JP2006217141A - Hanging microphone and microphone cable for hanging microphone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hanging microphone used by being hanged from a ceiling via a microphone cable, the hanging microphone of which the sound collection direction is easily adjusted and changed after being hanged. <P>SOLUTION: In the hanging microphone used by hanging a microphone unit from the ceiling via the microphone cable, a shape memory alloy wire 120 expanded/contracted in an axial direction is embedded into an outer sheath of the microphone cable 100 for hanging the microphone unit, a power application DC power supply 130 is connected between both ends of the shape memory alloy wire 120 and the sound collection direction of the microphone unit can be adjusted by contracting the shape memory alloy wire 120 by the power application heating thereby displacing the microphone cable 100 in a twisted direction. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a hanging microphone used by being suspended from a ceiling via a microphone cable. More specifically, the present invention relates to a technique for changing the sound collection direction of a suspended microphone unit.

  As shown in FIG. 2, the hanging microphone is used in a state where the microphone unit 10 is suspended from the ceiling via the microphone cable 11. Mainly used for collecting sounds on stage and choir singing in churches, usually installed permanently.

  The angle adjustment in the vertical direction indicated by α of the microphone unit 10 with respect to the sound source can be relatively easily performed by the needle-shaped angle adjuster 12 attached to the microphone cable 11 by the coil portions 12a and 12a provided at both ends. However, it takes a lot of time to adjust the left and right sound collection directions indicated by β.

  That is, the hanging microphone cable 11 is a comparatively thick cable having an outer diameter of about 3 to 6 mm. Usually, the microphone cable 11 is packed and carried in a circularly wound state at the installation location. Therefore, it has a roll. When hanging, the roll is loosened, but it takes time, and it cannot be loosened enough.

  Therefore, when the microphone unit 10 is suspended, the sound collection direction of the microphone unit 10 rotates around the microphone cable 11. In addition, the microphone cable 11 may be twisted due to a change in temperature and the sound collection direction of the microphone unit 10 may be rotated.

  Therefore, after the microphone unit 10 is suspended, the microphone unit 10 is prevented from rotating by, for example, pulling it from two or three directions with a string 13 such as a teg. However, the location may be high near the ceiling. Therefore, the work is a work on a stepladder and takes a lot of time and effort. Similarly, it takes time to change the sound collection direction once set.

  Accordingly, an object of the present invention is to make it possible to easily adjust or change the direction of sound collection after hanging in a hanging microphone that is suspended from a ceiling via a microphone cable.

  In order to solve the above-described problems, the present invention provides a hanging microphone in which a microphone unit is suspended from a ceiling via a microphone cable, and a shape memory alloy wire that expands and contracts in the axial direction in the outer shell of the microphone cable is spirally formed. In addition to being embedded, a DC power supply for energization is connected to both ends of the shape memory alloy wire.

  In a preferred aspect, the present invention includes a control unit that controls the amount of current supplied from the DC power source to the shape memory alloy wire, and a temperature sensor that detects the temperature of the shape memory alloy wire. The means includes a mode of controlling the energization amount so that the detected temperature signal from the temperature sensor is constant.

  According to the present invention, in the hanging microphone microphone cable for suspending the microphone unit from the ceiling, the hanging microphone is characterized in that the shape memory alloy wire extending and contracting in the axial direction is helically embedded in the outer skin. A microphone cable is also included.

  The shape memory alloy wire has a unique property of contracting due to heat generated by energization and expanding during cooling (heat dissipation). According to the present invention, since the shape memory alloy wire exhibiting such a unique movement is helically embedded in the outer cover of the microphone cable, the microphone cable is displaced in the twisting direction along with the expansion and contraction, so that the direct current power supply By controlling the energization amount from the remote, the sound collection direction of the microphone unit can be varied remotely.

  Further, the temperature of the shape memory alloy wire is detected by the temperature sensor, and the control unit controls the energization amount so that the temperature of the shape memory alloy wire becomes substantially constant, thereby making the sound collecting direction of the microphone unit desired. It can be stably maintained in the direction.

  Next, an embodiment of the present invention will be described with reference to FIG. 1, but the present invention is not limited to this. FIG. 1 is a schematic view showing the main part of the present invention, which includes a partially enlarged perspective view of a hanging microphone cable and its control system. For the overall configuration of the hanging microphone (the point where the microphone unit is suspended by the microphone cable), refer to FIG. 2 described above.

  In FIG. 1, a microphone cable used for the hanging microphone of the present invention is indicated by reference numeral 100. The microphone cable 100 is a two-core cable having a hot-side signal line 111 and a cold-side signal line 112, and is entirely covered with an outer sheath (sheath) 113. Although not shown, a shield covered wire may be provided.

  The microphone unit 10 is suspended from the ceiling by the microphone cable 100 as shown in FIG. 2, but in order to be able to adjust and change the sound collection direction of the microphone unit 10 in the β direction, the outer skin 113 of the microphone cable 100 is used. A shape memory alloy wire 120 is spirally embedded therein.

  In this example, the embedding portion of the shape memory alloy wire 120 is in the outer skin 113, but a groove is formed in a spiral shape on the outer peripheral surface of the outer skin 113, and the shape memory alloy wire 120 is integrated with an adhesive or the like along the groove. May be fixed. In any case, the helical pitch of the shape memory alloy wire 120 may be arbitrarily determined.

  As a shape memory alloy (Shape Memory Alloy) wire, for example, Biometal (trade name) manufactured by Toki Corporation can be exemplified. This shape memory alloy wire is a Ti—Ni-based or Ti—Ni—Cu-based alloy, and contracts by heating (shrinkage amount, approximately 5% of the original size) and has a characteristic of expanding when cooled.

  In the present invention, in order to energize and heat the shape memory alloy wire 120, a DC power source 130 connected to both ends thereof is provided. When the shape memory alloy wire 120 is energized from the DC power source 130 to generate heat, the shape memory alloy wire 120 contracts, and accordingly, the microphone cable 100 is displaced in the twisting direction indicated by θ. By utilizing this, the sound collection direction of the microphone unit 10 can be adjusted to the β direction with the microphone cable 100 as an axis.

  Since the contraction amount of the shape memory alloy wire 120 is proportional to the energization amount (heat generation amount), a variable DC power source is used as the DC power source 130 in order to make it possible to adjust the displacement amount of the microphone cable 100 in the twist direction. It is preferable that the DC power supply 130 is controlled by the control means 140 including 141 so that the energization amount to the shape memory alloy wire 120 is variable. According to this, the sound collection direction of the microphone unit 10 can be adjusted by the operation unit 141 in a remote control manner.

  As another example, the microphone cable 100 is provided with a temperature sensor 142 configured to detect the temperature of the shape memory alloy wire 120, for example, a resistance wire, and a temperature signal detected by the temperature sensor 142 is input to the control unit 140. Then, the control unit 140 controls the energization amount of the DC power supply 130 so that the detected temperature becomes the temperature set in the operation unit 141 (the temperature converted value of the displacement amount). The sound direction can be stably maintained in a desired direction.

  As described above, according to the present invention, the operation unit 141 is operated to control the amount of current applied to the shape memory alloy wire 120, thereby adjusting the sound collection direction of the microphone unit 10 while the operator is present. be able to. In addition, the sound collection direction that is set once can be easily changed. Note that the angle adjustment in the vertical direction of the microphone unit 10 may be performed with the needle-shaped angle adjuster 12 shown in FIG.

The partial schematic perspective view of the microphone cable which is the principal part of this invention, and the schematic diagram containing the control system of a shape memory alloy wire. The schematic diagram which shows the example of installation of the conventional hanging microphone.

Explanation of symbols

10 Microphone unit 12 Angle adjuster 12
DESCRIPTION OF SYMBOLS 100 Microphone cable for suspension 111,112 Signal line 113 Outer skin 120 Shape memory alloy wire 130 DC power supply 140 Control means 141 Operation part 142 Temperature sensor

Claims (4)

In a hanging microphone that uses a microphone unit suspended from the ceiling via a microphone cable,
A hanging microphone characterized in that a shape memory alloy wire extending and contracting in the axial direction is embedded spirally in the outer shell of the microphone cable, and a DC power supply for energization is connected to both ends of the shape memory alloy wire.   2. The hanging microphone according to claim 1, further comprising control means for controlling an energization amount supplied from the DC power source to the shape memory alloy wire.   The temperature sensor which detects the temperature of the said shape memory alloy wire is provided, The said control means controls the said electricity supply amount so that the detected temperature signal from the said temperature sensor may become fixed. Hanging microphone. In the hanging microphone microphone cable for hanging the microphone unit on the ceiling,
A microphone cable for a hanging microphone, wherein a shape memory alloy wire extending and contracting in an axial direction is embedded in a helix in an outer skin.

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