SU1417027A1 - Electromagnetically excited tuning fork - Google Patents

Abstract

The invention relates to educational devices in physics and can be used as a whole in a series of de- lecting experiments, such as parametric excitation of a string (Melde's experiment), excitation of standing waves, etc. The purpose of the invention is to improve ease of use by providing self-excitation, improving reliability and stability. The essence of the invention is that the device includes an amplifier, a current switch, an electromagnetic ring-shaped sensor, into the gap of which a fork of the tuning fork enters, and it is mechanically fixed to the holder of the tuning fork, and its current leads are connected to the input of the amplifier, whose output is connected to the current the key on the transistors, in the chains of which the excitation electromagnet of the tuning fork is connected in series, having a magnetic flux through the branch of the tuning fork with a magnetic ring-shaped sensor. 2 Il. e

Description

11417027

This invention relates to

training, in particular, to training clinics in physics, and can be widely used in a number of detailed experiments such as, for example, parametric excitation of a string (Melde's experiment). addition of oscillations, etc.

The aim of the invention is to improve ease of use by providing self-excitation, increasing reliability and stability of operation.

Figure 1 shows the graphic

tuning fork 3, the sign of the signal from the coil of the electromagnetic ring-shaped sensor 5 is changed, and at the output of the amplifier-vypr metel 6 installs35

scheme of a tuning fork} in figure 2 - its elec- tric 5 After the branches become as close as possible, the three-circuit scheme.

A tuning fork with electromagnetic excitation (figure 1) contains a tripod 1, the holder 2 tuning fork, tuning fork 3,

Electromagnetic pathogen 4, which is 20 ts zero voltage. The transistors are mechanically connected with the holder 2, the electromagnetic converter (sensor) 5 oscillations of the fork of fork 3 into an electrical signal, which in turn is mechanically connected with the holder of the tuning fork 2, and sensor 5 is installed so that in the absence of oscillations the fork of the fork 3 is in the gap of the electromagnetic ring-shaped sensor 5.3Q

The electrical circuit contains (Fig. 2) a rectifier amplifier 6, an electronic current switch made on transistors 7.8, a power supply unit 9, a diode 10 and a resistor 11, which serve to limit the EMF of self-induction arising in the coil of the electromagnetic exciter 4 when the transistor is locked 8, resistors 12, 13 for limiting the TCdKa of the transistor 7, a voltage divider on the resistors 14 and 15, used to obtain a pulse sequence at the output of the amplifier 6 with a ratio of 1/2, capacitance 16, preventing the occurrence of high-frequency generation. The capacitance 16 is connected in parallel to the winding of the sensor 5 to the inputs of the amplifier vypli miel 6, one of the cables of which is connected to the voltage divider (14, 15), and the output through the resistor 13 to the input of the electronic current switch 7,8 an exciter coil 4 and a circuit connected in parallel with a series of resistors 11 and a diode 10 connected in series.

The tuning fork works as follows.

40

45

50

7.8 are locked, the branches of the tuning fork 3 begin to return to the equilibrium position, its passage by inertia J after the greatest deviation of the branches of the tuning fork 3 at the output of the amplifier-vypir otel 6 again appears a positive voltage, and the process repeats.

Thus, for a given tuning fork, current flows through the excitation electromagnet coil only during convergence of the tuning fork branches, which ensures maximum efficiency of energy pumping, since oscillations of the tuning fork branches 3 and the excitation electromagnet (4) occur in the phase due to positive feedback. sensor 5,

As follows from the foregoing, oscillations automatically occur when the power is turned on, since the principle of self-excitation of the tuning fork is implemented, which expands the range of application of the electric chamber and simplifies its operation.

The amplitude of oscillations can be varied by adjusting the voltage of the supply, and the frequency within certain limits - with the help of weights, hung on the branches of the chamber.

Thus, the invention allows to significantly increase the reliability of the tuning fork and to expand its functionality,

The device is impudent, easy to repeat and can be widely used in educational processes — like within schools.

When the power supply unit 9 is turned on, a positive voltage is generated at the output of the amplifier 6, which provides a release of the transistors 7.8. At the same time, a current begins to flow through the coils A and the branches of the fork 3 attract. A signal proportional to the speed of movement of the branches of the tuning fork 3 is generated in the coil of the electromagnetic ring-shaped sensor 5, and of such polarity that a positive voltage is maintained on the amplifier-slider 6.

tuning fork 3 the sign of the signal from the coil of the electromagnetic ring-shaped sensor 5 is changed, and at the output of the amplifier, the detector 6 is set to After the closest approach of the branches

five

0cf zero voltage. 5 Q transistors

0

five

0

7.8 are locked, the branches of the tuning fork 3 begin to return to the equilibrium position, its passage by inertia J after the greatest deviation of the branches of the tuning fork 3 at the output of the amplifier-vypir otel 6 again appears a positive voltage, and the process repeats.

Thus, for a given tuning fork, current flows through the excitation electromagnet coil only during convergence of the tuning fork branches, which ensures maximum efficiency of energy pumping, since oscillations of the tuning fork branches 3 and the excitation electromagnet (4) occur in the phase due to positive feedback. sensor 5,

As follows from the foregoing, oscillations automatically occur when the power is turned on, since the principle of self-excitation of the tuning fork is implemented, which expands the range of application of the electric chamber and simplifies its operation.

The amplitude of oscillations can be varied by adjusting the voltage of the supply, and the frequency within certain limits - with the help of weights, hung on the branches of the chamber.

Thus, the invention allows to significantly increase the reliability of the tuning fork and to expand its functionality,

The device is impudent, easy to repeat, and can be widely used in educational processes, both within schools and in schools, technical schools and higher educational institutions of the country.

Claims (1)

Invention Formula ; An electromagnetic excitation tuning fork, containing a tripod, a tuning fork holder, and an excitation electromagnet connected to the power supply via a key that distinguishes3 so that, in order to increase the usability and increase reliability of operation, it is equipped with an electromagnetic transducer of oscillations of the tuning fork branch into an electrical signal and a rectifier amplifier connected in series with it, and the key is made transistor and connected to the output of the output signal Met. Editor A.Makovska Compiled by A.M. Gkov Tehred A. Kravchuk Order 4069/49 Circulation 459 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader M. Pojo Subscription