CN110360366A - Sound wave perceives intelligent electromagnetic pulse valve and operating condition judgment method - Google Patents

Abstract

The invention discloses a kind of sound wave perception intelligent electromagnetic pulse valve and operating condition judgment methods, its electromagnetic impulse valve includes valve body, the valve deck being fixedly installed on the valve body, sonic sensor, the sonic sensor includes multiple microphones, judgment method is t=0 sound wave time difference δ when multiple microphones on the same electromagnetic impulse valve receive, then electromagnetic impulse valve is in running order.The present invention feature identical using the time that the microphone being symmetricly set on electromagnetic impulse valve receives sound wave, can be extremely easy judge whether electromagnetic impulse valve is working, it can also judge that electromagnetic impulse valve opens the time of closure by the duration of sound wave, further judge whether the operating condition of electromagnetic impulse valve, such as electromagnetic impulse valve have whether gas leakage or spring spring back timely particular problem.

Description

Sound wave perceives intelligent electromagnetic pulse valve and operating condition judgment method

Technical field

The present invention relates to field of dust removal equipment, in particular to a kind of sound wave perception intelligent electromagnetic pulse valve and operating condition judgement side Method.

Background technique

Pulse dust cleaning system is the core of pulse bag type dust collector, and electromagnetic impulse valve is to determine pulse dust cleaning system The critical component for performance of uniting, electromagnetic impulse valve generally include valve body, valve deck, diaphragm and the pressure being installed on valve deck or valve body Monitoring element, for the working condition of moment monitoring electromagnetic impulse valve, and pressure monitoring element usually require to be embedded at valve deck or On valve body, difficulty of processing is larger, does not install the electromagnetic impulse valve of monitoring of working condition especially for in-service, and it is bigger to install difficulty additional.

Summary of the invention

The object of the present invention is to provide a kind of all extremely easy sound waves of installation or repacking that produces to perceive intelligent electromagnetic pulse Valve.

To reach said effect, scheme of the present invention is: a kind of sound wave perception intelligent electromagnetic pulse valve comprising Valve body, the valve deck being fixedly installed on the valve body, it further includes the sound wave sensing being installed on the valve body or the valve deck Device, the sonic sensor include the microphone of the sound wave generated when multiple reception electromagnetic impulse valve blowings, and at least there are two institutes It states microphone to be symmetrically set to around the valve body or the valve deck, the electromagnetic impulse valve further includes sensing with the sound wave Device be connected for compare microphone receive electromagnetic impulse valve blowing when generate the sound wave time difference main control module, be used for Transmit the transmission module of main control module comparing result, and the power supply powered to sonic sensor, main control module, transmission module.

Optimization, transmission module is wireless transport module or wire transmission module.

Optimization, the power supply of the sonic sensor, main control module and transmission module power supply is integrated in one.

Optimization, the valve deck is connected with valve body by bolt assembly, and the microphone is connected to described by connecting rod On bolt assembly.

The present invention also provides a kind of operating condition judgment methods of sound wave perception intelligent electromagnetic pulse valve, and deduster includes multiple The electromagnetic impulse valve set in a row, the line at the center of all electromagnetic impulse valves are hookup wire, the electromagnetic impulse valve packet Valve body, the valve deck being fixedly installed on the valve body, the sonic sensor being installed on the valve body or the valve deck are included, it is described Sonic sensor is set there are two the microphone of sound wave generated when electromagnetic impulse valve blowing is received, be symmetrically set to the valve body or The electromagnetic impulse valve further includes being connected with the sonic sensor for comparing microphone reception around the valve deck The main control module of the sound wave time difference generated when being blown to electromagnetic impulse valve, the transmission mould for being used for transmission main control module comparing result Block, and the power supply powered to sonic sensor, main control module and transmission module, microphone on the same valve body Line is parallel with the hookup wire or is overlapped or is obliquely installed, operating condition judgment method are as follows: utilizes two on each electromagnetic impulse valve A microphone receives the sound wave issued when solenoid valve blowing, two microphones on the more same electromagnetic impulse valve of main control module The time for receiving sound wave acquires time difference δ t, sets T₀It is poor for time rating, when multiple wheats on the same electromagnetic impulse valve The sound wave time difference δ t that gram wind receives is no more than T₀When, then main control module judges that electromagnetic impulse valve is in running order, and leads to Wireless sensing module or wire transmission module reported data are crossed, when δ t is greater than T₀When, then determine the acoustic signals received at this time For the acoustic signals or the useless acoustic signals that generate of other things on other electromagnetic impulse valves, do not record or reported data.

Optimization, T₀≤ 5 milliseconds.

Due to the above technical solutions, the present invention has the following advantages over the prior art: the present invention is using symmetrically The microphone being arranged on electromagnetic impulse valve receives the time identical feature of sound wave, can be extremely easy judge electromagnetism arteries and veins Rush whether valve is working, moreover it is possible to judge that electromagnetic impulse valve is opened the time of closure by the duration of sound wave, further judge Whether the operating condition of electromagnetic impulse valve, such as electromagnetic impulse valve have whether gas leakage or spring spring back timely particular problem.

Detailed description of the invention

Attached drawing 1 is the structural schematic diagram that sound wave perceives intelligent electromagnetic pulse valve when microphone is installed on valve body two sides；

Attached drawing 2 is the structural schematic diagram that sound wave perceives intelligent electromagnetic pulse valve when microphone is installed on valve body the same side；

Attached drawing 3 is the diagrammatic top view of electromagnetic impulse valve when microphone is installed on valve body the same side；

Attached drawing 4 is the diagrammatic top view of electromagnetic impulse valve when microphone is installed on valve body two sides；

Attached drawing 5 is the functional block diagram that sound wave perceives intelligent electromagnetic pulse valve electric control part.

Specific embodiment

The invention will be further described for embodiment shown in reference to the accompanying drawing.

As shown in Figure 1, sound wave perceives the valve deck that intelligent electromagnetic pulse valve includes valve body 1, is fixedly installed on the valve body 1 2, it further includes the sonic sensor being installed on the valve body 1 or the valve deck 2, and the sonic sensor includes multiple receptions The microphone 3 for the sound wave that electromagnetic impulse valve generates when being blown, at least there are two the microphones 3 to be symmetrically set to the valve body 1 Or around the valve deck 2, as shown in figure 5, the electromagnetic impulse valve further includes being used for what the sonic sensor was connected Comparison microphone 3 receives the main control module of the sound wave time difference generated when electromagnetic impulse valve blowing, is used for transmission main control module The wireless transport module (or wire transmission module) of comparing result, and to sonic sensor, main control module, wireless transport module The power supply of (or wire transmission module) power supply.Sonic sensor, main control module, wireless transport module (or wire transmission module) supply The power supply of electricity is integrated in one to form integration module 0.The valve deck 2 is connected with valve body 1 by bolt assembly 5, integration module 0 Or microphone 3 is connected on the bolt assembly 5 by connecting rod 4.

It includes multiple electromagnetic pulses set in a row that sound wave based on above-mentioned electromagnetic impulse valve, which perceives intelligent sack cleaner, Valve, the line at the center of all electromagnetic impulse valves are hookup wire, and the electromagnetic impulse valve is that above-mentioned wireless sound wave perceives intelligence Can electromagnetic impulse valve, the line of the microphone 3 on the same valve body 1 is parallel with the hookup wire or is overlapped or tilts and sets It sets.As shown in Figure 1,3, the microphone 3 on the same valve body 1 can be located on two sides and the same valve body 1 of valve body 1 Microphone 3 line it is parallel with the hookup wire, integration module 0 and individual microphone 3 are connected to described by connecting rod 4 On bolt assembly 5.As shown in Figure 2,4, the microphone 3 on the same valve body 1 can be located at the same side of valve body 1 and same The line of microphone 3 on the valve body 1 is parallel with the hookup wire, and integration module 0 is connected to the bolt by connecting rod 4 On component 5.

It is as follows that intelligent electromagnetic pulse valve progress operating condition judgment method is perceived by above-mentioned sound wave: using on each electromagnetic impulse valve Two microphones sound wave for issuing when receiving solenoid valve blowing, two wheats on the more same electromagnetic impulse valve of main control module Gram wind receives the time of sound wave, acquires time difference δ t, sets T₀It is poor for time rating, when more on the same electromagnetic impulse valve The sound wave time difference δ t that a microphone receives is not more than T₀When, then main control module judges that electromagnetic impulse valve is in running order, And by wireless sensing module or wire transmission module reported data, when δ t is greater than T₀When, then determine the sound wave received at this time Signal is the useless acoustic signals that acoustic signals on other electromagnetic impulse valves or other things generate, and is not recorded or upper count off According to.Usual T₀It is≤5 milliseconds, optimal to take 5 milliseconds.

The above embodiments merely illustrate the technical concept and features of the present invention, and its object is to allow person skilled in the art Scholar cans understand the content of the present invention and implement it accordingly, and it is not intended to limit the scope of the present invention.It is all according to the present invention Equivalent change or modification made by Spirit Essence, should be covered by the protection scope of the present invention.

Claims (6)

1. a kind of sound wave perceives intelligent electromagnetic pulse valve comprising valve body, the valve deck being fixedly installed on the valve body, feature Be: it further includes the sonic sensor being installed on the valve body or the valve deck, and the sonic sensor includes multiple connects Receive the microphone of sound wave generated when electromagnetic impulse valve blowing, at least there are two the microphone be symmetrically set to the valve body or Around the valve deck, the electromagnetic impulse valve further includes being connected with the sonic sensor for comparing microphone reception The main control module of the sound wave time difference generated when being blown to electromagnetic impulse valve, the transmission mould for being used for transmission main control module comparing result Block, and the power supply powered to sonic sensor, main control module, transmission module.

2. sound wave according to claim 1 perceives intelligent electromagnetic pulse valve, it is characterised in that: transmission module is wireless transmission Module or wire transmission module.

3. sound wave according to claim 1 perceives intelligent electromagnetic pulse valve, it is characterised in that: the sonic sensor, master Control module and the power supply of transmission module power supply are integrated in one.

4. sound wave according to claim 1 perceives intelligent electromagnetic pulse valve, it is characterised in that: the valve deck passes through with valve body Bolt assembly is connected, and the microphone is connected on the bolt assembly by connecting rod.

5. a kind of operating condition judgment method of sound wave perception intelligent electromagnetic pulse valve, deduster includes multiple electromagnetism arteries and veins set in a row Valve is rushed, the line at the center of all electromagnetic impulse valves is hookup wire, and the electromagnetic impulse valve includes valve body, is fixedly installed in Valve deck on the valve body, the sonic sensor being installed on the valve body or the valve deck, the sonic sensor are equipped with two A microphone for receiving the sound wave generated when electromagnetic impulse valve blowing, is symmetrically set to institute around the valve body or the valve deck Stating electromagnetic impulse valve further includes that the microphone that is used to compare being connected with the sonic sensor receives electromagnetic impulse valve blowing When generate the sound wave time difference main control module, be used for transmission the transmission module of main control module comparing result, and passed to sound wave The power supply of sensor, main control module and transmission module power supply, which is characterized in that the line of the microphone on the same valve body Or coincidence parallel with the hookup wire is obliquely installed, operating condition judgment method are as follows: utilizes two wheats on each electromagnetic impulse valve Gram wind receives the sound wave issued when solenoid valve blowing, and two microphones on the more same electromagnetic impulse valve of main control module receive To the time of sound wave, time difference δ t is acquired, sets T₀It is poor for time rating, when multiple microphones on the same electromagnetic impulse valve The sound wave time difference δ t received is not more than T₀When, then main control module judges that electromagnetic impulse valve is in running order, and passes through nothing Line sensing module or wire transmission module reported data, when δ t is greater than T₀When, then determine that the acoustic signals received at this time are it The useless acoustic signals that acoustic signals on his electromagnetic impulse valve or other things generate, do not record or reported data.

6. the operating condition judgment method of sound wave perception intelligent electromagnetic pulse valve according to claim 5, it is characterised in that: T₀≤5 Millisecond.