CN217506540U - Spare goods and materials allocation system - Google Patents

Abstract

The utility model relates to a goods and materials data technical field particularly, relates to a spare goods and materials allotment system. The idle material allocation system comprises a data centralized processing device, a demand acquisition terminal and a first processing device. The demand acquisition terminal is used for acquiring demand data including the name, the quantity and the specification model of the demand materials and sending the demand data to the data centralized processing device; the first processing device is used for generating first position data from the collected position data, and sending the first position data and the idle material data to the data centralized processing device; the data centralized processing device is used for matching the demand data with the idle material data and sending first processing data comprising matching result data, the idle material data meeting the matching result and the first position data to the demand acquisition terminal. Therefore, allocation of idle materials is realized, and the problem that the operation cost of a company is increased due to the fact that the idle materials occupy capital and storage space is solved.

Description

Spare goods and materials allocation system

Technical Field

The utility model relates to a goods and materials data technical field particularly, relates to a spare thing and materials allotment system.

Background

At present, for each subsidiary company or department in a group company, the management of materials operates independently, so that the material data of each subsidiary company or department are not communicated. Meanwhile, in the material management operation process of each subsidiary company or department, the material is idle. There are many reasons for idle supplies, such as: the original material is idle due to overlarge purchase quantity, the change of required material and the like. The idle materials occupy the capital of the company or department, require storage space for storage, and even have too long storage time, so that the idle materials are invalid or scrapped, thereby increasing the operation cost of the company. Therefore, the processing of idle materials is very important.

SUMMERY OF THE UTILITY MODEL

Occupy fund and storage space for solving idle goods and materials, lead to the problem that company's operation cost increases, the utility model provides an idle goods and materials allotment system.

In a first aspect, the utility model provides a spare goods and materials allocation system, include:

the idle material allotment system includes: the system comprises a data centralized processing device, a demand acquisition terminal and a first processing device; wherein, the first and the second end of the pipe are connected with each other,

the demand acquisition terminal comprises a data acquisition unit and a third transceiver; the data acquisition unit is used for acquiring demand data comprising the name of demand materials, the quantity of the demand materials and the specification and model of the demand materials; the third transceiver is used for sending the demand data to the data centralized processing device;

the first processing device comprises a first locator, a first memory and a first transceiver; the first positioner is used for acquiring position data of the first processing device to generate first position data and storing the first position data to the first memory; the first storage is also used for storing material data of materials stored in the first position, wherein the material data comprises idle material data; the first transceiver is used for sending the first position data and the idle material data to the data centralized processing device;

the data centralized processing device comprises a matching unit and a second transceiver; the second transceiver is used for receiving data sent by the demand acquisition terminal and the first processing device; the matching unit is used for matching the demand data with the idle material data and generating matching result data; the second transceiver is further configured to send first processing data including the matching result data, the idle material data conforming to the matching result, and the first position data to the demand collection terminal.

In some embodiments, the first processing device further includes a label unit, where the label unit is configured to set an idle label for the stored material based on a material inventory time in the material data, generate idle material data, and finally store the idle material data in the first memory.

In some embodiments, the second transceiver is further configured to transmit second processing data including the matching result data and the requirement data to the first processing device.

In some embodiments, the data set processing apparatus further comprises a second memory, wherein the second memory is configured to store the data received by the second transceiver and the matching result data generated by the matching unit.

In some embodiments, the first transceiver is further configured to receive the second processed data and store the second processed data to the first memory.

In some embodiments, the first processing device further comprises a first display, wherein the first display is configured to display the second processed data.

In some embodiments, the idle material deployment system comprises a plurality of the first processing devices, wherein the plurality of the first processing devices are located at different locations; the matching unit is used for matching the demand data with a plurality of idle material data and generating matching result data; the second transceiver is further configured to send the first processing data to the demand collection terminal, where the first processing data includes the matching result data, the idle material data conforming to the matching result, and the first position data of the idle material conforming to the matching result.

In some embodiments, the demand collection terminal further includes a second locator, where the second locator is configured to generate second location data by collecting location data of the demand collection terminal; the second locator is further configured to perform a distance calculation between the second location data and the first location data in the first processed data.

In some embodiments, the demand collection terminal further includes a third memory, wherein the third memory is configured to store the demand data, the first processed data sent by the second transceiver and the data generated by the second locator, which are received by the third transceiver.

In some embodiments, the demand collection terminal further includes a second display, wherein the second display is configured to display the demand data, the first processed data, the second location data, and the distance.

Occupy fund and storage space for solving idle goods and materials, lead to the problem that company's operation cost increases, the utility model discloses there is following advantage:

the idle material allotment system includes: the system comprises a data centralized processing device, a demand acquisition terminal and a first processing device. The demand collection terminal is used for collecting material data of user demand materials and sending the demand data to the data centralized processing device. Meanwhile, the first processing device sets an idle tag for idle materials in the materials stored in the position of the first processing device, and sends idle material data and first position data of the first processing device to the data centralized processing device. And a matching unit in the data centralized processing device matches the required data with the idle material data so as to generate a matching result. And a second transceiver in the data centralized processing device sends first processing data comprising matching result data, idle material data conforming to the matching result and first position data to the demand acquisition terminal. Therefore, the user of the demand collection terminal can call the idle materials at the location of the first processing device, and the idle materials can exert the maximum value in the group. Therefore, the occupied capital and storage space of idle materials is reduced, and the operation cost of the company is reduced.

Drawings

FIG. 1 illustrates a schematic diagram of a slack allocation system according to an embodiment;

FIG. 2 is a schematic diagram of a slack allocation system according to another embodiment;

FIG. 3 illustrates a schematic diagram of a slack allocation system according to 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 a free goods allocation system, as shown in figures 1 and 2,

the idle material allocation system can include: the system comprises a data centralized processing device 30, a demand acquisition terminal 10 and a first processing device 20; wherein the content of the first and second substances,

the demand collection terminal 10 comprises a data collection unit 11 and a third transceiver 15; the data acquisition unit 11 is used for acquiring demand data including the name of the demand material, the quantity of the demand material and the specification and model of the demand material; the third transceiver 15 is used for sending the demand data to the data centralized processing device 30;

the first processing device 20 comprises a first locator 21, a first memory 23, a first transceiver 25; the first locator 21 is configured to generate first position data from the position data acquired by the first processing device 20, and store the first position data in the first memory 23; the first memory 23 is further configured to store material data of materials stored in the first location, where the material data includes idle material data; the first transceiver 25 is used for sending the first position data and the idle material data to the data centralized processing device 30;

the data centralized processing device 30 comprises a matching unit 31 and a second transceiver 33; the second transceiver 33 is used for receiving data sent by the demand collection terminal 10 and the first processing device 20; the matching unit 31 is used for matching the demand data with the idle material data and generating matching result data; the second transceiver 33 is further configured to send first processed data including the matching result data, the idle material data that meets the matching result, and the first position data to the demand collection terminal 10.

In this embodiment, the idle asset allocation system may include: the system comprises a data centralized processing device 30, a demand collection terminal 10 and a first processing device 20. The demand collection terminal 10 may be one or more of a handheld terminal with collection function, a mobile phone or a computer, which includes the data collection unit 11 and the third transceiver 15. The data acquisition unit 11 is used for acquiring material data of materials required by users. The data acquisition unit 11 may be a scanner, or may include one or more of a mouse, a keyboard, a microphone, and a touch screen device with an input function. The user can input one or more combinations of characters, voice, pictures or bar codes through the data acquisition unit 11 to complete the acquisition of the required data. The third transceiver 15 may be one or more of a bluetooth connection transceiver, a wireless communication transceiver, or a wired connection transceiver to receive and transmit data between the demand collection terminal 10 and the data centralized processing apparatus 30. Therefore, the data required by the user can be collected and sent to the data centralized processing device 30.

The first processing device 20 may be one or more of a handheld terminal, a mobile phone, a computer or a server with processing function, which includes the first locator 21, the first memory 23 and the first transceiver 25. The first processing device 20 may be disposed adjacent to the material storage warehouse. The first memory 23 may be one or more of a hard disk and a cloud memory. The first memory 23 may store material data of materials in the warehouse near the first processing device 20, wherein the stored material data includes a storage time of the materials. The first processing device 20 determines whether the material belongs to an idle material based on the storage time of the material, and sets idle material data. The first locator 21 may be a positioning chip including a GPS positioning system or a beidou positioning system, and may be configured to collect the position data of the first processing device 20 to generate first position data. The first transceiver 25 may be one or more of a bluetooth connection transceiver, a wireless communication transceiver, or a wired connection transceiver to realize data reception and transmission between the first processing device 20 and the data centralized processing device 30. In this way, the first position data and the idle material data can be acquired and sent to the data centralized processing device 30.

The data centralized processing device 30 may be one or more of a computer with processing function and a server including the matching unit 31 and the second transceiver 33. The matching unit 31 matches the demand data with the idle material data, and determines whether the idle material data contains material meeting the demand data, thereby generating a matching result. If the matching is successful, the second transceiver 33 may transmit the first processed data including the matching result data, the idle material data corresponding to the matching result, and the first position data to the demand collection terminal 10. If the matching fails, the second transceiver 33 may transmit the first processed data including the matching result data to the demand collection terminal 10. The second transceiver 33 may be one or more of a bluetooth connection transceiver, a wireless communication transceiver, or a wired connection transceiver, so as to receive and transmit data between the data centralized processing device 30 and the first processing device 20 and the demand collection terminal 10. Therefore, the user of the demand collection terminal 10 can call the idle materials at the location of the first processing device 20, so that the idle materials have the maximum value in the group. Therefore, the occupied capital and storage space of idle materials is reduced, and the operation cost of the company is reduced. In other embodiments, some idle materials that do not satisfy the requirement data are identified, but idle materials that are similar to the requirement data are identified and sent to the requirement acquisition terminal 10. Therefore, the user can use the similar idle materials in priority when the user needs the materials next time. When the matching fails, the similar idle material data are provided for the demand user, and whether the similar idle materials of the user can replace the demand materials for use can be inspired. Therefore, the idle materials can be more quickly digested in the group company, the occupied funds and the storage space of the idle materials are reduced, and the operation cost of the company is reduced.

In some embodiments, the first processing device 20 may further include a label unit 22, wherein the label unit 22 is configured to set an idle label for the stored material based on the material inventory time in the material data, generate idle material data, and finally store the idle material data in the first memory 23.

In the present embodiment, as shown in fig. 3, the first processing device 20 may further include a label unit 22. The tag unit 22 may determine a material stock time in the material data stored in the first memory 23. For example, whether the calling record exists in the material storage later half year is judged. The half year time here can be set according to actual needs. And if the record is not called within the half year time, judging the material as idle material. The label unit 22 can set idle labels on the material data of the real materials and generate idle material data. Finally, the tag unit 22 stores the idle material data in the first memory 23. Can mark out the idle goods and materials in the goods and materials data like this, be convenient for goods and materials demand user selects for use idle goods and materials as fast as possible. Therefore, the idle materials can be more quickly digested in the group company, the occupied funds and the storage space of the idle materials are reduced, and the operation cost of the company is reduced.

In some embodiments, the second transceiver 33 may also be configured to transmit second processing data comprising matching result data and requirement data to the first processing device 20.

In this embodiment, as shown in fig. 3, the second transceiver 33 may also be configured to transmit second processing data including matching result data and requirement data to the first processing device 20. After the matching is successful, the related personnel of the first processing device 20 can obtain the matching success information as soon as possible, so that the early-stage preparation work of preparing the idle materials can be prepared as soon as possible, and the rapid preparation of the idle materials is accelerated.

In some embodiments, the data set processing apparatus 30 may further include a second memory 32, wherein the second memory 32 is configured to store the data received by the second transceiver 33 and the matching result data generated by the matching unit 31.

In this embodiment, as shown in fig. 3, the data centralized processing apparatus 30 may further include a second memory 32. The second storage 32 may be one or more of a hard disk and a cloud storage. The second memory 32 may be used to store the requirement data received by the second transceiver 33, the first position data and the matching result data generated by the matching unit 31. After receiving the relevant data, the second transceiver 33 of the data centralized processing apparatus 30 needs to process the received data, and finally, the received data and the processed data are sent to the outside. Due to the fact that data transceiving between the data centralized processing device 30 and the demand collection terminal 10 and between the data centralized processing device 30 and the first processing device 20 is interrupted, the data is prevented from being lost by arranging the second storage 32 which can be used for storing the data received by the second transceiver 33 and the matching result data generated by the matching unit 31 in the data centralized processing device 30, and therefore allocation of idle materials is facilitated.

In some embodiments, the first transceiver 25 may also be configured to receive the second processed data and store the second processed data to the first memory 23.

In this embodiment, as shown in fig. 3, the first transceiver 25 may also be used for receiving the second processing data. After the matching is successful, the related personnel of the first processing device 20 can obtain the matching success information from the first processing device 20, so that the early-stage preparation work of preparing the idle materials can be prepared as soon as possible, and the rapid preparation of the idle materials is accelerated. Storing the second processed data in the first memory 23 prevents the second processed data from being lost in the first processing device 20 due to the first processing device 20 being powered down before the second processed data is not acquired by the person associated with the first processing device 20. Therefore, the allocation work of idle materials can be ensured to be normally carried out.

In some embodiments, the first processing device 20 may further include a first display 24, wherein the first display 24 is used to display the second processing data.

In the present embodiment, as shown in fig. 3, the first processing device 20 further includes a first display 24, wherein the first display 24 is used for displaying the second processing data. The first display 24 may be one or more of a handheld terminal display screen, a mobile phone display screen, a computer display screen, or a server display screen. Therefore, the related personnel of the first processing device 20 can conveniently obtain the matching success information from the first display 24, so that the matching success information can be more conveniently obtained, and the rapid allocation of idle materials is accelerated.

In some embodiments, the inventory allocation system may include a plurality of first processing devices 20, wherein the plurality of first processing devices 20 are located at different locations; the matching unit 31 is used for matching the demand data with a plurality of idle material data and generating matching result data; the second transceiver 33 is further configured to send first processing data to the demand collection terminal 10, where the first processing data includes matching result data, idle material data conforming to the matching result, and first position data of the idle material conforming to the matching result.

In this embodiment, as shown in fig. 3, the idle material allocation system may include a plurality of first processing devices 20. Each of the first processing devices 20 is disposed near one of the material storage warehouses. Through a plurality of first processing devices 20, idle materials in all material storage warehouses inside the group company can be identified, and idle material data can be generated. Therefore, more idle material data and demand data can be matched, the matching success rate can be improved, and allocation of idle materials is promoted. As more idle material data and demand data are matched, a plurality of idle material data meeting the demand data can be included in the successful matching result. The second transceiver 33 can transmit a plurality of idle material data meeting the requirement data and the first position data of the idle material to the requirement collecting terminal 10, so that the requirement user has more material sources, and the allocation of the idle material is easier. Through the comparison of a plurality of first position data and demand user positions, the user can conveniently select an economical logistics mode to obtain idle materials, and therefore the allocation cost of the idle materials is reduced.

In some embodiments, the demand collection terminal 10 may further include a second locator 13, where the second locator 13 is configured to generate second location data by collecting location data of the demand collection terminal 10; the second locator 13 is also used for calculating the distance between the second position data and the first position data in the first processed data.

In this embodiment, as shown in fig. 3, the demand collection terminal 10 may further include a second locator 13. The second locator 13 can be a positioning chip second locator 13 with a GPS positioning system or a beidou positioning system, and is used for generating second position data from the position data of the acquisition demand acquisition terminal 10; the distance between the second position data and the first position data in the first processing data is calculated through the second positioner 13, so that a user can conveniently select an economic logistics mode to obtain idle materials, and the allocation cost of the idle materials is reduced.

In some embodiments, the demand collection terminal 10 may further include a third memory 12, wherein the third memory 12 is used for storing the demand data, the first processing data transmitted by the second transceiver 33 and received by the third transceiver 15, and the data generated by the second locator 13.

In this embodiment, as shown in fig. 3, the demand collection terminal 10 may further include a third memory 12. The third storage 12 may be one or more of a hard disk and a cloud storage. Therefore, the data collected and the received data by the demand collection terminal 10 can be prevented from being lost, and other parts in the demand collection terminal 10 can call the collected data and/or the received data conveniently, so that idle material allocation is promoted.

In some embodiments, the demand collection terminal 10 may further include a second display 14, wherein the second display 14 is configured to display the demand data, the first processed data, the second location data, and the distance.

In this embodiment, as shown in fig. 3, the demand collection terminal 10 may further include a second display 14. The second display 14 may be one or more of a handheld terminal display screen, a mobile phone display screen, and a computer display screen. The second display 14 is used for displaying the demand data, the first processing data, the second position data and the distance, so that a demand user can more conveniently obtain information of the demand materials and more intuitively select an economic logistics mode to obtain idle materials, allocation of the idle materials is accelerated, and allocation cost of the idle materials is reduced.

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. A free goods and materials allocation system is characterized in that,

the idle material allotment system includes: the system comprises a data centralized processing device, a demand acquisition terminal and a first processing device; wherein the content of the first and second substances,

the demand acquisition terminal comprises a data acquisition unit and a third transceiver; the data acquisition unit is used for acquiring demand data comprising the name of demand materials, the quantity of the demand materials and the specification and model of the demand materials; the third transceiver is used for sending the demand data to the data centralized processing device;

the first processing device comprises a first locator, a first memory and a first transceiver; the first positioner is used for acquiring position data of the first processing device to generate first position data and storing the first position data to the first memory; the first storage is also used for storing material data of materials stored in a first position, wherein the material data comprises idle material data; the first transceiver is used for sending the first position data and the idle material data to the data centralized processing device;

the data centralized processing device comprises a matching unit and a second transceiver; the second transceiver is used for receiving data sent by the demand acquisition terminal and the first processing device; the matching unit is used for matching the demand data with the idle material data and generating matching result data; the second transceiver is further configured to send first processing data including the matching result data, the idle material data conforming to the matching result, and the first position data to the demand collection terminal.

2. The free supplies dispensing system of claim 1, wherein the first processing device further comprises a labeling unit, wherein the labeling unit is configured to set a free label for the stored supplies based on the time of supply inventory in the supply data, generate free supply data, and finally store the free supply data in the first memory.

3. The leisure asset allocation system of claim 1, wherein the second transceiver is further configured to send second processing data including the match result data and the demand data to the first processing device.

4. The leisure asset allocation system according to claim 3, wherein the data set processing device further comprises a second memory, wherein the second memory is configured to store the data received by the second transceiver and the matching result data generated by the matching unit.

5. The leisure asset allocation system of claim 3, wherein the first transceiver is further configured to receive the second processed data and store the second processed data in the first memory.

6. The leisure asset allocation system of claim 5, wherein the first processing device further comprises a first display, wherein the first display is configured to display the second processed data.

7. The free supplies dispensing system of any one of claims 1-6, wherein the free supplies dispensing system comprises a plurality of the first processing devices, wherein the plurality of first processing devices are located at different locations; the matching unit is used for matching the demand data with a plurality of idle material data and generating matching result data; the second transceiver is further configured to send the first processing data to the demand collection terminal, where the first processing data includes the matching result data, the idle material data conforming to the matching result, and the first position data of the idle material conforming to the matching result.

8. The leisure asset allocation system according to claim 7, wherein the demand collection terminal further comprises a second locator, wherein the second locator is configured to generate second location data by collecting location data of the demand collection terminal; the second locator is further configured to calculate a distance between the second location data and the first location data in the first processed data.

9. The leisure asset allocation system of claim 8, wherein the demand collection terminal further comprises a third memory, wherein the third memory is configured to store the demand data, the first processed data from the second transceiver received by the third transceiver, and the data generated by the second locator.

10. The leisure asset allocation system of claim 9, wherein the demand collection terminal further comprises a second display, wherein the second display is configured to display the demand data, the first processed data, the second location data, and the distance.

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