CN102608646A - Detector device for radiation monitoring - Google Patents

Abstract

The invention discloses a detector device for radiation monitoring. The device comprises an ionization chamber part, a circuit part and a metal seal box; the ionization chamber part comprises a shell and an electrode part; and the circuit part is used for processing electric signals from the electrode part and arranged in the metal seal box. Moreover, all of a ball-shaped gas-filled ionization chamber, a signal amplification/data processingcircuit, the metal seal box and the like are put in an insulating cover so that the adaptability of the whole detector device to serious environments is further improved. Moreover, a conductive film is plated on an outer layer of the insulating cover so that an electromagnetic shielding function is achieved, the electromagnetic interference resistance of the signal amplification/data processingcircuit is improved, the performance is stable and the measurement accuracy is improved.

Description

The detector device that is used for Radiation monitoring

The application is the dividing an application of No. 200810101351.6 application for a patent for invention that is called " detector device that is used for radiation detection " in the name that on March 5th, 2008 was submitted to Patent Office of the People's Republic of China.

Technical field

The present invention relates to the environs radiation monitoring technical field, be specifically related to a kind of detector device that is used for Radiation monitoring.

Technical background

Nuclear power also has the shortcoming of himself as a kind of energy of cleaning, and promptly nuclear energy has radioactivity.Therefore, it is very important that bulk zone around the nuclear power station is carried out environs radiation monitoring, and particularly directly the development of the gamma-ray detector device of the local radioactive level of reflection is very necessary.

At present, less to the detector of environment gamma-rays monitoring both at home and abroad.The environment gamma ray spectrometer (like the BH1324F of Beijing Nuclear Instrument Factory) that China produces, though performance is very strong, measuring error is low, they can only be analyzed sampling, are not to be the design of environmental exact details gamma-rays Radiation monitoring specially.And this system is too huge and complicated, can not satisfy in real time and movably environment measuring requirement.

In addition, X-γ personal dosimeter (like FJ376G1) is though have mobility, and energy response is poor, and is not suitable for long term monitoring.

The detector that is generally used for environmental monitoring mainly is divided three classes: Geiger-Mueller tube, scintillation detector and gas ionization chamber detector.

Though Geiger-Muller is simple in structure, inexpensive, it is high, insensitive to particle kind and energy simultaneously to the stability requirement of high-voltage power supply, is used for environmental dose and detects comparatively difficulty.

Though scintillator (like widely used cesium iodide and cadmium tungstate etc.) has very high detection efficiency, luminescence efficiency receives Influence of Temperature, less stable.

The principle of high-pressure aerated ionization chamber is that the electron-ion that relies on electrode collection ray in the inflation body, to produce is right; Export electronics then; Have dark current little, to the characteristics of temperature-insensitive,, long working life not strict to high pressure requirement, be widely used in the environs radiation monitoring.

But because existing ionization chamber and corresponding amplification/data acquisition circuit separate, the detector overall tightness is relatively poor; Usually can't tolerate various harsh climate conditions; Particularly in long-term humidity or not clear the mixing under the environment of air composition, fluctuation appears in the interelectrode capacity of ionization chamber easily, and high-field electrode also can change through the leakage current that insulation course passes to pickup electrode; Must influence the signal output of ionization chamber like this, thereby influence measuring accuracy.

In addition, complicated external electromagnetic field also can interfere with the weak current signal that is drawn out to amplification circuits from the ionization chamber pickup electrode, causes noise to increase.

Summary of the invention

To the problems referred to above, the invention provides a kind of spheric's detecting devices that is used for Radiation monitoring, can improve the adaptability of whole detector device to rugged surroundings.In addition, according to embodiments of the invention, owing at the outer plating of insulating boot conducting film, can play electromagnetic shielding action, improve the anti-electromagnetic interference capability of signal amplification/data processing circuit, guaranteed performance is stable, improves measuring accuracy.

In one aspect of the invention, proposed a kind of detector device that is used for Radiation monitoring, having comprised: the ionization chamber part comprises shell and electrode part; Circuit part is to handling from the electric signal of electrode part; And metallic seal box; Wherein, said circuit part is arranged in the said metallic seal box.

Preferably, said detector device also comprises: insulation cover is used for ionization chamber part, circuit part and metallic seal box are placed in one.

Preferably, the skin at said insulation cover plates conducting film.

Preferably, said metallic seal box also comprises: multilayer circuit board, signal and supply line's port that the metallic seal box is inside and outside couple together.

Preferably, said electrode part branch comprises ball electrode and the electrode stem that is positioned at the center, and wherein shell and ball electrode are respectively high pressure the two poles of the earth of ionization chamber.

Preferably, the central electrode ball warp is linked to each other with the sealing pad by electrode stem, insulated enclosure head, and the sealing pad links to each other with shell again.

Preferably, said insulated enclosure head has pickup electrode, and said electric signal is connected to circuit part via the pickup electrode and the lead of insulated enclosure head.

Preferably, shell, ball electrode and sealing pad are processed by stainless steel, aluminium alloy or aldary.

Preferably, electrode stem, insulated enclosure head, sealing pad, gas outlet connect through the argon arc welding mode in twos.

Preferably, each ingredient of insulated enclosure head adopts the encapsulation of metal-ceramic sealing technology.

Preferably, the metallic seal box comprises by seal box loam cake, insulation column, sealing rubber ring, sealing with multilayer circuit board, seal box lower cover, screw and insulation cushion cover.

Preferably, through modelled signal circuit and supply line on same internal layer of multilayer circuit board or different internal layer, external signal in the metallic seal box and supply line's port are communicated with.

Preferably, circuit part is connected to the metallic seal box cover through insulation column; Connect through screw between metallic seal box covers, and between lower cover and screw, increase insulation sleeve.

Preferably, circuit part adopts lead to be connected with sealing with multilayer circuit board, and the signal after handling through circuit part passes to outside the metallic seal box with multilayer circuit board through lead and sealing again.

Smash shaped inflatable ionization chamber detector device of the present invention is simple, firm; Angular response is good; Stable work in work; Environmental suitability is strong, can extensively be installed in around all kinds of nuclear facilities, nuclear emergency early warning system and civil defence department of government, is used for radioactivity early stage to nuclear power station, nuclear facilities etc. and that can not expect and discharges and implement effectively monitoring.

Description of drawings

From the detailed description below in conjunction with accompanying drawing, above-mentioned feature and advantage of the present invention will be more obvious, wherein:

Fig. 1 shows the one-piece construction synoptic diagram of smash shaped inflatable ionization chamber detector.

Fig. 2 is that ionization chamber is formed structural representation.

Fig. 3 shows sealing pad and the insulated enclosure head partial enlarged drawing that is welded.

Fig. 4 shows the structural representation of data processing circuit plate and metallic seal box.

Fig. 5 is the local enlarged diagram of K part among Fig. 4.

Fig. 6 is the local enlarged diagram of J part among Fig. 4.

Reference numerals list:

1: spherical gas filled ionization chamber

2: signal amplification/data processing circuit plate

3: the metallic seal box

4: insulation cover

101: ball electrode

102: electrode stem

103: the shell episphere

104: the shell lower semisphere

105: the sealing pad

106: the insulated enclosure head

107: gas outlet

202: data/electric power connection line

301: the seal box loam cake

302: insulation column

303: sealing rubber ring

304: multilayer circuit board is used in sealing

305: binding post (or connector socket)

306: the seal box lower cover

307: hexagon socket cap head screw

308: the insulation sleeve gasket

Embodiment

Below, specify preferred implementation of the present invention with reference to accompanying drawing.In the accompanying drawings, though be shown in the different drawings, identical Reference numeral is used to represent identical or similar assembly.For clear and simple and clear, the known function and the detailed description of structure that are included in here will be omitted, otherwise they will make theme of the present invention unclear.

As shown in Figure 1, the detector device of the embodiment of the invention comprises smash shaped inflatable ionization chamber 1, signal amplification/data processing circuit plate (circuit part) 2, metallic seal box 3 and insulation cover 4 etc.

Like Fig. 2, high pressure spheric (ionization) chamber 1 comprises the episphere 103 of spherical housing, the lower semisphere 104 of spherical housing, the ball electrode 101 that is in spherical center, electrode stem 102, insulated enclosure head 106, sealing pad 105 and gas outlet 107 etc.

The spherical housing that comprises episphere 103 and lower semisphere 104 and the ball electrode 101 that is positioned at the center are respectively high pressure the two poles of the earth of ionization chamber 1; The ball electrode 101 at center links to each other with sealing pad 105 via electrode stem 102, insulated enclosure head 106, and sealing pad 105 links to each other with shell again.

The shell of spheric (ionization) chamber 1 and the ball electrode at center 101 all can be processed by stainless steel, aluminium alloy or aldary with sealing pad 105.Be convenient welding; As the shell of high-pressure stage, process (103 are the shell episphere among Fig. 2, and 104 is the shell lower semisphere) by two hemispheres up and down; The ball electrode 101 at center is a collector, and the electrode stem 102 that connects it passes insulated enclosure head 106 signal is delivered to signal amplification circuit.

Below between several kinds of parts, adopt the argon arc welding mode to connect: sealing pad 105 and shell lower semisphere 104 (Fig. 3: A); Sealing pad 105 and insulated enclosure head 106 (Fig. 3: B); Sealing pad 105 and gas outlet 107 (Fig. 3: C); Sealing pad 105 and seal box loam cake 301 (Fig. 3: D), shell episphere 103 and shell lower semisphere 104 (Fig. 2: L).

Insulated enclosure head 106 each ingredient adopt metal to ceramic sealing technology encapsulation (like Fig. 3: E, F, G).

In order to guarantee impermeability and security, at helium leak test and the voltage-withstand test installed, welding will be carried out strictness after finishing.After the test passes, charge into high pressure in the ball, for example the argon gas of 2.5Mpa, methane, nitrogen or their combination gas.

As shown in Figure 4, for stability and the weatherability that increases the detector circuit signal, the weak signal exit and the signal amplification/data processing circuit 2 of insulated enclosure head 106 all is placed in the airtight metallic seal box 3.

Metallic seal box 3 comprises that seal box loam cake 301, insulation column 302, sealing rubber ring 303, sealing are with multilayer circuit board 304, seal box lower cover 306, screw 307 and insulation cushion cover 308 etc.

The 3 whole employings of metallic seal box are columnar structured; Its crucial seal member is from top to bottom by following series arrangement: the sealing rubber ring 303 on seal box loam cake 301, top, sealing be with sealing rubber ring 303, the seal box lower cover 306 (like Fig. 4: K, Fig. 5) of multilayer circuit board 304, bottom, and they are by the hexagon socket cap head screw 307 and the sleeve gasket 308 that insulate be together in series (like Fig. 4: J, Fig. 6);

The shape requirement that basis signal amplification/data processing circuit plate 2 is concrete, metallic seal box 3 can be the circle that varies in size, square or other shapes.

Signal amplification/data processing circuit plate 2 is connected to the loam cake 301 (Fig. 4: H, I) of metallic seal box 3 through insulation column 302.The common use of insulation sleeve gasket 308 and insulation column 302 can guarantee that the inner signal amplifications/data processing circuit plate 2 of metal seal box 3, data/electric power connection line 202 etc. completely cut off with the spherical shell high pressure to come.

Sealing is two layers or more with multilayer circuit board 304, through modelled signal circuit and supply line on same internal layer of multilayer circuit board or different internal layer, can seal box 3 interior external signals and supply line's port be coupled together.

Signal amplification/data processing circuit plate 2 is connected to seal box loam cake 301 through insulation column 302.306 of seal box covers are passed through screw 307 and are connected, and between lower cover 306 and screw 307, increase insulation sleeve 308.The weak current signal of being drawn by the pickup electrode of insulated enclosure head 106 is wired on the signal amplification/data processing circuit plate 2.Signal amplification/data processing circuit plate 2 adopts lead to be connected with sealing with multilayer circuit board 304, and the signal after the former processing of process passes to 3 outer next step uses of confession of metallic seal box through lead and sealing with multilayer circuit 304 plates again.

For example sealing can be adopted four layers of PCB design with multilayer circuit board 304, and middle one deck is walked signal line, and middle another layer is walked supply line.The signal of being derived by insulated enclosure head 106 is connected to signal amplification/data processing circuit plate 2 (or 106 be welded direct on the signal amplification/data processing circuit 2) through thin wire.

Signal amplification/data processing circuit plate 2 is connected with multilayer circuit board 304 employing leads 202 with sealing, and the signal after handling through the former can pass on the binding post or connector socket 305 outside the seal box 3 with multilayer circuit board 304 with sealing through 202.

In order to improve the weatherability of whole detector, aforementioned spherical gas filled ionization chamber 1, signal amplification/data processing circuit plate 2 and metallic seal box 3 are all placed insulation cover 4.Insulation cover is made up of insulating boot and insulated leg two parts, and the two connects through socket head cap screw, and its material adopts tygon or engineering plastics ABS.In addition, plate one deck conducting film on the whole at insulation cover.

As stated; Because ionization chamber pickup electrode and circuit part with functions such as amplification, collection, conversions are sealed in the box; And be communicated with through one group of special construction parts signal and supply line's port that seal box is inside and outside that comprises multilayer circuit board, reduced the influence of external environment to signal Processing.

In addition, parts such as spherical gas filled ionization chamber, signal amplification/data processing circuit, metallic seal box are all placed insulating boot, can further improve the adaptability of whole detector device rugged surroundings.

In addition, at the outer plating of insulating boot conducting film, can play electromagnetic shielding action, improve the anti-electromagnetic interference capability of signal amplification/data processing circuit, guaranteed performance is stable, improves measuring accuracy.

Top description only is used to realize embodiment of the present invention; It should be appreciated by those skilled in the art; In any modification that does not depart from the scope of the present invention or local replacement; All should belong to claim of the present invention and come restricted portion, therefore, protection scope of the present invention should be as the criterion with the protection domain of claims.

Claims (5)

1. detector device that is used for Radiation monitoring comprises:

The ionization chamber part comprises shell and electrode part;

Circuit part is to handling from the electric signal of electrode part; And

The metallic seal box;

Wherein, said circuit part is arranged in the said metallic seal box, and said metallic seal box comprises: multilayer circuit board is used in the sealing that is arranged between seal box loam cake and the lower cover, and signal and supply line's port that the metallic seal box is inside and outside couple together.

2. detector device according to claim 1 also comprises: insulation cover is used for ionization chamber part, circuit part and metallic seal box are placed in one.

3. detector device according to claim 2, wherein the skin at said insulation cover plates conducting film.

4. detector device according to claim 1, wherein said electrode part branch comprises ball electrode and the electrode stem that is positioned at the center, wherein shell and ball electrode are respectively high pressure the two poles of the earth of ionization chamber.

5. detector device according to claim 1, wherein through sealing with multilayer circuit board modelled signal circuit and supply line on same internal layer or the different internal layer, external signal in the metallic seal box and supply line's port are communicated with.

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