DE386253C - Device for determining the pitch or tone strength of the sound energy generated by a sound source - Google Patents

Description

Device for determining the pitch or tone strength of a Sound source generated sound energy. For acoustic measuring lengths that extend over a a longer period, a facility is required that allows to repeat a note exactly according to height and strength at any time. Such a This is the case, for example, when the test of human hearing involves the Changes in the sensitivity of the ear over time were determined by measurements should be. It is not sufficient for this purpose to use the sounder, for example ice a telephone membrane to stimulate in the same way at the different times, So the same membrane in the same fixture vibrates with the same current to put, since the influence of temperature is an exact representation of the same Makes tones impossible. Changing the temperature would increase the size of the mounting ring the membrane can be changed, whereby z. B. the exact reproduction of the same pitch is prevented.

To be an exact repetition of a tone according to height and strength in each To allow time, precautions must be taken with each repetition to be able to check the pitch and strength of the tone. For this purpose are after of the invention in a housing one or more mechanically excitable resonators arranged to vibrate by the sound energy generated by the sound source can be moved. In addition, an auxiliary device, e.g. B. one through one Glass plate covered viewing opening as well as one caused by the vibrations of the resonators current closing device to be put into effect or a setting device for Movement of different resonators into a working position and a microscope for Observation of the oscillation amplitude of the resonator brought into the working position provided to monitor the vibrations of the resonators outside the housing and thereby to be able to determine the pitch or tone strength of the sound energy.

In the drawing, the new device is in various embodiments shown schematically.

Fig. I is a vertical section through one embodiment according to the line A-B of Fig. 2.

Fig. 2 is a horizontal section along the line C-D of Fig. I.

Figure 3 is a vertical section through another embodiment according to the line E-F of Fig. d ..

Fig. D. is a horizontal section along the line G-H in Fig. 3.

Fig.5 illustrates a detail in a horizontal section the line T-K of Fig. 3.

Figure 6 is a top plan view of a particular embodiment of a Resonators.

FIG. 7 is a side view of the resonator of FIG. 6.

Figure 8 is a top plan view of another embodiment of the resonators.

Fig. 9 is a side view of the resonators of Fig. B.

Fig. Io illustrates a special type of oscillation of the resonators according to Fig. 8 and 9. The device shown in Fig. i and 2 consists of one round housing i, which is closed by a glass plate: 2 at the top Owns display opening. At the bottom of this housing is a for the entry of the sound energy In the interior of the housing serving pipe 3 and laterally one for the exit of the sound energy serving pipe .4 connected. The pipe 3 stands with any sound source in connection, while the pipe d. is led to the point of consumption. In - the pane of glass 2, a socket 5 is inserted eccentrically to the center of the housing, which has a threaded hole is provided. Through the socket 5 is a spindle provided with a corresponding thread 6 passed through. The spindle 6 is located on the upper outside of the housing 2 Provide the end with an adjusting knob 7. At the bottom, inside the case located end, the spindle carries a plate 8, on which with the interposition an insulating disk 9, a contact disk io is attached.

Inside the housing i is on its side wall with the interposition an insulating ring i i a metal ring 12 attached. On this metal ring is a Set of resonators attached, which consist of different lengths, lying at the same height Metal tongues i2 ° to i2 "'exist. The metal tongues are radial to the axis of the spindle 6 and thus arranged eccentrically to the center of the housing. The shortest tongue i2a and the longest tongue 12 '' 'are diametrically opposed to each other. The remaining tongues are graduated and arranged so that alternately opposed to the shortest tongue i2a clockwise the next longest tongue ub, clockwise the next longest Tongue i2c follows and so on. All tongues grip over the edge of the contact disk io. If necessary special contact plates can be provided on the underside of the free ends of the tongues be. The metal ring 12 is connected to a lead wire 13. A second lead wire 14 is connected to an insulated metal piece 15, on your one the underside the contact disk io constantly touching metal spring 16 is attached. The two Lead wires 13, 14 are arranged outside the housing, not illustrated electrical signal device of any type, e.g. B. a galvanometer, and a power source. On the button 7, a pointer 17 is attached, which when turning this knob via a graduation provided on the socket 5 emotional.

If the sound energy to be measured is passed through the housing i, then gets the tongue corresponding to the pitch of the sound waves, z. B. 1211, in oscillation. By turning the i button 7 the disk io is moved upwards until it comes off the swinging tongue 12a be # tirirt ': will. ' -'In this. Cases "takes place a short circuit, so that the aforementioned signaling device is put into effect will.

As soon as the passage of the sound energy through the housing is interrupted and therefore the tongue that is set in vibration comes to rest, the Disc io can be moved further upwards by means of button 7 until they release the tongues i2a to 12 "'t, which are now all in the rest position, touches. In in this case a current circuit is brought about and therefore the signaling device put into effect again. By observing the position of the pointer 17 in the Altitude of the disk io at which this disk is in contact with the vibrating tongue arrives, as well as on the other hand in the height of the disc, in which it is the resting Touches tongues, the oscillation range of the activated tongue and thus the strength of the sound energy can be determined. Through the glass pane 2 it can be observed which tongue is vibrating, increasing the pitch is determined.

With the setup described, only a small part of the Housing 2 flowing through sound energy can be used to one of the resonators i2a, etc. to vibrate. When measuring weak sound energies, um which is particularly useful when testing hearing acuity to use the device shown in Fig. 3 to 5, in which almost the complete Sound energy can be used to excite a resonator.

In the embodiment according to Fig. 3 to 5 is in a cylindrical Lead box 18 arranged a telephone i9 serving as a sounder. The lead case 18 is by means of rubber feet 2o on the bottom of a housing 21 enclosing it arranged, which is square (see. Fig.4). The one that stands out from the lead load Sound outlet pipe 22 of the telephone is provided with a flange -23. Means of the tube 22 and the flange 23 is the telephone i9 with the interposition of Rubber rings 24 on the top wall of the lead case i8. hung up. The described The arrangement of the telephone has the purpose of releasing the sound energy through the wall to prevent the box 18 or the housing 21 through to the outside. The telephone line 25 is passed through holes in the box 18 and the housing 21 to the outside.

On the lead box 18 is a serving to collect the sound waves; arranged smaller cylindrical housing 26 which is provided with two flanges 27 and 28. At the top of the housing 26 is a sleeve 29 which is provided with a wide bore 30 , which is in communication with the interior of the housing 26, and a narrow bore 31. A sound outlet opening 32 is provided in the cylindrical wall of the housing 26, while the wall of the part of the sleeve 29 containing the wide bore 30 is provided with a sound outlet opening 33. The sound waves pass through the opening 32 to the test device to be described. The opening 33 is followed by a line 34 which passes through an opening 35 in the wall of the housing 21 to the outside and to the point of use, for. B. is performed for hearing tests to the ear.

So that the entire sound energy can always be used either to adjust the pitch and strength of the tone or to test the hearing, the device described below for alternately opening and closing the openings 32 and 33 is provided. A tube 36, which is open at the bottom and which is provided with an opening 37 corresponding to the opening 33, is rotatably arranged in the bore 30. At the lower edge of the tube 36, a tab 38 is bent at right angles, the free end of which is also bent downwards at right angles and forms a slide valve 39 sliding on the cylindrical wall of the housing 26. The movement of this slide is limited in both directions by stops 4o. At the upper end, the tube 36 is closed and connected to a spindle 41 which is rotatable in the bore 31 and the outwardly protruding end of which carries an adjusting knob 42. By turning this knob, the tube 36 can be adjusted so that in the one end position of this tube the opening 33 is covered by the tube wall and the opening 32 from; Slide 39 is released, while in the other end position the opening 37 is located in front of the opening 33 and the slide 39 covers the opening 32. In this way, the entire sound energy can exit through the opening 33 in one end position of the pipe 36 and through the opening 32 in the other end position.

In the embodiment shown in Figures 3 to 5, the resonators are used eight leaf springs 43a to 43k of different lengths, which are arranged within the housing 21 are. Each leaf spring, e.g. B. 43a, is at the free end with a small mica plate 44 is provided, which is large enough to carry the in the manner described below to absorb this mica plate to be conducted sound energy as completely as possible. The leaf springs are arranged on rods 45 which are rotatable on a housing 26 octagonal. body 46 attached are. The rotating body 46 contributes Gear 47, which is inserted into a gear 49 mounted on a vertical spindle 48 intervenes. The spindle 48 is at the lower end in a on the bottom of the housing 2i arranged track layers 5o arranged rotatably and protrudes with its upper end out of the housing 2 i. Outside this housing, the spindle 48 carries a Button 5 i. A second gear wheel is also located on the spindle 48 within the housing 2i 52 attached. which meshes with a gear 54 mounted on a sleeve 53 stands. The sleeve 53 is rotatable on the sleeve 29 and counteracted by adjusting rings 5 5 axial displacement secured. On the upper, protruding from the housing 21 The end of the sleeve 53 carries a graduated disk 56. The Graduation works with a stationary mounted, on the upper end of the sleeve 29 attached pointers 57 together. From the above it can be seen that by turning of the knob 51 of the rotating body 46, on the cylindrical housing 26 by means of the gears 47.49 is rotated. The amount of rotation can be determined by means of the gears 52, 54 adjustable disk 56 can be read.

The rotating body 46 is provided with eight radially arranged tubes 58 passed through the rotating body wall. The outer mouth of the tube 58 lies opposite the mica plate 44 each one of the resonators 43a, 43b etc. When the rotating body 46 is adjusted, all tubes 58 and all resonators 43a, 43b etc. are swiveled around. The tubes 58 are arranged at the same height as the opening 32 mentioned above, so that each tube 58 is moved in front of the opening 32 one after the other when the rotating body 46 is adjusted. In this way -, the sound waves are transmitted to the mica sheet 44 of the associated resonator, e.g. B. 43a, and the resonator is therefore possibly set in oscillation.

A microscope 58 is passed through the cover of the housing 21. This microscope is arranged so that the mica plate is each in the working position brought resonator, e.g. B. 43a, under the lens, this microscope gets. The oscillation amplitude can be measured on an ocular microineter 59 arranged in the microscope of the resonator to be observed can be measured precisely.

The device shown in Figs. 3 to 5 can be used as follows: First, by adjusting the knob 42, the opening 32 is released and the opening 33 is closed. All of the sound energy generated by your telephone 19 can therefore now only emerge from your housing 26 through the opening 32. With the help of the knob 51, the rotating body 46 is set in rotation until the resonator corresponding to the desired pitch, e.g. B. 43a, is brought into the working position. Thereupon the height of the tone generated by the telephone is regulated by means not shown, until the maximum of the oscillation amplitude of the resonator 4311 is observed through the microscope 58, whereby the achievement of the desired pitch is determined. With the pitch constant, the strength of the telephone circuit is thinly regulated, for example by means of a controllable resistor (not shown) that is connected to this circuit, and by measuring the amplitude of the resonator 43a by means of the ocular micrometer 59 of the microscope 58, the occurrence of the desired tone strength is determined. If the sound energy is checked for pitch and strength in this way, the opening 32 is closed by turning the knob 42 and the opening 33 is released, so that now the entire sound energy is directed to the point of consumption.

If the sound energy that is directed to the point of consumption is too weak to set the resonators 43a, 43b etc. in oscillation, so the switching energy must be set to a greater strength for the purpose of measurement and for the purpose of consumption in a certain, easily recoverable at any time Relationship to be weakened. The required attenuation of the sound energy can by regulating the telephone circuit, for example by means of the aforementioned adjustable resistance.

In order to be able to observe the oscillation amplitude of the resonators more easily. the free end of each resonator, e.g. B. 43a (Fig. 6 and 7), be provided with a recess 6o over which a fine quartz thread 61 is stretched. This thread is illuminated by a light source 62 which is accommodated in a housing 66 provided with an opening 65 and arranged within the housing 21 (Fig. 3) can be safely ascertained with the aid of the aforementioned microscope.

Instead of a simple resonator, an oscillation system can also be used can be used, which consists of two mechanically coupled resonators. Such an arrangement is illustrated in Fig.8 to io. Between that in vibration to be set, the mica plate 4.4 carrying end of the leaf spring 43 "and one to your rotating body 4.6 arranged rod 63 is a thread 64 with attached to weak tension. This thread forms when the parts 43 'and 64 existing resonator is made to vibrate, depending on the pitch of a half or an odd multiple of a half wave. When observing a The wave bulge of the thread through the microscope is the oscillation image that is presented easier to measure than that presented at the movable end of the leaf spring 43a Oscillation image, because the outer boundary lines of the antinode to be observed are approximately parallel in the middle, while at the movable end of the leaf spring the outer vibration lines diverge. Another advantage of the arrangement according to Fig. 8 to io consists in the fact that the leaf spring 43 'and the thread 64 formed Schwingungssysternri responds to different frequencies. In Fig 8 and io is the response through the representation of various nodes of oscillation of the thread 64 of the resonator on different overtones of a fundamental tone. In this way the measuring range of the device is enlarged insofar as without increasing the number The resonators allow testing for a greater number of different pitches is.

Claims (7)

PATENT CLAIMS: i. Device for determining the pitch or Sound strength of the sound energy generated by a sound source, characterized by one or more arranged in a housing, mechanically by the sound energy Excitable resonators whose vibrations are provided by means of a device on the housing Auxiliary equipment can be monitored from the outside. 2. Device according to claim i, characterized in that the resonators responding to different pitches (43a to 4311) consist of thin leaf springs and an adjustable rotating body (46) are arranged such that the individual Resonators alternately in such a position with respect to a sound outlet opening (32) can be brought that the sound waves on the in the working position brought resonator. 3. Apparatus according to claim i and 2, characterized characterized in that within the enclosing the resonators (43a to 4311) Housing (21) a chamber (26, 29) serving to collect the sound waves is arranged on which the rotating body (46) carrying the resonators is rotatably mounted. 4. Apparatus according to claim i to 3, characterized in that the collection the chamber (26, 29) serving the sound waves except with the sound outlet opening (32), those for the passage of the sound waves after the one in the working position Resonator (e.g. 43a) is used, is provided with a sound outlet opening (33), which is used for the passage of the sound waves after the consumption point. contraption according to claim 4, characterized in that the two sound outlet openings (32, 33) can be closed alternately by a common shut-off device (36, 39) are. 6. Apparatus according to claim i and 2, characterized in that in the wall of the housing (21) enclosing the resonators (43a to 4315) a microscope (58) is arranged such that the oscillation amplitude of the in the working position Resonator can be observed microscopically. 7. Apparatus according to claim i and 2, characterized in that each of the leaf springs acting as resonators (z. B. 43a) is provided with a recess (6o), in front of which a thread (61) is stretched through .a light source (62) is illuminated. B. Device according to claim i, characterized in that the resonator or resonators (i2a to 12 "L) are designed as movable contacts of current-closing devices (e.g. i2a, io) which are closed at a certain oscillation amplitude of the resonators. Device according to claim i, characterized in that the sound source (e.g. a telephone) is provided with a device for changing the tone strength (e.g. with a controllable resistor connected to the telephone circuit). io. device according to claim i and 2, characterized by an oscillation system consisting of two mechanically coupled resonators (43a. 64) . i. Device according to claim 10, characterized in that one (43a) of the two mechanically coupled resonators is a leaf spring and the other (64 ) is designed as a thread.