CN219611950U - Built environment evaluation information real-time acquisition storage device - Google Patents

Abstract

The utility model discloses a real-time acquisition and storage device for evaluation information of a built environment, which belongs to the field of data acquisition and operation, and comprises the following components: the server host module is connected with the Internet through the communication module and is used for acquiring related data for evaluating the building environment from the Internet; the field sensor is in communication connection with the server host module and is used for collecting the related data of the field for evaluating the building environment and sending the collected related data of the field for evaluating the building environment to the server host module; the storage module is in communication connection with the server host module and is used for storing the related data which are acquired by the server host module from the Internet and used for evaluating the building environment and the related data which are received by the storage server host module on site and used for evaluating the building environment. The utility model solves the problem that the short board which is mainly researched in the form of a field questionnaire for a long time can acquire and store the environmental evaluation information data in real time.

Description

Built environment evaluation information real-time acquisition storage device

Technical Field

The utility model relates to the field of data acquisition, in particular to a device for acquiring and storing evaluation information of a built environment in real time.

Background

Modern cities are increasingly developed, and people have higher requirements on the building environment. How to acquire and store real-time and wide relevant data so as to evaluate the building environment, and create living space and urban environment with better quality and more satisfied people is a problem to be solved urgently. The investigation is carried out mainly in the form of a field questionnaire for a long time, and has quite difficulty. The method is significant in acquiring real-time and wide data for evaluating the building environment.

At present, no special equipment for acquiring and storing related data exists, and the application of evaluating the related aspects of the building construction environment is restricted.

Disclosure of Invention

The utility model aims to provide a device for acquiring and storing built environment evaluation information in real time, which solves the problem that a short board for investigation mainly adopts a field questionnaire form for a long time can acquire and store built environment evaluation information data in real time.

The utility model is realized by the following technical scheme:

a built environment evaluation information real-time acquisition and storage device comprises:

the server host module is connected with the Internet through the communication module and is used for acquiring related data for evaluating the building environment from the Internet;

the field sensor is in communication connection with the server host module and is used for collecting the related data of the field for evaluating the building environment and sending the collected related data of the field for evaluating the building environment to the server host module;

the storage module is in communication connection with the server host module and is used for storing the related data which are acquired by the server host module from the Internet and used for evaluating the building environment and the related data which are received by the storage server host module on site and used for evaluating the building environment.

The server host module, the site sensor and the storage module in the device are all existing hardware. The utility model aims to combine existing hardware to obtain and store environmental evaluation information data.

According to the device, the server host module is used for acquiring the related data for evaluating the building construction environment from the Internet, the site sensor is used for acquiring the related data for evaluating the building construction environment on site and transmitting the data to the server host module, and the data are stored in the storage module, so that the dimension of the data is enlarged, the building environment evaluation information data can be acquired and stored in real time, and the problem of a short board which is studied in a site questionnaire form for a long time is solved.

Further, the method further comprises the following steps:

and the display module is in communication connection with the server host module and is used for displaying data in the server host module, wherein the data comprises related data stored in the storage module.

Further, the method further comprises the following steps:

and the power supply module is used for supplying power to the server host module.

Further, the power supply module comprises a conventional power supply and a storage battery module, and the storage battery module is charged by the conventional power supply;

further, the solar cell module further comprises a photovoltaic power generation module, and the storage battery module is charged by a conventional power supply and the photovoltaic power generation module.

Further, the method further comprises the following steps:

the power supply switching module is connected with the server host module, the conventional power supply and the storage battery module and is used for switching the conventional power supply or the storage battery module to supply power for the server host module.

Further, the system also comprises an input module connected with the server host module, wherein the input module comprises a keyboard and a mouse.

Further, the in-situ sensor includes a temperature sensor and a humidity sensor.

Further, the communication module includes a wired communication module and a wireless communication module.

Further, the storage module comprises a local storage module and a cloud backup module.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

1. the device collects the internet data and the on-site sensor data simultaneously, can acquire and store the built environment evaluation information data in real time, and enlarges the dimension of the data.

2. The device adopts a wired communication mode and a wireless communication mode to be connected with the Internet, so that the device can collect related data of the Internet in real time, and data loss is prevented.

3. The device adopts a mode of local storage and cloud backup, and ensures the safety of data.

4. The device adopts various power supplies and is switched through the power supply switching module, so that equipment power failure is prevented.

5. The device adopts the photovoltaic power generation module, thereby saving energy.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. In the drawings:

fig. 1 is a block diagram of the apparatus of the present utility model.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model.

Example 1:

as shown in fig. 1, a device for acquiring and storing evaluation information of an established environment in real time includes:

the server host module is connected with the Internet through the communication module and is used for acquiring related data for evaluating the building environment from the Internet;

the server host module is a data receiving end of the device and is used for receiving the built environment evaluation information, and can adopt existing servers with different models, and when the device is in specific implementation, the model of the server host module can be Lenovo ThinkServer TS X tower type server.

The communication module may be a wired communication module, or a wireless communication module, or both the wired communication module and the wireless communication module may be used. In specific implementation, the wired communication module may employ an RJ-45 interface, and the wireless communication module may employ an RM60AX wireless routing module.

Relevant data obtained from the internet includes, but is not limited to: network criticizing data, network scoring data and flow thermodynamic diagram data.

The field sensor is in communication connection with the server host module and is used for collecting the related data of the field for evaluating the building environment and sending the collected related data of the field for evaluating the building environment to the server host module;

the field sensor is used for evaluating the relevant data of the building construction environment and comprises temperature, humidity and the like, and when the acquired data are the temperature and the humidity, the field sensor comprises a temperature sensor and a humidity sensor which are existing sensors and can be obtained through the market.

The storage module is in communication connection with the server host module and is used for storing the related data which are acquired by the server host module from the Internet and used for evaluating the building environment and the related data which are received by the storage server host module on site and used for evaluating the building environment.

In a preferred case, the storage module includes a local storage module and a cloud backup module, and the local storage module is a seaagate enterprise-level server hard disk.

In a specific embodiment, the apparatus of this embodiment further includes:

and the display module is in communication connection with the server host module and is used for displaying data in the server host module, wherein the data comprises related data stored in the storage module. The display module may be a Lennovo D27-30 display.

And the power supply module is used for supplying power to the server host module.

In specific implementation, the power supply module can be a conventional power supply or a storage battery module, or the conventional power supply and the storage battery module are combined for supplying power, and when the conventional power supply and the storage battery module are used at the same time, the conventional power supply can supply power to the storage battery module, wherein the conventional power supply is a socket power supply, and the storage battery module is a UPS uninterrupted power supply storage battery.

In a preferred case, the solar cell module further comprises a photovoltaic power generation module, wherein the storage cell module is charged by a conventional power supply and the photovoltaic power generation module, and the photovoltaic power generation module is a monocrystalline silicon photovoltaic panel with a power regulator.

In a preferred case, the method further comprises:

the power supply switching module is connected with the server host module, the conventional power supply and the storage battery module and used for switching the conventional power supply or the storage battery module to supply power for the server host module, wherein the power supply switching module can be an ATS double-power automatic switching switch.

The input module is in communication connection with the server host module and comprises a keyboard and a mouse.

An RS485 interface of a server host module (Lenovo ThinkServer TS X tower server) is connected with an RS485 interface of a site sensor, and information communication is carried out through an RS485 protocol; the DC main board power interface of the server host module is connected with the load side interface of the power supply switching module (ATS double-power automatic switching switch), and the load side interface provides power for the DC main board power interface; the wired communication module is connected with a Wire interface of the server host module; the wireless communication module is connected with a Wifi interface of the server host module; the display module is connected with the HDMI interface of the server host module; the input module and the local storage module are respectively connected with a usb interface of the server host module.

The working process of the embodiment is as follows:

the server host module acquires related data for evaluating the building environment from the Internet, stores the related data in the storage module, displays the related data through the display module, receives the related data, collected by the site sensor, of evaluating the building environment, stores the related data in the storage module, displays the related data through the display module, and electrifies the server host module through the power module in the working process.

In other words, the device of the embodiment obtains the relevant data for evaluating the building environment from the internet through the server host module, and meanwhile obtains the relevant data for evaluating the building environment on site through the site sensor, transmits the relevant data to the server host module, and stores the data in the storage module, so that the dimension of the data is enlarged, and the building environment evaluation information data can be obtained and stored in real time.

In addition, the device is connected with the Internet in a wired communication and wireless communication mode, so that the device can collect related data of the Internet in real time and prevent data loss; the method of local storage and cloud backup is adopted, so that the safety of data is guaranteed, various power supplies are adopted, and the power supply is switched through the power supply switching module, so that the equipment is prevented from losing power.

Namely, the device of the embodiment not only can acquire and store the built environment evaluation information data in real time, but also has high installation coefficient.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. A built environment evaluation information real-time acquisition and storage device, characterized by comprising:

the server host module is connected with the Internet through the communication module and is used for acquiring related data for evaluating the building environment from the Internet;

the field sensor is in communication connection with the server host module and is used for collecting the related data of the field for evaluating the building environment and sending the collected related data of the field for evaluating the building environment to the server host module;

the storage module is in communication connection with the server host module and is used for storing the related data for evaluating the building environment acquired by the server host module from the Internet and the related data for evaluating the building environment received by the storage server host module on site;

the server host module is a Lenovo ThinkServer TS X tower server, the storage module comprises a local storage module and a cloud backup module, the local storage module is a Seagate enterprise server hard disk, and the communication module comprises a wired communication module and a wireless communication module;

the RS485 interface of the server host module is connected with the RS485 interface of the site sensor, and information communication is carried out through an RS485 protocol; the wired communication module is connected with a Wire interface of the server host module; the wireless communication module is connected with the Wifi interface of the server host module.

2. The built-up environment evaluation information real-time acquisition and storage device according to claim 1, further comprising:

and the display module is in communication connection with the server host module and is used for displaying data in the server host module, wherein the data comprises related data stored in the storage module.

3. The built-up environment evaluation information real-time acquisition and storage device according to claim 1, further comprising:

and the power supply module is used for supplying power to the server host module.

4. A built-up environment evaluation information real-time acquisition and storage device according to claim 3, wherein the power supply module comprises a conventional power supply and a battery module, and the battery module is charged by the conventional power supply.

5. The device for acquiring and storing information for evaluating a built environment in real time according to claim 4, further comprising a photovoltaic power generation module, wherein the storage battery module is charged by a conventional power supply and the photovoltaic power generation module.

6. The built-up environment evaluation information real-time acquisition and storage device according to claim 4, further comprising:

the power supply switching module is connected with the server host module, the conventional power supply and the storage battery module and is used for switching the conventional power supply or the storage battery module to supply power for the server host module.

7. The device for acquiring and storing the evaluation information of the built environment in real time according to claim 1, further comprising an input module connected with the server host module, wherein the input module comprises a keyboard and a mouse.

8. The built-up environment evaluation information real-time acquisition and storage device according to claim 1, wherein the on-site sensor comprises a temperature sensor and a humidity sensor.