SE468298B - Sensor for obtaining an electrical signal from an acoustic drum - Google Patents

Abstract

A sensor for obtaining an electrical signal from an acoustic drum comprises a vibration-sensitive body 8 arranged to be pressed elastically against the skin of the drum so as to sense those of its wave movements which have essentially a predetermined direction and lie within a predetermined wavelength range. The vibration-sensitive body has a rectangular shape and is preferably arranged in a holder 3 which can be fixed on the frame of the drum. The holder has a surface 11 which is plane-parallel to the drum skin and bears an elastically resilient member 12, 13 for the vibration-sensitive body. <IMAGE>

Description

UI 2 , the clock device, which hitherto constituted a separate unit below the edge of the drum rim.

Partly through the body's area design and partly through its side mounting on the drum skin has been sensitive to the sensor all the different road movements that a grant gives rise to the skin. In addition, such a known donor is particularly receptive for decentralized appropriations and the resulting road movements in the drumhead.

Disclosure of the invention The above disadvantages are completely eliminated by one sensors designed according to the invention whose vibration-sensitive body is arranged to be pressed against the skin of the drum to know road movements of essentially a single predetermined direction ning. Suitably it is also arranged to sense wave motions within a predetermined frequency range.

From the aspect that one wishes to achieve a maximum targeted sensitivity, the sensor's vibration-sensitive body should be display the smallest possible width and an infinitely large length. The the latter property, infinitely large length, however, means that the body becomes hypersensitive to long wavelengths, ie cook frequencies. It is therefore necessary to adapt the body length to the wavelength / frequency set as the limit for sensor sensitivity. An essential requirement for transducer transducers tical drums is to eliminate / suppress large wavelengths.

A preferred embodiment of the sensor according to the finding has a vibration-sensitive body whose detection area is substantially rectangular, preferably with a ratio between width and length of at least 1: 2. This can be achieved by, for example, delimiting the total area of the body with stiffening elements to give it a rectangular shape. However, is it is most beneficial that the total area of the body amounts to precisely the specified rectangular shape. 10 20 30 35 J: - cm CO ro ~ o oo 3 An optimal embodiment of the sensor's vibration sensitive body is that its rectangular shape is given a tapered pointed design. wherein the tip is directed towards the center for the waves to be sensed while the base of the area is being used for attaching the electrical conductors.

In the further development of the sensor according to the The present invention for acoustic drums is the vibrating sensitive body arranged in a holder. The holder is fixable on the edge of the drum rim and encloses the contact the device and the electrical conductors that connect the sensor with the contact device. The holder thereby provides a good mechanism. technical protection for the donor and the associated conductors.

In addition, a number of other benefits are achieved. Eczema a well-defined unit is obtained which, with simple operations, grip is easy to mount on the drum, which is extremely valuable defullt when changing drum skins. Furthermore, a defined one is obtained alignment of the vibration-sensitive body. One more very significant advantage is the stability achieved through this fixation of the sensor relative to the eardrum, which clears any risk of the sensor coming loose from the drum skin net during ongoing gig (which has been a big concern at previously known sensors).

Preferred embodiment The sensor according to the present invention will below to be described in more detail in connection with a preferred form of illustration illustrated in the accompanying drawings, where Fig. 1 shows a perspective view of an acoustic drum with a mounted sensor according to the invention, Fig. 2 shows a perspective view of the sensor according to Fig. 1 seen in unassembled version and Fig. 3 shows an embodiment of the sensor sensitive to vibration body.

LO 4 Fig. 1 shows an acoustic drum 1 with a mounting row sensor 2. Sensor 2 comprises a holder 3 as through a hook grip 4 grips the edge 5 on the drum 1 rim 6. The fixation of the holder 3 takes place by means of a screw fastened to the rim 6 è / The sensor 2 comprises a vibration-sensitive body 8 (Fig. 2 and 3) supported by a resilient member 9, which presses body B to abut against the skin of the drum 1.

Pig. 2 shows a currently most preferred embodiment embodiment of the sensor 2 according to the invention. Hállaren 3 has an inverted L-shape forming a cup-shaped roof 11, which protrudes above and substantially plane parallel to the eardrum 10 (Fig. 1). On the side of the roof 11 facing the drum the skin 10, the vibration-sensitive body 8 is supported by the resilient member 9. This member 9 consists of the drawn embodiment of one glued to the inside of the roof 11 spacers 12, preferably of hard rubber, which in turn carries a pad 13, preferably of foam plastic material, on whose inverted surface the vibration-sensitive body 8 is fixed. The fixation is preferably achieved by gluing.

The vibration-sensitive body 8 is at its base end 14 connected to electrical conductors 15, which run inside holder 3 down to a contact device 16 at the end of the holder larens 3 leg 17.

The holder's 3 roof 11 and leg 17 form the hook grip 4, the shape of which is adapted to the shape of the edge 5 of the drum 1 rim 6. With this hook grip 4 and the screw 7 the 3 is fixed on the drum 1, a secure bearing being reach for the vibration-sensitive body 8 against the drum skin 10.

The vibration-sensitive body B generally has one rectangular shape with length L and width W as shown 10 15 20 25 30 5 Fig. 3. The ratio W: L is at least 1 = 2. To obtain maximum directive without sacrificing the achievement of required signal strength, the body 8 has advantageously been given one somewhat pointed shape, the tip being laid in the direction of center of the waves that are primarily to be sensed.

The vibration-sensitive body 8 is made of piezoelectric ceramic material, piezoelectric plastic or similar. although a preferred embodiment of the sensor is written above in connection with the drawing figures, the finding is not considered to be limited to this but can of course include various modifications without the inventive concept frangás. For example, the spring member 9 may have a different construction and the shape of the holder 3 is adapted for its purpose. ---- --xxx ------

Claims (10)

10 15 4 ~ CR co NS wo co B_A; LJllLJLK; B_A_l A sensor for obtaining an electrical signal from an acoustic drum (1), which sensor comprises a vibration-sensitive body (8) arranged to abut against the skin of the drum (10) from which road movements are intended to be picked up, characterized in that it The vibration-sensitive body (8) is arranged to be pressed against the drum skin (10) in order to sense road movements of substantially a single predetermined direction. Sensor according to Claim 1, characterized in that the vibration-sensitive body (8) constitutes a bending sensor which has a substantially rectangular area (L, W). Sensor according to Claim 1 or 2, characterized in that the vibration-sensitive body (8) is arranged to detect path movements within preferably a predetermined path length range. Sensor according to Claim 2, characterized in that the rectangular area (L, W) of the body (8) has a ratio between width (W) and length (L) of at least 1: 2. Sensor according to claim 2, characterized in that the area (L, W) is tapered pointed with the tip directed towards the center of the waves to be primarily sensed. Sensor according to one of the preceding claims, characterized in that the longitudinal axis of the vibration-sensitive body (8) is directed towards the center of the drum skin (10). Sensor according to Claim 6, characterized in that the vibration-sensitive body (8) is arranged in a holder (3) which can be fixed to the rim (6) and has electrical connection means (16) for supplying the electrical signal to a sensor. electronic processing circuit. 41 10 15 20 25 130 35 J CN CO FO \ O OD 7 Sensor according to Claim 7, characterized in that the vibration-sensitive body (8) is supported by a part of the holder (3) arranged as a cover-shaped roof (11), which part projects over and substantially parallel to the drum skin (10). . Sensor according to claim 8, characterized in that the vibration-sensitive body (8) is attached to a resilient member (9), which is arranged on the roof (11), facing the drum skin (10). Sensor according to claim 9, characterized in that the resilient member (9) comprises a spacer body (12), which carries a softer pad (13), preferably of foam material, on the surface of which the vibration-sensitive body (B) is fixed. ---- --xxx -----