JP2010087938A - Audio amplifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an audio amplifier capable of remotely informing a remote of an abnormal style of use, abnormality or the like. <P>SOLUTION: The audio amplifier 1 includes a gravity sensor 20, a temperature sensor 21, a wattmeter 22 and an electrification timer 23 and is connected to a server device 4 over the Internet 3. The audio amplifier 1 transmits detection contents of the sensors to the server device 4 periodically, records an operational status and when the detection contents of the sensors become abnormal, the audio amplifier informs the server device 4 of abnormality to urge the server device to promptly deal with the abnormality. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an audio amplifier having a function of detecting an abnormality in operation or installation form.

  If many speakers are connected to the audio amplifier and a current exceeding the rating is passed, the power transistor will be damaged. In order to prevent such an accident, an audio amplifier that detects an abnormal connection, issues an alarm, and automatically stops has been proposed (see Patent Document 1).

JP 2002-280843 A

  However, if the one using the audio amplifier recognizes the abnormality and makes such a connection, even if the amplifier issues a warning on the spot, there is no effect. In other words, unless this abnormality is reported to the person who manages and maintains the audio amplifier, it cannot be expected that an effective response will be taken.

  The audio amplifier has a predesigned air flow path for ventilation inside the housing. In order to maintain this distribution route, the installation form (vertical / horizontal) is determined. However, since the conventional audio amplifier cannot detect in which direction it is installed, it cannot issue an alarm or automatically stop even if it is installed in a different direction.

  An object of the present invention is to provide an audio amplifier capable of remotely announcing abnormal usage patterns and abnormalities.

  The invention of claim 1 is characterized in that one or more sensors for detecting an operation situation or an installation situation, a communication means for communicating with a server device via a network, and the detected contents of the sensors are periodically transmitted using the communication means. And a control means for transmitting to the server device.

  The invention according to claim 2 is one or more sensors for detecting an operation situation or an installation situation, a communication means for communicating with a server device via a network, and a value where a detection value of the sensor is out of a predetermined normal range And a control means for transmitting the fact to the server device using the communication means.

  According to a third aspect of the present invention, in the above invention, the one or more sensors include at least a gravity sensor, and detect in which direction the apparatus is installed.

  According to the present invention, since an abnormal usage pattern and abnormality of the audio amplifier can be notified remotely, even if the user continues to use it while recognizing that it is not normal, the remote administrator can It is possible to know and prompt action can be taken.

  FIG. 1 is a configuration diagram of an audio amplifier management system including an audio amplifier and a server device according to an embodiment of the present invention.

  The audio amplifier 1 is an amplifier connected to a karaoke player, for example, at a karaoke store. The audio amplifier 1 includes a control unit 10, a power supply circuit 11, an amplifier circuit 12, a network control unit 13, and an operation / display unit 14. The control unit 10 includes a microcomputer and controls the operation of the entire audio amplifier 1. The power supply circuit 11 is connected to a commercial power supply and supplies power to each circuit unit of the audio amplifier 1. The amplifier circuit 12 amplifies an audio signal input from a karaoke player or the like and outputs it to the speaker 2.

  The network control unit 13 controls data transmission / reception between the control unit 10 and the server device 4. Data transmission / reception is performed via the Internet 3. The operation / display unit 14 is a so-called user interface and accepts a user operation and displays a current operation state and the like.

  Further, the control unit 10 is connected with four types of sensors: a gravity sensor 20, a temperature sensor 21, an ammeter 22, and an energization time timer 23. The gravity sensor 20 is a so-called G sensor, and detects in which direction the audio amplifier 1 is installed. The temperature sensor 21 detects the internal temperature of the audio amplifier 1, particularly the temperature near the power transistor of the amplifier circuit 12. The ammeter 22 measures the current that the power supply circuit 11 supplies to the amplifier circuit 12. The energization time timer 23 is a time measuring device that measures the ON duration time after the power is turned on. The contents detected by these sensors are sent to the server device 4 as the operational status data of the audio amplifier. Note that the energization time timer may be provided in a software manner inside the control unit 10 (microcomputer).

  The server device 4 receives operation status data from a plurality of audio amplifiers via the Internet 3 and records it in a log. A staff member of the server device 4 reads the log as necessary to check the operating state of each audio amplifier, and analyzes the usage form and needs of the user of the audio amplifier.

  Further, when the temperature sensor 21 or the ammeter 22 detects an abnormal value, the control unit 10 of the audio amplifier 1 transmits abnormality information to the server device 4 as a dangerous state. When the server apparatus 4 receives the abnormality information, it generates an alarm. As a result, the staff can immediately respond to the abnormality.

  FIG. 2 is a flowchart showing the operation of the control unit 10 of the audio amplifier 1.

  FIG. 5A is a flowchart showing a periodic detection process that is executed periodically (for example, every 30 minutes) after the audio amplifier 1 is powered on. First, the value of the gravity sensor 20 is read to detect the installation form, that is, in which direction the audio amplifier 1 is installed (S1). Next, the energization time timer 23 is checked to read how much time has passed since the power was turned on (S2). Next, the ammeter 22 is checked to read how much current is supplied to the amplifier circuit 12 (S3). Then, the temperature sensor 21 is checked to read the internal temperature (S4). And these data are transmitted to the server apparatus 4 as operation condition data (S5).

  FIG. 5B is a flowchart showing the abnormality monitoring operation. This operation is performed at a shorter time interval (for example, every minute) than the periodic detection operation. First, the current is detected by the ammeter 22 (S11). It is determined whether this current is in a normal range (for example, 80% or less of the rated current) (S12). If the normal range is exceeded (S12: N), the abnormality information is transmitted to the server device 4 (S13). If the current is within the normal range (S12: Y), the process skips S13 and proceeds to S14.

  In S <b> 14, the internal temperature is detected by the temperature sensor 20. It is determined whether this temperature is in a normal range (for example, 60 ° C. or less) (S15). If the normal range is exceeded (S15: N), the abnormality information is transmitted to the server device 4 (S16). If the internal temperature is within the normal range (S15: Y), S16 is skipped and the operation is terminated.

  Thus, the periodic detection operation has a long detection interval, but the detected data is always transmitted to the server device 4. On the other hand, the abnormality monitoring operation has a short detection interval, but the information is transmitted to the server device 4 only when an abnormal value is detected.

  FIG. 3 is a flowchart showing the operation of the server device 4. The server device 4 performs this operation on the plurality of audio amplifiers 1. It waits in a standby routine until it receives regular operation status data from the audio amplifier 1 (S21) or until it receives abnormal information (S23). When periodic operation status data is received (S21: Y), this data is recorded in a log (S22). The recorded logs can be read and aggregated appropriately by the staff.

  When the abnormality information is received (S23: Y), an alarm is generated so that the staff can respond immediately (S24), and the occurrence of the abnormality is recorded in a log (S25). As an alarm, there are modes such as sounding an alarm sound, blinking a lamp, and displaying an abnormality on a display.

  This makes it possible to remotely manage the usage status of the audio amplifier 1 and monitor the occurrence of an abnormality.

  In this embodiment, four types of sensors, a gravity sensor 20, a temperature sensor 21, an ammeter 22 and an energization time timer 23, are provided to detect the installation form, internal temperature, supply voltage to the amplifier circuit 12, and power-on duration. However, the detected contents / items are not limited to this.

  Further, when the weight sensor 20 detects an abnormal installation direction, the server device 4 is notified via the Internet 3 or, instead of the notification, the audio amplifier 1 itself issues a warning or automatically stops. Also good.

Block diagram of an audio amplifier according to an embodiment of the present invention Flow chart showing the operation of the audio amplifier Flow chart showing operation of server device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Audio amplifier 10 ... Control part 12 ... Amplifier circuit 20 ... Gravity sensor 21 ... Temperature sensor 22 ... Ammeter 23 ... Energizing time timer

Claims (3)

One or a plurality of sensors for detecting an operation situation or an installation situation, and a communication means for communicating with a server device via a network;
Control means for periodically transmitting the detection content of the sensor to the server device using the communication means;
Audio amplifier equipped with. One or a plurality of sensors for detecting an operation situation or an installation situation, and a communication means for communicating with a server device via a network;
When the detection value of the sensor is a value outside a predetermined normal range, control means for transmitting the fact to the server device using the communication means;
Audio amplifier equipped with.   The audio amplifier according to claim 1, wherein the one or more sensors include at least a gravity sensor and detect in which direction the device is installed.

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