CN214668426U - Environmental monitoring equipment for mixing plant - Google Patents

Abstract

The utility model discloses a stirring station environmental monitoring equipment relates to environmental monitoring technical field, for solving current stirring station among the prior art in the in-process of long-term operation work its stand and a large amount of raise dusts can appear in the periphery, in case particle coefficient in the air surpasses the sanitation standard and will produce very big harm to the human body, and traditional detecting instrument has artifical handheld detection, the great problem of limitation of this kind of detection mode mostly. The utility model discloses a particle detector, including first particle detection case and second particle detection case, the below of first particle detection case and second particle detection case is provided with the metal support chassis, and the metal support chassis passes through bolted connection with first particle detection case and second particle detection case, the top of first particle detection case and second particle detection case is provided with extends the support, and extends support and first particle detection case and second particle detection case fixed connection, the top of extending the support is provided with the data antenna radar, and data antenna radar and first particle detection case and second particle detection case electric connection.

Description

Environmental monitoring equipment for mixing plant

Technical Field

The utility model relates to an environmental monitoring technical field specifically is a stirring station environmental monitoring equipment.

Background

Environmental monitoring refers to the activities of environmental monitoring mechanisms to monitor and measure environmental quality conditions. The environmental monitoring is to monitor and measure the index reflecting the environmental quality to determine the environmental pollution condition and the environmental quality. The environment monitoring mainly comprises the monitoring of physical indexes, the monitoring of chemical indexes and the monitoring of an ecosystem, and is the basis of scientific environment management and environment law enforcement supervision and is essential basic work for environment protection. The core objective of environment monitoring is to provide data of the current situation and the change trend of the environment quality, judge the environment quality, evaluate the current main environmental problems and serve the environment management.

However, a large amount of dust can be generated in the mixing station and around the mixing station in the long-term operation process, once the particle coefficient in the air exceeds the environmental sanitation standard, the human body is greatly damaged, most of the traditional detection instruments are manually and manually detected, and the detection mode has large limitation; therefore, the existing requirements are not met, and a stirring station environment monitoring device is provided for the equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stirring station environmental monitoring equipment to solve the current stirring station that proposes in the above-mentioned background art and in its station of in-process of long-term operation work and a large amount of raise dusts can appear in the periphery, in case particle coefficient in the air surpasses the sanitation standard and will produce very big harm to the human body, and traditional detecting instrument has artifical handheld detection mostly, the great problem of limitation of this kind of detection mode.

In order to achieve the above object, the utility model provides a following technical scheme: an environment monitoring device of a mixing plant comprises a first particle detection box and a second particle detection box, wherein a metal supporting chassis is arranged below the first particle detection box and the second particle detection box and is connected with the first particle detection box and the second particle detection box through screws, an extension bracket is arranged at the top of the first particle detection box and the second particle detection box and is fixedly connected with the first particle detection box and the second particle detection box, a data antenna radar is arranged at the top of the extension bracket and is electrically connected with the first particle detection box and the second particle detection box, sampling windows are arranged at two ends of the first particle detection box and the second particle detection box and are connected with the first particle detection box and the second particle detection box in a combined manner, a filtering back box is arranged at one side of the first particle detection box and one side of the second particle detection box, and the filtering back box, the first particle detection box and the second particle detection box are of an integrated structure, the other sides of the first particle detection box and the second particle detection box are provided with locking box doors, the locking box doors are rotatably connected with the first particle detection box and the second particle detection box, the bottom of the first particle detection box is provided with a light source sensing module, and the bottom of the second particle detection box is provided with an infrared light beam module.

Preferably, first granule detection case and second granule detection case set up to the same structure, and first granule detection case and the inside central data box that all is provided with of second granule detection case, the left and right sides of central data box all is provided with the dim light and detects the room, and the upper and lower both sides of central data box all are provided with reserve battery.

Preferably, the other side of dark light detection room is provided with the micro fan module, and the dark light detection room passes through the micro fan module and is connected with the sampling window, reserve battery and central data box and dark light detection room electric connection.

Preferably, the outer surface of the filtering back box is provided with a ventilation and exhaust window, the ventilation and exhaust window extends to the interiors of the first particle detection box and the second particle detection box, and a sealing valve plate is arranged in the ventilation and exhaust window.

Preferably, the outer surfaces of the light source sensing module and the infrared beam module are both provided with a sealing blocking cover, the sealing blocking cover is connected with the light source sensing module and the infrared beam module in a combined manner, and the outer surface of the sealing blocking cover is provided with a light-transmitting grating.

Preferably, the first particle detection box is electrically connected with the light source sensing module, and the second particle detection box is electrically connected with the infrared beam module.

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

1. the utility model discloses install first granule detection case on the enclosure of stirring station periphery, and second granule detection case is installed in the region of stirring station relative center, keeps relative same level between two sets of boxes, and so first granule detection case can detect the influence of stirring station to peripheral environment, and second granule detection case can detect the environmental quality in the station, and the cooperation between two sets of boxes can also judge the change situation of the environment of inside;

2. the utility model discloses examine time measuring micro fan module and will start work from the side with the peripheral air of box for the inside of suction to dim light detection room, the inside of dim light detection room is provided with light source check out test set, can detect the suspended particle in the air, thereby judge the quality condition of current air, accomplish the detection back of air at the machine, thereby the inside seal valve plate of ventilation exhaust window will be opened and will detect the air escape, avoid the air to remain and influence the next detection data in the inside of dim light detection room.

Drawings

FIG. 1 is an overall front view of the present invention;

fig. 2 is a schematic structural diagram of a light source sensing module of the present invention;

fig. 3 is a schematic view of the internal structure of the first particle detecting box of the present invention.

In the figure: 1. a first particle detection chamber; 2. a second particle detection chamber; 3. stretching the stent; 4. a data antenna radar; 5. locking the box door; 6. sampling a window; 7. a filtering back box; 8. a ventilation exhaust window; 9. a sealing valve plate; 10. a metal support chassis; 11. a light source sensing module; 12. an infrared beam module; 13. sealing the shield; 14. a light-transmitting grid; 15. a micro fan module; 16. a dark light detection chamber; 17. a reserve battery; 18. a central data box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, the present invention provides an embodiment: an environment monitoring device for a mixing station comprises a first particle detection box 1 and a second particle detection box 2, wherein the first particle detection box 1 is arranged on the surrounding wall of the mixing station, the second particle detection box 2 is arranged in the region of the relative center of the mixing station, the two groups of boxes keep the same relative horizontal height, so that the first particle detection box 1 can detect the influence of the mixing station on the surrounding environment, the second particle detection box 2 can detect the environment quality in the mixing station, the change condition of the internal environment can be judged by the matching of the two groups of boxes, a metal supporting chassis 10 is arranged below the first particle detection box 1 and the second particle detection box 2 of the second particle detection box 2, the metal supporting chassis 10 is connected with the first particle detection box 1 and the second particle detection box 2 through screws, an extension bracket 3 is arranged at the top of the first particle detection box 1 and the second particle detection box 2, the extension bracket 3 is fixedly connected with the first particle detection box 1 and the second particle detection box 2, the top of the extension bracket 3 is provided with a data antenna radar 4, the data antenna radar 4 is electrically connected with the first particle detection box 1 and the second particle detection box 2 to realize data transmission operation, two ends of the first particle detection box 1 and the second particle detection box 2 are respectively provided with a sampling window 6, the sampling windows 6 are connected with the first particle detection box 1 and the second particle detection box 2 in a combined manner, one side of the first particle detection box 1 and one side of the second particle detection box 2 are provided with a filter back box 7, the filter back box 7 and the first particle detection box 1 and the second particle detection box 2 are arranged into an integrated structure, the other side of the first particle detection box 1 and the second particle detection box 2 is provided with a locking box door 5, and the locking box door 5 is rotatably connected with the first particle detection box 1 and the second particle detection box 2, be convenient for examine and control the maintenance, the bottom of first granule detection case 1 is provided with light source response module 11, and the bottom of second granule detection case 2 is provided with infrared beam module 12, and light source response module 11 can detect the invisible infrared light beam that infrared beam module 12 sent, when having a large amount of suspended particles in the air between the two, the propagation of light will be obstructed, can help the air quality change in the system analysis current station like this to make corresponding reply operation.

Further, first granule detection case 1 and second granule detection case 2 set up to the same structure, and first granule detection case 1 and the inside central data box 18 that all is provided with of second granule detection case 2, the left and right sides of central data box 18 all is provided with dim light detection room 16, and the upper and lower both sides of central data box 18 all are provided with reserve battery 17, the inside of dim light detection room 16 is provided with light source check out test set, can detect the suspended particles in the air to judge the quality condition of current air.

Further, the other side of dark light detection room 16 is provided with micro fan module 15, and dark light detection room 16 is connected with sampling window 6 through micro fan module 15, and reserve battery 17 and central data box 18 and dark light detection room 16 electric connection, and micro fan module 15 will start work when detecting and give the inside of suction to dark light detection room 16 with the peripheral air of box from the side and detect.

Further, the surface of filtering back of the body case 7 is provided with ventilation exhaust window 8, and ventilation exhaust window 8 extends to the inside of first granule detection case 1 and second granule detection case 2, the inside of ventilation exhaust window 8 is provided with sealing valve plate 9, ventilation exhaust window 8 communicates each other with the inside dim light detection room 16 of granule detection case, accomplish the measuring back of air at the machine, thereby the inside sealing valve plate 9 of ventilation exhaust window 8 will be opened and will be detected the air discharge, avoid the air to remain and influence the next detection data in the inside of dim light detection room 16.

Further, the outer surfaces of the light source sensing module 11 and the infrared beam module 12 are both provided with a sealing cover 13, the sealing cover 13 is connected with the light source sensing module 11 and the infrared beam module 12 in a combined manner, the outer surface of the sealing cover 13 is provided with a light-transmitting grating 14, the light-transmitting grating 14 is provided with high-light-transmitting glass, and the sealing cover 13 is matched to mainly play a role in sealing protection and prevent dust from entering the module.

Further, the first particle detection box 1 is electrically connected with the light source sensing module 11, and the second particle detection box 2 is electrically connected with the infrared beam module 12, so that data communication is realized.

The working principle is as follows: when the particle detection device is used, the first particle detection box 1 is installed on a surrounding wall at the periphery of a stirring station, the second particle detection box 2 is installed in a region at the relative center of the stirring station, the two groups of boxes are kept at the same relative horizontal height, so that the first particle detection box 1 can detect the influence of the stirring station on the surrounding environment, the second particle detection box 2 can detect the environment quality in the station, the matching between the two groups of boxes can also judge the change condition of the internal environment, the bottom of the first particle detection box 1 is provided with the light source sensing module 11, the bottom of the second particle detection box 2 is provided with the infrared beam module 12, the light source sensing module 11 can detect the invisible infrared beam emitted by the infrared beam module 12, when a large number of suspended particles exist in the air between the two, the propagation of the light rays can be blocked, and therefore, the particle detection device can help a system to analyze the change of the air quality in the current station, so as to make corresponding reply operation, and the inner structure of two sets of boxes is the same, micro-fan module 15 will start work and give the inside of suction to dim light detection room 16 with the peripheral air of box from the side when detecting, the inside of dim light detection room 16 is provided with light source check out test set, can detect the suspended particle in the air, thereby judge the quality condition of current air, accomplish the detection back of air at the machine, thereby 8 inside sealing valve plate 9 of ventilation exhaust window will open will detect the air discharge, avoid the air to remain and influence the next detection data in the inside of dim light detection room 16.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. An environmental monitoring equipment of stirring station, includes first granule detection case (1) and second granule detection case (2), its characterized in that: a metal supporting chassis (10) is arranged below the first particle detection box (1) and the second particle detection box (2), the metal supporting chassis (10) is connected with the first particle detection box (1) and the second particle detection box (2) through screws, an extension bracket (3) is arranged at the top of the first particle detection box (1) and the second particle detection box (2), the extension bracket (3) is fixedly connected with the first particle detection box (1) and the second particle detection box (2), a data antenna radar (4) is arranged at the top of the extension bracket (3), the data antenna radar (4) is electrically connected with the first particle detection box (1) and the second particle detection box (2), sampling windows (6) are arranged at two ends of the first particle detection box (1) and the second particle detection box (2), and the sampling windows (6) are connected with the first particle detection box (1) and the second particle detection box (2) in a combined manner, one side of first granule detection case (1) and second granule detection case (2) is provided with filters back of the body case (7), and filters back of the body case (7) and sets up to integral type structure with first granule detection case (1) and second granule detection case (2), the opposite side of first granule detection case (1) and second granule detection case (2) is provided with closure chamber door (5), and closure chamber door (5) and first granule detection case (1) and second granule detection case (2) rotate to be connected, the bottom of first granule detection case (1) is provided with light source induction module (11), and the bottom of second granule detection case (2) is provided with light source infrared beam module (12).

2. The mixing station environmental monitoring device of claim 1, wherein: first granule detection case (1) and second granule detection case (2) set up to the same structure, and first granule detection case (1) and second granule detection case (2) are inside all to be provided with central data box (18), the left and right sides of central data box (18) all is provided with dim light detection room (16), and the upper and lower both sides of central data box (18) all are provided with reserve battery (17).

3. The mixing station environmental monitoring device of claim 2, wherein: the other side of dim light detection room (16) is provided with micro fan module (15), and dim light detection room (16) is connected with sampling window (6) through micro fan module (15), reserve battery (17) and central data box (18) and dim light detection room (16) electric connection.

4. The mixing station environmental monitoring device of claim 1, wherein: the surface of filtering back of the body case (7) is provided with ventilation and exhaust window (8), and ventilation and exhaust window (8) extend to the inside of first granule detection case (1) and second granule detection case (2), the inside of ventilation and exhaust window (8) is provided with sealing valve plate (9).

5. The mixing station environmental monitoring device of claim 1, wherein: the outer surface of light source response module (11) and infrared beam module (12) all is provided with sealed fender cover (13), and seals up fender cover (13) and light source response module (11) and infrared beam module (12) built-up connection, the surface of sealed fender cover (13) is provided with printing opacity grid (14).

6. The mixing station environmental monitoring device of claim 1, wherein: the first particle detection box (1) is electrically connected with the light source sensing module (11), and the second particle detection box (2) is electrically connected with the infrared beam module (12).

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