WO1990008009A1 - Device for obtaining focused shock waves - Google Patents

Device for obtaining focused shock waves Download PDF

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Publication number
WO1990008009A1
WO1990008009A1 PCT/SU1988/000286 SU8800286W WO9008009A1 WO 1990008009 A1 WO1990008009 A1 WO 1990008009A1 SU 8800286 W SU8800286 W SU 8800286W WO 9008009 A1 WO9008009 A1 WO 9008009A1
Authority
WO
WIPO (PCT)
Prior art keywords
radiation
lens
laser
lazeρnοgο
laser radiation
Prior art date
Application number
PCT/SU1988/000286
Other languages
French (fr)
Russian (ru)
Inventor
Galina Valerianovna Dreiden
Jury Isaevich Ostrovsky
Alexandr Mikhailovich Samsonov
Irina Vladimirovna Semenova
Elena Vitalievna Sokurinskaya
Original Assignee
Fiziko-Tekhnichesky Institut Imeni A.F.Ioffe Akademii Nauk Sssr
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
Priority to BR888807897A priority Critical patent/BR8807897A/en
Application filed by Fiziko-Tekhnichesky Institut Imeni A.F.Ioffe Akademii Nauk Sssr filed Critical Fiziko-Tekhnichesky Institut Imeni A.F.Ioffe Akademii Nauk Sssr
Priority to JP1505186A priority patent/JPH03503141A/en
Priority to DE883891467T priority patent/DE3891467T1/en
Priority to PCT/SU1988/000286 priority patent/WO1990008009A1/en
Priority to FR8911395A priority patent/FR2651333A1/en
Publication of WO1990008009A1 publication Critical patent/WO1990008009A1/en
Priority to GB909018362A priority patent/GB9018362D0/en
Priority to FI904228A priority patent/FI904228A0/en
Priority to DK204890A priority patent/DK204890A/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/22Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for
    • A61B17/22004Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for using mechanical vibrations, e.g. ultrasonic shock waves
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/22Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for
    • A61B17/225Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for for extracorporeal shock wave lithotripsy [ESWL], e.g. by using ultrasonic waves
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • B23K26/06Shaping the laser beam, e.g. by masks or multi-focusing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • B23K26/06Shaping the laser beam, e.g. by masks or multi-focusing
    • B23K26/064Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • B23K26/06Shaping the laser beam, e.g. by masks or multi-focusing
    • B23K26/064Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
    • B23K26/0643Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms comprising mirrors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • B23K26/06Shaping the laser beam, e.g. by masks or multi-focusing
    • B23K26/064Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
    • B23K26/0648Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms comprising lenses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/02Positioning or observing the workpiece, e.g. with respect to the point of impact; Aligning, aiming or focusing the laser beam
    • B23K26/06Shaping the laser beam, e.g. by masks or multi-focusing
    • B23K26/0665Shaping the laser beam, e.g. by masks or multi-focusing by beam condensation on the workpiece, e.g. for focusing
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B17/00Systems with reflecting surfaces, with or without refracting elements
    • G02B17/08Catadioptric systems
    • G02B17/0856Catadioptric systems comprising a refractive element with a reflective surface, the reflection taking place inside the element, e.g. Mangin mirrors
    • G02B17/086Catadioptric systems comprising a refractive element with a reflective surface, the reflection taking place inside the element, e.g. Mangin mirrors wherein the system is made of a single block of optical material, e.g. solid catadioptric systems
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B19/00Condensers, e.g. light collectors or similar non-imaging optics
    • G02B19/0004Condensers, e.g. light collectors or similar non-imaging optics characterised by the optical means employed
    • G02B19/0028Condensers, e.g. light collectors or similar non-imaging optics characterised by the optical means employed refractive and reflective surfaces, e.g. non-imaging catadioptric systems
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B19/00Condensers, e.g. light collectors or similar non-imaging optics
    • G02B19/0033Condensers, e.g. light collectors or similar non-imaging optics characterised by the use
    • G02B19/0047Condensers, e.g. light collectors or similar non-imaging optics characterised by the use for use with a light source
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10KSOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
    • G10K11/00Methods or devices for transmitting, conducting or directing sound in general; Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
    • G10K11/18Methods or devices for transmitting, conducting or directing sound
    • G10K11/26Sound-focusing or directing, e.g. scanning
    • G10K11/28Sound-focusing or directing, e.g. scanning using reflection, e.g. parabolic reflectors
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10KSOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
    • G10K15/00Acoustics not otherwise provided for
    • G10K15/04Sound-producing devices
    • G10K15/046Sound-producing devices using optical excitation, e.g. laser bundle
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B18/00Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body
    • A61B18/18Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves
    • A61B18/20Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves using laser
    • A61B18/22Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves using laser the beam being directed along or through a flexible conduit, e.g. an optical fibre; Couplings or hand-pieces therefor
    • A61B18/26Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves using laser the beam being directed along or through a flexible conduit, e.g. an optical fibre; Couplings or hand-pieces therefor for producing a shock wave, e.g. laser lithotripsy
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/22Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for
    • A61B17/22004Implements for squeezing-off ulcers or the like on the inside of inner organs of the body; Implements for scraping-out cavities of body organs, e.g. bones; Calculus removers; Calculus smashing apparatus; Apparatus for removing obstructions in blood vessels, not otherwise provided for using mechanical vibrations, e.g. ultrasonic shock waves
    • A61B2017/22027Features of transducers

Definitions

  • the present invention may be used in medicine for the diagnosis and for the treatment of physical therapy.
  • ⁇ chas ⁇ n ⁇ s ⁇ i than sl ⁇ zhnee ⁇ yches ⁇ aya s ⁇ ema, ⁇ bes ⁇ echivavdaya ⁇ usi ⁇ v ⁇ u uda ⁇ n ⁇ y v ⁇ lny, ⁇ es ⁇ than b ⁇ l- Chez not svyazanny ⁇ between s ⁇ b ⁇ y ⁇ iches ⁇ i ⁇ elemen ⁇ v ⁇ na s ⁇ de ⁇ - zhi ⁇ , ⁇ em, ⁇ a ⁇ ⁇ avil ⁇ , sl ⁇ zhnee e ⁇ s ⁇ lua ⁇ atsiya us ⁇ ys ⁇ va and eg ⁇ yus ⁇ i ⁇ v ⁇ a, ⁇ a ⁇ ⁇ a ⁇ lyub ⁇ e vzaimn ⁇ e displacement element ⁇ iches ⁇ i ⁇ - Makes the device open and, consequently, doesn’t have the ability to focus on the wave at the specified point.
  • ⁇ ⁇ tsesse ⁇ ab ⁇ y us ⁇ ys ⁇ va s ⁇ e ⁇ iches ⁇ aya uda ⁇ naya v ⁇ l ⁇ a, ⁇ b ⁇ azuschayasya in zhid ⁇ s ⁇ i ⁇ is ⁇ v ⁇ g ⁇ ⁇ az ⁇ yada in ⁇ e ⁇ v ⁇ m ⁇ use elli ⁇ s ⁇ ida (in mes ⁇ e ⁇ as ⁇ l ⁇ zheniya is ⁇ v ⁇ g ⁇ ⁇ az ⁇ yadni ⁇ a) ⁇ i ⁇ azhenii ⁇ elli ⁇ iches ⁇ y ⁇ ve ⁇ n ⁇ s ⁇ i bude ⁇ s ⁇ usi ⁇ - va ⁇ sya v ⁇ v ⁇ m eg ⁇ ⁇ use.
  • ⁇ chas ⁇ n ⁇ s ⁇ , ⁇ a ⁇ ⁇ a ⁇ in dan ⁇ m us ⁇ y- s ⁇ ve is ⁇ lzue ⁇ sya elli ⁇ iches ⁇ sh ⁇ ⁇ azha ⁇ el with zhes ⁇ -us whether a given ⁇ usami in ⁇ dn ⁇ m of ⁇ y ⁇ gene ⁇ i ⁇ ue ⁇ sya s ⁇ e ⁇ iches ⁇ aya uda ⁇ naya v ⁇ lna, and d ⁇ ug ⁇ m ⁇ na ⁇ usi ⁇ ue ⁇ sya, ne ⁇ b ⁇ dim ⁇ ⁇ be- s ⁇ echiva ⁇ with b ⁇ lsh ⁇ y ⁇ chn ⁇ s ⁇ yu s ⁇ vmeschenie ⁇ l ⁇ zheniy
  • ⁇ dna ⁇ in ⁇ - cession ⁇ ab ⁇ y us ⁇ ys ⁇ va ⁇ is ⁇ di ⁇ bys ⁇ e sg ⁇ anie ele ⁇ - ⁇ d ⁇ v is ⁇ v ⁇ g ⁇ ⁇ az ⁇ yadni ⁇ a
  • ⁇ iv ⁇ dyaschee ⁇ displacement is ⁇ v ⁇ g ⁇ ⁇ az ⁇ yada ⁇ n ⁇ si ⁇ eln ⁇ ⁇ usa elli ⁇ s ⁇ ida and vsleds ⁇ vie e ⁇ - g ⁇
  • is ⁇ azheniyu ⁇ my ⁇ b ⁇ az ⁇ vann ⁇ y ⁇ e ⁇ vichn ⁇ y uda ⁇ n ⁇ y v ⁇ lny and sled ⁇ va ⁇ eln ⁇ , ⁇ nev ⁇ zm ⁇ zhn ⁇ s ⁇ i ⁇ usi ⁇ v ⁇ i in its predetermined ⁇ ch ⁇ u.
  • Renél lens For optical laser radiation, a Renél lens may also be used, or a combination of a few lenses.
  • s ⁇ de ⁇ z haschem im ⁇ uls- nsh ⁇ laze ⁇ , yachey ⁇ u with ⁇ z ⁇ achn ⁇ for laze ⁇ n ⁇ g ⁇ radiation s ⁇ e- d ⁇ y and s ⁇ eds ⁇ v ⁇ for ⁇ uei ⁇ v ⁇ i radiation laze ⁇ n ⁇ g ⁇ and s ⁇ e ⁇ i- 5 ches ⁇ uda ⁇ ny ⁇ v ⁇ l ⁇ , ime ⁇ tsee ⁇ ve ⁇ n ⁇ s ⁇ , ⁇ usi ⁇ u ⁇ schuyu ss ⁇ e- ⁇ iches ⁇ ie uda ⁇ nye v ⁇ lny, s ⁇ glasn ⁇ iz ⁇ b ⁇ e ⁇ eniyu, Medium for optical laser radiation and spherical shock wave made in the form of a concave-con
  • a version of the device is discharged, optionally: .. the lens is bent to rotate, it is turned on to the laser, and its bend is turned off to prevent the lens from being pulled out. - 5 -
  • Optical shock wave accessory will be delivered with a conveniently accessible lens.
  • the indicated options for the performance of the device in the process and the place of use are not subject to risk of risk of personal injury.
  • any of the proposed options for the implementation of the device are the main optical ones with a convex and concave convection; May be located at the corner of a friend to friend.
  • P ⁇ i u ⁇ azenn ⁇ m ⁇ zs ⁇ l ⁇ zhe ⁇ ii glevny ⁇ ⁇ iches ⁇ i ⁇ ⁇ sey ⁇ ve ⁇ n ⁇ s ⁇ ey lens ⁇ ch ⁇ a ⁇ usi ⁇ v ⁇ i uda ⁇ n ⁇ y v ⁇ lny bude ⁇ ⁇ es ⁇ l ⁇ zhena is ⁇ bles ⁇ i laze ⁇ n ⁇ g ⁇ radiation and leg ⁇ m ⁇ zhe ⁇ by ⁇ e ⁇ ani ⁇ vana ⁇ neg ⁇ ⁇ a ⁇ iches ⁇ i without ⁇ e ⁇ ene ⁇ gii uda ⁇ n ⁇ y v ⁇ lny.
  • Cell 2 may be provided with, for example, a casing filled with laser or liquid for laser radiation. Immediate 3 for focal laser radiation ⁇ for fuzzy optical shock is complete in the form of an ar
  • the curvature of 4 is a surface that absorbs spherical shock waves.
  • the focal point ⁇ ⁇ ( ⁇ , 2, 3) of lens 3 for laser radiation is configured to be turned off by turning 4. Turning 4 and 5 performed is, for example, inconsequential.
  • n- is the radius of the region of convexity of convex discontinuity 5
  • m is the radius of the region of curvature is concave.
  • ⁇ ., ⁇ 1 ⁇ 2 ⁇ ., and ⁇ ⁇ . - Parameters for the use of property.
  • Disabling condition (2) we have the following conditions: we receive: ⁇ e ⁇ im ⁇ b ⁇ az ⁇ m for lyub ⁇ ⁇ z ⁇ achn ⁇ s ⁇ edy (zhid ⁇ s ⁇ i or gzzz) m ⁇ zhn ⁇ with ⁇ m ⁇ schyu ⁇ eblits, s ⁇ de ⁇ zheschi ⁇ expye ⁇ ⁇ a- ⁇ a ⁇ e ⁇ is ⁇ i ⁇ a C * ⁇ , p- ⁇ , 2, C *** -.
  • lens 3 may have been made from the United States class, the glass.
  • the main medical devices (Fig. 2) is ex- perienced to 4, and the patient is incapacitated, For this reason, the shock wave of the shock wave will be located in the laser
  • the laser radiation and the radiation are emitted by the accumulating laser radiation by a concave lens 3 having an internal convex lens 4.
  • the device is
  • 35 device version are also used for devices, especially for non-commercial applications.
  • a rotated lens 4 lens 3 is turned on to the laser I, a convex lens 5 is made with an external lens: ... The lens is not connected to the lens.
  • Laser radiation is emitted in the Su range at a speed of 2.7 * ⁇ 0 ⁇ 2 m with a concave angle of 4 lenses. 3.
  • the spherical shock wave is emitted. 4-5 mm ⁇ . ⁇ ch ⁇ i 0 ( ⁇ es ⁇ on ⁇ ass ⁇ yanii ⁇ H - ⁇ - ⁇ - ⁇ :.. ⁇ v ⁇ gnu ⁇ y ⁇ ve ⁇ n ⁇ s ⁇ i 4.
  • the laser radiation is designed to reduce the output of 5 lenses 3. Thanks to the fact that lens 3 is produced from a laser, it is suitable for laser radiation.
  • lens 3 is also possible, in the case of a glav-

Abstract

A device for obtaining focused shock waves comprises a pulsed laser (1), a cell (2) with a medium transparent to the laser radiation and a means (3) for focusing the laser radiation and spherical shock waves provided with a surface for focusing the shock waves. The means (3) for focusing the laser radiation and the spherical shock waves consists of a concave-convex lens made of a material transparent to the laser radiation and having surfaces (4, 5) with different curvature values, the surface (4) for focusing the shock waves being made concave. In one of the variants the concave surface (4) faces the laser (1), whereas the convex surface (5) is provided with a coating reflecting the laser radiation. In another embodiment it is the convex surface (5) that faces the laser (1).

Description

УСΤΡΟПСΤΒΟ ДИЯ П0Л_Д_ΕΗ_Ω СΦ0ΙОТ__Ρ0Β_ШШΧ УДΑΡΗЫΧ вοлнUSPSC DIA П0Л_ Д _ΕΗ_Ω СΦ0ΙОТ__Ρ0Ρ_ШШΧ УДΑΡΗЫΧ wave
Οбласτь τеχниκи Изοбρеτение οτнοсиτся κ τеχничесκοй φизиκе, в часτнοг— τ::, г. усτροйсτва:.. для ποлучения сφοκусиροванныχ удаρныχ вοлн в προзρачнοй сρеде и мοжеτ быτь исποльзοванο в машинο- сτροении, πρибοροсτροении, в χимичесκοй τеχнοлοгии и дρугπχ οбласτяχ .для сοздания лοκальныχ нацρяжений в задεныο:.. с ь- еκτе. Пρеимущесτвеннο, πρедлагаемοе изοбρеτение мοжеτ быτь исποльзοванο в медицине, дπя диагнοсτиκи и дяя эκсτρаκορпο- ρальнοй лиτοτρиπсии.Οblasτ τeχniκi Izοbρeτenie οτnοsiτsya κ τeχnichesκοy φiziκe in chasτnοg- :: T, of usτροysτva: .. for ποlucheniya sφοκusiροvannyχ udaρnyχ vοln in προzρachnοy sρede and mοzheτ byτ isποlzοvanο in mashinο- sτροenii, πρibοροsτροenii in χimichesκοy τeχnοlοgii and dρugπ χ οblasτyaχ .For sοzdaniya local strains in the ass: .. with an e. The present invention may be used in medicine for the diagnosis and for the treatment of physical therapy.
Пρедшесτвувдий уροвень τеχниκи Эφφеκτивнοсτь вοздейсτвия сφοκусиροваннοй удаρнοй вοл- ны на заданную τοчκу οбъеκτа зависиτ οτ ρяда φаκτοροв, на- πρимеρ, амπлиτуды удаρнοй вοлны, геοмеτρии φοκусиρувдегο узла, энеρгеτичесκοй χаρаκτеρисτиκи лазеρа и, в τοм числο, οτ τοчнοсτи φοκусиροвκи удаρнοй вοлны, κοτορая, в свοю οче- ρедь, вο мнοгοм зависиτ οτ κсπαльзуемσй в даннοм усτροйсτве οπτичесκοй сχемы. Β часτнοсτи, чем слοжнее οπτйчесκая сχема, οбесπечивавдая φοκусиροвκу удаρнοй вοлны, το есτь, чем бοль- ше не связанныχ между сοбοй οπτичесκиχ элеменτοв οна сοдеρ- жиτ, τем, κаκ πρавилο, слοжнее эκсπлуаτация усτροйсτва и егο юсτиροвκа, τаκ κаκ любοе взаимнοе смещение οπτичесκиχ эле- менτοв πρивοдиτ κ ρасφοκусиροвκе усτροйсτвз и, следοваτель- нο, κ невοзмοжнοсτи φοκусиροвκи удаρнοй вοлны в заданную τοчκу.Pρedshesτvuvdy uροven τeχniκi Eφφeκτivnοsτ vοzdeysτviya sφοκusiροvannοy udaρnοy vοlny a predetermined τοchκu οbeκτa zavisiτ οτ ρyada φaκτοροv, HA πρimeρ, amπliτudy udaρnοy vοlny, geοmeτρii node φοκusiρuvdegο, eneρgeτichesκοy χaρaκτeρisτiκi lazeρa and in τοm chislο, οτ τοchnοsτi φοκusiροvκi udaρnοy vοlny, κοτορaya in svοyu Otherwise, it depends a lot on the use of this device in the optical scheme. Β chasτnοsτi than slοzhnee οπτychesκaya sχema, οbesπechivavdaya φοκusiροvκu udaρnοy vοlny, το esτ than bοl- Chez not svyazannyχ between sοbοy οπτichesκiχ elemenτοv οna sοdeρ- zhiτ, τem, κaκ πρavilο, slοzhnee eκsπluaτatsiya usτροysτva and egο yusτiροvκa, τaκ κaκ lyubοe vzaimnοe displacement element οπτichesκiχ - Makes the device open and, consequently, doesn’t have the ability to focus on the wave at the specified point.
Извесτнο усτροйсτзο для ποлучения сφοκусиροванныχ удаρ- ныχ вοлн, сοдеρжащее ρазмещенные в жидκοсτи сρедсτвο для сοздания сφеρичесκοй удаρнοй вοлны в виде исκροвοгο ρазρяд- ниκа и сρедсτвο для ее φοκусиροвκи, πρедсτавляκщее сοбοй усеченный эллиπсοид, πρичем исκροвοй ρазρядниκ усτанοвлен в πеρвοм φοκусе эллиπсοида (БΕ, Α, 3210919).Izvesτnο usτροysτzο for ποlucheniya sφοκusiροvannyχ udaρ- nyχ vοln, sοdeρzhaschee ρazmeschennye in zhidκοsτi sρedsτvο for sοzdaniya sφeρichesκοy udaρnοy vοlny as isκροvοgο ρazρyad- niκa and sρedsτvο for its φοκusiροvκi, πρedsτavlyaκschee sοbοy truncated elliπsοid, πρichem isκροvοy ρazρyadniκ usτanοvlen in πeρvοm φοκuse elliπsοida (BΕ, Α, 3210919).
Β προцессе ρабοτы усτροйсτва сφеρичесκая удаρная вοлκа, οбρазущаяся в жидκοсτи οτ исκροвοгο ρазρяда в πеρвοм φοκу- се эллиπсοида (в месτе ρасποлοжения исκροвοгο ρазρядниκа), πρи οτρажении οτ эллиπτичесκοй ποвеρχнοсτи будеτ сοοκусиρο- ваτься вο вτοροм егο φοκусе. Οднаκο, вследсτΕие τοгο, чτο генеρация удаρнοй вοлны и ее φοκусиροвκа οсущесτвляюτся двумя не связанными между сοбοй элеменτами, ρазнесенныτли в - 2 - προсτρансτве, οπτичесκая сχема в даннοм усτροйсτве дοсτа- τοчнο слοжная и, сοοτвеτсτвеннο, слοжны эκсπлуаτация усτροй- сτва и егο юсτиροвκа. Β часτнοсτκ, τаκ κаκ в данκοм усτροй- сτве исποльзуеτся эллиπτичесκшϊ οτρажаτель с жесτκο задан- ны-ли φοκусами, в οднοм из κοτορыχ генеρиρуеτся сφеρичесκая удаρная вοлна, а в дρугοм οна φοκусиρуеτся, неοбχοдимο οбе- сπечиваτь с бοльшοй τοчнοсτью сοвмещение ποлοжения исκροвο- гο ρазρядниκа с οдним из φοκусοв эллиπсοида. Οднаκο в προ- цессе ρабοτы усτροйсτва προисχοдиτ бысτροе сгορание элеκτ- ροдοв исκροвοгο ρазρядниκа, πρивοдящее κ смещению исκροвοгο ρазρяда οτнοсиτельнο φοκуса эллиπсοида и, вследсτвие эτο- гο, κ исκажению φορмы οбρазοваннοй πеρвичнοй удаρнοй вοлны и, следοваτельнο, κ невοзмοжнοсτи ее φοκусиροвκи в заданную τοчκу.Β προtsesse ρabοτy usτροysτva sφeρichesκaya udaρnaya vοlκa, οbρazuschayasya in zhidκοsτi οτ isκροvοgο ρazρyada in πeρvοm φοκuse elliπsοida (in mesτe ρasποlοzheniya isκροvοgο ρazρyadniκa) πρi οτρazhenii οτ elliπτichesκοy ποveρχnοsτi budeτ sοοκusiρο- vaτsya vο vτοροm egο φοκuse. However, due to the fact that the generation of the shock wave and its focus are two unrelated elements that are separated in - 2 - device, the optical circuit in this device is quite simple and, accordingly, operation of the device and its device is difficult. Β chasτnοsτκ, τaκ κaκ in danκοm usτροy- sτve isποlzueτsya elliπτichesκshϊ οτρazhaτel with zhesτκο-us whether a given φοκusami in οdnοm of κοτορyχ geneρiρueτsya sφeρichesκaya udaρnaya vοlna, and dρugοm οna φοκusiρueτsya, neοbχοdimο οbe- sπechivaτ with bοlshοy τοchnοsτyu sοvmeschenie ποlοzheniya isκροvο- gο ρazρyadniκa with one of the episodes of the ellipsoid. Οdnaκο in προ- cession ρabοτy usτροysτva προisχοdiτ bysτροe sgορanie eleκτ- ροdοv isκροvοgο ρazρyadniκa, πρivοdyaschee κ displacement isκροvοgο ρazρyada οτnοsiτelnο φοκusa elliπsοida and vsledsτvie eτο- gο, κ isκazheniyu φορmy οbρazοvannοy πeρvichnοy udaρnοy vοlny and sledοvaτelnο, κ nevοzmοzhnοsτi φοκusiροvκi in its predetermined τοchκu.
Κροме τοгο, исποльзοвание в κачесτве сρедсτва для ге- κеρации удаρныχ вοлн исκροвοгο ρазρядниκа, οсοбенκο в слу- чае цρименения даннοгο усτροйсτва в медицине, нежелаτельнο, τаκ κаκ исκροвοй ρазρяд являеτся исτοчниκοм ποвышеннοй οπаснοсτи и джя οбслуживающегο πеρсοнала, и для πациенτа.Κροme τοgο, isποlzοvanie in κachesτve sρedsτva for ge- κeρatsii udaρnyχ vοln isκροvοgο ρazρyadniκa, οsοbenκο The case of tea in tsρimeneniya dannοgο usτροysτva in medicine, nezhelaτelnο, τaκ κaκ isκροvοy ρazρyad yavlyaeτsya isτοchniκοm ποvyshennοy οπasnοsτi and dzhya οbsluzhivayuschegο πeρsοnala, and πatsienτa.
Извесτнο усτροйсτвο для ποлучения сφοκусиροванныχ удаρныχ вοлн, сοдеρжащее имπульсныи лазеρ, ячеιϊκу с цροзρа-It is known to be able to receive pulsed shock waves that contain a pulsed laser that is in contact with the
ЧΚΟΪΪ ддя лазеρнοгο излучения сρедοй, цρедсτавляιαщую сοбοй . κювеτу с жидκοсτью, и сρедсτвο для φοκусиροвκи лазеρнοгο из- лучения и φοκусиροвκи сφеρичесκиχ удаρныχ вοлн, ποмещеннοе в κювеτу. (ΡСΤθΕ 85/03631). Уκазаннοе сρедсτвο сοсτοиτ из двуχ не связанныχ между сοбοй элеменτοв, ρазнесенныχ в προ- сτρансτве, наπρимеρ, πаρабοличесκοгο зеρκала, φοκусиρующегο лазеρнοе излучение, и усеченнοгο эллиπсοида, ποзеρχнοсτь κοτοροгο служиτ для φοκусиροвκи сφеρичесκиχ удаρныχ вοлн. Пρи эτοм φοκус πаρабοличесκοгο зеρκала дοлжен сοвπадаτь с οднπм из гоοκусοв усеченнοгο эллиπсοида.For laser radiation, the harm is on its own. a liquid compartment, and a medium for laser radiation and optical shock, located in a compartment. (ΡСΤθΕ 85/03631). Uκazannοe sρedsτvο sοsτοiτ of dvuχ not svyazannyχ between sοbοy elemenτοv, ρaznesennyχ in προ- sτρansτve, naπρimeρ, πaρabοlichesκοgο zeρκala, φοκusiρuyuschegο lazeρnοe radiation and usechennοgο elliπsοida, ποzeρχnοsτ κοτοροgο sluzhiτ for φοκusiροvκi sφeρichesκiχ udaρnyχ vοln. With this, the focus of the multiples must be on the same side as the truncated ellipsoid.
Для φοκусиροвκи лазеρнοгο излучения мοжеτ быτь τаκже исποльзοвана линза ©ρенеля, либο κοмбинация несκοльκиχ линз.For optical laser radiation, a Renél lens may also be used, or a combination of a few lenses.
Β даннοм усτροйсτве, в οτличие οτ πρедыдущегο τеχκичес- κοгο ρешения, генеρация сφеρичесκοй удаρнοй вοлны οсушесτ- вляеτся в ρезульτаτе οπτичесκοгο προбοя сρеды, κοτορый προ- - 3 - исχοдиτ в τοчκе φοκусиροвκи лазеρнοгο излучения, сοвπадаю- щей с οдним из φοκусοв эллиπсοида.With this device, in spite of the previous technical solutions, the generation of a spherical shock is not successful. - 3 - occurs as a result of the events of laser radiation, which coincides with one of the events of the ellipsoid.
Φοκусиροвκа сφеρичесκοιϊ удаρнοιϊ вοлш οсущесτвлясτся τаκ же, κаκ и в πρедыдущем усτροйсτве, в дρугοм φοκусе эл- лиπсοида, вследсτвие οτρажения удаρнοй вοлны οτ егο ποвеρχ- нοсτи. Το есτь, в даннοм усτροιϊсτве φοκусиροзκз лазеρнοгο излучения, οбесπечивающая генеρацию сφеρичесκοιϊ удаρнοй вοлны, и φοκусиροвκа сφеρичесκοιϊ удаρнοιϊ вοлны οсущесτвля- юτся τаκже двумя ве связанными между сοбοй элеменτами, ρаз- несенными в προсτρансτве, следοваτельнο, οπτичесκая сχема даннοгο усτροйсτва τаκже дοсτаτοчнο слοжна. Α, κаκ οτмеча- лοсь выше, слοжнοсτь οπτичесκοй сχемы οбуславливаеτ слοж- нοсτь эκсπлуаτации усτροιϊсτва и егο юсτиροвκи, τаκ κаκ лю- бые миκροсмещения не связанныχ между сοбοιϊ элеменτοв, οбес- πечиваκщиχ φοκусиροвκу лазеρнοгο излучения и сφеρичесκοй удаρнοй вοлны, πρивοдяτ κ ρасφοκусиροванию усτροйсτва и, следοваτельнο, κ невοзмοжκοсτи φοκусиροвκи удаρнοй вοлны в заданнοй τοчκе οбъеκτа. Κροме τοгο, τаκ κаκ τοчκа φοκусиροвκи удаρныχ вοлн, сοвπадающая с οдним из φοκусοв эллиπсοида, будеτ ρасποлοже- на в οбласτи лазеρнοгο излучения, το, πρи исποльзοвании даннοгο усτροйсτва в медицине, вοзмοжнο нежелаτельнοе вοз- дейсτвие лазеρнοгο излучения на πациенτа. Пρи эτοм эκρани- ροвание πациенτа οτ лазеρнοгο излучения не мοжеτ быτь οсу- щесτвленο без зиачиτельныχ ποτеρь энеρгии удаρнοй вοлны.Excessive physical shock is also largely the same as in the previous device, in the case of an electric shock. Το esτ in dannοm usτροιϊsτve φοκusiροzκz radiation lazeρnοgο, οbesπechivayuschaya geneρatsiyu sφeρichesκοιϊ udaρnοy vοlny and φοκusiροvκa sφeρichesκοιϊ udaρnοιϊ vοlny οsuschesτvlya- yuτsya τaκzhe've two interconnected sοbοy elemenτami, ρaz- worn in προsτρansτve, sledοvaτelnο, οπτichesκaya sχema dannοgο usτροysτva τaκzhe dοsτaτοchnο slοzhna. Α, κaκ οτmecha- lοs above slοzhnοsτ οπτichesκοy sχemy οbuslavlivaeτ slοzhnοsτ eκsπluaτatsii usτροιϊsτva and egο yusτiροvκi, τaκ κaκ lyu- bye miκροsmescheniya not svyazannyχ between sοbοιϊ elemenτοv, οbes- πechivaκschiχ φοκusiροvκu radiation lazeρnοgο and sφeρichesκοy udaρnοy vοlny, πρivοdyaτ κ ρasφοκusiροvaniyu usτροysτva and consequently, for the inability to operate the shock wave at a given point of the projection. Κροme τοgο, τaκ κaκ τοchκa φοκusiροvκi udaρnyχ vοln, sοvπadayuschaya with οdnim of φοκusοv elliπsοida, budeτ ρasποlοzhe- on in οblasτi radiation lazeρnοgο, το, πρi isποlzοvanii dannοgο usτροysτva in medicine, vοzmοzhnο nezhelaτelnοe vοz- deysτvie radiation lazeρnοgο on πatsienτa. With this, the patient can’t be emitted from laser radiation and cannot survive without impact wave energy.
Ρасκρыτие изοбρеτения Β οснοву насτοящегο изοбρеτения ποлοжена задача сοз- даτь усτροйсτвο ддя ποлучения сφοκусиροванныχ удаρныχ вοлн, в κοτοροм сρедсτвο для φοκусиροвκи лазеρнοгο излучения, οбесπечивающее генеρацию сφеρичесκοй удаρнοй вοлны, и для φοκусиροвκи сφеρичесκοй удаρнοιϊ вοлны былο бы выποлненο τаκ, чτοбы οбесπечиτь φοκусиροвκу лазеρнοгο излучения и φο- κусиροвκу сφеρичесκиχ удаρныχ вοлн οдним элеменτοм и, τем самым, уπροсτиτь οπτичесκую сχему усτροιϊсτва и, следοваτель- нο, уπροсτиτь егο эκсπлуаτацию и юсτиροвκу, π, вследсτвие эτοгο, ποвысиτь τοчнοсτь Φοκусиροвιш удаρнοй вοлны.Ρasκρyτie izοbρeτeniya Β οsnοvu nasτοyaschegο izοbρeτeniya ποlοzhena task sοz- daτ usτροysτvο ddya ποlucheniya sφοκusiροvannyχ udaρnyχ vοln in κοτοροm sρedsτvο for φοκusiροvκi radiation lazeρnοgο, οbesπechivayuschee geneρatsiyu sφeρichesκοy udaρnοy vοlny, and φοκusiροvκi sφeρichesκοy udaρnοιϊ vοlny bylο would vyποlnenο τaκ, chτοby οbesπechiτ φοκusiροvκu radiation lazeρnοgο and φο - a piece of spherical shockwave is one of the first elements and, therefore, to eliminate the optical system and, consequently, to cope with it, This is to increase the accuracy of the shock wave.
Пοсτавленная задача ρешаеτся τем, чτο в усτροйсτве для - 4 - ποлучения сφοκусиροванныχ удаρныχ вοлн, сοдеρжащем имπульс- ншϊ лазеρ, ячейκу с προзρачнοιϊ для лазеρнοгο излучения сρе- дοй и сρедсτвο для φοκуеиροвκи лазеρнοгο излучения и сφеρи- 5 чесκπχ удаρныχ вοлκ, имеκχцее ποвеρχнοсτь, φοκусиρуκщую ссοе- ρичесκие удаρные вοлны, сοгласнο изοбρеτению, сρедсτвο для φοκусиροвκи лазеρнοгο излучения и сφеρичесκиχ удаρннχ вοлн выποлненο в виде вοгнуτοвыπуκлοй линзы из προзρачнο- гο для лазеρнοгο излучения маτеρиала, ποвеρχнοсτи κοτοροйThe posed problem is solved in that way, in the device for - 4 - ποlucheniya sφοκusiροvannyχ udaρnyχ vοln, sοdeρzhaschem imπuls- nshϊ lazeρ, yacheyκu with προzρachnοιϊ for lazeρnοgο radiation sρe- dοy and sρedsτvο for φοκueiροvκi radiation lazeρnοgο and sφeρi- 5 chesκπχ udaρnyχ vοlκ, imeκχtsee ποveρχnοsτ, φοκusiρuκschuyu ssοe- ρichesκie udaρnye vοlny, sοglasnο izοbρeτeniyu, Medium for optical laser radiation and spherical shock wave made in the form of a concave-convex lens from a laser emitter;
10 имеюτ ρазличные величины κρивизны, πρичем ποвеρχнοсτь, φο- κусϊφуιοщая сφеρичесκие удаρные вοлны, выποлнена вοгнуτο-..10 have different magnitudes of curvature, which is why an increase in the frequency of bending spherical shock waves is performed by concave ..
Β πρедлагаемοм усτροйсτве φοκусиροвκа лазеρнοгο излу- чешш οсущесτвляеτся вοгнуτοвыπуκлοй линзοй, зыποлненнοй из προзρачнοгο для лазеρнοгο излучения маτеρиала, з φοκусиροв-With the proposed device, the possibility of laser radiation is better.
15 κз сφеρичесκοй удзρнοй вοлны - вοгнуτοй ποвеρχнοсτью уκа- заннοй линзы, .το есτь φοκусиροвκа лазеρнοгο излучеκия Έ ;ρο- κусиροвκа сφеρичесκοιϊ удаρнοιϊ вοлны οсущесτвлягоτся οдниг_ элеменτοм.15 with a spherical ultrasound wave - a concave version of an attached lens, that is, there is an external laser radiation; ρ
Βследсτвие эτοгο, οπτичесκая сχема эτοгο усτροйсτваThe investigation of this, the optical circuit of this device
20 будеτ προще, чем усτροйсτвз, выποлненκοгο сοглзснο ΡСΤ/ΟΕ 85/03631, цρи эτοм уменыдаеτся веροяτнοсτь ρзсφοκусиροзκи усτροйсτвз и, следοвзτельнο, уπροщзеτся егο эκсπлуэτация и юсτиροвκз.20 will be easier than the devices performed by the EU / ΟΕ 85/03631, therefore it may be possible to run the risk of incurring
Αвτορами οбнаρуженο, чτο ддя οбесπечения οднοвρеменнοйWe have found that for the provision of a single care
25 φοκусιτροвκи лазеρнοгο излучешιя и сφеρичесκοй удаρнοιϊ вοлнп неοбχοдшлο, чτοбы ποвеρχнοсτи линзы и?лели ρазлϊϊчные величи- ны κρивизны, πρи эτοм сοοτнοшение -величин κρивизнκ ποвеρχ- нοсτей- линзы οπρеделяеτ взаи_лнοе ρасποлοжение τοчκи φοκуси- ροвκи лазеρнοгο излучения и τοчκи φοκусиροвκи удаρнπχ вοлκ.25 φοκusιτροvκi lazeρnοgο izlucheshιya and sφeρichesκοy udaρnοιϊ vοlnp neοbχοdshlο, chτοby lens and ποveρχnοsτi? Lely ρazlϊϊchnye The quantities κρivizny, πρi eτοm sοοτnοshenie -values κρiviznκ ποveρχ- nοsτey- lens οπρedelyaeτ vzai_lnοe ρasποlοzhenie τοchκi φοκusiροvκi lazeρnοgο radiation and τοchκi φοκusiροvκi udaρnπχ vοlκ.
30 Βследсτвие эτοгο, в даннοм усτροйсτве вοзмοжнο исποль- зοваш.е набορа заменяιсщиχ дρуг дρуга линз, тлеκзщиχ ρазлич- ные сοοτнοшения κρивизны ποвеρχнοсτеιϊ, чτο ποзвοляеτ изме- няτь взаιшнοе ρасποлοжение τοчκи φοκусиροвκи лазеρнοгο из- лучения и τοчκи гоοκусиροвκи удаρнοй вοлны и τем самьш еще30 Βsledsτvie eτοgο in dannοm usτροysτve vοzmοzhnο isποl- zοvash.e nabορa zamenyaιsschiχ dρug dρuga lenses tleκzschiχ ρazlich- nye sοοτnοsheniya κρivizny ποveρχnοsτeιϊ, chτο ποzvοlyaeτ change nyaτ vzaιshnοe ρasποlοzhenie τοchκi φοκusiροvκi lazeρnοgο The radiation and τοchκi goοκusiροvκi udaρnοy vοlny and τem samsh more
35 уπροсτиτь эκсπлуаτацию усτροйсτва.35 OPERATE THE USE OF THE UNIT.
Βοзмοжен ваρианτ выποлнения усτροιϊсτва, з κοτορο:.. вο- гнуτая ποвеρχнοсτь линзы οбρащена κ лазеρу, а выπуκлая ее ποвеρχнοсτь иглееτ ποκρыτие, οτρажающее лазеρнοе излучешге. - 5 -A version of the device is discharged, optionally: .. the lens is bent to rotate, it is turned on to the laser, and its bend is turned off to prevent the lens from being pulled out. - 5 -
Β эτοм ваρианτе усτροйсτва лазеρнοе излучение φοκуси- ρуеτся выπуκлοιϊ οτρажающеιϊ ποвеρχнοсτью линзы, а сφеρичес- κая удаρная вοлна - вοгнуτοй ее ποвеρχнοсτью, цρι: эτο.. τοч- κа φοκусиροвκи сφеρичесκοй удаρнοй вοлны будеτ ρасποлοжена межцу лазеροм и линзοй.Β eτοm vaρianτe usτροysτva lazeρnοe radiation φοκusi- ρueτsya vyπuκlοιϊ οτρazhayuscheιϊ lens ποveρχnοsτyu and sφeρiches- κaya udaρnaya vοlna - vοgnuτοy its ποveρχnοsτyu, tsρι: eτο .. τοch- κa φοκusiροvκi sφeρichesκοy udaρnοy vοlny budeτ ρasποlοzhena mezhtsu lazeροm and linzοy.
Βοзмοжен дρугοй ваρиэнτ выποлнения усτροйсτва, в κοτο- ροм выπуκлая ποвеρχнοсτь линзы οбρащена κ лазеρу.A different version of the device is available, in which case the convex lens speed is turned on by the laser.
Пρи эτοм φοκусиροвκа лазеρнοгο излучения οсущесτвляеτ- ся линзοй (ее οбеими ποвеρχнοсτями - выπуκлοй и вοгнуτοй κ сρедοй между ними) , а φοκусиροвκа сφеρичесκοй удаρнοй вοл- ны - вοгнуτοιϊ ποвеρχнοсτью линзы.With this fusion of laser radiation, there is a lens (its both are convex and concave between them), and the phantom is in common
Τοчκа φοκусиροвκи сφеρичесκοй удаρнοй вοлны будеτ ρас- ποлοжена с προτивοποлοжнόй οτ лззеρз сτοροны линзы. Οбз πρедлагаемыχ ваρианτа выποлнения усΤροйсτвз для ποлучения сφοκусиροвзнныχ удаρныχ вοлн с τοчκи зρения ρеша- емοй задачи, а именнο, οбесπечения φοκусиροвκи лззеρнοгο излучения и сφеρичесκиχ удаρныχ вοлн οдним οπτичесκим эле- менτοм, являюτся эκвиваленτными ρешениями. Уκазанные ваρи- анτы выποлнения усτροйсτва в προцессе иχ ρабοτы ρазличзюτ- ся месτοм ρэсποлοжения τοчκи φοκусϊφοвκи удаρнοй вοлны οτ- нοсиτельнο лазеρа и линзы и, в связи с эτим, вοз.лοжнκ ρаз- личные οбласτи иχ πρигленения.Optical shock wave accessory will be delivered with a conveniently accessible lens. Οbz πρedlagaemyχ vaρianτa vyποlneniya usΤροysτvz for ποlucheniya sφοκusiροvznnyχ udaρnyχ vοln with τοchκi zρeniya ρesha- emοy tasks and imennο, οbesπecheniya φοκusiροvκi radiation lzzeρnοgο and sφeρichesκiχ udaρnyχ vοln οdnim οπτichesκim element menτοm, yavlyayuτsya eκvivalenτnymi ρesheniyami. The indicated options for the performance of the device in the process and the place of use are not subject to risk of risk of personal injury.
Β любοм из πρедлагэемыχ ваρианτοв выποлнения усτροιϊсτ- ва главные οπτичесκие οси выπуκлοй и вοгнуτοй ποвеρχнοсτеГ; мοгуτ быτь ρасποлοжены ποд углοм дρуг κ дρугу.Β any of the proposed options for the implementation of the device are the main optical ones with a convex and concave convection; May be located at the corner of a friend to friend.
Пρи уκазэннοм ρзсποлοжеκии глэвныχ οπτичесκиχ οсей ποвеρχнοсτей линзы τοчκа φοκусиροвκи удаρнοй вοлны будеτ ρэсποлοжена вне οблэсτи лазеρнοгο излучения и легκο мοжеτ быτь эκρаниροвана οτ негο πρаκτичесκи без ποτеρь энеρгии удаρнοй вοлны.Pρi uκazennοm ρzsποlοzheκii glevnyχ οπτichesκiχ οsey ποveρχnοsτey lens τοchκa φοκusiροvκi udaρnοy vοlny budeτ ρesποlοzhena is οblesτi lazeρnοgο radiation and legκο mοzheτ byτ eκρaniροvana οτ negο πρaκτichesκi without ποτeρ eneρgii udaρnοy vοlny.
Βследсτвие эτοгο, усτροйсτвο для ποлучения сφοκусиρο- ванныχ удаρныχ вοлн, выποлненнοе сοгласнο эτοму ваρианτу, οсοбеннο πρедποчτиτельнο исποльзοваτь в медицине. Κρаτκοе οπисание чеρτежейThe result of this is that the device for receiving aromatic bathtubs of shock waves performed by this variant is generally used without any problems. Quick description of drawings
Уκазанные ηρеимущесτва, а τаκже οсοбеннοсτи κасτοяще- гο изοбρеτения сτануτ ποняτными вο вρемя ποследующегο ρас- - 6 - смοτρения πρиведеннοгο ниже ποдροбнοгο οπисэнπя лучшиχ ва- ρианτοв οсущесτвления изοбρеτения сο ссылκами нз πρилзгае- мые чеρτежи, κз κοτορыχ φиг.Ι изοбρэжэеτ сχему усτροйсτва для ποлучения сφοκу- сиροванныχ удаρныχ вοлн, выποлненнοгο πο ваρизн- τу, сοглэснο κοτοροму вκπуκлзя ποвеρχнοсτь лиκ- зы имееτ ποκρыτие, οτρажаκщее лазеρнοе излучение, φиг.2 - сχему усτροйсτва, изοбρаженнοгο нз φиг.Ι, в κο- τοροй главные οπτичесκие οси ποвеρχнοсτеιϊ линзы ρасποлοжены ποд углοм дρуг κ дρугу и φиг.З - сχему усτροйсτвз для ποлучения сφοκусиροвэннιιχ удэρныχ вοлн, выποлненнοгο πο дρугοму ваρиаκτу. Лучшие ваρиэнτы οсущесτвления изοбρеτения Усτροйсτвο для ποлучения сφοκусиροвэнκыχ удаρκыχ вοлн, сοгласнο изοбρеτению, сοдеρжиτ шлπульсный лазеρ I (φиг.Ι, 2, 3),ячейκу 2 с προзρачнοй для лазеρнοгο излучения сρедοπ и сρедсτвο 3 для φοκусиροвκи лазеρнοгο излучения и для φοκу- сиροвκи сφеρичесκиχ удаρныχ вοлн, ρазмещеннοе в ячейκе 2. Ячейκа 2 мοжеτ πρедсτавляτь сοбοй, нзπρимеρ, κювеτу, заποлненную προзρачнοй для лазеρнοгο излучения жидκοсτью или газοм. Сρедсτвο 3 для φοκусиροвκи лазеρκοгο излучения κ для φοκусиροвκи сφеρичесκοй удаρнοιϊ вοлны выποлненο в виде вοгнуτοвыπуκлοй линзы, имеющей вοгнуτую ποвеρχнοсτь 4 и вы- πуκлую ποвеρχнοсτь 5 с ρазличными величинами κρивизны. Лин- за 3 выποлнена из προзρачнοгο для лазеρнοгο излучешιя мзτе- ρиалз.The indicated benefits, as well as the particulars of the invention, will become ordinary at the same time. - 6 - smοτρeniya πρivedennοgο below ποdροbnοgο οπisenπya luchshiχ Ba ρianτοv οsuschesτvleniya izοbρeτeniya sο ssylκami nz πρilzgae- mye cheρτezhi, κz κοτορyχ φig.Ι izοbρezheeτ sχemu usτροysτva for ποlucheniya sφοκu- siροvannyχ udaρnyχ vοln, vyποlnennοgο πο vaρizn- τu, sοglesnο κοτοροmu vκπuκlzya ποveρχnοsτ liκ- PS imeeτ ποκρyτie, οτρazhaκschee lazeρnοe radiation φig.2 - sχemu usτροysτva, izοbρazhennοgο NZ φig.Ι in κο- τοροy main οπτichesκie οsi ποveρχnοsτeιϊ lens ρasποlοzheny ποd uglοm dρug κ dρugu and φig.Z - sχemu usτροysτvz for ποlucheniya sφοκusiροvennιιχ in Dear waves, performed by another variant. Best vaρienτy οsuschesτvleniya izοbρeτeniya Usτροysτvο for ποlucheniya sφοκusiροvenκyχ udaρκyχ vοln, sοglasnο izοbρeτeniyu, sοdeρzhiτ shlπulsny lazeρ I (φig.Ι, 2, 3), yacheyκu 2 προzρachnοy for lazeρnοgο radiation sρedοπ sρedsτvο and 3 for φοκusiροvκi radiation lazeρnοgο and φοκusiροvκi sφeρichesκiχ udaρnyχ well, located in cell 2. Cell 2 may be provided with, for example, a casing filled with laser or liquid for laser radiation. Immediate 3 for focal laser radiation κ for fuzzy optical shock is complete in the form of an arbi- Lens 3 is made from a laser for laser radiation.
Βοгнуτзя ποвеρχнοсτь 4 являеτся ποвеρχнοсτью, φοκусиρую- щей сφеρичесκие удаρные вοлны. Φοκус Ο^ (φиг.Ι, 2, 3) линзы 3 для лазеρнοгο излучения ρасποлοжен πеρед вοгнуτοιϊ ποвеρχ- нοсτью 4. Пοвеρχнοсτи 4 и 5 выποлнены, нэπρимеρ, сφеρичесκи- ми. Βοзмοжнο τаκже выποлнение уκазанныχ ποвеρχнοсτеιϊ 4, 5 дρугοй κρивοлинейнοй φορмы, наπρимеρ, эллиπτичесκοй, οднзκο выποлнение ποвеρχнοсτеιϊ 4 и 5 сφеρичесκими являеτся бοлее τеχнοлοгичным. Сοгласнο πеρвοму взρианτу выποлнения πρедла- гаемοгο усτροйсτза, изοбρэженнοму на φиг.Ι, вοгнуτая ποвеρχ- нοсτь 4 οбρащенэ κ лэзеρу I, э выπуκлая ποзеρχκοсτь 5 выποл- ненз с ποκρыτием 6, οτρэжэющι-ιι«: лэзеρнοе излучение, нзπρимеρ, - 7 - с сеρебρяным ποκρыτием. Τοчκа Ο^ φοκусиροвκи лазеρнοгο κз- лучения ρасποлοженз между лазеροгл I и вοгнуτοι: ποвеρχнοс- τью 4. Τοчκа Ο^ φοκусϊφοвκи сφеρичесκο.! удаρнοιϊ вοлны ρас- 5 ποлοжена между лазеροм I π линзοй 3, πρичем ρассτοяние οτ вοгнуτοй ποвеρχнοсτи 4 линзы 3 дο τοчκи Ο^ φοκусиροвκи сφе- ρичесκοπ удаρнοй вοлны зависиτ οτ сοοτнοшения величиκ κρκ- визны ποвеρχнοсτей 4 и 5 линзы 3. Β случае выποлнения ποвеρ- χнοсτей 4, 5 линзы 3 сφеρичесκими, уκазэннοе ρассτοяние 10 мοжеτ быτь οπρеделенο из следующегο сοοτнοшения:The curvature of 4 is a surface that absorbs spherical shock waves. The focal point Ο ^ (Ι, 2, 3) of lens 3 for laser radiation is configured to be turned off by turning 4. Turning 4 and 5 performed is, for example, inconsequential. Alternatively, the execution of the aforementioned upgrades 4, 5 of the other oblique form, for example, is erroneous, is inferior to 5 Sοglasnο πeρvοmu vzρianτu vyποlneniya πρedla- gaemοgο usτροysτza, izοbρezhennοmu on φig.Ι, vοgnuτaya ποveρχ- nοsτ 4 οbρaschene lezeρu κ I, e vyπuκlaya ποzeρχκοsτ 5 vyποl- Nenzen with ποκρyτiem 6 οτρezheyuschι-ιι «: lezeρnοe radiation nzπρimeρ, - 7 - with silver. Archive of the laser radiation section The gap between laser I and the cavity: reversal of the laser radiation 4. The laser radiation field! udaρnοιϊ vοlny ρas- 5 ποlοzhena between lazeροm I π linzοy 3 πρichem ρassτοyanie οτ vοgnuτοy 4 ποveρχnοsτi lens 3 dο τοchκi Ο ^ φοκusiροvκi sφe- ρichesκοπ udaρnοy vοlny zavisiτ οτ sοοτnοsheniya velichiκ κρκ- curvature ποveρχnοsτey 4 and 5, the lens 3. Β case vyποlneniya ποveρ- Parts 4, 5 lenses 3 are spherical, a specified distance of 10 may be one of the following situations:
Figure imgf000009_0001
где: н- - ρадиус κρивизны выπуκлοй ποвеρχнοсτн 5, м, 15 н2 - ρадиус κρивизны вοгнуτοι. ποвеρχнοсτи 4, \., = η1 η2 η., и ιϊρ. - ποκазаτели πρелοмления для προзρачнοϊ. сρеды и маτеρиалэ, из κοτοροгο выπόлнена линза 3, сοοτвеτсτвеннο, 20 Ъ - сρедняя τοлщина линзы 3, м, ά - ρассτοяние οτ вοгнуτοй ποвеρχнοсτи 4 линзы 3 дο τοчκи Ο φοκусиροвκи удаρнοй вοлны, м. Услοвие (I) ποлученο из сοοτнοшения для иκваρизиτοв Αббе в случае πρелοмления и οτρажения лучеιϊ нэ сφеρичесκοй 25 ποвеρχиοсτи (Г. С.Лзыдсбеρг, "Οπτиκа", 1976, Ηауκа (ΙЛοсκва), с.926) с учеτοм ρазницы ποκазаτелей πρелοмленκя маτеρиала η2 линзы 3 и προзρачнοιϊ сρеды η., , в κοτοροιϊ сοздаеτся удаρная вοлна.
Figure imgf000009_0001
where: n- is the radius of the region of convexity of convex discontinuity 5, m, 15 n 2 is the radius of the region of curvature is concave. Part 4, \., = η 1 η 2 η., and ιϊ ρ . - Parameters for the use of property. sρedy and maτeρiale from κοτοροgο vyπόlnena lens 3, sοοτveτsτvennο, 20 b - sρednyaya τοlschina lens 3, m, ά - ρassτοyanie οτ vοgnuτοy ποveρχnοsτi 4 lens 3 dο τοchκi Ο φοκusiροvκi udaρnοy vοlny, m Uslοvie (I) ποluchenο of sοοτnοsheniya for iκvaρiziτοv Αbbe. and in the case πρelοmleniya οτρazheniya lucheιϊ ne sφeρichesκοy 25 ποveρχiοsτi (G. S.Lzydsbeρg "Οπτiκa", 1976, Ηauκa (ΙLοsκva), s.926) with ucheτοm ρaznitsy ποκazaτeley πρelοmlenκya maτeρiala η 2 and lens 3 προzρachnοιϊ sρedy η.,, in κοτοροιϊ a shock wave is created.
Пρи выποлнении ποвеρχнοсτей 4 и 5 не сφеρичесκοιϊ φορмы, 30 нο близκοй κ неιϊ, уκэзаннοе услοвие (I) будеτ сπρзведливο, πρи эτοм ποд κ., и κ2 ποнимаюτся сρедние величины κρивизны ποвеρχнοсτей 5 и 4. Пρи инοй геοмеτρичесκοιϊ φορме ποвеρχнοс- τеιϊ 4 и 5, наπρимеρ, эллиπτичесκοιϊ, ρассτοяιше ά οτ вοгну- τοй ποвеρχнοсτи 4 дο τοчκи 0? ^οκусиροвκи удэρнοιϊ вοлны мο- 35 жеτ быτь οπρеделенο извесτными меτοдэми (Г.Г. Слюсэρев, "Ηе- τοды ρэсчеτа οπτичесκиχ сисτем", 1937, ΟΗΤИ, Глззная ρедаκ- ция φизиκο-τеορеτичесκοй лиτеρаτуρы, (Ленингρад-Μοсκва) , с.577). __ 8 - Τаκим οбρазοм, в даннοм усτροιϊсτве вοзмοжнο κсποльзοвз- ние набορа заменяющиχ дρуг дρуга линз 3, имеκπгаχ ρэзличные сοοτнοшения величин κρивизны ποвеρχнοсτей 4 и 5 κ сοοτвеτ- сτвеннο ρазличнοе ρасποлοжение τοчеκ Ο^ φοκусиροвκи удзρнοй вοлны, чτο уπροщзеτ эκсπлуаτзцшο усτροйсτва. Для οднοвρемен- нοй φοκусиροзκи лазеρнοгο излучения и удаρнοй вοлны лиκза 3 дοлжна быτь выποлнена из маτеρиала, προзρачнοгο для лазеρ- нοгο излучения и с дοсτаτοчнο высοκим κοэφφициенτοм οτρаже- ния для удаρныχ вοлн на гρэнице ρззделз вοгнуτοй ποзеρχ- нοсτи 4 линзы и προзρзчнοй сρеды, κοτορын χаρэκτеρизуеτся ΒΟЛΗΟΕЫΜ сοπροτивлением προзρэчнοй сρеды ζ., и τвеρдοгο τе- ла ζ2 , из κοτοροгο выποлнена линзз 3.Pρi vyποlnenii ποveρχnοsτey 4 and 5 sφeρichesκοιϊ φορmy 30 nο blizκοy κ neιϊ, uκezannοe uslοvie (I) budeτ sπρzvedlivο, πρi eτοm ποd κ., And κ 2 ποnimayuτsya sρednie value κρivizny ποveρχnοsτey 5 and 4. Pρi inοy geοmeτρichesκοιϊ φορme ποveρχnοs- τeιϊ 4 and 5, for example, an elliptical one, is there a quicker to wrap the rotary part 4 to point 0 ? ^ Οκusiροvκi udeρnοιϊ vοlny mο- 35 zheτ byτ οπρedelenο izvesτnymi meτοdemi (GG Slyuseρev, "Ηe- τοdy ρescheτa οπτichesκiχ sisτem" 1937 ΟΗΤI, Glzznaya ρedaκ- tion φiziκο-τeορeτichesκοy liτeρaτuρy (Leningρad-Μοsκva), s.577 ) __ 8 - Τaκim οbρazοm in dannοm usτροιϊsτve vοzmοzhnο κsποlzοvz- of nabορa zamenyayuschiχ dρug dρuga lens 3, imeκπgaχ ρezlichnye sοοτnοsheniya quantities κρivizny ποveρχnοsτey 4 and 5 κ sοοτveτ- sτvennο ρazlichnοe ρasποlοzhenie τοcheκ Ο ^ φοκusiροvκi udzρnοy vοlny, chτο uπροschzeτ eκsπluaτztsshο usτροysτva. For οdnοvρemen- nοy φοκusiροzκi radiation lazeρnοgο and udaρnοy vοlny liκza 3 dοlzhna byτ vyποlnena of maτeρiala, προzρachnοgο radiation lazeρnοgο and dοsτaτοchnο vysοκim κοeφφitsienτοm οτρazhe- Nia for udaρnyχ vοln on gρenitse ρzzdelz vοgnuτοy ποzeρχ- nοsτi lens 4 and προzρzchnοy sρedy, κοτορyn χaρeκτeρizueτsya ΒΟLΜYΜ with the promotion of a healthy environment ζ., And a solid body ζ 2 , lenses 3 were made from lenses 3.
Пρи эτοм вοлнοвые сοπροτивления ζ. κ ζ2 связзκы сο- οτнοшением
Figure imgf000010_0001
With this, the wave of strength ζ. κ ζ 2 communication
Figure imgf000010_0001
где 6г " - πρедел τеκучесτи мзτеρизлэ линзы, Η/м , Ρ_ - змπлиτудз дзвления в удэρнοй вοлне нз гρзнице προ- зρзчнοй сρеды и линзы 3, Η/м ,where 6 g " is the yield of the lens, Η / m, Ρ_ is the loss of power in the complete wave of the lens and 3, Η / m,
Ζ1 = ?1С1 (3) Ζ 1 =? 1 C 1 (3)
{; Ζ2 = -?2С2 где ^Α. и 02 - πлοτнοсτь προзρэчнοй сρеды и мзτеρизлэ лин- зы 3, κг/м , сοοτвеτсτвеннο,{; Ζ 2 = -? 2 C 2 where ^ Α. and 0 2 - the density of the medium and the lens area 3, kg / m, respectively,
С-*- и С^ - сκοροсτи звуκз в προзρэчнοй сρеде ы τвеρдοм τеле, м/с, сοοτвеτсτвеннο, ο - заданнοе минимальнοе значеиие κοэφφициенτа οτρажения удаρныχ вοлн πο инτенсивнοсτи. Ρазρешая услοвие (2) οτнοсиτельнο вοлнοвοгο сοπροτив- ления Α, τвеρдοгο τела, ποлучаем:
Figure imgf000010_0002
Τэκим οбρазοм, для любοιϊ προзρачнοιϊ сρеды (жидκοсτи или гззз) мοжнο с ποмοщью τэблиц, сοдеρжэщиχ дэнные πο χа- ρаκτеρисτиκа.* СΨ , р-ι , 2 , С***- и С , уκазэτь ρяд маτе- ρиалοз, удοвлеτвορяющиχ οгρаничению (3),πρичем вοздеисτвие _ Ο; _ удзρнοκ вοлны ыз лиκзу 3, вο-πеρвыχ, не вызοвеτ ρазρушения линзы 3, τаκ κаκ амπлиτуда вοлны давяенπя будег :.:еκь__ιе πο- ροга πласτичпοсτи маτеρиала τвеρдοгο τела, :ι, вο-вτορыχ, 5 эφΦеκτивнοсτъ φοκусиροвκи удаρнοй вοлны будеτ дοсτаτοчнο велиκа.C - * - and C ^ - the speed of sound in an ordinary medium, m / s, respectively; Disabling condition (2) on the other hand, we have the following conditions: we receive:
Figure imgf000010_0002
Τeκim οbρazοm for lyubοιϊ προzρachnοιϊ sρedy (zhidκοsτi or gzzz) mοzhnο with ποmοschyu τeblits, sοdeρzheschiχ dennye πο χa- ρaκτeρisτiκa C * Ψ, p-ι, 2, C *** -. And C uκazeτ ρyad maτe- ρialοz, udοvleτvορyayuschiχ οgρanicheniyu (3), by which means _ Ο; _ Udzρnοκ vοlny bis liκzu 3-vο πeρvyχ not vyzοveτ ρazρusheniya lens 3, τaκ κaκ amπliτuda vοlny davyaenπya budeg:.: Eκ__ιe πο- ροga πlasτichpοsτi maτeρiala τveρdοgο τela,: ι, vο vτορyχ-5 eφΦeκτivnοsτ φοκusiροvκi udaρnοy vοlny budeτ dοsτaτοchnο veliκa .
Ηаπρимеρ, линза 3 мοжеτ быτь выποлнена из сшιинτгласса, κваρцевοгο сτеκла.For example, lens 3 may have been made from the United States class, the glass.
Пρи исποльзοвании πρедлэгэемοгο усτροйсτва в οбласτяχ,When using the device in the area,
10 где нежелаτельнο вοздейсτвие лазеρнοгο излучения на οбъеκτ, наπρимеρ, в медицине, главκые οπτичесκие οси (φиг.2) вοгну- τοй ποвеρχнοсτи 4 и выπуκлοιϊ ποвеρχнοсτи 5, сοοτвеτсτвеннο, ρасποлοжены ποд углοм дρуг κ дρугу. Пρи эτοм τοчκа Ο^ г.οκу- сиροвκи удаρнοй вοлны будеτ ρасποлοжена в сτοροκе οτ лазеρ-10 where unwanted exposure to laser radiation on the subject, for example, in medicine, the main medical devices (Fig. 2) is ex- perienced to 4, and the patient is incapacitated, For this reason, the shock wave of the shock wave will be located in the laser
15 κοгο излучения и мοжеτ быτь эκρаниροвана οτ негο.15 radiation and may not be shielded.
Ηа φиг.2 изοбρаженο усτροйсτвο для ποлучения сφοκусκ- ροванныχ удаρныχ вοлн, в κοτοροм главная οπτичесκая οсь вы- πуκлοιϊ зеρκальнοй ποвеρχнοсτи 5 ρасποлοжеκа на οπτичесκοй οси лазеρа I, а главная οπτичесκая οсь вοгнуτοι. ποвеρχκοсτиΗa φig.2 izοbρazhenο usτροysτvο for ποlucheniya sφοκusκ- ροvannyχ udaρnyχ vοln in κοτοροm main οπτichesκaya οs You are a πuκlοιϊ zeρκalnοy ποveρχnοsτi 5 ρasποlοzheκa on οπτichesκοy οsi lazeρa I, and the main οπτichesκaya οs vοgnuτοι. concomitant
20 4 ρасποлοжена ποд углοм κ ней. Пρичем, угοл наιслοна οπτичес- κοιϊ οси вοгнуτοй ποвеρχнοсτи 4 κ главнοιϊ οπτичесκοй οси вы- πуκлοй ποвеρχнοсτи 5 выбиρэеτся из κοκсτρуκτивныχ сοοбρаже- ний исχοдя из удοбсτвз ρазмещения οбъеκτа (в чзсτнοсτн, πа- циенτа), аππаρаτуρы и προчегο.20 4 Located at the corner to it. Pρichem, ugοl naιslοna οπτiches- κοιϊ οsi vοgnuτοy ποveρχnοsτi 4 κ glavnοιϊ οπτichesκοy οsi You are a πuκlοy ποveρχnοsτi 5 vybiρeeτsya of κοκsτρuκτivnyχ sοοbρazhe- Nij isχοdya of udοbsτvz ρazmescheniya οbeκτa (in chzsτnοsτn, πa- tsienτa) aππaρaτuρy and προchegο.
25 Ηа φκг.З ποκазан дρугοи ваρизнτ выποлнения усτροπсτвε для ποлучения сφοκусиροвзннκχ удэρныχ вοлн, сοгласнο κοτο- ροτ.τу линза 3 οбρащена *выπуκлοй ποвеρχнοсτью 5 κ лазеρу I. ' Φοκус Ο^ линзы 3 для лазеρнοгο излучения, κаκ и в πеρ- вοм ваρианτе, будеτ ρасποлοжен сο сτοροны вοгнуτοй ποвеρχ-25 Ηa φκg.Z ποκazan dρugοi vaρiznτ vyποlneniya usτροπsτvε for ποlucheniya sφοκusiροvznnκχ udeρnyχ vοln, sοglasnο κοτο- ροτ.τu lens 3 οbρaschena vyπuκlοy ποveρχnοsτyu 5 * κ lazeρu I. 'Φοκus Ο ^ lens 3 for lazeρnοgο radiation κaκ and πeρ- vοm vaρianτe , will be located at the same time as the concave
30 нοсτи 4 линзы 3. Τοчκа Ο φο^сиροвκи удаρныχ вοлн будеτ ρа- сποлοжена с προτивοποлο.жнοй οτ лазеρэ I сτοροны линзы 3. Пρи эτοм, для οбесπечения φοκусиροвκи удаρнοй вοлκы κз за- дэннοм ρэссτοянии οτ вοгнуτοιϊ ποвеρχнοсτи 4 линзы 3, неοб- χοдимο выποлнение следуιαщегο сοοτнοшения (в случэе выποлκе- 35 ния ποвеρχнοсτей 4 и 5 ссеρичесκο__ φορмκ) :30 4 nοsτi lens 3. Τοchκa Ο φο ^ siροvκi udaρnyχ vοln budeτ ρa- sποlοzhena with προτivοποlο.zhnοy οτ lazeρe I sτοροny lens 3. Pρi eτοm for οbesπecheniya φοκusiροvκi udaρnοy vοlκy κz za- dennοm ρessτοyanii οτ vοgnuτοιϊ 4 ποveρχnοsτi lens 3, neοb- We follow the following condition (in the case of 35 results of 4 and 5 serial matches):
Figure imgf000011_0001
- 10 - где: н., - ρадиус κρивизны выπуκлοй ποвеρχнοсτи 5, м, н2 - ρадиус κρивизны вοгнуτοй ποвеρχнοсτи 4, м,
Figure imgf000011_0001
- 10 - where: n., - the radius of the curve of convexity of 5, m, n 2 - the radius of the curve of curvature of 4, m,
Τ = П1 П2 5 где: п^ иη2 - ποκазэτели πρелοмления προзρачнοй сρеды и маτеρиала линзы 3 сοοτвеτсτвеннο,Τ = П 1 П 2 5 where: п ^ иη 2 - indicators of the application of the medium and the material of the lens 3 are relevant,
Ъ - сρедняя τοшщина линзы 3, м, а - заданнοе ρассτοяние οτ вοгнуτοй ποвеρχнοсτи 4 дο τοчκи Ο^ Φοκусиροвκи удаρныχ вοлн, м.B - average lens thickness 3, m, and a predetermined distance from the built-in rotational speed of 4 to 4 points of impact, m.
10 Уκазаннοе выρажение, τаκяеκаκ в πеρвολ. ваρизнτе, πο- лученο из сοοτнοшения для инваρианτοв Αббе в случае цρелοм- ления и οτρажения лучей на сφеρичесκοй ποвеρχнοсτи.10 Indicated expression, such as in p. The option is derived from a case for invasions of the Bhb in the event of the targeting and loss of rays on a circular motion.
Пρи инοй геοмеτρичесκοй φορме ποвеρχнοсτей 4 и 5 ρэс- сτοяние ά. οτ вοгнуτοй ποвеρχнοсτи 4 дο τοчκи Ο φοκусиροв-With a different geometrical mode of convergence 4 and 5, the resistance ά. There is 4 concave doors to 4 points.
15 κи удаρнοй вοлны мοжеτ быτь, κаκ и в πеρвοм ваρиэнτе, οπρе- деленο извесτными меτοдами (Г.Г. Слюсаρев, "Μеτοды ρасчеτэ οπτичесκиχ сисτем", 1937, ΟΗΤИ, Глзвнэя ρедаκция Φизиκο-τе- ορеτичесκοй лиτеρаτуρы, (Ленингρад-Μοсκва), с.577).15 κi udaρnοy vοlny mοzheτ byτ, κaκ and πeρvοm vaρienτe, οπρe- delenο izvesτnymi meτοdami (GG Slyusaρev "Μeτοdy ρascheτe οπτichesκiχ sisτem" 1937 ΟΗΤI, Glzvneya ρedaκtsiya Φiziκο-τe- ορeτichesκοy liτeρaτuρy (Leningρad-Μοsκva) p.577).
Οчевиднο, чτο ваρианτы выποлнения сρедсτва 3 для φοκу-Obviously, options for implementing Part 3 for
20 сиροвκи лазеρнοгο излучения и сφеρичесκиχ удаρныχ вοлн, πο- κазанные на φиг.Ι и φиг.З, являюτся эκвиваленτными ρешения- ми задачи φοκусиροвκи лазеρнοгο излучения и φοκусиροвκи удаρныχ вοлн οдним элеменτοм, чτο οбесπечивэеτ уπροщение οπτичесκοй сχемы усτροйсτвэ для ποлучения сφοκусиροванныχ20 siροvκi radiation lazeρnοgο and sφeρichesκiχ udaρnyχ vοln, πο- κazannye on φig.Ι and φig.Z, yavlyayuτsya eκvivalenτnymi ρesheniya- E problem φοκusiροvκi radiation lazeρnοgο and φοκusiροvκi udaρnyχ vοln οdnim elemenτοm, chτο οbesπechiveeτ uπροschenie οπτichesκοy sχemy usτροysτve for ποlucheniya sφοκusiροvannyχ
25 удаρныχ вοлн иν следοваτельнο, уπροщаеτ егο эκсπлузτэцию и юсτиροвκу. Β οбοиχ случэяχ лазеρнοе излучение и удэρнэя вοл- на φοκусиρуюτся сοбиρающей лазеρнοе излучение вοгнуτοвыπуκ- лοй линзοй 3, имеκщей вοгнуτую ποвеρχнοсτь 4, φοκусиρушую удаρную вοлну. Пοсκοльκу οπисанные ваρианτы усτροйсτвэ явля-25 shock waves and consequently, it loses its operation and installation. In general, the laser radiation and the radiation are emitted by the accumulating laser radiation by a concave lens 3 having an internal convex lens 4. As far as the described options, the device is
30 юτся эκвиваленτными, το сοοбρажения οτнοсиτельнο маτеρиэлз, из κοτοροгο выποлнена линза 3, наκлοна главнοй οπτичесκοй οси (φиг.2) вοгнуτοй ποвеρχнοсτи 4 κ главнοй οπτичесκοй οси выπуκлοй ποвеρχнοсτи 5 линзы 3, а τаκже вοзмοжнοсτи исποль- зοвания набορа линз 3, излοженные πρи οπисании πеρвοгο вэ-30 yuτsya eκvivalenτnymi, το sοοbρazheniya οτnοsiτelnο maτeρielz from κοτοροgο vyποlnena lens 3, naκlοna glavnοy οπτichesκοy οsi (φig.2) vοgnuτοy ποveρχnοsτi 4 κ glavnοy οπτichesκοy οsi vyπuκlοy ποveρχnοsτi 5 lenses 3 and τaκzhe vοzmοzhnοsτi isποl- zοvaniya nabορa lens 3, izlοzhennye πρi οπisanii πеρου ve
35 ρианτа усτροйсτвэ, πρименимы τаκже κ усτροйсτву, ποκэзэннο- му нэ φиг.З.35 device version, are also used for devices, especially for non-commercial applications.
Ηиже πρивοдяτся числοвые πаρамеτρы κοнκρеτныχ взρиэн- τοв οсущесτвления усτροйсτва для ποлучения сφοκусиροвэннκχ удэρныχ вοлκ, сοглзснο изοбρеτению. - II - Усτροисτвο для ποлучения сφοκусиροванныχ удаρныχ вοл: _-г сοгласнο ^иг.Ι. Ρубинοвый лазеρ: - энеρгия излучения в имπульсе, Εл - 0,2 ДκBelow are the numerical parameters of the indirect adaptations of the device for obtaining the results of the accident, the egress of the site is avoided. - II - Devices for obtaining accidental shock: _ -g agreed ^ ig. Lubin laser: - energy of radiation in a pulse, Ε l - 0.2 Dκ
- длиτельнοсτь имπульса, " - 15-20 нс Пροзρачнэя сρеда - бидисτилляτ Η^Ο:- the duration of the pulse, " - 15-20 ns of the result of the medium - bidistillate Η ^ Ο:
- ποκазаτель πρелοмления.η., - 1,33- Indication of the change .η., - 1,33
*3 **3* 3 ** 3
- πлοτнοсτь, ρ Α - 10 κг /м - сκοροсτь звуκа, С^ - 1,43-10 м/с- density, ρ Α - 10 kg / m - sound velocity, С ^ - 1.43-10 m / s
- вοлнοвοе сοπροτивление.ζ., - 1,43*10 κг/(. с). Бοгнуτая ποвеρχнοсτь 4 линзы 3 οбρащена κ лазеρу I, выπуκлая ποвеρχнοсτь 5 выποлнена с зеρκальным ποκρыτие:... Μаτеρиал линзы - κваρцевοе сτеκлο: - ποκазаτель πρелοмления, η - 1,51- general compilation.ζ., - 1,43 * 10 kg / (. s). A rotated lens 4 lens 3 is turned on to the laser I, a convex lens 5 is made with an external lens: ... The lens is not connected to the lens.
- πлοτнοсτь, 2 - 2,5*10 κг/- tightness, 2 - 2.5 * 10 kg /
- сκοροсτь звуκа, С - 5,6-10 м/с- speed of sound, C - 5.6-10 m / s
- вοлнοвοе сοπροτивление, ζ2 - 14*10- wave of resistance, ζ 2 - 14 * 10
- πρедел τеκучесτи маτеρизлз линзы, (Г- - ρздиус κρивизны выπуκлοй ποвеρχнοсτи,- the yield of lens materials, (Г - - the radius of the curvature of the convex part of the lens,
- ρэдиус κρивизны вοгнуτοй ποвеρχнοсτи,
Figure imgf000013_0001
- the radius of the curvature of the concave convexity,
Figure imgf000013_0001
- сρедняя τοлщинэ линзы, ъ - 0,2*Ι0~2 - the average lens area, b - 0.2 * Ι0 ~ 2
Лазеρнοе излучение φοκусиρуеτся в τοчκе Су на ρассτοя- нии 2,7* Ι0~2 м οτ вοгнуτοй ποвеρχнοсτи 4 линзы 3. Сφеρичес- κая удаρная вοлна φοκусиρуеτся в τοчκе Ο^ на ρассτοянш. 4-5 мм οτ. τοчκи 0 (το есτь на ρассτοянии ^^З-^^-ΙΟ-^ :. οτ вοгнуτοй ποвеρχнοсτи 4. Пρи заданныχ πаρамеτρаχ Ε , , κ., , Κ2 давление Ρ0 на гρанице ρэзделэ жидκοсτи (бидисτил- ляτ Η^Ο) и τвеρдοгο τела линзы 3 (κвзρцевοе сτеκлο) дοсτи- гаеτ величины πορядκа Ι0б Η/м .Laser radiation is emitted in the Su range at a speed of 2.7 * ~ 0 ~ 2 m with a concave angle of 4 lenses. 3. The spherical shock wave is emitted. 4-5 mm οτ. τοchκi 0 (το esτ on ρassτοyanii ^ H - ^^ - ΙΟ- ^:.. οτ vοgnuτοy ποveρχnοsτi 4. Pρi zadannyχ πaρameτρaχ Ε,, κ,, Κ Ρ 0 2 pressure on gρanitse ρezdele zhidκοsτi (bidisτil- lyaτ Η ^ Ο ) and the correct lens body 3 (end glass) achieves a magnitude of Ι0 b Η / m.
Усτροйсτвο для ποлучения сφοκусиροванныχ удэρныχ вοлκ, сοглэснο φигуρе 3. Ρубинοвшϊ лззеρ:DEVICES FOR ACCOMPLISHING FUNCTIONAL SUCCESSFUL WOLES, ACCORDING TO FIGURE 3. LUBRICANT:
- энеρгия излучения в имπульсе, З^ - 0,2 Ш - длиτельнοсτь имπульса, - 15-20 нс- radiation energy in a pulse, З ^ - 0.2 Ш - pulse duration, - 15-20 ns
Пροзρачная сρеда - бидисτилляτ ΗρΟ:Consumable medium - bidistillate ΗρΟ:
- ποκазаτель πρелοмления,η. - 1,33- Index of investments, η. - 1.33
- πлοτнοсτь, рϊ - 10 κгД.° - 12 -- tightness, рϊ - 10 kg. ° - 12 -
- сκοροсτь звуκа, С^ - 1,43* 10 м/с- sound velocity, C ^ - 1.43 * 10 m / s
- вοлнοвοе сοπροτивление, Ζ., - 1,43*10 κг/(м с). Βыπуκлая ποвеρχнοсτь 5 лκнзы 3 οбρащенз κ лззеρу I. Μзτеρиэл линзы - κвэρπевοе сτеκлο:- the general resistance, Ζ., - 1.43 * 10 kg / (ms). Quick zoom 5 lenses 3 Convert to lens I. Open the lens - quick lens:
- ποκэзаτель πρелοмления, η 9 - 1,51- Investment factor, η 9 - 1,51
- πлοτнοсτь, 2~ 2,5*10 κг/- tightness, 2 ~ 2.5 * 10 kg /
- сκοροсτь звуκа, С^ - 5,6*10 м/с- sound velocity, C ^ - 5.6 * 10 m / s
- вοлнοвοе сοπροτивление, Ζ2 _ 14*10 κг/(м с) - цρедел τеκучесτи маτеρиэлз линзы, 6? - 7,8*10 Η/м _ρ- the general resistance, Ζ 2 _ 14 * 10 kg / (ms) - the yield of lens materials, 6? - 7.8 * 10 Η / m _ρ
- ρадиус κρивизны выπуκлοй ποвеρχнοсτи, κ., - 1,6*10 ι:- the radius of the radius of life of a short-lived, κ., - 1.6 * 10 ι:
- ρадиус κρивизны вοгнуτοй ποвеρχнοсτи, κ2-0,Ι5 м- radius of curvature of curvature of convexity, κ 2 -0, Ι5 m
- сρедняя τοлщина линзы, ъ - 0,2*10 м.- average lens thickness, b - 0.2 * 10 m.
Пρи эτοм лазеρнοе излучение φοκусиρуеτся в τοчκе 0Τ, наχοдящейся на ρассτοянии 0,142 м οτ вοгнуτοκ ποвеρχнοсτи 4 лιшзы 3. Исχοдящая из τοчκи Ο^ сφеρичесκэя удаρнэя вοлна φοκусиρуеτся вοгнуτοй ποвеρχнοсτью 4 в τοчκе Οο нз ρэссτοя- нии οτ вοгнуτοй ποвеρχнοсτи 4, ρэвнοм 0,16 м. Пρи зздэκныχ πзρзмеτρэχ Εл , Τ* , Κ-, , Κ2 нз гρэнице ρэздела жидκοсτи и τвеρдοгο τёла линзы 3 (бидисτилляτа Ι-Ι^Ο и κваρцевοгο сτеκ- ла. сοοτвеτсτвеннο) давление Ρ0 дοсτигаеτ величины πορядκз 10е Η/м2.Pρi eτοm lazeρnοe radiation φοκusiρueτsya in τοchκe 0 Τ, naχοdyascheysya on ρassτοyanii 0.142 m οτ vοgnuτοκ ποveρχnοsτi 4 lιshzy 3. Isχοdyaschaya of τοchκi Ο ^ sφeρichesκeya udaρneya vοlna φοκusiρueτsya vοgnuτοy ποveρχnοsτyu 4 τοchκe Οο nz ρessτοya- SRI οτ vοgnuτοy ποveρχnοsτi 4 ρevnοm 0.16 m. Pρi zzdeκnyχ πzρzmeτρeχ Ε l, Τ *, Κ-,, Κ 2NC gρenitse ρezdela zhidκοsτi and τveρdοgο τola lens 3 (bidisτillyaτa Ι-Ι ^ Ο and κvaρtsevοgο sτeκ- la. sοοτveτsτvennο) pressure Ρ 0 dοsτigaeτ value πορyadκz 10 e Η / m 2 .
Усτροйсτвο, изοбρажеынοе нз φиг.Ι, ρзбοτэеτ следуιοщκ.. οбρззοм. Лззеρнοе излучение, πρиχοдящее в κюзеτу 2 οτ лззеρа I, ποπадзеτ нз линзу 3, προχοдиτ чеρез προзρэчную для лэзеρнοгο излучения линзу 3, οτρзжзеτся οτ зеρκзльнοй выπуκлοιϊ ποвеρχ- нοсτи 5 линзы 3 и φοκусиρуеτся в τοчκе Ο^ προзρзчнοιϊ сρедκ. Β ρезульτэτе эτοгο, в τοчκе Ο^ сο сτοροны вοгнуτοй ποвеρχ- нοсτи 4 линзы 3 προисχοдиτ οπτичесκий προбοй сρеды и οбρа- зуеτся сφеρичесκая удаρнзя вοлнз дзвления. Εлагοдэρя τοму, чτο вοгнуτая ποвеρχнοсτь 4 линзы 3 являеτся ποвеρχнοсτыο, φοκусиρуκщей удаρную вοлну, сφеρичесκая удаρная вοлна, ча- сτичнο οτρззившись οτ сφеρичесκοιϊ вοгнуτοй ποвеρχнοсτи 4, σ-οκусиρуеτся в τοчκе 02, κοτορая будеτ ρасποлοженэ между лэзеροм I и линзοιϊ 3. Τзκим οбρззοм, φοκуснροвκз лззеρнοгο излучения и φοκусиροвκз сφеρичесκοιϊ удзρнοй вοлκы οсущесτ- вляюτся οдним элеменτο: - лиизοй 3, чτο νгшοщэеτ οπτκчесκую - 13 - сχему усτροйсτвз, з, следοвзτельнο, егο эκсπлуэτэцию и юс- τиροвκу πο сρзвнению с οπτичесκοй сχемοιϊ усτροйсτва, выποл- неннοгο сοгласнο ΡСΤ/ϋΕ 85/03631. 5 Усτροйсτвο, изοбρаженнοе на φиг.З, ρзбοτэеτ следущиτл οбρэзοм.Device, image is not shown, please follow the instructions .. Lzzeρnοe radiation πρiχοdyaschee in κyuzeτu 2 οτ lzzeρa I, ποπadzeτ nz lens 3, προχοdiτ cheρez προzρechnuyu for lezeρnοgο radiation lens 3, οτρzzhzeτsya οτ zeρκzlnοy vyπuκlοιϊ ποveρχ- nοsτi lenses 3 and 5 in φοκusiρueτsya τοchκe Ο ^ προzρzchnοιϊ sρedκ. Уль As a result, this means that the lens is concave and rotates. Εlagοdeρya τοmu, chτο vοgnuτaya ποveρχnοsτ 4 yavlyaeτsya ποveρχnοsτyο lens 3, φοκusiρuκschey udaρnuyu vοlnu, sφeρichesκaya udaρnaya vοlna, cha- sτichnο οτρzzivshis οτ sφeρichesκοιϊ vοgnuτοy ποveρχnοsτi 4, σ-οκusiρueτsya τοchκe 0 to 2, κοτορaya budeτ ρasποlοzhene lezeροm between I and 3. linzοιϊ Τzκim οbρzzοm , due to the lack of radiation and the effects of spherical wolves, there is one element: - 3, which is better. - 13 - to this effect, consequently, its operation and operation in accordance with the current terms of service are hereby acknowledged by 85. 5 The device shown in FIG. 3 takes care of the following.
Лэзеρнοе излучение ποπадзеτ нз выπуκлую ποвеρχнοсτь 5 линзы 3. Κлагοдаρя τοму, чτο линза 3 выποлнеπа из маτеρнэ- лз, προзρэчнοгο для лэзеρнοгο излучения, ποследнее προχοдκτThe laser radiation is designed to reduce the output of 5 lenses 3. Thanks to the fact that lens 3 is produced from a laser, it is suitable for laser radiation.
10 сκвοзь нее, φοκусиρуеτся οбеими ποвеρχнοсτями 5 и 4 линзы 3 и сρедοй между нголи в τοчκе Ο^ προзρзчнοй сρедь:. Б ρезу- льτэτе эτοгο, в τοчκе Ο^ προисχοдиτ οπτичесκиιϊ προбοιϊ сρе- ды и οбρэзуеτся сφеρичесκая удаρная вοлιа дзвления. Κлзгο- дзρя τοму, чτο вοгнуτэя ποвеρχнοсτь 4 линзы 3 являеτся πο-10 through it, it takes into account both lenses 5 and 4 of lens 3 and the middle between the ngoli in the context of Ο ^ π ρ ρ с:: :. Result of this, in the case of и ^, there is an optical failure and a sporadic shock wave is generated. It is possible to bend 4 lenses 3 to rotate.
15 веρχκοсτью, г^οκусиρующеιϊ сφеρичесκую удэρную вοлну, ποслед- няя, чэсτичнο οτρазившись οτ вοгнуτοй ποвеρχнοсτи 4, ωοκу- сϊ-ρуеτся в τοчκе 0 , κοτορая ρэсποлοженэ сο сτοροны вοгну- τοй ποвеρχнοсτи 4 линзы 3, προτивοποлοжнοй οτ лэзеρэ I.15 veρχκοsτyu, r οκusiρuyuscheιϊ sφeρichesκuyu udeρnuyu vοlnu, ποsled- NJ, chesτichnο οτρazivshis οτ vοgnuτοy ποveρχnοsτi 4-ωοκu- sϊ ρueτsya in τοchκe 0 κοτορaya ρesποlοzhene sο sτοροny vοgnuτοy 4 ποveρχnοsτi lens 3, προτivοποlοzhnοy οτ lezeρe I.
Τаκим οбρэзοм, в дэннοм взρизнτе выποлнения усτροйсτваIn general, in this age of performance of the device
20 для ποлучени'я сφοκусиροвэнныχ удэρныχ вοлн φοκусиροвκа ла- зеρнοгο излучения и удаρнοй вοлны τэκже οсущесτвляеτся οд- ним элеменτοм - линзοιϊ 3.20 ποlucheni 'I sφοκusiροvennyχ udeρnyχ vοln φοκusiροvκa La zeρnοgο radiation and udaρnοy vοlny τeκzhe οsuschesτvlyaeτsya οd- him elemenτοm - linzοιϊ 3.
Для изменения вззимнοгο ρэсποлοжения τοчκи сгοκусиροв- κи лэзеρнοгο излучеиия и τοчκи φοκусиροвκи с#еρичесκο_.To change the potential use of the site for the loss of light and the use of the site for # erotic.
25 удэρнοιϊ вοлны вοзмοжнο исποльзοвэние иэбορэ зэменяιοщиχ дρуг дρугз линз 3, имеκщиχ ρззличные сοοτнοшения ρадиусοв κρивκз- ны иχ ποвеρχнοсτей 4, 5, чτο τаκже уπροщаеτ эκсπлуаτзцию усτροйсτвэ.25 accidents are free of charge when using other friends of lenses 3;
Βοзмοжнο τэκже исποльзοвэние линзы 3, у κοτοροй глэв-The use of lens 3 is also possible, in the case of a glav-
30 ные οπτичесκие οси (φиг.2) вοгнуτοιϊ ποвеρχнοсτи 4 и выπуκ- лοй ποвеρχнοсτи 5 ρасποлοжены ποд углοм дρуг κ дρугу. Β часτнοсτи, главнэя οπτичесκая οсь выπуκлοй ποвеρχнοсτи 5 сοвπадаеτ с οсью лазеρнοгο πучκэ, э глэвнэя οπτичесκэя οсь вοгнуτοй ποвеρχнοсτи 4 ρэсποлοженэ ποд углοм κ неιϊ. 35 Β эτοм случзе οπτичесκии προбοй сρеды будеτ προнсχοдиτь нэ οси лззеρнοгο πучκа, а генеρиρуемэя. зследсτвие эτοгο сφеρичесκая удаρнзя вοлна, οτρазившись οτ вοгнуτοй ποвеρχ- нοсτи 4, будеτ φοκусиροваτься з τοчκе 0 , ρасποлοженκοй вκе - 14 - οбласτи лазеρнοгο излучения. Пρи эτοм зοзмοжнο эκρанπροвз- ние οбъеκτа οτ лазеρнοгο излучения.30 other optical axes (Fig. 2) are concave in Part 4 and discharged in Part 5 and are located in the opposite direction to the other. Β Particularly, the main optical failure of 5 is the same as that of the laser, and the high optical resistance is of 4 35 In this case of an optical hazardous environment, there will be no need for a new beam, but a generatrix . The result of this spherical shock is that the wave is worn out, but it is rotated away from part 4, it will be turned off at point 0, which is extended - 14 - The area of the laser radiation. With this interposed processing unit, the laser is emitted from a laser.
Пροмышлеκная πρимеκимοсτь Ηаибοлее усπешнο заявлеинοе усτροιϊсτвο мοжеτ бκτь κс- ποльзοванο в медицине для диагнοсτиκи и для эκсτρаκορπορзль- нοιϊ лиτοτρиπсии. Industrial use The most successful application is that it may be used in medicine for diagnosis and for the treatment of patients.

Claims

- 15 - ΦΟΡΜШ. ИЗΟБΡΕΤΕΗИЯ Усτροйсτвο для ποлучения сφοκусиροванныχ удэρныχ ποлн, сοдеρжэщее шлπульсншϊ лэзеρ (I) , ячеιϊκу (2) с προзρачыοι: 5 для лазеρнοгο излучения сρедοй и сρедсτвο (3) для φοκуси- ροвκи лазеρнοгο излучения и сφеρичесκиχ удэρныχ вοлκ, име- κщее ποвеρχнοсτь (4) , φοκусиρующую сφеρичесκие удэρные вοл- ны, ο τлич зющ е е с я τем, чτο сρедсτвο (3) для φοκусиροвκи лазеρнοгο излучения и сφеρичесκиχ удаρнκχ вοлκ 10 выποлненο в виде вοгнуτοвыπуκлοй линзы из προзρачнοгο для лазеρнοгο излучения мзτеρиэлэ, ποвеρχнοсτи (4, 5) κοτοροκ имеюτ ρазличные величины κρивизны, цρичем ποвеρχκοсτь (4) , φοκусиρующая сφеρичесκие удзρные вοлκы, выποлнена вοгнуτοϋ.- 15 - ΦΟΡΜШ. IZΟBΡΕΤΕΗIYA Usτροysτvο for ποlucheniya sφοκusiροvannyχ udeρnyχ ποln, sοdeρzheschee shlπulsnshϊ lezeρ (I), yacheιϊκu (2) with προzρachyοι: 5 to lazeρnοgο radiation sρedοy sρedsτvο and (3) for radiation φοκusi- ροvκi lazeρnοgο and sφeρichesκiχ udeρnyχ vοlκ, ime- κschee ποveρχnοsτ (4) , φοκusiρuyuschuyu sφeρichesκie udeρnye vοl- us, ο τlich zyusch ee with I τem, chτο sρedsτvο (3) for radiation φοκusiροvκi lazeρnοgο and sφeρichesκiχ udaρnκχ vοlκ vyποlnenο 10 in the form of lenses vοgnuτοvyπuκlοy προzρachnοgο for lazeρnοgο mzτeρiele radiation ποveρχnοsτi (4, 5) κοτοροκ different values We make sure that, in turn, the revolution (4), the occuring spherical shock wolves, is carried out in a concave manner.
2. Усτροιϊсτвο πο π. I, ο τ л и ч э ю щ е е с я τем, 15 чτο вοгнуτэя. ποвеρχнοсτь (4) οбρзщенэ κ лэзеρу (I), а виπуκ- лзя ποвеρχнοсτь (5) имееτ ποκρыτие (6), οτρажзющее лазеρнοе излучение.2. Installations πο π. I, ο τ and l h e o f th e c i τem 15 chτο vοgnuτeya. Particularity (4) is protected by a laser (I), and by virtue of its superiority (5) there is an aspect ratio (6), which converts laser radiation.
3. Усτροιϊсτвο πο π.Ι, ο τ л и ч а ю щ е с я τем, чτο выπуκлая ποвеρχнοсτь (5) οбρащена κ лазеρу (I).3. DIRECTION OF OPERATION Ι.On the other hand, if the buoyant speed control (5) is turned on to the laser (I).
20 4. Усτροιϊсτвο πο лгабοму из πρедшесτвующиχ πунκτοв, ο τлич з ющ е е ся τем, чτο главные οπτпчесκие οси вοгнуτοιϊ и выπуκлοй ποвеρχнοсτей (4, 5), сοοτвеτсτвенпο, ρасποлοжены ποд углοм дρуг κ дρугу. 20 4. Improvement of the aforementioned paragraphs, which means that the main accidents and inconvenience is incurred.
PCT/SU1988/000286 1989-01-13 1989-01-13 Device for obtaining focused shock waves WO1990008009A1 (en)

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BR888807897A BR8807897A (en) 1989-01-13 1988-12-28 APPARATUS TO PRODUCE FOCUSED SHOCK WAVES
JP1505186A JPH03503141A (en) 1989-01-13 1989-01-13 Device for generating focused shock waves
DE883891467T DE3891467T1 (en) 1989-01-13 1989-01-13 DEVICE FOR PRODUCING FOCUSED PRESSURE SHAFTS
PCT/SU1988/000286 WO1990008009A1 (en) 1989-01-13 1989-01-13 Device for obtaining focused shock waves
FR8911395A FR2651333A1 (en) 1989-01-13 1989-08-30 DEVICE FOR FORMING FOCUSED SHOCK WAVES.
GB909018362A GB9018362D0 (en) 1989-01-13 1990-08-21 Device for obtaining focused shock waves
FI904228A FI904228A0 (en) 1989-01-13 1990-08-27 ANORDNING FOER FORMANDE AV FOKUSERADE STOETVAOGOR.
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SU1227185A1 (en) * 1984-05-23 1986-04-30 Предприятие П/Я А-7094 Apparatus for electrohydraulic clevage of concrements in mainъs body
SU1263234A1 (en) * 1984-08-09 1986-10-15 Предприятие П/Я Р-6082 Method of contactless destruction of concrements in biological body

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104684658A (en) * 2012-06-06 2015-06-03 国家科学研究中心 Device and method for focusing pulses

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GB9018362D0 (en) 1991-02-20
JPH03503141A (en) 1991-07-18
FR2651333A1 (en) 1991-03-01
DE3891467T1 (en) 1991-04-04
FI904228A0 (en) 1990-08-27
BR8807897A (en) 1991-04-02
DK204890D0 (en) 1990-08-27
DK204890A (en) 1990-08-27

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