DE4122316C2 - Electric drum - Google Patents

Description

The invention relates to an electric drum according to the Preamble of claim 1. Under an electrical Here drum is to be understood as a drum in which the Sound in a mechanical-acoustic way by applying the Eardrum is generated. The sound comes from that Eardrum directly to the microphone, without an essential Portion is emitted into the external environment of the drum. At the use of an electric drum under the Exercise is the output signal of the microphone too amplify and play through speakers. The one Audible drum sounds are almost based exclusively on the playback through the speakers. This has the advantage that the starting from the electric drum Do not sound that to reinforce other instruments used microphones affected. The arrangement of the microphone Conversely, in the electric drum also has the advantage that the microphone from that emanating from the other instruments Sound remains unaffected. An electric drum is not to be confused with an electronic drum. At a electronic drum will be synthetic sounds in Dependence on the exposure to a sensor surface generated electronically. The electric drum only allows that Reproduction of mechanically-acoustically generated sounds in amplified or modulated form.

An electric drum of the type described above is known (Dickreiter, Michael: Microphone recording technology, S. Hirzel Verlag Stuttgart, 1984, ISBN 3-777G-03888-0, pages 116-119.) This electric drum is a Bass drum with the one opposite the eardrum  Resonance head was removed. A bass drum shows you Resonance chamber with the shape of a cylinder. Of the Cylinder jacket is through the inner wall of the Limited drum body. The microphone of the electrical The drum is about 10 to 15 cm behind Tympanic membrane arranged. One inserted in the resonance room Blanket or foam, preferably a stone Has weight, is pressed to the eardrum. This will dampen the vibrations of the The eardrum and that emitted by the eardrum Reached sound. Ultimately, however, comes from this drum still affecting other people’s microphones Instruments. Furthermore, the shielding of the Microphones of this electric drum compared to that of some of the sound emitted by other instruments insufficient.

From the publication cited above, only that Training a bass drum known as an electric drum. For other percussion instruments are arranged above them Microphones provided. Here are mutual Influences cannot be avoided.

An electric drum is known from DE 29 29 985 A1, some radially delimited by an inner wall cylindrical drum body with a resonance chamber having. This cylindrical resonance chamber is at his an axial end bounded by an eardrum, which is applied for sound generation in the usual way. It is cylindrical in addition to the resonance chamber trained recording room provided in the Axis of symmetry a microphone is arranged. The recording room is provided at a distance from the resonance room. The recording room can at its end facing away from the resonance room with a Resonance head must be covered. It is also possible that to let cylindrical wall go through, so that from the  one end of the resonance room and from the other End area of the receiving space is formed. Between the two Areas with large areas are then provided. Insulation material is not used with this drum. As a result, the direct sound radiation is this electric drum into the environment significantly. On the other hand is also present in the environment by the microphone Sound recorded and via a downstream Amplifier system reinforced.

DE 40 07 440 C1 is a sound receiving device for the sound emitted by a conventional drum known. The sound receiving device has one Drum horn, the inner wall of which is an interior in the shape of a cone. Around Base of the cone is a coupling for pressure-tight Connect the drum horn to the drum intended. At the top of the cone, the Drum horn a hollow holding shaft for that Microphone on. At the drum horn is in the area of the holding shaft a pressure relief opening is provided. In particular in the area of the tip of the cone, the inner Wall of the drum horn with a sound-absorbing insulation material. The usage this sound receiving device allows the inclusion of the a drum of emitted sound without the microphone is adversely affected by the sound of other instruments. The sound emitted by the drum into its surroundings becomes however only slightly reduced. The sound development in Inside the resonance chamber of the drum through the inner Wall of the drum body, the drum head and the resonance head is completed by the Sound receiving device is not significantly affected. Accordingly, the sound of the drum remains largely unchanged.

The invention has for its object an electrical Show drum according to the preamble of claim 1 their direct sound radiation only a small extent and that of the sound present in their environment is largely unaffected.

According to the invention, this is achieved by the features of the patent claim 1 reached. Surprisingly, it is possible with this structure of the electric drum the entire mechanical-acoustic cover producible sound range. Here, the Drum body through its inner wall not only the sound the resonant space that determines the electric drum, but also a bell. The funnel focuses on the sound emitted from the eardrum onto the microphone. At these two functions of the drum body is the inner one Covering the wall of the drum body  Insulating material, which is a sound emission from the electrical Drum largely prevented to the outside, not cumbersome. Rather, it is through the nature and arrangement of the insulating material possible, the sound of the electric drum to influence within wide limits. In contrast to the known microphone drum takes over the microphone here the sound not from the immediate vicinity of the eardrum, but only when the desired specific sound trained in the resonance room. Here, too Focusing effect of the inner wall on the microphone exploited. The pressure relief openings at the top of the Kegels ensure the degradation through the focusing effect of the inner wall caused by sound pressure peaks. Hereby becomes an unwanted reflection of the sound in the Suppressed resonance space.

The drum body can be next to the pressure relief openings have resonance openings at the tip of the cone. With help of the resonance openings can be the sound of the electric drum to be influenced. In addition to the resonance openings come for this the already mentioned insulation material and the opening angle of the cone and its length.

At least part of the pressure relief and Resonance openings can be closed by the insulating material his. In this way, an escape of sound from the Resonance space through the pressure relief or Avoid resonance openings.

At least part of the pressure relief and Resonance openings can have an elongated teardrop shape, with the drops pointing towards the eardrum. It has been found that in particular the drop shape for Achieving an appealing sound in the drum of Advantage is. This is probably due to the fact that the  Width of the drop shape with the diameter of the cone decreases.

For the microphone can be a tubular section Holding shank can be provided, the Holding shaft through the inner wall of the drum body in protrudes into the resonance space and radial openings has in the form of pressure relief or resonance openings serve the drum body. The radial openings of the Holders only provide an indirect link between the resonance room and the surroundings of the drum. So is pressure equalization possible and also the sound formation influenceable, a noticeable emission of sound from the However, there is no resonance to the outside. Therefore is a Do not close the openings with the insulating material necessary.

The holder can be at the top of the cone in one along the Axis of symmetry aligned, with the drum body fixed connected bearing sleeve insertable and there by spring pressure be fixable. This is a sufficiently stable, Easy-to-use plug connection implemented.

The holder can on a stand supporting the drum be stored and without contact with the drum body the inner wall of the drum body laterally in the Protrude resonance space. By storing the holder the stand is transmitted vibrations of the Avoid drum body on the microphone. The drum body vibrates only minimally in the area of the tip of the cone. The However, vibrations take a distance to the top of the Cone and increasing diameter of the cone.

Clamping springs can be used to mount the microphone on the holder be provided. This way the microphone is simple  and in spite of the vibrations that occur, permanently attached to the Holder fixed.

The holding shaft and the drum body can be in one piece be formed, with the common connection area the top of the cone is arranged.

The drum body can in the direction of the axis of symmetry Cone be formed in two parts, between the two Parts of the drum body with a resonance head carpet is provided. That way it is possible to use the electric drum as a snare drum realize. The electric drum is different here from a conventional snare drum, which with a known sound receiving device is combined, that also the inner wall of the part of the drum body, the is arranged between the eardrum and the resonance head is covered extensively by the insulating material and possibly Has resonance openings. Of course it is Resonance chamber with the shape of a truncated cone at a conventional snare drum not known.

The invention is illustrated below with the aid of some Exemplary embodiments explained and described in more detail. It shows:

Fig. 1 a first embodiment, partially illustrated blown up of the electric drum,

Fig. 2 shows a second embodiment of the electric drum,

3 shows a third embodiment partially illustrated blown up., The electric drum,

Fig. 4 shows an embodiment partially illustrated blown up of the electric drum and snare drum,

5 shows a further embodiment, partially illustrated blown up., The electric drum,

Fig. 6 shows a holder in cross-section,

Fig. 7 shows an arrangement of multiple, different electrical drums on a stand,

Fig. 8 details on another electric drum and

Fig. 9 shows another embodiment of the electric drum.

The electric drum 1 shown partially broken and broken in FIG. 1 has a drum body 2 , an eardrum 3 and a microphone 4 . The eardrum 3 is located on a hoop, which is covered with a resilient rubber ring 17 . The drum body 2 delimits a resonance chamber 6 with an inner wall 5 . The resonance space has the shape of a cone 7 with a base 8 , a tip 9 and an axis of symmetry 10 . The base area 8 is delimited by the eardrum 3 in the assembled state of the electric drum 1 . Here, the drumhead 3 is pressed with the aid of screws 11 through a clamping ring 12 onto the main opening 13 of the drum body 2 . The nuts 14 of the screws 11 are supported by springs 15 on a lug ring 16 formed on the drum body 1 . Rubber rings 17 on the edge of the eardrum 3 on the one hand and the main opening 13 on the other hand ensure the pressure-tight connection of the eardrum 3 to the drum body 2 . Protective bellows 18 cover the free threads of the screws 11 . The inner wall 5 of the drum body 2 is completely covered with insulating material 19 . The type and the thickness of the insulating material 19 can vary over the inner wall 5 . At the tip 9 of the cone 7 2 pressure relief openings 20 are provided in the drum body. The pressure relief openings 20 have an elongated drop shape, the drops pointing to the eardrum 3 . The microphone is arranged at a free distance from the eardrum 3 approximately on the axis of symmetry 10 of the cone 7 . A holder 21 with a holding shaft 22 in the form of a tubular section is provided for the microphone 4 . The holder 21 is mounted on a stand 23 which supports the drum and, without contact with the drum body 2, projects laterally into the resonance chamber 6 through the inner wall 5 of the drum body 2 . For this purpose, a passage opening 24 is provided in the drum body 2 . The passage opening 24 , like a radial opening 25 provided on the holding shaft, acts as a resonance opening. A cable 27 with plug 28 is provided for connecting the microphone 4 to a amplification system (not shown here). The cable 27 is initially guided in the holding shaft 22 of the holder 21 . When the eardrum 2 is acted upon with the aid of drumsticks 29 , the eardrum 2 emits sound waves, here called sound for short, into the resonance chamber 6 . The sound characteristic of the respective electric drum develops in the resonance chamber 6 . This takes place as a function of the opening angle 30 of the cone 7 and its expansion in the direction of the axis of symmetry 10 between the base surface 8 and the tip 9 . The position and number of the resonance openings 26 and pressure relief openings 20 are also included . The type and arrangement of the insulating material 19 as a cover for the inner wall 5 of the drum body 2 also plays a role. Ultimately, the position of the microphone 4 within the resonance space 6 also comes into play in the sound recorded by the microphone 4 . The electrical drum 1 only radiates sound into its surroundings to a small extent through the resonance openings 26 and pressure relief openings 20 . For this purpose, the resonance openings 26 and the pressure relief openings 20 can also be closed by insulating material 19 . In any case, little sound penetrates into the resonance chamber 6 from the surroundings of the electric drum 1 and thus reaches the microphone 4 .

The electrical drum 1 shown in FIG. 2 essentially corresponds to the exemplary embodiment of the electrical drum 1 according to FIG. 1 after assembly. The deviations are discussed in more detail below. The cone 7 is formed here with a smaller opening angle 30 but a greater extent along its axis of symmetry 10 . This affects the sound of the electric drum 1 . It is also noticeable in the sound of the drum that the insulating material 19 is distributed differently on the inner wall 5 of the drum body 2 . That is, while the insulating material 19 is formed along the symmetry axis 10 of the cone 7 as thick in half and the other half is thin in the electric drum 1 according to FIG. 1, it is only in the region of the inner wall which is located at the Tip 9 of the cone 7 connects, thick and otherwise thin. Ultimately, the different position of the microphone 4 in the resonance chamber 6 is also noticeable in the sound of the electric drum 1 . Here the microphone 4 has moved a little further from the axis of symmetry 10 . There are also differences in the mounting of the electric drum 1 on the stand 23 . Is mounted while in Fig. 1, the electric drum 1 via the Böckchenring 16, here, a handle 31 is provided subsequent to the tip 9 of the drum body 2 for storage. The holder 21 for the microphone 4 is inserted into a bearing sleeve 32 in the stand 23 . Compression springs 33 are provided to fix the position of the holder 21 in the bearing sleeve 32 . In the semi-rigid connection of the clamping ring 12 to the lug ring 16 , no springs 15 are provided here as in the embodiment of the electric drum 1 according to FIG. 1. Rather, the heads of the screws 11 and nuts 14 are covered with elastic material. The operation of the electric drum 1 according to FIG. 2 is identical to that according to FIG. 1 except for the different resulting sound.

The electrical drum 1 , which is again shown in part blown in FIG. 3, has an arrangement of the holder 21 which differs from the previous exemplary embodiments. The holding shaft 22 is formed in one piece with the drum body, the common connection area being arranged at the tip 9 of the cone 7 . In the holding shaft 22, the diameter of which widens in steps toward the inside, the microphone 4 is supported by clamping springs 34 . It is also noticeable that no separate pressure relief openings 20 are provided in the drum body 2 at the tip 9 . Their task is taken over here by the openings 25 in the holding shaft 22 or the free opening of the holding shaft 22 . In addition, however, relatively large resonance openings 26 are provided in the vicinity of the base 8 of the cone 7 . They have the teardrop shape already described. The resonance openings 26 are closed by the insulating material 19 in order to prevent direct sound emission. However, they significantly affect the sound of the electric drum 1 . The electrical drum 1 is mounted on the stand 23 here, as in the exemplary embodiment according to FIG. 1, via the lug ring 16 . The screws 11 and the nuts 14 , however, are designed analogously to FIG. 2. As an essential feature of the electric drum 1 according to FIG. 3, the relatively large opening angle of the cone 30 falls to 7 in combination with a relatively small extent along the axis of symmetry 10.

The electric drum 1 shown in FIG. 4 corresponds to a snare drum. For this purpose, the drum body 2 is formed in two parts in the direction of the axis of symmetry 10 , a resonance head 35 being provided between the two parts of the drum body 2 , 2 '. A carpet 36 can be placed on the resonance head 35 by means of a quick-release holder 37 . The carpet is responsible for the typical snare drum sound. In contrast to a known snare drum, the upper part of the drum body 2 'has the insulating material 19 on its inner wall 5 . There are also resonance openings 26 . The two parts of the drum body 2 , 2 'are connected to one another with screws 11 and nuts 14 using protective bellows 18 . In addition to the teardrop-shaped resonance openings already described in more detail, elongated hole-like resonance openings 26 are provided on the drum body 2 . Except for a funnel opening 38 , all resonance openings 26 in the electrical drum 1 according to FIG. 4 are closed by insulating material 19 .

The electric drum 1 of FIG. 5 is constructed as a bass drum. Accordingly, the axis of symmetry 10 is oriented horizontally. The electric drum 1 has a pronounced extension along the axis of symmetry 10 and thus a pronounced diameter to produce the sound of a bass drum. Furthermore, the insulating material 19 has remarkably strong sound absorption properties. The holder 21 for the microphone 4 is inserted at the tip 9 of the cone 7 into a bearing sleeve 32 on the drum body 2 . This position is fixed by compression springs 33 . The holder 21 here has a two-part holding shaft 22 , which allows the position of the microphone 4 to be adjusted along the axis of symmetry 10 . Openings 25 are provided in both parts of the holding shaft 22 . The openings 25 are connected to pressure relief openings 20 , which are arranged here in the holder 21 . The nuts 14 to the screws 11 , with which the eardrum 3 is tensioned, are formed here as an integral part of the clamping ring 12 . A lower stand 23 is assigned to the electric drum 1 according to FIG. 5 in accordance with its function as a bass drum. The electric drum 1 is supported on the stand 23 via the lug ring 16 . FIG. 6 shows the holder 22 for the microphone 4 as it corresponds, for example, to the embodiment of the electric drum 1 according to FIG. 2. The holder 21 has the tubular shaft 22 with the openings 25 . To fix the holder 21 in the bearing sleeve 32 , not shown here, a spring ring 39 is provided with the compression springs 33 . The cable 27 runs partially inside the holding shaft 22 and ends there in the connector 39 for the microphone 4 . For mounting the microphone 4 on the holder 21 , this has clamping springs 34 . The clamping springs 34 allow the microphone 4 to be permanently fixed even when vibrations occur. At its outer end 40 , the holding shaft 22 is widened in a funnel shape, on the one hand to prevent it from slipping through the bearing sleeve 32 ( not shown) and on the other hand to prevent damage to the cable 27 at its end edge.

In Fig. 7, a stator 23 is shown with four different electrical drums 1. The electrical drums 1 differ in the opening angles 30 and in their extension along the axis of symmetry 10, which is not shown here. Furthermore, differences in the shape and arrangement of the resonance openings 26 can also be seen. Of the drum body 2 is consistent with all electrical drums 1 of FIG. 7 is designed slit at the top 9 in the direction of the axis of symmetry 10. In this way, it simultaneously forms the bearing sleeve 32 and the compression springs 33 . The design of the drum body 2 of the upper, rear electric drum 1 is striking. This indicates the possibility of shaping the resonance chamber 6 by means of transverse ribs 41 , deviating from the smooth conical shape for varying the sound of the electric drum 1 .

FIG. 8 shows a further embodiment of the electric drum, in particular the details of the connection of the lug ring 16 to the protective bellows 18 . The lug ring 16 forms a part with the drum body 2 . The lug ring 16 is connected to the protective bellows 18 by a plurality of screws 11 distributed over the circumference. In the assembled state, the parts with the interposition of the tympanic membrane 3 with the rubber ring 17 of the clamping ring 12 (FIG. 5) are held, in the nuts 14, the screws 11 screwed in.

In the embodiment shown in FIG. 9 it should be clarified that the wall of the drum body 2 has a plurality of longitudinal ribs 42 which are arranged distributed uniformly over the circumference. The drum body 2 runs out to the tip 9 and there the cable 27 is connected seamlessly. On the base of the conical drum body 2 is the lug ring 16 , on which the rubber ring 17 is placed. The protective bellows 18 are held by screws 11 and nuts 14 , which also hold the clamping ring 12 between them. Separate nuts 43 work together with the screws 11 . The screws 11 have a rubberized head. The nuts 43 are also covered with a rubber coating. Washers 44 are assigned to screws 11 .

Reference list

1 = electric drum
2 = drum body
3 = eardrum
4 = microphone
5 = inner wall
6 = resonance room
7 = cone
8 = base area 42
9 = tip 43 = mother
10 = axis of symmetry
11 = screw
12 = tension ring
13 = main opening
14 = mother
15 = spring
16 = Böckchenring
17 = rubber ring
18 = bellows
19 = insulation material
20 = pressure relief opening
21 = holder
22 = holding shaft
23 = stand
24 = passage opening
25 = breakthrough
26 = resonance opening
27 = cable
28 = connector
29 = drumstick
30 = opening angle
31 = handle
32 = bearing sleeve
33 = compression spring
34 = clamping spring
35 = resonance head
36 = carpet
37 = quick release bracket
38 = funnel opening
39 = connection
40 = end
41 = cross ribs
42 = longitudinal ribs
43 = mother
44 = washer.

Claims (12)

1. Electrical drum with a resonant cavity defined by an inner wall (5) radially delimiting the drum body (2) and having a for generating sound to be acted upon and the resonance chamber (6) axially delimiting the drum body fixed to the tympanic membrane (3), said sound-absorbing insulating material (19) and a microphone ( 4 ) arranged essentially on the axis of symmetry at a free distance from the eardrum is provided in the resonance chamber, characterized in that the resonance chamber ( 6 ) has the shape of a cone ( 7 ), the base ( 8 ) of which is from the eardrum ( 3 ) is limited and at the tip ( 9 ) at least one pressure relief opening ( 20 ) is provided in the drum body ( 2 ), and that the inner wall ( 5 ) of the drum body ( 2 ) is completely covered with the insulating material ( 19 ). 2. Electric drum according to claim 1, characterized in that the drum body ( 2 ) in addition to the pressure relief openings ( 20 ) at the tip ( 9 ) of the cone ( 7 ) has resonance openings ( 26 ). 3. Electric drum according to claim 1 or 2, characterized in that at least part of the pressure relief openings ( 20 ) and resonance openings ( 26 ) is closed by the insulating material ( 19 ). 4. Electric drum according to one of claims 1 to 3, characterized in that at least part of the pressure relief openings ( 20 ) and resonance openings ( 26 ) has an elongated drop shape, the drops pointing in the direction of the eardrum ( 3 ). 5. Electric drum according to one of claims 1 to 4, characterized in that for the microphone ( 4 ) a tubular section-shaped holding shaft ( 22 ) having holder ( 21 ) is provided, the holding shaft ( 22 ) through the inner wall ( 5 ) of the drum body ( 2 ) protrudes into the resonance chamber ( 6 ) and has radial openings ( 25 ) which serve as pressure relief openings ( 20 ) or resonance openings ( 26 ) in the drum body ( 2 ). 6. Electric drum according to claim 5, characterized in that the holder ( 21 ) at the tip ( 9 ) of the cone ( 7 ) in a along the axis of symmetry ( 10 ) aligned, with the drum body ( 2 ) firmly connected bearing sleeve ( 32 ) can be inserted and fixed there by spring pressure. 7. Electric drum according to claim 5, characterized in that the holder ( 21 ) on a drum ( 1 ) supporting stand ( 23 ) is mounted, and without contact with the drum body ( 2 ) through the inner wall ( 5 ) of the drum body ( 2 ) protrudes laterally into the resonance chamber ( 6 ). 8. Electric drum according to one of claims 5 to 7, characterized in that for mounting the microphone ( 4. ) on the holder ( 22 ) clamping springs ( 34 ) are provided. 9. Electric drum according to claim 5, characterized in that the holding shaft ( 22 ) and the drum body ( 2 ) are integrally formed, the common connecting area at the tip ( 9 ) of the cone ( 7 ) being arranged. 10. Electrical drum according to one of claims 1 to 9, characterized in that the drum body ( 2 ) in the direction of the axis of symmetry ( 10 ) of the cone ( 7 ) is formed in two parts, between the two parts of the drum body ( 2 , 2 ') Resonance head ( 35 ) is provided with a carpet ( 36 ). 11. Electrical drum according to one of claims 1 to 10, characterized in that the drum has a Böckchenring (16) which is independent of the drum body (2), and that the Böckchenring (16) to the clamping ring by a screw (11 ) connected is. 12. Electric drum according to one of claims 1 to 11, characterized in that the tip ( 9 ) of the drum body ( 2 ) is connected to a cable ( 27 ).