CN116011744A - Automatic distribution method and system for mechanical equipment in nuclear power building field - Google Patents

Abstract

The disclosure relates to an automatic distribution method and system of mechanical equipment in the field of nuclear power buildings. The method comprises the following steps: the nuclear power construction site server receives a use request message of the mechanical equipment sent by a first nuclear power construction team client; determining a mechanical equipment database according to the name and the use time of mechanical equipment, wherein idle mechanical equipment corresponding to the name of the mechanical equipment exists in the use time, and sending the identification of the idle mechanical equipment to the nuclear power first construction team; and the nuclear power first construction team obtains the mechanical equipment to construct according to the identification of the mechanical equipment. The application provides a bottom-up mechanical equipment distribution method in the nuclear power construction field, which improves the active reservation capacity of each construction team for the use of mechanical equipment, is beneficial to improving the scientificity of mechanical equipment distribution in the nuclear power building construction from the overall level, and is beneficial to improving the working efficiency of the whole nuclear power building engineering.

Description

Automatic distribution method and system for mechanical equipment in nuclear power building field

Technical Field

The disclosure relates to the technical field of nuclear power buildings, in particular to an automatic distribution method and system of mechanical equipment in the field of nuclear power buildings.

Background

In the field of nuclear power building construction, the upper level actively distributes mechanical equipment for each construction team. The problem with this top-down mechanism for distributing mechanical equipment is that, due to the actual engineering construction, each construction team may cause a change in the construction progress, thereby causing a change in the time required for the mechanical equipment. For example, there are construction teams that do not currently require mechanical equipment for various reasons, but are assigned, and there are construction teams that require the mechanical equipment without pre-assigning the mechanical equipment, reducing the efficiency of construction from an overall level.

Disclosure of Invention

In order to overcome the problems in the related art, the present disclosure provides an automatic distribution method and system of mechanical devices in the field of nuclear power architecture, so as to solve the above technical problems.

According to a first aspect of embodiments of the present disclosure, there is provided a method for automatically distributing mechanical devices in the field of nuclear power architecture, the method comprising:

the nuclear power building intelligent system at least comprises: the nuclear power construction site service end is respectively connected with a nuclear power construction team client; the number of the nuclear power construction team clients is multiple, and a client is arranged for each nuclear power construction team;

the nuclear power construction team includes: a nuclear island construction team, a conventional island construction team;

the number of the nuclear island construction teams and the number of the conventional island construction teams are one or more respectively;

the method comprises the following steps:

the nuclear power construction site server receives a use request message of mechanical equipment sent by a first nuclear power construction team client;

the use request message carries the identifier of the nuclear power construction team, the name of the mechanical equipment to be used and the use time of the mechanical equipment;

determining a mechanical equipment database according to the name of the mechanical equipment and the use time, wherein in the use time, idle mechanical equipment corresponding to the name of the mechanical equipment exists, and sending the identification of the idle mechanical equipment to the nuclear power first construction team;

and the nuclear power first construction team obtains the mechanical equipment to construct according to the identification of the mechanical equipment.

In one embodiment, in response to determining that no free machine device corresponding to the machine device name exists in the machine device database according to the machine device name and the use time, a use state request message of the machine device is sent to a second construction team client which has allocated the machine device, so that the second construction team client feeds back the use state of the machine device.

In one embodiment, the usage status request message includes a first time that the mechanical device has been used, and a second time that the mechanical device needs to be used;

if the number of the second construction teams is multiple, sequencing the second time according to the sequence from big to small, and determining the minimum second time;

and sending the minimum second time and a second construction team to the first construction team client.

In one embodiment, in response to receiving a usage status feedback message of a machine that is sent by a second construction team client that has assigned a machine, the method further comprises, after determining that no machine is idle at the point in time:

and sending an engineering promotion message to the second construction team client to enable the second construction team to accelerate construction progress or to carry out construction period adjustment so as to finish the use of the mechanical equipment before the use time.

In one embodiment, the mechanical device comprises: tower crane, weight type concrete spreader, concrete pump truck, automobile crane, and concrete mixing truck.

In one embodiment, a mechanical equipment utilization rate statistics table is set in the mechanical equipment database, and states, identifications, models, names, using units, engineering projects, target construction units, construction teams and using time periods of each mechanical equipment are recorded in the mechanical equipment utilization rate statistics table.

In one embodiment, the mechanical device database is further configured to support various types of queries for mechanical devices;

wherein the query for the mechanical device comprises:

inquiring the type of the mechanical equipment, and responding to the retrieval operation of the name keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the name keywords;

inquiring the use state of the mechanical equipment, and responding to the retrieval operation of the key words of the use state to inquire the mechanical equipment corresponding to the use state;

and inquiring the time of the mechanical equipment, and responding to the retrieval operation of the time keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the time keywords.

In one embodiment, after the nuclear power first construction team retrieves the mechanical device according to the identification of the mechanical device, the method further comprises:

the nuclear power first construction team client adds related data of the mechanical equipment in the mechanical equipment database according to construction content, and the method comprises the following steps:

the user adding the mechanical equipment is a nuclear power first construction team;

and adding engineering projects, target construction unit names and using time periods of the mechanical equipment.

In one embodiment, after the first nuclear power team uses the mechanical equipment to construct, the method further includes:

returning the mechanical equipment by the nuclear power first construction team;

and the nuclear power first construction team client adds the state of the mechanical equipment in the mechanical equipment database, sets the state as idle, and sets the user as idle.

In a second aspect, the present application proposes an automatic distribution system of mechanical devices in the field of nuclear power architecture, comprising at least: the nuclear power construction site service end is respectively connected with a nuclear power construction team client; the number of the nuclear power construction team clients is multiple, and a client is arranged for each nuclear power construction team;

the nuclear power construction team includes: a nuclear island construction team, a conventional island construction team;

the number of the nuclear island construction teams and the number of the conventional island construction teams are one or more respectively;

the nuclear power construction site server is used for receiving a use request message of the mechanical equipment sent by the first nuclear power construction team client;

the use request message carries the identifier of the nuclear power construction team, the name of the mechanical equipment to be used and the use time of the mechanical equipment;

and determining a mechanical equipment database according to the names of the mechanical equipment and the using time, wherein in the using time, idle mechanical equipment corresponding to the mechanical equipment names exists, and sending the identification of the idle mechanical equipment to the nuclear power first construction team so that the nuclear power first construction team can pick up the mechanical equipment for construction according to the identification of the mechanical equipment.

According to a third aspect of embodiments of the present disclosure, there is provided an electronic device, applied to a server, including: a processor; a memory for storing processor-executable instructions; wherein the processor is configured to execute the executable instructions to implement the steps of the method performed by the service end of the nuclear power construction site provided in the first aspect of the present disclosure.

According to a fourth aspect of embodiments of the present disclosure, there is provided a non-transitory computer readable storage medium, for application to a server, having stored thereon computer program instructions which, when executed by a processor, implement the steps of the method for performing by a service end of a nuclear power construction site provided in the first aspect of the present disclosure.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects: the application provides a bottom-up mechanical equipment distribution method in the nuclear power construction field, a construction team can actively send a use request message of mechanical equipment to a server through a client, the message carries an identification of the nuclear power construction team, a name of the mechanical equipment to be used and the use time of the mechanical equipment, the server determines that the mechanical equipment is idle in a warehouse in the use time, and then feeds back the message to the client. And the nuclear power construction team takes the mechanical equipment for construction. The active reservation capacity of each construction team for the use of the mechanical equipment is improved, and the problems that in the related technology, the mechanical equipment is actively distributed at an upper level, but the mechanical equipment cannot be distributed reasonably due to the fact that each construction team cannot be used according to the specified time due to the fact that the construction team is in actual construction, the mechanical equipment of some construction teams is idle, and some construction teams lack the mechanical equipment are solved. The method is beneficial to improving the scientificity of mechanical equipment distribution in the nuclear power building construction and improving the working efficiency of the whole nuclear power building engineering.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic diagram illustrating an automated distribution system for mechanical equipment in the field of nuclear power construction, according to an exemplary embodiment;

FIG. 2 is a flow chart illustrating a method of automatically assigning mechanical devices in a nuclear power building field according to an exemplary embodiment;

FIG. 3 is a table of annual mechanical device utilization statistics, shown in accordance with an exemplary embodiment;

fig. 4 is a schematic diagram of an electronic device according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

It should be noted that, all actions for acquiring signals, information or data in the present application are performed under the condition of conforming to the corresponding data protection rule policy of the country of the location and obtaining the authorization given by the owner of the corresponding device.

The application proposes an automatic distribution system of mechanical equipment in the field of nuclear power architecture, see fig. 1, which at least comprises: and the nuclear power construction site server 11 is respectively connected with nuclear power construction team clients 12 of the nuclear power construction site server 11.

Based on the system, the application provides an automatic distribution method of mechanical equipment in the field of nuclear power buildings, and the automatic distribution method is shown in a flow chart of the automatic distribution method of the mechanical equipment in the field of nuclear power buildings in the attached figure 2. The method may comprise the steps of:

in step S102, the service end of the nuclear power construction site receives a use request message of the mechanical equipment sent by the client end of the first nuclear power construction team. The message carries the identification of the nuclear power construction team, the name of the mechanical equipment to be used and the service time of the mechanical equipment.

In this embodiment, the mechanical device includes, but is not limited to: tower crane, weight type concrete spreader, concrete pump truck, truck crane and concrete mixing truck.

When the nuclear power construction team needs to use the mechanical equipment, the client of the nuclear power construction team can be used for sending a use request message of the mechanical equipment to the service end of the nuclear power construction site in advance before the time point of using the mechanical equipment, and the advance time can be several days. An identifier may be set in advance for each construction team, and the identifier may be an arabic numeral, or a letter. For the same kind of mechanical devices, a unique identifier may be assigned to each mechanical device in advance.

In step S104, determining, according to the name of the mechanical device and the usage time, that in the mechanical device database, at the usage time, there is an idle mechanical device corresponding to the name of the mechanical device, and sending an identifier of the idle mechanical device to the first nuclear power construction team client.

By way of example, the machine may be a concrete mixer with a service time of 2023, 1.month.1.days, and the machine database determines that there are a plurality of concrete mixers in an idle state at 2023, 1.month.1.days. And randomly selecting an idle concrete mixer, and sending the identification of the concrete mixer to the first nuclear power construction team client. And recording in the server side to generate a use list of the mechanical equipment, wherein reservation information of each mechanical equipment is recorded in the list, and the reservation information comprises the identification of a construction team and the use time of the mechanical equipment.

In step S106, the first nuclear power construction team obtains the mechanical equipment according to the identifier of the mechanical equipment to perform construction.

In this embodiment, after the first nuclear power construction team client receives and displays the identifier of the idle mechanical device, the first nuclear power construction team receives the mechanical device according to the identifier of the mechanical device to perform construction.

According to the method, the construction team can actively send the use request message of the mechanical equipment to the nuclear power construction site server through the nuclear power construction team client, the message carries the identification of the nuclear power construction team, the name of the mechanical equipment to be used and the use time of the mechanical equipment, and the nuclear power construction site server determines that the nuclear power construction site server is in a warehouse, and at the use time, the mechanical equipment is idle, and feeds back the message to the nuclear power construction team client. And the nuclear power construction team takes the mechanical equipment for construction. The method improves the active reservation capability of each construction team for the use of the mechanical equipment, and solves the technical problems that in the related technology, the upper level actively distributes the mechanical equipment for each construction team, but because each construction team cannot be used according to the specified time due to the reasons in actual construction, the distribution of the mechanical equipment is unreasonable, the mechanical equipment of some construction teams is idle, and the utilization rate of the whole mechanical equipment of some construction teams lacking the mechanical equipment is not high.

In one embodiment, in response to determining that no free machine device corresponding to the machine device name exists in the machine device database according to the machine device name and the use time, a use state request message of the machine device is sent to a second construction team client which has allocated the machine device, so that the second construction team client feeds back the use state of the machine device.

In this embodiment, the above-mentioned nuclear power construction site server searches from the mechanical equipment usage list according to the name of the mechanical equipment and the usage time in the received message, and searches whether there is any free mechanical equipment at the time point. If not, a request message of the use state of the mechanical equipment needs to be sent to a second construction team client which is allocated with the mechanical equipment, so that the second construction team client feeds back the use state of the mechanical equipment.

Illustratively, the number of second construction teams is 5, namely construction team 1, construction team 2, construction team 3, construction team 4 and construction team 5, respectively. The 5 concrete mixers are already allocated to the 5 construction teams for use, and the nuclear power construction site service end respectively sends a use state request message to the 5 nuclear power construction team clients so as to inquire the use states of the 5 concrete mixers. The nuclear power construction site service end receives the feedback information of each nuclear power construction team client end, determines that the construction teams 1 to 4 cannot return to the concrete mixer before 1 month and 1 day, only the construction teams 5 can return to the concrete mixer 5 before 1 month and 1 day, and determines the identification 5 of the concrete mixer 5 capable of being returned. The nuclear power construction site service end sends the identifier 5 of the recoverable concrete mixer 5 and the identifier 5 of the construction team to the first nuclear power construction team client end, so that the first nuclear power construction team client end can find the construction team 5 according to the construction team identifier 5, and the recoverable concrete mixer 5 is obtained from the construction team 5.

According to the method, the construction teams of the used mechanical equipment are inquired, so that the idling of the mechanical equipment is avoided, communication between the construction teams is promoted, the communication efficiency between the construction teams is improved, and the optimal configuration of the mechanical equipment in the nuclear power construction field is realized.

In one embodiment, the usage status request message includes a first time that the mechanical device has been used, and a second time that the mechanical device needs to be used. And if the number of the second construction teams is multiple, sequencing the second time according to the sequence from big to small, and determining the smallest second time. And sending the minimum second time and a second construction team to the first construction team client.

For example, in the above 5 construction teams, the time required for the concrete mixer to be used is respectively: construction team 1, where mechanical equipment has been used, for 4 days; 3 days of the 2 nd construction team that has used the mechanical equipment; 3 rd team 2 days that mechanical equipment has been used; day 4 of the construction team that has used the mechanical equipment for 2 days; the 5 th construction team, which has used mechanical equipment, is 1 day. The 5 construction teams are sorted from small to small according to time, a sorting list is obtained, the sorting list is sent to a first construction team client side for 1 day, and after the first construction team receives the 5 th construction team identification of the used mechanical equipment, the 5 th construction team of the used mechanical equipment can be found, and the concrete mixer for receiving the 5 th construction team is ready to use.

In some embodiments, in response to receiving a usage status feedback message of a machine that has been sent by a second construction team client that has assigned a machine, the method may further include the steps of:

and sending an engineering promotion message to the second construction team client to enable the second construction team to accelerate construction progress or to carry out construction period adjustment so as to finish the use of the mechanical equipment before the use time.

In this embodiment, the service end of the nuclear power construction site receives the 5 feedback messages, and the 5 construction teams determine that the concrete mixer cannot be returned in 1 month and 1 day, and then the service end of the nuclear power construction site sends an engineering prompting message to enable the 5 construction teams to accelerate the construction progress, or adjust the construction period, so as to complete the use of the mechanical equipment at the starting time point.

According to the method, the optimized configuration of the mechanical equipment can be realized by urging the construction teams of the used mechanical equipment, so that the idling of the mechanical equipment is avoided, the communication between the construction teams is promoted, and the communication efficiency between the construction teams is improved. The method is favorable for realizing the optimal use configuration of mechanical equipment in the field of nuclear power construction.

In one embodiment, a mechanical equipment utilization rate statistics table is set in the mechanical equipment database, and states, identifications, models, names, using units, engineering projects, target construction units, construction teams and using time periods of each mechanical equipment are recorded in the mechanical equipment utilization rate statistics table.

Referring to fig. 3, a statistical table of annual mechanical device utilization is shown, in which the name, model, usage item, and usage status of each mechanical device for each month are recorded. The use state comprises: is disabled, or used. To achieve more accurate time statistics, the time may also be set to be specific to the date in days.

In one embodiment, the machine database is further configured to support various types of queries for the machine.

Wherein the query for the mechanical device comprises:

inquiring the type of the mechanical equipment, and responding to the retrieval operation of the name keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the name keywords;

inquiring the use state of the mechanical equipment, and responding to the retrieval operation of the key words of the use state to inquire the mechanical equipment corresponding to the use state;

and inquiring the time of the mechanical equipment, and responding to the retrieval operation of the time keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the time keywords.

Referring to fig. 3, in a query interface of a client of a nuclear power construction team, a keyword input box is provided, where the keyword input box is used to input keywords, and the keywords may be names, use states or use time of the mechanical equipment, or a combination of the keywords. After the user inputs the keywords, clicking and inquiring, the nuclear power construction team client sends an inquiry request to the nuclear power construction team server, and after the nuclear power construction team server searches for corresponding results according to the keywords, the nuclear power construction team server sends the inquiry results to a display interface of the nuclear power construction team client for display.

For example, the user may input the keyword 2023 month 2, concrete mixer, in use, and may query the collection of concrete mixers in use 2023 month 2.

According to the method, a user can inquire mechanical equipment at the client of the nuclear power construction team, and the server of the nuclear power construction team can inquire according to the database. In the database, the related data of the mechanical equipment are recorded and updated in real time, so that a user can inquire the mechanical equipment interested by the user, an accurate inquiring result of the related information of the mechanical equipment can be obtained, and the searching efficiency and effect of the mechanical equipment are improved. The user experience is improved.

In one embodiment, after the nuclear power first construction team retrieves the mechanical device according to the identification of the mechanical device, the method may further include the steps of: the nuclear power first construction team client adds related data of the mechanical equipment in the mechanical equipment database according to construction content, and specifically comprises the following steps: the user adding the mechanical equipment is a nuclear power first construction team; and adding the engineering project, the target construction unit name and the current use time period of the mechanical equipment.

In this embodiment, the client of the first nuclear power construction team may actively modify the mechanical device database, for example, the current user of the mechanical device may be added to be the first nuclear power construction team; and adding the engineering project, the target construction unit name and the current use time period of the mechanical equipment. Thus, the real-time update of the mechanical equipment database can be realized, and the use state of each mechanical equipment, the used construction team and the used engineering project in each history period can be recorded.

In some embodiments, the usage of each machine may also be recorded in the machine database, including no fault, faulty. If there is a fault, a specific description of the fault is included. Maintenance records, maintenance costs, such as replacement part specifications, replacement part costs, and the like.

In one embodiment, after the first nuclear power team is constructed using the mechanical equipment, the method may further include the steps of:

returning the mechanical equipment by the nuclear power first construction team;

and the nuclear power first construction team client adds the state of the mechanical equipment in the mechanical equipment database, sets the state as idle, and sets the user as idle.

In this embodiment, after the nuclear power first construction team finishes using the mechanical equipment, return is performed. Logging in the nuclear power construction service end by the nuclear power first construction team client, adding the current state of the mechanical equipment into the mechanical equipment database, setting the current state as idle, and setting the current user as idle.

In some embodiments, the mechanical device database further includes a daily schedule of use for each mechanical device: in the daily use schedule of the machine, a time record of each machine used per day by each construction team is recorded.

For example, see Table 1 for a schedule of use of the tower crane identified as 4-1 in African, month X, and morning:

TABLE 1

In Table 1, the time schedule for use of the tower crane identified as 4-1 was recorded at X year, month, and day X morning. Wherein, in the time period of 8:20 to 8:50, the construction team is used by the nuclear island 1 team; for a period of 7:20 to 7:40, by the nuclear island 2 team, and for a period of 9:20 to 10:20, by the nuclear island 3 team.

In a second aspect, the present application proposes an automatic distribution system for mechanical devices in the field of nuclear power architecture, as shown in fig. 1. The number of the nuclear power construction team clients 12 is multiple, and a client is arranged for each nuclear power construction team. The nuclear power construction team includes: nuclear island construction teams and conventional island construction teams. The number of the nuclear island construction team and the conventional island construction team is one or more respectively. The conventional island comprises a turbine room, a cooling water pump room, a water treatment plant room, a nuclear fuel plant room and the like. The nuclear island and the conventional island can be constructed by a plurality of construction teams at the same time. Each construction team has a use requirement for mechanical equipment, and the client side of the self nuclear power construction team can interact with the service end of the nuclear power construction site to perform use information interaction on the mechanical equipment.

The nuclear power construction site service end 11 is used for distributing mechanical equipment identifiers to each nuclear power construction team client end 12.

In this embodiment, a nuclear power construction site server may be set on the site of nuclear power construction, where relevant data of the nuclear power construction is stored, and the above-mentioned nuclear power construction site server is installed.

The nuclear power construction team client 12 is configured to receive the mechanical equipment identifier allocated by the nuclear power construction site server 11, so that the nuclear power construction team obtains the mechanical equipment from a warehouse of the nuclear power construction site according to the allocated mechanical equipment identifier for construction.

In this embodiment, mobile electronic devices may be provided for each nuclear power construction team, where the electronic devices may be mobile phones, PADs, notebook computers, intelligent wearable devices, and the like, and the electronic devices may access the above-mentioned nuclear power construction site service end through a browser or an application program APP.

The above-mentioned nuclear power construction site service end 11 is configured to receive a use request message of a mechanical device sent by a first nuclear power construction team client, where the use request message carries an identifier of the nuclear power construction team, a name of the mechanical device to be used, and a use time of the mechanical device.

And determining a mechanical equipment database according to the names of the mechanical equipment and the using time, wherein in the using time, idle mechanical equipment corresponding to the mechanical equipment names exists, and sending the identification of the idle mechanical equipment to the nuclear power first construction team so that the nuclear power first construction team can pick up the mechanical equipment for construction according to the identification of the mechanical equipment.

According to the system, the nuclear power construction site service end and the nuclear power construction team clients are arranged, so that each construction team can actively send the use request message of the mechanical equipment to the nuclear power construction site service end through the nuclear power construction team clients, and after the idle mechanical equipment is determined, the nuclear power construction team can pick up the mechanical equipment for construction. The method improves the initiative of each construction team for using mechanical equipment, solves the technical problems that in the related technology, the superior initiative distributes the mechanical equipment for each construction team, but because each construction team cannot be used according to the regulated time due to the reasons in actual construction, the mechanical equipment of the construction team is idle, and the whole mechanical equipment of the construction team lacks the mechanical equipment and the utilization rate of the whole mechanical equipment of the construction team is low, and improves the interactivity between each construction team and the superior level from the whole level.

In one embodiment, the above-mentioned nuclear power construction site service end 11 is further configured to, in response to determining, according to the name of the machine and the usage time, that there is no free machine corresponding to the machine name in the machine database, send a usage status request message of the machine to a second construction team client that has allocated the machine, so that the second construction team client feeds back the usage status of the machine.

In an embodiment, the service end 11 of the nuclear power construction site is further configured to determine a minimum second time by sequencing the second times according to a sequence from big to small if the number of the second construction teams is multiple, and send the minimum second time and the second construction teams to the first construction team client.

In one embodiment, the nuclear power construction site service end 11 is further configured to, in response to receiving the feedback message of the usage status of the mechanical device sent by the second construction team client, determine that no mechanical device is idle at the time point, send an engineering promotion message to the second construction team client, so that the second construction team accelerates the construction progress, or make a construction period adjustment, so as to complete the usage of the mechanical device before the usage time.

In one embodiment, the above-mentioned service end 11 of the nuclear power construction site is further configured to, in response to an operation of the first nuclear power construction team client in the mechanical equipment database after the first nuclear power construction team retrieves the mechanical equipment according to the identifier of the mechanical equipment, add relevant data of the mechanical equipment according to construction content, including: the user adding the mechanical equipment is a nuclear power first construction team; and adding engineering projects, target construction unit names and using time periods of the mechanical equipment.

In one embodiment, the above-mentioned nuclear power construction site service end 11 is further configured to, in response to an operation of the nuclear power first construction team client in the mechanical equipment database when the mechanical equipment is returned after the construction of the nuclear power first construction team using the mechanical equipment is completed, add a state of the mechanical equipment, set the state to idle, and set a user to null.

In a fourth aspect, the present application further provides an electronic device, applied to a nuclear power construction site server, referring to fig. 4, where the electronic device includes: a processor 41; a memory 42 for storing processor-executable instructions; wherein the processor 41 is configured to execute the executable instructions to implement a method of performing any of the above-described nuclear power construction site service end.

In the embodiment of the invention, the processor may be an integrated circuit chip with signal processing capability. The processor may be a general purpose processor, a digital signal processor (Digital Signal Processor, DSP for short), an application specific integrated circuit (Application Specific Integrated Circuit, ASIC for short), a field programmable gate array (Field Programmable Gate Array, FPGA for short), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

The disclosed methods, steps, and logic blocks in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present invention may be embodied directly in the execution of a hardware decoding processor, or in the execution of a combination of hardware and software modules in a decoding processor. The software modules may be located in a random access memory, flash memory, read only memory, programmable read only memory, or electrically erasable programmable memory, registers, etc. as well known in the art. The processor reads the information in the storage medium and, in combination with its hardware, performs the steps of the above method.

The storage medium may be memory, for example, may be volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory.

The storage media described in embodiments of the present invention are intended to comprise, without being limited to, these and any other suitable types of memory.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. An automatic distribution method of mechanical equipment in the field of nuclear power construction is characterized in that,

the automatic distribution system of mechanical equipment in the nuclear power building field at least comprises: the nuclear power construction site service end is respectively connected with a nuclear power construction team client; the number of the nuclear power construction team clients is multiple, and a client is arranged for each nuclear power construction team;

the nuclear power construction team includes: a nuclear island construction team, a conventional island construction team;

the number of the nuclear island construction teams and the number of the conventional island construction teams are one or more respectively;

the method comprises the following steps:

the nuclear power construction site server receives a use request message of mechanical equipment sent by a first nuclear power construction team client;

the use request message carries the identifier of the nuclear power construction team, the name of the mechanical equipment to be used and the use time of the mechanical equipment;

determining a mechanical equipment database according to the name of the mechanical equipment and the use time, wherein in the use time, idle mechanical equipment corresponding to the name of the mechanical equipment exists, and sending the identification of the idle mechanical equipment to the nuclear power first construction team;

and the nuclear power first construction team obtains the mechanical equipment to construct according to the identification of the mechanical equipment.

2. The method for automatic allocation of mechanical devices in the field of nuclear power construction according to claim 1, wherein,

and in response to the fact that the idle mechanical equipment corresponding to the mechanical equipment name does not exist in the mechanical equipment database according to the mechanical equipment name and the using time, sending a using state request message of the mechanical equipment to a second construction team client side which is allocated with the mechanical equipment, and enabling the second construction team client side to feed back the using state of the mechanical equipment.

3. The method for automatic allocation of mechanical devices in the field of nuclear power construction according to claim 2, characterized in that,

the using state request message comprises a first time of the mechanical equipment, which is used, and a second time of the mechanical equipment, which is needed to be used;

if the number of the second construction teams is multiple, sequencing the second time according to the sequence from big to small, and determining the minimum second time;

and sending the minimum second time and a second construction team to the first construction team client.

4. The method for automatic allocation of mechanical devices in the field of nuclear power construction according to claim 2, characterized in that,

in response to receiving a usage status feedback message of a machine that has been sent by a second construction team client that has assigned the machine, determining that no machine is idle at the point in time, the method further comprises:

and sending an engineering promotion message to the second construction team client to enable the second construction team to accelerate construction progress or to carry out construction period adjustment so as to finish the use of the mechanical equipment before the use time.

5. The method for automatic allocation of mechanical devices in the field of nuclear power construction according to claim 1, wherein,

the mechanical device comprises: tower crane, weight type concrete spreader, concrete pump truck, automobile crane, and concrete mixing truck.

6. The method for automatically distributing mechanical equipment in the field of nuclear power construction according to claim 3, wherein,

the mechanical equipment database is provided with a mechanical equipment utilization rate statistical table, and the state, the identification, the model, the name, the using unit, the engineering project, the target construction unit, the construction team and the using time period of each mechanical equipment are recorded in the mechanical equipment utilization rate statistical table.

7. The method for automatically distributing mechanical equipment in the field of nuclear power construction according to claim 6, wherein,

the mechanical equipment database is also used for supporting various types of inquiry on mechanical equipment;

wherein the query for the mechanical device comprises:

inquiring the type of the mechanical equipment, and responding to the retrieval operation of the name keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the name keywords;

inquiring the use state of the mechanical equipment, and responding to the retrieval operation of the key words of the use state to inquire the mechanical equipment corresponding to the use state;

and inquiring the time of the mechanical equipment, and responding to the retrieval operation of the time keywords of the mechanical equipment, and inquiring the mechanical equipment corresponding to the time keywords.

8. The method for automatic allocation of mechanical devices in the field of nuclear power construction according to claim 1, wherein,

after the nuclear power first construction team retrieves the mechanical equipment according to the identification of the mechanical equipment, the method further comprises:

the nuclear power first construction team client adds related data of the mechanical equipment in the mechanical equipment database according to construction content, and the method comprises the following steps:

the user adding the mechanical equipment is a nuclear power first construction team;

and adding engineering projects, target construction unit names and using time periods of the mechanical equipment.

9. The method for automatically distributing mechanical equipment in the field of nuclear power construction according to claim 8, wherein,

after the nuclear power first construction team uses the mechanical equipment to finish construction, the method further comprises the following steps:

returning the mechanical equipment by the nuclear power first construction team;

and the nuclear power first construction team client adds the state of the mechanical equipment in the mechanical equipment database, sets the state as idle, and sets the user as idle.

10. An automatic distribution system for mechanical equipment in the field of nuclear power construction, comprising: the nuclear power construction site service end is respectively connected with a nuclear power construction team client; the number of the nuclear power construction team clients is multiple, and a client is arranged for each nuclear power construction team;

the nuclear power construction team includes: a nuclear island construction team, a conventional island construction team;

the number of the nuclear island construction teams and the number of the conventional island construction teams are one or more respectively;

the nuclear power construction site server is used for receiving a use request message of the mechanical equipment sent by the first nuclear power construction team client;

the use request message carries the identifier of the nuclear power construction team, the name of the mechanical equipment to be used and the use time of the mechanical equipment;

and determining a mechanical equipment database according to the names of the mechanical equipment and the using time, wherein in the using time, idle mechanical equipment corresponding to the mechanical equipment names exists, and sending the identification of the idle mechanical equipment to the nuclear power first construction team so that the nuclear power first construction team can pick up the mechanical equipment for construction according to the identification of the mechanical equipment.

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