CN217506573U - Equipment maintenance data management system - Google Patents

Abstract

The utility model relates to a goods and materials data technical field particularly, relates to an overhaul of equipments data management system. The equipment overhaul data management system comprises: the system comprises an equipment document acquisition device, a first overhaul terminal, a second overhaul terminal and a data centralized processing device. The equipment document acquisition device acquires the document of the equipment and generates equipment data. The first service terminal generates a maintenance request instruction in response to the equipment failure. And the second overhaul terminal responds to the maintenance request instruction and generates a maintenance demand list based on the equipment fault and the equipment maintenance list. The data centralized processing device generates maintenance requirement material storage data based on the equipment data, the maintenance requirement list and the material data. The memory of the data centralized processing device stores material data. The data centralized processing device is in communication connection with the equipment document acquisition device and the second overhaul terminal respectively. Therefore, the problem that the maintenance materials cannot be accurately and comprehensively determined, and the equipment repairing time is prolonged is solved.

Description

Equipment maintenance data management system

Technical Field

The utility model relates to a goods and materials data technical field particularly, relates to an overhaul of equipments data management system.

Background

In the course of servicing of equipment at a company, the necessary conditions are usually indispensable for servicing supplies in addition to service personnel and service tools. When equipment failure occurs, maintenance personnel often judge required maintenance materials according to self maintenance experience. However, when the number and kinds of the equipments reach a certain amount, the maintenance materials cannot be accurately and comprehensively determined by the memory of the maintenance personnel. This often prolongs the time required for equipment repair due to the inability to accurately and fully determine the repair supplies. In most cases, the long equipment repair time results in significant losses to the company's production operations.

SUMMERY OF THE UTILITY MODEL

For solving can not be accurate and comprehensive definite maintenance goods and materials, and the problem of the prosthetic time of extension equipment, the utility model provides an overhaul of equipments data management system.

The utility model provides an equipment maintenance data management system,

the equipment overhaul data management system comprises: the system comprises an equipment document acquisition device, a first overhaul terminal, a second overhaul terminal and a data centralized processing device; wherein the content of the first and second substances,

the equipment document acquisition device is used for acquiring a document of equipment and generating equipment data, wherein the equipment data comprises an equipment code, an equipment check list, an equipment maintenance list and an equipment accessory list;

the first maintenance terminal is used for responding to the equipment fault and generating a maintenance request instruction;

the second overhaul terminal is used for responding to the maintenance request instruction and generating a maintenance demand list based on the equipment fault and the equipment maintenance list; the second overhaul terminal is in communication connection with the equipment document acquisition device and the first overhaul terminal respectively;

the data centralized processing device is used for generating maintenance requirement material storage data based on the equipment data, the maintenance requirement list and the material data; the data centralized processing device comprises a memory, wherein the memory is used for storing the material data; the data centralized processing device is in communication connection with the equipment document acquisition device and the second overhaul terminal respectively.

In some embodiments, the centralized data processing apparatus further includes a matching unit, where the matching unit is configured to match the equipment accessory list with the material data, and establish an associated connection between the equipment code and the material data; the device code, the associated connection are stored to the memory.

In some embodiments, the second service terminal comprises a second processor, wherein the second processor is configured to generate the maintenance requirement list based on the equipment maintenance list in response to the maintenance request instruction.

In some embodiments, the data centralized processing apparatus further comprises a first processor, wherein the first processor is configured to generate maintenance requirement material storage data based on the maintenance requirement list and the associated connection; and the maintenance requirement material storage data is stored in the memory.

In some embodiments, the second processor is further configured to generate a checklist and a checkrequest instruction based on the device checklist.

In some embodiments, the first processor is further configured to generate inspection requirement material storage data based on the inspection requirement list and the associated connection; and the inspection required material storage data is stored in the storage.

In some embodiments, the first service terminal comprises a first display, wherein the first display is configured to display a status of the equipment based on the maintenance request instruction or inspection request instruction.

In some embodiments, the second service terminal further comprises a second display, wherein the second display is configured to display one or more combinations of the maintenance request instruction, the equipment maintenance schedule, the maintenance requirement schedule, the equipment inspection schedule, and the inspection requirement schedule.

In some embodiments, the device document collection apparatus includes a collector, wherein the collector is configured as a camera; and the camera collects the equipment document to obtain equipment source data.

In some embodiments, the device document collection apparatus further comprises a third processor, wherein the third processor is configured to generate the device data from the device source data.

For solving can not accurate and comprehensive definite maintenance goods and materials, and the problem of the prosthetic time of extension equipment, the utility model discloses there is following advantage:

the equipment overhaul data management system may include: the system comprises an equipment document acquisition device, a first overhaul terminal, a second overhaul terminal and a data centralized processing device. The equipment document acquisition device acquires the specification or technical book information of the equipment and generates equipment data comprising equipment codes, an equipment inspection list, an equipment maintenance list and an equipment accessory list. When equipment breaks down, the first maintenance terminal responds to the equipment faults and generates a maintenance request instruction. And the second maintenance terminal responds to the maintenance request instruction and matches the actual equipment fault with the equipment fault recorded by the equipment maintenance list so as to generate a maintenance requirement list. The data centralized processing device is used for generating maintenance requirement material storage data based on the equipment data, the maintenance requirement list and material data of storage materials in the warehouse. Therefore, maintenance personnel can quickly, accurately and comprehensively determine maintenance materials, and the equipment repairing time is shortened.

Drawings

FIG. 1 illustrates an equipment overhaul data management system schematic of an embodiment;

FIG. 2 shows a schematic diagram of an equipment servicing data management system of another embodiment;

FIG. 3 shows a schematic diagram of an equipment servicing data management system of yet another embodiment.

Detailed Description

The disclosure will now be discussed with reference to several exemplary embodiments. It should be understood that these embodiments are discussed only to enable those of ordinary skill in the art to better understand and thus implement the present disclosure, and are not intended to imply any limitation on the scope of the present disclosure.

As used herein, the term "include" and its variants are to be read as open-ended terms meaning "including, but not limited to. The term "based on" is to be read as "based, at least in part, on". The terms "one embodiment" and "an embodiment" are to be read as "at least one embodiment". The term "another embodiment" is to be read as "at least one other embodiment".

The present embodiment discloses an equipment overhaul data management system, as shown in figures 1 and 2,

the equipment overhaul data management system may include: the system comprises an equipment document acquisition device 10, a first overhaul terminal 30, a second overhaul terminal 40 and a data centralized processing device 20; wherein the content of the first and second substances,

the device document collection apparatus 10 may be configured to collect a document of a device, and generate device data, where the device data includes a device code, a device check list, a device maintenance list, and a device accessory list;

the first service terminal 30 may be configured to generate a maintenance request instruction in response to an equipment failure;

the second service terminal 40 may be configured to generate a maintenance requirement list based on the equipment failure and the equipment maintenance list in response to the maintenance request instruction; the second overhaul terminal 40 is in communication connection with the equipment document acquisition device 10 and the first overhaul terminal 30 respectively;

the data centralized processing device 20 can be used for generating maintenance requirement material storage data based on the equipment data, the maintenance requirement list and the material data; the data centralized processing device 20 comprises a memory 23, wherein the memory 23 is used for storing material data; the data centralized processing device 20 is respectively connected with the equipment document acquisition device 10 and the second overhaul terminal 40 in a communication way.

In this embodiment, the equipment overhaul data management system may include: the system comprises an equipment document acquisition device 10, a first overhaul terminal 30, a second overhaul terminal 40 and a data centralized processing device 20.

The device document collection device 10 may be one or more of a handheld terminal, a smart phone, and a computer with a scanning or shooting function. The device document acquisition device 10 can be used for acquiring data of specifications, technical parameter data, maintenance manuals and maintenance record documents of the device. The document material mentioned here may include a paper document or an electronic document. The device data is generated by extracting device codes, inspection items, maintenance items and accessory list data in the collected data. The device data may include a device code, a device checklist, a device repair list, and a device parts list. This allows the device to build a database for inspection and maintenance to be invoked by other devices.

The first service terminal 30 may be one or more of a handheld terminal, a smart phone, and a computer with data input and data transmission functions. The first service terminal 30 may be located at the periphery of the equipment. When the equipment fails, the equipment failure detected by the equipment failure detection device can be input to the first maintenance terminal 30, or the equipment failure discovery personnel can input the equipment failure to the first maintenance terminal 30. The first service terminal 30 generates a maintenance request instruction in response to the equipment failure. The repair request instructions may include a device code, a description of the device failure, a time at which the device failure occurred.

The second service terminal 40 may be one or more of a handheld terminal, a smart phone, and a computer with data processing and data transmission functions. The second service terminal 40 may be located around the perimeter of a service person. The second overhaul terminal 40 is respectively in communication connection with the equipment document acquisition device 10 and the first overhaul terminal 30. This facilitates the transmission of equipment data to the second service terminal 40 and also facilitates the transmission of maintenance request instructions to the second service terminal 40. After receiving the maintenance request instruction, the second service terminal 40 generates a maintenance requirement list by matching the equipment failure description in the maintenance request instruction with the equipment maintenance list. The repair request list may include materials for repair requests, tools for repair requests, repair notes, repair forecasted time, and repair request labor. Through the maintenance demand manifest that generates, the maintenance personal can know the demand information of this breakdown maintenance fast to the maintenance personal prepares fast, shortens equipment repair's time.

The data centralized processing device 20 can be one or more of a smart phone, a computer and a server with data processing and data transmission functions. The data centralized processing means 20 may be located at a warehouse where the material is stored. The data centralized processing device 20 is respectively connected with the equipment document acquisition device 10 and the second overhaul terminal 40 in a communication way. This facilitates the transmission of the device data to the data centralized processing device 20 and also facilitates the transmission of the maintenance requirement list to the data centralized processing device 20. The data centralized processing device 20 may include a memory 23, wherein the memory 23 may be used to store the material data of the materials stored in the warehouse and the received equipment data. The inventory stored in the warehouse may include equipment parts included in the list of equipment parts. The material data can comprise storage positions and storage quantities of warehouse storage materials. After receiving the maintenance requirement list, the data centralized processing device 20 may generate maintenance requirement material storage data based on the materials of the maintenance requirement in the maintenance requirement list. The maintenance demand material storage data may include a storage location and a storage amount of the demand material. Therefore, the maintenance personnel can quickly obtain the materials required by maintenance when maintaining the equipment, thereby shortening the repair time.

In some embodiments, as shown in fig. 3, the data centralized processing apparatus 20 may further include a matching unit 21, where the matching unit 21 is configured to match the equipment accessory list with the material data, and establish an associated connection between the equipment code and the material data; the device code, associated connection is stored to memory 23.

In this embodiment, the data centralized processing apparatus 20 may further include a matching unit 21. The matching unit 21 may establish an association between the device number in the device data and the material data of the stored material in the warehouse. The device code and the association may be stored in the memory 23 for easy recall by the data centrally processing means 20. This facilitates the data centralized processing device 20 to quickly generate the maintenance requirement material storage data. In other embodiments, the matching unit 21 may further associate the material data of the stored material in the warehouse with the simulated equipment failure and/or the repaired equipment failure. This facilitates the data centralized processing device 20 to quickly and accurately generate the maintenance requirement material storage data.

In some embodiments, as shown in fig. 3, the second service terminal 40 may include a second processor 41, wherein the second processor 41 is configured to generate a maintenance requirement list based on the equipment maintenance list in response to the maintenance request instruction.

In this embodiment, the second service terminal 40 may include a second processor 41. After the second maintenance terminal 40 receives the maintenance request instruction, the second processor 41 matches the equipment failure in the maintenance request instruction with the equipment maintenance list received by the second processor 41, and generates a maintenance requirement list.

In some embodiments, as shown in fig. 3, the data centralized processing apparatus 20 may further include a first processor 22, wherein the first processor 22 is configured to generate the maintenance requirement material storage data based on the maintenance requirement list and the associated connection; the maintenance requirement material storage data is stored in the memory 23.

In this embodiment, the data centralized processing apparatus 20 may further include a first processor 22. The first processor 22 is used for generating maintenance requirement material storage data based on the maintenance requirement list and the associated connection; the maintenance requirement material storage data is stored in the memory 23. The maintenance demand material storage data may include a storage location and a storage amount of the demand material. Therefore, the maintenance personnel can quickly obtain the materials required by maintenance when maintaining the equipment, thereby shortening the repair time.

In some embodiments, as shown in fig. 3, the second processor 41 may be further configured to generate a check requirement list and a check request instruction based on the device check list.

In this embodiment, the equipment needs to be periodically or irregularly inspected during the use process, in addition to being repaired when the equipment fails. By this inspection of the equipment, the occurrence of equipment failure can be avoided and reduced. Before the device is inspected, the second processor 41 may generate an inspection requirement list and an inspection request instruction based on the device inspection list. The inspection requirement list can comprise materials for inspecting requirements, tools for inspecting requirements, inspection notes, inspection estimated time and inspection required manpower. The generated examination requirement list may be transmitted to the data centralized processing apparatus 20 by the second service terminal 40. The inspection tool is convenient for the maintainer to obtain the material and the inspection requirement rapidly. The inspection request instruction may include the number of the inspection device, the inspection notice, and the inspection expected time. The generated inspection request instruction may be transmitted to the first service terminal 30 by the second service terminal 40. The equipment using personnel can conveniently prepare for the equipment maintenance in advance, and the development of the equipment maintenance is facilitated.

In some embodiments, as shown in fig. 3, the first processor 22 may be further configured to generate inspection requirement material storage data based on the inspection requirement list and the associated connections; the inspection request material storage data is stored in the memory 23.

In this embodiment, the first processor 22 may be further configured to generate inspection requirement material storage data based on the inspection requirement list and the associated connection; the inspection request material storage data is stored in the memory 23. The inspection demand material storage data may include a storage location and a storage amount of the demand material. Therefore, the required materials for inspection can be quickly obtained when the inspection personnel inspect the equipment, and the inspection time of the equipment is shortened.

In some embodiments, as shown in fig. 3, the first service terminal 30 may include a first display 31, wherein the first display 31 is configured to display a status of the device based on the maintenance request instruction or the inspection request instruction.

In this embodiment, the first service terminal 30 may include a first display 31. The first display 31 may be a lamp or a display screen displaying different colors, and may also be a display screen displaying text. This may show the status of the device in different colors or text. Therefore, people around the equipment can know the equipment state conveniently, so that different people can take different actions.

In some embodiments, as shown in fig. 3, the second service terminal 40 may further include a second display 42, wherein the second display 42 is configured to display one or more combinations of a maintenance request instruction, an equipment maintenance list, a maintenance requirement list, an equipment inspection list, and an inspection requirement list.

In this embodiment, the second service terminal 40 may also include a second display 42. The second display 42 may be a display screen fixedly connected to any one of the handheld terminal, the smart phone, and the computer, or an immovable display screen connected to any one of the handheld terminal, the smart phone, and the computer. One or more combinations of maintenance request instructions, equipment maintenance checklists, maintenance requirement checklists, equipment inspection checklists, and inspection requirement checklists may be displayed via the second display 42. Therefore, the maintenance personnel or other related personnel can conveniently know the related information of the equipment in time and carry out the next work. Thereby facilitating the performance of equipment maintenance and inspection work.

In some embodiments, as shown in fig. 3, the device document collector 10 may include a collector 11, wherein the collector 11 is configured as a camera; the camera collects the device document to obtain the device source data.

In the present embodiment, the device document acquiring apparatus 10 may include an acquirer 11. The collector 11 may be provided as a camera. The camera can collect the device document to obtain the device source data. Thereby facilitating the generation of device data.

In some embodiments, as shown in fig. 3, the device document collecting apparatus 10 may further include a third processor 12, wherein the third processor 12 is configured to generate the device data from the device source data.

In this embodiment, the device document collection apparatus 10 may further include a third processor 12. The device source data may be used by the third processor 12 to generate device data. Thereby facilitating the development of equipment maintenance and inspection work.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples of the present disclosure and that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure in practice.

Claims (10)

1. An equipment overhaul data management system is characterized in that,

the equipment overhaul data management system comprises: the system comprises an equipment document acquisition device, a first overhaul terminal, a second overhaul terminal and a data centralized processing device; wherein, the first and the second end of the pipe are connected with each other,

the equipment document acquisition device is used for acquiring a document of equipment and generating equipment data, wherein the equipment data comprises an equipment code, an equipment check list, an equipment maintenance list and an equipment accessory list;

the first maintenance terminal is used for responding to the equipment fault and generating a maintenance request instruction;

the second overhaul terminal is used for responding to the maintenance request instruction and generating a maintenance demand list based on the equipment fault and the equipment maintenance list; the second overhaul terminal is in communication connection with the equipment document acquisition device and the first overhaul terminal respectively;

the data centralized processing device is used for generating maintenance requirement material storage data based on the equipment data, the maintenance requirement list and the material data; the data centralized processing device comprises a memory, wherein the memory is used for storing the material data; the data centralized processing device is in communication connection with the equipment document acquisition device and the second overhaul terminal respectively.

2. The equipment servicing data management system of claim 1,

the data centralized processing device also comprises a matching unit, wherein the matching unit is used for matching the equipment accessory list with the material data and establishing the association connection between the equipment codes and the material data; the device code, the associated connection are stored to the memory.

3. The equipment servicing data management system of claim 2,

the second service terminal comprises a second processor, wherein the second processor is configured to generate the maintenance requirement list based on the equipment maintenance list in response to the maintenance request instruction.

4. The equipment servicing data management system of claim 3,

the data centralized processing device further comprises a first processor, wherein the first processor is used for generating maintenance requirement material storage data based on the maintenance requirement list and the associated connection; and the maintenance requirement material storage data is stored in the memory.

5. The equipment servicing data management system of claim 4,

the second processor is further used for generating a checking demand list and a checking request instruction based on the equipment checking list.

6. The equipment servicing data management system of claim 5,

the first processor is further used for generating inspection requirement material storage data based on the inspection requirement list and the associated connection; and the inspection required material storage data is stored in the storage.

7. The equipment servicing data management system of claim 5 or 6,

the first service terminal comprises a first display, wherein the first display is used for displaying the state of the equipment based on the maintenance request instruction or the inspection request instruction.

8. The equipment servicing data management system of claim 7,

the second maintenance terminal further comprises a second display, wherein the second display is used for displaying one or more combinations of the maintenance request instruction, the equipment maintenance list, the maintenance requirement list, the equipment inspection list and the inspection requirement list.

9. The equipment servicing data management system of claim 8,

the equipment document acquisition device comprises a collector, wherein the collector is set as a camera; and the camera collects the equipment document to obtain equipment source data.

10. The equipment servicing data management system of claim 9,

the device document acquisition apparatus further comprises a third processor, wherein the third processor is configured to generate the device data from the device source data.

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