DE242749C - SOUND SOCKET WITH A PEN HOLDER SWIVELING AROUND ONE POINT - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 242749 CLASS 42g. GROUP

Addendum to patent 228451 of August 3, 1909.

Patented in the German Empire on May 10, 1910. Longest duration: August 2, 1924.

The main patent includes a Spre.ch machine sound box with a variable oscillation amplitude the membrane has been described, in which the pen holder in addition to his well-known Point of attack on the membrane still has another point of attack which is subject to the influence of an elastic organ is, so that by voting this elastic organ against the elasticity of the membrane the position of the instantaneous axes of rotation of the system and thus the extent to which the oscillations of the sound pen transferred to the membrane can be regulated. The present invention relates to further developments of this device described in the main patent, in particular improvements in the design and arrangement of the elastic organ acting on the further point of application, but also further to regulate the arm connected to the membrane.

The invention is shown in several exemplary embodiments on the accompanying drawing illustrated, namely:

Fig. Ι a front view of the membrane housing, in which the elastic member consists of an adjustable flat spring,
Fig. 2 is a side view of Fig. 1,

3 shows the front view of another elastic organ formed from a flat spring,

FIG. 4 shows the side view of FIG. 3,

Fig. 5 is a partial front view of the diaphragm housing, in which the elastic Organ consists of an annular flat spring,

FIG. 6 is a side view of FIG. 3.

Fig. 7 shows, also in section, a further embodiment of the elastic organ, consisting of compression and tension spring,

8 is a front view of the diaphragm housing, in which the diaphragm lever is under the influence of an elastic organ and both lever arms together in the the necessary senses regarding the influence of the elastic organs are regulated can,

9 shows another structural embodiment of this idea,

FIG. 10 shows another structural embodiment of the idea given in FIG. 8,

FIG. 11 shows a side view of the elastic regulating member of FIG. 10.

As in the main patent, for example, the pen holder is designed as a three-armed plate, namely in Fig. 1 A denotes the needle arm, B the membrane arm and C the third arm of the three-armed pen holder, which is subject to the influence of an elastic organ. 6a

As in the main patent, this three-armed pen holder is intended to rest on a center punch U and is secured by two screws 0 passing loosely through the three-armed pen holder. In the embodiment shown in Fig. 1 and 2, a flat spring 3 is now arranged in a lateral approach ι of the membrane housing on a block 2, which has a slot 4 in the longitudinal direction, and opens out at the other end in a fork or bracket 5, into which the end of the arm C designed to form a ball 6 enters, in such a way that the ball is only in contact with two surfaces of the fork 5 :.

In the slot 4 of the flat spring 3, a block 7 is arranged displaceably, which can be secured in place by means of a screw 8. By shifting this block 7 in the longitudinal direction of the slot 4, a shorter or longer piece of the flat spring is held rigidly on the base, and only the remaining part can swing freely. The shorter this freely oscillating part, the more tensioned the flat spring3 and, according to the construction of the main patent, the less the arm C of the three-armed lever can participate in the oscillations caused by the needle arm A and the closer the position of the instantaneous ones The axis of rotation of the arm C. Thus, the intended purpose can be achieved here with a very simple embodiment. In order to allow easy orientation while regulating the volume, it is advisable to attach a scale on the approach 1 along the spring 3, over which a pointer attached to the block 7 passes, so that the setting of this block and thus the spring can be clearly seen is.

Another embodiment, in which the elastic member is also formed from a flat spring, is shown in FIGS. Here, however, instead of a single flat spring, two flat springs 3, 3 'are used, which are fastened together on the extension 2 and are connected at the free end to the fork 5, which comprises the spherical end 6 of the arm C. On one of the springs, for example on the upper 3, a screw 8 is arranged, the end of which rests against the lower spring 3 'and thereby more or less spreads the two normally parallel flat springs apart as required and thus a regulation the tension of the springs allows.

An equally simple embodiment of the elastic organ is shown in FIGS. 5 and 6. Here a pin 10 is arranged on a small lateral extension 9 of the diaphragm housing, on the freely rotatable a roller is placed, which consists of the hub 11 and two disks

12 consists. This role is by means of a screw

13 with the interposition of an appropriately designed spider-shaped spring 14 against the base, so that a clinking during the oscillation of the arm C is avoided. A flat spring 15 of approximately annular shape is arranged on the inner sides of the two pulley disks 12, which are, however, fastened to the disk only at one end, while the other end towards the inside, i.e. towards the opposite disk, more and more is bent, so that so to speak a worm gear results. Here, too, the end of the arm C is designed as a ball 6. This ball lies between the two oppositely directed springs 15. By rotating the disks 12 in one direction or the other, the ball 6 can therefore be subjected to a lower or higher spring pressure on both sides and the degree of elasticity of this arm can be regulated.

In the example shown in Fig. 7 embodiment, the arm C is subjected at the same time of ¹ a side the influence of a compressive and a tension spring. For this purpose, a cylindrically hollowed-out screw nut 16 is arranged so that it can be screwed in and out in a shoulder of the diaphragm housing. In the middle of this nut is a screw bolt 17, which opens out at the free end in a square pin 18, and is guided with this in a carrier 19, which in turn is attached to the membrane housing. The screw bolt 17 expediently has a longitudinal groove 18 'for a purpose to be described later. The end of the screw bolt opening inside the nut 16 is connected to the end of the arm C by a tension spring 20. Furthermore, within the cavity of the nut 16, there is an annular cap 21, the rotation of which is prevented when the nut 16 is adjusted by engaging the longitudinal groove 18 'of the screw pin 17 with a shoulder or a nose. One end of a compression spring 22 rests in this cap 21, the other end of which also rests against the lever C. The outer thread of the nut 16 is in a ratio of 1: 2 to the thread of the screw bolt 17 and has the same name as the latter. If, for the purpose of regulating the tension of both springs, the nut 16 is rotated inwards, for example, this rotation extends only to this nut, while the cap 21

and the screw bolt 17 does not participate in the rotation. The compression spring 22 is therefore directly more and more compressed by the nut 16 and its influence on the arm C is increased. But since the outer thread of the nut 16 to the thread of the screw bolt 17 is in a ratio of 1: 2, the screw bolt 17 must be moved outwards at the same time and in the same ratio as the nut 16 is rotated, whereby it is moved with its square extension 18 is moved in the carrier 19. As a result, the tension spring 20 is pulled apart at the same time and thus also its influence on the arm C is increased, only that this influence takes place in the opposite direction to the compression spring, and since the forces of the two springs are equal if the latter is selected accordingly, this results in the arm influenced by the springs always remain in its position and only the influence of the springs acting on it, ie the tension of the springs, is changed by setting the nut 16 accordingly. Thus, when the nut 16 is rotated, the degree of elasticity of the mounting of the arm C can be regulated to any desired extent.

In the embodiment of the three-armed pen holder described in the main patent, only the third arm should be subjected to the influence of an adjustable elastic organ. If one wants to enable the regulation of the volume to the extreme limits, one can also expose the arm connected to the membrane to the influence of such an organ; only then, care must be taken that, if the degree of elasticity that affects the third arm acts, which is to be referred to as the control arm, is reinforced, the degree of elasticity acting on the diaphragm arm is reduced to the same extent and vice versa, so that the arm, which can easily be oscillated by suitable measurement of the degree of elasticity, is not hindered by these vibrations. Such an embodiment of the sound box is shown in FIGS. 8 and 9. Here, two elastic organs α and b are used, for example of the construction as shown in FIGS. The edges of the disks 12 are provided with teeth here and each engage a screw c and d , which sit on a common shaft e , which is rotatable in bearings f and g of the diaphragm housing. This shaft e can be connected to a flexible shaft, so that the regulation of the degree of elasticity of the two arms B and C of the three-armed pen holder can also be brought about during the operation of the diaphragm, simply by means of the flexible shaft, the shaft e and thus the screws c and d are rotated, which in each case has an opposite setting of the elasticity organs α and b result, so that the arms B and C can swing in the desired direction.

The same purpose is achieved even more simply by the device shown in FIG. 9, although regulation during operation is not possible. Here, the flat spring 3 shown in FIG. 1 is used on a shoulder 1 of the diaphragm housing, which can also be secured by a block 7 and a screw 8 in such a way that a flat spring results on both sides of this block 7, whose arm can be shorter or longer. The two ends of this flat spring are connected to arms B and C of the three-armed pen holder. The mode of operation is readily apparent from the above. In the device shown in Fig. 8, it can be useful to arrange a small attachment h on the three-armed pen holder, which is stabilized by a flat spring i, which is attached to the membrane housing at k , in order to prevent any dragging of the ¹ pen holder during to avoid shifting the block 7 when regulating. / - "■■, ■.

10 and 11 show another embodiment for influencing the two lever arms. As in FIG. 9, both arms are resiliently connected, but two flat springs 23, 23 ′ lying one above the other are used, which open out into forks 24 at the two ends and with these encompass the ends of the associated arms B and C. Between the two springs 23, 23 'there is a disk 25, the upper and lower surfaces of which, as can be seen in FIG the disc is a stronger or narrower metal part, which consequently spreads the two springs 23, 23 'more or less far apart. The two springs are held in the middle by screws or lugs on the axis about which the disc 25 is rotatable, at a constant distance. Since the spring ends also have such a constant distance, the intermediate plate with its inclined surfaces acts like a wedge that presses between the flat springs, which, depending on the setting of the plate, causes a more or less strong spreading apart between the center and the end, in such a way that each

because the spreading apart of the two! lateral spring parts move in front of it to different degrees, that is to say that if one spring part is strongly spread apart, only a slight spread occurs in the other part, and consequently a corresponding regulation of the degrees of elasticity of the two arms B, C. The adjustment or rotation of the disk 25 takes place in that it is provided on its periphery with a toothing 26 which enters a worm, which by means of a flexible shaft 28 or other means also during the operation of the membrane can be set in rotation, so that the corresponding setting or change of the degree of elasticity of the two arms is possible during operation.

Claims (9)

Patent Claims: 1. Sound box, the pen holder is pivotable about a point, according to Patent 228451, characterized in that a longitudinally slotted flat spring (3) arranged on an approach of the diaphragm housing is used as an elastic member for the further point of application (C) of the pen holder, in the slot of which a block (7) is adjustable, which shortens or lengthened the oscillating part of the flat spring (3) which includes the fork-shaped end (5) and which includes the further point of application (C) , depending on the setting, thereby causing the degree of elasticity to be regulated. 2. modification of the sound box according to claim 1, characterized by the application two flat springs (3,3 '), which by a screw (8) from their normal Position more or less bent and thus tensed. 3. modification of the sound box according to claim 1, characterized in that between two jointly rotatable disks (12) two approximately ring-shaped . configured opposite and helically wound flat springs (15) are arranged, between which the further point of application of the pen holder comes to rest, so that by rotation the washers (12) or springs (15) around their axis the regulation of the degree of elasticity can take place. 4, Claim 1, characterized in that on one side a compression spring and a tension spring come together to act on the further point of application (C), in such a way that when the elasticity is changed Modification of the sound box according to the degree of a spring this in corresponding Sense is also changed in the other pen. 5. Sound box according to claim 4, characterized in that. that a cylindrical hollow screw nut (16) that can be screwed into the membrane housing compresses a compression spring (22) acting on the further point of application (C) , while a screw bolt (17, 17, which is adjustable in the center within this nut (16) only in the axial direction) 18) with twice the pitch of the outer thread of the nut (16) influences a tension spring (20), so that when the nut (16.) is rotated, the screw bolt (17, 18) is also displaced lengthways in the opposite direction to the nut ( 16) and thus the tension spring (2) is also relieved or relaxed in the corresponding sense. 6.. Sound box, the pen holder of which is pivotable about a point, according to patent 228451, characterized in that not only the further point of application (C) of the pen holder but also the arm (B) connected to the membrane is exposed to the influence of an elastic organ. ' 7. Sound box according to claim 6, characterized in that the two regulating organs are inevitably connected in this way are that if the degree of elasticity is increased in one regulating organ, in the other, a corresponding weakening of the degree of elasticity occurs and vice versa. 8. Sound box according to claim 6 and 7, characterized in that the rotatable regulating members of the two said pin holder arms (B and C) are influenced by a shaft (e) which can be rotated by a flexible shaft during operation, for example by means of a worm gear (d, e) ) are exposed in such a way that, if in one regulating organ an increase in the degree of elasticity occurs, in the other, conversely, a corresponding weakening of the degree of elasticity is brought about '. 9. Sound box according to claim 6 and 7, characterized in that the diaphragm arm (B) and the further point of application (C) of the pen holder are connected by a slotted flat spring (3), in the slot of which a block (7) is adjustable so that by adjusting the length ratio of the spring arms on both sides and thus the one on the corresponding points of application fl ?, C) acting degree of elasticity is variable or controllable. ok Sound box according to Claims 6 and 7, characterized in that the two points of application (B, C) of the pen holder are connected by two flat springs (23, 23 '), between which a rotatable disc provided with inclined surfaces is arranged, so that by rotation the same a more or less strong part of the disc is pressed between the two-sided spring arms and thereby the latter is more or less tensioned. 1 sheet of drawings.