CN113936497B - Park industry communication system based on block chain service - Google Patents

Abstract

The invention discloses a park industry communication system based on block chain service, which comprises a sentry box entering management module, a parking management module, a communication transmission module, an elevator timing control module and a binding mobile phone end, and is characterized in that: the communication transmission module is used for carrying out communication service on parking and elevators in a park and binding a mobile phone end to form a park communication system network, the sentry box entering management module is used for registering and identifying and managing information of vehicles entering the park, the parking management module is used for searching an optimal parking space for the vehicles entering the park and carrying out navigation indication management, the elevator timing control module is used for calculating elevator time and controlling elevator switch keys, and the binding mobile phone end is used for individuals to check preferable elevator time timing at the mobile phone end, so that time can be reasonably arranged.

Description

Park industry communication system based on block chain service

Technical Field

The invention relates to the technical field of communication management, in particular to a park industry communication system based on a block chain service.

Background

In the existing park industry, office buildings are numerous, the residence rate of office units is generally higher, thereby causing the disorder of ground and underground parking, enabling park workers to spend a large amount of time to find parking spaces after entering the park, after parking is completed, the workers cannot timely press the elevator, press the elevator when the workers need to arrive at the elevator, spend time to wait for the elevator, cause a large amount of time waste before working, and the existing park foreign vehicles can enter and exit randomly, further influence the internal order of the park, and do not have park communication system networks to carry out specialized management. Therefore, it is necessary to design a communication system for a campus industry based on a blockchain service, which has high security and can improve time utilization.

Disclosure of Invention

The present invention is directed to a system for communication in a campus industry based on blockchain services, which solves the above-mentioned problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a garden industry communication system based on block chain service, includes sentry box entering management module, parking management module, communication transmission module, elevator timing control module and binds cell-phone end, its characterized in that: the communication transmission module is used for carrying out communication service on parking and an elevator in a park and binding a mobile phone end to form a park communication system network, the sentry box entering management module is used for registering and identifying and managing information of vehicles entering the park, the parking management module is used for searching an optimal parking space for the vehicles entering the park and carrying out navigation indication management, the elevator timing control module is used for calculating elevator time and controlling elevator switch keys, and the binding mobile phone end is used for a person to check preferable elevator time timing at the mobile phone end, so that time can be reasonably arranged; and the sentry box access management module, the parking management module, the elevator timing control module and the binding mobile phone end are all in radio connection with the communication transmission module.

According to the technical scheme, the communication transmission module comprises a sending module, a frequency band identification module and a receiving module, wherein the sending module is used for sending radio waves, the frequency band identification module is used for identifying the frequency band of the radio waves and transmitting the frequency band to the corresponding receiving module, and the receiving module is used for receiving communication information.

According to the technical scheme, the sentry box entering management module comprises an information registration module, a blockchain storage module, a scanning identification unit and an information extraction module, wherein the information registration module is used for registering and registering the vehicle information of staff in a park, the blockchain storage module is connected with the information registration module and is used for storing the vehicle information registered by the information registration module, the scanning identification unit is electrically connected with the blockchain storage module, the scanning identification unit is used for scanning and identifying the license plate of the vehicle entering the park, the information extraction module is electrically connected with the scanning identification unit, and the information extraction module is used for obtaining the driving age of a driver registered in the blockchain storage module and the information of the worker on the park according to the scanning result of the scanning identification unit.

According to the technical scheme, the parking management module comprises an intelligent parking module, a route guiding unit and a time calculating module I, wherein the intelligent parking module is in radio connection with the information extracting module through the communication transmission module, the intelligent parking module is used for intelligently calculating a parking position and a parking route after a vehicle is scanned in a sentry box to obtain vehicle information, the route guiding unit is electrically connected with the intelligent parking module, the route guiding unit comprises an indicating lamp, the route guiding unit is used for lighting the indicating lamp from the sentry box to the parking position after the intelligent parking module finishes planning the parking route, the vehicle entering a park is navigated, the time required by parking space finding is saved, the time calculating unit I is electrically connected with the intelligent parking module, and the time calculating module I is used for calculating the time required by a vehicle driver to walk to an elevator from entering the sentry box.

According to the technical scheme, the intelligent parking module comprises an empty parking space extraction sub-module, a parking route planning sub-module and a walking route planning sub-module, wherein the empty parking space extraction sub-module is in radio connection with a building unit extraction sub-module, the empty parking space extraction sub-module is used for extracting all garage empty parking spaces in a park and preferentially selecting empty parking spaces of a building where a driving person unit is located, the parking route planning sub-module is electrically connected with the empty parking space extraction sub-module, the parking route planning sub-module is used for planning a concrete route from a sentry box to the selected empty parking spaces, the walking route planning sub-module is electrically connected with the empty parking space extraction sub-module, and the walking route planning sub-module is used for planning a concrete walking route from the selected empty parking spaces to an elevator of the building.

According to the technical scheme, the elevator timing control module comprises an information generation module, a time calculation module II, a key control unit and a preferred time generation unit, wherein the information generation module is used for extracting and generating the number of intervals between the current floor of each elevator and the floor of the parking garage, the stop condition of the elevator at each floor and the condition of whether the keys of the elevator at the floor of the parking garage are lightened, the judgment module is electrically connected with the information generation module, the judgment module is used for judging the service condition of the elevator, the time calculation module II is electrically connected with the information generation module and the judgment module, the time calculation module II is used for calculating the time of the elevator reaching the floor of the parking garage under the condition of having a person or no person, the key control unit is electrically connected with the time calculation module II and the judgment module, the key control unit is used for controlling to lighten the keys of the elevator when the elevator is calculated by the time calculation module II from the floor of the parking garage to the floor of the parking garage, the preferred time generation unit is electrically connected with the time calculation module II, the preferred time generation module II is used for binding the elevator at each floor of the parking garage to the parking garage, the time can be the time of the best is reached at the best, and the time is reasonably timed by the mobile phone at the time of the mobile phone when the mobile phone is in a wireless communication mode.

According to the technical scheme, the operation method of the park industry communication system based on the blockchain service comprises the following steps:

step S1: registering the vehicle information of the staff in the park and storing the vehicle information in a block chain storage module;

step S2: when a vehicle enters a garden area, a license plate is scanned and identified at a sentry box to acquire registered driving age of the vehicle and building unit information of a specific work unit; if the external vehicles are not registered, after inquiring reasons and entering the park time, the sentry box staff temporarily registers the entering reasons, entering time and scanned license plate numbers, guides the external vehicles to a ground temporary parking space for parking through the parking management module when the external vehicles are transmitted by the communication transmission module, counts time, and gives an alarm to the sentry box if the sentry box is not left the park after the parking time is filled;

step S3: the intelligent parking module automatically plans a parking route and automatically navigates vehicles entering a park by lighting a route along indicator lamp;

step S4: the time calculation module is used for calculating and evaluating the time required from the sentry box to the front of the elevator;

step S5: when the vehicle is scanned at a sentry box, the scanned building unit information and the scanned building unit information are transmitted to the elevator of the building through the communication transmission module, so that the elevator timing control module obtains the number of intervals between the current floor of each elevator and the floor of the parking garage, the parking condition of the elevator at each floor and whether the elevator keys of the parking garage floor are lighted or not;

step S6: judging whether the elevators are used by people or not, and calculating and evaluating the time from each elevator to the layer where the parking garage is located;

step S7: when the elevator is not used by a person, obtaining the time left when the parking and walking time reaches the elevator position through a communication system of the park to be the same as the time when the empty elevator runs to the floor where the parking garage is located, automatically controlling an elevator timing control module to press an elevator button, calculating the time when the elevator is used by the person to reach the floor where the parking garage is located, and generating two time timings closest to the parking and walking time into optimal time;

step S8: the preferred time is transmitted to the binding mobile phone end through the communication transmission module, and the person can self-arrange the pace rhythm through the time timing received by the mobile phone end.

According to the above technical solution, the step S3 further includes the following steps:

step S31: acquiring all empty parking spaces of the park through a monitoring system in the park;

step S32: transmitting the position information of the empty parking space to a sentry box access management module through communication transmission, and selecting a parking space close to a floor unit where a vehicle owner is located;

step S33: carrying out route planning, and searching a route which is most suitable for a parking space;

step S34: the indication lamp prompt navigation is carried out on the planned route, so that the time for the vehicle owner to find the parking space is saved;

step S35: and planning a route from the parking space to the elevator at the floor where the parking space is located, and calculating a route distance.

According to the above technical solution, the calculation formula of the first time calculation module is:

wherein k is _n The driving age corresponding coefficient value of different drivers, wherein n is a driving age number, the unit is 'year', less than one year is counted by one year, and the driving age number is larger, the corresponding k is _n The larger the coefficient value; l (L) _{Vehicle with a frame} A planned route distance from the sentry box to the parking space is provided for the vehicle; v (V) _{Vehicle with a frame} Average driving speed of a common vehicle in a park; l (L) _{Human body} Distance from parking space to elevator to walking route; v (V) _{Human body} For average walking speed of a person, "60" is the time in seconds required for a typical stop, T is the total time value required for a vehicle to park from entering the park until walking to the elevator, in seconds;

the calculation formula of the second time calculation module is as follows:

t＝J·S+j·s

wherein J is the number of intervals between the current floor of the elevator and the floor of the parking garage; s is a time value required by the elevator to pass each floor under normal speed; j is the number of floors where the elevator needs to stop in the running process; s is a time value delayed by each floor due to midway stopping of the elevator; t is the time value of the elevator running to the floor where the parking garage is located, and the unit is seconds.

According to the technical scheme, the T value obtained by the first time calculation module is always larger than the T value obtained by the second time calculation module.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the sentry box access management module, the parking management module, the communication transmission module, the elevator timing control module and the binding mobile phone end are arranged, so that vehicles of workers in a park can be registered, foreign vehicles can be prevented from randomly entering the park to destroy the original order in the park, meanwhile, the office building where the workers are can be automatically identified, a parking space is intelligently arranged, the navigation of an indicator lamp is carried out, the parking space searching time is greatly saved, and under the communication system of the park, when the parking remaining time and the fastest elevator arrival time are equal, an elevator button is pressed in advance, no waiting is needed for stepping in an elevator, and the effects of high safety and time utilization rate improvement are realized.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the system module composition of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides the following technical solutions: the utility model provides a garden industry communication system based on block chain service, includes sentry box entering management module, parking management module, communication transmission module, elevator timing control module and binds cell-phone end, its characterized in that: the communication transmission module is used for carrying out communication service on parking and an elevator in a park and binding a mobile phone end to form a park communication system network, the sentry box entering management module is used for registering, identifying and managing information of vehicles entering the park, the parking management module is used for searching an optimal parking space for the vehicles entering the park and carrying out navigation indication management, the elevator timing control module is used for calculating elevator time and controlling elevator switch keys, the binding mobile phone end is used for individuals to check preferable elevator time timing at the mobile phone end, and time can be reasonably arranged; the sentry box access management module, the parking management module, the elevator timing control module and the binding mobile phone end are all in radio connection with the communication transmission module; through being provided with sentry box entering management module, parking management module, communication transmission module, elevator timing control module and binding cell-phone end, can register in the park staff vehicle, avoid the exotic vehicle to get into the park at will and destroy the inside original order in park, can automatic identification staff place office building simultaneously, intelligent arrangement parking stall and carry out the pilot lamp navigation, practice thrift greatly and look for the parking stall time, and under park communication system, push down the elevator button in advance when parking remaining time and fastest elevator arrival time are equal, need not to walk into the elevator and need not to wait, realized the effect that the security is high and time utilization can be improved.

The communication transmission module comprises a sending module, a frequency band identification module and a receiving module, wherein the sending module is used for sending radio waves, the frequency band identification module is used for identifying the frequency band of the radio waves and transmitting the frequency band to the corresponding receiving module, and the receiving module is used for receiving communication information.

The sentry box entering management module comprises an information registration module, a blockchain storage module, a scanning identification unit and an information extraction module, wherein the information registration module is used for registering and registering the vehicle information of staff in a park, the blockchain storage module is connected with the information registration module and is used for storing the vehicle information registered by the information registration module, the scanning identification unit is electrically connected with the blockchain storage module and is used for scanning and identifying the vehicle license plate entering the park, the information extraction module is electrically connected with the scanning identification unit and is used for obtaining the driving age of a driver registered in the blockchain storage module and the information of a worker in the park according to the scanning result of the scanning identification unit; the system can register the vehicle information and store the vehicle information in the blockchain storage module, and the registered vehicle can advance the driving age information of a vehicle driver and the information of an office building when entering a park, so that the time required for parking can be calculated conveniently.

The parking management module comprises an intelligent parking module, a route guiding unit and a time calculating module I, wherein the intelligent parking module is in radio connection with the information extracting module through a communication transmission module, the intelligent parking module is used for intelligently calculating a parking position and a parking route after a vehicle is scanned in a sentry box to obtain vehicle information, the route guiding unit is electrically connected with the intelligent parking module and comprises an indicator lamp, the route guiding unit is used for lighting an indicator lamp from the sentry box to the parking position after the intelligent parking module plans to finish the parking route, the navigation is carried out on the vehicle entering the park, the time required by parking space finding is saved, the time calculating unit I is electrically connected with the intelligent parking module, and the time calculating module I is used for calculating the time required by a vehicle driver to walk to an elevator from entering the sentry box; the parking route can be automatically planned, so that the vehicle owner can park conveniently, and the accuracy of calculation and evaluation of the parking time is enhanced.

The intelligent parking module comprises an empty parking space extraction sub-module, a parking route planning sub-module and a walking route planning sub-module, wherein the empty parking space extraction sub-module is in radio connection with a building unit extraction sub-module, the empty parking space extraction sub-module is used for extracting all empty parking spaces of a garage in a park and preferentially selecting empty parking spaces of a building where a driving work unit is located, the parking route planning sub-module is electrically connected with the empty parking space extraction sub-module and is used for planning a concrete route from a sentry box to the selected empty parking spaces, the walking route planning sub-module is electrically connected with the empty parking space extraction sub-module, and the walking route planning sub-module is used for planning a concrete walking route from the selected empty parking spaces to an elevator of the building; through route planning, the driving distance and the walking distance of the vehicle are obtained, the speed change relation is considered multiple, and the accuracy of the time spent from parking to the elevator is further improved.

The elevator timing control module comprises an information generation module, a time calculation module II, a key control unit and a preferred time generation unit, wherein the information generation module is used for extracting and generating the number of intervals between the current floor of each elevator and the floor of the parking garage, the stop condition of the elevator at each floor and whether the elevator keys at the parking garage are lightened or not, the judgment module is electrically connected with the information generation module, the judgment module is used for judging the service condition of the elevator, the time calculation module II is electrically connected with the information generation module and the judgment module, the time calculation module II is used for calculating the time of the elevator reaching the floor of the parking garage under the condition of having a person or no person, the key control unit is electrically connected with the time calculation module II and the judgment module, the key control unit is used for controlling to lighten the elevator keys when the time of parking elevator is equal to the time of the floor of the parking garage calculated by the time calculation module II, the preferred time generation unit is electrically connected with the time calculation module II and the judgment module II, the preferred time generation unit is used for binding the time of the elevator reaching the parking garage under the condition of having a person at the parking garage, the parking position, the time of the closest to the elevator reaches the parking position is bound with the preferred time calculation module II, and the time can be bound to the preferred time transmission terminal through a wireless transmission terminal, and the time is reasonable and the preferred time is generated at the wireless transmission terminal; after judging whether the elevator is used by a person or not, for unmanned use, the elevator can be started in advance when the fastest elevator arrival time is the same as the parking remaining time by calculating comparison of the fastest elevator arrival time and the parking time, finally, when the elevator arrives at the elevator position after the parking is finished, the elevator just arrives at the floor where the parking garage is located without waiting, even when the elevator is used by the person, as the number of the elevators in the office building is generally larger than one, two groups of time closest to the parking time are selected as optimal time by calculating each elevator arrival time, and are transmitted to a person through a park communication system, and the person can consider whether to accelerate the step according to the optimal time so as to reduce the waiting time of the elevator.

The operation method of the park industry communication system based on the block chain service comprises the following steps:

step S1: registering the vehicle information of the staff in the park and storing the vehicle information in a block chain storage module;

step S2: when a vehicle enters a garden area, a license plate is scanned and identified at a sentry box to acquire registered driving age of the vehicle and building unit information of a specific work unit; if the external vehicles are not registered, after inquiring reasons and entering the park time, the sentry box staff temporarily registers the entering reasons, entering time and scanned license plate numbers, guides the external vehicles to a ground temporary parking space for parking through the parking management module when the external vehicles are transmitted by the communication transmission module, counts time, and gives an alarm to the sentry box if the sentry box is not left the park after the parking time is filled;

step S3: the intelligent parking module automatically plans a parking route and automatically navigates vehicles entering a park by lighting a route along indicator lamp;

step S4: the time calculation module is used for calculating and evaluating the time required from the sentry box to the front of the elevator;

step S5: when the vehicle is scanned at a sentry box, the scanned building unit information and the scanned building unit information are transmitted to the elevator of the building through the communication transmission module, so that the elevator timing control module obtains the number of intervals between the current floor of each elevator and the floor of the parking garage, the parking condition of the elevator at each floor and whether the elevator keys of the parking garage floor are lighted or not;

step S6: judging whether the elevators are used by people or not, and calculating and evaluating the time from each elevator to the layer where the parking garage is located;

step S7: when the elevator is not used by a person, obtaining the time left when the parking and walking time reaches the elevator position through a communication system of the park to be the same as the time when the empty elevator runs to the floor where the parking garage is located, automatically controlling an elevator timing control module to press an elevator button, calculating the time when the elevator is used by the person to reach the floor where the parking garage is located, and generating two time timings closest to the parking and walking time into optimal time;

step S8: the preferred time is transmitted to the binding mobile phone end through the communication transmission module, and the person can self-arrange the pace rhythm through the time timing received by the mobile phone end.

Step S3 further comprises the steps of:

step S31: acquiring all empty parking spaces of the park through a monitoring system in the park;

step S32: transmitting the position information of the empty parking space to a sentry box access management module through communication transmission, and selecting a parking space close to a floor unit where a vehicle owner is located;

step S33: carrying out route planning, and searching a route which is most suitable for a parking space;

step S34: the indication lamp prompt navigation is carried out on the planned route, so that the time for the vehicle owner to find the parking space is saved;

step S35: and planning a route from the parking space to the elevator at the floor where the parking space is located, and calculating a route distance.

The calculation formula of the first time calculation module is as follows:

wherein k is _n The driving age corresponding coefficient value of different drivers, wherein n is a driving age number, the unit is 'year', less than one year is counted by one year, and the driving age number is larger, the corresponding k is _n The larger the coefficient value; l (L) _{Vehicle with a frame} A planned route distance from the sentry box to the parking space is provided for the vehicle; v (V) _{Vehicle with a frame} Average driving speed of a common vehicle in a park; l (L) _{Human body} Distance from parking space to elevator to walking route; v (V) _{Human body} For average walking speed of a person, "60" is the time in seconds required for a typical stop, T is the total time value required for a vehicle to park from entering the park until walking to the elevator, in seconds;

the calculation formula of the time calculation module II is as follows:

t＝J·S+j·s

wherein J is the number of intervals between the current floor of the elevator and the floor of the parking garage; s is a time value required by the elevator to pass each floor under normal speed; j is the number of floors where the elevator needs to stop in the running process; s is a time value delayed by each floor due to midway stopping of the elevator; t is the time value of the elevator running to the floor where the parking garage is located, and the unit is seconds.

The T value obtained by the first time calculation module is always larger than the T value obtained by the second time calculation module.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. The utility model provides a garden industry communication system based on block chain service, includes sentry box entering management module, parking management module, communication transmission module, elevator timing control module and binds cell-phone end, its characterized in that: the communication transmission module is used for carrying out communication service on parking and an elevator in a park and binding a mobile phone end to form a park communication system network, the sentry box entering management module is used for registering and identifying and managing information of vehicles entering the park, the parking management module is used for searching an optimal parking space for the vehicles entering the park and carrying out navigation indication management, the elevator timing control module is used for calculating elevator time and controlling elevator switch keys, and the binding mobile phone end is used for a person to check preferable elevator time timing at the mobile phone end, so that time can be reasonably arranged; the sentry box access management module, the parking management module, the elevator timing control module and the binding mobile phone end are all in radio connection with the communication transmission module;

the communication transmission module comprises a sending module, a frequency band identification module and a receiving module, wherein the sending module is used for sending radio waves, the frequency band identification module is used for identifying the frequency band of the radio waves and transmitting the frequency band to the corresponding receiving module, and the receiving module is used for receiving communication information;

the sentry box entering management module comprises an information registration module, a block chain storage module, a scanning identification unit and an information extraction module, wherein the information registration module is used for registering and registering the vehicle information of staff in a park, the block chain storage module is connected with the information registration module and is used for storing the vehicle information registered by the information registration module, the scanning identification unit is electrically connected with the block chain storage module and is used for scanning and identifying the vehicle license plate entering the park, the information extraction module is electrically connected with the scanning identification unit and is used for obtaining the driving age of a driver registered in the block chain storage module and the information of the worker building according to the scanning result of the scanning identification unit;

the parking management module comprises an intelligent parking module, a route guiding unit and a time calculating module I, wherein the intelligent parking module is in radio connection with the information extracting module through a communication transmission module, the intelligent parking module is used for intelligently calculating a parking position and a parking route after a vehicle is scanned in a sentry box to obtain vehicle information, the route guiding unit is electrically connected with the intelligent parking module and comprises an indicator lamp, the route guiding unit is used for navigating the vehicle entering a park, time required by finding a parking place when parking is saved, the time calculating module I is electrically connected with the intelligent parking module, and the time calculating module I is used for calculating time required by a vehicle driver from entering the sentry box to walking to an elevator;

the intelligent parking module comprises an empty parking space extraction submodule, a parking route planning submodule and a walking route planning submodule, wherein the empty parking space extraction submodule is in radio connection with a building unit extraction submodule, the empty parking space extraction submodule is used for extracting all empty parking spaces of a garage in a park and preferentially selecting empty parking spaces of a building where a driving work unit is located, the parking route planning submodule is electrically connected with the empty parking space extraction submodule, the parking route planning submodule is used for planning a building to a concrete route for selecting the empty parking spaces, the walking route planning submodule is electrically connected with the empty parking space extraction submodule, and the walking route planning submodule is used for planning a walking concrete route from the selected empty parking spaces to a building elevator;

the elevator timing control module comprises an information generation module, a time calculation module II, a key control unit and a preferred time generation unit, wherein the information generation module is used for extracting and generating the number of intervals between the current floor of each elevator and the floor of the parking garage, the stop condition of the elevator at each floor and whether the keys of the elevator at the layer of the parking garage are lightened, the judgment module is electrically connected with the information generation module, the judgment module is used for judging the service condition of the elevator, the time calculation module II is electrically connected with the information generation module and the judgment module, the time calculation module II is used for calculating the time of the elevator reaching the floor of the parking garage under the condition of having a person or no person, the key control unit is electrically connected with the time calculation module II and the judgment module, the key control unit is used for controlling to lighten the keys of the elevator when the elevator is calculated from the floor of the parking garage to the floor of the parking garage by the time calculation module II, the preferred time generation unit is electrically connected with the time calculation module II and the judgment module II, the preferred time generation unit is used for calculating the time of the elevator reaching the floor of the parking garage at the parking garage by the time when the elevator is in the condition of having a person or no person, the parking garage is bound to the time of the best and the time of the elevator reaches the floor of the parking garage by the best mobile phone, and the time is bound to the optimal time can be reasonably timed by the time when the mobile phone at the optimal time is reached at the floor of the parking garage;

the operation method of the park industry communication system based on the block chain service comprises the following steps:

step S1: registering the vehicle information of the staff in the park and storing the vehicle information in a block chain storage module;

step S2: when a vehicle enters a garden area, a license plate is scanned and identified at a sentry box to acquire registered driving age of the vehicle and building unit information of a specific work unit; if the external vehicles are not registered, after inquiring reasons and entering the park time, the sentry box staff temporarily registers the entering reasons, entering time and scanned license plate numbers, guides the external vehicles to a ground temporary parking space for parking through the parking management module when the external vehicles are transmitted by the communication transmission module, counts time, and gives an alarm to the sentry box if the sentry box is not left the park after the parking time is filled;

step S3: the intelligent parking module automatically plans a parking route and automatically navigates vehicles entering a park by lighting a route along indicator lamp;

step S4: the time calculation module is used for calculating and evaluating the time required from the sentry box to the front of the elevator;

step S5: when the vehicle is scanned at a sentry box, the scanned building unit information and the scanned building unit information are transmitted to the elevator of the building through the communication transmission module, so that the elevator timing control module obtains the number of intervals between the current floor of each elevator and the floor of the parking garage, the parking condition of the elevator at each floor and whether the elevator keys of the parking garage floor are lighted or not;

step S6: judging whether the elevators are used by people or not, and calculating and evaluating the time from each elevator to the layer where the parking garage is located;

step S7: when the elevator is not used by a person, obtaining the time left when the parking and walking time reaches the elevator position through a communication system of the park to be the same as the time when the empty elevator runs to the floor where the parking garage is located, automatically controlling an elevator timing control module to press an elevator button, calculating the time when the elevator is used by the person to reach the floor where the parking garage is located, and generating two time timings closest to the parking and walking time into optimal time;

step S8: transmitting the preferred time to the binding mobile phone end through the communication transmission module, wherein the person can self-arrange the pace rhythm through the time timing received by the mobile phone end;

the step S3 further includes the steps of:

step S31: acquiring all empty parking spaces of the park through a monitoring system in the park;

step S32: transmitting the position information of the empty parking space to a sentry box access management module through communication transmission, and selecting a parking space close to a floor unit where a vehicle owner is located;

step S33: carrying out route planning, and searching a route which is most suitable for a parking space;

step S34: the indication lamp prompt navigation is carried out on the planned route, so that the time for the vehicle owner to find the parking space is saved;

step S35: planning a route from a parking space to an elevator on a floor where the parking space is located, and calculating a route distance;

the calculation formula of the first time calculation module is as follows:

wherein k is _n The driving age corresponding coefficient value of different drivers, wherein n is a driving age number, the unit is 'year', less than one year is counted by one year, and the driving age number is larger, the corresponding k is _n The larger the coefficient value; l (L) _{Vehicle with a frame} A planned route distance from the sentry box to the parking space is provided for the vehicle; v (V) _{Vehicle with a frame} Average driving speed of a common vehicle in a park; l (L) _{Human body} Distance from parking space to elevator to walking route; v (V) _{Human body} For average walking speed of a person, "60" is the time in seconds required for a typical stop, T is the total time value required for a vehicle to park from entering the park until walking to the elevator, in seconds;

the calculation formula of the second time calculation module is as follows:

t＝J·S+j·s

wherein J is the number of intervals between the current floor of the elevator and the floor of the parking garage; s is a time value required by the elevator to pass each floor under normal speed; j is the number of floors where the elevator needs to stop in the running process; s is a time value delayed by each floor due to midway stopping of the elevator; t is a time value of the elevator running to the floor where the parking garage is located, and the unit is seconds;

the T value obtained by the first time calculation module is always larger than the T value obtained by the second time calculation module.