CN211827325U - Construction main material metering system based on IoT technology - Google Patents

Abstract

The utility model relates to a measurement system, in particular to construction owner material measurement system based on IoT technique belongs to measurement technical field. Including a metering device, an IoT communication device, a computing device, and an interaction device; the metering device comprises a weighing sensor for measuring the weight of the main material and a flow sensor for measuring the volume of the main material; the IoT communication device comprises an acquisition module for collecting data of the metering device, a verification module for confirming the material type corresponding to the received data and a communication module for transmitting the data to the computing device; the computing device comprises a server for receiving data and a database for storing data; the interaction device comprises a website and a terminal. The utility model solves the problem that construction projects need to manually collect the use amount of main materials through multi-level data collection and processing; by applying the IoT technology, the real-time reporting after the main material usage is collected is realized, and the problem of multi-report and missing report during manual reporting is solved.

Description

Construction main material metering system based on IoT technology

Technical Field

The utility model relates to a measurement system, in particular to construction owner material measurement system based on IoT technique belongs to measurement technical field.

Background

The construction industry is a traditional extensive management industry, and the entrance and the use condition of materials are manually recorded in the building construction process. Because construction site equipment is numerous and various equipment usually produce and process construction materials simultaneously, automatic extraction and analysis of construction main material inventory and consumption cannot be realized through automatically acquiring actual metering information by production plan information, so that overstocking of inventory materials, excessive loss of materials in a storage process and waste of construction main materials in a processing and using process are caused.

The internet of things is that any object is connected with a network through information sensing equipment according to an agreed protocol, and the object performs information exchange and communication through an information transmission medium so as to realize functions of intelligent identification, positioning, tracking, supervision and the like. Internet of things technology (IOT technology) is a network technology applied to everything.

Therefore, a system for realizing systematic, automatic and real-time statistics of construction main materials based on an IoT technology is needed to solve the problem of main material measurement in the construction process. The construction main material metering system can count the entrance, processing and usage amount of the construction main material in real time through the IoT terminals suitable for various devices, and can realize automatic extraction and analysis of the construction main material data.

Disclosure of Invention

The utility model aims at providing a construction owner material measurement system based on IoT technique.

In order to realize the purpose, the utility model discloses a technical scheme is:

a construction main material metering system based on an IoT technology comprises a metering device, an IoT communication device, a computing device and an interaction device; the metering device comprises a weighing sensor for measuring the weight of the main material and a flow sensor for measuring the volume of the main material; the IoT communication device comprises an acquisition module for collecting data of the metering device, a verification module for confirming the material type corresponding to the received data and a communication module for transmitting the data to the computing device; the computing device comprises a server for receiving data and a database for storing data; the interaction device comprises a website and a terminal.

The utility model discloses technical scheme's improvement still lies in: the switching device IDE terminal is APP.

The utility model discloses technical scheme's improvement still lies in: the main material comprises concrete and steel.

The utility model discloses technical scheme's improvement still lies in: the steel is hoisted by using a lifting hook, and a weighing sensor is installed on the lifting hook.

The utility model discloses technical scheme's improvement still lies in: steel and concrete use weighbridge to weigh, install weighing sensor on the weighbridge.

The utility model discloses technical scheme's improvement still lies in: the concrete flow is measured by a flow sensor which is arranged on a concrete pump pipe.

Since the technical scheme is used, the utility model discloses the technological effect who gains has:

1. the utility model discloses a multi-level data collection and processing have solved the problem that the construction project needs artifical main material use amount of gathering.

2. The utility model discloses an application IoT technique has realized reporting in real time after the main material use amount is gathered, has solved the problem of reporting more when artifical reporting and missing the newspaper.

3. The utility model discloses a design website and APP, the excessive backlog of material, loss that the main material quantity relation obviously does not lead to during the adjacent day of having solved traditional volume report mode.

4. The utility model discloses a combine the use with the measurement of IoT technique with the main material of construction, under each functional device's cooperation, still measure when can distinguish main material to carry out conveying, screening processing and the storage of data. Due to the fact that the IoT technology is utilized, the main materials of each batch have unique metering identification, accurate measurement and control can be conducted on the field entrance amount and the use amount of the main materials, and the whole-course and all-around monitoring can be conducted on the main materials from the field entrance to the use.

Drawings

FIG. 1 is a schematic diagram of the system connection of the present invention;

FIG. 2 is a schematic view of a metering device of the present invention;

fig. 3 is a schematic diagram of an IoT communication device;

FIG. 4 is a schematic view of a computing device of the present invention;

FIG. 5 is a schematic view of an interaction device of the present invention;

wherein, 1, metering device, 11, weighing sensor, 12, flow sensor, 2, IoT communication device, 21, acquisition module, 2, check-up module, 23, communication module, 3, computing device, 31, server, 32, database, 4, interactive installation, 41, website, 42, APP.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments:

the utility model discloses a construction owner material measurement system based on IoT technique combines the use with the measurement of construction owner material with the IoT technique. The IoT technology is the internet of things technology.

The construction main material metering system based on the IoT technology is mainly used for metering construction main materials, wherein the main materials are steel and concrete in building construction. As shown in fig. 1, 2, 3, 4, and 5, the metering system includes a metering device, an IoT communication device, a computing device, and an interaction device. The metering device 1 comprises a load cell 11 and a flow sensor 12. The weighing sensor 12 is used for measuring the weight of a main material, namely the weight of steel; the flow sensor is used for measuring the volume of the main material, namely the volume of concrete.

The IoT communication device 2 includes an acquisition module 21, a verification module 22, and a communication module 23. Wherein, collection module 21 is used for collecting metering device's data, and check-up module 22 is used for confirming the material type that the data that receive correspond, because concrete and steel all have multiple kind, check-up module 22 can also finely distinguish the kind of concrete and the kind of steel. The communication module 23 is used for transmitting data to the computing device, and the communication module 23 transmits the material type and the material weight or volume to the computing device 3 in an IoT manner.

Computing device 3 server 31 and database 32. The server 31 is used for receiving data, and the database 32 is used for storing data. The server 31 can also perform calculation, correction and screening processing on the data, and store the data in the database 32 after the processing is completed.

The interaction means 4 comprise a website 42 and a terminal, typically an APP 42. The user can view the construction master material measurement result by logging in the website 41 or the APP 42. The APP42 can communicate with the checking module 22 to correct the material type information corresponding to the measured data.

In the main material approach field, a metering system is required to be used for metering. Generally, when steel materials enter and exit, the steel materials need to be hoisted by using a hoisting hook, and therefore, the weighing sensor 11 is installed on the hoisting hook. In addition, the steel material may be weighed using a weighbridge on which the load cell 11 is mounted.

Concrete has two metering modes, and a weighbridge can be used for weighing. Or may be metered in a metered volume. The concrete is pumped by a pump pipe, a flow sensor 12 is arranged on the concrete pump pipe to measure the flow of the concrete, and then the volume is measured. The volume measurement of the concrete is preferably carried out using the flow sensor 12.

The metering system works as follows: in actual use, the construction main materials are steel and concrete, wherein the approach and the processing of the steel mainly depend on the calculation of the weight statistical workload and the engineering quantity, and the approach, the processing and the use of the concrete mainly depend on the calculation of the volume statistical workload and the engineering quantity. The using amount of the steel is measured by a lifting hook and a weighing sensor 11 attached to a wagon balance; meanwhile, the usage amount of concrete is measured by a flow sensor 12 attached to the concrete pump pipe. After receiving the sensor data, the acquisition module 21 sends the sensor data to the verification module 22 to determine the type of the main material and verify the metering parameters, and the APP42 can be used to verify and correct the type of the main material. Then, the data is transmitted to the server 31 through the communication module 23 via the IoT communication method. After receiving the data, the server 31 compares the data with old data in the database 32 and calculates the data, and stores the calculation result in the database 32. After the above operations are completed, the user can check the construction main material measurement result through the login website 41 or the APP 42.

The utility model discloses utilized the IoT technique, still measured when can distinguishing main material, every batch main material is by only measurement sign, can accomplish to the volume of advancing of main material and use amount and do accurate observing and controlling.

Claims (6)

1. A construction main material metering system based on an IoT technology is characterized in that: including a metering device, an IoT communication device, a computing device, and an interaction device; the metering device comprises a weighing sensor for measuring the weight of the main material and a flow sensor for measuring the volume of the main material; the IoT communication device comprises an acquisition module for collecting data of the metering device, a verification module for confirming the material type corresponding to the received data and a communication module for transmitting the data to the computing device; the computing device comprises a server for receiving data and a database for storing data; the interaction device comprises a website and a terminal.

2. An IoT technology-based construction master material metering system as recited in claim 1, wherein: the switching device IDE terminal is APP.

3. An IoT technology-based construction master material metering system as recited in claim 1, wherein: the main material comprises concrete and steel.

4. An IoT technology-based construction master material metering system as defined in claim 3, wherein: the steel is hoisted by using a lifting hook, and a weighing sensor is installed on the lifting hook.

5. An IoT technology-based construction master material metering system as defined in claim 3, wherein: steel and concrete use weighbridge to weigh, install weighing sensor on the weighbridge.

6. An IoT technology-based construction master material metering system as defined in claim 3, wherein: the concrete flow is measured by a flow sensor which is arranged on a concrete pump pipe.

Images