CN214756662U - Metallurgical enterprise emission information acquisition and control system - Google Patents

Abstract

The utility model discloses a metallurgical enterprise emission information acquisition and control system, which comprises a control room, a sensor and a singlechip electrically connected with the sensor, wherein a screen electrically connected with the singlechip is arranged in the control room, the control room comprises a foundation building and a core room, the screen is arranged in a nuclear atrium, a glass window is arranged around the middle part of the nuclear atrium, a plurality of unmanned aerial vehicles libraries are arranged outside the nuclear atrium, one side opening of each unmanned aerial vehicle library is hinged with a linkage door, a tension spring is arranged between each linkage door and the unmanned aerial vehicle library in a matching way, a take-off platform is arranged in the unmanned aerial vehicles libraries in a sliding way, two trapezoidal baffles matched with the linkage doors are arranged on the platform, an unmanned aerial vehicle is parked between the two trapezoidal baffles, and a control room worker can send out the unmanned aerial vehicle at any time to check process nodes in a take-off plant area or carry out daily inspection to the take-off plant area, the control room staff can master the factory area discharge condition and guide workers on the factory area to operate conveniently.

Description

Metallurgical enterprise emission information acquisition and control system

Technical Field

The utility model relates to a metallurgical enterprise discharges monitored control system field, concretely relates to metallurgical enterprise discharges information acquisition and arranges accuse system.

Background

Along with the improvement of environmental requirements, some working condition enterprises such as metallurgical enterprises need to monitor environmental parameters in a plant area and nearby the plant area in real time during production so as to effectively control information such as emission pollution of the enterprises, the existing monitoring system comprises various sensors arranged inside and outside the plant area, parameters collected by the sensors are fed back to a screen of a plant area control room after passing through a single chip microcomputer or an analog-to-digital conversion circuit, and therefore workers can conveniently control all emission information, but the existing monitoring system can only monitor passively, and can only call field workers in the plant area to check after conditions occur, so that the field information and follow-up observation cannot be obtained at the first time, and the control room workers cannot better control the emission information of the plant area.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the background art, the utility model aims to provide a metallurgical enterprise discharges information acquisition and arranges accuse system, and it has effectively solved the problem that exists among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a metallurgical enterprise discharges information acquisition and arranges control system, includes control room, sensor and the singlechip of being connected with the sensor electricity, still be provided with in the control room with the screen that the singlechip electricity is connected, the control room includes basic building and sets up the core room at basic building roof, the screen sets up in nuclear atrium, nuclear atrium's middle part is provided with the glass window all around, and nuclear atrium's outside bottom still is provided with a plurality of unmanned aerial vehicle storehouse, one side opening and the opening part upside of unmanned aerial vehicle storehouse articulate there is the linkage door, the cooperation is provided with the extension spring between linkage door and the unmanned aerial vehicle storehouse, it is provided with the platform of taking off still to slide in the unmanned aerial vehicle storehouse, take off be provided with on the platform with two trapezoidal baffles of linkage door matched with, it has unmanned aerial vehicle to park between two trapezoidal baffles.

Further, the sensors include a PM2.5 sensor, a PM10 sensor, and a VOC sensor.

Further, the height of the foundation building is not less than 45 m.

Furthermore, slide rails are respectively arranged on two vertical walls opposite to the unmanned aerial vehicle library and between the two vertical walls and the take-off platform in a matched mode, a rack is arranged on the bottom surface of the take-off platform, a speed reduction motor is arranged in the unmanned aerial vehicle library, and a driving gear meshed with the rack is arranged on an output shaft of the speed reduction motor.

Furthermore, a roller shaft matched with the trapezoidal baffle is arranged on the linkage door.

Furthermore, the opposite side of unmanned aerial vehicle storehouse and linkage door is provided with the manhole, the manhole communicates with the core room and on the manhole articulated have the manhole door.

The utility model discloses following beneficial technological effect has:

the utility model discloses in applied unmanned aerial vehicle storehouse and unmanned aerial vehicle, the control room staff can send out unmanned aerial vehicle at any time and look over or carry out daily inspection to the factory process node of appearance, great having made things convenient for the control room staff to master the factory and having arranged the condition and guide the workman on the factory scene to carry out the operation.

Drawings

Fig. 1 is a schematic structural diagram of a control room according to an embodiment of the present invention;

fig. 2 is a schematic view of a storage state of a takeoff platform according to an embodiment of the present invention;

fig. 3 is a schematic view of an extended state of the takeoff platform according to the embodiment of the present invention.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-3, the system for collecting, distributing and controlling emission information of a metallurgical enterprise described in this embodiment includes a control room 1, a sensor and a single chip microcomputer electrically connected to the sensor, a screen 2 electrically connected to the single chip microcomputer is further disposed in the control room 1, the control room 1 includes a basic building 3 and a core room 4 disposed on the roof of the basic building 3, the screen 2 is disposed in the core room 4, a glass window 5 is disposed around the middle of the core room 4, the height of the basic building 3 is not less than 45m, which is convenient for workers in the core room 4 to observe the surrounding conditions and control an unmanned aerial vehicle 11, a plurality of unmanned aerial vehicle libraries 6 are further disposed at the bottom of the outer side of the core room 4, a linkage door 7 is hinged to an opening at one side of the unmanned aerial vehicle libraries 6, a tension spring 8 is disposed between the linkage door 7 and the unmanned aerial vehicle libraries 6 in a matching manner, both ends of the tension spring 8 are respectively connected to the linkage door 7 and the unmanned aerial vehicle libraries 6, make linkage door 7 tend to self-closing, it is provided with takeoff platform 9 still to slidable in unmanned aerial vehicle storehouse 6, be provided with two trapezoidal baffles 10 with linkage door 7 matched with on takeoff platform 9, unmanned aerial vehicle 11 parks between two trapezoidal baffles 10, unmanned aerial vehicle 11 is last to have the camera and to control through control handle, be provided with the display screen that is used for showing camera image on unmanned aerial vehicle 11 on the control handle, when takeoff platform 9 slides and stretches out, trapezoidal baffle 10 top linkage door 7, make linkage door 7 open, takeoff platform 9 slides and stretches out the back of targetting in place, the sheltering from of unmanned aerial vehicle 11 top no linkage door 7, opening of linkage door 7 has not only been realized to application of trapezoidal baffle 10, unmanned aerial vehicle 11 when having protected the landing in addition, avoid unmanned aerial vehicle 11 to overturn from takeoff platform 9 under the crosswind influence, platform 9's specific mounting structure does: slide rails 12 are respectively arranged on two vertical walls opposite to the unmanned aerial vehicle garage 6 and between the two vertical walls and the take-off platform 9 in a matched mode, a rack 13 is arranged on the bottom surface of the take-off platform 9, a speed reduction motor is arranged in the unmanned aerial vehicle garage 6, a driving gear 14 meshed with the rack 13 is arranged on an output shaft of the speed reduction motor, a roller shaft 15 matched with the trapezoidal baffle 10 is further arranged at the bottom of the linkage door 7, friction between the linkage door 7 and the trapezoidal baffle 10 is reduced, and the linkage door 7 can swing more conveniently.

The sensors comprise PM2.5 sensors, PM10 sensors and VOC sensors, the PM2.5 sensors, the PM10 sensors and the VOC sensors are distributed at all places of the factory according to the actual layout of the factory, the connection structure and the arrangement form of the sensors for collecting data and feeding the data back to the screen 2 are the prior art in the field, and the details are not repeated herein.

The manhole is arranged on one side, opposite to the linkage door 7, of the unmanned aerial vehicle garage 6, the manhole is communicated with the core room, and a manhole door 16 is hinged to the manhole, so that the unmanned aerial vehicle 11 can be conveniently taken and placed by workers entering the unmanned aerial vehicle garage 6.

Cleaning water spray pipes 17 and hot air spray pipes 18 are further arranged in the unmanned aerial vehicle warehouse 6 in a staggered mode, downward spray heads and nozzles are arranged on the cleaning water spray pipes 17 and the hot air spray pipes 18 respectively, a water seepage tank 19 is arranged on the take-off platform 9, the bottom surface of the water seepage tank 19 is provided with a slope, a water outlet hole 20 is formed in the slope bottom, a water collecting tank 21 with an upper opening is arranged in the unmanned aerial vehicle warehouse 6, after the take-off platform 9 is stored in place, the outlet side of the water outlet hole 20 is located above the upper opening of the water collecting tank 21, the water collecting tank 21 can be connected with a sewer of a foundation building 3, a lapping convex edge is arranged in the water seepage tank 19, a grating platform 22 is lapped on the lapping convex edge, the upper edge of the grating platform 22 is flush with the upper edge of the grating platform 9, the grating platform 22 not only facilitates the flow of spray water, but also further enhances the parking stability of the take-off unmanned aerial vehicle 11; the great cleanness that has made things convenient for unmanned aerial vehicle 11 of using of cleaning water shower 17 and hot-blast spray pipe 18, it is concrete, when 11 surperficial dust dirt of unmanned aerial vehicle is more, at first open cleaning water shower 17 and erode unmanned aerial vehicle, then open hot-blast spray pipe 18 and weather unmanned aerial vehicle 11 with higher speed, still be provided with the L shape exhaust airway 23 with 6 intercommunications in unmanned aerial vehicle storehouse on the core room 4, make things convenient for the discharge of steam and steam, L shape exhaust airway 23 outside top is provided with inclined baffle 24, avoid sleet to get into.

The working principle of the embodiment is as follows:

the sensor collects the environmental information in real time and feeds the information back to the screen 2 in the core house 4, the staff in the core house 4 monitors the information in real time, when the information is abnormal or the work discharge state of the plant equipment needs to be adjusted, the staff of the core room 4 can call the site staff of the plant to go through the interphone, meanwhile, the speed reducing motor is started to extend the takeoff platform 9, the linkage door 7 is jacked up, and after the takeoff platform 9 extends in place, the unmanned aerial vehicle 11 is remotely controlled to take off, the picture shot by the camera on the unmanned aerial vehicle is displayed on the display screen matched with the unmanned aerial vehicle 11, the working personnel in the core house 4 can work along with the working personnel in the plant area at any time, and the operation of the field workers is indicated and guided, after the operation is finished, the unmanned aerial vehicle 11 is controlled to return to the takeoff platform 9, and the takeoff platform 9 retracts to be stored in the unmanned aerial vehicle warehouse 6 to wait for the next use.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a metallurgical enterprise discharges information acquisition and arranges control system, includes control room, sensor and the singlechip of being connected with the sensor electricity, still be provided with in the control room with the screen that the singlechip electricity is connected, a serial communication port, the control room includes basic building and sets up the core room at basic building roof, the screen sets up in nuclear atrium, nuclear atrium's middle part is provided with the glass window all around, and nuclear atrium's outside bottom still is provided with a plurality of unmanned aerial vehicle storehouse, one side opening and the opening part upside of unmanned aerial vehicle storehouse articulate there is the linkage door, the cooperation is provided with the extension spring between linkage door and the unmanned aerial vehicle storehouse, it is provided with the platform of taking off still to slidable in the unmanned aerial vehicle storehouse, take off be provided with on the platform with two trapezoidal baffles of linkage door matched with, it has unmanned aerial vehicle to park between two trapezoidal baffles.

2. The acquisition and control system for the emission information of the metallurgical enterprises according to claim 1, wherein the sensors comprise a PM2.5 sensor, a PM10 sensor and a VOC sensor.

3. The system of claim 1, wherein the height of the foundation building is not less than 45 m.

4. The system of claim 1, wherein slide rails are respectively disposed on two vertical walls opposite to the unmanned aerial vehicle garage and between the two vertical walls and the take-off platform in a matching manner, a rack is disposed on the bottom surface of the take-off platform, a reduction motor is disposed in the unmanned aerial vehicle garage, and a driving gear meshed with the rack is disposed on an output shaft of the reduction motor.

5. The system of claim 1, wherein the linkage door is provided with a roller shaft matched with the trapezoidal baffle.

6. The system of claim 1, wherein a manhole is arranged on a side of the unmanned garage opposite to the linkage door, the manhole is communicated with the core room, and a manhole door is hinged to the manhole.

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