CN117788191A - Asset transfer management system and method for construction transfer operation - Google Patents

Abstract

The invention discloses a construction-operation-transfer asset transfer management system and a construction-operation-transfer asset transfer management method, which belong to the technical field of engineering management and comprise the following steps: setting a cloud end, an operation end and an engineering end; the cloud end presets an asset transfer template, the asset transfer template is modified according to engineering information, an engineering end selects project information labels and fills in a fixed asset blank template, the cloud end generates two-dimension codes, each two-dimension code is associated with fixed asset information of a corresponding number, and the engineering end prints and pastes the two-dimension codes on the corresponding fixed asset; the operation terminal generates an asset tag according to the fixed asset information and prints the asset tag; the operation end scans the two-dimension code, and according to the fixed asset information on the asset transfer list of the attached asset tag inspection, and corrects the asset transfer list, the invention has the effect that the constructor can simply and rapidly fill in the ledger information and accurately finish the inspection and acceptance work.

Description

Asset transfer management system and method for construction transfer operation

Technical Field

The invention relates to the technical field of engineering management, in particular to a system and a method for managing asset handover of construction transfer operation.

Background

At present, an asset account needs to be established in an operation stage after engineering construction is completed, and the asset account is a vital tool in enterprise financial management, is a list for recording and tracking enterprise asset information, and is beneficial to comprehensively knowing asset conditions, realizing asset optimization configuration and improving accuracy and efficiency of financial decisions. In this stage of transferring engineering operation, the asset ledger needs to record various information of engineering construction, and needs to be filled in by engineering responsible personnel, and then confirmed by operators.

The prior art solutions described above have the following drawbacks: because engineering responsible persons generally sub-divide the engineering into a plurality of construction parties during construction, the account information is generally known by the construction parties and is inaccurately known by the engineering responsible persons, but the construction parties are generally unwilling to fill in complex account information in the process of transferring the engineering to operation.

Disclosure of Invention

In order to facilitate construction parties to accurately fill in ledger information, the application provides a construction-to-operation asset transfer management system and method.

On one hand, the asset transfer management method for construction transfer operation provided by the application adopts the following technical scheme:

a method of asset handoff management for construction transfer operations, comprising the steps of:

setting a cloud end, an operation end and an engineering end;

the cloud presets an asset transfer template, wherein the asset transfer template comprises project information labels and a fixed asset blank template;

the cloud receives engineering information and modifies project information labels in the asset transfer template according to the engineering information;

the cloud end sends the asset transfer template to the engineering end;

the engineering end completes the asset transfer template by selecting project information labels and filling in a fixed asset blank template to form an asset transfer list, wherein the fixed asset blank template is filled in to form fixed asset information with a number, and the asset transfer list is uploaded to the cloud;

after the cloud receives the asset transfer list, generating two-dimensional codes according to the quantity of the fixed asset information in the asset transfer list, associating each two-dimensional code with the fixed asset information of the corresponding number, sending the two-dimensional codes to the engineering end, and sending the asset transfer list and the two-dimensional codes to the operation end;

after receiving the two-dimension code, the engineering end prints the two-dimension code and attaches the two-dimension code to the corresponding fixed asset;

after receiving the asset handover list and the two-dimension code, the operation end generates an asset tag according to the fixed asset information and prints the asset tag;

the operation end scans the two-dimensional code of the engineering site to acquire fixed asset information from the cloud end, attaches corresponding asset labels, checks the fixed asset information on the asset transfer list according to the attached asset labels, and corrects the asset transfer list.

By adopting the scheme, the cloud end presets the asset transfer template according to experience, the content to be filled in is selected by a constructor in the form of options, and project information labels can be modified according to specific engineering information of the current engineering, so that the constructor can fill in the ledger information quickly, accurately and conveniently. When checking the fixed assets, the cloud end generates two-dimension codes according to the account information uploaded by the construction party, the engineering party pastes the two-dimension codes on the corresponding fixed assets, an operator can determine the label corresponding to each fixed asset by scanning the two-dimension codes when checking, and checking and accepting the fixed assets by the labels.

Preferably, the step of asset transfer template includes project information tag and fixed asset blank template further includes: the item information labels comprise a plurality of layers of information labels, each information label is associated with an upper layer of information labels, and when the upper layer of information labels are selected, the lower layer of information labels are allowed to be selected.

By adopting the scheme, part of information needs to be selected layer by layer, and then a plurality of layers of project information labels can be used, so that a constructor can accurately select the account information.

Preferably, the generating asset tag and printing the asset tag according to the fixed asset information further comprises:

presetting a blank asset tag, wherein the blank asset tag comprises an asset name, an asset number and asset information;

filling in blank asset tags according to the fixed asset information, and printing the filled-in asset tags;

the step of the operation end scanning the two-dimensional code of the engineering site to obtain the fixed asset information from the cloud end and attaching the corresponding asset tag further comprises the following steps:

when the operation end scans the two-dimension code, the operation end accesses the cloud end through the two-dimension code to acquire the fixed asset information corresponding to the two-dimension code, compares the acquired fixed asset information with the asset name and the asset information on the asset tag, and finds out the same asset tag to be attached to the fixed asset where the two-dimension code is located.

By adopting the scheme, the asset information is obtained by scanning the two-dimensional codes, and an operator can obtain the asset label corresponding to each two-dimensional code by aiming at the asset information on the asset label.

Preferably, the method further comprises the following steps:

after the cloud receives the asset transfer list uploaded by the engineering end, comparing the asset transfer list according to the asset transfer template, and searching whether unfilled contents exist on the asset transfer list or not and whether modified contents exist between the asset transfer list and the asset transfer template or not;

and if the unfilled content exists on the asset transfer list or the modified content exists in the asset transfer list and the asset transfer template, returning the asset transfer list to the engineering end.

By adopting the scheme, the cloud end can check after receiving the asset transfer list, so that construction side missing filling or list content modification is avoided.

Preferably, if there is unfilled content on the asset transfer list or there is modified content in the asset transfer list and the asset transfer template, the step of returning the asset transfer list to the engineering side specifically includes:

if the unfilled content exists on the asset transfer list, marking the unfilled content and returning the asset transfer list to the engineering end;

if the asset transfer list and the asset transfer template have modification contents, marking the modification contents, sending marked contents to the engineering end and the operation end, and returning the asset transfer list to the engineering end;

if the engineering end and the operation end both send a confirmation modification signal to the cloud end after receiving the marking content, the cloud end determines to receive the asset transfer list.

By adopting the scheme, when the content on the asset transfer list is changed, the cloud end can inquire of the engineering party and the operator simultaneously whether to determine modification, and if the modification is determined, the asset transfer list can be continuously sent to the operator. If information outside the templates appears, both parties are required to make modifications to the asset handoff manifest.

Preferably, the step of verifying the fixed asset information on the asset transfer list according to the attached asset tag, and the step of correcting the asset transfer list specifically includes:

determining whether the fixed asset is consistent with the asset information according to the asset information on the asset tag;

if the fixed asset modification information is inconsistent, uploading fixed asset modification information to the cloud;

the cloud receives the fixed asset modification information, modifies the fixed asset information on the asset transfer list, and returns the modified asset transfer list to the operation end.

By adopting the scheme, after checking the fixed asset, the operator can directly modify the asset transfer list through the cloud, so that the operator can check the modification list conveniently.

Preferably, the step of modifying the project information tag in the asset transfer template according to the engineering information specifically includes:

verifying the information of the engineering information which is the same as the asset transfer template, reserving project information labels which are the same as the engineering information on the asset transfer template, and deleting other project information labels;

and selecting different information on the engineering information and the asset transfer template, estimating the content which should be used as the project information label on the engineering information through a big data model, generating the project information label according to the estimated content, and adding the project information label into the asset transfer template.

Through adopting above-mentioned scheme, the high in the clouds can the automatically cleaning information that is irrelevant with the engineering on the template to add the information that does not have to the template on, effectively reduce personnel's operation, labour saving and time saving.

On the other hand, the asset transfer management system for construction transfer operation adopts the following technical scheme:

the asset transfer management system comprises a cloud end, an operation end and an engineering end, wherein the cloud end is provided with a cloud platform system, the operation end is provided with an operation system, and the engineering end is provided with an engineering system;

the cloud platform system comprises a template pre-storing module, a template processing module and a two-dimensional code generating module;

the template pre-storing module is pre-provided with an asset transfer template, wherein the asset transfer template comprises project information labels and a fixed asset blank template;

the template processing module receives engineering information, then invokes an asset transfer template of the template pre-storing module, modifies project information labels in the asset transfer template according to the engineering information, and sends the modified asset transfer template to the engineering system;

the two-dimensional code generation module receives the asset transfer list, generates two-dimensional codes according to the quantity of the fixed asset information in the asset transfer list, associates each two-dimensional code with the fixed asset information of the corresponding number, sends the two-dimensional codes to the engineering system, and sends the asset transfer list and the two-dimensional codes to the operation system;

the engineering system comprises a template filling module and a two-dimensional code printing module;

the template filling module receives and displays the asset transfer template, receives an external input instruction to select a project information label and fill in a fixed asset blank template to form an asset transfer list, generates a number each time the template filling module fills in one fixed asset information when filling in the fixed asset blank template, associates the number with the fixed asset information, and transmits the asset transfer list to the cloud platform system;

the two-dimension code printing module receives the two-dimension code and prints the two-dimension code;

the operation system comprises an information uploading module, a label generating module, a label confirming module and a list confirming module;

the information uploading module uploads engineering information to the cloud platform system;

the tag generation module receives the asset transfer list, generates an asset tag according to the fixed asset information in the asset transfer list and prints the asset tag;

the tag confirmation module scans the two-dimensional code and invokes the fixed asset information in the cloud platform system through the two-dimensional code;

and the inventory confirmation module determines the used asset tag and corrects the asset handover inventory according to the fixed asset information corresponding to the determined asset tag.

By adopting the scheme, the asset transfer template is preset according to experience, the content to be filled in is selected by a constructor in the form of options, and the project information label can be modified according to the specific engineering information of the current engineering, so that the constructor can fill in the standing account information quickly, accurately and conveniently. When checking the fixed assets, the cloud end generates two-dimension codes according to the account information uploaded by the construction party, the engineering party pastes the two-dimension codes on the corresponding fixed assets, an operator can determine the label corresponding to each fixed asset by scanning the two-dimension codes when checking, and checking and accepting the fixed assets by the labels.

Preferably, the item information labels in the template pre-storing module comprise a plurality of layers of information labels, each information label is associated with the information labels of the upper layer and the lower layer, and when the information label of the upper layer is selected, the information label of the lower layer is allowed to be selected;

the label generation module is preset with blank asset labels, wherein the blank asset labels comprise asset names, asset numbers and asset information.

By adopting the scheme, part of information needs to be selected layer by layer, and then multi-layer project information labels can be used, so that a constructor can accurately select the account information, and the asset labels are verified through asset names and asset information on the two-dimensional code.

Preferably, the cloud platform system further comprises a manifest auditing module, the manifest auditing module receives the asset handing over manifest and invokes the asset handing over templates of the template processing module, compares the asset handing over manifest according to the asset handing over templates, searches whether unfilled contents exist on the asset handing over manifest and whether the asset handing over manifest and the asset handing over templates have modified contents, marks the unfilled contents and returns the asset handing over manifest to the engineering system if the unfilled contents exist on the asset handing over manifest, marks the modified contents if the asset handing over manifest and the asset handing over templates have the modified contents, sends the marked contents to the engineering system and the operation system, and returns the asset handing over manifest to the engineering system.

By adopting the scheme, the cloud end can check after receiving the asset transfer list, so that construction side missing filling or list content modification is avoided.

In summary, the invention has the following beneficial effects:

1. the asset transfer template is preset according to experience, the content to be filled in is selected by a constructor in the form of options, and project information labels can be modified according to specific engineering information of the current engineering, so that the constructor can fill in the ledger information quickly, accurately and conveniently.

2. When checking the fixed assets, the cloud end generates two-dimension codes according to the account information uploaded by the construction party, the engineering party pastes the two-dimension codes on the corresponding fixed assets, an operator can determine the label corresponding to each fixed asset by scanning the two-dimension codes when checking, and checking and accepting the fixed assets by the labels.

Drawings

Fig. 1 is an overall system block diagram of a second embodiment of the present application.

Fig. 2 is a block diagram of a cloud platform system, an operation system, and an engineering system according to an embodiment of the present application.

Reference numerals illustrate:

1. a cloud platform system; 11. a template pre-storing module; 12. a list auditing module; 13. a template processing module; 14. a two-dimensional code generating module; 15. a manifest modification module; 2. an engineering system; 21. the template filling module; 22. a two-dimensional code printing module; 3. operating the system; 31. an information uploading module; 32. a label generating module; 33. a tag confirmation module; 34. a manifest validation module; 4. and (3) cloud end. 5. An engineering end; 6. and an operation end.

Detailed Description

Embodiment 1,

The embodiment of the application discloses a construction transfer operation asset transfer management method, which comprises the following specific steps:

s100, setting a cloud 4, an operation end 6 and an engineering end 5.

S101, a cloud 4 presets an asset transfer template, wherein the asset transfer template comprises project information labels and a fixed asset blank template. The item information labels comprise a plurality of layers of information labels, each information label is associated with an upper layer of information labels, and when the upper layer of information labels are selected, the lower layer of information labels are allowed to be selected.

The part of information needs to be selected layer by layer, and at the moment, a plurality of layers of project information labels can be used, so that a constructor can accurately select the account information.

S200, the cloud 4 receives engineering information, verifies information of the engineering information, which is identical to the asset transfer template, reserves project information labels of the asset transfer template, which is identical to the engineering information, and deletes other project information labels. And selecting different information on the engineering information and the asset transfer template, estimating the content which should be used as the project information label on the engineering information through a big data model, generating the project information label according to the estimated content, and adding the project information label into the asset transfer template.

S201, the cloud 4 sends the asset transfer template to the engineering end 5.

And S300, the engineering end 5 completes the asset transfer template by selecting project information labels and filling in a fixed asset blank template to form an asset transfer list, wherein the fixed asset blank template is filled in to form fixed asset information with a number, and the asset transfer list is uploaded to the cloud end 4.

And S400, after the cloud 4 receives the asset transfer list, the cloud 4 compares the asset transfer list according to the asset transfer template after receiving the asset transfer list uploaded by the engineering end 5, and searches whether unfilled content exists on the asset transfer list or not and whether modified content exists between the asset transfer list and the asset transfer template or not.

S401, if unfilled content exists in the asset transfer list, marking the unfilled content and returning the asset transfer list to the engineering side 5.

S402, if the asset transfer list and the asset transfer template have modification contents, marking the modification contents, sending the marked contents to the engineering terminal 5 and the operation terminal 6, and returning the asset transfer list to the engineering terminal 5.

S403, if the engineering terminal 5 and the operation terminal 6 both send a confirmation modification signal to the cloud 4 after receiving the marking content, the cloud 4 determines to receive the asset transfer list.

The cloud 4 checks after receiving the asset transfer list, so as to avoid missing a fill or modifying the content of the list by the constructor. When the content on the asset transfer list is changed, the cloud 4 inquires of the engineering party and the operator simultaneously whether to determine the modification, and if the modification is determined, the asset transfer list is continuously sent to the operator. If information outside the templates appears, both parties are required to make modifications to the asset handoff manifest.

S404, generating two-dimension codes according to the quantity of the fixed asset information in the asset transfer list, associating each two-dimension code with the fixed asset information of the corresponding number, sending the two-dimension codes to the engineering terminal 5, and sending the asset transfer list and the two-dimension codes to the operation terminal 6.

S500, after receiving the two-dimension code, the engineering end 5 prints the two-dimension code and pastes the two-dimension code on the corresponding fixed asset.

S600, the operation end 6 presets blank asset labels, wherein the blank asset labels comprise asset names, asset numbers and asset information.

And S601, after receiving the asset handover list and the two-dimensional code, the operation end 6 generates an asset tag according to the fixed asset information and prints the asset tag. Asset information is obtained by scanning the two-dimensional codes, and an operator can obtain asset tags corresponding to the two-dimensional codes through the asset information on the asset tags.

S602, the operation end 6 scans the two-dimensional code of the engineering site, the operation end 6 accesses the cloud 4 through the two-dimensional code to obtain the fixed asset information corresponding to the two-dimensional code when scanning the two-dimensional code, the obtained fixed asset information is compared with the asset name and the asset information on the asset tag, and the same asset tag is found out and attached to the fixed asset where the two-dimensional code is located.

S603, checking the fixed asset information on the asset transfer list according to the attached asset tag, and correcting the asset transfer list.

S604, determining whether the fixed asset is consistent with the asset information according to the asset information on the asset tag.

And S605, if the information is inconsistent, uploading the fixed asset modification information to the cloud 4.

S606, after receiving the fixed asset modification information, the cloud 4 modifies the fixed asset information on the asset transfer list, and the cloud 4 returns the modified asset transfer list to the operation end 6.

The implementation principle of the asset transfer management method for construction transfer operation in the embodiment of the application is as follows: the cloud 4 presets an asset transfer template according to experience, provides the content to be filled for a constructor to select in the form of options, and can modify project information labels according to specific engineering information of the current engineering, so that the constructor can fill in ledger information quickly, accurately and conveniently. When checking the fixed assets, the cloud 4 generates two-dimension codes according to the account information uploaded by the construction party, the engineering party pastes the two-dimension codes on the corresponding fixed assets, an operator can determine the label corresponding to each fixed asset by scanning the two-dimension codes when checking, and check and accept the fixed assets through the labels.

Embodiment II,

The embodiment of the application discloses asset transfer management system of construction change operation, as shown in fig. 1, including high in the clouds 4, operation end 6 and engineering end 5, high in the clouds 4 are provided with cloud platform system 1, and operation end 6 is provided with operation system 3, and engineering end 5 is provided with engineering system 2. The cloud 4 is arranged in the server, the operation end 6 is arranged in the host of the operator, and the engineering end 5 is arranged in the host or mobile equipment of the engineering party and the construction party.

As shown in fig. 2, the cloud platform system 1 includes a template pre-storing module 11, a manifest auditing module 12, a template processing module 13, a two-dimensional code generating module 14, and a manifest modifying module 15. The engineering system 2 comprises a template filling module 21 and a two-dimensional code printing module 22. The operating system 3 comprises an information upload module 31, a tag generation module 32, a tag confirmation module 33 and a manifest confirmation module 34.

As shown in fig. 2, the template pre-storing module 11 is preset with an asset handoff template including project information tags and a fixed asset blank template. The item information tags in the template pre-storing module 11 comprise a plurality of layers of information tags, each information tag is associated with an upper layer information tag and a lower layer information tag, and when the upper layer information tag is selected, the lower layer information tag is allowed to be selected. The information uploading module 31 uploads the engineering information to the cloud platform system 1. The template processing module 13 receives the engineering information and then calls the asset transfer template of the template pre-storing module 11, the template processes and verifies the information of the engineering information which is the same as the asset transfer template, the project information labels which are the same as the engineering information on the asset transfer template are reserved, other project information labels are deleted, the information which is different from the project information on the asset transfer template is selected, the content which is supposed to be the project information labels on the engineering information is estimated through the big data model, the project information labels are generated according to the estimated content and added into the asset transfer template, and the template processing module 13 sends the modified asset transfer template to the engineering system 2.

As shown in fig. 2, the template filling module 21 receives and displays the asset transfer template, receives an external input instruction to select a project information label and fill in a fixed asset blank template to form an asset transfer list, the template filling module 21 generates a number each time one piece of fixed asset information is filled in when the fixed asset blank template is filled in, the number is associated with the fixed asset information, and the template filling module 21 transmits the asset transfer list to the cloud platform system 1.

As shown in fig. 2, the manifest auditing module 12 receives the asset handoff manifest and invokes the asset handoff templates of the template processing module 13, compares the asset handoff manifest according to the asset handoff templates, looks up whether unfilled content exists on the asset handoff manifest and whether modified content exists on the asset handoff templates, marks the unfilled content and returns the asset handoff manifest to the engineering system 2 if unfilled content exists on the asset handoff manifest, marks the modified content if modified content exists on the asset handoff manifest and the asset handoff templates, and sends the marked content to the engineering system 2 and the operation system 3, and returns the asset handoff manifest to the engineering system 2. The two-dimensional code generation module 14 receives the asset handover list, the two-dimensional code generation module 14 generates two-dimensional codes according to the number of the fixed asset information in the asset handover list, associates each two-dimensional code with the fixed asset information of the corresponding number, sends the two-dimensional codes to the engineering system 2, and sends the asset handover list and the two-dimensional codes to the operation system 3.

As shown in fig. 2, the two-dimensional code printing module 22 receives the two-dimensional code and prints the two-dimensional code. And the engineering party attaches the two-dimensional code to the corresponding fixed asset.

As shown in fig. 2, the tag generation module 32 receives the asset handoff list, the tag generation module 32 presets blank asset tags including asset names, asset numbers, and asset information, and the tag generation module 32 generates asset tags from the fixed asset information in the asset handoff list and prints the asset tags. The tag confirmation module 33 scans the two-dimensional code and invokes the fixed asset information in the cloud platform system 1 through the two-dimensional code. Inventory validation module 34 determines the asset tag used and, based on the asset information on the asset tag, whether the fixed asset is consistent with the asset information, selects and transmits inconsistent fixed asset information to cloud platform system 1.

As shown in fig. 2, the inventory modification module 15 receives the fixed asset information uploaded by the inventory confirmation module 34, deletes the fixed asset information from the asset transfer inventory, and returns the modified asset transfer inventory to the inventory confirmation module 34.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (10)

1. A method of asset handoff management for construction transfer operations, comprising the steps of:

setting a cloud end (4), an operation end (6) and an engineering end (5);

the cloud (4) presets an asset transfer template, wherein the asset transfer template comprises project information labels and a fixed asset blank template;

the cloud (4) receives engineering information and modifies project information labels in the asset transfer template according to the engineering information;

the cloud end (4) sends the asset transfer template to the engineering end (5);

the engineering end (5) completes the asset transfer template by selecting project information labels and filling in a fixed asset blank template to form an asset transfer list, wherein the fixed asset blank template is filled in to form fixed asset information with a number, and the asset transfer list is uploaded to the cloud end (4);

after the cloud (4) receives the asset transfer list, generating two-dimensional codes according to the quantity of the fixed asset information in the asset transfer list, associating each two-dimensional code with the fixed asset information of the corresponding number, sending the two-dimensional codes to the engineering end (5), and sending the asset transfer list and the two-dimensional codes to the operation end (6);

the engineering end (5) prints the two-dimension code and pastes the two-dimension code on the corresponding fixed asset after receiving the two-dimension code;

after receiving the asset transfer list and the two-dimensional code, the operation end (6) generates an asset tag according to the fixed asset information and prints the asset tag;

the operation end (6) scans the two-dimension code of the engineering site, acquires the fixed asset information from the cloud end (4), attaches corresponding asset labels, checks the fixed asset information on the asset transfer list according to the attached asset labels, and corrects the asset transfer list.

2. The asset handoff management method for construction transfer operation according to claim 1, wherein said step of asset handoff templates including project information tags and fixed asset blank templates further comprises: the item information labels comprise a plurality of layers of information labels, each information label is associated with an upper layer of information labels, and when the upper layer of information labels are selected, the lower layer of information labels are allowed to be selected.

3. The asset handoff management method for construction transfer operation according to claim 1, wherein said steps of generating asset tags from fixed asset information and printing the asset tags further comprises:

presetting a blank asset tag, wherein the blank asset tag comprises an asset name, an asset number and asset information;

filling in blank asset tags according to the fixed asset information, and printing the filled-in asset tags;

the step of the operation end (6) scanning the two-dimensional code of the engineering site to obtain the fixed asset information from the cloud end (4) and attaching the corresponding asset tag further comprises the following steps:

the operation end (6) obtains fixed asset information corresponding to the two-dimension code by accessing the cloud end (4) through the two-dimension code when scanning the two-dimension code, compares the obtained fixed asset information with the asset name and the asset information on the asset tag, and finds out the same asset tag to be attached to the fixed asset where the two-dimension code is located.

4. The asset transfer management method for construction transfer operation according to claim 1, further comprising the steps of:

after receiving the asset transfer list uploaded by the engineering end (5), the cloud end (4) compares the asset transfer list according to the asset transfer template, and searches whether unfilled content exists on the asset transfer list or not and whether modified content exists between the asset transfer list and the asset transfer template or not;

if there is unfilled content on the asset transfer list or there is modified content on the asset transfer list and the asset transfer template, the asset transfer list is returned to the engineering end (5).

5. The method for managing asset handoff according to claim 4, wherein said step of returning the asset handoff list to the engineering side (5) if there is unfilled content on the asset handoff list or there is modified content on the asset handoff list and the asset handoff template specifically comprises:

if the unfilled content exists on the asset transfer list, marking the unfilled content and returning the asset transfer list to the engineering end (5);

if the asset transfer list and the asset transfer template have modification contents, marking the modification contents, sending marked contents to the engineering end (5) and the operation end (6), and returning the asset transfer list to the engineering end (5);

if the engineering end (5) and the operation end (6) both send confirmation modification signals to the cloud end (4) after receiving the marked content, the cloud end (4) determines to receive the asset transfer list.

6. The method for managing asset handoff as defined in claim 1, wherein said step of checking the fixed asset information on the asset handoff list based on the attached asset tag, and correcting the asset handoff list specifically comprises:

determining whether the fixed asset is consistent with the asset information according to the asset information on the asset tag;

if the information is inconsistent, uploading fixed asset modification information to the cloud (4);

the cloud end (4) modifies the fixed asset information on the asset transfer list after receiving the fixed asset modification information, and the cloud end (4) returns the modified asset transfer list to the operation end (6).

7. The method for managing asset handoff as claimed in claim 1, wherein said step of modifying the project information tag in the asset handoff template according to the engineering information specifically comprises:

verifying the information of the engineering information which is the same as the asset transfer template, reserving project information labels which are the same as the engineering information on the asset transfer template, and deleting other project information labels;

and selecting different information on the engineering information and the asset transfer template, estimating the content which should be used as the project information label on the engineering information through a big data model, generating the project information label according to the estimated content, and adding the project information label into the asset transfer template.

8. A transfer-of-construction asset handoff management system, characterized by: the cloud platform system comprises a cloud end (4), an operation end (6) and an engineering end (5), wherein the cloud end (4) is provided with a cloud platform system (1), the operation end (6) is provided with an operation system (3), and the engineering end (5) is provided with an engineering system (2);

the cloud platform system (1) comprises a template pre-storing module (11), a template processing module (13) and a two-dimensional code generating module (14);

the template pre-storing module (11) is preset with an asset transfer template, wherein the asset transfer template comprises project information labels and a fixed asset blank template;

the template processing module (13) receives engineering information and then calls an asset transfer template of the template pre-storing module (11), the template processing module (13) modifies project information labels in the asset transfer template according to the engineering information, and the modified asset transfer template is sent to the engineering system (2);

the two-dimensional code generation module (14) receives the asset transfer list, the two-dimensional code generation module (14) generates two-dimensional codes according to the quantity of the fixed asset information in the asset transfer list, associates each two-dimensional code with the fixed asset information of the corresponding number, sends the two-dimensional codes to the engineering system (2), and sends the asset transfer list and the two-dimensional codes to the operation system (3);

the engineering system (2) comprises a template filling module (21) and a two-dimensional code printing module (22);

the template filling module (21) receives and displays an asset transfer template, receives an external input instruction to select a project information label and fill in a fixed asset blank template to form an asset transfer list, the template filling module (21) generates a number each time when filling in the fixed asset blank template, the number is associated with the fixed asset information, and the template filling module (21) transmits an asset transfer list to the cloud platform system (1);

the two-dimensional code printing module (22) receives the two-dimensional code and prints the two-dimensional code;

the operation system (3) comprises an information uploading module (31), a label generating module (32), a label confirming module (33) and a list confirming module (34);

the information uploading module (31) uploads engineering information to the cloud platform system (1);

the tag generation module (32) receives the asset handoff manifest, generates asset tags from fixed asset information in the asset handoff manifest and prints the asset tags;

the tag confirmation module (33) scans the two-dimensional code and invokes the fixed asset information in the cloud platform system (1) through the two-dimensional code;

the inventory confirmation module (34) determines the asset tag used and modifies the asset handoff inventory according to the fixed asset information corresponding to the determined asset tag.

9. A construction-transfer-operation asset handoff management system according to claim 8 wherein: the item information labels in the template pre-storing module (11) comprise a plurality of layers of information labels, each information label is associated with the information labels of the upper layer and the lower layer, and when the information label of the upper layer is selected, the information label of the lower layer is allowed to be selected;

the label generating module (32) is preset with blank asset labels, and the blank asset labels comprise asset names, asset numbers and asset information.

10. A construction-transfer-operation asset handoff management system according to claim 8 wherein: the cloud platform system (1) further comprises a manifest auditing module (12), wherein the manifest auditing module (12) receives the asset handing over manifest and invokes the asset handing over templates of the template processing module (13), compares the asset handing over manifest according to the asset handing over templates, searches whether unfilled contents exist on the asset handing over manifest and whether the asset handing over manifest and the asset handing over templates exist modified contents, marks the unfilled contents and returns the asset handing over manifest to the engineering system (2) if the unfilled contents exist on the asset handing over manifest, marks the modified contents if the asset handing over manifest and the asset handing over templates exist, sends the marked contents to the engineering system (2) and the operation system (3), and returns the asset handing over manifest to the engineering system (2).