CN201681160U - Radiation environment monitoring station - Google Patents

Abstract

The utility model discloses a radiation environment monitoring station comprising a radiation monitoring station cabin body, a power and monitoring device, an automatic weather station and a high-voltage ionization chamber, wherein the radiation monitoring station cabin body is formed by connecting big plates; the cabin body consists of a cabin roof, a cabin wall and a cabin bottom; the cabin bottom is provided with a support frame; a radiation environment rainwater automatic sampler is arranged at one side in the cabin body; a rainwater inlet barrel of the radiation environment rainwater automatic sampler is arranged outside the cabin roof; a radiation environment high-flow automatic aerosol sampler is arranged at the other side in the cabin body; the cabin wall is provided with a vent hole; and an exhaust pipe of the radiation environment high-flow automatic aerosol sampler is connected with the vent hole on the cabin wall. The radiation monitoring station adopts the integrated and modular design and integrates various devices, so that the construction standardization and serialization of the radiation monitoring station are realized, and the radiation environment monitoring station has the characteristics of safety, reliability, economy, compatibility, maneuverability and convenient installation and maintenance.

Description

Radiation environment monitoring station

Technical field

The utility model belongs to environmental protection device, is specifically related to a kind of environment monitoring device.

Background technology

The environmental monitoring various places relatively disperse at present, various device is isolated operation, data acquisition between the equipment, exchange difficulty, security, reliability, economy, Electro Magnetic Compatibility, anticorrosion and installation and maintenance be factor such as inconvenience extremely, is difficult to collect latest data in the short time.

Simultaneously because the structure of equipment self makes existing environment monitoring device be difficult to be integrated together.

Summary of the invention

The purpose of this utility model is to provide a kind of integrated radiation monitoring station with integrated environment monitoring function, realizes environment comprehensive monitoring real-time, to address the above problem.

The technical solution of the utility model is: radiation environment monitoring station: it comprises the radiation monitoring station cabin body that is connected and composed by big plate, the cabin body is pushed up by the cabin, the bulkhead and the bilge constitute, power and supervising device, the high pressure ionization chamber, the bilge is provided with bracing frame, a side is provided with radiation environment rainwater automatic sampler in the body of cabin, the rainwater gathering barrel of radiation environment rainwater automatic sampler is located at the top, cabin and goes up the outside, opposite side is provided with radiation environment high flow rate automatic aerosol sampler in the body of cabin, offer vent port on the bulkhead or the bilge, the gas outlet of radiation environment high flow rate automatic aerosol sampler is connected with vent port on the bulkhead; Be provided with the main control computer device in the cabin body between rack and radiation environment rainwater automatic sampler; The draft tube of radiation environment high flow rate automatic aerosol sampler and airscoop shroud thereof are located at the top, cabin and go up the outside, and the high pressure ionization chamber is located on the top, cabin.

Described radiation environment high flow rate automatic aerosol sampler is fixed on the bulkhead, and radiation environment rainwater automatic sampler is fixed on the bulkhead relative with radiation environment high flow rate automatic aerosol sampler.

Radiation environment rainwater automatic sampler comprises the sampling thief housing, be provided with control device in the sampling thief housing, the rainwater receiving flask is located in the sampling thief housing, the sampling thief housing is provided with the rainwater gathering barrel, the rainwater gathering barrel is connected UNICOM with the rainwater receiving flask, the rainwater inductor, be provided with device for collecting rain water in the rainwater gathering barrel, device for collecting rain water is connected with water-supply-pipe, the rainwater gathering barrel is provided with airtight bung, and rainwater gathering barrel bucket wall is provided with the bung opening device outward, and the rainwater receiving flask is connected UNICOM with the rainwater distributing pipe, the rainwater distributing pipe is provided with rainwater receiving flask distribution valve, and the rainwater distributing pipe is connected UNICOM with water-supply-pipe.

Described device for collecting rain water comprises pallet, and pallet connects the rainwater feeder down, and the rainwater feeder connects UNICOM's rising pipe down, establish support bar on the pallet, the rainwater tipping bucket that is articulated and connected on the support bar is gone back the rainwater funnel on the support bar, the rainwater funnel is divided into downcomer, and the outlet of downcomer is relative with the rainwater tipping bucket.

Described radiation environment high flow rate automatic aerosol sampler comprises vacuum blower, vacuum blower connects admission line and gas outlet, control device, connect the sampling of aerosol cabin on the admission line, the sampling of aerosol cabin comprises the sampling housing, the sampling housing connects wind-guiding flow diverter under the UNICOM down, following wind-guiding flow diverter is connected atmospheric aerosol sampling by filtration device with sampling between the housing, described atmospheric aerosol sampling by filtration device comprises the sampling membrane top board, the sampling membrane top board is divided into sampling membrane, sampling housing and atmosphere UNICOM.

The big plate that the radiation monitoring station cabin body that described big plate connects and composes is made up of steel skeleton, aluminium alloy plate and polyurethane foam material etc., assembled between the big plate, have the good comprehensive performance.

Described high pressure ionization chamber is located on the top, cabin; The high pressure ionization chamber is a detecting devices, is used for continuously and in real time the radiant matter of atmospheric environment is surveyed and detected, and surveys, detects and monitor as media such as alpha ray, β ray and gamma-rays in the atmospheric environment.

Modularization is adopted in this station integration design, and various device is integrated, with the computer data monitoring, realizes control in real time each other, and data sync communication, and computing machine and Internet connection realize on national network.Can understand national environmental change in real time, in time react, make deployment.Real realization security, reliability, economy, Electro Magnetic Compatibility, anticorrosion and convenient for installation and maintenance.Radiation monitoring station adopts the integration design, adopts modularization, and various device is integrated, makes radiation monitoring station construction criteriaization, seriation.Characteristics such as safe, reliable, economic, compatible, motor-driven, convenient for installation and maintenance have been realized.

Description of drawings

Fig. 1 Radiation monitoring station owner looks outside drawing.

Fig. 2 radiation monitoring station is overlooked outside drawing.

Outside drawing is looked on Fig. 3 radiation monitoring station left side.

Outside drawing is looked on Fig. 4 radiation monitoring station right side.

Fig. 5 radiation monitoring station internal placement schematic top plan view.

Fig. 6 power and supervising device are arranged synoptic diagram.

Fig. 7 radiation environment rainwater automatic sampler is arranged synoptic diagram.

Fig. 8 radiation environment high flow rate automatic aerosol sampler is arranged synoptic diagram.

Fig. 9 radiation environment rainwater automatic sampler structural representation.

Figure 10 device for collecting rain water structural representation.

Figure 11 radiation environment high flow rate automatic aerosol sampler structural representation.

Figure 12 atmospheric aerosol sampling by filtration device synoptic diagram.

Figure 13 rectifier synoptic diagram.

Embodiment

Present embodiment is in order to the explanation to the utility model claim, various changes that are different from present embodiment that those skilled in the art did and modification and do not break away from spirit and scope of the present utility model.Like this, if of the present utility model these are revised and modification belongs within the scope of the utility model claim and equivalent technologies thereof, then the utility model also is intended to comprise these changes and modification interior.

Shown in Fig. 1,2,3,4, the big plate of being made up of steel skeleton, aluminium alloy plate and polyurethane foam material etc. is spliced to form cabin body 100, and it is by top, cabin 101, and bulkhead 103,104,105 constitutes with the bulkhead 103 relative bulkhead and the bilge 102.Cabin top 101, bulkhead 103,104,105 and the bulkhead mating surface brushing fluid sealant relative, the angle press strip in the riveting dress shelter with bulkhead 103.The even brushing fluid sealant of surface of contact of the big plate in bound edge riveting dress forward position.

The bilge 102 is provided with floor, cabin rubber cushion, and material is the polyurethane Oil Resistant Rubber Plate, and on-the-spot whole pouring is shaped.Adhere to firmly, seamless, the rubber floor covering of on-the-spot integrated poured shaping is adopted on no press strip station floor, before pouring into a mould the station base plate is carried out leveling, guarantees that rubber face shaping back thickness is evenly smooth, adhere to firm, seamless, makes station reach beautiful and clean effect.Be connected with built on stilts supporting leg 112 on the bilge 102.

A sealing hatch door 107 is set on the bulkhead 103, promptly is provided with sealing strip between door and doorframe, they can guarantee the sealing of station effectively.

Bulkhead 105 is provided with conditioner 109 (air-conditioning).

The bulkhead 104 outer ladders 110 that are provided with lead to top, cabin 101.Also offer cabin ventilator 112 on the bulkhead 105.

Top, cabin 101 is provided with flood level 111, i.e. the flood level inclined-plane.

As shown in Figure 5, be provided with radiation environment rainwater automatic sampler 600 (hanging on the bulkhead shown in Figure 7) on one wing bulkhead of cabin body 100, establish radiation environment high flow rate automatic aerosol sampler 500 (hanging on the bulkhead, as shown in Figure 8) on the corresponding opposite side bulkhead; There is computing machine 200 at the cabin body 100 bulkhead places relative with sealing hatch door 107, printing device 201, power and supervising device 210.Cabin body 100 can be divided into radiation environment rainwater automatic sampler 600 and radiation environment high flow rate automatic aerosol sampler 500 two parts with the inner space by establishing dividing plate.

As shown in Figure 6, power and supervising device 210 comprise the ups power 214 that support 211 is provided with from bottom to up, lightning-arrest ID, DI conversion equipment 212, the industrial computer 213 of reaching of lightning protection; For power distribution cabinet and communication apparatus 215.

High pressure ionization chamber 700 is located on the top, cabin; Be provided with temperature compensation means in it, high pressure ionization chamber 700 is detecting devicess, is used for continuously and in real time the radiant matter of atmospheric environment is surveyed and detected, and surveys, detects and monitor as media such as alpha ray, β ray and gamma-rays in the atmospheric environment.

As shown in Figure 9, radiation environment rainwater automatic sampler structure:

Be provided with a plurality of rainwater receiving flasks 610 in the sampling thief housing 600, be connected with gas outlet or run-down pipe between each rainwater receiving flask 610.Each rainwater receiving flask water distribution pipe 609 is provided with gland bonnet 611 between the bottleneck of rainwater receiving flask 610 and the rainwater distributing pipe 609, is provided with fluid level transmitter 612 (liquid level sensor) in the rainwater receiving flask 610.The rainwater receiving flask distribution valve 608 that connects on each rainwater distributing pipe 609.Sampling thief housing 600 also is provided with controller 607.Every rainwater distributing pipe 609 is connected UNICOM with water-supply-pipe 606; Dmp filter pipe water-supply-pipe 606 passes sampling thief housing 600 and is connected UNICOM with rainwater gathering barrel 601.Rainwater inductor 602 is located at the top (as compartment top) of object, airtight bung 613 is articulated and connected on the rainwater gathering barrel 601,601 barrels of walls of rainwater gathering barrel are provided with the bung opening device outward, the bung opening device comprises the into outer electric pushrod 603 that connects of water butt bucket wall, the iron block 605 that the end 604 of electric pushrod and bung edge are provided with contacts, and iron block is connected with hinge 614 on the bung.

The base plate of sampling thief housing 600 is provided with spillway hole, and rainwater distributing pipe 609 is provided with overflow pipe.(not shown) is established drainpipe recovery or eliminating out of my cabin on the spillway hole.

As shown in figure 10, be provided with device for collecting rain water in the rainwater gathering barrel 601, device for collecting rain water comprises pallet 620, pallet connects rainwater feeder 621 620 times, the rainwater feeder connects UNICOM's rising pipe 622 621 times, establish support bar 623 on the pallet 620, the rainwater tipping bucket 624 that is articulated and connected on the support bar 623, the middle part of rainwater tipping bucket 624 and support bar 623 are articulated and connected in the present embodiment.Go back rainwater funnel 625 on the support bar 623, rainwater funnel 625 is divided into downcomer 626, and the outlet of downcomer 626 is relative with the rainwater tipping bucket.Rising pipe 622 is connected UNICOM with water-supply-pipe 606.

The pallet of rainwater tipping bucket 624 both sides is provided with rainwater guide plate 627.The bottom of rainwater feeder 621 is a back taper.Also be provided with sensor 628 on the pallet 620.

Its principle of work is, rainwater enters rainwater tipping bucket 624 by rainwater funnel 625, after rainfall reaches certain total amount, and the lever out of trim of rainwater tipping bucket, the upset of rainwater tipping bucket is poured rainwater into rainwater feeder 621 backs and is flowed out.

The control procedure of described controller is: after the rainwater inductor detects rainwater, the bung opening device activates to open, rainwater enters into rainwater gathering barrel, open first distribution valve, rainwater enters in the rainwater receiving flask, fluid level transmitter sensed water level in the rainwater receiving flask is then closed first distribution valve behind designated water level.

After closing first distribution valve, open second distribution valve, the fluid level transmitter sensed water level in the rainwater receiving flask is then closed second distribution valve behind designated water level, and circulation according to this is full until all rainwater receiving flask collections.

As shown in figure 11, radiation environment high flow rate automatic aerosol sampler structure:

Radiation environment high flow rate automatic aerosol sampler comprises main casing 505, main casing is provided with equipment compartment hatch door 508, be provided with vacuum blower 501 in the main casing 505, vacuum blower 501 connects admission line and gas outlet 506, controller 504 adopts Single-chip Controlling, controller 504 is located in the main casing 505, (main casing that present embodiment middle controller 504 is located under the vacuum blower 501 is interior).Gas outlet 506 passes main casing 505 downwards.Main casing 505 is established sampling of aerosol cabin 502, and sampling of aerosol cabin 502 comprises sampling housing 503, and sampling housing 503 times connects wind-guiding flow diverter 514 under the UNICOM, and following wind-guiding flow diverter 514 is connected atmospheric aerosol sampling by filtration device 507 between the housing 503 with sampling.Following wind-guiding flow diverter 514 is a back taper.Connect sampling hatch door 508 on the sampling of aerosol cabin 502.Be provided with Boolean value output sensor 509 in the sampling hatch door 508.Sampling housing and atmosphere UNICOM, its structure is: connect wind-guiding stream lead device 510 on the sampling housing 503, connect UNICOM's draft tube 511 on the last wind-guiding stream lead device 510, establish airscoop shroud 512 on the draft tube 511, establish air intake opening 513 between airscoop shroud and the draft tube, described upward wind-guiding stream lead device is a cone.Airscoop shroud 512 is bearing on the draft tube 511 in the present embodiment, and forms air intake opening 513 between draft tube 511 openings; Airscoop shroud 512 tools are prevented the rainwater effect.

The admission line of vacuum blower 501 comprises with vacuum blower and is connected UNICOM's section 520, is connected the measurement standard pipeline section 521 of UNICOM with following wind-guiding flow diverter 514, and measurement standard pipeline section 521 is connected with vacuum blower and is connected with whole wave duct section 522 between UNICOM's section 520; Whole wave duct section 522 adopts corrugated flexible hose, can reduce the influence of vacuum blower vibration to the sampling cabin effectively; Vacuum blower connects UNICOM's section 520 and plays the effect that vacuum blower connects base again; Vacuum blower connects between UNICOM's section and the whole wave duct section and is connected rectifier 523.

Measurement standard pipeline section 521 is provided with temperature sensor 524, humidity sensor 525 and examines device senses device 526 outward.Be connected with vacuum blower at following wind-guiding flow diverter 514 and be respectively equipped with flow sensor 527 on UNICOM's section 520.

Atmospheric aerosol sampling by filtration device 507 as shown in figure 12, it comprises sampling membrane top board 530, sampling membrane top board 530 is divided into sampling membrane 531, sampling membrane top board 530 is connected with following wind-guiding flow diverter 514, also be provided with cowling panel 532 531 times at sampling membrane, the structure of cowling panel 532 is to offer pod apertures on plate structure, and pod apertures is a plurality of equally distributed holes.Cowling panel 532 also is sampling membrane 531 lower platens.

Rectifier 523 as shown in figure 13, comprise the sleeve pipe 540 that is enclosed within the vacuum blower connection UNICOM section 520, establish back taper commutator tube 541 on the sleeve pipe 540, establish whole wave duct section connector 542 on the back taper commutator tube 541, whole wave duct section connector outer wall is provided with vacuum blower and is connected UNICOM's section joint flange 543, and this structure realizes the variation (reducing) of the interior diameter of whole wave duct section connector 542 and sleeve pipe 540.Flange 543 is connected with vacuum blower establishes sealing gasket 544 between UNICOM's section 520.

Above-mentioned vacuum blower, vacuum blower connect admission line, sampling housing, following wind-guiding flow diverter and last wind-guiding stream lead device with the vertical axes setting.

Adopt the intelligent power electric power system for power distribution cabinet, by the 220V civil power, leave civil power (2) interface, ups power, thunder resisting equipment etc. and forms the electricity consumption of confession station equipment.

The electric energy that online UPS provides in the intelligent power power supply terminus module is for the major equipment emergence power.

External civil power has priority function, and when civil power inserted, the intelligent power system changed automatically, guarantees that civil power preferentially powers.As need to reserve civil power (2) because of expansion, civil power (2) is automatic conversion power supply after civil power (1) outage, and the user can select the zero-time conversion, also can compatible power (this mark of civil power (2) does not require to be unworthy of).

Precision equipments such as computer are powered by UPS, and conventional equipment is directly powered.

Enlarging system is protected in the intelligent power power supply.

Share the power supply plate between them, a FA power supply smart power supply monitoring system is arranged himself, make it safe and reliable, reduce electromagnetic interference (EMI).

When civil power inserts, adopt special-purpose water-proof industry connector, be arranged on the shelter rear portion.

Claims (10)

1. radiation environment monitoring station, it comprises the radiation monitoring station cabin body that is connected and composed by big plate, the cabin body is pushed up by the cabin, the bulkhead and the bilge constitute, power and supervising device, the high pressure ionization chamber, the bilge is provided with bracing frame, it is characterized in that a side is provided with radiation environment rainwater automatic sampler in the body of cabin, the rainwater gathering barrel of radiation environment rainwater automatic sampler is located at the top, cabin and goes up the outside, opposite side is provided with radiation environment high flow rate automatic aerosol sampler in the body of cabin, offers vent port on the bulkhead or the bilge, and the gas outlet of radiation environment high flow rate automatic aerosol sampler is connected with vent port on the bulkhead; Be provided with the main control computer device in the cabin body between rack and radiation environment rainwater automatic sampler; The draft tube of radiation environment high flow rate automatic aerosol sampler and airscoop shroud thereof are located at the top, cabin and go up the outside, and the high pressure ionization chamber is located on the top, cabin.

2. radiation environment monitoring station according to claim 1, it is characterized in that described radiation environment high flow rate automatic aerosol sampler is fixed on the bulkhead, radiation environment rainwater automatic sampler is fixed on the bulkhead relative with radiation environment high flow rate automatic aerosol sampler.

3. radiation environment monitoring station according to claim 1 is characterized in that body bottom, cabin establishes built on stilts supporting leg.

4. radiation environment monitoring station according to claim 1 is characterized in that both sides, top, cabin are provided with flood level.

5. radiation environment monitoring station according to claim 1, it is characterized in that radiation environment rainwater automatic sampler comprises the sampling thief housing, be provided with control device in the sampling thief housing, the rainwater receiving flask is located in the sampling thief housing, the sampling thief housing is provided with the rainwater gathering barrel, the rainwater gathering barrel is connected UNICOM with the rainwater receiving flask, the rainwater inductor, be provided with device for collecting rain water in the rainwater gathering barrel, device for collecting rain water is connected with water-supply-pipe, and the rainwater gathering barrel is provided with airtight bung, rainwater gathering barrel bucket wall is provided with the bung opening device outward, the rainwater receiving flask is connected UNICOM with the rainwater distributing pipe, and the rainwater distributing pipe is provided with rainwater receiving flask distribution valve, and the rainwater distributing pipe is connected UNICOM with water-supply-pipe.

6. as radiation environment monitoring station as described in the claim 5, it is characterized in that described bung opening device comprises the into outer solenoid valve that connects of water butt bucket bucket wall, the electromagnetism end of solenoid valve contacts with the iron block of bung edge setting, and iron block is connected with hinge on the bung.

7. as radiation environment monitoring station as described in the claim 5, it is characterized in that described device for collecting rain water comprises pallet, pallet connects the rainwater feeder down, the rainwater feeder connects UNICOM's rising pipe down, establish support bar on the pallet, the rainwater tipping bucket that is articulated and connected on the support bar is gone back the rainwater funnel on the support bar, the rainwater funnel is divided into downcomer, and the outlet of downcomer is relative with the rainwater tipping bucket.

8. radiation environment monitoring station according to claim 1, it is characterized in that described radiation environment high flow rate automatic aerosol sampler comprises vacuum blower, vacuum blower connects admission line and gas outlet, control device, connect the sampling of aerosol cabin on the admission line, the sampling of aerosol cabin comprises the sampling housing, the sampling housing connects wind-guiding flow diverter under the UNICOM down, following wind-guiding flow diverter is connected atmospheric aerosol sampling by filtration device with sampling between the housing, described atmospheric aerosol sampling by filtration device comprises the sampling membrane top board, the sampling membrane top board is divided into sampling membrane, sampling housing and atmosphere UNICOM.

9. as radiation environment monitoring station as described in the claim 8, it is characterized in that admission line comprises is connected UNICOM's section with vacuum blower, the measurement standard pipeline section that is connected UNICOM with following wind-guiding flow diverter, measurement standard pipeline section are connected with vacuum blower to be connected with between UNICOM's section puts in order the wave duct section.

10. as radiation environment monitoring station as described in the claim 8, it is characterized in that vacuum blower connects between UNICOM's section and the whole wave duct section and be connected rectifier; Described rectifier comprises that being enclosed within vacuum blower connects the interior sleeve pipe of UNICOM's section, establishes the back taper commutator tube on the sleeve pipe, establishes whole wave duct section connector on the back taper commutator tube.

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