CS198310B1 - Automatic device for liquid solidification measuring - Google Patents

Description

The invention relates to an automatic device for measuring the solidification of liquids.

Until now, the solidification measurement of liquids is carried out on a device consisting of a dewar vessel with a cooling medium. Carbon dioxide is used as the cooling medium. A specific liquid with a thermometer is placed in the dewar vessel. When the specific liquid solidifies, the temperature on the thermometer is read.

The automatic device for measuring the solidification of liquids according to the invention, characterized in that the pulse generator is connected with its output to a monostable flip-flop input to create a precisely defined timing pulse, and the monostable flip-flop output is connected to the first evaluation circuit input supplying a precisely defined timing pulse and secondly coupled to the input of a stabilized voltage source to control the evaluation probe of the evaluation circuit, the second evaluation circuit input for evaluating the solidification state of the measured liquid and the evaluation circuit output connected to a temperature recording device for actuation of the recording device at the time of freezing of the measured liquid, while the temperature recording device is simultaneously connected to the output of the measuring probe of the evaluation circuit, to continuously record the temperature of the solidifying liquid.

Automatic device for measuring the freezing point of the liquid, characterized in that the temperature recording device is adapted for further analogue or digital processing

198 310

198 310 measured values.

The importance of using the automatic solidification measuring device according to the invention is that it automatically records the measured freezing point of the measured liquid, increases the accuracy and reproducibility of the measurements, and improves safety at work.

In the accompanying drawings, FIG. 1 shows an electrical circuit diagram of an embodiment of a working and solidification measuring device for liquids, FIG. 2 is the time course of individual electrical circuits. Time is plotted on the x-axis and voltage is plotted on the y-axis. In FIG. 3 is a body arrangement and design of an automatic device for measuring the freezing point of liquids.

According to FIG. 3, the pulse generator 6 is connected to the input of the monostable flip-flop D by its output. The second input of the evaluation circuit H is connected to the output of the measuring probe 0 of the evaluation circuit H. The output of the evaluation circuit H is connected to a temperature recording device Z. The output of the stabilized power supply 6 is connected to the input of the measuring probe 0 of the evaluation circuit H. According to FIG. 3, the pulse generator 6 generates a minimum width of 25 seconds, which triggers the monostable flip-flop circuit D. 25 sec. A precisely defined timing pulse is applied to the input of the evaluation circuit H, at the same time to the input of the triggered stabilized voltage source D and the stabilized control voltage is applied to probe 0. At that time the measurement probe 6 of the evaluation circuit H has determined corresponding to this information is applied to the second input of the evaluation circuit 11 which does not change the output state. In the event that within a given period of time the measuring probe 8 has determined that the measured liquid has solidified, a signal pertaining to this information changes the state of the output of the evaluation circuit H. The pulse from the output of the evaluation circuit H is applied to

In FIG. 1 shows an electrical diagram of a particular circuit of an automated solidification measuring device, wherein the output of the pulse generator 6 is connected to the input of the monostable flip-flop D. The output of the monostable flip-flop D is coupled to the clock input T of the evaluation circuit. One input J, three inputs K and the reset input R of the evaluation circuit H are simultaneously connected to the sensor A of the evaluation probe 0 of the evaluation circuit H and the cut-off resistor Rg ^for positive voltage. + Ug. The output of the monostable flip-flop D is connected to the inputs of the gate E, P. The gate output P is connected to the court inputs J of the evaluation circuit H. The gate output P is connected to the input of the controlled stabilized power supply 6. At the output of the stabilized voltage, the coil L of the measuring probe O of the evaluation device H and the second bulb Žg are connected.

The output 6 of the evaluation circuit H is coupled to the base of transistor T ₁ where in its

198 310 collector is relay B, connected to positive voltage + U ,. A bulb Z1 is connected between the positive voltage and the input of the recording device Z for measuring the freezing temperature. Between the ground and the input R of the evaluation circuit H there is a connection button TL.,. Between the collector of the transistor Tya is connected to the contact B, and to the push-button TL ^. Parallel to the winding of relay B is * connected diode D ,.

An example of a specific embodiment of the invention is shown in FIG. 1, where block C is a 25 second pulse generator. These pulses are connected to the monostable flip-flop D input. At the output of the monostable flip-flop D, pulses are generated 4 seconds wide at logic 0 / fig. 2 / / logic 0 = 0 + 0.8 V / II. Positive differentiated pulse / fig. 2, the waveform III i from the output of the monostable flip-flop O is fed to the clock input I of the evaluation circuit H. The two inputs J of the recovery circuit H receive pulses of log / log 1 = 2.4 + 4 V / 4 seconds / fig.

time course II./. The stabilized power supply G is controlled by the solenoid only when its input is logical 1. To check the function of the solenoid L, a second lamp 2 is used. The return of the segment S located in the measuring probe 0 of the evaluation circuit Π is provided by the spring P. The third input J is connected to three inputs K of the evaluation circuit H. The solenoid I is connected to the stabilized stabilized voltage source G .

When the measured substance has not solidified, in the presence of a clock pulse at input T, the logic level is 0 at the Irooh inputs K and the inputs J, R of the evaluation circuit H at the same time. precisely defined timing of the 4 second pulse changes the status of the output of the advantageous circuit H from logical level 1 to logical 0. Red measured substance and, before the pulse arrives at the input T of the evaluation circuit H, its inputs J, K, R . 2, Vb /, the output of the roll < tb > logic 1. Transistor T ^ becomes conductive and pulls the armature relay B. 1'omocou contact B ₁ via the contact button 1'K relay B remains connected to power. Pornocou contact pulse for recording device From temperature / end of measurement / · This state is signaled by the first bulb Z ^.

P R S N S T OUT OF THE INVENTION

Claims (1)

198 310 of the collector is relay B connected to positive voltage + U ^. Between the positive voltage and the input of the recording device Z, the bulb 10 is connected to the temperature of solidification. The push button TL1 is connected by the intermediate and inlet R of the evaluation circuit H. Interconnector transistor Tya ground is connected contact and disconnect button Tlg · Diode D ^ is connected parallel to the winding of relay B. An example of a particular embodiment of the invention is shown in Figure 1, where block C is a 25 second pulse generator. These pulses are connected to the input of the monostable flip-flop D- At the output of the monostable flip-flop D, pulses of 4 sec. 2 / / logical 0 = 0 + 0.8 V / time course II. positive pulse pulse / fig. 2, the waveform III i from the output of the monostable flip-flop circuit is fed to the clock input I of the evaluation circuit H. The two inputs J of the output circuit H are pulsed with log / log 1 = 2.4 + 4 volts / 4 seconds wide / FIG. 2 time course II./. The stabilized G source is a controlled solenoid only at a time when the logic 1 level is at its input. Returning the segment S located in the measuring probe 0 of the evaluation circuit í secures the spring P. The third input J is connected to three inputs K of the evaluation circuit H. The solenoid 1 is connected to a controlled stabilized voltage source G of only 4 seconds and has a 25 second integration between the next operation. If the measured substance does not solidify, then in the presence of the clock pulse at the input T, the level of logic 0 is present at Irooh inputs K and the inputs J, R of the evaluation circuit H, the skull output of the probe A of the measuring circuit g / g. the permanently defined time measuring 4 second pulse, the state of the output circuit H changes from logic 1 to logic 0. The red measured cloth, and before the pulse goes into input T of the evaluation circuit, H is its inputs J, K, R at logical level 1 / FIG. 2, V.b /, the output of the echo & target circuit H is changed to. logic 1. The transistor becomes conductive and pulls on the anchor of relay B. By means of contact B1 via the contact of the TK button, relay B remains connected to the voltage. Using the contact we obtain the pulse for the recording device from temperature / end of measurement /. This state is signaled to us by the Z ^ carrier. EMERGENCY PRSDST Automatic liquid freezing meter, characterized in that the pulse generator (0) is connected to the input of the monostable flip-flop (1) by its output to produce a precisely defined timing pulse and output the monostable flip-flop (D) is coupled to the first input of the evaluation circuit (11) to energize a precisely defined timing pulse, and secondly to the input of the stabilized voltage source (G) to control the measurement probe (0) of the evaluation circuit (11), the second input of the evaluation circuit (11) is connected to the output of the measurement circuit (0) for evaluating the solidification state of the liquid to be measured and the output of the evaluation circuit (H) is connected to the recording device (Z) for the temperature of the recording device (2) at the time of solidification measured while the recording device / Z / temperature is connected to output the measured probe (0) of the evaluation circuit (H) for continuous sensing of the solidifying liquid temperature. 3 drawings