• 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:
    Plastic pipes internal pressure strength testing device comprising a heating system and a hydraulic system, where in the hydraulic system is a hydropneumatic system, which has as a basic part, a hydropneumatic converter, the piston with the smaller diameter of which is connected from one side with the tested sample placed in the heating chamber, via a non-return valve, manometers, advantageously a test manometer and a contact manometer, valves and a heater, and from the other side with the water supply network via a second non-return valve and an advantageously electromagnetic valve, whereas the piston of this converter with the larger diameter is connected via a second, advantageously electromagnetic valve, a compensation tank and a gas regulator with a gas supplying net, advantageously air supplying net.
    公开号:SU1514251A3
    申请号:SU833600701
    申请日:1983-06-09
    公开日:1989-10-07
    发明作者:Pavel Fridrikh;Veslav Plachek;Leshek Mynazh;Tadeush Tarasiuk
    申请人:Inst Chemii Przemyslowej;
    IPC主号:
    专利说明:

    The invention relates to the test
    pipe pressure internal pressure. The purpose of the invention is to improve the accuracy by eliminating the pulse pressure changes when testing with heating. In the water chamber 1, pipes 3 with an electric heater 5 are placed. They displace air from the pipes 3 with water, close them and through the multiplier 7, supplying air, increase the pressure, which does not change even when the pipes are deformed due to pressure and temperature. When the pipe 3 is broken, the impulse ί is transmitted through the contact pressure gauge 17 solenoids to valves 12 and 13, which cut off the water and air supply systems.
    1 "hp f-ly, 2 ill.
    1 15
    The invention relates to the testing of pipes with internal pressure and can
    be used to control plastic pipes.
    The purpose of the invention is to improve the accuracy by eliminating pulse pressure when tested by heating.
    Figure 1 shows the wiring diagram of the camera; figure 2 - camera installed in her pipes.
    The device for testing the strength contains chamber 1 filled with water 2. In the chamber! placed plastic pipe 3, mounted on the holders 4, and the heater
    5. The cavities of the pipes 3 are communicated between a hundred by means of connecting elements 6. The regulating device is made in the form of a multiplier 7, having a piston 8 of smaller diameter and a piston 9 of larger diameter, and a compensation tank 10. The pistons 8 and 9 have diameters whose ratio lies within 1 / 10-1 / 50. The container 10 communicates with the system (not shown) of the air supply through the reducer 11 and through the electromagnet valve 12 with the sub piston multiplier 7 located on the side of the piston 9. The water supply system (not shown) communicates through the solenoid valve 13 with the super piston multiplier 7, located on the side of the piston 8. The over-piston cavity of the multiplier 7 through the valve 14 and the valve 15 of the water supply system communicates with the pipes 3. Between the valves 14 and 15 there is a pressure gauge 16 and a contact pressure gauge 17.
    The device works as follows.
    Report the cavity of the pipe 3 among themselves through the elements 6. Fill the chamber 1 with water. Air is removed from the pipes 3 by supplying water through them through valve 13, valve 14, multiplier 7, valve 15. At the same time, water passes through electric heater 5 and forces air out. After the moment when the discharge of water from pipes 3 begins, they are closed. The increase in pressure in the pipe 3 is carried out using a multiplier 7 and the air supply system. The loading is carried out gently without impulse increments. Pressure
    25 1
    . This does not change (after setting a pressure equal to the test one) despite the specimen deformation associated with exposure to water and temperature. A pressure gauge is monitored with a pressure gauge 16. At the moment of rupture of pipe 3, a pulse is transmitted by means of a contact nanometer 17 to solenoid valves 12 and 13, which cut off the inflow of water and air from the supply systems of these media. The hydraulic system is adapted to work in manual and automatic modes.
    权利要求:
    Claims (2)
    [1]
    Claim
    1. Device for testing the strength of plastic pipes with internal pressure, containing a chamber filled with water, holders and connecting elements housed therein for successive communication of pipe cavities connected to each other by means of an adjusting device of the air and water supply system
    with a valve, the latter of which is intended to communicate with the cavities of the pipes, and two pressure gauges for pressure control, characterized in that, in order to improve accuracy by eliminating the pulse pressure change during the heating tests, it is provided with electric heaters placed in the chamber for heating constant temperature regulating device vypol -1 Neno a multiplier with two pistons with different diameters and compensation tank communicated with by the reducer supply cart spirit and system by the customer, an electromagnetic valve with a multiplexer piston cavity located on the side of a larger diameter piston, the over piston cavity of which is located on the smaller diameter piston is communicated through the second electromagnetic valve with the water supply system and is intended to communicate with the pipes through the second valve, and the pressure gauges, one of which is made contact, located between the valves.
    [2]
    2. The device according to claim 1, that is, in that the ratio of the diameters of the multiplier is in the range of 1 / 10-1 / 50.
    1514251
    FIG. 2
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    同族专利:
    公开号 | 公开日
    EP0096887A2|1983-12-28|
    FI832157A0|1983-06-14|
    RO87916A|1985-12-20|
    FI832157L|1983-12-16|
    DD210120A5|1984-05-30|
    EP0096887A3|1984-12-27|
    PL133973B1|1985-07-31|
    RO87916B|1985-12-01|
    CS235324B2|1985-05-15|
    PL236919A1|1983-10-24|
    HU186329B|1985-07-29|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3537299A|1968-12-12|1970-11-03|Kaiser Steel Corp|System for subjecting a hollow body to fluid under pressure|
    US3554006A|1969-04-28|1971-01-12|Phillips Petroleum Co|Quick burst pipe tester|
    JPS5829455B2|1980-03-28|1983-06-22|Sumitomo Metal Ind|US5365792A|1992-10-21|1994-11-22|Eastman Chemical Company|Method of determining stretch characteristics of thermoplastic articles|
    DE4325636C2|1993-07-30|2003-12-11|Rsw Technik Gmbh|Method and device for dynamic internal pressure testing|
    DE4403770C2|1994-02-02|1995-12-14|Mannesmann Ag|Process for the detection of the elastic-plastic strain during the pressure test of containers|
    DE102006051167B4|2006-10-25|2012-02-16|BAM Bundesanstalt für Materialforschung und -prüfung|Test device for carrying out cyclic hydraulic load tests in an extreme temperature interval on pressure vessels made of composite material|
    CN101498636B|2009-01-16|2011-04-27|大连理工大学|Inspection apparatus and method for multifunctional pressure container|
    CN103499506B|2013-10-12|2016-07-06|天津市天塑科技集团有限公司技术中心|Thermal power generation boiler fluoroplastics economizer simulation test stand|
    CN104215513B|2014-08-14|2016-06-29|合肥通用机械研究院|High pressure hydrogen embrittlement structural testing setup and test method|
    CN104389852B|2014-08-29|2016-08-17|中国二十冶集团有限公司|A kind of conduit under fluid pressure pressure test method|
    CN107560941B|2017-11-01|2018-06-05|三维医疗科技江苏股份有限公司|A kind of medical device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    PL23691982A|PL133973B1|1982-06-15|1982-06-15|Plastic pipe internal pressure strength testing apparatus|
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