CN219776791U

CN219776791U - Novel production environment detects device

Info

Publication number: CN219776791U
Application number: CN202321215471.5U
Authority: CN
Inventors: 曾麒
Original assignee: Xinjiang Junsheng Energy Equipment Co ltd; Guangdong No 2 Hydropower Engineering Co Ltd
Current assignee: Xinjiang Junsheng Energy Equipment Co ltd; Guangdong No 2 Hydropower Engineering Co Ltd
Priority date: 2023-05-19
Filing date: 2023-05-19
Publication date: 2023-09-29
Anticipated expiration: 2033-05-19

Abstract

The utility model discloses a novel production environment detection device, which comprises a mounting plate, wherein a heat radiation assembly is arranged on the mounting plate, the heat radiation assembly comprises a protective shell arranged on the mounting plate, a plurality of snake-shaped heat exchange plates are arranged on the side face of the protective shell, a control assembly is arranged on the inner side of the mounting plate, an air guide assembly is arranged on the upper side of the mounting plate, the air guide assembly comprises an air suction cover arranged on the protective shell, a fan is arranged on one side of the air suction cover in a communicating manner, and a sensor system assembly is arranged on the inner side of the fan on the protective shell. The utility model can well solve the problem of simultaneously detecting various environmental indexes at one time by the cooperation of the control component and the sensor system component, simultaneously optimizes the problem of wasting manpower due to the use of manual detection, can realize unattended monitoring in an hour, greatly enriches the data dimension, and provides data support for potential safety hazard analysis and safety accident investigation.

Description

Novel production environment detects device

Technical Field

The utility model relates to the technical field of electronic circuit manufacturing, in particular to a novel production environment detection device.

Background

The current national policy is continuously improved on the standard of the production environment, the requirements on the safety level of the production environment are also continuously improved, and strict requirements on noise, light pollution, waste gas emission and the like generated in the production process are met, so that potential safety hazards in the production environment, such as fire, electricity consumption, high-altitude operation, combustible gas detection, toxic and harmful gas detection, need to be monitored in real time, and a complete environment monitoring device is needed to monitor the production environment in real time

The current commercial detection equipment has single function, detection data can only be partially exported or can not be exported, paper surface recording can only be performed, and detection is performed by adopting a mode that personnel hold equipment for periodic inspection during detection, so that a large amount of manpower is consumed.

In order to solve the problems, a detection device which can realize data intercommunication and interconnection, perform real-time unmanned detection and early warn potential safety hazards is needed.

Disclosure of Invention

The utility model aims to provide a novel production environment detection device for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a novel production environment detects device, includes the mounting panel, be provided with the radiator unit on the mounting panel, the radiator unit is including setting up the protecting crust on the mounting panel, the side of protecting crust is provided with a plurality of snakelike heat exchanger fin, the inboard of mounting panel is provided with control assembly, the upside of mounting panel is provided with the air guide subassembly, the air guide subassembly is including setting up the cover of breathing in on the protecting crust, one side intercommunication of cover of breathing in is provided with the fan, the inboard of fan is provided with sensor system subassembly on the protecting crust.

Preferably, the middle part of snakelike heat exchanger plate is inlayed on the both sides lateral wall of protecting crust, be provided with two bar mounting holes on the mounting panel.

Preferably, the control assembly comprises a controller arranged in the protective shell, wherein the controller is electrically connected with a communication interface and a resistance detection probe data interface, and the communication interface and the resistance detection probe data interface both penetrate through the protective shell and reach the outer side of the protective shell.

Preferably, the controller is composed of an STM series core board, a power supply module, a display module, a storage module, a man-machine interaction module and a communication module.

Preferably, one end of the air suction cover is communicated with a sealing cover, two air guide pipes are arranged at the tail ends of the sealing cover in a communicating manner, air blowing covers are arranged at the tail ends of the air guide pipes in a communicating manner, the air blowing covers are respectively arranged at corresponding sides of the snake-shaped heat exchange plates on the protective shell, and the air suction cover is electrically connected with the controller.

Preferably, the sensor system component comprises a noise probe, a light intensity sensor, a toluene/xylene probe, a temperature and humidity sensor and a combustible gas probe which are arranged on the protective shell, and the noise probe, the light intensity sensor, the toluene/xylene probe, the temperature and humidity sensor and the combustible gas probe are all electrically connected with the controller.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model can well solve the problem of simultaneously detecting various environmental indexes at one time by the cooperation of the control component and the sensor system component, simultaneously optimizes the problem of wasting manpower due to the use of manual detection, can realize unattended monitoring in an hour, greatly enriches the data dimension, and provides data support for potential safety hazard analysis and safety accident investigation;

2. the utility model also uses the heat radiation component and the air guide component in a matched way, and the air suction cover is used for working, so that the air suction cover is used for exhausting and flowing in the fan to drive the external air into the fan, so that the detection by the noise probe, the light intensity sensor, the toluene/xylene probe, the temperature and humidity sensor and the combustible gas probe is facilitated, and meanwhile, the air flow is blown to the snakelike heat exchange plate through the air blowing cover, so that the heat radiation of the snakelike heat exchange plate is accelerated, and the heat exchange effect is improved.

Drawings

FIG. 1 is a perspective view of a first view of the present utility model;

FIG. 2 is a schematic view of a second perspective view of the present utility model;

FIG. 3 is a perspective view of a third perspective view of the present utility model;

FIG. 4 is a schematic diagram of the present utility model;

FIG. 5 is a schematic diagram of a basic logic operation module according to the present utility model;

fig. 6 is a functional schematic diagram of a filter circuit according to the present utility model.

In the figure: 1. a mounting plate; 2. a heat dissipation assembly; 201. a protective shell; 202. serpentine heat exchange plates; 3. a control assembly; 301. a controller; 302. a communication interface; 303. a resistance detection probe data interface; 4. an air guide assembly; 401. an air suction cover; 402. a blower; 403. a sealing cover; 404. an air duct; 405. a blowing hood; 5. a sensor system component; 501. a noise probe; 502. a light intensity sensor; 503. toluene/xylene probe; 504. a temperature and humidity sensor; 505. a combustible gas probe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the novel production environment detection device comprises a mounting plate, wherein a heat dissipation assembly is arranged on the mounting plate and comprises a protective shell arranged on the mounting plate, a plurality of snakelike heat exchange plates are arranged on the side face of the protective shell, a control assembly is arranged on the inner side of the mounting plate, an air guide assembly is arranged on the upper side of the mounting plate and comprises an air suction cover arranged on the protective shell, a fan is arranged on one side of the air suction cover in a communicating manner, and a sensor system assembly is arranged on the inner side of the fan on the protective shell;

the middle part of the serpentine heat exchange plate is inlaid on the side walls of the two sides of the protective shell, and two strip-shaped mounting holes are formed in the mounting plate;

the control assembly comprises a controller arranged in the protective shell, and the controller is electrically connected with a communication interface and a resistance detection probe data interface, and the communication interface and the resistance detection probe data interface penetrate through the protective shell and reach the outer side of the protective shell;

the controller consists of an STM series core board, a power supply module, a display module, a storage module, a man-machine interaction module and a communication module, wherein a filter circuit is carried on the STM series core board, and because of complex field environment, strong electromagnetic interference, temperature fluctuation, ray radiation and other interferences possibly exist, so that the signal quality is reduced, and when serious, a main control chip possibly stops due to stack overflow caused by data errors, the filter circuit is required to be designed, unnecessary clutter interference signals are filtered, and the signal quality is improved;

one end of the air suction cover is communicated with a sealing cover, the tail ends of the sealing cover are communicated with two air guide pipes, the tail ends of the two air guide pipes are communicated with an air blowing cover, the air blowing cover is respectively arranged on the corresponding sides of the serpentine heat exchange plates on the protective shell, and the air suction cover is electrically connected with the controller;

the sensor system component comprises a noise probe, a light intensity sensor, a toluene/xylene probe, a temperature and humidity sensor and a combustible gas probe which are arranged on the protective shell, and the noise probe, the light intensity sensor, the toluene/xylene probe, the temperature and humidity sensor and the combustible gas probe are all electrically connected with the controller.

Working principle: when the utility model is used, firstly, the device is installed at a position to be monitored, a power supply line and a data transmission line are arranged, then the device is started, the sensor receives different environmental data according to different functions of the module, finally, software is operated at a terminal to check whether each item of data is normally transmitted, the terminal software can set the upper and lower limit threshold values of each item of data, when the upper and lower limit threshold values are higher or lower than the threshold value, corresponding early warning measures are executed, the problem of simultaneously detecting a plurality of environmental indexes at one time can be well solved, the problem of wasting manpower due to the use of manual detection is optimized, the unattended monitoring in the hour can be realized, the data dimension is greatly enriched, the data support is provided for potential safety hazard analysis and safety accident investigation, the operation of the air suction cover is utilized, the air suction flow of the fan is driven, and the outside air is driven to enter the fan, meanwhile, air flows are blown to the snake-shaped heat exchange plates through the air blowing cover, heat dissipation of the snake-shaped heat exchange plates is accelerated, heat exchange effect is improved, the noise probe, the light intensity sensor, the toluene/xylene probe, the temperature and humidity sensor and the combustible gas probe are used for detecting the sound/light/waste gas/temperature and humidity of the production environment, the noise probe, the light intensity sensor, the toluene/xylene probe and the temperature and humidity sensor are used for detecting the concentration of the combustible gas (acetylene/carbon monoxide and the like), data are recorded, the combustible gas probe is used for detecting the insulation resistance of the electricity environment through the resistance detection probe, the resistance detection probe is externally connected with the resistance detection probe, the recorded data can be transmitted through a network to be displayed on a terminal computer in real time, a display screen, a mobile APP and the like, so that a manager can master the site situation in real time, and the method has the advantages of convenience in use, the use effect is good;

the following test data is the test results under ideal environmental conditions (220 VAC-5 VDC/no strong electromagnetic interference/constant temperature and humidity over a period of time).

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Novel production environment detects device, including mounting panel (1), its characterized in that: be provided with radiator unit (2) on mounting panel (1), radiator unit (2) are including setting up protecting crust (201) on mounting panel (1), the side of protecting crust (201) is provided with a plurality of snakelike heat exchanger fin (202), the inboard of mounting panel (1) is provided with control assembly (3), the upside of mounting panel (1) is provided with air guide subassembly (4), air guide subassembly (4) are including setting up suction hood (401) on protecting crust (201), one side intercommunication of suction hood (401) is provided with fan (402), the inboard of fan (402) is provided with sensor system assembly (5) on protecting crust (201).

2. The novel production environment detection device according to claim 1, wherein: the middle part of snakelike heat exchanger plate (202) is inlayed on the both sides lateral wall of protecting crust (201), be provided with two bar mounting holes on mounting panel (1).

3. The novel production environment detection device according to claim 2, wherein: the control assembly (3) comprises a controller (301) arranged in the protective shell (201), a communication interface (302) and a resistance detection probe data interface (303) are electrically connected to the controller (301), and the communication interface (302) and the resistance detection probe data interface (303) penetrate through the protective shell (201) and reach the outer side of the protective shell (201).

4. A novel production environment detection device according to claim 3, wherein: the controller (301) is composed of an STM32 series core board, a power supply module, a display module, a storage module, a man-machine interaction module and a communication module.

5. The novel production environment detection device according to claim 4, wherein: one end of the air suction cover (401) is communicated with a sealing cover (403), two air guide pipes (404) are communicated with one another at the tail ends of the sealing cover (403), air blowing covers (405) are communicated with one another at the tail ends of the two air guide pipes (404), the air blowing covers (405) are respectively arranged on corresponding sides of the serpentine heat exchange plates (202) on the protective shell (201), and the air suction cover (401) is electrically connected with the controller (301).

6. The novel production environment detection device according to claim 5, wherein: the sensor system component (5) comprises a noise probe (501), a light intensity sensor (502), a toluene/xylene probe (503), a temperature and humidity sensor (504) and a combustible gas probe (505) which are arranged on the protective shell (201), wherein the noise probe (501), the light intensity sensor (502), the toluene/xylene probe (503), the temperature and humidity sensor (504) and the combustible gas probe (505) are electrically connected with the controller (301).