CN116433343A - Equipment lease management method and system, working machine and electronic equipment - Google Patents

Abstract

The invention relates to the technical field of operation machine management, and provides a device lease management method, a system, an operation machine and electronic devices, wherein the method comprises the following steps: acquiring working condition data and positioning data of equipment; based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state; determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area; based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status; based on the rental conditions, a rental contract is generated. The method and the device are used for solving the problems of low execution efficiency and easy error caused by the fact that each flow needs to operate manual data confirmation in the equipment renting process in the prior art.

Description

Equipment lease management method and system, working machine and electronic equipment

Technical Field

The present invention relates to the field of work machine management technologies, and in particular, to a method and a system for managing equipment leasing, a work machine, and an electronic device.

Background

At present, the process of leasing business for equipment such as a working machine mainly comprises: contract signing, equipment approach, equipment departure and revenue settlement, and each step requires operators to confirm data accuracy and is tedious and time-consuming.

Disclosure of Invention

The invention provides a device lease management method, a system, an operation machine and electronic equipment, which are used for solving the problems of low execution efficiency and easy error caused by the fact that each flow needs to operate manual data confirmation in the device lease process in the prior art.

The invention provides a device lease management method, which comprises the following steps:

acquiring working condition data and positioning data of equipment;

based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state;

determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area;

based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status;

and generating a lease contract based on the lease condition.

According to the equipment lease management method, the working condition data are acquired according to the preset frequency;

the determining the working state of the equipment in each preset period based on the working condition data comprises the following steps:

determining the working state of the equipment at each moment in the preset period based on the working condition data, wherein the moment is a time point of acquiring the working condition data according to the preset frequency in the preset period;

determining whether the duration of the equipment in the starting state exceeds a preset duration or not based on the working state of the equipment at each moment;

if the duration of the equipment in the starting state exceeds the preset duration, determining that the working state of the equipment in the preset period is the starting state, otherwise, determining that the working state of the equipment in the preset period is the non-starting state.

According to the equipment lease management method of the present invention, the determining the lease condition of the equipment based on the working state and the position information includes:

if the equipment is in a non-start-up state in the preset time period and is in a start-up state in the preset time period next to the preset time period, determining that the equipment is in the leasing state in the preset time period next to the preset time period;

if the device is in a start-up state in the preset time period and is in an unoperated state in the preset time period next to the preset time period and/or the distance between the position information of the device in the preset time period and the position information of the device in the preset time period next to the preset time period exceeds a preset distance threshold, determining that the device is in the non-leased state in the preset time period next to the preset time period.

According to the equipment lease management method of the invention, based on the lease condition, lease contracts are generated, which comprises the following steps:

if the equipment is determined to be in the leasing state in the next preset period, taking the next preset period as a leasing approach period of the equipment, and taking the position information of the equipment in the next preset period as the construction area of the equipment;

taking the first preset time period, in which the equipment is in an unoperated state after the approach time period and/or the distance between the equipment and the construction area is greater than a first preset distance threshold value, as a leasing and departure time period of the equipment;

the lease contract is generated based on the lease approach period, the construction area, the lease departure period, and the type of the equipment.

The equipment lease management method provided by the invention further comprises the following steps:

determining whether the distance between the devices belonging to the same user is smaller than or equal to a second preset distance threshold value based on the position information;

determining that the equipment which is in the leasing state and has the distance smaller than or equal to the second preset distance threshold value is in the same construction area, and generating a leasing contract based on the leasing condition;

and determining that the equipment which is in the non-leased state and has the distance smaller than or equal to the second preset distance threshold value is in the same warehouse area.

The equipment lease management method provided by the invention further comprises the following steps:

based on the lease contract, performing lease entrance records and lease exit records on the equipment;

and carrying out lease expense settlement on the equipment based on the lease contract, the type of the equipment and preset lease corresponding to the type.

The invention also provides a device lease management system, comprising:

the data acquisition module is used for acquiring working condition data and positioning data of the equipment;

the state determining module is used for determining the working state of the equipment in each preset period based on the working condition data, and the working state comprises the following steps: a start-up state and a non-start-up state;

a location determination module for determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area;

the lease condition determining module is configured to determine a lease condition of the device based on the working state and the location information, where the lease condition includes: rental status and non-rental status;

and the contract generation module is used for generating a lease contract based on the lease condition.

The invention also provides a working machine, which comprises the equipment lease management system or adopts any one of the equipment lease management methods to carry out lease management of the working machine.

The working machine according to the present invention is an overhead equipment;

the working state of the high-altitude equipment in the preset period is determined based on the sum of the walking time, the lifting time and the working time of the high-altitude equipment in the preset period, wherein the working time is the duration that the load is larger than a preset weight threshold value and the variation of the lifting height is smaller than the preset height threshold value after the high-altitude equipment is lifted.

The invention also provides an electronic device, which comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor realizes the device lease management method according to any one of the above when executing the computer program.

According to the equipment lease management method, system, operation machinery and electronic equipment, the working condition data and the positioning data of the equipment are obtained, the working state of the equipment is determined based on the working condition data, the position information of the equipment is determined based on the positioning data, and the lease condition of the equipment is set based on the working state and the position information of the equipment, so that lease contracts are automatically generated after the lease condition of the equipment is determined, the trouble of manually participating in data auditing is avoided, the execution efficiency is improved, and the lease management of the equipment is facilitated.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a method for managing equipment renting according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of performing lease management on aerial working equipment by adopting the equipment lease management method provided by the embodiment of the invention;

FIG. 3 is a schematic diagram of a device lease management system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an electronic device provided by the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, 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.

It can be understood that, at present, the sales object of the working machine is mainly a equipment renter, and the process for equipment renting is mainly: the equipment renter contracts with the construction party, provides corresponding equipment for the construction party to use, returns the equipment to the equipment renter after the contract expires or the construction party finishes use, and carries out renting settlement.

However, a small-sized equipment renter only has a few pieces of equipment, so that the management of renting is very easy, and for a large-sized equipment renter, because the number of the equipment pieces owned is large, the equipment renter needs to accurately know the specific condition of each equipment before making a contract, which makes the management of renting extremely difficult, namely, the confirmation of the accuracy of data is required to be manually carried out in each link of making a contract, entering the equipment, exiting the equipment and settling the revenue, which is very tedious, time-consuming and error-prone.

Based on this, there is a need for a method for performing equipment rental management conveniently and accurately, so as to reduce the workload of staff and improve the execution efficiency of the rental business.

A device lease management method of the present invention, which is mainly applied to lease management of a work machine, will be described with reference to fig. 1 and 2.

The equipment lease management method provided by the embodiment of the invention can be executed by software and/or hardware in electronic equipment such as computers, tablets, mobile phones and the like. As shown in fig. 1, the method comprises the steps of:

101. acquiring working condition data and positioning data of equipment;

it will be appreciated that the operating conditions refer to the operating conditions of the device in direct relation to its actions, and thus, the operating condition data may reflect the operating conditions of the device.

Specifically, the operating condition data includes a variety of, for example: the current, voltage, temperature, oil pressure, oil consumption, power and the like can be acquired by corresponding sensors on the equipment. The positioning data can reflect the position of the equipment, and can be obtained by GPS positioning.

102. Based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state;

specifically, the on state refers to the state that the equipment is in walking, working and the like, and the off state refers to the state that the equipment is in the off state. According to the working condition data of the equipment, whether the equipment is in a working state such as walking and operation can be determined.

It should be noted that the purpose of the rental equipment is to complete a construction project using the equipment work, and thus, whether the equipment is in the rental period can be determined by determining whether the equipment is in the start-up state.

However, even if the device is in the rental period, it is not necessarily in the start-up state in real time, and thus, the accuracy of determining whether the device is in the rental state can be improved by determining the operating state of the device within the preset period.

More specifically, the preset time period is preferably set to be the same as the equipment rental billing mode, so as to facilitate automatic generation of a subsequent rental contract, for example: when the rental fee of the device is x yuan per day, the preset time period may be set to be a day, and when the rental fee of the device is y yuan per week, the preset time period may be set to be a week.

103. Determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area;

in particular, based on the positioning data of the device, location information of the device, i.e. whether the device is in a construction area or a warehouse area, may be determined.

More specifically, by determining the location information of the equipment, on the one hand, whether the equipment is in a rental state can be confirmed based on the location assistance of the equipment, and on the other hand, the management of the equipment can be facilitated, that is, when there is an equipment rental requirement, the equipment in the warehouse area nearest to the equipment-requiring-side construction area is provided to the equipment requiring side.

104. Based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status;

specifically, when the equipment is in a non-leased state, the equipment is generally in a warehouse area and is in a non-start-up state, and when the equipment is in a leased state, the equipment is generally in a construction area and is in a start-up state, so that the leasing condition of the equipment can be determined based on the working state and the position information of the equipment.

105. And generating a lease contract based on the lease condition.

Specifically, when the equipment is changed from the non-operating state to the operating state and/or is moved from the warehouse area to the construction area, the start of the equipment lease period can be determined, and when the equipment is changed from the operating state to the non-operating state and/or is moved from the construction area to the warehouse area, the end of the equipment lease period can be determined, so that a lease contract can be generated through the determined equipment lease condition, thereby realizing the automatic generation of the lease contract.

According to the equipment lease management method provided by the embodiment of the invention, the working state and the position information of the equipment in each preset period are respectively determined by acquiring the working condition data and the positioning data of the equipment, then the lease condition of the equipment is further determined based on the working state and the position information of the equipment, and finally the lease contract is generated based on the lease condition of the equipment, namely, the construction area and the construction process of the equipment are analyzed by combining the working condition data of the equipment, so that assistance is provided for the lease service of the equipment, the lease management of the equipment is facilitated on the basis of reducing manpower, and the lease execution efficiency is improved.

Based on the content of the above embodiment, the working condition data is obtained according to a preset frequency;

the determining the working state of the equipment in each preset period based on the working condition data comprises the following steps:

determining the working state of the equipment at each moment in the preset period based on the working condition data, wherein the moment is a time point of acquiring the working condition data according to the preset frequency in the preset period;

determining whether the duration of the equipment in the starting state exceeds a preset duration or not based on the working state of the equipment at each moment;

if the duration of the equipment in the starting state exceeds the preset duration, determining that the working state of the equipment in the preset period is the starting state, otherwise, determining that the working state of the equipment in the preset period is the non-starting state.

Specifically, based on the change of the working condition data, the change of the working state of the equipment in the preset period can be determined, so that the purpose of accurately determining the working state of the equipment in the preset period can be achieved by acquiring the working condition data according to the preset frequency.

The preset frequency may be specifically set according to the operation characteristics of the device, personal needs, and the like, for example: may be 5s, 10s, 15s, etc.

More specifically, the working state of the equipment at each moment in the preset time period is determined based on the working condition data, whether the time length of the equipment in the starting state exceeds the preset time length is determined based on the working state of the equipment at each moment, and when the time length of the equipment in the starting state exceeds the preset time length, the working state of the equipment in the preset time period is determined to be the starting state, so that the short-term action of the equipment caused by position movement, equipment maintenance and the like can be effectively avoided, the equipment is misjudged to be the starting state, and the accuracy of determining whether the equipment is in the leasing state is improved.

Further, working condition data of the aerial working device can be obtained according to the preset frequency, and then whether the aerial working device is in a starting state or not every day is analyzed based on the working condition data.

In a specific embodiment, taking an aerial working device such as a lift truck as an example, whether the aerial working device is in a working state in a preset period (for example: day) can be determined by acquiring working condition data such as an on-line state, a shutdown state, a walking time length, a lifting time length, a load, a height and an angle of the aerial working device according to a preset frequency (for example: 5 s/time).

Specifically, after the high-altitude operation equipment is started, the running time of a running motor of the equipment is recorded, the daily running time of the high-altitude operation equipment can be calculated, the running time of a lifting motor of the equipment is recorded, the daily running time of the high-altitude operation equipment can be calculated, meanwhile, because the high-altitude operation equipment is lifted to a certain height or angle, the operation is stopped, so that workers can operate on the high-altitude operation equipment, the running time, the lifting height or angle, the lifting load and the turning-off time are recorded, then the running time, the lifting time, the turning-off time and the turning-on time of the high-altitude operation equipment are calculated, the running time, the lifting time and the working time of the high-altitude operation equipment are calculated to be smaller than the duration of a preset variable quantity, and finally, the running time, the lifting time and the working time of the high-altitude operation equipment can be obtained.

More specifically, when the duration of the working aloft equipment in the working state exceeds a preset duration (for example, 30min, 40min, 1h, etc.), it can be determined that the working aloft equipment is in the working state on the same day, otherwise, the working aloft equipment is not in the working state.

Based on the content of the foregoing embodiment, the determining, based on the working state and the location information, a rental situation of the device includes:

if the equipment is in a non-start-up state in the preset time period and is in a start-up state in the preset time period next to the preset time period, determining that the equipment is in the leasing state in the preset time period next to the preset time period;

if the device is in a start-up state in the preset time period and is in an unoperated state in the preset time period next to the preset time period and/or the distance between the position information of the device in the preset time period and the position information of the device in the preset time period next to the preset time period exceeds a preset distance threshold, determining that the device is in the non-leased state in the preset time period next to the preset time period.

Specifically, when the equipment is in the lease period, the equipment requiring party needs to apply the equipment to perform operation, so that the equipment is in a start-up state in a preset period included in the lease period, and when the equipment is leased, the equipment is returned to a warehouse area from a construction area or enters a next construction area after the equipment is leased, meanwhile, the possibility that the operation state is converted from the start-up state to the non-start-up state exists, so that the period of the equipment entering the lease state can be determined through the conversion of the operation state of the equipment in two adjacent preset periods from the non-start-up state to the start-up state, and/or the change of the position of the equipment can be determined through the conversion of the operation state of the equipment in two adjacent preset periods from the start-up state to the non-start-up state.

Based on the content of the foregoing embodiment, generating a lease contract based on the lease condition includes:

if the equipment is determined to be in the leasing state in the next preset period, taking the next preset period as a leasing approach period of the equipment, and taking the position information of the equipment in the next preset period as the construction area of the equipment;

taking the first preset time period, in which the equipment is in an unoperated state after the approach time period and/or the distance between the equipment and the construction area is greater than a first preset distance threshold value, as a leasing and departure time period of the equipment;

the lease contract is generated based on the lease approach period, the construction area, the lease departure period, and the type of the equipment.

It is understood that the rental contract mainly includes contents in terms of equipment type, rental duration, rental price, total price, construction area, and the like.

Specifically, when the working state of the device in the current preset period is the non-start-up state and the working state of the next preset period is the start-up state, this means that the device enters the working state from idle, i.e. the device starts to rent, so that the preset period in which the device is converted from the non-start-up state to the start-up state can be determined as the period in which the device renting starts, i.e. the renting approach period. When the equipment enters the lease period, the equipment is converted from the start-up state to the non-start-up state, which means that the equipment enters the idle state from the operation state, and the equipment lease end can be determined, so that the period of the equipment converted into the non-start-up state can be determined as the equipment departure period. In addition, if the equipment directly enters the lease period of another equipment requiring party after the lease of the current equipment requiring party is finished, the equipment directly enters the next construction area from the current construction area, at this time, the equipment is in a starting state in each preset period, but the lease period of the previous equipment requiring party is finished, so that the accuracy of determining the lease period can be further improved, and the accuracy of the generated lease contract is further ensured by reasonably setting a first preset distance threshold and determining that the lease of the equipment with respect to the current equipment requiring party is finished when the distance between the positions of two adjacent preset periods is greater than the first preset distance threshold.

Further, for determining the equipment renting approach period, the possibility that one construction area directly enters the other construction area also exists, so that when the equipment renting approach period is determined, the step of determining whether the distance between the positions of the equipment in adjacent preset periods is larger than a first preset distance threshold value can be further added, and the next preset period with the position of the equipment in the current preset period and the distance larger than the first preset distance threshold value is used as the starting period of the next renting period of the equipment, namely the next renting approach period, so that the accuracy of determining the equipment renting period is further improved.

Based on the content of the above embodiment, the device lease management method further includes:

determining whether the distance between the devices belonging to the same user is smaller than or equal to a second preset distance threshold value based on the position information;

determining that the equipment which is in the leasing state and has the distance smaller than or equal to the second preset distance threshold value is in the same construction area, and generating a leasing contract based on the leasing condition;

and determining that the equipment which is in the non-leased state and has the distance smaller than or equal to the second preset distance threshold value is in the same warehouse area.

It will be appreciated that a construction area may require multiple pieces of equipment to be leased for construction at the same time, for the same user, for example: and the renter contracts a plurality of devices rented to the same construction area together, so that the renting management of the devices is more convenient.

Specifically, considering that the range of the same construction area is limited, by presetting a second preset distance threshold value and then determining whether the distance between devices belonging to the same user is smaller than the second preset distance threshold value, whether a plurality of devices of the same user are leased for the construction area can be determined, and the purpose of jointly generating a leasing contract for the plurality of devices is achieved.

Similarly, for devices that are not in a powered-on state, it may also be determined that the devices are located within the same warehouse area when the distance between the devices is less than or equal to a second preset distance threshold.

Further, the second preset distance threshold may be set according to a general size of a construction area of the apparatus and a size of a warehouse area, for example: may be 1km, 1.5km, etc.

Based on the content of the above embodiment, the device lease management method further includes:

based on the lease contract, performing lease entrance records and lease exit records on the equipment;

and carrying out lease expense settlement on the equipment based on the lease contract, the type of the equipment and preset lease corresponding to the type.

Specifically, the equipment is subjected to the rental entrance record and the rental return record based on the rental contract, so that the equipment can be further convenient to manage, and the equipment is subjected to rental fee settlement based on the rental contract, the type of the equipment and preset rent, so that the manual operation can be further reduced, and the efficiency is improved.

Taking aerial working equipment as an example, a specific flow of performing equipment lease management by using the equipment lease management method provided in the above embodiment of the present invention is shown in fig. 2, and it can be understood that fig. 2 shows an example of equipment lease management method provided in the embodiment of the present invention, and thus specific parameters involved therein, such as a load greater than 100kg, a cumulative time of a single equipment per day greater than 30min, etc., are all exemplary, and do not represent that the present invention can be implemented only under the limitation of these parameters.

Specifically, the specific process of performing equipment lease management by adopting the equipment lease management method provided by the embodiment of the invention mainly comprises the following steps:

201. calculating the running time of each single device every day by accumulating the running time of the running motor, and entering a step 204;

202. calculating lifting time of a single device every day by accumulating the running time of the lifting motor, and entering a step 204;

203. recording the height and the load of equipment before operation and shutdown, checking the height and the load after startup, and recording the working time when the height difference is smaller than or equal to 0.1m and the load is larger than 100kg, and entering step 204;

204. determining whether the accumulated time length of each single device is greater than 30 minutes; if yes, go to step 2051; if not, go to step 2052;

2051. confirming the position information of the construction area of each device, and proceeding to step 206;

2052. recording warehouse areas of all the equipment;

206. determining whether the distance between the positions of the devices is less than or equal to 1km; if yes, go to step 2071; if not, go to step 2072;

2071. recording the approach time, the departure time, the equipment model number and the rent price of each piece of equipment, generating a contract, and calculating the contract revenue;

2072. recording the approach time, the departure time, the equipment model number and the rent price of each piece of equipment, respectively generating contracts, and calculating the camping of each contract.

By adopting the equipment lease management method provided by the embodiment of the invention, the running state of each equipment can be accurately recorded, the starting time of the equipment can be accurately calculated based on the working condition data of the equipment, and meanwhile, the construction area and the warehouse area of the equipment can be accurately determined based on the starting time and the positioning data of the equipment, so that the recording of the complete history of the construction area of the equipment is realized, the equipment lease management is further assisted, and the execution efficiency is improved.

The following describes a device lease management system provided in connection with 3, and the device lease management system described below and the device lease management method described above can be referred to correspondingly.

The equipment lease management system according to the embodiment of the invention, as shown in fig. 3, includes: a data acquisition module 310, a status determination module 320, a location determination module 330, a rental situation determination module 340, and a contract generation module 350; wherein,,

the data acquisition module 310 is configured to acquire operating mode data and positioning data of the device;

the state determining module 320 is configured to determine, based on the working condition data, a working state of the device in each preset period, where the working state includes: a start-up state and a non-start-up state;

the location determining module 330 is configured to determine location information of the device based on the positioning data, where the location information includes: a construction area and a warehouse area;

the rental situation determining module 340 is configured to determine a rental situation of the device based on the working state and the location information, where the rental situation includes: rental status and non-rental status;

the contract generation module 350 is configured to generate a lease contract based on the lease condition.

According to the equipment lease management system provided by the embodiment of the invention, the equipment lease condition is set based on the working condition data and the position information of the equipment by acquiring the working condition data and the position data of the equipment and then respectively determining the working condition of the equipment based on the working condition data and the position information of the equipment, so that the lease contract is automatically generated after the equipment lease condition is determined, the trouble of manually participating in data audit is avoided, the execution efficiency is improved, and the equipment lease management is facilitated.

Optionally, the data acquisition module 310 is specifically configured to:

and acquiring the working condition data of the equipment according to a preset frequency.

The state determining module 320 is specifically configured to:

determining the working state of the equipment at each moment in the preset period based on the working condition data, wherein the moment is a time point of acquiring the working condition data according to the preset frequency in the preset period;

determining whether the duration of the equipment in the starting state exceeds a preset duration or not based on the working state of the equipment at each moment;

if the duration of the equipment in the starting state exceeds the preset duration, determining that the working state of the equipment in the preset period is the starting state, otherwise, determining that the working state of the equipment in the preset period is the non-starting state.

Optionally, rental situation determination module 340 is specifically configured to:

if the equipment is in a non-start-up state in the preset time period and is in a start-up state in the preset time period next to the preset time period, determining that the equipment is in the leasing state in the preset time period next to the preset time period;

if the device is in a start-up state in the preset time period and is in an unoperated state in the preset time period next to the preset time period and/or the distance between the position information of the device in the preset time period and the position information of the device in the preset time period next to the preset time period exceeds a preset distance threshold, determining that the device is in the non-leased state in the preset time period next to the preset time period.

Optionally, the contract generation module 350 is specifically configured to:

if the equipment is determined to be in the leasing state in the next preset period, taking the next preset period as a leasing approach period of the equipment, and taking the position information of the equipment in the next preset period as the construction area of the equipment;

taking the first preset time period, in which the equipment is in an unoperated state after the approach time period and/or the distance between the equipment and the construction area is greater than a first preset distance threshold value, as a leasing and departure time period of the equipment;

the lease contract is generated based on the lease approach period, the construction area, the lease departure period, and the type of the equipment.

Optionally, the contract generation module 350 is further configured to:

determining whether the distance between the devices belonging to the same user is smaller than or equal to a second preset distance threshold value based on the position information;

determining that the equipment which is in the leasing state and has the distance smaller than or equal to the second preset distance threshold value is in the same construction area, and generating a leasing contract based on the leasing condition;

and determining that the equipment which is in the non-leased state and has the distance smaller than or equal to the second preset distance threshold value is in the same warehouse area.

Optionally, the method further comprises: a fee settlement module;

the expense settlement module is specifically used for:

based on the lease contract, performing lease entrance records and lease exit records on the equipment;

and carrying out lease expense settlement on the equipment based on the lease contract, the type of the equipment and preset lease corresponding to the type.

The embodiment of the invention also provides a working machine, which comprises the equipment lease management system according to any one of the embodiments, or performs lease management of the working machine by adopting the equipment lease management method according to any one of the embodiments.

It may be appreciated that the working machine including the equipment lease management system according to any one of the embodiments or the working machine performing lease management by using the equipment lease management method provided by any one of the embodiments has all the advantages and technical effects of the equipment lease management system or the equipment lease management method described in any one of the embodiments, and are not described herein.

Based on the foregoing embodiment, the work machine is an overhead apparatus;

the working state of the high-altitude equipment in the preset period is determined based on the sum of the walking time, the lifting time and the working time of the high-altitude equipment in the preset period, wherein the working time is the duration that the load is larger than a preset weight threshold value and the variation of the lifting height is smaller than the preset height threshold value after the high-altitude equipment is lifted.

Fig. 4 illustrates a physical schematic diagram of an electronic device, as shown in fig. 4, which may include: processor 410, communication interface (Communications Interface) 420, memory 430 and communication bus 440, wherein processor 410, communication interface 420 and memory 430 communicate with each other via communication bus 440. Processor 410 may invoke logic instructions in memory 430 to perform a device lease management method comprising: acquiring working condition data and positioning data of equipment; based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state; determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area; based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status; and generating a lease contract based on the lease condition.

Further, the logic instructions in the memory 430 described above may be implemented in the form of software functional units and may be stored in a computer-readable storage medium when sold or used as a stand-alone product. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a Read-only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In another aspect, the present invention also provides a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions which, when executed by a computer, are capable of performing a device lease management method provided by the above methods, the method comprising: acquiring working condition data and positioning data of equipment; based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state; determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area; based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status; and generating a lease contract based on the lease condition.

In yet another aspect, the present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program which when executed by a processor implements a device lease management method, the method comprising: acquiring working condition data and positioning data of equipment; based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state; determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area; based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status; and generating a lease contract based on the lease condition.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A device lease management method, comprising:

acquiring working condition data and positioning data of equipment;

based on the working condition data, determining the working state of the equipment in each preset period, wherein the working state comprises the following steps: a start-up state and a non-start-up state;

determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area;

based on the working state and the position information, determining a leasing condition of the equipment, wherein the leasing condition comprises the following steps: rental status and non-rental status;

and generating a lease contract based on the lease condition.

2. The equipment rental management method of claim 1, wherein the operating mode data is obtained according to a preset frequency;

the determining the working state of the equipment in each preset period based on the working condition data comprises the following steps:

determining the working state of the equipment at each moment in the preset period based on the working condition data, wherein the moment is a time point of acquiring the working condition data according to the preset frequency in the preset period;

determining whether the duration of the equipment in the starting state exceeds a preset duration or not based on the working state of the equipment at each moment;

if the duration of the equipment in the starting state exceeds the preset duration, determining that the working state of the equipment in the preset period is the starting state, otherwise, determining that the working state of the equipment in the preset period is the non-starting state.

3. The equipment rental management method of claim 1, wherein the determining a rental condition of the equipment based on the operating state and the location information comprises:

if the equipment is in a non-start-up state in the preset time period and is in a start-up state in the preset time period next to the preset time period, determining that the equipment is in the leasing state in the preset time period next to the preset time period;

if the device is in a start-up state in the preset time period and is in an unoperated state in the preset time period next to the preset time period and/or the distance between the position information of the device in the preset time period and the position information of the device in the preset time period next to the preset time period exceeds a preset distance threshold, determining that the device is in the non-leased state in the preset time period next to the preset time period.

4. The equipment rental management method of claim 3, wherein the generating a rental contract based on the rental conditions comprises:

if the equipment is determined to be in the leasing state in the next preset period, taking the next preset period as a leasing approach period of the equipment, and taking the position information of the equipment in the next preset period as the construction area of the equipment;

taking the first preset time period, in which the equipment is in an unoperated state after the approach time period and/or the distance between the equipment and the construction area is greater than a first preset distance threshold value, as a leasing and departure time period of the equipment;

the lease contract is generated based on the lease approach period, the construction area, the lease departure period, and the type of the equipment.

5. The equipment rental management method of claim 4, further comprising:

determining whether the distance between the devices belonging to the same user is smaller than or equal to a second preset distance threshold value based on the position information;

determining that the equipment which is in the leasing state and has the distance smaller than or equal to the second preset distance threshold value is in the same construction area, and generating a leasing contract based on the leasing condition;

and determining that the equipment which is in the non-leased state and has the distance smaller than or equal to the second preset distance threshold value is in the same warehouse area.

6. The equipment rental management method of any one of claims 1-5, further comprising:

based on the lease contract, performing lease entrance records and lease exit records on the equipment;

and carrying out lease expense settlement on the equipment based on the lease contract, the type of the equipment and preset lease corresponding to the type.

7. A device lease management system, comprising:

the data acquisition module is used for acquiring working condition data and positioning data of the equipment;

the state determining module is used for determining the working state of the equipment in each preset period based on the working condition data, and the working state comprises the following steps: a start-up state and a non-start-up state;

a location determination module for determining location information of the device based on the positioning data, the location information comprising: a construction area and a warehouse area;

the lease condition determining module is configured to determine a lease condition of the device based on the working state and the location information, where the lease condition includes: rental status and non-rental status;

and the contract generation module is used for generating a lease contract based on the lease condition.

8. A work machine comprising the equipment lease management system as claimed in claim 7, or performing lease management of the work machine using the equipment lease management method as claimed in any one of claims 1 to 6.

9. The work machine of claim 8, wherein the work machine is an overhead equipment;

the working state of the high-altitude equipment in the preset period is determined based on the sum of the walking time, the lifting time and the working time of the high-altitude equipment in the preset period, wherein the working time is the duration that the load is larger than a preset weight threshold value and the variation of the lifting height is smaller than the preset height threshold value after the high-altitude equipment is lifted.

10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the device lease management method of any one of claims 1 to 6 when executing the computer program.

Images