distributor is provided with a contact charging pile, the distributor is provided with a storage battery and a battery manager, the battery manager is communicated with the server, the server controls the distributor to charge according to information collected by the battery manager, and the track defines the position of the contact charging pile.

In the scheme, the track limits the position of the contact type charging pile, the distributor does not need to be separated from the track during charging, and the performances of the distributor and the contact type charging pile are optimized.

Preferably, the dispenser is provided with a solar charger which charges the secondary battery, the solar charger including a battery panel which is disposed on a surface of the dispenser by a screw.

In the scheme, the solar charger is configured, so that the distributor has multiple charging schemes, and the performance of the distributor is optimized.

Compared with the prior art, the park management system based on the Internet of things has the following advantages:

the server, the target identifier, the distributor and the portable terminal are utilized to realize unmanned distribution, distribution personnel can complete distribution without entering the interior of the garden, the management pressure of garden personnel is reduced, and the environment of the garden is optimized because the distribution personnel do not need to enter the garden, so that the service experience of the garden is optimized.

Drawings

For purposes of explanation, several embodiments of the disclosed technology are set forth in the following figures. The following drawings are incorporated herein and constitute a part of the detailed description. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the disclosed subject technology.

Fig. 1 is a schematic illustration of the present disclosure.

Fig. 2 is a schematic view of a first orientation of the dispenser.

Fig. 3 is a schematic view of the dispenser in a second orientation.

Fig. 4 is a schematic view of the dispenser in a third orientation.

Reference numerals:

1. and (4) a server.

2. A distributor 21, an information recorder 22, an alarm 23 and a contact charging pile.

3. An object identifier.

4. An object recognizer.

5. Provided is a portable terminal.

6. A track.

7. A position sensor.

8. An elevator.

Detailed Description

The specific embodiments illustrated below are intended as descriptions of various configurations of the subject technology of the present disclosure and are not intended to represent the only configurations in which the subject technology of the present disclosure may be practiced. Specific embodiments include specific details for the purpose of providing a thorough understanding of the presently disclosed subject matter technology. It will be apparent, however, to one skilled in the art that the disclosed subject matter technology is not limited to the specific details shown herein and may be practiced without these specific details.

Referring to fig. 1, 2, 3 and 4, an internet of things-based campus management system includes a server 1, a distributor 2, an object identifier 3, an object identifier 4 and a portable terminal 5, the dispenser 2, the object identifier 3, the object identifier 4 are all in communication with the server 1, wherein the dispenser 2 loads the delivered object and acquires target position information of the delivered object, the target position information corresponds to the target identifiers 3 one to one, the server 1 acquires the target position information of the distributed objects through the distributors 2, the server 1 controls the work of the distributor 2 according to the target position information, the server 1 acquires the real-time position of the distributor 2, the server 1 pushes the real-time position of the dispenser 2 to the mobile terminal 5.

The server 1 may be a computer device based system. The server 1 is equipped with at least a processor, a memory and a communicator with communication capabilities, which fulfill the relevant communication requirements. The memory stores a computer program, and the processor implements the corresponding functions of the server 1 by executing the computer program.

The computer program may be partitioned into one or more modules/units, which are stored in the memory and executed by the processor to accomplish the technical aspects of the present disclosure. One or more modules/units may be a series of computer program instruction segments capable of performing certain functions, the instruction segments being used to describe the execution of a computer program in a computer device.

The computer device may be a desktop computer, a notebook, a palm computer, a cloud server 1, or other computing devices. The computer device may include, but is not limited to, a memory, a processor. Those skilled in the art will appreciate that the present embodiments are merely exemplary of a computing device and are not intended to limit the computing device, and may include more or fewer components, or some of the components may be combined, or different components, e.g., the computing device may also include input output devices, network access devices, buses, etc. The processor may be a Central Processing Unit (CPU), other general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware component, etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The storage may be an internal storage unit of the computer device, such as a hard disk or a memory of the computer device. The memory may also be an external storage device of the computer device, such as a plug-in hard disk provided on the computer device, a Smart Memory Card (SMC), a Secure Digital (SD) card, a flash card (FlashCard), and the like. Further, the memory may also include both internal and external storage units of the computer device. The memory is used for storing computer programs and other programs and data required by the computer device. The memory may also be used to temporarily store data that has been output or is to be output.

The dispenser 2 is provided with autonomous walking capability, and the dispenser 2 can be configured with a control unit based on a computer device. The control unit comprises at least a processor, a memory and corresponding program instructions. In practice, the processor may be a learning capable artificial intelligence processor that enables the dispenser 2 to have a more optimal autonomy to optimize the performance of the dispenser 2.

The object identifier 3 should be arranged at each unit/area of the campus, each object identifier 3 is arranged with an independently identifiable tag, and the identifiable tag is identified by the server 1. The actual position of the target identifier 3 may be preset in the server 1.

The specific scheme of the target identifier 3 is not limited, and any structure/medium that can be recognized by the target identifier 4 may be the target identifier 4.

The portable terminal 5 may be a smartphone or a tablet computer or other portable electronic device with communication capabilities.

Based on the above description, the technical solution of the disclosed subject matter is described by a specific application example. The application examples are intended to introduce the technical solutions of the present disclosure, and do not limit the technical solutions of the subject matter of the present disclosure.

Application example:

the park comprises a main door, a unit A and a unit B, and the distributed objects need to be distributed to the unit A.

Wherein separate object identifiers 3 are provided in both units a and B.

The dispensing personnel store the items to be dispensed to the dispenser 2 at the campus. At the same time, target position information is input to the dispenser 2, which is the address of the unit a or the target identifier 3 information corresponding to the unit a.

The server 1 receives the target position information and controls the displacement of the distributor 2, and the distributor 2 autonomously displaces. Also, the server 1 has a capability of acquiring an actual position of the dispenser 2.

The portable terminal 5 acquires the real-time position of the dispenser 2 through the server 1. The user in unit a views the actual position of the dispenser 2 through the portable terminal 5.

The dispenser 2 is displaced to the unit a and recognizes the object identifier 3 by the object recognizer 4, and the server 1 acquires the information and pushes the corresponding information to the portable terminal 5.

The user may also wait for the dispenser 2 to go to a designated area of unit a.

It is understood that the communication between the devices may be wireless. The communication protocol and the communication method are not limited, and refer to the prior art.

In some possible embodiments, the dispenser 2 comprises a dispensing vehicle, the object identifier 4 is arranged on the dispensing vehicle, and the object identifier 4 identifies the object identifier 3 by means of a near field communicator.

The object identifier 4 may be arranged on the dispensing vehicle by means of screws. For example, a bulge may be provided on the dispensing cart that projects out of the dispensing cart, and the bulge may be integral with the dispensing cart. The object identifier 4 may be arranged on a convex portion.

The convex portion gives the object recognizer 4 a convex characteristic, and the object recognizer 4 easily recognizes the object marker 3.

In some possible embodiments, the dispenser 2 further comprises a rail 6 defining the trajectory of displacement of the dispensing vehicle, the dispensing vehicle being provided with a rail identifier identifying the trajectory of the rail 6 and modifying the trajectory of displacement of the dispensing vehicle, the rail 6 being laid on the ground and the rail 6 being flush with the ground.

The track 6 is provided with a position sensor 7, and the server 1 identifies the real-time position of the delivery vehicle through the position sensor 7.

Track 6 disposes the warning layer, the warning layer with track 6 formula structure as an organic whole.

The track 6 is mainly used for correcting the position of the dispenser 2. For example, the track 6 may have magnetism, and an identification structure for identifying the magnetism is provided on the dispenser 2, the identification structure being in communication with a control unit for controlling the displacement of the dispenser 2, the control unit determining whether the dispenser 2 is deviated from the track 6 based on identification information of the identification structure.

In practice, other configurations of the dispenser 2 may be used to correct the position. For example, the track 6 may have optical features and a device with light sensing features may be provided on the dispenser 2 to effect correction of the position of the dispenser 2.

The displacement of the dispenser 2 along the rail 6 is not limited and can be freely configured by a person skilled in the art. The material trolley with the autonomous walking capability can also refer to the material trolley which is applied to a production workshop in the prior art.

The position sensors 7 may be arranged uniformly along the length of the rail 6. Each position sensor 7 should be configured with an independent identification feature to be identified by the server 1. The server 1 recognizes the real-time position of the dispenser 2 by the position sensor 7, and the server 1 may push corresponding information to the portable terminal 5 by collecting the recognition characteristics of the position sensor 7.

In some possible embodiments, the park management system based on the internet of things further comprises an elevator 8, the elevator 8 is communicated with the server 1, and the server 1 controls the operation of the elevator 8 according to the target position information and the real-time position of the distributor 2.

For parks with multi-storey buildings, the equipping of the elevators 8 is inevitable. Therefore, the dispensers 2 may need to be dispensed accordingly by means of the elevator 8. The elevator 8 is controlled by the server 1, which can conveniently realize that the distributor 2 borrows the elevator 8.

Specifically, an identification medium that can be identified may be disposed at the door of the elevator 8, the identification medium may be identified by the object identifier 4, and the object identifier 4 judges the state of the door through the identification medium, thereby implementing the displacement or stop of the dispenser 2 according to the state of the door. For example, when the door is opened, the dispenser 2 is displaced. When the door is closed, the dispenser 2 is stopped.

In some possible embodiments, the dispenser 2 is provided with an information recorder 21, and the information recorder 21 includes a manual input unit, a sensing input unit, and an identifiable code scanner.

The more the information input means 21 are inputted, the more flexible the information input is, and the better the operability of the corresponding dispenser 2 is.

In some possible embodiments, the dispenser 2 is provided with an alarm 22, the alarm 22 is controlled by the server 1, and the alarm 22 is an LED lamp. The alarm 22 should not be audible to avoid noise pollution.

The distributor 2 is provided with a contact type charging pile 23, the distributor 2 is provided with a storage battery and a battery manager, the battery manager is communicated with the server, the server 1 controls the distributor 2 to charge according to information collected by the battery manager, and the track 6 limits the position of the contact type charging pile 23.

The solar energy charger is arranged on the distributor 2 and charges the storage battery, and comprises a battery panel which is arranged on the surface of the distributor 2 through a screw.

While the subject matter of the present disclosure and its corresponding details have been described above, it is to be understood that the above description is only illustrative of some embodiments of the subject matter of the present disclosure and that some of the details may be omitted from the detailed description. In addition, in some embodiments disclosed above, there are no parallel alternatives to the various embodiments, and therefore, the above embodiments can be freely combined to achieve better implementation.

Other configurations of details or figures may be derived by those skilled in the art in practicing the presently disclosed subject matter, as well as figures, and it will be apparent that such details are within the scope of the presently disclosed subject matter and are covered by the presently disclosed subject matter without departing from the presently disclosed subject matter.

Claims (10)

1. The utility model provides a garden management system based on thing networking which characterized in that: comprises a server (1), a distributor (2), an object identifier (3), an object recognizer (4) and a portable terminal (5), the dispenser (2), the object identifier (3) and the object identifier (4) are all in communication with the server (1), wherein the dispenser (2) loads the object to be dispensed and acquires target position information of the object to be dispensed, the target position information corresponds to the target identifiers (3) one by one, the server (1) acquires the target position information of the distributed objects through the distributor (2), the server (1) controls the work of the distributor (2) according to the target position information, the server (1) acquires the real-time position of the dispenser (2), the server (1) pushes the real-time position of the dispenser (2) to the portable terminal (5).

2. The internet of things based campus management system of claim 1, wherein: the distributor (2) comprises a distribution vehicle, the target identifier (4) is configured on the distribution vehicle, and the target identifier (3) is identified by the target identifier (4) through a near-field communicator.

3. The internet of things based campus management system of claim 2, wherein: the dispenser (2) further comprises a track (6) defining the displacement trajectory of the dispensing vehicle, the dispensing vehicle being provided with a track identifier identifying the track (6) trajectory and modifying the displacement trajectory of the dispensing vehicle, the track (6) being laid on the ground and the track (6) being flush with the ground.

4. The internet of things based campus management system of claim 3, wherein: the rail (6) is provided with a position sensor (7), and the server (1) identifies the real-time position of the distribution vehicle through the position sensor (7).

5. The internet of things based campus management system of claim 4, wherein: the track (6) is provided with a warning layer, and the warning layer and the track (6) are of an integrated structure.

6. The internet of things based campus management system of claim 1, wherein: the park management system based on the Internet of things further comprises an elevator (8), wherein the elevator (8) is communicated with the server (1), and the server (1) controls the elevator (8) to work according to the target position information and the real-time position of the distributor (2).

7. The internet of things based campus management system of claim 1, wherein: the dispenser (2) is provided with an information recorder (21), and the information recorder (21) comprises a manual input device, a sensing input device and an identifiable code scanner.

8. The internet of things based campus management system of claim 6, wherein: the distributor (2) is provided with an alarm (22), the alarm (22) is controlled by the server (1) to work, and the alarm (22) is an LED lamp.

9. The internet of things based campus management system of claim 3, wherein: the distribution device (2) is provided with a contact type charging pile (23), the distribution device (2) is provided with a storage battery and a battery manager, the battery manager is communicated with the server, the server (1) controls the distribution device (2) to charge according to information collected by the battery manager, and the track (6) limits the position of the contact type charging pile (23).

10. The internet of things based campus management system of claim 9, wherein: the solar energy charging device is arranged on the distributor (2) and charges the storage battery, and comprises a battery panel which is arranged on the surface of the distributor (2) through a screw.

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