WO1999002981A1 - Analytic head for detecting vapours of explosive substances - Google Patents

Analytic head for detecting vapours of explosive substances Download PDF

Info

Publication number
WO1999002981A1
WO1999002981A1 PCT/RU1997/000212 RU9700212W WO9902981A1 WO 1999002981 A1 WO1999002981 A1 WO 1999002981A1 RU 9700212 W RU9700212 W RU 9700212W WO 9902981 A1 WO9902981 A1 WO 9902981A1
Authority
WO
WIPO (PCT)
Prior art keywords
channel
main
channels
drifting
gap
Prior art date
Application number
PCT/RU1997/000212
Other languages
French (fr)
Russian (ru)
Inventor
Vladislav Viktorovich Milin
Jury Anatolievich Panchenko
Aleksandr Ivanovich Safonov
Aleksandr Inokentievich OVECHKIN
Original Assignee
Aktsionernoe Obschestvo Otkrytogo Tipa 'institut Prikladnoi Fiziki'
OVECHKINA, Lidiya Grigorievna
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Aktsionernoe Obschestvo Otkrytogo Tipa 'institut Prikladnoi Fiziki', OVECHKINA, Lidiya Grigorievna filed Critical Aktsionernoe Obschestvo Otkrytogo Tipa 'institut Prikladnoi Fiziki'
Priority to AU46397/97A priority Critical patent/AU4639797A/en
Priority to PCT/RU1997/000212 priority patent/WO1999002981A1/en
Publication of WO1999002981A1 publication Critical patent/WO1999002981A1/en

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N27/00Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
    • G01N27/62Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating the ionisation of gases, e.g. aerosols; by investigating electric discharges, e.g. emission of cathode
    • G01N27/64Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating the ionisation of gases, e.g. aerosols; by investigating electric discharges, e.g. emission of cathode using wave or particle radiation to ionise a gas, e.g. in an ionisation chamber
    • G01N27/66Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating the ionisation of gases, e.g. aerosols; by investigating electric discharges, e.g. emission of cathode using wave or particle radiation to ionise a gas, e.g. in an ionisation chamber and measuring current or voltage
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/0004Gaseous mixtures, e.g. polluted air
    • G01N33/0009General constructional details of gas analysers, e.g. portable test equipment
    • G01N33/0027General constructional details of gas analysers, e.g. portable test equipment concerning the detector
    • G01N33/0036General constructional details of gas analysers, e.g. portable test equipment concerning the detector specially adapted to detect a particular component
    • G01N33/0057Warfare agents or explosives

Definitions

  • the invention is related to the field of analytical processing, and more to the detonation of products and the analysis of explosive substances in the air.
  • Izves ⁇ na anali ⁇ iches ⁇ aya g ⁇ l ⁇ v ⁇ a ddya ⁇ bna ⁇ uzheniya ⁇ a ⁇ v vz ⁇ yvcha ⁇ y ⁇ of Great sches ⁇ v is ⁇ lzuyuschaya me ⁇ d nelineyn ⁇ g ⁇ ⁇ azdeleniya i ⁇ n ⁇ v ⁇ ⁇ dvizhn ⁇ s ⁇ i in silny ⁇ ele ⁇ iches ⁇ i ⁇ ⁇ lya ⁇ (Bu ⁇ ya ⁇ v I. ⁇ . and d ⁇ .
  • v ⁇ lyuchayuschaya ⁇ chny ⁇ anal, s ⁇ de ⁇ zhaschy ⁇ sled ⁇ va ⁇ eln ⁇ ⁇ as ⁇ l ⁇ zhennye ⁇ ame ⁇ u i ⁇ nizatsii and us ⁇ ys ⁇ v ⁇ ⁇ azdeleniya i ⁇ - n ⁇ v ⁇ ⁇ dvizhn ⁇ s ⁇ i, vy ⁇ lnenn ⁇ e as dvu ⁇ ⁇ l ⁇ s ⁇ i ⁇ ele ⁇ d ⁇ v, ⁇ b ⁇ azuyuschi ⁇ d ⁇ ey ⁇ vy ⁇ mezhu ⁇ and s ⁇ edinenny ⁇ with is by sources of constant compensated and varied asymmetric voltages, and the system of failure of ions.
  • ⁇ ⁇ sn ⁇ vu iz ⁇ b ⁇ e ⁇ eniya ⁇ s ⁇ avlena task s ⁇ zdaniya anali ⁇ iches ⁇ y g ⁇ l ⁇ v ⁇ i for ⁇ bna ⁇ uzheniya ⁇ a ⁇ v vz ⁇ yvcha ⁇ y ⁇ vesches ⁇ v in ⁇ y on account is ⁇ lz ⁇ vaniya d ⁇ lni ⁇ eln ⁇ g ⁇ ⁇ e ⁇ e ⁇ n ⁇ g ⁇ ⁇ chn ⁇ g ⁇ ⁇ anala ⁇ susches ⁇ vlyae ⁇ sya ⁇ ezhim sam ⁇ na- s ⁇ y ⁇ i on is ⁇ m ⁇ e vz ⁇ yvcha ⁇ e vesches ⁇ v ⁇ and ⁇ vyshae ⁇ sya v ⁇ s ⁇ izv ⁇ dim ⁇ s ⁇ ⁇ e- zul ⁇ a ⁇ v analysis.
  • E ⁇ ⁇ zv ⁇ lil ⁇ is ⁇ lz ⁇ va ⁇ for ⁇ b ⁇ i ⁇ ⁇ anal ⁇ v single d ⁇ ey ⁇ vy ⁇ mezhu ⁇ , iz ⁇ li ⁇ vav d ⁇ ug ⁇ d ⁇ uga diele ⁇ iches ⁇ y ⁇ e ⁇ eg ⁇ d ⁇ y v ⁇ zdush- nye ⁇ i ⁇ sn ⁇ vn ⁇ g ⁇ and ⁇ e ⁇ e ⁇ n ⁇ g ⁇ ⁇ anal ⁇ v and znachi ⁇ ⁇ b ⁇ i ⁇ n ⁇ v in ⁇ b ⁇ i ⁇ ⁇ ana- la ⁇ bude ⁇ ⁇ v ⁇ di ⁇ sya in iden ⁇ ichny ⁇ usl ⁇ viya ⁇ .
  • the representative system for resetting the primary and external channels of the channels is made in the form of a collector, which is composed of two polar elec- trics. 3 electrically isolated friends from the other and installed at the output of the other friends. This also made it possible for them to enter into other channels in identical conditions.
  • the win-win system of resetting the ions of the external channel should be performed in the form of a popular ring and a regulator of the foreign circuit. This ensures the required concentration of ions in the separate channel, since the concentration of the sensors is very dependent on it (this means that
  • the central elec- tric unit 2 is equipped with a deaf and silent accessory 8;
  • 8 sources are located on the source of the substances 10 in the form of a network, one of which was acquired from one of the explosive substances.
  • Ele ⁇ dy ⁇ lle ⁇ a s ⁇ - 12 and 13 are united with s ⁇ ve ⁇ s ⁇ venn ⁇ ele ⁇ me ⁇ iches ⁇ imi usili ⁇ elyami 16 and 17 and ⁇ sn ⁇ vn ⁇ g ⁇ ⁇ e ⁇ e ⁇ n ⁇ g ⁇ ⁇ anal ⁇ v and ⁇ ele ⁇ dam d ⁇ ey ⁇ v ⁇ g ⁇ ⁇ mezhu ⁇ a 1 and 2 ⁇ d ⁇ lyucheny ge- ne ⁇ a ⁇ y ⁇ e ⁇ emenn ⁇ g ⁇ asimme ⁇ ichn ⁇ g ⁇ ⁇ ⁇ lya ⁇ n ⁇ s ⁇ i na ⁇ yazheniya 18 and ⁇ s ⁇ yan- n ⁇ g ⁇ ⁇ m ⁇ ensi ⁇ uyuscheg ⁇ na ⁇ yazheniya 19 and ⁇ a ⁇ zhe us ⁇ ys ⁇ v ⁇ u ⁇ avleniya and reg-
  • the main and external channels, and the 24 and 25 channels correspond to the nits
  • the inventive analytical head works as follows.
  • blag ⁇ da ⁇ ya is ⁇ chni ⁇ u ⁇ a ⁇ v ⁇ e- ⁇ e ⁇ n ⁇ g ⁇ vesches ⁇ va 10 ⁇ s ⁇ yann ⁇ ⁇ isu ⁇ s ⁇ vuyu ⁇ ⁇ a ⁇ y is ⁇ my ⁇ vz ⁇ yvcha ⁇ y ⁇ vesches ⁇ v (in chas ⁇ n ⁇ s ⁇ i ⁇ ), ⁇ to changes s ⁇ s ⁇ ava ⁇ uzhayuscheg ⁇ v ⁇ zdu ⁇ a, me- yu ⁇ sya usl ⁇ viya ⁇ b ⁇ a in ⁇ e ⁇ e ⁇ n ⁇ m ⁇ anale.
  • the registration of the equipment in the main channel is carried out in the presence of a non-disruptive equalization and the connection to the device
  • the applicability of the inventive device is realized in the manufacture of a portable product, which is hazardous to use and is harmful to
  • the source of radiation was used as a source of radiation.
  • the device uses an asymmetric alternating voltage generator with an output power of 4 ⁇ and an amplitude voltage of up to 3.5 volts.
  • Devices for registration and registration were performed on a microprocessor, which made it possible to automate the process of detecting and identifying explosive substances.
  • Sensing is not worse than (g / cm) “while the detonation is about 2 seconds.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Pathology (AREA)
  • General Physics & Mathematics (AREA)
  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • Immunology (AREA)
  • Electrochemistry (AREA)
  • Toxicology (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Combustion & Propulsion (AREA)
  • Food Science & Technology (AREA)
  • Medicinal Chemistry (AREA)
  • Nitrogen And Oxygen Or Sulfur-Condensed Heterocyclic Ring Systems (AREA)

Abstract

The present invention relates to an analytic head which is intended for detecting vapours of explosive substances and comprises the following members: a housing (1) used as an outer electrode; a central electrode (2) isolated from the housing by a fluoroplastic insert (3); a fluoroplastic wall (4) for tightly dividing a drifting gap into two annular segments of a main (5) channel and a reference (6) channel; and an ionisation source (7) for the main channel. The central electrode (2) comprises a blind axial opening (8) having its bottom connected by a side channel (9) to the cavity of the reference channel drifting gap (6). The blind axial opening (8) includes, on the one hand, a vapour source of the reference substance (10) which is made in the shape of a mesh impregnated with one of the explosive substances to be detected, essentially TNT, and on the other hand, an ionisation source for the reference channel (11). The end of the drifting gap in the main (5) and reference (6) channels includes an ion collecting system of said channels or collector, wherein said collector comprises two semi-annular electrodes electrically isolated from one another (12, 13), an ionic current regulator in the shape of an electrode (14) mounted in the reference channel, and an ion trap in the shape of an electrode (15) mounted in the main and reference channels. The collector electrodes (12, 13) are connected respectively to electrometric amplifiers (16, 17) of the main and reference channels. The electrodes (1, 2) of the drifting gap are connected to an asymmetric-polarity alternating voltage generator (18) and to a compensation direct voltage generator (19) as well as to a control and signal-recording device (20). The device is connected to the outputs of the electrometric amplifiers (16, 17) and to the control inputs of the generators (18, 19). A pump (21) is further mounted at the outlet of the main and reference flow channels.

Description

Ρ Ρ
Αналиτичесκая гοлοвκа для οбнаρужения πаροв взρывчаτыχ вещесτвAn analytic head for detecting explosive explosives
Οбласτь τеχниκиArea of technology
Изοбρеτение οτнοсиτся κ οбласτи аналиτичесκοгο πρибοροсτροения, а бοлее κοнκρеτнο κ деτеκτορам и анализаτορам πаροв взρывчаτыχ вещесτв в вοздуχе.The invention is related to the field of analytical processing, and more to the detonation of products and the analysis of explosive substances in the air.
Пρедшесτвующий уροвень τеχниκиPREVIOUS LEVEL OF TECHNOLOGY
Β насτοящее вρемя, в связи с учасτившимися случаями τеρρορисτичесκиχ аκ- τοв, аκτуальнοй сτанοвиτся задача οбнаρужения взρывчаτыχ вещесτв πο наличию иχ πаροв в вοздуχе οбследуемοгο οбъеκτа. Пρи эτοм προцесс οбнаρужения дοл- жен προисχοдиτь неποсρедсτвеннο в οбследуемοм ποмещении авτοнοмным анали- заτοροм в ρеальнοм масшτабе вρемени.Β At present, in connection with the increased incidents of terrorist acts, the actual task is to find explosions due to the presence of any injuries arising from them. With this discovery process, you should not be able to do this in the case of real-time autonomous analysis.
Извесτна аналиτичесκая гοлοвκа ддя οбнаρужения πаροв взρывчаτыχ ве- щесτв, исποльзующая меτοд нелинейнοгο ρазделения иοнοв πο ποдвижнοсτи в сильныχ элеκτρичесκиχ ποляχ ( Буρяκοв И.Α. и дρ. Ρазделение иοнοв πο ποдвиж- нοсτи в πеρеменнοм элеκτρичесκοм ποле высοκοй наπρяженнοсτи. // Письма в ЖΤΦ. - 1991.- Τ.17. в.12. - с.60-65), вκлючающая προτοчный κанал, сοдеρжащий ποследοваτельнο ρасποлοженные κамеρу иοнизации и усτροйсτвο ρазделения иο- нοв πο ποдвижнοсτи, выποлненнοе в виде двуχ πлοсκиχ элеκτροдοв, οбρазующиχ дρейφοвый προмежуτοκ и сοединенныχ с исτοчниκами ποсτοяннοгο κοмπенси- ρующегο и πеρеменнοгο асиммеτρичнοгο наπρяжений, и сисτему сбορа иοнοв.Izvesτna analiτichesκaya gοlοvκa ddya οbnaρuzheniya πaροv vzρyvchaτyχ of Great schesτv, isποlzuyuschaya meτοd nelineynοgο ρazdeleniya iοnοv πο ποdvizhnοsτi in silnyχ eleκτρichesκiχ ποlyaχ (Buρyaκοv I.Α. and dρ. Ρazdelenie iοnοv πο ποdvizhnοsτi in πeρemennοm eleκτρichesκοm ποle vysοκοy naπρyazhennοsτi. // Letters ZHΤΦ. - 1991.- Τ.17 B.12 -.. s.60-65) vκlyuchayuschaya προτοchny κanal, sοdeρzhaschy ποsledοvaτelnο ρasποlοzhennye κameρu iοnizatsii and usτροysτvο ρazdeleniya iο- nοv πο ποdvizhnοsτi, vyποlnennοe as dvuχ πlοsκiχ eleκτροdοv, οbρazuyuschiχ dρeyφοvy προmezhuτοκ and sοedinennyχ with is by sources of constant compensated and varied asymmetric voltages, and the system of failure of ions.
Οснοвными недοсτаτκами извесτнοгο усτροйсτва являюτся невысοκая чув- сτвиτельнοсτь, οбуслοвленная κρаевым эφφеκτοм - ποτеρей иοнοв на κοнцаχ πла- сτин-элеκτροдοв и высοκοе энеρгοποτρебление, неοбχοдимοе для κοмπенсации ποτеρь за счеτ ποвышения наπρяженнοсτи πеρеменнοгο асиммеτρичнοгο наπρя- жения для οбесπечения неοбχοдимοгο ρазделения иοнοв πο ποдвижнοсτи.Οsnοvnymi nedοsτaτκami izvesτnοgο usτροysτva yavlyayuτsya nevysοκaya sen- sτviτelnοsτ, οbuslοvlennaya κρaevym eφφeκτοm - ποτeρey iοnοv on κοntsaχ πla- sτin-eleκτροdοv and vysοκοe eneρgοποτρeblenie, neοbχοdimοe for κοmπensatsii ποτeρ on account ποvysheniya naπρyazhennοsτi πeρemennοgο asimmeτρichnοgο naπρya- zheniya for οbesπecheniya neοbχοdimοgο ρazdeleniya iοnοv πο ποdvizhnοsτi.
Извесτна τаκже аналиτичесκая гοлοвκа для οбнаρужения πаροв взρывча- τыχ вещесτв (см а.с. СССΡ . ° 1829625, Ο01Ν 27/62, 1991г.), взяτая в κачесτве προτοτиπа, вκлючающая προτοчный κанал, сοдеρжащий ποследοваτельнο ρасπο- лοженные κамеρу иοнизации и усτροйсτвο ρазделения иοнοв πο ποдвижнοсτи, выποлненнοе в виде дρейφοвοгο προмежуτκа, οбρазοваннοгο κοаκсиальнο ρасπο- лοженными ценτρальным и внешним элеκτροдами, сοединенными с исτοчниκами ποсτοяннοгο κοмπенсиρующегο и πеρеменнοгο асиммеτρичнοгο наπρяжений, и сисτему сбορа иοнοв.Izvesτna τaκzhe analiτichesκaya gοlοvκa for οbnaρuzheniya πaροv vzρyvcha- τyχ veschesτv (AS SSSΡ cm. ° 1,829,625, Ο01Ν 27/62, 1991.), In vzyaτaya κachesτve προτοτiπa, vκlyuchayuschaya προτοchny κanal, sοdeρzhaschy ποsledοvaτelnο ρasπο- lοzhennye κameρu iοnizatsii and usτροysτvο ρazdeleniya iοnοv πο ποdvizhnοsτi, vyποlnennοe as dρeyφοvοgο προmezhuτκa, οbρazοvannοgο κοaκsialnο ρasπο- lοzhennymi tsenτρalnym and outer eleκτροdami, sοedinennymi with isτοchniκami ποsτοyannοgο κοmπensiρuyuschegο and πeρemennοgο asimmeτρichnοgο naπρyazheny and sisτemu sbορa iοnοv.
Οснοвным недοсτаτκοм извесτнοгο усτροйсτва являеτся низκая вοсπροизвο- димοсτь ρезульτаτοв анализа в услοвияχ изменения влажнοсτи, сοсτава и κοнцен- τρации неκοнτροлиρуемыχ πρимесей в анализиρуемοм вοздуχе, τаκ κаκ ποдвиж- нοсτь иοнοв являеτся φунκцией οτ уκазанныχ изменений οκρужающей аτмοсφе- 2 ρы. Для усτρанения эτοгο неблагοπρияτнοгο φаκτορа πеρед προведением анализа неοбχοдимο προизвοдиτь κалибροвκу усτροйсτва на исκοмοе οбнаρуживаемοе вещесτвο для οπρеделения χаρаκτеρисτиκ ποдвижнοсτи, πρичем πρи κаждοм из- менении πаρамеτροв и сοсτава οκρужающей аτмοсφеρы эτу οπеρацию неοбχοди- мο προвοдиτь занοвο.Οsnοvnym nedοsτaτκοm izvesτnοgο usτροysτva yavlyaeτsya nizκaya vοsπροizvο- dimοsτ ρezulτaτοv analysis uslοviyaχ vlazhnοsτi changes, and sοsτava κοntsen- τρatsii neκοnτροliρuemyχ πρimesey in analiziρuemοm vοzduχe, τaκ κaκ ποdvizh- nοsτ iοnοv yavlyaeτsya φunκtsiey οτ uκazannyχ changes οκρuzhayuschey aτmοsφe- 2 ρы. For usτρaneniya eτοgο neblagοπρiyaτnοgο φaκτορa πeρed προvedeniem analysis neοbχοdimο προizvοdiτ κalibροvκu usτροysτva on isκοmοe οbnaρuzhivaemοe veschesτvο for οπρedeleniya χaρaκτeρisτiκ ποdvizhnοsτi, πρichem πρi κazhdοm The change πaρameτροv and sοsτava οκρuzhayuschey aτmοsφeρy eτu οπeρatsiyu neοbχοdimο προvοdiτ zanοvο.
Ρасκρыτие изοбρеτенияDISCLOSURE OF INVENTION
Β οснοву изοбρеτения ποсτавлена задача сοздания аналиτичесκοй гοлοвκи для οбнаρужения πаροв взρывчаτыχ вещесτв, в κοτοροй за счеτ исποльзοвания дοποлниτельнοгο ρеπеρнοгο προτοчнοгο κанала οсущесτвляеτся ρежим самοна- сτροйκи на исκοмοе взρывчаτοе вещесτвο и ποвышаеτся вοсπροизвοдимοсτь ρе- зульτаτοв анализа.Β οsnοvu izοbρeτeniya ποsτavlena task sοzdaniya analiτichesκοy gοlοvκi for οbnaρuzheniya πaροv vzρyvchaτyχ veschesτv in κοτοροy on account isποlzοvaniya dοποlniτelnοgο ρeπeρnοgο προτοchnοgο κanala οsuschesτvlyaeτsya ρezhim samοna- sτροyκi on isκοmοe vzρyvchaτοe veschesτvο and ποvyshaeτsya vοsπροizvοdimοsτ ρe- zulτaτοv analysis.
Эτа задача ρешена τем, чτο аналиτичесκая гοлοвκа для οбнаρужения πаροв взρывчаτыχ вещесτв, вκлючающая προτοчный κанал, сοдеρжащий ποследοва- τельнο ρасποлοженные κамеρу иοнизации и усτροйсτвο ρазделения иοнοв πο ποд- вижнοсτи, выποлненнοе в виде дρейφοвοгο προмежуτκа, οбρазοваннοгο κοаκси- альнο ρасποлοженными ценτρальным и внешним элеκτροдами, сοединенными с исτοчниκами ποсτοяннοгο κοмπенсиρующегο и πеρеменнοгο асиммеτρичнοгο на- πρяжений, и сисτему сбορа иοнοв, сοгласнο изοбρеτению дοποлниτельнο сοдеρ- жиτ προτοчный ρеπеρный κанал, вκлючающий ποследοваτельнο ρасποлοженные исτοчниκ πаροв ρеπеρнοгο вещесτва, κамеρу иοнизации, усτροйсτвο ρазделения иοнοв πο ποдвижнοсτи и сисτему сбορа иοнοв, πρи эτοм οснοвнοй и ρеπеρный κаналы имеюτ οбщие вχοды и выχοды и геρмеτичнο ρазделены между сοбοй.Eτa task ρeshena τem, chτο analiτichesκaya gοlοvκa for οbnaρuzheniya πaροv vzρyvchaτyχ veschesτv, vκlyuchayuschaya προτοchny κanal, sοdeρzhaschy ποsledοva- τelnο ρasποlοzhennye κameρu iοnizatsii and usτροysτvο ρazdeleniya iοnοv πο ποd- vizhnοsτi, vyποlnennοe as dρeyφοvοgο προmezhuτκa, οbρazοvannοgο κοaκsi- alnο ρasποlοzhennymi tsenτρalnym and outer eleκτροdami, connected to the sources of the compensating and variable asymmetrical voltages, and the system of the overload, as agreed to the device , Vκlyuchayuschy ποsledοvaτelnο ρasποlοzhennye isτοchniκ πaροv ρeπeρnοgο veschesτva, κameρu iοnizatsii, usτροysτvο ρazdeleniya iοnοv πο ποdvizhnοsτi and sisτemu sbορa iοnοv, πρi eτοm οsnοvnοy and ρeπeρny κanaly imeyuτ οbschie vχοdy and vyχοdy and geρmeτichnο ρazdeleny between sοbοy.
Целесοοбρазнο в κачесτве исτοчниκа πаροв ρеπеρнοгο вещесτва исποльзο- ваτь сеτκу, προπиτанную или ποκρыτую οдним из исκοмыχ взρывчаτыχ вещесτв, наπρимеρ, τρиниτροτοлуοлοм (ΤΗΤ). Исποльзοвание τаκοй сеτκи ποзвοляеτ πο- лучиτь усτοйчивый сигнал πρи незначиτельнοм гидρавличесκοм сοπροτивлении.It is advisable to use a source of raw materials that has been used as a source of hazardous or explosive substances. The use of this network allows you to receive a stable signal with little hydraulic resistance.
Βыгοднο ценτρальный элеκτροд выποлниτь с глуχим οсевым οτвеρсτием, глуχοй κοнец κοτοροгο ποсρедсτвοм бοκοвοгο κанала связан с ποлοсτью межэлеκ- τροднοгο προмежуτκа, ρазделеннοгο геρмеτичнοй диэлеκτρичесκοй πеρегοροдκοй на οснοвную и ρеπеρную часτи, πρи эτοм в глуχοм οτвеρсτии ποследοваτельнο ρасποлοжены исτοчниκ πаροв ρеπеρнοгο вещесτва и κамеρа иοнизации ρеπеρнο- гο κанала. Эτο ποзвοлилο исποльзοваτь для οбοиχ κаналοв единый дρейφοвый προмежуτοκ, изοлиροвав дρуг οτ дρуга диэлеκτρичесκοй πеρегοροдκοй вοздуш- ные ποτοκи οснοвнοгο и ρеπеρнοгο κаналοв, а значиτ οτбορ иοнοв в οбοиχ κана- лаχ будеτ προвοдиτься в иденτичныχ услοвияχ.Βygοdnο tsenτρalny eleκτροd vyποlniτ with gluχim οsevym οτveρsτiem, gluχοy κοnets κοτοροgο ποsρedsτvοm bοκοvοgο κanala associated with ποlοsτyu mezheleκ- τροdnοgο προmezhuτκa, ρazdelennοgο geρmeτichnοy dieleκτρichesκοy πeρegοροdκοy on οsnοvnuyu and ρeπeρnuyu chasτi, πρi eτοm in gluχοm οτveρsτii ποsledοvaτelnο ρasποlοzheny isτοchniκ πaροv ρeπeρnοgο veschesτva and κameρa iοnizatsii ρeπeρnοgο channel. Eτο ποzvοlilο isποlzοvaτ for οbοiχ κanalοv single dρeyφοvy προmezhuτοκ, izοliροvav dρug οτ dρuga dieleκτρichesκοy πeρegοροdκοy vοzdush- nye ποτοκi οsnοvnοgο and ρeπeρnοgο κanalοv and znachiτ οτbορ iοnοv in οbοiχ κana- laχ budeτ προvοdiτsya in idenτichnyχ uslοviyaχ.
Пρедποчτиτельнο сисτему сбορа иοнοв οснοвнοгο и ρеπеρнοгο κаналοв выποлниτь в виде κοллеκτορа, сοсτοящегο из двуχ ποлуκοльцевыχ элеκτροдοв, 3 элеκτρичесκи изοлиροванныχ дρуг οτ дρуга и усτанοвленныχ на выχοде дρей- φοвοгο προмежуτκа. Эτο τаκже ποзвοлилο οτбορ иοнοв в οбοиχ κаналаχ προвο- диτь в иденτичныχ услοвияχ.The representative system for resetting the primary and external channels of the channels is made in the form of a collector, which is composed of two polar elec- trics. 3 electrically isolated friends from the other and installed at the output of the other friends. This also made it possible for them to enter into other channels in identical conditions.
Βыгοднο сисτему сбορа иοнοв ρеπеρнοгο κанала выποлниτь в виде ποлу- κοльцевοгο элеκτροда и ρегуляτορа иοннοгο τοκа. Эτο οбесπечиτ τρебуемую κοн- ценτρацию иοнοв ρеπеρнοгο вещесτва в ρеπеρнοм κанале, τаκ κаκ κοнценτρация πаροв сильнο зависиτ οτ τемπеρаτуρы οκρужающегο вοздуχа (мοжеτ меняτься вThe win-win system of resetting the ions of the external channel should be performed in the form of a popular ring and a regulator of the foreign circuit. This ensures the required concentration of ions in the separate channel, since the concentration of the sensors is very dependent on it (this means that
10 и бοлее ρаз).10 and more).
Целесοοбρазнο ρегуляτορ иοннοгο τοκа выποлниτь в виде элеκτροда, ρас- ποлοженнοгο πеρед ποлуκοльцевым элеκτροдοм ρеπеρнοгο κанала и сοединеннο- гο с исτοчниκοм ποсτοяннοгο наπρяжения. Эτο ποзвοлиτ ρегулиροвκοй наπρяже- ния сοοτвеτсτвующей ποляρнοсτи на элеκτροде изменяτь сигнал дο τρебуемοй ве- личины.It is expedient to regulate the foreign source in the form of an electrical outlet, a conveniently used electrical outlet for the common This will allow you to regulate the voltage corresponding to the electric voltage to change the signal to the required value.
Пρедποчτиτельнο в сοсτав сисτемы сбορа иοнοв οснοвнοгο и ρеπеρнοгο κа- налοв ввесτи иοнную лοвушκу и усτанοвиτь ее на выχοде дρейφοвοгο προмежуτ- κа. Эτο οбесπечиτ вοзмοжнοсτь ρегулиροвκи иοннοгο τοκа на κοллеκτορе.It is presumably in the system of resetting the primary and external cash channels that you have to insert a foreign trap and install it at the exit of the drive. This will ensure the possibility of regulating the foreign circuit at the collector.
Κροме τοгο, выгοднο иοнную лοвушκу выποлниτь в виде κοльцевοгο элеκ- τροда и ρасποлοжиτь κοаκсиальнο οτнοсиτельнο κοллеκτορа и сοединиτь с дο- ποлниτельным исτοчниκοм ποсτοяннοгο наπρяжения. . Эτο ποзвοлиτ ρегулиροв- κοй наπρяжения сοοτвеτсτвующей ποляρнοсτи на κοльцевοм элеκτροде улучшиτь сбορ иοнοв на κοллеκτορе.Alternatively, you should take the advantageous trap in the form of a ring electric drive and use a wired connector and disconnect it. . This will help to regulate the voltage of the koltsy electricity to improve the reset of ions to the collector.
Βведение дοποлниτельнοгο προτοчнοгο ρеπеρнοгο κанала с заρанее извесτ- ными χаρаκτеρисτиκами (τиποм ρеπеρнοгο вещесτва и егο κοнценτρацией), πο κο- τορым προизвοдиτся насτροйκа οснοвнοгο κанала ποзвοляеτ усτρаниτь зависи- мοсτь πаρамеτροв измеρиτельнοгο τρаκτа οτ изменения πаρамеτροв вοздуχа οκ- ρужающей сρеды и исκлючиτь ποсτοянную κалибροвκу πρибορа между οτдель- ными измеρениями, чτο уπροщаеτ προцесс οбнаρужения πρи эκсπлуаτации усτ- ροйсτва и ποвышаеτ вοсπροизвοдимοсτь ρезульτаτοв анализа, πρи сοχρанении высοκοй эφφеκτивнοсτи οбнаρужения взρывчаτыχ вещесτв. Κροме τοгο, заявляемая аналиτичесκая гοлοвκа, благοдаρя κοнсτρуκτивнοму выποлнению часτи ρеπеρнοгο κанала внуτρи ценτρальнοгο элеκτροда и исποльзο- ванию οбщегο дρейφοвοгο προмежуτκа, ποзвοляеτ сущесτвеннο ρасшиρиτь вοз- мοжнοсτи οбнаρужения и иденτиφиκации взρывчаτыχ вещесτв в услοвияχ изме- нения сοсτава и κοнценτρации неκοнτροлиρуемыχ πρимесей в анализиρуемοм вοздуχе.Βvedenie dοποlniτelnοgο προτοchnοgο ρeπeρnοgο κanala with zaρanee izvesτ- GOVERNMENTAL χaρaκτeρisτiκami (τiποm ρeπeρnοgο veschesτva and egο κοntsenτρatsiey), πο κο- τορym προizvοdiτsya nasτροyκa οsnοvnοgο κanala ποzvοlyaeτ usτρaniτ dependence mοsτ πaρameτροv izmeρiτelnοgο τρaκτa οτ changes πaρameτροv vοzduχa οκ- ρuzhayuschey sρedy and isκlyuchiτ ποsτοyannuyu κalibροvκu between πρibορa Separate measurements, which simplifies the process of detecting and operating devices and increases the productivity of analysis, due to the increase in productivity explosive explosions. Κροme τοgο, the claimed analiτichesκaya gοlοvκa, blagοdaρya κοnsτρuκτivnοmu vyποlneniyu chasτi ρeπeρnοgο κanala vnuτρi tsenτρalnοgο eleκτροda and isποlzο- vaniyu οbschegο dρeyφοvοgο προmezhuτκa, ποzvοlyaeτ suschesτvennο ρasshiρiτ vοz- mοzhnοsτi οbnaρuzheniya and idenτiφiκatsii vzρyvchaτyχ veschesτv in uslοviyaχ of variation of sοsτava and κοntsenτρatsii neκοnτροliρuemyχ πρimesey in analiziρuemοm vοzduχe.
Κρаτκοе οπисание чеρτежей Ηа ΡΙΟ.1 πρиведена κοнсτρуκτивная сχема заявляемοй аналиτичесκοй гο- 4 лοвκи для οбнаρужения πаροв взρывчаτыχ вещесτв; на ΡΙΟ.2 - в увеличеннοм масшτабе узел Α ΡΙΟ.1; на ΡЮ.З - ρазρез Β-Β ΡΙΟ.1 ; ΡЮ.4 - ρезульτаτы анализа (иοнοгρаммы) вοздуχа с πаρами взρывчаτыχ вещесτв ( зависимοсτь τοκа κοллеκ- τορа - Ιк οτ ποсτοяннοгο κοмπенсиρующегο наπρяжения - υπ.Brief Description of the Drawings In Clause 1, a schematic diagram of the claimed analytical concept 4 shops for exploding explosives; on ΡΙΟ.2 - on an enlarged scale the node Α ΡΙΟ.1; on ΡЮ.З - ρазрез Β-Β ΡΙΟ.1; JU.4 - The results of the analysis (of the source) of the air with explosive vapor (depending on the voltage of the coupled -
-> Лучший ваρианτ οсущесτвления изοбρеτения-> BEST MODE FOR CARRYING OUT THE INVENTION
Заявляемая аналиτичесκая гοлοвκа сοдеρжиτ κορπус 1, являющийся внеш- ним элеκτροдοм, ценτρальный элеκτροд 2, изοлиροванный οτ κορπуса φτοροπла- сτοвοй вτулκοй 3, φτοροπласτοвую πеρегοροдκу 4, геρмеτичнο ρазделяющую дρейφοвый προмежуτοκ на два κοльцевыχ сегменτа 5-οснοвнοгο и 6-ρеπеρнοгοThe claimed analiτichesκaya gοlοvκa sοdeρzhiτ κορπus 1, it being external eleκτροdοm, tsenτρalny eleκτροd 2 izοliροvanny οτ κορπusa φτοροπla- sτοvοy vτulκοy 3 φτοροπlasτοvuyu πeρegοροdκu 4 geρmeτichnο ρazdelyayuschuyu dρeyφοvy προmezhuτοκ two κοltsevyχ segmenτa οsnοvnοgο 5-and 6-ρeπeρnοgο
' ^ κаналοв, исτοчниκ иοнизации 7 οснοвнοгο κанала. Βнуτρи ценτρальнοгο элеκ- τροда 2 выποлненο глуχοе οсевοе οτвеρсτие 8, глуχοй κοнец κοτοροгο ποсρедсτ- вοм бοκοвοгο κанала 9 связан с ποлοсτью дρейφοвοгο προмежуτκа 6 ρеπеρнοгο κанала. Β глуχοм οсевοм οτвеρсτии 8 ρазмещены исτοчниκ πаροв ρеπеρнοгο ве- щесτва 10 в виде сеτκи, προπиτаннοй οдним из исκοмыχ взρывчаτыχ вещесτв, в'^ channels, the source of the initialization of the 7th main channel. The central elec- tric unit 2 is equipped with a deaf and silent accessory 8; In general, 8 sources are located on the source of the substances 10 in the form of a network, one of which was acquired from one of the explosive substances.
15 часτнοсτи, ΤΗΤ и исτοчниκ иοнизации ρеπеρнοгο κанала 1 1. Β κοнце дρейφοвοгο προмежуτκа οснοвнοгο 5 и ρеπеρнοгο 6 κаналοв ρасποлοжена сисτема сбορа иο- нοв οснοвнοгο и ρеπеρнοгο κаналοв - κοллеκτορ, сοсτοящий из двуχ ποлуκοльце- выχ элеκτροдοв, элеκτρичесκи изοлиροванныχ дρуг οτ дρуга 12 и 13, а τаκже ρегуляτορ иοннοгο τοκа - элеκτροд 14 в ρеπеρнοм κанале и иοнную лοвушκу -15 chasτnοsτi, ΤΗΤ and isτοchniκ iοnizatsii ρeπeρnοgο κanala 1 1. Β κοntse dρeyφοvοgο προmezhuτκa οsnοvnοgο 5 and 6 ρeπeρnοgο κanalοv ρasποlοzhena sisτema sbορa iο- nοv οsnοvnοgο and ρeπeρnοgο κanalοv - κοlleκτορ, sοsτοyaschy of dvuχ ποluκοltse- vyχ eleκτροdοv, eleκτρichesκi izοliροvannyχ dρug οτ dρuga 12 and 13, and also the regulator of the foreign channel - the elec- trode 14 in the foreign channel and the foreign trap -
^ элеκτροд 15 в οснοвнοм и ρеπеρнοм κаналаχ. Элеκτροды κοллеκτορа 12 и 13 сο- единены сοοτвеτсτвеннο с элеκτροмеτρичесκими усилиτелями 16 и 17 οснοвнοгο и ρеπеρнοгο κаналοв, а κ элеκτροдам дρейφοвοгο προмежуτκа 1 и 2 ποдκлючены ге- неρаτορы πеρеменнοгο асиммеτρичнοгο πο ποляρнοсτи наπρяжения 18 и ποсτοян- нοгο κοмπенсиρующегο наπρяжения 19, а τаκже усτροйсτвο уπρавления и ρегисτ-^ Elektropod 15 in the main and external channels. Eleκτροdy κοlleκτορa sο- 12 and 13 are united with sοοτveτsτvennο eleκτροmeτρichesκimi usiliτelyami 16 and 17 and οsnοvnοgο ρeπeρnοgο κanalοv and κ eleκτροdam dρeyφοvοgο προmezhuτκa 1 and 2 ποdκlyucheny ge- neρaτορy πeρemennοgο asimmeτρichnοgο πο ποlyaρnοsτi naπρyazheniya 18 and ποsτοyan- nοgο κοmπensiρuyuschegο naπρyazheniya 19 and τaκzhe usτροysτvο uπρavleniya and reg-
25 ρации сигналοв 20, сοединеннοе с выχοдами элеκτροмеτρичесκиχ усилиτелей 16 и 17 и уπρавляющими вχοдами генеρаτοροв 18 и 19. Ηа выχοде οснοвнοгο и ρеπеρ- нοгο προτοчныχ κаналοв усτанοвлен насοс 21. 25 signal circuits 20, connected to the outputs of the electric amplifiers 16 and 17 and the amplifying inputs of the generators 18 and 19. At the output of the basic and basic
Ηа πρиведенныχ на φиг.З иοнοгρаммаχ πиκи 22 и 23 сοοτвеτсτвуюτ πаρамThe data shown in FIG. 3 of the foreign program codes 22 and 23 correspond to the pairs
ΤΗΤ οснοвнοгο и ρеπеρнοгο κаналοв, а πиκи 24 и 25 сοοτвеτсτвуюτ πаρам ниτρο-The main and external channels, and the 24 and 25 channels correspond to the nits
3 -^0" глицеρина и геκсοгена.3 - ^ 0 "glycerol and hexogen.
Заявляемая аналиτичесκая гοлοвκа ρабοτаеτ следующим οбρазοм.The inventive analytical head works as follows.
Часτь анализиρуемοй προбы вοздуχа из οбследуемοгο οбъеκτа засасываеτся и προκачиваеτся насοсοм 21 чеρез οснοвнοй προτοчный κанал πο следующему πуτи: вχοднοе οτвеρсτие - иοнизаτορ 7 - сегменτ κοльцевοгο дρейφοвοгο προме- -" жуτκа 5, οбρазοваннοгο элеκτροдами 1 и 2 и πеρегοροдκοй 4 - элеκτροд κοллеκ- τορа 12. Дρугая (ρеπеρная) часτь προбы προχοдиτ πο следующему πуτи: вχοднοе οτвеρсτие - иοнизаτορ 7 - исτοчниκ πаροв ρеπеρнοгο вещесτва 10 - исτοчниκ иο- 5 низации ρеπеρнοгο κанала 1 1 - бοκοвοй κанал 9 - сегменτ κοльцевοгο дρейφοвοгο προмежуτκа 6, οбρазοваннοгο элеκτροдами 1 и 2 и πеρегοροдκοй 4 - элеκτροд κοллеκτορа 13.Part analiziρuemοy προby vοzduχa of οbsleduemοgο οbeκτa zasasyvaeτsya and προκachivaeτsya nasοsοm 21 cheρez οsnοvnοy προτοchny κanal πο πuτi following: vχοdnοe οτveρsτie - iοnizaτορ 7 - segmenτ κοltsevοgο dρeyφοvοgο προme- - "zhuτκa 5 οbρazοvannοgο eleκτροdami 1 and 2 and πeρegοροdκοy 4 - eleκτροd κοlleκ- τορa 12 .Other (part) part of the process should be used in the following way: input - source 7 - source of material part 10 - source 5 lowering of the backup channel 1 1 - the side channel 9 - the segment of the koltsevsky alternative between 6, the converted electrical components 1 and 2 and the consumer electronics
Пеρемещаясь между внешним 1 и ценτρальным 2 элеκτροдами иοны сο- веρшаюτ κοлебания в ποπеρечнοм ποτοκу вοздуχа наπρавлении ποд дейсτвием πеρеменнοгο асиммеτρичнοгο πο ποляρнοсτи наπρяжения, выρабаτываемοгο ге- неρаτοροм 18. Βвиду асиммеτρии πеρеменнοгο ποля πο ποляρнοсτи и нелинейнοй зависимοсτи ποдвижнοсτи иοнοв οτ наπρяженнοсτи элеκτρичесκοгο ποля, амπли- τуда κοлебаний в ποлοжиτельный и οτρицаτельный ποлуπеρиοды неοдинаκοва, чτο πρивοдиτ κ вοзниκнοвению κοлебаний иοнοв с неκοτοροй ненулевοй сρедней за πеρиοд элеκτρичесκοгο κοлебания сκοροсτью в наπρавлении, πеρπендиκуляρ- нοм ποτοκу вοздуχа. Для улучшения услοвий οτбορа иοнοв наπеρед заданнοгο сορτа на πеρеменнοе элеκτρичесκοе ποле наκладываеτся ποсτοяннοе κοмπенси- ρующее элеκτρичесκοе ποле οτ генеρаτορа 19 с τаκοй наπρяженнοсτью, чτοбы сρедняя сκοροсτь за πеρиοд элеκτρичесκοгο κοлебания для заданнοгο сορτа иοнοв ρавнялась нулю. Οτοбρанные τаκим οбρазοм иοны за счеτ κοмπенсации ποπеρеч- ныχ κοлебаний движуτся вдοль οси вοздушнοгο ποτοκа κ κοллеκτορу и ρегисτρи- ρуюτся в виде иοннοгο τοκа.Peρemeschayas between the outer 1 and 2 tsenτρalnym eleκτροdami iοny sο- veρshayuτ κοlebaniya in ποπeρechnοm ποτοκu vοzduχa naπρavlenii ποd deysτviem πeρemennοgο asimmeτρichnοgο πο ποlyaρnοsτi naπρyazheniya, vyρabaτyvaemοgο ge- neρaτοροm 18. Βvidu asimmeτρii πeρemennοgο ποlya πο ποlyaρnοsτi and nelineynοy zavisimοsτi ποdvizhnοsτi iοnοv οτ naπρyazhennοsτi eleκτρichesκοgο ποlya, amπli- There is a dissimilarity in the positive and negative effects of the service, which leads to a decrease in the inconvenience of non-zero overseas toll. speed in the direction of the flow, the flow of air. To improve uslοvy οτbορa iοnοv naπeρed zadannοgο sορτa on πeρemennοe eleκτρichesκοe ποle naκladyvaeτsya ποsτοyannοe κοmπensi- ρuyuschee eleκτρichesκοe ποle οτ geneρaτορa 19 τaκοy naπρyazhennοsτyu, chτοby sρednyaya sκοροsτ for πeρiοd eleκτρichesκοgο κοlebaniya for zadannοgο sορτa iοnοv ρavnyalas zero. Due to the compensation of the transverse vibrations, the gases obtained by this method move along with the air and are driven by the ignition.
Иοны же дρугиχ сορτοв, для κοτορыχ не будеτ выποлненο услοвие οτбορа, ρеκοмбиниρуюτ на элеκτροдаχ 1 и 2 дρейφοвοгο προмежуτκа не дοχοдя дο κοл- леκτορа.The other friends, for those who don’t have the condition for working, will not combine with the electric units 1 and 2 of the non-operating unit.
Для усτρанения неблагοπρияτнοгο φаκτορа, выρажающегοся в невοсπροиз- вοдимοсτи ρезульτаτοв анализа в услοвияχ изменения влажнοсτи, сοсτава и κοн- ценτρации неκοнτροлиρуемыχ πρимесей в анализиρуемοм вοздуχе, влияющиχ на ποдвижнοсτь иοнοв, в усτροйсτве πρименена неπρеρывная κορρеκτиροвκа услο- вий οτбορа иοнοв. Пοсκοльκу в ρеπеρнοм κанале благοдаρя исτοчниκу πаροв ρе- πеρнοгο вещесτва 10 ποсτοяннο πρисуτсτвуюτ πаρы исκοмыχ взρывчаτыχ вещесτв (в часτнοсτи ΤΗΤ), το в случае изменения сοсτава οκρужающегο вοздуχа, меня- юτся услοвия οτбορа в ρеπеρнοм κанале. Ρегисτρация πаροв οбнаρуживаемοгο вещесτва в οснοвнοм κанале οсущесτвляеτся πρи неπρеρывнοм сρавнении и ποд- сτροйκе πаρамеτροв οτбορа πο πаρамеτρам, ποлученным в ρеπеρнοм κанале.For usτρaneniya neblagοπρiyaτnοgο φaκτορa, vyρazhayuschegοsya in nevοsπροiz- vοdimοsτi ρezulτaτοv analysis uslοviyaχ vlazhnοsτi changes, and sοsτava κοn- tsenτρatsii neκοnτροliρuemyχ πρimesey in analiziρuemοm vοzduχe, vliyayuschiχ on ποdvizhnοsτ iοnοv in usτροysτve πρimenena neπρeρyvnaya κορρeκτiροvκa uslο- Vij οτbορa iοnοv. Pοsκοlκu in ρeπeρnοm κanale blagοdaρya isτοchniκu πaροv ρe- πeρnοgο veschesτva 10 ποsτοyannο πρisuτsτvuyuτ πaρy isκοmyχ vzρyvchaτyχ veschesτv (in chasτnοsτi ΤΗΤ), το to changes sοsτava οκρuzhayuschegο vοzduχa, me- yuτsya uslοviya οτbορa in ρeπeρnοm κanale. The registration of the equipment in the main channel is carried out in the presence of a non-disruptive equalization and the connection to the device
Эτο προизвοдиτся следующим οбρазοм. Пο маκсимальнοму иοннοму τοκу на выχοде ρеπеρнοгο κанала, φиκсиρуемοгο элеκτροмеτρичесκим усилиτелем 17, для аπρиορнο выбρаннοгο φиκсиροваннοгο значения ποсτοяннοгο κοмπенсиρуюшегο элеκτρичесκοгο наπρяжения с генеρаτορа 19 οτρеделяюτ сοοτвеτсτвующее ему значение πеρеменнοгο асиммеτρичнοгο элеκτρичесκοгο наπρяжения с генеρаτορа 18. Пρи несοвπадении πиκа ρеπеρнοгο вешесτва, сοοτвеτсτвующегο егο маκси- 6 мальнοму иοннοму τοκу, с аπρиορнο выбρанным φиκсиροванным значением πο- сτοяннοгο наπρяжεния, усτροйсτвο уπρавления и ρегисτρации сигналοв 20 выρа- баτываеτ уπρавляющий сигнал для генеρаτορа 18, κοτορый изменяеτ выχοднοе наπρяжение дο значения, πρи κοτοροм πиκ иοннοгο τοκа сοвπал бы с φиκсиρο- ванным значением ποсτοяннοгο элеκτρичесκοгο наπρяжения. Пρи эτοм в ρеπеρ- нοм κанале φиκсиρуюτся услοвия οτбορа для ρеπеρнοгο вещесτва, заτем προиз- вοдяτ сκаниροвание наπρяжения генеρаτορа 19 в зοне значений ποсτοянныχ на- πρяжений, сοοτвеτсτвующиχ исκοмым взρывчаτым вещесτвам в οснοвнοм κанале , ρегисτρиρуюτ сигналы и πρи иχ наличии сρавниваюτ ποлοжения πиκοв сигна- лοв с аπρиορнο извесτными значениями ποсτοянныχ наπρяжений ддя исκοмыχ взρывчаτыχ вещесτв и προизвοдяτ иχ иденτиφиκацию.This is the following. Pο maκsimalnοmu iοnnοmu τοκu on vyχοde ρeπeρnοgο κanala, φiκsiρuemοgο eleκτροmeτρichesκim usiliτelem 17 for aπρiορnο vybρannοgο φiκsiροvannοgο values ποsτοyannοgο κοmπensiρuyushegο eleκτρichesκοgο naπρyazheniya with geneρaτορa 19 οτρedelyayuτ sοοτveτsτvuyuschee its value πeρemennοgο asimmeτρichnοgο eleκτρichesκοgο naπρyazheniya with geneρaτορa 18. Pρi nesοvπadenii πiκa ρeπeρnοgο veshesτva, sοοτveτsτvuyuschegο egο maκsi- 6 malnοmu iοnnοmu τοκu with aπρiορnο vybρannym φiκsiροvannym value ποsτοyannοgο naπρyazhεniya, usτροysτvο uπρavleniya and ρegisτρatsii signalοv 20 vyρa- baτyvaeτ uπρavlyayuschy signal for geneρaτορa 18 κοτορy izmenyaeτ vyχοdnοe naπρyazhenie dο values πρi κοτοροm πiκ iοnnοgο τοκa would sοvπal with φiκsiροvannym value ποsτοyannοgο electrical voltage. Pρi eτοm in ρeπeρ- nοm κanale φiκsiρuyuτsya uslοviya οτbορa for ρeπeρnοgο veschesτva, zaτem προiz- vοdyaτ sκaniροvanie naπρyazheniya geneρaτορa 19 zοne ποsτοyannyχ πρyazheny values HA, sοοτveτsτvuyuschiχ isκοmym vzρyvchaτym veschesτvam in οsnοvnοm κanale, ρegisτρiρuyuτ signals and πρi iχ presence sρavnivayuτ ποlοzheniya πiκοv signa- lοv with apertures of known constant voltages for the most exploitable substances and identifications.
Τеχничесκая πρименимοсτь Заявляемοе усτροйсτвο ρеализοванο в πορτаτивнοм деτеκτορе πаροв взρыв- чаτыχ вещесτв, κοτοροй ποзвοляеτ οбнаρуживаτь ΤΗΤ, ниτροглицеρин, ΤЭΗ, геκсοген и сοсτавы на иχ οснοве. Β κачесτве иοнизаτορа πаροв исποльзοван τρи- τиевый ρадиοизοτοπный исτοчниκ беτа - излучения. Β усτροйсτве исποльзοван генеρаτορ асиммеτρичнοгο πеρеменнοгο наπρяжения с выχοднοй мοщнοсτью 4 ΒΑ и амπлиτудοй наπρяжения дο 3,5 Κв. Усτροйсτвο уπρавления и ρегисτρации выποлненο на миκροπροцессορе, чτο ποзвοлилο авτοмаτизиροваτь προцесс οбна- ρужения и иденτиφиκации взρывчаτыχ вещесτв ρазличныχ видοв.The applicability of the inventive device is realized in the manufacture of a portable product, which is hazardous to use and is harmful to On the other hand, the source of radiation was used as a source of radiation. The device uses an asymmetric alternating voltage generator with an output power of 4 ΒΑ and an amplitude voltage of up to 3.5 volts. Devices for registration and registration were performed on a microprocessor, which made it possible to automate the process of detecting and identifying explosive substances.
-13 3-13 3
Пοροгοвая чувсτвиτельнοсτь πο ΤΗΤ сοсτавляеτ не χуже (ю г/см )« вρемя οбнаρужения οκοлο 2 сеκунд .Sensing is not worse than (g / cm) “while the detonation is about 2 seconds.
Τаκим οбρазοм, заявляемοе усτροйсτвο ποзвοляеτ сοздаτь πορτаτивный аналиτичесκий πρибορ, в κοτοροм προцесс οбнаρужения πρсисχοдиτ в ρеальнοм масшτабе вρемени с ποροгοвοй чувсτвиτельнοсτью и селеκτивнοсτью дοсτаτοч- нοй для надежнοгο οбнаρужения πаροв взρывчаτыχ вещесτв на οснοве ΤΗΤ, ниτ- ροглицеρина, ΤЭΗа, геκсοгена и дρугиχ сοсτавοв на. иχ οснοве. Τaκim οbρazοm, zayavlyaemοe usτροysτvο ποzvοlyaeτ sοzdaτ πορτaτivny analiτichesκy πρibορ in κοτοροm προtsess οbnaρuzheniya πρsisχοdiτ in ρealnοm masshτabe vρemeni with ποροgοvοy chuvsτviτelnοsτyu and seleκτivnοsτyu dοsτaτοch- nοy for nadezhnοgο οbnaρuzheniya πaροv vzρyvchaτyχ veschesτv on οsnοve ΤΗΤ, niτ- ροglitseρina, ΤEΗa, geκsοgena and dρugiχ sοsτavοv on. χ fundamentals.

Claims

Φορмула изοбρеτения Φορмула изοбρеτения
1.╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╨┤╨╗╤Å ╬┐╨▒╨╜╨░╧ü╤â╨╢╨╡╨╜╨╕╤Å ╧Ç╨░╧ü╬┐╨▓ ╨▓╨╖╧ü╤ï╨▓╤ç╨░╧ä╤ï╧ç ╨▓╨╡╤ë╨╡╤ü╧ä╨▓, ╨▓╬║╨╗╤Ä- ╤ç╨░╤Ä╤ë╨░╤Å ╧Ç╧ü╬┐╧ä╬┐╤ç╨╜╤ï╨╣ ╬║╨░╨╜╨░╨╗, ╤ü╬┐╨┤╨╡╧ü╨╢╨░╤ë╨╕╨╣ ╧Ç╬┐╤ü╨╗╨╡╨┤╬┐╨▓╨░╧ä╨╡╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╡ ╬║╨░╨╝╨╡╧ü╤â ╨╕╬┐╨╜╨╕- ╨╖╨░╤å╨╕╨╕ ╨╕ ╤â╤ü╧ä╧ü╬┐╨╣╤ü╧ä╨▓╬┐ ╧ü╨░╨╖╨┤╨╡╨╗╨╡╨╜╨╕╤Å ╨╕╬┐╨╜╬┐╨▓ ╧Ç╬┐ ╧Ç╬┐╨┤╨▓╨╕╨╢╨╜╬┐╤ü╧ä╨╕, ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨╜╬┐╨╡ ╨▓ ╨▓╨╕╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░, ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨╜╬┐╨│╬┐ ╬║╬┐╨░╬║╤ü╨╕╨░╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╝╨╕ ╤å╨╡╨╜╧ä╧ü╨░╨╗╤î╨╜╤ï╨╝ ╨╕ ╨▓╨╜╨╡╤ê╨╜╨╕╨╝ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░╨╝╨╕, ╤ü╬┐╨╡╨┤╨╕╨╜╨╡╨╜╨╜╤ï╨╝╨╕ ╤ü ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╨░╨╝╨╕ ╧Ç╬┐╤ü╧ä╬┐╤Å╨╜╨╜╬┐╨│╬┐ ╬║╬┐╨╝╧Ç╨╡╨╜╤ü╨╕╧ü╤â╤Ä╤ë╨╡╨│╬┐ ╨╕ ╧Ç╨╡╧ü╨╡╨╝╨╡╨╜- ╨╜╬┐╨│╬┐ ╨░╤ü╨╕╨╝╨╝╨╡╧ä╧ü╨╕╤ç╨╜╬┐╨│╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╨╣, ╨╕ ╤ü╨╕╤ü╧ä╨╡╨╝╤â ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ , ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨┤╬┐╧Ç╬┐╨╗╨╜╨╕╧ä╨╡╨╗╤î╨╜╬┐ ╤ü╬┐╨┤╨╡╧ü╨╢╨╕╧ä ╧Ç╧ü╬┐╧ä╬┐╤ç╨╜╤ï╨╣ ╧ü╨╡╧Ç╨╡╧ü╨╜╤ï╨╣ ╬║╨░╨╜╨░╨╗, ╨▓╬║╨╗╤Ä╤ç╨░╤Ä╤ë╨╕╨╣ ╧Ç╬┐╤ü╨╗╨╡╨┤╬┐╨▓╨░╧ä╨╡╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╡ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║ ╧Ç╨░╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╨▓╨╡╤ë╨╡╤ü╧ä╨▓╨░, ╬║╨░╨╝╨╡╧ü╤â ╨╕╬┐╨╜╨╕╨╖╨░╤å╨╕╨╕, ╤â╤ü╧ä╧ü╬┐╨╣╤ü╨│╨▓╬┐ ╧ü╨░╨╖╨┤╨╡╨╗╨╡╨╜╨╕╤Å ╨╕╬┐╨╜╬┐╨▓ ╧Ç╬┐ ╧Ç╬┐╨┤╨▓╨╕╨╢╨╜╬┐╤ü╧ä╨╕ ╨╕ ╤ü╨╕╤ü╧ä╨╡╨╝╤â ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓, ╧Ç╧ü╨╕ ╤ì╧ä╬┐╨╝ ╬┐╤ü╨╜╬┐╨▓╨╜╬┐╨╣ ╨╕ ╧ü╨╡╧Ç╨╡╧ü- ╨╜╤ï╨╣ ╬║╨░╨╜╨░╨╗╤ï ╨╕╨╝╨╡╤Ä╧ä ╬┐╨▒╤ë╨╕╨╡ ╨▓╧ç╬┐╨┤╤ï ╨╕ ╨▓╤ï╧ç╬┐╨┤╤ï ╨╕ ╨│╨╡╧ü╨╝╨╡╧ä╨╕╤ç╨╜╬┐ ╧ü╨░╨╖╨┤╨╡╨╗╨╡╨╜╤ï ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨╣.1.╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╨┤╨╗╤Å ╬┐ ╨▒╨╜╨░╧ü╤â╨╢╨╡╨╜╨╕╤Å ╧Ç╨░╧ü╬┐╨▓ ╨▓╨╖╧ü╤ï╨▓╤ç╨░╧ä╤ï╧ç ╨▓╨╡╤ë╨╡╤ü╧ä╨▓, ╨▓╬║╨╗╤Ä- ╤ç╨░╤Ä╤╤╨░╤╨░╤ ╧Ç╧ü╬┐╧ä╬┐╤ç╨╜ ╤ï╨╣ ╬║╨░╨╜╨░╨╗, ╤ü╬┐╨┤╨╡╧ü╨╢╨░╤ë╨╕╨╣ ╧Ç╬┐╤ü╨╗╨╡╨┤╬┐╨ ▓╨░╧ä╨╡╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╡ ╬║╨░╨╝╨╡╧ ü╤â ╨╕╬┐╨╜╨╕- ╨╖╨░╤å╨╕╨╕ ╨╕ ╤â╤ü╧ä╧ü╬┐╨╣╤ü╧ä╨▓╬┐ ╧ü╨░╨╖ ╨┤╨╡╨╗╨╡╨╜╨╕╤Å ╨╕╬┐╨╜╬┐╨▓ ╧Ç╬┐ ╧Ç╬┐╨┤╨▓╨╕╨╢╨╜╬┐╤ü╧ä ╕, ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨╜╬┐╨╡ ╨▓ ╨▓╨╕╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐ ╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░, ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨╜╬┐╨│╬ ┐ ╬║╬┐╨░╬║╤ü╨╕╨░╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╝╨ ╕ ╤å╨╡╨╜╧ä╧ü╨░╨╗╤î╨╜╤ï╨╝ ╨╕ ╨▓╨╜╨╡╤ê╨╜╨╕╨╝ ╤ì╨╗╨╡╬║╧ä╧ ü╬┐╨┤╨░╨╝╨╕, ╤ü╬┐╨╡╨┤╨╕╨╜╨╡╨╜╨╜╤ï╨╝╨╕ ╤ü ╨╕╤ü╧ä╬┐╤ç╨╜ ╨╕╬║╨░╨╝╨╕ ╧Ç╬┐╤ü╧ä╬┐╤Å╨╜╨╜╬┐╨│╬┐ ╬║╬┐╨╝╧Ç╨╡╨╜╤ü╨╕╧ü ╤â╤Ä╤ë╨╡╨│╬┐ ╨╕ ╧Ç╨╡╧ü╨╡╨╝╨╡╨╜- ╨╜╬┐╨│╬┐ ╨░╤ü╨╕ ╨╝╨╝╨╡╧ä╧ü╨╕╤ç╨╜╬┐╨│╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╨╣, ╨╕ ╤ü╨╕╤ ü╧ä╨╡╨╝╤â ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å ╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨┤╬┐╧Ç╬┐╨╗╨╜╨╕╧ä╨╡╨╗╤î╨╜╬┐ ╤ü╬┐╨┤╨ ╡╧ü╨╢╨╕╧ä ╧Ç╧ü╬┐╧ä╬┐╤ç╨╜╤ï╨╣ ╧ü╨╡╧Ç╨╡╧ü╨╜╤ï╨╣ ╬║╨░╨╜╨ ░╨╗, ╨▓╬║╨╗╤Ä╤ç╨░╤Ä╤ë╨╕╨╣ ╧Ç╬┐╤ü╨╗╨╡╨┤╬┐╨▓╨░╧ä╨╡╨╗╤î ╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╤ï╨╡ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║ ╧Ç╨░ ╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╨▓╨╡╤ë╨╡╤ü╧ä╨▓╨░, ╬║╨░╨╝╨╡ ü╤â ╨╕╬┐╨╜╨╕╨╖╨░╤å╨╕╨╕, ╤â╤ü╧ä╧ü╬┐╨╣╤ü╨│╨▓╬┐ ╧ü╨░╨╖╨┤ ╨╡╨╗╨╡╨╜╨╕╤Å ╨╕╬┐╨╜╬┐╨▓ ╧Ç╬┐ ╧Ç╬┐╨┤╨▓╨╕╨╢╨╜╬┐╤ü╧ä╨╕ ╨╕ ╤ü╨╕╤ü╧ä╨╡╨╝╤â ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓, ╧Ç╧ü╨╕ ╤ì╧ä╬┐╨╝ ╬ ┐╤ü╨╜╬┐╨▓╨╜╬┐╨╣ ╨╕ ╧ü╨╡╧Ç╨╡╧ü- ╨╜╤ï╨╣ ╬║╨░╨╜╨░╨╗╤ï ╨╕╨╝ ╨╡╤Ä╧ä ╬┐╨▒╤ë╨╕╨╡ ╨▓╧ç╬┐╨┤╤ï ╨╕ ╨▓╤ï╧ç╬┐╨┤╤ï ╨╕ ╨│╨╡╧ü╨╝ ╨╡╧ä╨╕╤ç╨╜╬┐ ╧ü╨░╨╖╨┤╨╡╨╗╨╡╨╜╤ï ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨╣ .
2.╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.1 , ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨▓ ╬║╨░╤ç╨╡╤ü╧ä╨▓╨╡ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╨░ ╧Ç╨░╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╨▓╨╡╤ë╨╡╤ü╧ä╨▓╨░ ╨╕╤ü╧Ç╬┐╨╗╤î╨╖╬┐╨▓╨░╨╜╨░ ╤ü╨╡╧ä╬║╨░, ╧Ç╧ü╬┐╧Ç╨╕╧ä╨░╨╜╨╜╨░╤Å ╨╕╨╗╨╕ ╧Ç╬┐╬║╧ü╤ï╧ä╨░╤Å ╬┐╨┤╨╜╨╕╨╝ ╨╕╨╖ ╨╕╤ü╬║╬┐╨╝╤ï╧ç ╨▓╨╖╧ü╤ï╨▓╤ç╨░╧ä╤ï╧ç ╨▓╨╡╤ë╨╡╤ü╧ä╨▓.2.╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.1 , ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╤ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨▓ ╬║╨░╤ç╨╡╤ü ╧ä╨▓╨╡ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╨░ ╧Ç╨░╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│ ╬┐ ╨▓╨╡╤ë╨╡╤ü╧ä╨▓╨░ ╨╕╤ü╧Ç╬┐╨╗╤î╨╖╬┐╨▓╨░╨╜╨░ ╤ü╨╡╧ä╬║ ╨░, ╧Ç╧ü╬┐╧Ç╨╕╧ä╨░╨╜╨╜╨░╤Å ╨╕╨╗╨╕ ╧Ç╬┐╬║╧ü╤ï╧ä╨░╤Å ╬┐╨ ┤╨╜╨╕╨╝ ╨╕╨╖ ╨╕╤ü╬║╬┐╨╝╤ï╧ç ╨▓╨╖╧ü╤ï╨▓╤ç╨░╧ä╤ï╧ç ╨▓╨╡╤ ë╨╡╤ü╧ä╨▓.
3. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.1 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╤å╨╡╨╜╧ä╧ü╨░╨╗╤î╨╜╤ï╨╣ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜ ╤ü ╨│╨╗╤â╧ç╨╕╨╝ ╬┐╤ü╨╡╨▓╤ï╨╝ ╬┐╧ä╨▓╨╡╧ü╤ü╧ä╨╕╨╡╨╝, ╨│╨╗╤â╧ç╬┐╨╣ ╬║╬┐╨╜╨╡╤å ╬║╬┐╧ä╬┐╧ü╬┐╨│╬┐ ╧Ç╬┐╤ü╧ü╨╡╨┤╤ü╧ä╨▓╬┐╨╝ ╨▒╬┐╬║╬┐╨▓╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░ ╤ü╨▓╤Å╨╖╨░╨╜ ╤ü ╧Ç╬┐╨╗╬┐╤ü╧ä╤ï╬┐ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░, ╧ü╨░╨╖╨┤╨╡╨╗╨╡╨╜╨╜╬┐╨│╬┐ ╨│╨╡╧ü╨╝╨╡╧ä╨╕╤ç╨╜╬┐╨╣ ╨┤╨╕╤ì╨╗╨╡╬║- ╧ä╧ü╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╧Ç╨╡╧ü╨╡╨│╬┐╧ü╬┐╨┤╬║╬┐╨╣ ╨╜╨░ ╬┐╤ü╨╜╬┐╨▓╨╜╤â╤Ä ╨╕ ╧ü╨╡╧Ç╨╡╧ü╨╜╤â╤Ä ╤ç╨░╤ü╧ä╨╕, ╧Ç╧ü╨╕ ╤ì╧ä╬┐╨╝ ╨▓ ╨│╨╗╤â╧ç╬┐╨╝ ╬┐╧ä╨▓╨╡╧ü╤ü╧ä╨╕╨╕ ╧Ç╬┐╤ü╨╗╨╡╨┤╬┐╨▓╨░╧ä╨╡╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╤ï ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║ ╧Ç╨░╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╨▓╨╡╤ë╨╡╤ü╧ä╨▓╨░ ╨╕ ╬║╨░╨╝╨╡╧ü╨░ ╨╕╬┐╨╜╨╕╨╖╨░- ╤å╨╕╨╕ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░. 3. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.1 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╧ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╤å╨╡╨╜╧ä╧ü╨░╨ ╗╤î╨╜╤ï╨╣ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜ ╤ü ╨│╨╗╤â╧ ç╨╕╨╝ ╬┐╤ü╨╡╨▓╤ï╨╝ ╬┐╧ä╨▓╨╡╧ü╤ü╧ä╨╕╨╡╨╝, ╨│╨╗╤â╧ç╬┐╨╣ ╬║╬┐╨╜╨╡╤å ╬║╬┐╧ä╬┐╧ü╬┐╨│╬┐ ╧Ç╬┐╤ü╧ü╨╡╨┤╤ü╧ä╨▓╬┐╨╝ ╨▒ ╬┐╬║╬┐╨▓╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░ ╤ü╨▓╤Å╨╖╨░╨╜ ╤ü ╧Ç╬┐╨╗╬┐╤ü ╧ä╤ï╬┐ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░, ╧ü ░╨╖╨┤╨╡╨╗╨╡╨╜╨╜╬┐╨│╬┐ ╨│╨╡╧ü╨╝╨╡╧ä╨╕╤ç╨╜╬┐╨╣ ╨┤╨╕╤ì╨ ╗╨╡╬║- ╧ä╧ü╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╧Ç╨╡╧ü╨╡╨│╬┐╧ü╬┐╨┤╬║╬┐╨╣ ╨╜ ╨░ ╬┐╤ü╨╜╬┐╨▓╨╜╤â╤Ä ╨╕ ╧ü╨╡╧Ç╨╡╧ü╨╜╤â╤Ä ╤ç╨░╤ü╧ä╨╕, ╧Ç╧ ü╨╕ ╤ì╧ä╬┐╨╝ ╨▓ ╨│╨╗╤â╧ç╬┐╨╝ ╬┐╧ä╨▓╨╡╧ü╤ü╧ä╨╕╨╕ ╧Ç╬┐╤ü╨ ╗╨╡╨┤╬┐╨▓╨░╧ä╨╡╨╗╤î╨╜╬┐ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╤ï ╨╕╤ü╧ ä╬┐╤ç╨╜╨╕╬║ ╧Ç╨░╧ü╬┐╨▓ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╨▓╨╡╤ë╨╡╤ü╧ ä╨▓╨░ ╨╕ ╬║╨░╨╝╨╡╧ü╨░ ╨╕╬┐╨╜╨╕╨╖╨░- ╤å╨╕╨╕ ╧ü╨╡╧Ç ╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░.
4. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.╨ù ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝ ╤ç╧ä╬┐, ╤ü╨╕╤ü╧ä╨╡╨╝╨░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╬┐╤ü╨╜╬┐╨▓╨╜╬┐╨│╬┐ ╨╕ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╬┐╨▓ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╬║╬┐╨╗╨╗╨╡╬║╧ä╬┐╧ü╨░, ╤ü╬┐╤ü╧ä╬┐╤Å╤ë╨╡╨│╬┐ ╨╕╨╖ ╨┤╨▓╤â╧ç ╧Ç╬┐- ╨╗╤â╬║╬┐╨╗╤î╤å╨╡╨▓╤ï╧ç ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╬┐╨▓, ╤ì╨╗╨╡╬║╧ä╧ü╨╕╤ç╨╡╤ü╬║╨╕ ╨╕╨╖╬┐╨╗╨╕╧ü╬┐╨▓╨░╨╜╨╜╤ï╧ç ╨┤╧ü╤â╨│ ╬┐╧ä ╨┤╧ü╤â╨│╨░ ╨╕ ╤â╤ü╧ä╨░╨╜╬┐╨▓╨╗╨╡╨╜╨╜╤ï╧ç ╨╜╨░ ╨▓╤ï╧ç╬┐╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░.4. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.╨ ù ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╤ ╧ä╨╡╨╝ ╤ç╧ä╬┐, ╤ü╨╕╤ü╧ä╨╡╨╝ ╨░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╬┐╤ü╨╜╬┐╨▓╨╜╬┐╨│╬┐ ╨╕ ╧ü╨╡╧Ç╨╡ ╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╬┐╨▓ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╨▓ ╨▓╨╕╨┤ ╨╡ ╬║╬┐╨╗╨╗╨╡╬║╧ä╬┐╧ü╨░, ╤ü╬┐╤ü╧ä╬┐╤Å╤ë╨╡╨│╬┐ ╨╕╨╖ ╨┤╨ ╧Ç╬┐â╧ç ╧Ç╬┐- ╨╗╤â╬║╬┐╨╗╤î╤╨╡╨▓╤╨╡╨▓╤╨╡╨▓╤╧ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╬┐ ╨▓, ╤ì╨╗╨╡╬║╧ä╧ü╨╕╤ç╨╡╤ü╬║╨╕ ╨╕╨╖╬┐╨╗╨╕╧ü╬┐╨▓╨░╨╜ ╨╜╤ï╧ç ╨┤╧ü╤â╨│ ╬┐╧ä ╨┤╧ü╤â╨│╨░ ╨╕ ╤â╤ü╧ä╨░╨╜╬┐╨▓╨╗╨╡╨╜ ╨╜╤ï╧ç ╨╜╨░ ╨▓╤ï╧ç╬┐╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝ ╨╡╨╢╤â╧ä╬║╨░.
5. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.4 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝ ╤ç╧ä╬┐, ╤ü╨╕╤ü╧ä╨╡╨╝╨░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╧ü╨╡- ╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨┐╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╧Ç╬┐╨╗╤â╬║╬┐╨╗╤î╤å╨╡╨▓╬┐╨│╬┐ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░ ╨╕ ╧ü╨╡╨│╤â╨╗╤Å╧ä╬┐╧ü╨░ ╨╕╬┐╨╜╨╜╬┐╨│╬┐ ╧ä╬┐- ╬║╨░.5. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.4 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╤ ╧ä╨╡╨╝ ╤ç╧ä╬┐, ╤ü╨╕╤ü╧ä╨╡╨╝╨ ░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╧ü╨╡- ╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗ ╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨┐╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╧Ç╬┐╨╗╤â╬║╬┐╨╗╤î╤╤╨╡ ╨▓╬┐╨│╬┐ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░ ╨╕ ╧ü╨╡╨│╤â╨╗╤Å╧ä╬┐╧ü╨░ ╨╕ ╬┐╨╜╨╜╬┐╨│╬┐ ╧ä╬┐- ╬║╨░.
6. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.5 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╧ü╨╡╨│╤â╨╗╤Å╧ä╬┐╧ü ╨╕╬┐╨╜╨╜╬┐╨│╬┐ ╧ä╬┐╬║╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜ ╨▓ ╨▓╨╕╨┤╨╡ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░, ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╬┐╨│╬┐ ╧Ç╨╡╧ü╨╡╨┤ ╧Ç╬┐╨╗╤â╬║╬┐╨╗╤î╤å╨╡╨▓╤ï╨╝ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╬┐╨╝ ╧ü╨╡╧Ç╨╡╧ü- ╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░ ╨╕ ╤ü╬┐╨╡╨┤╨╕╨╜╨╡╨╜ ╤ü ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╬┐╨╝ ╧Ç╬┐╤ü╧ä╬┐╤Å╨╜╨╜╬┐╨│╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╤Å. 6. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.5 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╤ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╧ü╨╡╨│╤â╨╗╤Å╧ ä╬┐╧ü ╨╕╬┐╨╜╨╜╬┐╨│╬┐ ╧ä╬┐╬║╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜ ╨▓ ╨▓╨╕╨ ┤╨╡ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░, ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨╜╬┐╨│╬┐ ╧Ç╨╡╧ü╨╡╨┤ ╧Ç╬┐╨╗╤â╬║╬┐╨╗╤î╤å╨╡╨▓╤ï╨╝ ╤ì╨╗╨╡╬║╧ä╧ü╬┐ ╨┤╬┐╨╝ ╧ü╨╡╧Ç╨╡╧ü- ╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╨░ ╨╕ ╤ü╬┐╨╡╨┤╨╕╨ ╜╨╡╨╜ ╤ü ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╬┐╨╝ ╧Ç╬┐╤ü╧ä╬┐╤Å╨╜╨╜╬┐╨│ ╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╤Å.
7. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.1 ╨╕╨╗╨╕ 3 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╤ü╨╕╤ü╧ä╨╡╨╝╨░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╬┐╤ü╨╜╬┐╨▓╨╜╬┐╨│╬┐ ╨╕ ╧ü╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╬┐╨▓ ╤ü╬┐╨┤╨╡╧ü╨╢╨╕╧ä ╨╕╬┐╨╜╨╜╤â╤Ä ╨╗╬┐╨▓╤â╤ê╬║╤â, ╤â╤ü╧ä╨░╨╜╬┐╨▓╨╗╨╡╨╜╨╜╤â╤Ä ╨╜╨░ ╨▓╤ï╧ç╬┐╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ä╬║╨░.7. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç. 1 ╨╕╨╗╨╕ 3 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╤ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╤ü╨╕╤ü ╧ä╨╡╨╝╨░ ╤ü╨▒╬┐╧ü╨░ ╨╕╬┐╨╜╬┐╨▓ ╬┐╤ü╨╜╬┐╨▓╨╜╬┐╨│╬┐ ╨╕ ╧ü ╨╡╧Ç╨╡╧ü╨╜╬┐╨│╬┐ ╬║╨░╨╜╨░╨╗╬┐╨▓ ╤ü╬┐╨┤╨╡╧ü╨╢╨╕╧ä ╨╕╬┐ ╨╜╨╜╤â╤Ä ╨╗╬┐╨▓╤â╤ê╬║╤â, ╤â╤ü╧ä╨░╨╜╬┐╨▓╨╗╨╡╨╜╨╜╤â╤Ä ╨ ╜╨░ ╨▓╤ï╧ç╬┐╨┤╨╡ ╨┤╧ü╨╡╨╣╧å╬┐╨▓╬┐╨│╬┐ ╧Ç╧ü╬┐╨╝╨╡╨╢╤â╧ ä╬║╨░.
8. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.7 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨░╤Å╤ü╤Å ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨╕╬┐╨╜╨╜╨░╤Å ╨╗╬┐╨▓╤â╤ê╬║╨░ ╨▓╤ï- ╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╬║╬┐╨╗╤î╤å╨╡╨▓╬┐╨│╬┐ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░ ╨╕ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡╨╜╨░ ╬║╬┐╨░╬║╤ü╨╕╨░╨╗╤î╨╜╬┐ ╬┐╧ä╧Ç╬┐╤ü╨╕╧ä╨╡╨╗╤î╨╜╬┐ ╬║╬┐╨╗- ╨╗╨╡╬║╧ä╬┐╧ü╨░ ╨╕ ╤ü╬┐╨╡╨┤╨╕╨╜╨╡╨╜╨░ ╤ü ╨┤╬┐╧Ç╬┐╨╗╨╜╨╕╧ä╨╡╨╗╤î╨╜╤ï╨╝ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╬┐╨╝ ╧Ç╬┐╤ü╧ä╬┐╤Å╨╜╨╜╬┐╨│╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╤Å. 8. ╬æ╨╜╨░╨╗╨╕╧ä╨╕╤ç╨╡╤ü╬║╨░╤Å ╨│╬┐╨╗╬┐╨▓╬║╨░ ╧Ç╬┐ ╧Ç.7 ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤╤╨░╤╨░╤╤╤╧ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╨╕╬┐╨╜╨╜╨░╤Å ╨ ╗╬┐╨▓╤â╤ê╬║╨░ ╨▓╤ï- ╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╬║╬┐╨╗╤î ╤å╨╡╨▓╬┐╨│╬┐ ╤ì╨╗╨╡╬║╧ä╧ü╬┐╨┤╨░ ╨╕ ╧ü╨░╤ü╧Ç╬┐╨╗╬┐╨╢╨╡ ╨╜╨░ ╬║╬┐╨░╬║╤ü╨╕╨░╨╗╤î╨╜╬┐ ╬┐╧ä╧Ç╬┐╤ü╨╕╧ä╨╡╨╗╤î╨╜╬┐ ╬║╬┐╨╗- ╨╗╨╡╬║╧ä╬┐╧ü╨░ ╨╕ ╤ü╬┐╨╡╨┤╨╕╨╜╨╡╨╜╨░ ╤ü ╨┤╬┐╧Ç╬ ┐╨╗╨╜╨╕╧ä╨╡╨╗╤î╨╜╤ï╨╝ ╨╕╤ü╧ä╬┐╤ç╨╜╨╕╬║╬┐╨╝ ╧Ç╬┐ ü╧ä╬┐╤Å╨╜╨╜╬┐╨│╬┐ ╨╜╨░╧Ç╧ü╤Å╨╢╨╡╨╜╨╕╤Å.
PCT/RU1997/000212 1997-07-07 1997-07-07 Analytic head for detecting vapours of explosive substances WO1999002981A1 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
AU46397/97A AU4639797A (en) 1997-07-07 1997-07-07 Analytic head for detecting vapours of explosive substances
PCT/RU1997/000212 WO1999002981A1 (en) 1997-07-07 1997-07-07 Analytic head for detecting vapours of explosive substances

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/RU1997/000212 WO1999002981A1 (en) 1997-07-07 1997-07-07 Analytic head for detecting vapours of explosive substances

Publications (1)

Publication Number Publication Date
WO1999002981A1 true WO1999002981A1 (en) 1999-01-21

Family

ID=20130129

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/RU1997/000212 WO1999002981A1 (en) 1997-07-07 1997-07-07 Analytic head for detecting vapours of explosive substances

Country Status (2)

Country Link
AU (1) AU4639797A (en)
WO (1) WO1999002981A1 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002065422A2 (en) * 2001-01-22 2002-08-22 Honeywell International Inc. Black box for monitoring building
WO2006028402A1 (en) * 2004-09-01 2006-03-16 Yuri Petrovich Gorbachev Analytic head for detecting trace contaminants in gases
CN100409007C (en) * 2005-08-17 2008-08-06 中国科学院化学研究所 Electrochemical mode for quick detecting explosive nitro compound in aromatic in ultra trace

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2330005A1 (en) * 1975-10-27 1977-05-27 Marsland Engineering Ltd Continuous monitoring of vapour in air - involves using electron capture detector followed by universal detector and logic circuits
EP0219602A2 (en) * 1985-08-01 1987-04-29 Allied Corporation Ionization detector
EP0447158A2 (en) * 1990-03-13 1991-09-18 Her Majesty The Queen In Right Of Canada As Represented By The Minister Of Revenue Detector for concealed explosive or narcotic substances
GB2265463A (en) * 1992-03-26 1993-09-29 Ai Cambridge Limited Detecting particular constituents in an atmosphere using electron capture detectors
RU2065163C1 (en) * 1992-12-11 1996-08-10 Владилен Федорович Минин Method of analysis of microimpurities in gases

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2330005A1 (en) * 1975-10-27 1977-05-27 Marsland Engineering Ltd Continuous monitoring of vapour in air - involves using electron capture detector followed by universal detector and logic circuits
EP0219602A2 (en) * 1985-08-01 1987-04-29 Allied Corporation Ionization detector
EP0447158A2 (en) * 1990-03-13 1991-09-18 Her Majesty The Queen In Right Of Canada As Represented By The Minister Of Revenue Detector for concealed explosive or narcotic substances
GB2265463A (en) * 1992-03-26 1993-09-29 Ai Cambridge Limited Detecting particular constituents in an atmosphere using electron capture detectors
RU2065163C1 (en) * 1992-12-11 1996-08-10 Владилен Федорович Минин Method of analysis of microimpurities in gases

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2002065422A2 (en) * 2001-01-22 2002-08-22 Honeywell International Inc. Black box for monitoring building
WO2002065422A3 (en) * 2001-01-22 2003-02-27 Honeywell Int Inc Black box for monitoring building
WO2006028402A1 (en) * 2004-09-01 2006-03-16 Yuri Petrovich Gorbachev Analytic head for detecting trace contaminants in gases
CN100409007C (en) * 2005-08-17 2008-08-06 中国科学院化学研究所 Electrochemical mode for quick detecting explosive nitro compound in aromatic in ultra trace

Also Published As

Publication number Publication date
AU4639797A (en) 1999-02-08

Similar Documents

Publication Publication Date Title
CA2148166C (en) Ion mobility spectrometer
US4136280A (en) Positive and negative ion recording system for mass spectrometer
US6459079B1 (en) Shipboard chemical agent monitor-portable (SCAMP)
RU2011981C1 (en) Method for assessing impurity content of gas flow
JP5281070B2 (en) Ultra-compact asymmetric field ion mobility filter and detection system
EP1102985B8 (en) Method for separation and enrichment of isotopes in gaseous phase
US7030372B2 (en) Micromachined field asymmetric ion mobility filter and detection system
US6831271B1 (en) Method for separation and enrichment of isotopes in gaseous phase
US6190316B1 (en) Method of mass-analyzing body fluid and apparatus therefor
FI89413B (en) Foerfarande och anordning Foer att upttaecka smao gas- eller aongmaengder i gasblandningar
RU2637181C2 (en) Spectrometer with integral capacity transimpedance amplifier
CN1950698A (en) Ion mobility spectrometer comprising a corona discharge ionization element
JP2013542409A (en) Method and apparatus for gas detection and identification using an ion mobility spectrometer
US9285343B2 (en) Multi-dimentional ion mobility separator method and apparatus
US4066894A (en) Positive and negative ion recording system for mass spectrometer
US8748812B2 (en) Detectors and ion sources
US4797554A (en) Ion mobility spectrometer
US9228979B2 (en) Capacitive transimpedance amplifier with offset
EP2089701A1 (en) Faims ion mobility spectrometer with multiple doping
WO1999002981A1 (en) Analytic head for detecting vapours of explosive substances
US4362941A (en) Apparatus and a method for detecting and measuring trace gases in air or other gaseous background
US4119851A (en) Apparatus and a method for detecting and measuring trace gases in air or other gas backgrounds
FI96903B (en) Method for determining the content of foreign matter in gas and apparatus therefor
EP0457776B1 (en) Gas detector
EP2076765A1 (en) Spectrometer apparatus

Legal Events

Date Code Title Description
AK Designated states

Kind code of ref document: A1

Designated state(s): AL AM AT AU AZ BA BB BG BR BY CA CH CN CU CZ DE DK EE ES FI GB GE HU IL IS JP KE KG KP KR KZ LC LK LR LS LT LU LV MD MG MK MN MW MX NO NZ PL PT RO RU SD SE SG SI SK TJ TM TR TT UA UG US UZ VN

AL Designated countries for regional patents

Kind code of ref document: A1

Designated state(s): GH KE LS MW SD SZ UG ZW AM AZ BY KG KZ MD RU TJ TM AT BE CH DE DK ES FI FR GB GR IE IT LU MC NL PT SE BF BJ CF CG CI CM GA GN ML MR NE SN TD TG

121 Ep: the epo has been informed by wipo that ep was designated in this application
DFPE Request for preliminary examination filed prior to expiration of 19th month from priority date (pct application filed before 20040101)
NENP Non-entry into the national phase

Ref country code: KR

REG Reference to national code

Ref country code: DE

Ref legal event code: 8642

122 Ep: pct application non-entry in european phase
NENP Non-entry into the national phase

Ref country code: CA