CN211234863U - Ultrasonic wave gas tightness detection device based on array arranges - Google Patents

Abstract

The utility model relates to an ultrasonic air tightness detection device based on array arrangement, which comprises an ultrasonic sensor group, a signal amplification circuit, an audio processing circuit, an analog-to-digital conversion circuit, a main processor, a display module, an interface circuit and a power supply module; the ultrasonic sensor group comprises a plurality of ultrasonic sensors which are arranged in an array manner and used for carrying out 360-degree all-directional detection on a product and receiving an ultrasonic signal generated when the gas of the product leaks; the signal amplifying circuit is used for amplifying ultrasonic signals, one path of the signal is input into the audio processing circuit, and the other path of the signal is input into the main processor through the analog-to-digital conversion circuit; the audio processing circuit is used for converting the input signal into an audio signal; the main processor is used for carrying out fusion processing on the digital signals, judging whether the digital signals leak or not, determining the leakage position, and displaying the judgment result on the display module. The device is favorable for 360-degree all-directional detection of a detected product, and improves the detection precision and sensitivity.

Description

Ultrasonic wave gas tightness detection device based on array arranges

Technical Field

The utility model belongs to the technical field of gas leakage detects, concretely relates to ultrasonic wave gas tightness detection device based on array arranges.

Background

In the production process of many products, the air tightness of the products needs to be detected so as to ensure the delivery quality of the products. In the existing multiple gas leakage detection technologies, ultrasonic detection is widely applied due to rapid response and sensitive detection. The principle of ultrasonic detection is that when gas leakage occurs in an object to be detected, due to pressure difference between the inside and the outside of the object, when the gas in the object passes through a leakage point and reaches the outside of the object, vortex is formed due to extrusion, and the vortex vibrates and changes to generate pressure waves or sound waves. The sound wave generated by the leakage has a wide frequency spectrum, and is generally distributed between 6 and 80KHz, and the sound wave method detection is to use the sound wave generated by the leakage as a signal source, receive the sound wave by using a sensitive sensor, convert the sound wave into an electric signal and analyze the electric signal by using a related software and hardware method to determine the leakage.

Disclosure of Invention

An object of the utility model is to provide an ultrasonic wave gas tightness detection device based on array is arranged, the device do benefit to and carry out 360 all-round detections to being detected the product, improve the precision and the sensitivity that detect.

In order to achieve the above object, the utility model adopts the following technical scheme: an ultrasonic air tightness detection device based on array arrangement comprises an ultrasonic sensor group, a signal amplification circuit, an audio processing circuit, an analog-to-digital conversion circuit, a main processor, a display module, an interface circuit and a power supply module;

the ultrasonic sensor group comprises a plurality of ultrasonic sensors which are arranged in an array manner and used for detecting a detected product at 360 degrees and receiving ultrasonic signals generated when the gas of the detected product leaks in an all-around manner;

the signal amplification circuit is used for amplifying ultrasonic signals received by the ultrasonic sensor group, and then the ultrasonic signals are divided into two paths, one path is input to the audio processing circuit, and the other path is input to the main processor through the analog-to-digital conversion circuit;

the audio processing circuit is used for processing the signal input by the signal amplifying circuit and converting the signal into an audible audio signal of human ears;

the main processor is used for carrying out fusion processing on the amplified and analog-to-digital converted digital signals, judging whether leakage exists or not, determining the leakage position, and finally displaying the judgment result on the display module.

Furthermore, a plurality of ultrasonic sensors of the ultrasonic sensor group are arranged on the sensor mounting rack on the product conveyor belt in an array mode, and detected products on the product conveyor belt are detected in an all-dimensional mode by 360 degrees.

Furthermore, the sensor mounting rack comprises an upper side frame, a lower side frame, a left side frame, a right side frame, a front side frame and a rear side frame which are respectively arranged on the upper side frame, the lower side frame, the left side frame, the right side frame, the front side frame and the rear side frame of the product conveyer belt along the conveying direction, and a plurality of ultrasonic sensors are respectively arranged on the upper side frame, the lower side frame, the left side frame, the right side frame, the front side frame and the rear side frame in a linear array type arrangement mode to; the product conveying belt is a conveying belt with a leakage hole, so that the ultrasonic sensor on the lower side frame can detect the lower surface of a detected product on the product conveying belt; the front side frame and the rear side frame are both lifting mechanisms, so that a detected product can enter and exit the sensor mounting frame.

Further, the detected object is a swimming ring or an air cushion bed in an inflation completion state.

Furthermore, all the ultrasonic sensors of the ultrasonic sensor group carry out 360-degree all-dimensional detection on the swimming life-buoy or the air cushion bed in the state of complete inflation.

Furthermore, the power supply module comprises a power supply battery and a power management module, the power supply battery supplies power for the detection device through the power management module, and a charging interface is arranged on the power management module to connect an external power supply through the charging interface to charge the power supply battery.

Furthermore, a charging indicator lamp for displaying the charging electric quantity is further arranged on the power management module.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model provides an ultrasonic wave gas tightness detection device based on array is arranged, a plurality of ultrasonic sensor through array arrangement carry out 360 all-round detections to being detected the product, confirm whether leak and the position of leaking, not only have the advantage that the detection precision is high, moreover strong to weak leakage signal's detectability. In addition, the device also has the advantages of simple structure, small size and the like, and has strong practicability and wide application prospect.

Drawings

Fig. 1 is a schematic diagram of a device structure according to an embodiment of the present invention.

Fig. 2 is a schematic view of a partial structure of an apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic block diagram of a signal amplifying circuit according to an embodiment of the present invention.

Fig. 4 is a schematic block diagram of an audio processing circuit according to an embodiment of the present invention.

Detailed Description

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

The utility model provides an ultrasonic wave gas tightness detection device based on array arranges, as shown in FIG. 1, including ultrasonic sensor group, signal amplification circuit, audio processing circuit, analog-to-digital conversion circuit, host processor, display module, interface circuit and power module.

The ultrasonic sensor group comprises a plurality of ultrasonic sensors synchronously connected with the signal amplification circuit, and is arranged in an array manner, and is used for detecting a detected product by 360 degrees and comprehensively receiving ultrasonic signals generated when the gas of the detected product leaks. The setting of the ultrasonic sensor can be adjusted and changed according to different detected products. In this embodiment, the ultrasonic sensor is a FUS-40RC ultrasonic sensor, which has a rated frequency of 40KHz, a bandwidth of 6KHz, a resolution of 9mm, and a receiving sensitivity of-46 dB, i.e., 5 mV/pa.

The signal amplification circuit is used for amplifying ultrasonic signals received by the ultrasonic sensor group, and then the signals are divided into two paths, one path is input into the audio processing circuit, and the other path is input into the main processor through the analog-to-digital conversion circuit.

As shown in fig. 3, in the present embodiment, the AD8422 of ADI is selected as the preamplifier of the sensor in the preamplifier circuit of the signal amplifier circuit, the AD8422 is a high-precision, low-power consumption, and low-noise instrumentation amplifier, the AD8422 has good linear amplification characteristics, the gain bandwidth product is 2.2MHz, and in addition, the AD8422 has a polar low current, and the ultrasonic sensor does not generate an error when having a high source impedance, and can be well matched with a high output impedance. The amplifier generally has a single-end input mode and a differential input mode, and although the differential input mode can well suppress common-mode interference and external electromagnetic interference, the anti-interference characteristic of the differential input can also reduce the sensitivity of the amplifier, so the input circuit of the AD8422 adopts the single-end input mode.

Because the weak signal of sensor output is more weak after the first order is enlargied, consequently design multistage amplifier circuit with the signal fully enlarge can drive analog-to-digital conversion circuit, the utility model discloses choose the bigger AD620 instrumentation amplifier of gain bandwidth to design the later stage amplifier circuit for use, its gain bandwidth is 1.2GHz, has characteristics such as high accuracy, low cost.

Various noise signals exist in a leakage detection environment, the leakage signals are amplified by an amplifying circuit, circuit noises are inevitably introduced, the noises are amplified by a post-stage amplifying circuit and even submerge weak leakage signals, and in order to improve the signal-to-noise ratio of the whole signal conditioning circuit, an active band-pass filter is arranged between two stages of amplifying circuits to filter out-of-band noise interference. The active band-pass filter is designed by adopting an AD823A operational amplifier produced by ADI, and the high-frequency cutoff frequency of the filter circuit is 42KHz and the low-frequency cutoff frequency is 38 KHz.

The human ear audible sound has a frequency of 20-20000Hz, and the detected leakage signal is an ultrasonic signal higher than 20Kz, so that the leakage signal needs to be processed by frequency reduction to be converted into human ear audible sound.

The audio processing circuit is used for processing the signals input by the signal amplifying circuit and converting the signals into audible audio signals of human ears. As shown in fig. 4, in the present embodiment, the audio processing circuit includes a mixing filter circuit and a power amplification circuit. The AD633 analog multiplier is used for realizing a frequency mixing function, high-frequency components of signals after frequency mixing are filtered by a low-pass filter designed in AD823A to obtain audio signals, low-frequency signals obtained after frequency mixing filtering are weak and cannot drive the earphone to sound, and the weak audio signals can drive the earphone to alarm after being amplified by the audio power amplifier.

The A/D analog-to-digital conversion circuit selects ADAS3022 as the leakage detection analog-to-digital converter, the analog-to-digital conversion circuit generates heat when working, if the analog-to-digital conversion circuit can not dissipate heat in time, the performance of the analog-to-digital converter is affected, and therefore the detection reliability of the device is affected, and therefore the normal work of the ADAS3022 is ensured by adopting a method of combining the heat dissipation design of a PCB and temperature monitoring.

The main processor is used for carrying out fusion processing on the amplified and analog-to-digital converted digital signals, judging whether leakage exists or not, determining the leakage position, and finally displaying the judgment result on the display module.

In this embodiment, the main processor may be directly connected to an external LCD interface, and the TSC2046 is selected as the touch control chip of the display module. The interface circuit is designed to transmit the data of the detection device to a computer or other upper computers for processing or recording, and the interface circuit can adopt RS-232 serial ports, USB interfaces and the like.

The power supply module comprises a power supply battery and a power management module, the power supply battery supplies power for the detection device through the power management module, and a charging interface is arranged on the power management module to connect an external power supply through the charging interface to charge the power supply battery. And the power supply management module is also provided with a charging indicator lamp for displaying the charging electric quantity.

As shown in fig. 2, in order to detect the detected product 3 on the product conveyer belt, a plurality of ultrasonic sensors 2 of the ultrasonic sensor group are arranged on a sensor mounting rack of the product conveyer belt 1 in an array manner, and the detected product on the product conveyer belt is detected in 360 degrees in all directions. In this embodiment, the sensor mounting rack includes upper, lower, left, right, front, and rear side frames respectively disposed on the upper, lower, left, and right sides of the product conveyor belt and the front and rear sides along the conveying direction, and a plurality of ultrasonic sensors are respectively mounted on the upper, lower, left, right, front, and rear side frames in a linear array arrangement manner to form the ultrasonic sensor group; the product conveying belt is a conveying belt with a leakage hole, so that the ultrasonic sensor on the lower side frame can detect the lower surface of a detected product on the product conveying belt; the front side frame and the rear side frame are both lifting mechanisms, so that a detected product can enter and exit the sensor mounting frame, detection of the ultrasonic sensor on the product to be detected is guaranteed, and the product to be detected can stably move forward along with a product conveyor belt. The detected object is a swimming ring or an air cushion bed in an inflation completion state. All ultrasonic sensors of the ultrasonic sensor group carry out 360-degree all-dimensional detection on the swimming life-buoy or the air cushion bed in the state of complete inflation.

Above is the utility model discloses a preferred embodiment, all rely on the utility model discloses the change that technical scheme made, produced functional action does not surpass the utility model discloses during technical scheme's scope, all belong to the utility model discloses a protection scope.

Claims (7)

1. An ultrasonic air tightness detection device based on array arrangement is characterized by comprising an ultrasonic sensor group, a signal amplification circuit, an audio processing circuit, an analog-to-digital conversion circuit, a main processor, a display module, an interface circuit and a power supply module;

the ultrasonic sensor group comprises a plurality of ultrasonic sensors which are arranged in an array manner and used for detecting a detected product at 360 degrees and receiving ultrasonic signals generated when the gas of the detected product leaks in an all-around manner;

the signal amplification circuit is used for amplifying ultrasonic signals received by the ultrasonic sensor group, and then the ultrasonic signals are divided into two paths, one path is input to the audio processing circuit, and the other path is input to the main processor through the analog-to-digital conversion circuit;

the audio processing circuit is used for processing the signal input by the signal amplifying circuit and converting the signal into an audible audio signal of human ears;

the main processor is used for carrying out fusion processing on the amplified and analog-to-digital converted digital signals, judging whether leakage exists or not, determining the leakage position, and finally displaying the judgment result on the display module.

2. The array-based ultrasonic air tightness detection device of claim 1, wherein a plurality of ultrasonic sensors of the ultrasonic sensor group are arranged on the sensor mounting rack of the product conveyor belt in an array manner, so as to detect the detected product on the product conveyor belt in 360 degrees in all directions.

3. The ultrasonic air tightness detection device based on array type arrangement of claim 2, wherein the sensor mounting rack comprises upper, lower, left, right, front and rear side frames respectively arranged on the upper, lower, left and right sides of the product conveyor belt and the front and rear sides along the conveying direction, and a plurality of ultrasonic sensors are respectively mounted on the upper, lower, left, right, front and rear side frames in a linear array type arrangement manner to form the ultrasonic sensor group; the product conveying belt is a conveying belt with a leakage hole, so that the ultrasonic sensor on the lower side frame can detect the lower surface of a detected product on the product conveying belt; the front side frame and the rear side frame are both lifting mechanisms, so that a detected product can enter and exit the sensor mounting frame.

4. The ultrasonic air tightness detection device based on array type arrangement according to claim 3, wherein the object to be detected is a swimming life-buoy or an air cushion bed in an inflation completion state.

5. The ultrasonic air tightness detection device based on array type arrangement according to claim 4, wherein all the ultrasonic sensors of the ultrasonic sensor group perform 360 ° all-around detection on the swimming life-buoy or the air cushion bed in the state of complete inflation.

6. The ultrasonic air tightness detection device based on array arrangement of claim 1, wherein the power supply module comprises a power supply battery and a power management module, the power supply battery supplies power to the detection device through the power management module, and the power management module is provided with a charging interface so as to be connected with an external power source through the charging interface to charge the power supply battery.

7. The array-arrangement-based ultrasonic air tightness detection device according to claim 6, wherein a charging indicator lamp for displaying the charging electric quantity is further arranged on the power management module.

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