CS208191B2 - Holder of coil and microphone for the fine tuning device of the frequency for mechanical rezonators - Google Patents

Description

SOCIALIST REPUBLIC OF CZECHOSLOVAKIA (19) DESCRIPTION OF FILLER 208191 dl) (B2) (22) Registered 20 09 76 (21) (PV 6080-76) (32) (31) (33) Priority from 26 03 75 (P 25 43 128.1) Federal Republic of Germany (40) Published 31 12 80 (51) Int. Cl.3 H 03 H 9/05 OFFICE AND DISCOVERY OFFICE (45) Published 15 04 84 (72)

The inventor of HILLENBRAND ALFRED, GERMERIN and KRAUSS WOLFRAM dipl. ing., MUNICH (NSR) (73)

Patent proprietor SIEMENS AKTIENGESELLSCHAFT WESTERN BERLIN (WESTERN BERLIN) and MUNICH (NS) (54) Coil holder and microphone for fine-tuning frequency promechanical resonators 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coil holder and a microphone tuning device comprising a tuning unit for sand blasting or laser beam processing and a frequency measuring unit, a promechanical resonator consisting of a magnetic material in which frequency unit excitation coil amicrophone. When fine-tuning the mechanical resonators for electromechanical filters, these resistors are brought in by an alternating field of the coils of the mechanical mechanics and the microphone is used to measure the oscillation frequencies of the resonators. In this context, a method for fine-tuning the frequency of mechanical isolators is known, in which the predetermined resonance frequencies are set by controlling the removal of the resonant material by means of a stream of sand or a laser beam (see NSR Patent No. 1,929). 994). They also bring the resonates to alternate bonding of the coils into mechanical oscillations, which are converted by the semi-microphone into an electrical oscillation corresponding to the actual frequency, the resonators, and then amplified. The amplified electrical oscillations are compared with the set point and the sub-section fractions, which in this case are then controlled by the action of the material. 2

In order to obtain a sufficiently large amplitude to determine the frequency of the mechanical resonators, it is necessary for the air-space to be between the iron core; the exciter and the expander closing the m-agne-circuit was as small as possible. Measurement of the resonator's own frequency is carried out by a micro-phonet which must be arranged in the proximity of the air column located between the resonator and the microphone to obtain the greatest possible output voltage.

In order to further eliminate the interfering noises in the measurement of the resonant-to-intrinsic fre- quency, it is necessary to place the m-ikrophone in the region of the first air column. Thus, the distance between the resonator and the microphone remains. only by a few tenths of a millimeter. However, since the self-frequency measurement generally takes place alternately with the step-wise tuning-frequency, the excitation coil and the co-driver of the known devices are subjected to large reflections due to the reflected grain of the sand and to the laser beam machining. wear. SUMMARY OF THE INVENTION It is an object of the present invention to overcome the aforementioned problems and to significantly influence the bonding efficiency of the individual elements.

Starting from the coil holder and the microphone for the frequency tuning device, 208191 3 4 208191 containing a trimming unit for sand-blasting or for laser-beam processing and a soft-vein unit for mechanical resonance, the a magnetic material, in which the frequency unit includes a frequency and a microphone, this object is solved by the fact that the frequency converter is surrounded by a closed protective cap having a removable protection in the plate of insulating material facing the dc tuning the resonator, the inside of the chranndhokryte is provided with a winding thread, the nza / microfonating microphone and through the aperture in the protective plate and extending into one resonator with one end, two ferrite cores are guided through the protective cap and the exciter is slidable inside the protective cover so that its core abuts both ferritic cores. An advantageous embodiment of the invention is that the cylindrical sleeve is conically tapered at a light-constricted direction to the residual tube by a screw connection: it is connected to a smaller diameter cylindrical tube guided by the protective plate opening.

An essential advantage of the device according to the invention is that the microphone and the coil are effectively protected and that all parts which are subject to wear are easily replaceable. In addition, these consumable parts are substitutable at low cost, so the equipment is very economical in this respect.

A further advantage of the solution according to the invention is that the likelihood that the grain of the furnace, reflected from the resonance or the particulate material, is reduced. In addition, it is advantageous to simply replace the inexpensive tube subject to greater use. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic illustration of a frequency adjusting device according to the present invention; FIG. 2 is a schematic representation of a holder and microphone according to the invention; FIG. 3 is a cross-sectional view of the apparatus of FIG. 2, guided by the microphone base; and FIG. 4 is a cross-sectional view of the protective cover cover plate taken along the line of FIG.

FIG. 1 shows a known retraction device with a laser unit 2 directed to the forward side of the finishing resonator 1. The frequency measuring unit consisting of the coil driver 3 and the microphone 4 has a distance of only a few millimeters from the bottom. As a result of the small distance required here, the Xuroton sleeve 4 and the coil 3 are subjected to a stronger grip on the material particles thrown out by the laser processing, which requires more frequent exchange. Similar coefficients are whistled at the same time as the fine-tuning of the current flow. are provided with an insulating material protective plate 5. Two-ferrite cores 6 are guided through this plate 5, which extend the magnetic path of the coil 3 so that the coil 3 extends over the coil. t zQkaue very small air mezeramezi resonator 1 is rotated and the core 11 of the coil. P r: uclvanu microphone is adapted · piouz-tlro 7 extends into klorého housing 4 'microphone. It is narrowed at one end and terminated by a tube of smaller diameter, which is screwed into the housing and passes through the protective plate. The end of the tube 8 extends close to the edge, the nature 1. The casing 7 acts together with the tube 8 as a sound tube in which an air column is formed, oscillating with the frequency of the resonator, which is only very irritating to the noise from the surrounding cavity. Thus, a 4 'microphone can be placed without significant deterioration of the measurement conditions in the air-air column, which is more distant from the resonator 1. Since the ferrite core shielding plate 5, which is glued thereto, is screwed as a front plate to the shield 9, there is a possible tube Replace the screwed bushing 7 with the fly. It can be seen from Figures 3 and 4 that the casing 7, which surrounds the microphone 4 and the tube 8, is the intermediate bars of the core 11 of the excitation coil 3, formed in the form of a letter U, or between the feirrito-core cores 8. The excitation coil 3 which is arranged along the edge of the slide 9, the screw 161 may be displaced in the longitudinal direction so that the coil core 11 abuts the ferrite cores G. The screw 12 serves a tight fit, i.e. a setting for the coil lock.

Housing. 7 adapted to protect the microphone, it is conically tapered at its end facing the resonator. By means of a pipe 8 screwed to this end of the housing 7, a connection to the channel 1 is provided. The microphone is housed in a protective housing 9 in a housing 13 of pivoted, rotatable about its longitudinal axis. one end of the plastic sleeve 13 is provided with a thread 15 on which the sleeve 7 is screwed. Thus, the sleeve 7 can be moved in the direction of the sleeve by turning the plastic sleeve 13. its longitudinal axis and thus adjust the distance between the pipe 8 and the resonator 1. The lever 16 serves as a rotation lock.

The protective cover 9 is always closed at the top and bottom by a plate 17, so that only the protective plate 3 and the two ferrite holes 6 and the wear-resistant tube 8 can be used.

Claims (2)

The function of the holder according to the invention lies in the fact that it is possible for the tuned resonate to be brought relatively close to the holder. It is also possible to adjust the microphone 4 in the direction of its longitudinal axis 8 within the housing 7 so that it can be slidable and movable. The housing 4 'of the microphone can thus be kept inside the cylinder housing 7 in the air column located in the cylinder housing 7. EDM T T, 1. The coil holder and microphone for fine tuning the frequency device for mechanical resonators comprising a trimming blasting sandblast for laser beam processing, and a frequency measuring unit consisting of an excitation coil and a microphone, the resonators being magnetic characterized in that the frequency measuring unit is surrounded by a closed protective cover (9), by means of which a cylindrical casing is provided by the removable protective plate (5) made of the insulating material and facing the trimming resonator (1j, inside the protective cover (9)) (7j, closing the microphone (4j and coming up through the opening in the protective panel (5) and extending through one of its ends to the reisolator (1), the protective plate (5) why, the throwing ferrite cores [6] and the excitation coil (3j is slidable inside the protective cover [9]) that its core (abuts against both ferric cores (6). 2. A coil holder and a microphone holder for the frequency adjusting device according to claim 1, wherein the cylindrical housing (7) is conically tapered at its end facing the resonator (1). and a screw connection is connected to the smaller diameter cylindrical tube (8) through the opening of the protective plate (5). 2 sheets of drawings Seventy, n. P. Race 7, Most