CN213876361U - Man-machine interaction measuring instrument - Google Patents

Abstract

The utility model relates to a man-machine interactive measuring instrument, which comprises a watchcase, a measuring module and a control module which are arranged in the watchcase, and an operating panel which is arranged on the watchcase, wherein the operating panel generates a control instruction to be connected with the control module, and the control module generates a control signal to control the measuring module to acquire a measuring signal by using a pen to acquire a measuring result; the voice control module converts the received voice signal into a control command and is connected with the control module; the voice control module comprises a voice acquisition module, an A/D conversion module and an instruction decoding module; the audio analog signal collected by the voice collecting module is converted into a digital signal through the A/D conversion module, and then the digital signal is translated into a control instruction by the instruction decoding module and is connected with the control module. Adopt the utility model discloses an interactive measuring apparatu table of man-machine does not need manual operation panel, as long as with pronunciation give-out command, measuring module will operate according to the voice command.

Description

Man-machine interaction measuring instrument

Technical Field

The utility model relates to a measuring instrument field, especially a human-computer interaction's measuring instrument.

Background

At present, when a measuring instrument such as a multimeter is used for measuring, a probe (a pen) is generally required to collect signals of a measuring part, such as current and voltage, the signals are processed in the multimeter, a measuring result is displayed on a dial plate, and at present, the digital multimeter can convert the measuring result into a digital signal and display measuring result data on a display.

Chinese patent application publication No. CN 108872668A provides a multimeter, which comprises: the circuit board is arranged in the shell, and a plurality of electrical parameter wiring terminals are arranged on the circuit board; a test wire, an access end of the test wire being selectively electrically connected to one of the plurality of electrical parameter terminals; the mobile control part is arranged on the shell and provided with a control button, and the mobile control button can enable the access end of the test wire to be connected with one of the plurality of electrical parameter wiring terminals so as to switch the test electrical parameters of the test wire. This universal meter includes the mobility control portion, and the mobility control portion has control button, and mobility control button can make the incoming end of test wire and one of a plurality of electrical parameter wiring end link to each other to the realization need not to set up a plurality of spliced eyes as current universal meter to the switching of the test electricity meal number of test wire, realizes the switching of electrical parameter, has avoided the universal meter to set up the spliced eye effectively and has easily entered the ash and influence the problem of test stability.

However, when using the multimeter, a user needs to hold the stylus to touch the measurement point, and needs to operate an operation panel such as a button of the multimeter to perform range setting or measurement setting, and the like, and always feels that the user is busy and disorderly, which is a bad user experience.

Disclosure of Invention

The utility model discloses when using current universal meter to the user, not only need handheld pen-shape metre conflict measuring point, still need operate the button of table, carry out the range and set for or measure and set for etc. feel always can be in a busy or a mess, have not good user experience. A human-computer interaction measuring instrument is provided.

The technical scheme of the utility model is that: a man-machine interactive measuring instrument comprises a watchcase, a measuring module and a control module which are arranged in the watchcase, and an operating panel arranged on the watchcase, wherein the operating panel generates a control command and is connected with the control module, and the control module generates a control signal to control the measuring module to acquire a measuring signal by using a stylus to acquire a measuring result; the voice control module converts the received voice signal into a control command and is connected with the control module; the voice control module comprises a voice acquisition module, an A/D conversion module and an instruction decoding module; the audio analog signal collected by the voice collecting module is converted into a digital signal through the A/D conversion module, and then the digital signal is translated into a control instruction by the instruction decoding module and is connected with the control module.

Further, in the above-mentioned human-computer interaction measuring instrument: the voice broadcasting module is used for carrying out voice broadcasting on the measuring result output by the measuring module; the voice broadcasting module comprises a voice chip and a loudspeaker, wherein the voice chip converts the digital signals output by the measuring module into audio signals.

Adopt the utility model discloses an interactive measuring apparatu table of man-machine does not need manual operation panel, as long as with pronunciation give-out command, measuring module will operate according to the voice command.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a block diagram of a measurement instrument for human-computer interaction according to an embodiment of the present invention.

Detailed Description

The embodiment is a multimeter which can measure voltage, current and the like by sending out instructions by voice, and is a very practical man-machine interaction measuring instrument. As shown in fig. 1, the multimeter of this embodiment has a casing that is common to current digital multimeters, and may be operated in the same manner, the casing is provided with an operation panel having a display and a plurality of operation buttons, the casing is provided with a control module and a measurement module, the control module controls the measurement module, the measurement module obtains a measurement result by sampling a measurement signal with a stylus, and the measurement result may be displayed on the display in general.

In this embodiment, a voice control module is further disposed on the circuit board where the control module and the measurement module are disposed in the watch case, and the voice control module generates a control command to be connected to the control module by receiving a voice signal, so as to control the measurement module.

In this embodiment, the voice control module includes a voice collector for collecting a voice signal, the voice collector generally uses a microphone head, which is an acoustic-electric converter for converting a received voice signal into an electric signal, the microphone head outputs an analog audio signal, the analog audio signal is converted by an a/D converter to form a digital audio signal, the instruction decoding module stores enough digital audio and a corresponding instruction, the voice signal collected by the voice collector is translated into an instruction recognized by the control module, and the control module controls the measurement module to implement the voice control.

Currently, voice command recognition is a mature technology for detecting whether a user voice input includes some commands defined in a command set (command set) and operable by a voice control application. A speech collector with OPEN-SMART model is integrated with A/D converter, and directly outputs digital audio signal. In addition, the instruction decoding module is also available on the market.

The universal meter of this embodiment still has the voice broadcast function, shows the result that measuring module measured outside on the display, utilizes the voice broadcast module to report digital signal conversion voice signal on the speaker. As shown in fig. 1, the digital quantity of the measurement result of the measurement module can be displayed on a display, and can also be reported to the user in a voice broadcast manner.

Claims (2)

1. A man-machine interactive measuring instrument comprises a watchcase, a measuring module and a control module which are arranged in the watchcase, and an operating panel arranged on the watchcase, wherein the operating panel generates a control command and is connected with the control module, and the control module generates a control signal to control the measuring module to acquire a measuring signal by using a stylus to acquire a measuring result; the method is characterized in that: the voice control module converts the received voice signal into a control command and is connected with the control module; the voice control module comprises a voice acquisition module, an A/D conversion module and an instruction decoding module; the audio analog signal collected by the voice collecting module is converted into a digital signal through the A/D conversion module, and then the digital signal is translated into a control instruction by the instruction decoding module and is connected with the control module.

2. The human-computer interaction measuring instrument according to claim 1, wherein: the voice broadcasting module is used for carrying out voice broadcasting on the measuring result output by the measuring module; the voice broadcasting module comprises a voice chip and a loudspeaker, wherein the voice chip converts the digital signals output by the measuring module into audio signals.

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