• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to iradestructive testing of products and can be used in determining contact stresses in banding products. The purpose of manufacturing is to increase the accuracy and performance of contact voltage measurements. In the device containing the base 12, there are two mobile centers 2 and 3 for installing between them a controlled instrument 1, fixed in two parallel plates 7 and 6, between which a bath 10 s contact is installed, g (L s
    公开号:SU1322146A1
    申请号:SU837773098
    申请日:1983-09-05
    公开日:1987-07-07
    发明作者:Цанов Маринов Михаил;Тодоров Петканчин Любомир;Тодоров Костов Георги;Иванов Пушев Георги;Минков Миховски Минко;Александровна Манолова Валентина
    申请人:Институт По Металознание И Технология На Металите (Инопредприятие);
    IPC主号:
    专利说明:

    P
    11. An acoustic transducer is installed at the bottom of the floor. The transducer is connected to the measuring unit. The joints are not parallel to 1 SHIT 6 n 7 are realized in two parallel napranilup, imn 8 on which the base 12 is suspended, to the latter by means of a sliding screw 14 and a nut the sleeve 16 with a spring is attached. The base 12 has a drive screw 13 with a handle 17, and
    I
    The invention relates to acoustic control and can be used to determine contact stresses in shrouded tools intended for machining by means of plastic deformation, as well as in press fittings.
    A known device for determining contact stresses consists of two movable opposite centers between which a controllable element is installed, one of which is fixed to the axle axis and the other to the screw by means of a bearing mounted in two parallel plates. The axis and the screw are connected by a knife, with a staple. On the base between the plates installed bath with acoustic environment. An axial-motion guide is installed through the base and bottom of the bath, in the hole of which an ultrasonic transducer is placed, which is connected to the measuring unit (certificate of authorship of NRB No. 28809, cl. G 01 N 29/04, 1978).
    The drawback of the device is the need for constant adjustment of the distance between the element being monitored and the acoustic transducer during each individual measurement, which is done manually.
    The aim of the invention is to determine the performance of the determination of contact stresses.
    FIG. 1 shows a device as shown in FIG. 2, the same side view.
    A device for determining contact stresses in bandaged instruments comprises a base 12,
    lAfi
    the liner spring is fixedly connected to the guide sleeve 23, there is a radial clearance between the sleeve 23 and the sleeve 16, and on the sleeve 23 of the seal 10 with parallel rotating rotates located in it, the converter is placed in the hole of the hollow guide and fixed on thereto by means of a restrictive sleeve 20 connected to a lock nut 21. 2 sludge.
    five
    ten
    15
    20
    25
    .thirty
    35
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    two parallel plates 6 and 7, a bath 10 with contact medium 1t located between them, a hollow guide 19 placed at its bottom with vertical movement, an acoustic transducer 18 mounted 8 of the hollow guide cavity 19 and connected to a measuring unit (in the drawing shown) two movable replaceable centers 2 and 3 for installing between the controlled tool 1 between them, one of which is attached to axis 3 with a handle 26, and the other by means of a bearing 28 to Wippt 4, which are installed in parallel plates 7 and 6 s in the possibility of rotation, two parallel directions 8, the drive screw 13 with a knob 17, on which the base 12 is movably mounted, the sleeve 16, which is attached to the base 12 by means of a spindle 14 and a nut 15, a spring 24 placed in the sleeve -, across 16, a guide bushing 23 mounted inside the sleeve 16 and rigidly connected to the end of the spring 24, parallel rollers 9 on bearings (not shown), mounted in the bath 10 for accommodating the controlled tool 1 on them, hollow rail 19, second ha ky 22 INSTALLS tanonlennuyu on the guide sleeve 23 and the locknut 21 ,. the connecting limiting sleeve 20 with a hollow guide 19, which is installed inside the guide sleeve 23, and the guide sleeve 23 is rigidly attached to the bath 10, the clamping sleeve 25 is prednacha to create the necessary pressing force by interstitial rollers 9 and controlled instrument 1.
    313
    There is a gap 27 between the guide sleeve 23 and the sleeve 16.
    The device works as follows.
    The controlled bandaged tool gt 1 is secured between centers 2 and 3 and secured between them with screw 4.
    The coarse adjustment of the ultrasonic transducer 18 with respect to the tool 1 is carried out by moving the sleeve 16 in the vertical direction by means of the sleeve 25 until the desired clamping force is created between the rollers 9 and tool 1 and at subsequent fixation with the help of the screw 14 and the nut 15 . The fine adjustment of the transducer - 18 with respect to the surface of the tool 1 is carried out by turning the second nut 22. The radial clearance 27 ensures that the rollers 9 correctly align themselves with the surface of the tool 1.
    The desired position of the transducer 18 to the surface of the tool 1 is achieved by displacing the base 12 together with the sleeve 16 with the handle 17 and rotating the tool 1 with the axis handle 5. At each position of the tool 1, the converter 18 emits acoustic signals excited by a source (not shown) , and registers the echo signals reflected from the boundary between the matrix and the bandage by a measuring unit (not shown). An ultrasonic flaw detector can be used as a measuring unit for excitation and recording.
    The device allows the determination of contact voltages in shrouded instruments with high accuracy and performance, since during operation of the device it is not necessary to adjust the distance between the control element and the transducer during each individual measurement,
    1464
    权利要求:
    Claims (1)
    [1]
    Invention device for determining contact stresses in bandaged instruments, comprising a base, two parallel plates, a bath with contact medium between the PIM1-5, a hollow rail mounted under the bottom of the bath, an acoustic transducer housed in a hollow rail cavity, a measuring unit connected to an acoustic transducer, two movable replaceable centers for the installation of a controlled instrument between them, one of which is locked flax on the axis, and the other, through the bearing, on a screw coaxially mounted with the possibility of rotation in parallel plates, characterized in that, in order to increase the accuracy and performance of determining contact stresses, it is equipped with two parallel guides and a driving screw with a handle, on which the base is movably mounted, and the ends are fixed in parallel plates, with a sleeve fixed on the base by means of a spindle with a nut, a spring placed in the sleeve, with a guide bush installed with a clearance inside the sleeve and rigidly connected to the spring, parallel rollers mounted on sub-holders in the bath for placing a controlled tool on them, restrictive bushing placed in a hollow guide, second nut mounted on the guide bushing, and a lock nut mounted on hollow guide, with the floor guide installed inside the guide sleeve, and the bath is rigidly attached to the latter.
    Recognized as an invention according to the results of the examination carried out by the Office of the People's Invention. Republic of Bulgaria.
    2Z
    21
    20
    (pU2. 2
    Compiled by S. Volkov Editor S. Patrusheva Tehred A. Kravchuk Proofreader A.T.
    Order 2856/39 Circulation 776. Subscription VNIIPI USSR State Committee
    Inventions n discoveries 113035, Moscow, Raushsk nab. d. i /. i
    Production and Printing Enterprise, Uzhgorod, ul. Provktzi;
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    同族专利:
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    EP0103802B1|1988-12-14|
    EP0103802A3|1986-10-08|
    EP0103802A2|1984-03-28|
    HU188029B|1986-03-28|
    CA1203884A|1986-04-29|
    AT39289T|1988-12-15|
    US4545252A|1985-10-08|
    PL140970B1|1987-06-30|
    PL243749A1|1984-05-21|
    CS246064B2|1986-10-16|
    BG37491A1|1985-06-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3289468A|1963-05-29|1966-12-06|Southwest Res Inst|Ultrasonic transducer positioning apparatus|
    US3266300A|1963-11-07|1966-08-16|United States Steel Corp|Apparatus for the ultrasonic testing of wheels|
    US3531982A|1968-03-26|1970-10-06|Nasa|Apparatus for the determination of the existence or non-existence of a bonding between two members|
    US3580057A|1969-06-19|1971-05-25|Univ Utah|Probe device usable in measuring stress|
    BG28809A1|1979-05-21|1980-07-15|Zheljazkov|Apparatus for contact tensions in bandaged instrument|
    US4246794A|1979-07-23|1981-01-27|Huntington Alloys, Inc.|Apparatus and method for ultrasonic inspection of round stock such as tubing, pipe and rod|
    DE3043794A1|1980-11-20|1982-06-03|Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V., 8000 München|Non-destructive natural stress detection by ultrasound - using min. transit times of two orthogonal, polarised, transversal waves and measuring associated absorption coefft.|
    US4457174A|1982-05-10|1984-07-03|Systems Research Laboratories Inc.|Ultrasonic inspection of composite materials|JP2695348B2|1992-04-28|1997-12-24|大日本印刷株式会社|Injection molding simultaneous painting device|
    FR2756916B1|1996-12-06|1999-02-12|Eurocopter France|APPARATUS FOR MEASURING A GAME BETWEEN TWO PARTS|
    CN102353586A|2011-06-22|2012-02-15|长安大学|Steel strand strain measuring device|
    CN103162978B|2011-12-15|2016-01-06|河南省基本建设科学实验研究院有限公司|For the pick-up unit of the antiskid of examination steel tube scaffold clasp, anti-damage performance|
    CN103487512B|2013-09-11|2015-06-24|同济大学|Ultrasonic probe pressing fixing device|
    CN104155131B|2014-07-31|2016-08-17|河海大学|Hawser analog and method thereof in a kind of ship mooring physical experiments|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    BG8257976A|BG37491A1|1982-09-16|1982-09-16|Device for determining contact stresses in bandaged tools|
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