• 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:
    Control system for a particulate filter, enabled for use on a particle filter suspended in a liquid medium, comprising processing means, means for measuring the turbidity of the liquid medium at the filter inlet, means for measuring the operating pressure of the filter, means for measuring the flow rate of the filter, means for dosing the coadjuvant product, the processing means being linked in data communication with the means for measuring the turbidity of the liquid medium, the means for measuring the operating pressure of the filter and the means for measuring the flow rate of the filter, and the processing means being also linked in data communication and with the ability to control the dosing media of a coadjuvant product. . (Machine-translation by Google Translate, not legally binding)
    公开号:ES2549490A1
    申请号:ES201531085
    申请日:2015-07-22
    公开日:2015-10-28
    发明作者:Josep SAIS MASCORT
    申请人:Josep SAIS MASCORT;
    IPC主号:
    专利说明:

    image 1
    image2
    image3
    image4
    image5
    image6
    P201531085
    07-22-2015
    In this preferred embodiment, the turbidity sensor 3 of the liquid medium comprises a resistant brass housing that serves as a housing, where a functional assembly comprising a detection head and an optical fiber with a type of mode of operation is included barrier.
    5 All this is supported on a cylindrical stainless steel tube, with a nominal diameter between DN25 and DN50 that is fixed to the pipe by means of a male or female thread or flanges at the ends.
    10 The turbidity sensor head 3 is connected to the cover of the electronic amplifier by means of an optical fiber.
    The turbidity sensor 3 described used in this preferred embodiment is more suitable and advantageous in relation to other solutions known in the state of the art.
    In this preferred embodiment, the means for measuring the operating pressure of the filter 1 comprise a pressure sensor 4 already known in the state of the art. The operating pressure of filter 1 is determined by the pressure difference between the inlet and outlet of filter 1.
    In this preferred embodiment, the output of the filter 1 is directly in contact with the atmospheric free environment, so it can be assumed that the outlet pressure will always be the same, whereby the value of the pressure difference between the inlet and outlet of filter 1 will only depend on the value of the pressure at the inlet of filter 1, so
    25 the pressure sensor 4 is arranged at the inlet of the filter 1.
    In other preferred embodiments, the output of the filter 1 may not be in contact with the atmospheric free environment, so that in this case the simultaneous pressure measurement at the inlet and outlet of the filter 1 would be necessary.
    30 The flow meter 5 used in the measurement means of the operating flow of the filter 1 is installed at the outlet of the filter 1, and is known in the prior art.
    The dosing means 11 of the auxiliary product is installed before the filter 1 and 35 upstream of the pressure sensor 3 and the turbidity sensor 4, and are known in the
    8
    image7
    image8
    权利要求:
    Claims (1)
    [1]
    image 1
    image2
    类似技术:
    公开号 | 公开日 | 专利标题
    BR112017010658A2|2018-02-14|? ultrasonic flowmeter system and method for measuring flow rate?
    AR052381A1|2007-03-14|FLOW METER FOR SIMPLE INPUT AND MULTIPLE OUTPUT AND METHOD FOR FORMING SUCH METER
    AR046735A1|2005-12-21|IDENTIFICATION OF TYPE OF FLOW METER
    WO2007030647A3|2007-05-18|Reverse osmosis filtration devices with rfid tag-powered flow and conductivity meters
    EP1959242A3|2009-01-07|Flowmeter and flow control device
    SA517381103B1|2021-02-01|Coriolis Flow Meter Having Flow Tube with Equalized Pressure Differential
    SA113340717B1|2017-04-19|Nuclear magnetic flowmeter
    JP2013235001A|2013-11-21|Measuring device with fluid meter
    CN203705224U|2014-07-09|Multichannel combined smoke sampling gun
    EP1975896A3|2009-03-18|Smoke detector and sampling air supplying method for smoke detector
    EA201000711A1|2010-12-30|METHOD AND SYSTEM FOR DETERMINING THE FLOW OF THE GAS-LIQUID FLOW
    UA110804C2|2016-02-25|Gas meter
    BR102014015985B8|2021-09-14|Hydraulic circuit and method of monitoring a filter in a hydraulic circuit
    MX2015000372A|2015-11-13|Nozzle system.
    ES2549490A1|2015-10-28|Control system for a particulate filter |
    ES2663600T3|2018-04-16|Mass flowmeter
    EP3118589A3|2017-01-25|Flow sensor assembly with bypass channel
    AR079223A1|2012-01-04|COMPENSATION OF VIBRATORY FLOW RATE
    CN202942717U|2013-05-22|Mechanical filter with detection device
    WO2014172765A8|2014-12-31|Water tension sensor, system for characterising and continuously measuring soil water, system for indicating critical soil water tension and irrigation rod
    JP5357223B2|2013-12-04|Capillary viscometer
    CL2020000336A1|2020-07-10|Valuation of the benefits of automatic grinding control using pst technology for true inline particle size measurement.
    CN202599631U|2012-12-12|Gas leakage detection system
    RU2015155885A|2017-06-29|MODULAR FLOW CASSETTE
    CN201654017U|2010-11-24|Tail gas backflow device for sterilizing gas detector
    同族专利:
    公开号 | 公开日
    ES2549490B2|2016-05-10|
    WO2017013301A1|2017-01-26|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3693797A|1970-05-08|1972-09-26|George J Topol|Apparatus for adding material to liquids|
    DE2022752A1|1970-05-09|1971-11-25|Seitz Werke Gmbh|Filtering agent dosing control using turbidity upstream of - filter as control parameter|
    WO1996025993A1|1995-02-23|1996-08-29|Motorola Inc.|Cross-flow filtration control system and method|
    FR2909903A1|2006-12-19|2008-06-20|Degremont Sa|Optimized control of a filtration membrane unit comprises injecting a dose of coagulant reagent in an upstream of the membrane, measuring a temperature of the effluent, measuring a flow of filtration, and measuring a transmembrane pressure|
    WO1995030468A1|1994-05-10|1995-11-16|Womack International, Inc.|Optimizing operation of a filter system|
    WO1998005402A1|1996-08-05|1998-02-12|Peter Anthony Miller|Apparatus for liquid purification|
    KR101075885B1|2009-04-28|2011-10-25|대우건설|Water purification apparatus and method for using pressure filter and pore control fiber filter|WO2019122471A1|2017-12-19|2019-06-27|Vitrosep, S.L.|Improved filter system|
    法律状态:
    2016-05-10| FG2A| Definitive protection|Ref document number: 2549490 Country of ref document: ES Kind code of ref document: B2 Effective date: 20160510 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201531085A|ES2549490B2|2015-07-22|2015-07-22|CONTROL SYSTEM FOR A PARTICLE FILTER|ES201531085A| ES2549490B2|2015-07-22|2015-07-22|CONTROL SYSTEM FOR A PARTICLE FILTER|
    PCT/ES2016/070557| WO2017013301A1|2015-07-22|2016-07-22|Control system for a fluid filter|
    [返回顶部]