SU691752A1 - Electronic microburet - Google Patents

Claims (1)

1--...,.,., The invention relates to devices. microburettes with a small volume of titrite and can be used in various chemical and biological laboratories. A microburet containing a cylindrical capillary with a piston moving along its length, a micrometric device, a micrometric dial indicator connected to a piston, an adjustable height stand and a vibrating mixer are known. This microburette is not reliable enough because of the short service life of the mechanical reference system (micrometric dial plate) pointer and micrometer screw) and has a large measurement error. The purpose of the invention is to increase operational reliability and measurement accuracy, as well as ie the opportunity to work remotely. This is achieved by the fact that the electronic microburette is equipped with an inductive differential sensor, the core of which is connected to the piston, and the micrometric dial indicator is made in the form of a tit-rat flow rate conversion circuit when the piston is shifted to a DC voltage. . , FIG. Figure 1 shows the electronic microburette, general view; in fig. 2 that burned block diagram; in fig. 3 - inductive, differential-transformer sensor, vertical section; in fig. 4 - a basic microburettic circuit. The electronic microburet consists of a cylindrical piston capillary 1 and an electronic device 2 for determining the flow rate of the titrant, mounted in individual housings not fixed on the base 3, of the fixing button.4 for fastening. an instrument 2 on the base, a cutting block 5 for connection to the piston capillary, an extension hose b (for remote control). On the front panel of the electronic microburet there is a power supply button 7 with a light bulb 8; control, a vibrator mixer key 9, an electric drive control button 10 (suction, stop, displacer displacement), a zero setting regulator 11, a digital instrument regulator 12, a meter 13 , remote control enable button 14, sensor adjustment screw 15, micrometer screw 16 for manual feeding of the titrant, stand adjustment screw 17, Block diagram of the electronic microburette includes the AC power supply 18 220V, low-frequency generator 19 associated with the input of inductive sensor 20, zero-setting circuit 21, the input of which is connected to the low-frequency generator output, and output connected to the output of the inductive sensor, synchro-detector 22 connected to the output inductive sensor, and the meter 23 is connected to the sync detector. An inductive differential transformer sensor consists of a sectional frame 24 with a through channel in which the ferrite core 25 is placed, a cylindrical body 26 in which the frame is located, a primary 27 and a secondary 2B double-section winding on the secdionic frame 24. The electrical conversion circuit works as follows. Under the action of a moving pore n, the core of an inductive differential transformer sensor is set in motion, both sections of the primary winding of which are included respectively, and two sections of the secondary winding are counter. Primary winding: the sensor is powered by alternating current from generator 19 at a frequency of 1000 Hz. With a symmetric arrangement of the core relative to the sections of the EMF at the output terminals of the sensor, it is zero, which corresponds to the zero position of the pointer and the titrant filled burette. When the solution is displaced from the capillary, i.e. when the sensor core is blended, a signal proportional to displacement arises at the output. This signal is fed to the diagonal of the azo-dependent sync detector (points of transistors Ti, 11.15, TU). The control points from the secondary windings of the output transformer of the low-frequency generator are applied to the base points 1, 2, 3, 4 (Fig-4), and in the measuring diagonal, having a chain of temperature compensation on the transistors Tj and T, a voltage is generated current, the magnitude of which is directly proportional to the displacement of the piston of the burette, and consequently, to the magnitude of the consumption of titration. The voltage in the measuring diagonal is recorded with a DC voltmeter (Kg, C meter), graduated in units of titrant consumption. The circuit allows the meter to be set to zero in any position of the core when the phase-dependent circuit is used — the transformer TRD, resistors Rj, Sj, and also to connect a digital voltmeter of direct current through divider V., which allows to receive the measurement result in digital form. Claims: Electronic microburette containing & a cylindrical capillary with a piston moving along its length, a micrometric device, a micrometric dial indicator associated with the piston, a height-adjustable stand and a vibration me-. characterized in that, in order to increase operational reliability and measurement accuracy, as well as to enable remote operation, it is equipped with an inductive differential sensor, the core of which is connected to the piston, and the micrometric dial indicator is made in the form of a titrant consumption conversion circuit in direct current voltage. Sources of information taken into account during the examination 1. Katz A.M. Kantorovich A.S. Measuring and dosing devices for clinical and diagnostic laboratories. Izd-vomeditsina, L., 1970, p. 1J4-137 (prototype). Fig: 2 ftrj f8i tf - iSes5 - KW-i ixir b. (5Еекек hedgehog ™; s A. i-re-MS FIG. TPf