DE645515C - Volume control valve for acoustic speaking machines - Google Patents

Description

Volume control valve for acoustic speaking machines As known, cause the vibrations of a membrane in a dictation machine, which through a pen following the sound waves recorded on the disc are generated, in the sound box of the device a sequence of sound waves which essentially have the same properties as the waves recorded on the disk. These vibrations are caused by the sound guide paths arranged in the sound box forwarded and finally achieve that through a suitable listening device Operator's ear. The amplitudes generated in this way by the membrane Vibrations differ considerably in different panels, and as a result the volume of the sound waves reaching the operator's ear is very high different. It is therefore desirable to provide a control device which has a Modification of the volume produced by the various disks is allowed, so that the volume reaching the operator is always kept the same or up can be adjusted to a desired level.

If the sound guide paths through the control device are only on a narrowed cross section will be reduced, the tone will be disproportionate as a result of the large loss of waves of higher frequencies hollow or muffled. This appearance does not occur, however, if one receives a certain part of the sound energy at the same time can flow out into the open. However, there must always be a certain relationship between the degree of narrowing of the sound paths and the amount of sound energy flowing out into the open exist. There are already volume control devices known which have a gradual Narrowing of the sound guide paths and at the same time a gradual opening of the outflow opening allow; however, the results obtained with these devices were not equally satisfactory; this was undoubtedly due to their presence in many cases large resonance pockets in the tone guide paths. Where there are such pockets And in the end, even where they are not available, the sound guidance paths themselves however, have a large volume, that caused by the sound waves grows The resonance effect is strong with the narrowing of the sound guide paths behind the advancing ones Sound waves. It was therefore considered necessary to have the outlet opening in the same Enlarge dimensions as the sound guide paths have been narrowed.

However, through a series of experiments, the inventor has found that if the Sound guides have the right shape, cl. 1i. if made as straight as possible and be freed from resonance pockets that best results are achieved when nian at the same time finite the narrowing of the useful opening also the size of the loss opening, decreased. This result seems if ' Contradicting the opinion of all professionals zii stand; maybe it can be clarify that a narrowing of the tone guidance because of an agglomeration of sound energy before this constriction causes and that therefore the speed with which the Sound energy through said opening into Free flows off, with the narrowing of the sound Leadership is growing. It doesn't matter, however this declaration is correct or not, the experiment shows perfectly that a ringernng the outlet opening at the same time a narrowing of the sound paths is the best Volume control without noticeable lust ait comprehensibility or quality of the Tones results. In the drawings is an embodiment Example of the invention shown. Fig. I is a vertical section through part of the slide of a dictation ni machine, which the sound box and loudspeaker strength control device shows. The cut is guided along the line ii of FIG. Figure 2 is a cross-section along line 2-2 of Fig. t. Fig.; is a horizontal section of the Volume control device along line 3-3 of Fig. 2. FIG. 4 is a similar section along FIG Line 4-4. of Fig. 2. Fig.; is a view of the control device from above. Figures 6, 7, 8 and 9 are diagrammatic Representations showing the position of the flow opening to the valve body in the four Main positions »Loud«, »Medium«, »Soft« and show "Off". In the drawings, io is the sled a dictation machine, in the opening ti the playback and loudspeaker labeled 12 strength control device is used. These consists of a flat sound box 13 and a housing 14. for the control device, which in an opening 15 of the upper part attached to the sound box and through a Grub screw 16 is held. The sonic dose of the playback device has a # membrane 17, which with the help of part 18 with the needle holder (not shown) is bound, the needle of which is in the plate buried sound groove follows. In the illustrated embodiment, the volume control valve stands out Rooster body 14 and your tubular cock 20, which # is rotatably seated in the cylindrical bore 21, which is passed through the tap body 1.4 and is open at the top and bottom. This bore communicates with the sound chamber 19 through an inlet opening 22 which is of a smaller diameter than the sound chamber 19. The valve bore 21 is slightly larger in diameter than the opening 22, and the key 2o has a bore 23 of approximately the same diameter as the inlet opening 22, which is coaxially opposite it. The bore 23 goes up a little in the chuck and opens into an inclined bore 24 forming the continuation thereof, which can be brought into congruence with an upwardly sloping sound guide 25 formed by a tube 26 set in the wall of the tap body 14 will.

It should be noted that the position of the utility tone guide 25 to the cylindrical Valve bore 21 and also the position of the chuck hole 24 in relation to the chuck hole 23 is such that the axes of these bores form an angle, which is greater than 9o °. This arrangement has the advantage that sharp bends in the tone paths are avoided. Since furthermore at the junction of these two The same bores merge into one another with the largest possible radius of curvature, a sound guide is achieved from the inlet opening 22 to the outlet opening 25, which is free from sharp bends or other constrictions that reflect back of the sound waves or resonance phenomena on the way of the sound waves from the Effect membrane up to the ear of the operator. The tube 26 is known in Way connected to the listening device by a rubber hose.

At the upper end of the valve plug has a flat cap 27, which the upper end of the housing 14 protrudes so that the chicken on the edge of this cap can be easily rotated and adjusted. A pointer 28 on the housing 14 is used to display the set playback volume.

From Figs. 1, 3 and 4 it can be seen that the housing 14 has a downwardly extending bore 29 from its upper surface, in which a coil spring 30 is arranged, which is arranged against the end of a piston slidably disposed in the bore 29 31 presses and this presses upwards. When the valve body is inserted, this spring pushes b2! W. this piston against the protruding cap 27 of the valve body. The valve body is held against axial movement in the housing 14 by a screw 32, the smooth-turned end of which engages in a screwed-in sleeve 33 of the valve cylinder. The piston 31 presses the lower edge of the groove 33 resiliently against the head of the screw #, 2 that the openings 24 of the valve body and 25 of the housing are exactly opposite each other when the pointer 28 points to the designation "Laut" on the valve cap. A stop screw 34 fastened in the groove 33 strikes against the head of the screw 32 in both end positions and in this way limits the movement of the valve body up to its two end positions "loud" and "off". The spring 3o presses the piston 31 against the cap 27, so that the valve body is held by friction in each set position. 'At the height of the hole 2.a. the valve body 2o has a V-shaped groove cut into its cylindrical circumference, which begins at the bore 2 [with a certain depth and extends from there in the clockwise direction, becoming shallower and shallower and finally at the one in FIG. 3 with the reference numeral 36 runs out completely.

As can be seen from Fig. I, is in the lower part of the housing 14 and a horizontal discharge opening 37 is arranged in the surrounding wall of the sound box, which connects the valve chamber 21 with the outside air. It is important that this The discharge opening is arranged very close to the inlet opening 22 of the sound box. Since it is necessary at the same time as the narrowing of the sound guide paths through the V-shaped groove 35 a progressive throttling of this discharge opening as the connection Reaching between the inside of the valve and the outside air is the bottom end of the peg helically cut off as shown at 38; this becomes a obtained inclined wall moved along the inner end of the opening 37, which regulates the extent of the outflow through the opening 37.

6 shows the position of the helically cut end of the valve relative to the outlet opening 37 when the valve is in the position of FIGS. 1,: 2 and 3, namely in the position for loud transmission in which the sound opening 24 of the valve body of the Sound guide opening 25 is exactly opposite. In this position the entire discharge opening is in communication with the interior of the valve body and the inlet opening 22. In FIG. 7 the valve has been turned counterclockwise from "loud" to "medium". In this position, the sound guide paths are partially narrowed, the useful opening 2d. is no longer opposite the outlet opening 25, so that the deeper part of the V-shaped groove takes over the sound guidance of the sound waves from the inside of the valve body to the opening 25. At the same time as this narrowing of the sound guide paths, the loss opening was partially closed. Another quarter turn brings the valve to the "quiet" position shown in Fig. 5, in which there is a connection between the sound guide paths of the valve body and the housing only through the flat end of the V-shaped groove. At the same time, only a small outflow cross-section is released, as shown by the position of the helical end of the valve body in relation to the outlet opening in FIG. A further quarter turn closes the connection between the sound guide paths and the opening 25 as well as between the interior of the valve and the outlet opening 37 completely.

Claims (2)

PATENT CLAIMS: i. Volume control valve for acoustic speaking machines, which for the sound vibrations generated by mechanical scanning of the sound recording has an adjustable usable opening and a simultaneously adjustable loss opening, characterized in that the change in the two openings (25, 37) is in the same direction he follows. 2. Valve according to claim i, consisting of a tubular key (20) with a helically cut end (38) and a radial bore (2q.), which is the exit for a cut into the outer surface of the tube (20) Groove (35) of decreasing width and / or depth, and a tap body (14) with two bores (25, 37), one of which (37) is cut off in a helical manner End (38) of the key (20) and the other (25) in front of the groove (35) radially to the key (20) is attached.