公开(公告)号：GB903156A

公开(公告)日：1962-08-15

申请号：GB1884759

申请日：1959-06-02

Applicant: COULTER ELECTRONICS

Inventor： JR JOSEPH RICHARD COULTER ,  COULTER WALLACE HENRY

IPC: G01N15/12

Abstract: 903,156. Electric selective-signalling systems. COULTER ELECTRONICS Ltd. June 2, 1959, No. 18847/59. Class 40 (1). [Also in Groups XXVIII and XXXVI] Apparatus for detecting particles suspended in a fluid medium comprises a hollow body having an orifice submerged in a vessel and having a solid member engaged with the fluid in the hollow body to provide fluid flow through the orifice in a volume related to the displacement of the member and means operated by the displaced member to initiate the detection of particles. Fig. 1 shows a beaker 34 containing the liquid under test in which is submerged an orifice 42 in a tube 38 also containing the test liquid. The piston 76 is first displaced in an upward direction under control of the vacuum control valve 66. When valve 66 is closed the weight 92 will operate a rack and pinion 80, 86, withdrawing the piston 76 and causing a flow of test liquid through the orifice 42. When a particle passes through the orifice 42 a change in liquid conductivity is observed by the detector 10, which supplies a constant current or constant voltage to electrodes 58, 60. A switch 98 is operated by projection 96 to initiate the start of a countercontained in apparatus 10. The counter is stopped by projection 96, engaging switch 100 after a predetermined quantity of liquid has passed through the orifice. In Fig. 2 (not shown), the projection 96 is replaced by a contact on the piston, engaging contacts let in to the wall of tube 74. Fig. 6 (not shown), relates to an embodiment for metering very small volumes of liquid. The piston is formed by a thin rod passing through a seal located in tube 74. Fig. 5 shows an arrangement for testing corrosive liquids in which a flexible diaphragm is interposed between the test liquid 56 and the metering pump contained in tube 186. The piston 188 is lowered under the control of vacuum control valve 194. When valve 194 is closed the piston 188 is raised by motor 210 drawing the tested fluid through the orifice. Modifications.-The vacuum valve 66 may be controlled automatically by the start/stop signals. Suction or pressure may be applied to the tested fluid and the piston 76 used only as a passive metering device. Locating conductive pistons.-In Fig. 7 a solid metallic piston 230 may be used, start and stop indications being respectively provided as the piston passes between the pairs of electrodes 222, 224 and 226, 228, thus varying the capacitive coupling or frequency of oscillators 160, 164. In Fig. 3, the start and stop indications are provided as conductive loops 150 pass between pairs of coils 152, 154 and 156, 158. The coils of each pair are connected respectively in the anode and grid circuits of an oscillator so that oscillation is only commenced in the presence of the conductive loop 150. Fig. 4 (not shown), relates to coil construction.