CN111275502A - Bridge engineering cost calculation method - Google Patents

一种桥梁工程造价计算方法A method for calculating the cost of bridge engineering

技术领域technical field

本发明涉及一种桥梁工程造价计算方法。The invention relates to a method for calculating the cost of bridge engineering.

背景技术Background technique

工程造价指工程的建设价格，即完成一个工程的建设所预期或者实际所需的全部费用总和。现有的工程造价计算方法，通常由造价人员根据工程设计资料进行工程造价的计算，计算效率低。而且，桥梁工程不同于房屋建设工程，工程项目比较多，现有的桥梁工程造价计算方法的计算过程比较复杂。Project cost refers to the construction price of a project, that is, the sum of all the expected or actual costs to complete the construction of a project. The existing engineering cost calculation method usually calculates the engineering cost by the cost personnel according to the engineering design data, and the calculation efficiency is low. Moreover, bridge engineering is different from housing construction engineering, there are many engineering projects, and the calculation process of the existing bridge engineering cost calculation method is more complicated.

发明内容SUMMARY OF THE INVENTION

本发明的目的在于提供一种桥梁工程造价计算方法，用于解决现在的桥梁工程造价计算方法的计算过程比较复杂的问题。The purpose of the present invention is to provide a bridge engineering cost calculation method, which is used to solve the problem that the calculation process of the current bridge engineering cost calculation method is relatively complicated.

为了解决上述问题，本发明采用以下技术方案：In order to solve the above problems, the present invention adopts the following technical solutions:

一种桥梁工程造价计算方法，包括：A bridge engineering cost calculation method, comprising:

按照先后顺序依次获取桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数；Obtain bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters in sequence;

将获取到的所述桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数输入到预设的桥梁工程造价数据库中，从所述预设的桥梁工程造价数据库中获取与所述桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数分别相对应的第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息；Input the acquired bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters into the preset bridge engineering cost database, and obtain the same parameters from the preset bridge engineering cost database. The first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information corresponding to the bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters respectively;

根据所述第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息，计算得到桥梁工程造价结果；According to the first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information, calculate and obtain the bridge project cost result;

将计算得到的所述桥梁工程造价结果进行展示，并同时存储至内存数据库中。The calculated cost result of the bridge project is displayed and stored in the memory database at the same time.

可选地，所述桥梁工程造价计算方法，还包括：Optionally, the bridge engineering cost calculation method further includes:

判断存储于所述内存数据库中的所述桥梁工程造价结果的存储时长与预设存储时长；Judging the storage duration and the preset storage duration of the bridge engineering cost result stored in the memory database;

若所述桥梁工程造价结果的存储时长大于所述预设存储时长，则将存储于所述内存数据库中的所述桥梁工程造价结果转移至磁盘数据库中。If the storage duration of the bridge engineering cost result is longer than the preset storage duration, the bridge engineering cost result stored in the memory database is transferred to a disk database.

可选地，所述桥梁工程造价计算方法，还包括：Optionally, the bridge engineering cost calculation method further includes:

当读取所述桥梁工程造价结果时，若所述桥梁工程造价结果的存储时长小于或者等于所述预设存储时长，则从所述内存数据库中读取所述桥梁工程造价结果；若所述桥梁工程造价结果的存储时长大于所述预设存储时长，则从所述磁盘数据库中读取所述桥梁工程造价结果。When reading the bridge engineering cost result, if the storage duration of the bridge engineering cost result is less than or equal to the preset storage duration, the bridge engineering cost result is read from the memory database; if the If the storage duration of the bridge project cost result is greater than the preset storage duration, the bridge project cost result is read from the disk database.

可选地，在所述将计算得到的所述桥梁工程造价结果进行展示，并同时存储至内存数据库中之后，所述桥梁工程造价计算方法，还包括：Optionally, after the bridge project cost result obtained by the calculation is displayed and stored in the memory database at the same time, the bridge project cost calculation method further includes:

根据预设的转发地址以及预设的传输模板确定所述桥梁工程造价结果待转发的转发地址和传输模板；Determine the forwarding address and transmission template to which the bridge engineering cost result is to be forwarded according to the preset forwarding address and the preset transmission template;

根据所述传输模板中的封装方式封装所述桥梁工程造价结果获得传输数据；Encapsulate the bridge engineering cost result according to the encapsulation method in the transmission template to obtain transmission data;

根据所述传输模板中的加密方式对所述传输数据进行加密获得加密传输数据；Encrypting the transmission data according to the encryption method in the transmission template to obtain encrypted transmission data;

根据所述传输模板中的传输方式和所述接收地址将所述加密传输数据发送给与所述转发地址相对应的转发对象。The encrypted transmission data is sent to the forwarding object corresponding to the forwarding address according to the transmission mode and the receiving address in the transmission template.

本发明的有益效果为：按照先后顺序依次获取桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数，上述参数获取的先后顺序为桥梁建设的施工工序，根据桥梁建设的施工工序获取相关的工程参数，不但能够快速准确地获取到各工程参数，而且，能够降低参数漏项或者重复获取的可能性，提升数据获取的可靠性，进而提升桥梁工程造价计算结果的准确性；根据预设的桥梁工程造价数据库得到与桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数分别相对应的第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息，根据第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息，计算得到桥梁工程造价结果，这种计算方式能够提升计算结果的准确性和可靠性，还能够降低计算过程的复杂性；将计算得到的桥梁工程造价结果进行展示，能够使造价人员直观获取到桥梁工程造价结果；将桥梁工程造价结果存储至内存数据库中，由于内存数据库的读写性能较高，将桥梁工程造价结果存储至内存数据库，能够有效提高存储效率以及存储可靠性，保证数据不易丢失，而且，在读取内存数据库中的桥梁工程造价结果时，能够提升读取效率以及读取可靠性。The beneficial effects of the invention are as follows: the bridge foundation engineering parameters, the substructure engineering parameters, the upper structure engineering parameters and the adjustment engineering parameters are obtained in sequence, and the sequence of obtaining the above parameters is the construction process of the bridge construction, according to the construction process of the bridge construction. Obtaining relevant engineering parameters can not only quickly and accurately obtain various engineering parameters, but also reduce the possibility of missing or repeated parameter acquisition, improve the reliability of data acquisition, and then improve the accuracy of bridge engineering cost calculation results; The preset bridge project cost database obtains the first project cost budget information, the second project cost budget information and the third project cost budget corresponding to the bridge foundation project parameters, the substructure project parameters, the superstructure project parameters and the adjustment project parameters respectively. Information and the fourth project cost budget information, according to the first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information, calculate the bridge project cost result, this calculation method can Improve the accuracy and reliability of the calculation results, and reduce the complexity of the calculation process; display the calculated bridge engineering cost results, so that the cost personnel can intuitively obtain the bridge engineering cost results; store the bridge engineering cost results in memory In the database, due to the high read and write performance of the in-memory database, storing the bridge engineering cost results in the in-memory database can effectively improve the storage efficiency and storage reliability, and ensure that the data is not easily lost. As a result, reading efficiency and reading reliability can be improved.

附图说明Description of drawings

为了更清楚地说明本发明实施例的技术方案，下面将对实施例中所需要使用的附图作简单地介绍：In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings that need to be used in the embodiments:

图1是桥梁工程造价计算方法的流程示意图。Figure 1 is a schematic flow chart of the method for calculating the cost of bridge engineering.

具体实施方式Detailed ways

本实施例提供一种桥梁工程造价计算方法，该桥梁工程造价计算方法的执行主体可以为计算机设备、服务器设备或者智能移动终端。This embodiment provides a method for calculating the cost of a bridge project, and the execution subject of the method for calculating the cost of a bridge project may be a computer device, a server device, or an intelligent mobile terminal.

如图1所示，桥梁工程造价计算方法包括：As shown in Figure 1, the calculation method of bridge engineering cost includes:

按照先后顺序依次获取桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数：Obtain the bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters in sequence:

按照时间先后顺序依次获取桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数，即首先获取桥梁基础工程参数，接着获取下部构造工程参数，然后获取上部构造工程参数，最后获取调治工程参数。Acquire bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters, and adjustment engineering parameters in chronological order, that is, first obtain the bridge foundation engineering parameters, then obtain the substructure engineering parameters, then obtain the superstructure engineering parameters, and finally obtain the adjustment engineering parameters. engineering parameters.

本实施例中，桥梁基础工程参数为桥梁基础工程的相关参数，比如基坑的数量，而基坑的开挖有土方、石方、淤泥、流沙、基坑深度、干度或者湿度等不同情况，根据不同的情况确定基坑的数量。当然，除了基坑的数量之外，桥梁基础工程参数还可以包括其他的参数，具体的基础工程参数由桥梁的种类以及实际结构决定。In this embodiment, the bridge foundation engineering parameters are related parameters of the bridge foundation engineering, such as the number of foundation pits, and the excavation of foundation pits has different conditions such as earthwork, stonework, silt, quicksand, foundation pit depth, dryness or humidity, etc. , and determine the number of foundation pits according to different situations. Of course, in addition to the number of foundation pits, the bridge foundation engineering parameters can also include other parameters, and the specific foundation engineering parameters are determined by the type of bridge and the actual structure.

本实施例中，下部构造工程参数为桥梁下部构造的相关参数，比如墩台的数量，墩台可以有砌石、现浇混凝土和预制安装混凝土构件等不同结构形式，不同的结构形式对应的墩台的价格可能不一样。当然，除了墩台的数量之外，下部构造工程参数还可以包括其他的参数，具体的下部构造工程参数由桥梁的种类以及实际结构决定。In this embodiment, the engineering parameters of the substructure are related parameters of the substructure of the bridge, such as the number of piers. The piers can have different structural forms such as masonry, cast-in-place concrete, and prefabricated concrete components. The piers corresponding to different structural forms The price of the table may vary. Of course, in addition to the number of piers, the substructure engineering parameters may also include other parameters, and the specific substructure engineering parameters are determined by the type of bridge and the actual structure.

本实施例中，上部构造工程参数为桥梁上部构造的相关参数，通常包括行车道、桥面铺装和人行道三个部分，有砌石、现浇混凝土、预制安装混凝土构件、钢桁加和钢索吊桥等不同结构形式，不同的结构形式对应的行车道、桥面铺装和人行道的价格可能不一样。当然，除了行车道、桥面铺装和人行道之外，上部构造工程参数还可以包括其他的参数，具体的上部构造工程参数由桥梁的种类以及实际结构决定。In this embodiment, the engineering parameters of the superstructure are related parameters of the superstructure of the bridge, which usually include three parts: roadway, bridge deck pavement and sidewalk, including masonry, cast-in-place concrete, prefabricated concrete components, Different structural forms such as cable suspension bridges may have different prices for carriageways, bridge decks and sidewalks corresponding to different structural forms. Of course, the superstructure engineering parameters may also include other parameters in addition to the carriageway, bridge deck pavement and sidewalk, and the specific superstructure engineering parameters are determined by the type of bridge and the actual structure.

本实施例中，调治工程参数即调治构造物，调治构造物是桥梁工程的重要组成部分，主要包括各种形式的导流堤、丁坝及其他桥头防护工程。导流堤的主要作用是导引水流平顺通过桥孔，提高桥孔泄洪能力；丁坝常设置在桥头引道的一侧或桥梁附近的河岸一侧，特别是在河流弯道凹岸的一侧，将水流挑离桥头引道河岸，使泥沙在坝后淤积，形成新的水边线，达到对凹岸及桥台防护的目的。In this embodiment, the adjustment engineering parameters are adjustment structures, which are an important part of bridge engineering, mainly including various forms of diversion dikes, spur dams and other bridge head protection works. The main function of the diversion dike is to guide the water flow smoothly through the bridge hole and improve the flood discharge capacity of the bridge hole. The water flows away from the river bank of the approach road at the bridge head, so that the sediment is deposited behind the dam, forming a new waterside line, and achieving the purpose of protecting the concave bank and the bridge abutment.

将获取到的所述桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数输入到预设的桥梁工程造价数据库中，从所述预设的桥梁工程造价数据库中获取与所述桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数分别相对应的第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息：Input the acquired bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters into the preset bridge engineering cost database, and obtain the same parameters from the preset bridge engineering cost database. The first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information corresponding to the bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters respectively:

预设有一个桥梁工程造价数据库，该数据库中存储有桥梁基础工程参数以及对应的工程费用预算信息，为第一工程费用预算信息，有下部构造工程参数以及对应的工程费用预算信息，为第二工程费用预算信息，有上部构造工程参数以及对应的工程费用预算信息，为第三工程费用预算信息，有调治工程参数以及对应的工程费用预算信息，为第四工程费用预算信息。各工程费用预算信息具体为对应的工程费用预算，具体预算由实际情况确定，比如由桥梁种类确定。A bridge engineering cost database is preset, which stores the bridge foundation engineering parameters and the corresponding engineering cost budget information, which is the first engineering cost budget information, and the substructure engineering parameters and the corresponding engineering cost budget information, which is the second. The project cost budget information includes upper structure project parameters and corresponding project cost budget information, which is the third project cost budget information, and includes adjustment project parameters and corresponding project cost budget information, which is the fourth project cost budget information. Each project cost budget information is specifically the corresponding project cost budget, and the specific budget is determined by the actual situation, for example, by the type of bridge.

那么，将获取到的桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数输入到预设的桥梁工程造价数据库中，从预设的桥梁工程造价数据库中就能够获取到与桥梁基础工程参数、下部构造工程参数、上部构造工程参数和调治工程参数分别相对应的第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息。Then, the obtained bridge foundation engineering parameters, substructure engineering parameters, superstructure engineering parameters and adjustment engineering parameters are input into the preset bridge engineering cost database, and the bridge engineering cost database can be obtained from the preset bridge engineering cost database. The first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information corresponding to the basic engineering parameters, the lower structure engineering parameters, the upper structure engineering parameters and the adjustment engineering parameters respectively.

根据所述第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息，计算得到桥梁工程造价结果：According to the first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information, calculate the bridge project cost result:

根据第一工程费用预算信息、第二工程费用预算信息、第三工程费用预算信息和第四工程费用预算信息，计算得到桥梁工程造价结果，由于桥梁的工程参数通常由上述四个方面组成，因此，计算第一工程费用预算、第二工程费用预算、第三工程费用预算和第四工程费用预算之和，就能够得到桥梁工程造价结果，即桥梁总的工程造价。According to the first project cost budget information, the second project cost budget information, the third project cost budget information and the fourth project cost budget information, the bridge project cost result is calculated. Since the bridge project parameters are usually composed of the above four aspects, so , calculate the sum of the first project cost budget, the second project cost budget, the third project cost budget and the fourth project cost budget, and then the bridge project cost result can be obtained, that is, the total bridge project cost.

将计算得到的所述桥梁工程造价结果进行展示，并同时存储至内存数据库中：The calculated cost results of the bridge project are displayed and stored in the memory database at the same time:

将计算得到的桥梁工程造价结果通过显示器进行展示，并同时将桥梁工程造价结果存储至内存数据库中。内存数据库就是将数据放在内存中直接操作的数据库，相对于磁盘，内存的数据读写速度要高出几个数量级，将数据保存在内存中相比从磁盘上访问能够极大地提高应用的性能。The calculated bridge engineering cost results are displayed on the display, and the bridge engineering cost results are stored in the memory database at the same time. An in-memory database is a database that directly operates data in memory. Compared with disk, the speed of reading and writing data in memory is several orders of magnitude higher. Saving data in memory can greatly improve application performance compared to accessing from disk. .

进一步地，除了内存数据库之外，还可以再设置磁盘数据库，内存数据库和磁盘数据库之间配合使用。以下给出一种具体实现过程：Further, in addition to the in-memory database, a disk database can also be set, and the in-memory database and the disk database can be used together. A specific implementation process is given below:

判断存储于内存数据库中的桥梁工程造价结果的存储时长与预设存储时长。存储于内存数据库桥梁工程造价结果有一定的存储时长，即从存储开始时刻与之后的某一个时刻之间的时间段；预设存储时长用于实现后续判定，具体数值由实际需要进行设置。Determine the storage duration and the preset storage duration of the bridge engineering cost results stored in the memory database. The bridge project cost results stored in the memory database have a certain storage time, that is, the time period between the start of storage and a certain time after that; the preset storage time is used for subsequent determination, and the specific value is set according to actual needs.

若所述桥梁工程造价结果的存储时长大于所述预设存储时长，则将存储于内存数据库中的桥梁工程造价结果转移至磁盘数据库中。If the storage duration of the bridge project cost result is longer than the preset storage duration, the bridge project cost result stored in the memory database is transferred to the disk database.

进一步地，当读取桥梁工程造价结果时，先判断桥梁工程造价结果的存储时长与预设存储时长的大小关系，若桥梁工程造价结果的存储时长小于或者等于预设存储时长，则从内存数据库中读取桥梁工程造价结果；若桥梁工程造价结果的存储时长大于预设存储时长，则从磁盘数据库中读取桥梁工程造价结果。Further, when reading the bridge engineering cost results, first determine the relationship between the storage duration of the bridge engineering cost results and the preset storage duration, if the storage duration of the bridge engineering cost results is less than or equal to the preset storage duration, then from the memory database Read the bridge engineering cost result in the ROM; if the storage time of the bridge engineering cost result is longer than the preset storage time, read the bridge engineering cost result from the disk database.

由于内存数据库的读写性能较高，将桥梁工程造价结果存储至内存数据库，能够有效提高存储效率以及存储可靠性，保证数据不易丢失，而且，在读取内存数据库中的桥梁工程造价结果时，能够提升读取效率以及读取可靠性；而且，当桥梁工程造价结果的存储时长大于预设存储时长时，则将桥梁工程造价结果转移至磁盘数据库中。通过这种存储方式能够同时集内存数据库和磁盘数据库的性能之所长，提升数据读写的效率以及可靠性和安全性，避免数据丢失；在读取数据信息时，根据存储时长确定所处的数据库，提升读取效率以及速度，降低系统工作负担。Due to the high read-write performance of the in-memory database, storing the bridge project cost results in the in-memory database can effectively improve storage efficiency and storage reliability, and ensure that data is not easily lost. Moreover, when reading the bridge project cost results in the in-memory database, The reading efficiency and reading reliability can be improved; moreover, when the storage duration of the bridge engineering cost result is longer than the preset storage duration, the bridge engineering cost result is transferred to the disk database. This storage method can combine the performance advantages of memory database and disk database at the same time, improve the efficiency, reliability and security of data reading and writing, and avoid data loss; when reading data information, determine the location where it is located according to the storage time Database, improve reading efficiency and speed, and reduce system workload.

本实施例中，在将计算得到的所述桥梁工程造价结果进行展示，并同时存储至内存数据库中之后，该桥梁工程造价计算方法还包括数据转发的过程，即将得到的桥梁工程造价结果进行转发的过程，具体步骤如下：In this embodiment, after the calculated bridge engineering cost results are displayed and stored in the memory database at the same time, the bridge engineering cost calculation method further includes a process of data forwarding, which is to forward the obtained bridge engineering cost results. process, the specific steps are as follows:

（1）根据预设的转发地址以及预设的传输模板确定所述桥梁工程造价结果待转发的转发地址和传输模板：(1) Determine the forwarding address and transmission template of the bridge project cost result to be forwarded according to the preset forwarding address and the preset transmission template:

桥梁工程造价结果的转发对象可以为后台监控平台，那么，根据转发对象就能够确定对应的转发地址。若默认一个转发对象，那么，对应的转发地址就为预设的转发地址，即预先设置好的转发地址。而且，还预设有传输模板，传输模板包括封装方式、加密方式和传输方式这三个方面，其中，封装方式为对桥梁工程造价结果进行封装的方式，根据实际需要进行设置，比如SOAP、XML或JSON方式；加密方式为对桥梁工程造价结果进行加密的方式，根据实际需要进行设置，HTTPS加密方式；传输方式为对桥梁工程造价结果进行传输的方式，根据实际需要进行设置，接上文举例，传输方式可以为HTTP-SOAP传输方式。The forwarding object of the bridge project cost result can be the background monitoring platform, then the corresponding forwarding address can be determined according to the forwarding object. If a forwarding object is defaulted, the corresponding forwarding address is a preset forwarding address, that is, a preset forwarding address. Moreover, a transmission template is also preset. The transmission template includes three aspects: encapsulation method, encryption method and transmission method. Among them, the encapsulation method is the method of encapsulating the cost result of the bridge project, which can be set according to actual needs, such as SOAP, XML or JSON; the encryption method is the method of encrypting the bridge engineering cost results, which can be set according to the actual needs, and the HTTPS encryption method; the transmission method is the method of transmitting the bridge engineering cost results, which can be set according to the actual needs. , the transmission mode can be HTTP-SOAP transmission mode.

那么，根据预设的转发地址以及预设的传输模板就可以确定桥梁工程造价结果待转发的转发地址和传输模板。Then, according to the preset forwarding address and the preset transmission template, the forwarding address and transmission template of the bridge engineering cost result to be forwarded can be determined.

（2）根据所述传输模板中的封装方式封装所述桥梁工程造价结果获得传输数据：(2) Encapsulate the bridge engineering cost result according to the encapsulation method in the transmission template to obtain transmission data:

根据传输模板中的封装方式，例如SOAP、XML或JSON方式对桥梁工程造价结果进行封装获得传输数据。由于不同的后台监控平台对数据封装方式的要求各不相同，那么，可根据实际情况对数据封装方式根据实际情况做出选择。According to the encapsulation method in the transmission template, such as SOAP, XML or JSON, the bridge engineering cost result is encapsulated to obtain the transmission data. Since different background monitoring platforms have different requirements for data encapsulation methods, the data encapsulation method can be selected according to the actual situation.

（3）根据所述传输模板中的加密方式对所述传输数据进行加密获得加密传输数据：(3) Encrypt the transmission data according to the encryption method in the transmission template to obtain encrypted transmission data:

根据传输模板中的加密方式对传输数据进行加密获得加密传输数据，假设传输模板中的封装方式为SOAP封装方式，加密方式可以采用HTTPS加密方式，得到加密传输数据。当然，不同的后台监控平台对加密方式的要求可能不同，那么，可以根据实际情况设置传输模板的加密方式。Encrypt the transmission data according to the encryption method in the transmission template to obtain the encrypted transmission data. Assuming that the encapsulation method in the transmission template is the SOAP encapsulation method, the encryption method can use the HTTPS encryption method to obtain the encrypted transmission data. Of course, different background monitoring platforms may have different requirements on the encryption method. Then, the encryption method of the transmission template can be set according to the actual situation.

（4）根据所述传输模板中的传输方式和所述接收地址将所述加密传输数据发送给与所述转发地址相对应的转发对象：(4) Send the encrypted transmission data to the forwarding object corresponding to the forwarding address according to the transmission mode and the receiving address in the transmission template:

根据传输模板中的传输方式和接收地址将加密传输数据发送给与转发地址相对应的转发对象，即后台监控平台。假设封装方式为SOAP封装，那么，传输模板的传输方式可以确定为HTTP-SOAP传输方式。According to the transmission mode and receiving address in the transmission template, the encrypted transmission data is sent to the forwarding object corresponding to the forwarding address, that is, the background monitoring platform. Assuming that the encapsulation mode is SOAP encapsulation, the transmission mode of the transmission template can be determined as the HTTP-SOAP transmission mode.

通过上述数据转发过程能够将得到的桥梁工程造价结果转发给指定的转发对象，便于转发对象根据桥梁工程造价结果进行相应的处理，以后台监控平台而言，后台监控平台获取到桥梁工程造价结果之后，可以供后台监控人员作为数据分析的参考，或者后台监控平台结合该桥梁工程造价结果做进一步的数据分析。Through the above data forwarding process, the obtained bridge engineering cost results can be forwarded to the designated forwarding object, so that the forwarding object can perform corresponding processing according to the bridge engineering cost results. In the case of the background monitoring platform, after the background monitoring platform obtains the bridge engineering cost results , which can be used by the background monitoring personnel as a reference for data analysis, or the background monitoring platform can do further data analysis in combination with the bridge project cost results.

上述实施例仅以一种具体的实施方式说明本发明的技术方案，任何对本发明进行的等同替换及不脱离本发明精神和范围的修改或局部替换，其均应涵盖在本发明权利要求保护的范围之内。The above-mentioned embodiment only illustrates the technical solution of the present invention with a specific embodiment. Any equivalent replacement of the present invention and modification or partial replacement without departing from the spirit and scope of the present invention shall be included in the protection of the claims of the present invention. within the range.