CN221123467U - Environment detection device of wind generating set - Google Patents

Abstract

The present disclosure relates to an environment detection device of a wind generating set, the device comprising: the device comprises a data collector, a data processing module and display equipment, wherein the data collector and the data processing module are connected; the data processing module is connected with the display equipment; the data acquisition device is used for acquiring environmental data in the environment where the wind generating set is located and sending the environmental data to the data processing module, wherein the environmental data comprises dust concentration data, noise data and harmful gas data; the data processing module is used for analyzing the acquired environmental data and sending an analyzed analysis result to the display device; the display device is used for displaying analysis results, wherein the analysis results comprise pollution data of the environment where the wind generating set is located and images generated based on the pollution data. Environmental data influencing the operation of the wind generating set can be collected and analyzed, and the analyzed pollution data and pollution data images are displayed, so that the damage of environmental pollution to the body of staff is avoided.

Description

Environment detection device of wind generating set

Technical Field

The disclosure relates to the technical field of industrial environment monitoring, in particular to an environment detection device of a wind generating set.

Background

At present, wind power generation is taken as a part of clean energy, greenhouse gas emission and air pollution are reduced, more mechanical equipment is arranged in a wind generating set, in order to ensure long-term stable operation of the wind generating set, equipment maintainers work in a cabin of the wind generating set for a long time every day, but the maintainers work in environments full of noise, dust and harmful gas for a long time, if protective measures are not in place, protective articles are unqualified or do not meet industry standards, the personnel body is damaged, and the existing noise detector, dust noise detector or toxic gas detector and the like are mostly utilized in industries such as factories, medical treatment, environmental monitoring and the like; at present, no detection instrument integrating noise, dust and harmful gas is provided, so that a design of an instrument aiming at the pollution degree of the operation environment of the wind generating set is needed.

Disclosure of utility model

In order to overcome the problems in the related art, the present disclosure provides an environment detection device of a wind turbine generator set.

According to a first aspect of embodiments of the present disclosure, there is provided an environment detection device of a wind generating set, the device comprising: the device comprises a data collector, a data processing module and display equipment, wherein the data collector is connected with the data processing module; the data processing module is connected with the display device;

The data acquisition device is used for acquiring environment data in the environment where the wind generating set is located and sending the environment data to the data processing module, wherein the environment data comprises dust concentration data, noise data and harmful gas data;

The data processing module is used for analyzing the acquired environmental data and sending an analyzed analysis result to the display device;

the display device is used for displaying the analysis result, and the analysis result comprises pollution data of the environment where the wind generating set is located and an image generated based on the pollution data.

Optionally, the data collector includes: at least one of a laser type dust sensor, a noise sensor and a gas sensor, wherein the data processing module is respectively connected with the laser type dust sensor, the noise sensor and the gas sensor;

The laser type dust sensor is used for acquiring dust concentration data in the environment where the wind generating set is located and sending the dust concentration data to the data processing module;

The noise sensor is used for acquiring noise data in the environment where the wind generating set is located and sending the noise data to the data processing module;

The gas sensor is used for acquiring harmful gas data in the environment where the wind generating set is located and sending the harmful gas data to the data processing module.

Optionally, the laser dust sensor includes: the laser device comprises a laser transmitter, a laser receiver and a dust data processor, wherein the laser transmitter is connected with the laser receiver; the laser receiver is connected with the dust data processor, and the dust data processor is connected with the data processing module;

The laser transmitter is used for transmitting a laser beam to the environment where the wind generating set is located, and when the laser beam irradiates dust particles in the air of the environment where the wind generating set is located, scattered light is transmitted;

The laser receiver is used for receiving the scattered light, converting the scattered light into a first digital signal and transmitting the first digital signal to the dust data processor;

The dust data processor is used for determining dust concentration data in the environment where the wind generating set is located through the first digital signal, and sending the dust concentration data to the data processing module.

Optionally, the noise sensor includes: the sound collector is connected with the sound processor, and the sound processor is connected with the data processing module;

The sound collector is used for collecting sound signals in the environment where the wind generating set is located and sending the sound signals to the sound processor;

The sound processor is used for converting the sound signal into a second digital signal, determining the noise data according to the second digital signal and the preset sound data, and sending the noise data to the data processing module.

Optionally, the gas sensor includes: the gas collector is connected with the gas processor, and the gas collector is connected with the data processing module;

The gas collector is used for collecting gas signals in the environment where the wind generating set is located and sending the gas signals to the gas processor;

And the gas processor is used for determining harmful gas data in the environment where the wind generating set is located according to the gas signal and sending the harmful gas data to the data processing module.

Alternatively, the process may be carried out in a single-stage,

The data processing module is used for determining whether the environmental data in the environment where the wind generating set is located exceeds a safety range or not according to the environmental data and preset environmental data, wherein the preset environmental data comprises standard environmental data in the safety range.

Optionally, the display device includes: the data processing module is connected with the display;

The display is used for displaying the numerical value of the pollution data and displaying the image generated based on the pollution data, wherein the image comprises a change waveform chart of the pollution data and an early warning prompt icon.

Optionally, the display includes: the first display and the second display are connected with the data processing module;

the first display is used for displaying the numerical value of the pollution data;

And the second display is used for displaying the change waveform diagram and the early warning prompt icon.

Optionally, the environment detection device of the wind generating set comprises a cabinet body, and the environment detection device of the wind generating set is arranged in an inner cavity of the cabinet body.

Optionally, the data processing module is: a processor, a terminal device, or an application specific integrated circuit.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects:

In the above technical solution, the data collector is configured to obtain environmental data in an environment where the wind generating set is located, and send the environmental data to the data processing module, where the environmental data includes dust concentration data, noise data, and harmful gas data; the data processing module is used for analyzing the acquired environmental data and sending an analyzed analysis result to the display device; the display device is used for displaying the analysis result, and the analysis result comprises pollution data of the environment where the wind generating set is located and an image generated based on the pollution data. Through the technical scheme, the environmental data influencing the operation of the wind generating set under the environment where the wind generating set is located are collected, the environmental data are analyzed, and the analyzed pollution data and pollution data images are displayed, so that workers can timely find the pollution condition of the environment where the wind generating set is located, take corresponding protective measures, and avoid the damage of environmental pollution to the bodies of the workers.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

fig. 1 is a block diagram illustrating an environment detection apparatus of a wind power generation set according to an exemplary embodiment.

FIG. 2 is a block diagram of another wind turbine generator system environment detection device, according to an exemplary embodiment.

FIG. 3 is a block diagram illustrating yet another wind turbine generator system environment detection apparatus in accordance with an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

It is to be understood that the terms "first," "second," and the like in this disclosure are used to describe various information, but such information should not be limited to these terms. These terms are only used to distinguish one type of information from another and do not denote a particular order or importance.

It will be further understood that although operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. In certain circumstances, multitasking and parallel processing may be advantageous.

Fig. 1 is a block diagram illustrating an environment detection apparatus of a wind power generation set according to an exemplary embodiment, and as shown in fig. 1, the environment detection apparatus 100 includes: a data collector 101, a data processing module 102 and a display device 103, the data collector 100 being connected to the data processing module 102; the data processing module 102 is connected with the display device 103;

The data collector 101 is configured to obtain environmental data in an environment where the wind generating set is located, and send the environmental data to the data processing module 102, where the environmental data includes dust concentration data, noise data, and harmful gas data;

The data processing module 102 is configured to analyze the acquired environmental data, and send an analysis result after the analysis to the display device 103;

The display device 103 is configured to display the analysis result, where the analysis result includes pollution data of an environment in which the wind turbine generator is located and an image generated based on the pollution data.

The wind generating set is an apparatus for converting wind energy into electric energy, and has more mechanical devices inside, and each mechanical device is provided with a lubrication system in a matching way, during the operation process of the wind generating set, large vibration and noise can be generated among mechanical device components, people can damage hearing in a noise environment for a long time, the temperature of the apparatus is higher and higher at a high rotating speed, grease in the lubrication system volatilizes at a high temperature, and toxic gases such as carbon monoxide, acetaldehyde, oxysulfide, triphenyl (benzene, toluene and xylene) and nitrogen dioxide are generated, and the gases can reduce human immunity, so that people are easy to infect serious diseases; because the environment where the wind generating set is located is worse, mostly in mountain desert areas, a plurality of fans are arranged in the wind generating set to ventilate and dissipate heat for the wind generating set, more dust is accumulated in a cabin of the wind generating set over time, the dust enters human respiratory tract, deposits and accumulates in the lung, diseases of respiratory system can be caused by long-term contact, the data collector 101 collects environmental data in the environment where the wind generating set is located and sends the environmental data to the data processing module 102, the data processing module 102 receives the environmental data and analyzes the environmental data, the analyzed analysis result is sent to the display device 103, the display device 103 displays the analysis result, and staff takes corresponding protective measures according to the displayed analysis result, wherein the environmental data comprises dust concentration data, noise data and harmful gas data, and the analysis result comprises pollution data of the environment where the wind generating set is located and images generated based on the pollution data.

Optionally, the data processing module 102 is configured to determine whether the environmental data in the environment where the wind generating set is located is out of a safe range according to the environmental data and preset environmental data, where the preset environmental data includes standard environmental data within the safe range.

Optionally, the data processing module 102 is: a processor, a terminal device, or an application specific integrated circuit.

The data processing module 102 is a processor, a terminal device or an application specific integrated circuit, where the processor is a CPU, a SoC (System on Chip), a single Chip microcomputer, etc., the terminal device is a computer, etc., the application specific integrated circuit is a hardware Logic circuit such as an FPGA (Field Programmable GATE ARRAY ), a PAL (Programmable Arrays Logic, programmable array Logic), a GAL (GENERAL ARRAYS Logic, general array Logic), etc., and the data processing module 102 determines, through the environmental data and preset environmental data, whether the environmental data in the environment where the wind turbine generator is located exceeds a safety range, where the preset environmental data includes standard environmental data in the safety range, and can determine an environmental pollution condition of the environment where the wind turbine generator is located.

Through the technical scheme, the data acquisition device is used for acquiring the environmental data influencing the operation of the wind generating set in the environment where the wind generating set is located, in the data processing module, the environmental data and the preset environmental data are compared and analyzed, the analyzed result is displayed through the display device, the pollution data and the pollution data image are displayed to the staff, the staff can timely find the pollution condition of the environment where the wind generating set is located, and take corresponding protective measures, so that the damage of the environmental pollution to the body of the staff is avoided.

Fig. 2 is a block diagram of an environment detection apparatus of another wind turbine generator system according to an exemplary embodiment, and as shown in fig. 2, the data collector 101 includes: at least one of a laser type dust sensor 1011, a noise sensor 1012, and a gas sensor 1013, the data processing module 102 is connected to the laser type dust sensor 1011, the noise sensor 1012, and the gas sensor 1013, respectively;

the laser type dust sensor 1011 is used for acquiring dust concentration data in the environment where the wind generating set is located and sending the dust concentration data to the data processing module 102;

the noise sensor 1012 is used for acquiring noise data in the environment where the wind generating set is located, and sending the noise data to the data processing module 102;

The gas sensor 1013 is configured to acquire harmful gas data in an environment where the wind turbine generator system is located, and send the harmful gas data to the data processing module 102.

Illustratively, the data collector 101 is a sensor for selecting environmental data to be collected, which is damaged by workers in the environment where the wind generating set is located, the data collector 101 includes at least one of a laser dust sensor 1011, a noise sensor 1012 and a gas sensor 1013, and the data processing module 102 in the environmental monitoring device is connected to the laser dust sensor 1011, the noise sensor 1012 and the gas sensor 1013, respectively; the laser type dust sensor 1011 acquires dust concentration data in the environment where the wind generating set is located and transmits the dust concentration data to the data processing module 102; the noise sensor 1012 acquires noise data in the environment where the wind turbine generator is located and sends the noise data to the data processing module 102; the gas sensor 1013 acquires harmful gas data in the environment where the wind turbine generator is located, and transmits the harmful gas data to the data processing module 102, and the sensor in the data collector can collect environmental data of the environment where the wind turbine generator is located.

Wherein, this laser dust sensor 1011 includes: the laser device comprises a laser transmitter, a laser receiver and a dust data processor, wherein the laser transmitter is connected with the laser receiver; the laser receiver is connected with the dust data processor, and the dust data processor is connected with the data processing module 102; the laser transmitter transmits a laser beam to the environment where the wind generating set is located, the laser beam emits scattered light when being irradiated on dust particles in the air where the wind generating set is located, the scattered light is received by the laser receiver and converted into a first digital signal, and the first digital signal is transmitted to the dust data processor; the dust data processor determines dust concentration data in the environment where the wind generating set is located through the first digital signal, and sends the dust concentration data to the data processing module 102, and the laser receiver converts the optical signal of the scattered light into an electrical signal.

Optionally, the noise sensor 1012 includes: a sound collector and a sound processor, the sound collector being connected to the sound processor, the sound processor being connected to the data processing module 102; the sound collector collects sound signals in the environment where the wind generating set is located and sends the sound signals to the sound processor; the sound processor receives the sound signal, converts the sound signal into a second digital signal, determines the noise data according to the second digital signal and the preset sound data, and sends the noise data to the data processing module 102, and the sound processor converts the optical signal of the sound signal into an electrical signal.

Optionally, the gas sensor 1013 includes: a gas collector and a gas processor, the gas collector and the gas processor being connected, the gas collector being connected with the data processing module 102; the gas collector collects gas signals in the environment where the wind generating set is located and sends the gas signals to the gas processor; the gas processor is configured to determine, according to the gas signal, harmful gas data in an environment in which the wind turbine generator system is located, and send the harmful gas data to the data processing module 102.

Fig. 3 is a block diagram of an environment detection apparatus of yet another wind turbine generator system according to an exemplary embodiment, and as shown in fig. 3, the display device 103 includes: a display 1031, the data processing module 102 being coupled to the display 1031;

the display 1031 is used for displaying the numerical value of the pollution data and displaying the image generated based on the pollution data, wherein the image comprises a change waveform chart of the pollution data and an early warning prompt icon.

Wherein, this display 1031 includes: a first display and a second display, both of which are connected to the data processing module 102;

the first display is used for displaying the numerical value of the pollution data;

the second display is used for displaying the change waveform diagram and the early warning prompt icon.

The display 1031 is illustratively one or more LCD panels in which the value of the contamination data and the image generated based on the contamination data are displayed, which may be displayed on one LCD panel or on a plurality of LCD panels, respectively. The LCD panels described above are exemplary and other types of displays, such as LED displays, may be used.

Optionally, the environment detection device 100 of the wind generating set includes a cabinet, and the environment detection device of the wind generating set is disposed in an inner cavity of the cabinet.

Illustratively, the environmental monitoring device 100 of the wind generating set includes a cabinet body, the cabinet body may be made of plastic, metal or other materials, and the environmental monitoring device 100 of the wind generating set is disposed inside the cabinet body, so that the environmental monitoring device is convenient for staff to carry and is not limited by space.

Through the technical scheme, the environment monitoring device of the wind generating set can collect the environment data influencing the operation of the wind generating set under the environment where the wind generating set is located, analyze the environment data, display the analyzed pollution data and pollution data images, enable staff to timely find the pollution condition of the environment where the wind generating set is located, take corresponding protective measures and avoid damage to the body of the staff caused by environmental pollution.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the embodiments described above, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (10)

1. An environment detection device for a wind turbine generator system, the device comprising: the device comprises a data collector, a data processing module and display equipment, wherein the data collector is connected with the data processing module; the data processing module is connected with the display device;

The data acquisition device is used for acquiring environment data in the environment where the wind generating set is located and sending the environment data to the data processing module, wherein the environment data comprises dust concentration data, noise data and harmful gas data;

The data processing module is used for analyzing the acquired environmental data and sending an analyzed analysis result to the display device;

the display device is used for displaying the analysis result, and the analysis result comprises pollution data of the environment where the wind generating set is located and an image generated based on the pollution data.

2. The apparatus of claim 1, wherein the data collector comprises: at least one of a laser type dust sensor, a noise sensor and a gas sensor, wherein the data processing module is respectively connected with the laser type dust sensor, the noise sensor and the gas sensor;

The laser type dust sensor is used for acquiring dust concentration data in the environment where the wind generating set is located and sending the dust concentration data to the data processing module;

The noise sensor is used for acquiring noise data in the environment where the wind generating set is located and sending the noise data to the data processing module;

The gas sensor is used for acquiring harmful gas data in the environment where the wind generating set is located and sending the harmful gas data to the data processing module.

3. The apparatus of claim 2, wherein the laser-type dust sensor comprises: the laser device comprises a laser transmitter, a laser receiver and a dust data processor, wherein the laser transmitter is connected with the laser receiver; the laser receiver is connected with the dust data processor, and the dust data processor is connected with the data processing module;

The laser transmitter is used for transmitting a laser beam to the environment where the wind generating set is located, and when the laser beam irradiates dust particles in the air of the environment where the wind generating set is located, scattered light is transmitted;

The laser receiver is used for receiving the scattered light, converting the scattered light into a first digital signal and transmitting the first digital signal to the dust data processor;

The dust data processor is used for determining dust concentration data in the environment where the wind generating set is located through the first digital signal, and sending the dust concentration data to the data processing module.

4. The apparatus of claim 2, wherein the noise sensor comprises: the sound collector is connected with the sound processor, and the sound processor is connected with the data processing module;

The sound collector is used for collecting sound signals in the environment where the wind generating set is located and sending the sound signals to the sound processor;

The sound processor is used for converting the sound signal into a second digital signal, determining the noise data according to the second digital signal and preset sound data, and sending the noise data to the data processing module.

5. The apparatus of claim 2, wherein the gas sensor comprises: the gas collector is connected with the gas processor, and the gas collector is connected with the data processing module;

The gas collector is used for collecting gas signals in the environment where the wind generating set is located and sending the gas signals to the gas processor;

And the gas processor is used for determining harmful gas data in the environment where the wind generating set is located according to the gas signal and sending the harmful gas data to the data processing module.

6. The apparatus of claim 1, wherein the device comprises a plurality of sensors,

The data processing module is used for determining whether the environmental data in the environment where the wind generating set is located exceeds a safety range or not according to the environmental data and preset environmental data, wherein the preset environmental data comprises standard environmental data in the safety range.

7. The apparatus of claim 1, wherein the display device comprises: the data processing module is connected with the display;

The display is used for displaying the numerical value of the pollution data and displaying the image generated based on the pollution data, wherein the image comprises a change waveform chart of the pollution data and an early warning prompt icon.

8. The apparatus of claim 7, wherein the display comprises: the first display and the second display are connected with the data processing module;

the first display is used for displaying the numerical value of the pollution data;

And the second display is used for displaying the change waveform diagram and the early warning prompt icon.

9. The environmental detection apparatus of a wind turbine of any one of claims 1 to 8, wherein the environmental detection apparatus of a wind turbine includes a cabinet, and the environmental detection apparatus of a wind turbine is disposed in an interior cavity of the cabinet.

10. The device for detecting the environment of a wind power generator set according to any one of claims 1 to 8, wherein the data processing module is: a processor, a terminal device, or an application specific integrated circuit.