RU1818603C - Device for checking magnetic system of loud speaker - Google Patents

Abstract

SUMMARY OF THE INVENTION: The primary induction converter is made in the form of a ferrite ring with an excitation coil and two concentrator rods perpendicular to the plane of the ring. On the rod x are sections of the signal winding. 2 ill.

Description

The invention relates to measuring technique and can be used to control the magnitude of the magnetic induction of magnetic loudspeaker systems (MSG) under conditions of their large-scale production.

The aim of the invention is to increase accuracy.

Figure 1 shows the construction of a converter; Fig. 2 is a block diagram of a device for monitoring magnetic speaker systems.

The converter comprises a ring 1 with an excitation winding 2, rods 3, 4 with sections 5 and 6 of the signal (measuring) winding.

Induction measuring transducer - sensor 7 is connected to the input of rectifier 8, the output of which is connected to the filter 9. The output of the filter is connected to the comparison element 10, the output of the comparison element is connected to the power amplifier 11, the output of the power meter is connected to the unit

alarm 12 and block reject 13, forming a block reject.

Figure 2 also indicates: Usad - constant voltage of the amplitude meter (setting), the value of which determines the boundary of the levels of magnetic induction of a suitable and defective MSH.

The main element of the proposed device is a measuring transducer (sensor) 7. Using this magnetomodulation sensor 7 of a special design, the vertical component of the magnetic induction vector of the external magnetic field is measured, which has maximum points located along the ring at a distance r from the vertical axis of the magnetic system (figure 1). In accordance with this, the magnetomodulation sensor 7 has two pairs of parallel concentrator rods 3, 4 with sections 5, 6 located on them. Rods 3, 4 (the distance between their centers is d 2g, conditionally the diameter of the MSG) are connected ring ferrite modulator with

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by the excitation winding 2, wherein the plane of the ring 1 is perpendicular to the longitudinal axis of the rods 3, 4. The ring 1 is made of a material having low specific magnetization reversal losses.

Since the axes of sections 5, 6 are parallel to the axis of symmetry of the ferrite ring 1, there is practically no transformer connection between the winding of air descent 2 and sections 5, 6, and the sections themselves are outside the magnetization reversal zone. The presence of two ferrite rods-hubs 3, 4 increases the sensitivity of the sensor and its reliability in operation.

The contact surfaces of the rods 3 and 4 and the ring 1 are ground and glued with an epoxy-based ferromagnetic adhesive, which provides good magnetic contact.

The device operates as follows.

Checkable MSG is located on a moving conveyor. Transmitter - Sensor 7 is mounted stationary above or below the product. The vertical axis of the MSG and sensor 7 during the control must match.

When a sinusoidal current flows through the excitation winding 2, a magnetic excitation flux is generated in the ring 1, as a result of which the magnetic permeability of the modulator, the central part of the concentrator rods 3, 4, and therefore the entire system, changes. A change in the effective permeability of the system of modulators and concentrators leads to modulation of the magnetic flux of the external signal and the appearance of an EMF em in the signal winding, the magnitude of which controls the magnetic inductance of the MSH.

The signal from the sensor is fed to the input of rectifier 8.

The signal at the output of Comparison Element 10 appears with UWM ZMzar, i.e., with a valid MSH. At the same time, the output signal of the power amplifier 11 - UyM is minimal and tripping of 12 and 13 does not occur. When monitoring the defective MSG Pvyh 11, the output signal of the power amplifier is maximum, therefore, the alarm unit 12 is turned on and the reject unit 13 is activated, which removes the defective MSG from the conveyor.

In addition, the reject unit 13, after taking the measurement, rotates the magnetomodulation sensor 1 by 90 °. After which, as before, the magnitude of the magnetic induction of MCH is measured. Then the sensor returns to its original state.

and ready to control the next product.

Thus, this indicator monitors not only the level of magnetic induction of MSH, but also the symmetry of magnetization.

The advantage of such automatic development under conditions of mass production of different types of magnetization of MSHs is the speed and simplicity of its reconfiguration by changing the value using a potentiometer. The use of a modern elemental base allows the device to be compact, highly reliable and with low cost.

The main advantages of the device are as follows:

- reduced time to control the magnitude of the magnetic induction of MSH;

- the reliability of controlling the magnitude of the magnetic induction increases;

- one hundred percent control of the magnetic systems of the speakers on the moving conveyor without stopping it is provided;

- automation of the control and development of magnetic systems is provided.

Formula of the invention A device for monitoring magnetic systems of loudspeakers, comprising in series a primary induction transducer with two rods, a measuring winding and an excitation winding, a rectifier unit and a filter,

characterized in that, in order to increase the sensitivity, it is provided with a series-connected comparison unit, a power amplifier and a rejection unit, and a primary converter

the induction is made with a ferrite ring, while the field winding is located on the ferrite ring, perpendicular to the rods and intersecting them in the middle part, sections of the measuring winding are placed on the rods, connected in accordance with and connected to the input of the rectifier unit, the filter output is connected to the input of the unit comparison, and the distance between the rods is equal to the average diameter of the speaker magnetic system.

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