CN111807171B - Use distribution management system of intelligent elevator - Google Patents

Abstract

The invention discloses a use allocation management system of an intelligent elevator, which is used for solving the problem that the elevator of the existing office building still works in a time period with less pedestrian volume and the resource is wasted because the elevator is not allocated and managed; the system comprises a data acquisition module, a server and a distribution management module; according to the elevator management system, the elevator is subjected to data acquisition, the load value, the bearing times and the power-on time of the elevator are combined to obtain the branch management value of the elevator, and the elevator is reasonably managed through the branch management value, so that the branch management elevator stops working in the branch management time period, the elevator is reasonably used by people, the people flow is less in the branch management time period, and the waste of resources caused by the working of all elevators is avoided; and carrying out dequantization treatment on the maintenance service age, the maintenance interval, the in-line time and the registration time of maintenance personnel to obtain a maintenance matching value, and conveniently and reasonably screening the corresponding maintenance personnel to maintain the elevator through the maintenance matching value.

Description

Use distribution management system of intelligent elevator

Technical Field

The invention relates to the technical field of elevator management, in particular to a use allocation management system of an intelligent elevator.

Background

In order to provide a property management level, prevent irrelevant people from entering and exiting and using the elevator at random, and achieve the effects of energy conservation and environmental protection, the elevator which is provided with an application IC/ID card to control people to enter and exit a specific floor is called an intelligent elevator. The intelligent elevator is provided with a fire signal input interface, when the passive dry contact fire switch signal is started, the IC card elevator system does not work, the elevator is recovered to the original state, and the elevator can be conveniently used by rescuers without an IC/ID card as required. Anyone can shuttle to each floor of the building by using an elevator'

However, the existing elevators in office buildings still work in a time period with less people flow, and the elevators are not allocated and managed, so that the waste of resources is caused.

Disclosure of Invention

The invention aims to provide an intelligent elevator use allocation management system in order to solve the problems that the elevator of the existing office building still works in a time period with less pedestrian volume and the resources are wasted because the elevator is not allocated and managed; the elevator management method comprises the steps that data are collected for an elevator, the elevator management value is obtained by combining the load value, the bearing times and the power-on time of the elevator, the elevator is reasonably managed through the elevator management value, the elevator management is stopped in a management time period, the elevator is reasonably used by people, the people flow is less in the management time period, all elevators are prevented from working, and resource waste is avoided; the maintenance working age, the maintenance interval, the entering time length and the registration time length of maintenance personnel are subjected to dequantization treatment to obtain a maintenance matching value, and the corresponding maintenance personnel can be conveniently and reasonably screened to maintain the elevator through the maintenance matching value;

the purpose of the invention can be realized by the following technical scheme: the intelligent elevator use allocation management system comprises a data acquisition module, a server and an allocation management module;

the data acquisition module is used for acquiring elevator data of an office building and sending the elevator data to the server;

the distribution management module is used for elevator data in the server and performing distribution management analysis, and the specific analysis steps are as follows:

the method comprises the following steps: marking the elevator as Di, i is 1, … …, n; n is a positive integer; analyzing the load weight of the elevator every time, when the load weight of the elevator is larger than a set analysis threshold value, increasing the total influence times of the elevator once, marking the load weight of the elevator as the influence load, and marking the influence load as Zk_Di，k＝1……、n；

Step two: the proportionality coefficient influencing the load weight is Mj, wherein j is 1 … … and n; each influence load corresponds to a set range, and when the influence load is in the set range corresponding to the Mj, the proportionality coefficient of the influence load is Mj;

step three: using formulas

Obtaining a load value ZT of an elevator_Di(ii) a Wherein b1 and b2 are both preset proportionality coefficients;

step four: setting the number of times of load of an elevator to P_Di(ii) a The power-on time of the elevator is E_Di(ii) a The load value, the bearing times and the electrifying time of the elevator are dequantized, and then the numerical values are obtained;

using formula FG_Di＝P_Di×b3+E_Di×b4+ZT_Di×b5+W_DiObtaining branch value FG of elevator by x b6_Di(ii) a Wherein b3, b4, b5 and b6 are all preset proportionality coefficients; w_DiThe total number of times of maintenance of the elevator;

step five: sequencing elevators of the office building from large to small according to the branch value, and selecting half of the elevators from large to small to mark the elevators as branch elevators;

step six: dividing the time of day into a normal time period and a sub-management time period, wherein the normal time period comprises 8: 00-9:00, 11: 30-13:30, 17: 00-18:00 and 20: 00-21: 00; the rest time periods in one day are sub-management time periods;

step seven: and controlling the branch elevator to stop working and power off by the allocation management module within the branch time period.

Preferably, the system also comprises a registration login module and a maintenance distribution module;

the registration login module is used for submitting registration information for registration by a maintenance worker and sending the registration information which is successfully registered to the server for storage, and meanwhile, the time when the server receives the registration information is the registration time of the maintenance worker;

the maintenance allocation module is used for performing maintenance allocation on elevators to be maintained of the office building, and comprises the following specific allocation steps:

s1: workers in the office building send elevator serial numbers, positions and maintenance instructions to the maintenance distribution module through the mobile phone terminal; the maintenance allocation module marks the elevator as an elevator to be maintained after receiving the elevator number, the position and the maintenance instruction;

s2: the maintenance allocation module sends a position acquisition instruction to a mobile phone terminal of a maintenance worker and acquires the current position of the maintenance worker, and a screening range is set according to the central point by taking the position of the elevator to be maintained as the central point; matching the current position of the maintenance personnel with the screening range, and marking the maintenance personnel with the current position at the screening position as primary selection personnel;

s3: setting the initial selection person as Rd, d is 1, … … and n; calculating the time difference between the registration time of the primary election personnel and the current time of the system to obtain the registration time length of the primary election personnel and marking the registration time length as T_Rd(ii) a Calculating the time difference between the entering time of the primary election personnel and the current time of the system to obtain the entering time length of the primary election personnel and marking the entering time length as V_Rd；

S4: calculating the distance difference between the current position of the primary selected person and the position of the elevator to be maintained to obtain the maintenance distance G of the primary selected person_Rd；

S5: setting the maintenance working age of the primary selection personnel to be N_Rd(ii) a Carrying out dequantization processing on the maintenance working age, the maintenance interval, the entering time length and the registration time length and taking the numerical values of the maintenance working age, the maintenance interval, the entering time length and the registration time length;

using the formula B_Rd＝T_Rd×h1+N_Rd×h2+V_Rd×h3+(1/G_Rd)×h4+(1/DW_Rd) Obtaining a maintenance matching value B of the primary selection personnel by x h5_Rd(ii) a Wherein h1, h2, h3, h4 and h5 are all preset proportionality coefficients, DW_RdThe number of the primary selection personnel to be maintained is;

s6: selecting the primary selected personnel with the maximum maintenance matching value as the selected personnel; meanwhile, the number of the selected personnel to be maintained is increased by one;

s7: the maintenance distribution module sends the elevator serial number, the elevator position and the maintenance instruction to a mobile phone terminal of a selected person; and after the maintenance is finished, the total maintenance times of the elevator are increased once, and the number of the selected personnel to be maintained is reduced by one.

Preferably, the elevator data comprises the number, position, installation time and elevator operation information of the elevator; the elevator operation data comprises the power-on time, the number of people, the number of times of loading, the load weight, the stop floor and the stop time of the elevator; the bearing frequency is that the elevator is conveyed to any floor from one floor without stopping, and the bearing frequency is increased once;

preferably, the registration information includes the name, the mobile phone number, the time of entry and the service life of the service person.

Compared with the prior art, the invention has the beneficial effects that:

1. the data acquisition module acquires elevator data of an office building and sends the elevator data to the server; the distribution management module is used for carrying out distribution management analysis on elevator data in the server, analyzing the load weight of the elevator each time, increasing the total times of influence of the elevator once when the load weight of the elevator is greater than a set analysis threshold value, marking the load weight of the elevator as the influence load, and obtaining the load value of the elevator by using a formula; the load value, the bearing times and the electrifying time of the elevator are dequantized, and then the numerical values are obtained; obtaining a branch value of the elevator by using a formula; sequencing elevators of the office building from large to small according to the branch value, and selecting half of the elevators from large to small to mark the elevators as branch elevators; dividing the one-day time into a normal time period and a branch management time period, and controlling the branch management elevator to stop working and power off by the allocation management module in the branch management time period; the elevator management method comprises the steps that data are collected for an elevator, the elevator management value is obtained by combining the load value, the bearing times and the power-on time of the elevator, the elevator is reasonably managed through the elevator management value, the elevator management is stopped in a management time period, the elevator is reasonably used by people, the people flow is less in the management time period, all elevators are prevented from working, and resource waste is avoided;

2. the maintenance allocation module is used for performing maintenance allocation on the elevator to be maintained of the office building, sending a position acquisition instruction to a mobile phone terminal of a maintenance worker by the maintenance allocation module and acquiring the current position of the maintenance worker, and setting a screening range according to the central point by taking the position of the elevator to be maintained as the central point; matching the current position of the maintenance personnel with the screening range, and marking the maintenance personnel with the current position at the screening position as primary selection personnel; carrying out dequantization processing on the maintenance working age, the maintenance interval, the entering time length and the registration time length and taking the numerical values of the maintenance working age, the maintenance interval, the entering time length and the registration time length; obtaining a maintenance matching value of the primary selection personnel by using a formula; selecting the primary selected personnel with the maximum maintenance matching value as the selected personnel; the maintenance distribution module sends the elevator serial number, the elevator position and the maintenance instruction to a mobile phone terminal of a selected person; the selected person maintains the elevator number after receiving the elevator number, the position and the maintenance instruction, the maintenance working age, the maintenance interval, the entering time length and the registration time length of the maintenance person are subjected to dequantization processing to obtain a maintenance matching value, and the corresponding maintenance person is conveniently and reasonably screened to maintain the elevator through the maintenance matching value.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a usage allocation management system for an intelligent elevator includes a data acquisition module, a server, an allocation management module, a registration module and a maintenance allocation module;

the data acquisition module is used for acquiring elevator data of an office building and sending the elevator data to the server; the elevator data comprises the number, position, installation time and elevator operation information of the elevator; the elevator operation data comprises the power-on time, the number of people, the number of times of loading, the load weight, the stop floor and the stop time of the elevator; the bearing frequency is that the elevator is conveyed to any floor from one floor without stopping, and the bearing frequency is increased once;

the distribution management module is used for elevator data in the server and performing distribution management analysis, and the specific analysis steps are as follows:

the method comprises the following steps: marking elevators as Di, i is 1, … … and n; n is a positive integer; analyzing the load weight of the elevator every time, when the load weight of the elevator is larger than a set analysis threshold value, increasing the total influence times of the elevator once, marking the load weight of the elevator as the influence load, and marking the influence load as Zk_Di，k＝1……、n；

Step two: setting the proportionality coefficient influencing the load as Mj, wherein j is 1 … … and n; each influence load corresponds to a set range, and when the influence load is in the set range corresponding to the Mj, the proportionality coefficient of the influence load is Mj;

step three: using a formula

Obtaining a load value ZT of an elevator_Di(ii) a Wherein b1 and b2 are both preset proportionality coefficients;

step four: setting the number of times of load of an elevator to P_Di(ii) a The power-on time of the elevator is E_Di(ii) a The load value, the bearing times and the electrifying time of the elevator are dequantized, and then the numerical values are obtained;

using formula FG_Di＝P_Di×b3+E_Di×b4+ZT_Di×b5+W_DiObtaining a branch value FG of the elevator by x b6_Di(ii) a Wherein b3, b4, b5 and b6 are all preset proportionality coefficients; w_DiThe total number of times of maintenance of the elevator;

step five: sequencing elevators of the office building from large to small according to the branch value, and selecting half of the elevators from large to small to mark the elevators as branch elevators;

step six: dividing the time of day into a normal time period and a sub-management time period, wherein the normal time period comprises 8: 00-9:00, 11: 30-13:30, 17: 00-18:00 and 20: 00-21: 00; the rest time periods in one day are sub-management time periods;

step seven: and controlling the branch elevator to stop working and power off by the allocation management module within the branch time period.

The registration login module is used for submitting registration information for registration by a maintenance worker and sending the registration information which is successfully registered to the server for storage, and meanwhile, the time when the server receives the registration information is the registration time of the maintenance worker; the registration information comprises the name, the mobile phone number, the entering time and the service working age of a maintenance worker;

the maintenance allocation module is used for performing maintenance allocation on elevators to be maintained of the office building, and comprises the following specific allocation steps:

s1: workers in the office building send elevator serial numbers, positions and maintenance instructions to the maintenance distribution module through the mobile phone terminal; the maintenance allocation module marks the elevator as an elevator to be maintained after receiving the elevator number, the position and the maintenance instruction;

s2: the maintenance allocation module sends a position acquisition instruction to a mobile phone terminal of a maintenance worker and acquires the current position of the maintenance worker, and a screening range is set according to the central point by taking the position of the elevator to be maintained as the central point; matching the current position of the maintenance personnel with the screening range, and marking the maintenance personnel with the current position at the screening position as primary selection personnel;

s3: setting the initial selection person as Rd, d is 1, … … and n; calculating the time difference between the registration time of the primary election personnel and the current time of the system to obtain the registration time length of the primary election personnel and marking the registration time length as T_Rd(ii) a Calculating the time difference between the entering time of the primary election personnel and the current time of the system to obtain the entering time length of the primary election personnel and marking the entering time length as V_Rd；

S4: calculating the distance difference between the current position of the primary selected person and the position of the elevator to be maintained to obtain the maintenance distance G of the primary selected person_Rd；

S5: setting the maintenance working age of the primary selection personnel to be N_Rd(ii) a Carrying out dequantization processing on the maintenance working age, the maintenance interval, the entering time length and the registration time length and taking the numerical values of the maintenance working age, the maintenance interval, the entering time length and the registration time length;

using formula B_Rd＝T_Rd×h1+N_Rd×h2+V_Rd×h3+(1/G_Rd)×h4+(1/DW_Rd) Obtaining a maintenance matching value B of the primary selection personnel by x h5_Rd(ii) a Wherein h1, h2, h3, h4 and h5 are all preset proportionality coefficients, DW_RdThe number of the primary selection personnel to be maintained is;

s6: selecting the primary selected personnel with the maximum maintenance matching value as the selected personnel; meanwhile, the number of the selected personnel to be maintained is increased by one;

s7: the maintenance distribution module sends the elevator serial number, the elevator position and the maintenance instruction to a mobile phone terminal of a selected person; and after the maintenance is finished, the total maintenance times of the elevator are increased once, and the number of the selected personnel to be maintained is reduced by one.

When the elevator data acquisition system is used, the data acquisition module acquires elevator data of an office building and sends the elevator data to the server; the distribution management module is used for carrying out distribution management analysis on elevator data in the server, analyzing the load weight of the elevator each time, increasing the total times of influence of the elevator once when the load weight of the elevator is greater than a set analysis threshold value, marking the load weight of the elevator as the influence load, and utilizing a formula

Obtaining a load value ZT of an elevator_Di(ii) a The load value, the bearing times and the electrifying time of the elevator are dequantized, and then the numerical values are obtained; using the formula FG_Di＝P_Di×b3+E_Di×b4+ZT_Di×b5+W_DiObtaining branch value FG of elevator by x b6_Di(ii) a Sequencing elevators of the office building from large to small according to the branch value, and selecting half of the elevators from large to small to mark the elevators as branch elevators; dividing the time of day into normal time period and sub-management time periodThe allocation management module controls the managed elevators to stop working and cut off power in the managed time period; the elevator management method comprises the steps that data are collected for an elevator, the elevator management value is obtained by combining the load value, the bearing times and the power-on time of the elevator, the elevator is reasonably managed through the elevator management value, the elevator management is stopped in a management time period, the elevator is reasonably used by people, the people flow is less in the management time period, all elevators are prevented from working, and resource waste is avoided;

the maintenance allocation module is used for performing maintenance allocation on the elevator to be maintained of the office building, sending a position acquisition instruction to a mobile phone terminal of a maintenance worker and acquiring the current position of the maintenance worker, and setting a screening range according to the central point by taking the position of the elevator to be maintained as the central point; matching the current position of the maintenance personnel with the screening range, and marking the maintenance personnel with the current position at the screening position as primary selection personnel; calculating the time difference between the registration time of the primary selection personnel and the current time of the system to obtain the registration time length of the primary selection personnel; calculating the time difference between the entry time of the primary selection personnel and the current time of the system to obtain the entry time length of the primary selection personnel, calculating the distance difference between the current position of the primary selection personnel and the position of the elevator to be maintained to obtain the maintenance interval of the primary selection personnel, and carrying out dequantization processing on the maintenance service age, the maintenance interval, the entry time length and the registration time length and taking the numerical value of the maintenance service age, the maintenance interval, the entry time length and the registration time length; using formula B_Rd＝T_Rd×h1+N_Rd×h2+V_Rd×h3+(1/G_Rd)×h4+(1/DW_Rd) Obtaining a maintenance matching value B of the primary selection personnel by x h5_Rd(ii) a Selecting the primary selected personnel with the maximum maintenance matching value as the selected personnel; the maintenance distribution module sends the elevator serial number, the elevator position and the maintenance instruction to a mobile phone terminal of a selected person; and the selected person maintains the elevator number after receiving the elevator number, the position and the maintenance instruction, dequantization processing is carried out on the elevator number through the maintenance working age, the maintenance interval, the entering time length and the registration time length of the maintenance person to obtain a maintenance matching value, and the corresponding maintenance person is conveniently and reasonably screened to maintain the elevator through the maintenance matching value.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (1)

1. The intelligent elevator use allocation management system is characterized by comprising a data acquisition module, a server and an allocation management module;

the data acquisition module is used for acquiring elevator data of an office building and sending the elevator data to the server;

the distribution management module is used for elevator data in the server and performing distribution management analysis, and the specific analysis steps are as follows:

the method comprises the following steps: marking the elevator as Di, i is 1, … …, n; n is a positive integer; analyzing the load weight of the elevator every time, when the load weight of the elevator is larger than a set analysis threshold value, increasing the total influence times of the elevator once, marking the load weight of the elevator as the influence load, and marking the influence load as Zk_Di，k＝1……、n；

Step two: the proportionality coefficient influencing the load weight is Mj, wherein j is 1 … … and n; each influence load corresponds to a set range, and when the influence load is in the set range corresponding to the Mj, the proportionality coefficient of the influence load is Mj;

step three: using formulas

Obtaining a load value ZT of an elevator_Di(ii) a Wherein b1 and b2 are both preset proportionality coefficients;

step four: setting the number of times of load of an elevator to P_Di(ii) a The power-on time of the elevator is E_Di(ii) a Load value, load times and load flux of elevatorThe electric time is dequantized, and then the numerical value is taken;

using formula FG_Di＝P_Di×b3+E_Di×b4+ZT_Di×b5+W_DiObtaining branch value FG of elevator by x b6_Di(ii) a Wherein b3, b4, b5 and b6 are all preset proportionality coefficients; w_DiThe total number of times of maintenance of the elevator;

step five: sequencing elevators of the office building from large to small according to the branch value, and selecting half of the elevators from large to small to mark the elevators as branch elevators;

step six: dividing the time of day into a normal time period and a sub-management time period, wherein the normal time period comprises 8: 00-9:00, 11: 30-13:30, 17: 00-18:00 and 20: 00-21: 00; the rest time periods in one day are sub-management time periods;

step seven: controlling the branch elevator to stop working and cut off the power supply by the allocation management module within the branch time period;

the system also comprises a registration login module and a maintenance distribution module;

the registration login module is used for submitting registration information for registration by a maintenance worker and sending the registration information which is successfully registered to the server for storage, and meanwhile, the time when the server receives the registration information is the registration time of the maintenance worker;

the maintenance allocation module is used for performing maintenance allocation on elevators to be maintained of the office building, and comprises the following specific allocation steps:

s1: workers in the office building send elevator serial numbers, positions and maintenance instructions to the maintenance distribution module through the mobile phone terminal; the maintenance allocation module marks the elevator as an elevator to be maintained after receiving the elevator number, the position and the maintenance instruction;

s2: the maintenance allocation module sends a position acquisition instruction to a mobile phone terminal of a maintenance worker and acquires the current position of the maintenance worker, and a screening range is set according to the central point by taking the position of the elevator to be maintained as the central point; matching the current position of the maintenance personnel with the screening range, and marking the maintenance personnel with the current position at the screening position as primary selection personnel;

s3: setting the primary election personnel asRd, d ═ 1, … …, n; calculating the time difference between the registration time of the primary election personnel and the current time of the system to obtain the registration time length of the primary election personnel and marking the registration time length as T_Rd(ii) a Calculating the time difference between the entering time of the primary election personnel and the current time of the system to obtain the entering time length of the primary election personnel and marking the entering time length as V_Rd；

S4: calculating the distance difference between the current position of the primary selected person and the position of the elevator to be maintained to obtain the maintenance distance G of the primary selected person_Rd；

S5: setting the maintenance working age of the primary selection personnel to be N_Rd(ii) a Carrying out dequantization processing on the maintenance working age, the maintenance interval, the entering time length and the registration time length and taking the numerical values of the maintenance working age, the maintenance interval, the entering time length and the registration time length;

using formula B_Rd＝T_Rd×h1+N_Rd×h2+V_Rd×h3+(1/G_Rd)×h4+(1/DW_Rd) Obtaining a maintenance matching value B of the primary selection personnel by x h5_Rd(ii) a Wherein h1, h2, h3, h4 and h5 are all preset proportionality coefficients, DW_RdThe number of the primary selection personnel to be maintained;

s6: selecting the primary selected personnel with the maximum maintenance matching value as the selected personnel; meanwhile, the number of the selected personnel to be maintained is increased by one;

s7: the maintenance distribution module sends the elevator serial number, the elevator position and the maintenance instruction to a mobile phone terminal of a selected person; the selected personnel maintain the elevator number after receiving the elevator number, the position and the maintenance instruction, after the maintenance is completed, the total maintenance frequency of the elevator is increased once, and the number of the selected personnel to be maintained is reduced by one;

the elevator data comprises the number, position, installation time and elevator operation information of the elevator; the elevator operation data comprises the power-on time, the number of people, the number of times of loading, the load weight, the stop floor and the stop time of the elevator; the bearing frequency is that the elevator is conveyed to any floor from one floor without stopping, and the bearing frequency is increased once;

the registration information comprises the name, the mobile phone number, the entering time and the service working age of a service person.

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