CN109685325A - Project cost progress control method and system - Google Patents

Abstract

The present invention relates to a kind of project cost progress control method and system, the project cost progress control method includes: each flow nodes obtained in project cost, as alliance's chain node；Alliance's chain node is formed into alliance's chain；By the data of each flow nodes by block chain technology, corresponding node subchain is formed；The flow nodes in alliance's chain are monitored in real time.The present invention has the effect of improving project cost progress control efficiency.

Description

Project cost progress control method and system

Technical field

The present invention relates to the technical fields of information technology, more particularly, to a kind of project cost progress control method and are System.

Background technique

Currently, project cost, existing cost can be made to the engineering accepted before bid by being responsible for the enterprise of bid Process is the information that staff provides according to owner and oneself carries out the engineering of undertaking to the information that site inspection obtains The work that cost calculates.It is cumbersome due to cost work, need the work to cost staff to exercise supervision, and at present can only It is exercised supervision by related personnel to the cost work of cost staff, does not meet the requirement now to office automatic, together When need extra work personnel, cause the waste of human resources.

Summary of the invention

The object of the present invention is to provide a kind of project cost progress control methods for improving project cost progress control efficiency And system.

Foregoing invention purpose one of the invention has the technical scheme that

Project cost progress control method, the project cost progress control method include:

Each flow nodes in project cost are obtained, as alliance's chain node；

Alliance's chain node is formed into alliance's chain；

By the data of each flow nodes by block chain technology, corresponding node subchain is formed；

The flow nodes in alliance's chain are monitored in real time.

By using above-mentioned technical proposal, it is based on block chain technology, using each flow nodes as alliance's chain node, and will A alliance's chain node forms alliance's chain, using alliance's chain provide the function of quickly handling, can reduce progress control when Between, improve the efficiency of progress control；It is based on block chain technology simultaneously, each flow nodes are formed into corresponding node subchain, by It is all to be in progress always sequentially in time in each process, the time being utilized in block chain well is irreversible, can not distort Characteristic, ensure that the safety of each process, meanwhile, the decentralization of block chain technology, also improve monitoring when efficiency.

The present invention is further arranged to: each flow nodes of the acquisition in project cost, as alliance's chain node Include:

Each flow nodes include common data and private data, obtain each process in the project cost The common data of node；

Alliance's chain node by the common data of each flow nodes, as each flow nodes.

Further, described by block chain technology, using the process content and the renewal time as more new block, The node subchain that the corresponding flow nodes are written includes:

The wound generation block includes the wound generation time, obtains the wound generation time；

In such a way that more new block is written in the wound generation time, the corresponding flow nodes are written into the more new block The node subchain.

Each flow nodes are combined into alliance's chain using the mode of composition alliance's chain by using above-mentioned technical proposal, Provide reliable frame for project cost progress control, every time there is new technological process to establish when, directly in alliance's chain for Node subchain in be added, improve the efficiency of progress control.

The present invention is further arranged to: described be monitored in real time to the flow nodes in alliance's chain includes:

It when each node subchain has the write-in of more new block, obtains in alliance's chain, each more new block is corresponding The renewal time；

More new content corresponding to the renewal time is monitored.

By using above-mentioned technical proposal, when the progress of project cost has update, i.e., the step of progress is according to process When execution, corresponding content is written in corresponding node subchain and executes the time of the process, monitoring personnel can be in node Chain have with it is new when, to renewal time and more, new content is tested in time, is compared with estimated renewal time, area is utilized The characteristic of the decentralization of block chain technology, improves the efficiency of monitoring.

Foregoing invention purpose two of the invention has the technical scheme that

A kind of project cost progress control system, the project cost progress control system include:

First obtains module, for obtaining each flow nodes in project cost, as alliance's chain node；

Alliance's chain comprising modules, for alliance's chain node to be formed alliance's chain；

Node subchain comprising modules, for the data of each flow nodes by block chain technology, to be formed corresponding node Chain；

Monitoring module, for being monitored in real time to the flow nodes in alliance's chain.

In conclusion advantageous effects of the invention are as follows:

Based on block chain technology, using each flow nodes as alliance's chain node, and a alliance's chain node is formed into alliance's chain, The function of quickly handling of being provided using alliance's chain, can reduce the time of progress control, improves the efficiency of progress control；Simultaneously Based on block chain technology, each flow nodes are formed into corresponding node subchain, since each process is all sequentially in time It is in progress always, the time being utilized in block chain well is irreversible, and the characteristic that can not be distorted ensure that the peace of each process Entirely, meanwhile, the decentralization of block chain technology also improves the efficiency in monitoring.

Detailed description of the invention

Fig. 1 is a flow chart of project cost progress control method in one embodiment of the invention.

Fig. 2 be in one embodiment of the invention in project cost progress control method to the implementation flow chart of step S10.

Fig. 3 be in one embodiment of the invention in project cost progress control method to the implementation flow chart of step S30.

Fig. 4 be in one embodiment of the invention in project cost progress control method to the implementation flow chart of step S33.

Fig. 5 be in one embodiment of the invention in project cost progress control method to the implementation flow chart of step S40.

Fig. 6 is a functional block diagram of project cost progress control system in one embodiment of the invention.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

Embodiment one:

In one embodiment, as shown in Figure 1, providing a kind of data processing method, include the following steps:

S10: each flow nodes in project cost are obtained, as alliance's chain node.

In the present embodiment, flow nodes refer to each step during carrying out project cost, can specifically include Engineering estimation, estimation per design, working drawing budget completion disbursement and sattlement and budget needed for the completion of projects etc..Alliance's chain node be in alliance's chain, Corresponding each member.

Specifically, by each flow nodes of project cost, each alliance's chain node in alliance's chain is corresponded to.

S20: alliance's chain node is formed into alliance's chain.

Specifically, the method being made up of alliance's chain, for example, each federation node is formed the alliance by intelligent contract Chain.

S30: by the data of each flow nodes by block chain technology, corresponding node subchain is formed.

In the present embodiment, node subchain refers to the corresponding block chain of each flow nodes.

Specifically, by block chain technology, the data of each flow nodes are handled, obtain corresponding node Chain, as a member on alliance's chain.

S40: the flow nodes in alliance's chain are monitored in real time.

Specifically, when each node subchain in alliance's chain has new content addition, time which is added with It is expected that time be compared, or when reaching the estimated time, whether corresponding node subchain has corresponding content to be added.

In the present embodiment, it is based on block chain technology, using each flow nodes as alliance's chain node, and by a alliance's chain Node forms alliance's chain, using alliance's chain provide the function of quickly handling, can reduce the time of progress control, improve into Spend the efficiency of management；It is based on block chain technology simultaneously, each flow nodes are formed into corresponding node subchain, due to each process It is all to be in progress always sequentially in time, the time being utilized in block chain well is irreversible, the characteristic that can not be distorted, and guarantees The safety of each process, meanwhile, the decentralization of block chain technology also improves the efficiency in monitoring.

In one embodiment, as shown in Fig. 2, in step S10, that is, each flow nodes in project cost are obtained, made For alliance's chain node, specifically comprise the following steps:

S11: each flow nodes include common data and private data, obtain the public affairs of each flow nodes in project cost Data altogether.

In the present embodiment, common data refers to for distinguishing the corresponding mark of each flow nodes.Private data refers to The particular content of corresponding each flow nodes.

Specifically, the common data of each flow nodes in project cost is obtained.

S12: alliance's chain node by the common data of each flow nodes, as each flow nodes.

Specifically, by the methods of intelligent contract, by the corresponding common data of each flow nodes, as alliance's chain link Point.

In one embodiment, as shown in figure 3, in step S30, i.e., the data of each flow nodes are passed through into block chain skill Art forms corresponding node subchain, specifically comprises the following steps:

S31: obtaining the start node of each flow nodes, the wound generation block of the node subchain as corresponding flow nodes.

In the present embodiment, start node refers to the first step in corresponding flow nodes.Wound generation block refers to every In the corresponding block chain of one node subchain, first block.

Specifically, by the start node of each flow nodes, the area Chuan Shi of the node subchain as corresponding flow nodes Block.

S32: if getting in flow nodes has process update message, the process content and more of process update message is obtained The new time.

In the present embodiment, process update message refers to corresponding each flow nodes, there is new process, request addition Into the message of the node subchain.The technical ability update message includes the renewal time that specifically process content and the process occur.

S33: corresponding process section is written using process content and renewal time as more new block by block chain technology The node subchain of point.

Specifically, hash algorithm, the cryptographic Hash of calculation procedure content, using the cryptographic Hash as the more new district can be used Block, and the mode of the renewal time in this more new block in the upper block of addition, are written corresponding process for the more new block In the node subchain of node.

In one embodiment, as shown in figure 4, in step S33, i.e., by block chain technology, when by process content and update Between be used as more new block, the node subchain of corresponding flow nodes is written, specifically comprises the following steps:

S331: wound generation block includes the wound generation time, obtains the wound generation time.

In the present embodiment, the wound generation time refers to the time that wound generation block generates, i.e. start node in the flow nodes The time of generation.

Specifically, in wound generation block, the wound generation time is obtained.

S332: by way of it will create the generation time and more new block is written, corresponding flow nodes are written into more new block Node subchain.

Specifically, by will create the generation time, the mode of more new block is written, so that wound generation block and more new block is formed The node subchain of corresponding flow nodes is written in more new block by chain structure.

In one embodiment, as shown in figure 5, in step S40, i.e., packet is monitored to the flow nodes in alliance's chain in real time It includes:

S41: it when every minor node subchain has the write-in of more new block, obtains in alliance's chain, respectively more new block corresponding renewal time.

Specifically, it when there is more new block that corresponding node subchain in alliance's chain is written, obtains in this more new block Corresponding renewal time.

S42: more new content corresponding to renewal time is monitored.

It specifically, can be in such a way that the renewal time be compared with preset comparison time, in the update Appearance is monitored, and whether the renewal time for checking the more new content is more than the preset comparison time.

Embodiment two:

In one embodiment, a kind of project cost progress control system is provided, the project cost progress control system and above-mentioned reality Project cost progress control method in example is applied to correspond.As shown in fig. 6, the project cost progress control system is obtained including first Modulus block 10, alliance's chain comprising modules 20, node subchain comprising modules 30 and monitoring module.Each functional module is described in detail such as Under:

First obtains module 10, for obtaining each flow nodes in project cost, as alliance's chain node；

Alliance's chain comprising modules 20, for alliance's chain node to be formed alliance's chain；

Node subchain comprising modules 30, for the data of each flow nodes by block chain technology, to be formed corresponding node Subchain；

Monitoring module 40, for being monitored in real time to the flow nodes in alliance's chain.

Preferably, the first acquisition module 10 includes:

First acquisition submodule 11 includes common data and private data for each flow nodes, obtains in project cost, The common data of each flow nodes；

Alliance's chain node acquisition submodule 12, for the connection by the common data of each flow nodes, as each flow nodes Alliance's chain node.

Preferably, node subchain comprising modules 30 include:

Second acquisition submodule 31, the node for obtaining the start node of each flow nodes, as corresponding flow nodes The wound generation block of subchain；

Third acquisition submodule 32 obtains process update message if having process update message for getting in flow nodes Process content and renewal time；

Sub-module stored 33, for by block chain technology, using process content and renewal time as more new block, write-in to be corresponded to Flow nodes node subchain.

Preferably, sub-module stored 33 includes:

Acquiring unit 331 includes the wound generation time for creating generation block, obtains the wound generation time；

Storage unit 332, for by way of it will create the generation time and more new block is written, corresponding process to be written in more new block The node subchain of node.

Preferably, monitoring module 40 includes:

Renewal time acquisition submodule 41, for obtaining in alliance's chain, respectively more when every minor node subchain has the write-in of more new block New block corresponding renewal time；

Monitoring submodule 42, for being monitored to renewal time corresponding more new content.

Specific restriction about project cost progress control system may refer to above for project cost progress control The restriction of method, details are not described herein.Modules in above-mentioned project cost progress control system can be fully or partially through Software, hardware and combinations thereof are realized.Above-mentioned each module can be embedded in the form of hardware or independently of the place in computer equipment It manages in device, can also be stored in a software form in the memory in computer equipment, in order to which processor calls execution or more The corresponding operation of modules.

The embodiment of present embodiment is presently preferred embodiments of the present invention, not limits protection of the invention according to this Range, therefore: the equivalence changes that all structures under this invention, shape, principle are done, should all be covered by protection scope of the present invention it It is interior.

Claims (10)

1. project cost progress control method, which is characterized in that the project cost progress control method includes:

Each flow nodes in project cost are obtained, as alliance's chain node；

Alliance's chain node is formed into alliance's chain；

By the data of each flow nodes by block chain technology, corresponding node subchain is formed；

The flow nodes in alliance's chain are monitored in real time.

2. project cost progress control method as described in claim 1, which is characterized in that the acquisition is in project cost Each flow nodes include: as alliance's chain node

Each flow nodes include common data and private data, obtain each process in the project cost The common data of node；

Alliance's chain node by the common data of each flow nodes, as each flow nodes.

3. project cost progress control method as described in claim 1, which is characterized in that the number by each flow nodes According to by block chain technology, forming corresponding node subchain includes:

The start node for obtaining each flow nodes, the wound generation block of the node subchain as the corresponding flow nodes；

If getting has process update message in the flow nodes, the process content and more of the process update message is obtained The new time；

The corresponding stream is written using the process content and the renewal time as more new block by block chain technology The node subchain of Cheng Jiedian.

4. project cost progress control method as claimed in claim 3, which is characterized in that it is described by block chain technology, it will The process content and the renewal time are used as more new block, and the node subchain packet of the corresponding flow nodes is written It includes:

The wound generation block includes the wound generation time, obtains the wound generation time；

In such a way that more new block is written in the wound generation time, the corresponding flow nodes are written into the more new block The node subchain.

5. project cost progress control method as described in claim 1, which is characterized in that described in real time in alliance's chain Flow nodes be monitored and include:

It when each node subchain has the write-in of more new block, obtains in alliance's chain, each more new block is corresponding The renewal time；

More new content corresponding to the renewal time is monitored.

6. a kind of project cost progress control system, which is characterized in that the project cost progress control system includes:

First obtains module, for obtaining each flow nodes in project cost, as alliance's chain node；

Alliance's chain comprising modules, for alliance's chain node to be formed alliance's chain；

Node subchain comprising modules, for the data of each flow nodes by block chain technology, to be formed corresponding node Chain；

Monitoring module, for being monitored in real time to the flow nodes in alliance's chain.

7. project cost progress control system as claimed in claim 6, which is characterized in that described first, which obtains module, includes:

First acquisition submodule includes common data and private data for each flow nodes, obtains in the engineering In cost, the common data of each flow nodes；

Alliance's chain node acquisition submodule, for by the common data of each flow nodes, as each process section Alliance's chain node of point.

8. project cost progress control system as claimed in claim 6, which is characterized in that the node subchain comprising modules packet It includes:

Second acquisition submodule, the section for obtaining the start node of each flow nodes, as the corresponding flow nodes The wound generation block of point subchain；

Third acquisition submodule obtains the process more if having process update message in the flow nodes for getting The process content of new information and renewal time；

Sub-module stored, for being write by block chain technology using the process content and the renewal time as more new block Enter the node subchain of the corresponding flow nodes.

9. project cost progress control system as claimed in claim 8, which is characterized in that the sub-module stored includes:

Acquiring unit includes the wound generation time for the wound generation block, obtains the wound generation time；

Storage unit, in such a way that more new block is written in the wound generation time, the more new block write-in to be corresponded to The flow nodes the node subchain.

10. project cost progress control system as claimed in claim 6, which is characterized in that the monitoring module includes:

Renewal time acquisition submodule, for obtaining alliance's chain when each node subchain has the write-in of more new block In, each more new block corresponding renewal time；

Monitoring submodule, for being monitored to the renewal time corresponding more new content.