CN204667145U - Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process - Google Patents

Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process Download PDF

Info

Publication number
CN204667145U
CN204667145U CN201520260142.1U CN201520260142U CN204667145U CN 204667145 U CN204667145 U CN 204667145U CN 201520260142 U CN201520260142 U CN 201520260142U CN 204667145 U CN204667145 U CN 204667145U
Authority
CN
China
Prior art keywords
noise
wireless field
field device
acoustic
field devices
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201520260142.1U
Other languages
Chinese (zh)
Inventor
荻奥多·H·施奈尔
科里·迈克尔·鲁宾逊
理查德·路易斯·纳尔逊
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Rosemount Inc
Original Assignee
Rosemount Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US14/587,141 external-priority patent/US10739187B2/en
Application filed by Rosemount Inc filed Critical Rosemount Inc
Application granted granted Critical
Publication of CN204667145U publication Critical patent/CN204667145U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01HMEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
    • G01H3/00Measuring characteristics of vibrations by using a detector in a fluid
    • G01H3/10Amplitude; Power
    • G01H3/12Amplitude; Power by electric means
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01HMEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
    • G01H3/00Measuring characteristics of vibrations by using a detector in a fluid
    • G01H3/10Amplitude; Power
    • G01H3/12Amplitude; Power by electric means
    • G01H3/125Amplitude; Power by electric means for representing acoustic field distribution
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01HMEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
    • G01H3/00Measuring characteristics of vibrations by using a detector in a fluid
    • G01H3/10Amplitude; Power
    • G01H3/14Measuring mean amplitude; Measuring mean power; Measuring time integral of power
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Measurement Of Mechanical Vibrations Or Ultrasonic Waves (AREA)

Abstract

A kind of wireless field device, the system for monitoring the noise in industrial process, wireless field device of using when monitoring the acoustic noise in industrial process used when monitoring acoustic noise.Wireless field device comprises: acoustic sensor, the treatment circuit being coupled to described acoustic sensor, output circuit.By supervision industrial premises preferably to work under expectation noise grade and to guarantee to meet Workplace Safety regulations.

Description

Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process
The cross reference of related application
The application based on and require the U.S. Provisional Patent Application No.62/006 that on June 2nd, 2014 submits to, the right of priority of 689, the mode that its content is quoted in full is incorporated herein.
Technical field
The utility model relates to and will monitor that industrial premises is preferably to expect to work under noise grade and to guarantee to meet the wireless industrial noise monitoring system of Workplace Safety regulations.
Background technology
Industrial premises is used for the manufacture of polytype commodity, storage and transport.Under such industrial production environment, noise grade can reach relatively high grade.For a lot of reasons, people may wish noise grade to remain on below specific threshold.This can be realized by the specific region using noise surveillance equipment manually to detect industrial process.But, such inefficiency and the correlation noise class information be provided in only during specific probe time.Therefore, the excessive event of noise may occur and not be noted, and network operator may be unaware of this problem.
Utility model content
A kind of wireless field device used when monitoring acoustic noise comprises the acoustic sensor being configured to sense acoustic noise.The treatment circuit being coupled to described acoustic sensor is configured to identify hazardous noise situation based on the acoustic noise sensed and employee's Noise Exposure standard.In response to identified noise condition, output circuit provides warning to export.Additionally provide a kind of system being used in wireless field mounting monitor the one or more acoustic sensors realized.
There is provided originally " utility model content " and " summary " to introduce the selection to imagination in simplified form, will be further described in " embodiment " below the selection of imagination." utility model content " and " summary " be both not intended to key feature or the essential feature of determining theme required for protection, and they are also not intended to for the auxiliary scope determining theme required for protection.
Accompanying drawing explanation
Fig. 1 is the oblique view of on-the-spot installable wireless industrial audio-frequency noise surveillance.
Fig. 2 shows the simplified block diagram of the electronic package of the system of Fig. 1.
Fig. 3 is the diagram of the sensing noise grade provided as the user interface of reporting audio noise and trend.
Fig. 4 is the relative corresponding figure to centre frequency for sensing A, B and the centre frequency of the weighting filter of C type audio-frequency noise.
Fig. 5 shows the form of octave band (octave band) wave filter.
Fig. 6 shows the simplified block diagram of the electronic package of the noise monitor according to embodiment of the present disclosure.
Fig. 7 is the block diagram of the system according to embodiment of the present disclosure.
Fig. 8 is the block diagram of the central station according to embodiment of the present disclosure.
Fig. 9 is the schematic diagram of the computing machine that it can realize embodiment of the present disclosure.
Figure 10 is the process flow diagram of the method according to embodiment of the present disclosure.
Embodiment
For needing wireless power, powered battery or otherwise self-poweredly provide system to the industrial person that noise grade carries out watch-keeping under challenging environment (such as, comprising the industrial plants of offshore production of hydrocarbons platform).For follow-up work place noise, can measure according to employee's Noise Exposure standard of generally acknowledging.The information provided by system allows network operator to identify the region having and employee is caused to dangerous excessive noise.Based on this identification, network operator can realize effective alleviation, and such as noise reduction, engineering and management control and appropriate personal safety equipment.
Embodiment of the present utility model comprises the wireless wide-area audio surveillance network and the Software tool that allow network operator to identify the noise danger in its facility.In one embodiment, noise monitoring system comprises scene and can install noise grade monitor and (preferably, meet IEC 62591 equipment) network.Noise grade monitor is suitable for forever being arranged in challenging hazardous environment.On-the-spot can be seamlessly integrated into that to be deployed in monitored region existing by mounting monitor in (or other wireless protocols) network.Noise measurement function, accuracy and report meet applicable workplace noise and monitor standard.
System in an embodiment comprise have help user identify and slow down the application software of the following functions of workplace noise danger: noise grade trend, mapping and warn.The embodiment of system also support by data in existing host computer system fast and simply integrate.
In one embodiment, scene can comprise by mounting monitor 100 (Fig. 1): the adjustment of audio microphone (or other acoustic sensor) 102, signal and filtering unit 108 (shown in Fig. 2 and Fig. 6), power supply 104, radio or communication module 106 and microcontroller 110 (shown in Fig. 2 and Fig. 6), and this microcontroller 110 is for management system and voice data is treated to one or more process variable that the host computer system of client and/or relative application software may be used for noise trend, mapping and warning.Fig. 2 shows the example block diagram that audio-frequency noise monitor 100 can be installed in scene.Fig. 3 shows the user interface with audio-frequency noise report and trend function.
In one embodiment, the field apparatus 100 being configured to ANTENN AUDIO noise monitor illustrates with squint mode in FIG, and illustrates in fundamental block diagram mode in figure 6.See Fig. 1 and Fig. 6, noise monitor comprises the acoustic sensor of such as microphone 102 and so on, power module 104 and is coupled to the communication module 106 of system shell 112.Shell 112 also comprises internal electronic device 114, this internal electronic device 114 comprises signal adjustment and filtering unit 108 and microcontroller 110 in one embodiment, and this internal electronic device 114 can integrate with communication module 106 in one embodiment.Acoustic sensor receives acoustics input, and sends the acoustics input received to signal adjustment and filtering circuit 108.Signal adjustment and filtering are described in detail hereinafter.Once filter and have adjusted acoustic signal, in one embodiment, microcontroller 110 processes filtered input, to provide treated voice data to user interface or software module, for showing and/or analyzing the information about the following: the noise grade received, Tone Map, particular event identification, alarm condition, trend etc.Also can with not filtering the noise received to microcontroller transmission with unadjusted mode, and microcontroller can perform adjustment in one embodiment.In one embodiment, acoustic sensor can receive the mankind and detect noise outside frequency range, such as ultrasonic hash.
Fig. 2 is the more detailed block diagram of the corresponding field apparatus 100 according to an embodiment.Audio microphone 102 carries out the sound signal be coupled to receive to signal adjustment circuit 108 transmission, and in one embodiment, signal adjustment circuit 108 comprises weighted sum filter function as described herein.Power module 104 is provided to think the assembly power supply of field apparatus 100.Communication module 106 provides the communication capacity of field apparatus 100 and the such as external position of central station, pulpit and so on via wired or wireless connection.Microcontroller 110 is coupled to signal adjustment circuit 108 via analog to digital converter frame 202.Preferably, temperature sensor 204 is coupled to microcontroller 110 to be provided in the temperature at field apparatus place to microcontroller.Temperature can use in various calculating, as will be further described herein.In one embodiment, microcontroller 110 has the access rights to the such as storer of FRAM 206 and so on.The power that FRAM is usually less than other forms of memory consumption, and be applicable to the field apparatus with low-power output, such as field apparatus 100.
In one embodiment, power module 104 comprises: at least one battery 208, intrinsically safe circuit 210, " buck-boost " type voltage stabilizer 212, low voltage difference (LDO) voltage stabilizer and resistive power splitter (such as, resistance pressure-dividing network 216).Power module is provided at least part of power of powering to field apparatus 100, and provides the power solution of essential safety for field apparatus 100.In one embodiment, each assembly of power module provides respectively.
In one embodiment, communication module 106 is arranged to use (comprising the mixing Physical layer of the digital communication signal be superimposed upon in standard 4 ~ 20mA simulating signal), FOUNDATION tMfieldbus (the all-digital communication agreement issued by ISA for 1992), Profibus communication protocol or other agreements carry out work.Also can realize such as comprising IEC 62591 (wireless ) in the wireless process control loop agreement of interior technology for radio frequency and so on.In communication module 106, wired telecommunication circuit 218 and wireless telecommunication circuit 220 is coupled with microcontroller 110, for the parameter of externally location transmission such as audio-frequency information and so on.In one embodiment, static discharge and surgesuppressor 222 can also be used for wireless the protection of circuit 220.
Multiple noise monitor 100 can be positioned in work or other regions, such as oil drilling platform, offshore production of hydrocarbons platform, industrial premises etc.In certain embodiments, monitor 100 be configured to use such as support wired or wireless equipment, and in one embodiment, to be embedded in the grid network be connected with central station or pulpit.In a customized configuration, as configuration shown in form of a block diagram in Fig. 7, there is multiple noise monitor 100 1, 100 2, 100 3, 100 4system 700 be configured to such as wireless the industrial mesh network of the confirmation of business of network and so on works.Multiple noise monitor 100 is arranged on the position that will be monitored, and the plurality of noise monitor 100 is such as wireless in one embodiment a part for the wireless network grid 702 of network and so on.In one embodiment, multiple noise monitor is positioned at known position.In an embodiment of system 700, use the central station 704 of such as gateway device and so on, and central station 704 is connected to receive information from the one or more noise monitor 100 in multiple noise monitor 100 with grid 702.Central station 704 may be used for supervision from from noise monitor 100 to Local or Remote or control system sends information.
Therefore, in one embodiment, the field apparatus 100 used when monitoring acoustic noise in industrial processes comprises: acoustic sensor, is configured to sense the acoustic noise in industrial process; Be coupled to the treatment circuit of acoustic sensor, be configured to identify the noise condition relevant to employee's Noise Exposure standard based on the noise sensed; And output circuit, be configured to provide the output in response to noise condition.In one embodiment, field apparatus is used for monitoring noise based on employee's Noise Exposure standard, it is illustrated in hazardous noise situation, such as specific noise event, continue to be in or higher than specific grade noise grade or trend towards the noise trend of hazardous noise situation.
In one embodiment, transmitted by grid network 702 in the information about noise grade at one or more noise monitor place, for the further noise grade trend in the user interface of software module, software module or the combination of software module and user interface, mapping and warning function.An embodiment of the user interface 300 for audio-frequency noise report, trend etc. is shown in Fig. 3.Such as, user interface 300 may be used for show needle to one or more specific noise, one or more particular watcher or its certain combination the noise grade of passing in time.As shown in Figure 3, in one embodiment, user interface 300 comprises Figure 30 2 and visible instrument phenotype display 304, and this visible instrument phenotype display 304 shows the fusion with at least some information shown in Historical form or this information on Figure 30 2 with meter type.
Figure 30 2 shows the instantaneous noise grade of each in the noise that in a period of time, five identify respectively.Five noises identified respectively can be noise grades in frequency range or frequency band, noise etc. from each noise monitor.Figure 30 2 is at user option in displaying contents, such as in various embodiments, show following one or more: the present level passed in time, the average rank of passing in time, range band or predictability tendency information (such as, regression curve) etc.
The instrument display 304 of noise _ 1 is shown as the decibel number of degrees of A weighting, and indicates two parts information: noise grade 306 indicates 74dBA and instrument grade 308 is similar to 75dBA.In various embodiments, noise grade 306 can be indicated to maximum or minimal noise grade in average noise grade in the section of fixing time, current noise grade, peak noise grade, local etc.In various embodiments, instrument grade 308 can be indicated to maximum or minimal noise grade in average noise grade in the section of fixing time, current noise grade, peak noise grade, local etc.In one embodiment, user can select display format, such as select from the list that may show configuration, this may show configuration and comprise: show what information and information with what form display (that is, such as Figure 30 2 and so on figure, such as show 304 and so on instrument display, display and figure, chart, form combination etc.).
User interface 300 is in one embodiment as the front end of software, the audio-frequency information received by noise monitor collected by this software, and performs and include, but is not limited to the following in interior function: noise trend, map the warning of some event or trend and noise.User interface 300 allows user to select various option to be used for presenting noise information, comprises selection: one or more specific noise in one or more specific noise monitor, multiple noise in multiple noise monitor, the one or more noises in one or more frequency range, use weighting filter to carry out weighting to come one or more noises of filtering, the one or more monitors using weighting filter to carry out weighting or carry out filtering according to frequency, the hazardous noise situation determined by one or more criterions of such as employee's Noise Exposure standard and so on etc. according to frequency.Further, user can select the duration for monitoring trend, mapping etc.
In one embodiment, once carry out selecting the one or more user in weighting selection, filtering selection, the selection of noise monitor position, noise type selection, noise duration, trend duration, threshold noise intensity or He Ne laser etc., software has shown at user option figure, chart, instrument etc. to illustrate selected standard in user interface 300.When the predetermined threshold reaching any standard determined by software (such as based on employee's Noise Exposure standard), software provides warning or other alarm.Warning or alarm can have following form: the display in user interface 300, audio alert, the digital signal that can be used by external alarm system or their certain combination.
Noise trend can identify based on any amount of predetermined criterion, comprises (only exemplarily, but not as restriction): the noise grade increased, the average noise grade exceeding threshold value, the weighted mean noise grade exceeding threshold value etc.These also may be used for instruction and may reach employee's Noise Exposure criteria limit and try to be the first and give a warning.
The determination to noise source position can also be performed, such as, by based on the difference between different noise monitor or receive the nearest noise monitor of the time decipherment distance noise of noise at one or more noise monitor places with known location.
As would be known in the art, at a slow speed, fast and pulse arrange, provide user's optional noise detector averaging time.Sampling and transmit time segments also can be that user is optional.
In the diagram, for the frequency range be similar between 20Hz to 10kHz, show Figure 40 0 of weighted curve of A weighting 402, B weighting 404 and C weighting 406.Conventional weight curve for frequency response is known in this area.Although illustrated A, B and C weighting in Fig. 4, usual A and C weighting has been the most frequently used wave filter in man-made noise application, and wherein A is weighted in is almost force to use (such as international standard IEC 61672) in global sound level instrument.C weighting be to people's ear closer to approximate, although A weighting allows and compares compared with the noise grade of old plant, C weighting is considered to the optimum prediction device of people's ear acupuncture to the sensitivity of the tone of strong noise grade.A weighting more can reflect the potential injury to people's ear caused by noise.Although discuss A, B, C and D weighting, when not departing from disclosure scope, embodiment of the present disclosure also can use additional filterings or weighting, such as, and Z weighting or other weighting function, or linear (without filtering) weighting.The use of weighted curve is known, and is not described further in this article.In addition, other employee's Noise Exposure standard can also be used.
Because the noise of infringement people ear depends on intensity and frequency, in certain embodiments, the filtering based on frequency is used for being separated some noise and noise pattern.A kind of method of frequency filtering is by using octave band.Frequency spectrum is divided into frequency band by octave band, and in frequency band, highest frequency is low-frequency twice.Traditional octave band with high and low frequency and centre frequency is shown in a tabular form in Fig. 5.Because the sound in some frequency range more likely causes potential hearing impairment, can need to pay close attention to the sound in these frequency ranges.Octave band filter filters the sound not in its frequency band or frequency range.Embodiment of the present disclosure such as can use the octave band filtering in signal adjustment circuit 108.Although discuss octave band filtering, should be understood that: other frequency filtering of such as 1/3 octave band filtering and so on also can use in embodiment of the present disclosure, and it does not depart from the scope of the present disclosure.
Without departing from the scope of the disclosure, the filtering of such as octave band filtering and so on and the weighting of such as A, B, C, D weighting and so on or their combination can use in various embodiments, and can use together with various parameter and function (such as, trend, map etc.).Use this combination in various embodiments, to allow at use noise monitor described herein to carry out dirigibility when noise monitors.
In addition, in order to identify some sound, may be even more useful to the use of octave band or other frequency filtering.In some location of manufacturings, there will be some known sound.In addition, these sound can have distinct noise pattern, frequency, intensity or its combination, allow by using signal adjustment and filtering and carrying out sound recognition by microcontroller process, such as, to contrast known noise pattern table or database.Further, some noise event can be the tendency of other potential event, and may be used for warning imminent situation to network operator or user, such as dangerous situation etc.
Fig. 9 and relevant discussion provide the succinct total volume description to the suitable computing environment that wherein can realize software and user interface 300.Although do not require, software can realize at least partially in the general context of computer executable instructions, the program module such as performed by computing machine 900.Generally speaking, program module comprises routine, object, assembly, data structure etc., and it performs particular task or realizes particular abstract data type.Description herein can be embodied as storable computer executable instructions on computer-readable medium by those skilled in the art.In addition, those skilled in the art will recognize that: the utility model can use other computer system configurations to realize, and comprising: the personal computer, small-size computer, mainframe computer etc. of multicomputer system, networking.Each scheme of the present utility model also can realize in a distributed computing environment, in this distributed computing environment, is executed the task by the remote processing devices by communication network links.In distributed computer environment, program module can be positioned in local and remote memory storage device.
Computing machine 900 comprises traditional computer, and it has the system bus 906 of CPU (central processing unit) (CPU) 902, storer 904 and the various system component that is coupled (comprise and storer 904 is coupled to CPU 902).System bus 906 can be any one in some types of bus structure, comprising: the memory bus or Memory Controller, peripheral bus and the local bus that use any one in various bus structure.Storer 904 comprises ROM (read-only memory) (ROM) and random access memory (RAM).Comprise between the starting period, such as help the base program of special delivery information between the unit in computing machine 900 to be stored in ROM in interior basic input and output (BIOS).The memory device 908 of such as hard disk, floppy disk, CD drive and so on is coupled to system bus 906 and for the storage of program and data.Those skilled in the art should recognize: the computer-readable medium (such as magnetic tape cassette, flash card, digital video disc, random access memory, ROM (read-only memory) etc.) of computing machine other type addressable also can be used as memory device.Usually, the program of with or without accompanying data is loaded in storer 904 by from least one memory device 908.
The input equipment of such as keyboard 910 and/or positioning equipment (such as mouse, rocking bar) 912 and so on allows user to provide order to computing machine 900.The output device of monitor 914 or other type can also be connected to system bus 906 via suitable interface, and can provide feedback to user and also can show user interface 300.If monitor 914 is touch-screens, positioning equipment 912 can with its merging.Input positioning equipment 912 and the corresponding software-driven of monitor 914 and such as mouse and so on together form the graphic user interface (GUI) 916 of computing machine 900.If necessary, then interface 918 allows to communicate with other computer system.Interface 918 also can represent for sending signal or the circuit from actuator and/or sensor device Received signal strength mentioned above to actuator and/or sensor device mentioned above.Usually, this circuit comprises digital-to-analogue (D/A) converter and modulus (A/D) converter known in this area.
In operation, one or more noise monitor of all monitors As mentioned above 100 and so on are placed on and will measure in the region of acoustic noise.One or more noise monitor senses the acoustic noise in this region.In an embodiment, noise processes in noise monitor based on employee's Noise Exposure standard, but in an alternative embodiment, processes in treatment circuit or microcontroller.Process comprises (only exemplarily, but not as limit): carry out filtering or weighting based on one or more criterion to the noise sensed.One or more noise parameter is determined based on received treated acoustic noise.In one embodiment, noise parameter is shown on a user interface, such as, in the user interface of software module described herein, and the criterion that software module is configured to select according to user shows trend, mapping, positional information, specific sound identification etc.Under various configurations, originally user interface is carried with it and/or on the another location of all middle positions 704 as shown in Figure 7 and so at noise monitor.
Show the method for monitoring acoustic noise in industrial processes in Fig. 10 in flow diagram form.In one embodiment, method 100 comprises: in frame 1002, and use acoustic sensor senses the acoustic noise in industrial process, in frame 1004, the acoustic noise that process senses to identify noise condition, and in frame 1006, provides the output in response to the noise condition identified.In one embodiment, the method process noise to identify hazardous noise situation, such as, specific noise event, be lastingly in or higher than certain grade noise grade or trend towards the noise trend of hazardous noise situation.
In various embodiments, process can comprise: carry out filtering (such as by frequency to noise, by using above-described octave band), use weighted curve (such as, above-described A, B, C or D weighting) noise sensed is weighted.In one embodiment, identify that noise parameter also comprises: use at least one criterion to carry out configuration process, such as weighting selection, filtering selection, the selection of noise monitor position, noise type selection, the duration of noise, the duration of trend, threshold noise intensity or He Ne laser etc.
Concrete audio frequency measurement characteristics and feature can be configured according to expectation.This comprises the optional weighting of used specific criteria, frequency range, amplitude range and user.Such as, some the standard weighting factor comprising weighting standard A, B, C, D can be used for detecting hazardous noise situation.Exemplary characteristics can be as follows:
Degree of accuracy: IEC 61672 classification 2 (or better)
Frequency range: 20Hz to 20kHz
Amplitude range: 60 to 120dB
Measurement pattern: the broadband with the optional A weighting of user, B, C or D
There is the octave of standard bands filtering
Time response: user is optional: at a slow speed, fast, pulse
Sampling/transmit time segments: user is optional: 4 seconds to 60 minutes
Grade triggers sampling and sends
Form in figure and Fig. 5 in Fig. 4 shows exemplary weights wave filter.In addition, as mentioned above, the response time and the sampling periods that comprise grade triggering sampling can be optional.
In various scheme, the utility model comprises:
The scene of use self-organization network network technology can mounting industrial ANTENN AUDIO noise surveillance equipment.
Adopt and be required that meeting workplace noise monitors that the scene of various standard personnel's Noise Exposure standard frequency spectrum weighted features (being called as A, B, C and D weighting in industry) of standard can mounting industrial ANTENN AUDIO noise surveillance equipment.
Adopt and meet the workplace noise that industry generally acknowledges and monitor that the scene of the octave band filtering of standard can mounting industrial ANTENN AUDIO noise surveillance equipment.
Scene can mounting industrial ANTENN AUDIO noise surveillance equipment, wherein, monitors simultaneously and reports wide spectrum audio-frequency noise, and application A, B, C and D filtering and to noise grade application multiplier frequency filter.
The scene with the configurable noise alert level of user can mounting industrial ANTENN AUDIO noise surveillance equipment.
Only when the audio-frequency noise grade sensed exceedes user configured threshold value, just the scene of transmitted noise level data can mounting industrial ANTENN AUDIO noise surveillance equipment.
Collect audio-frequency noise level data via wireless network from field erected monitor and the application software of noise trend, warning and mapping function is provided to user.
Although with reference to preferred embodiment to describe the utility model, it will be appreciated by those skilled in the art that the change can carried out when not departing from spirit and scope of the present utility model in form and in details.Sensed concrete noise can be ultrasonic hash.As used herein term " acoustics " both comprised ultrasonic hash, was also included within the noise within typical mankind's hearing spectrum or the noise within the frequency spectrum that can damage human auditory.Advanced spectrum content analysis capability can be comprised.In this configuration, specific acoustic wave and ultrasound wave event can be monitored in the output of acoustic sensor.Under some configurations, system can comprise noise source station-keeping ability.Such as, shotgun microphone and/or additional acoustic sensor can be used.Position can be determined based on the signal intensity of the acoustic signal received and/or time delay.Term as used herein " hazardous noise situation " comprise any by user or other modes select or define and can based on any situation of employee's Noise Exposure standard.Hazardous noise has the noise to the characteristic that the employee be exposed in such noise is harmful to.Hazardous noise situation can be imminent situation, and its not inevitable requirement just there is the noise with hazard rating when monitoring.System can provide the warning of some type to export.This can be wirelessly transmitted to another location.In addition, can output be provided to warn user in this locality in this locality.This warning can be vision instruction or audio frequency instruction.This warning also can be configured to automatically close the equipment producing noise.Although be described above radio configuration, system also can use cable technology to realize.Such as can use two-wire industrial stokehold loop.Conveniently radio configuration, system can realize economize on electricity and/or power recovery technology.

Claims (30)

1. the wireless field device used when monitoring acoustic noise, comprising:
Acoustic sensor, is configured to sense acoustic noise;
Be coupled to the treatment circuit of described acoustic sensor, be configured to identify hazardous noise situation based on the acoustic noise sensed and employee's Noise Exposure standard; And
Output circuit, is configured to provide the warning in response to identified hazardous noise situation to export;
Wherein, described wireless field device is configured to use radiofrequency signal to carry out radio communication.
2. wireless field device according to claim 1, wherein, described output circuit comprises wireless output circuit.
3. wireless field device according to claim 2, wherein, described wireless output circuit is configured to according to IEC 62591 communication standard carrys out work.
4. wireless field device according to claim 1, comprising: battery, and the circuit be configured to equipment is powered.
5. wireless field device according to claim 1, wherein, the hazardous noise situation identified is selectable.
6. wireless field device according to claim 1, wherein, the hazardous noise situation identified is based on weighting factor.
7. wireless field device according to claim 6, wherein, described weighting factor is selected from A, B, C and D noise criteria.
8. wireless field device according to claim 6, wherein, described weighting factor is at user option.
9. wireless field device according to claim 1, wherein, described noise hazard proterties condition identifies based at user option noise duration.
10. wireless field device according to claim 1, wherein, the acoustic noise sensed comprises ultrasonic hash.
11. wireless field devices according to claim 1, comprising: application software, are configured to receive described warning and export and provide tendency information.
12. wireless field devices according to claim 1, comprising: application software, are configured to receive described warning and export and provide warning information.
13. wireless field devices according to claim 1, comprising: application software, are configured to receive described warning and export and provide positional information.
14. wireless field devices according to claim 1, wherein, described warning exports and comprises the noise information sensed.
15. wireless field devices according to claim 1, wherein, described warning exports and exceedes threshold value in response to the noise sensed.
16. wireless field devices according to claim 15, wherein, described threshold value is that user is configurable.
17. wireless field devices according to claim 1, wherein, described treatment circuit adopts octave band filtering.
18. wireless field devices according to claim 17, wherein, described octave band filtering meets the workplace noise supervision standard that industry is generally acknowledged.
19. wireless field devices according to claim 1, at least comprise the second acoustic sensor.
20. wireless field devices according to claim 19, wherein, described acoustic sensor and at least described second acoustic sensor are used for providing noise positional information.
21. wireless field devices according to claim 1, wherein, described warning output comprises local output.
22. 1 kinds, for monitoring the system of the noise in industrial process, comprising:
Realize the acoustic sensor in the monitor installed at the scene, be configured to sense the acoustic noise in described industrial process;
Treatment circuit, is configured to process the acoustic noise that senses and detects hazardous noise situation based on configurable parameter; And
Radio communication circuit, is configured to carry out radio communication based on detected hazardous noise.
23. systems according to claim 22, comprising: interface, for arranging described configurable parameter.
24. systems according to claim 22, comprising: interface, are configured to provide tendency information.
25. systems according to claim 22, comprising: interface, are configured to provide positional information.
26. systems according to claim 22, are included in the interface realized in software application.
27. systems according to claim 22, comprise multiple field erected monitor.
28. systems according to claim 22, wherein, described treatment circuit is realized by the software application run on the microprocessor.
29. systems according to claim 22, comprise multiple acoustic sensor.
30. 1 kinds of wireless field devices used when monitoring the acoustic noise in industrial process, comprising:
Acoustic sensor, is configured to sense the acoustic noise in described industrial process;
Be coupled to the treatment circuit of described acoustic sensor, be configured to identify hazardous noise situation based on the acoustic noise sensed; And
Output circuit, is configured to provide the output in response to described noise condition.
CN201520260142.1U 2014-06-02 2015-04-27 Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process Active CN204667145U (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US201462006689P 2014-06-02 2014-06-02
US62/006,689 2014-06-02
US14/587,141 US10739187B2 (en) 2014-06-02 2014-12-31 Industrial audio noise monitoring system
US14/587,141 2014-12-31

Publications (1)

Publication Number Publication Date
CN204667145U true CN204667145U (en) 2015-09-23

Family

ID=53274789

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520260142.1U Active CN204667145U (en) 2014-06-02 2015-04-27 Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process

Country Status (1)

Country Link
CN (1) CN204667145U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108605190A (en) * 2016-10-14 2018-09-28 雅马哈株式会社 Failure detector, voice input output module, urgency message module and fault detection method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108605190A (en) * 2016-10-14 2018-09-28 雅马哈株式会社 Failure detector, voice input output module, urgency message module and fault detection method
US10659895B2 (en) 2016-10-14 2020-05-19 Yamaha Corporation Failure detection apparatus, audio input/output module, emergency notification module, and failure detection method
CN108605190B (en) * 2016-10-14 2020-06-30 雅马哈株式会社 Fault detection device, voice input/output module, emergency notification module, and fault detection method

Similar Documents

Publication Publication Date Title
CN105320108A (en) Industrial acoustic noise monitoring system
AU2018348163B2 (en) Fire detection system
US9712549B2 (en) System, apparatus, and method for detecting home anomalies
US20200081054A1 (en) Power line issue diagnostic methods and apparatus using distributed analytics
US20180007074A1 (en) Anomaly and malware detection using side channel analysis
CA2957739A1 (en) Method and apparatus for automation and alarm architecture
US10521722B2 (en) Disturbance detection, predictive analysis, and handling system
US20140172758A1 (en) Personal emergency response system by nonintrusive load monitoring
CN108535759B (en) Remote radiation protection monitoring method, device and system for million-kilowatt nuclear power station
KR20160085033A (en) Learning type emergency detection system with multi-sensor and that method
AU2020226203A1 (en) Power monitoring
WO2023049110A1 (en) Device for assessing and managing human health hazards in an indoor environment at a site location
CN104807395A (en) Mobile terminal deformation alarm device, monitoring system and alarm method of mobile terminal deformation alarm device
CN110821565B (en) Coal mine safety production area personnel management system and method based on coal mine personnel position monitoring
CN103999316A (en) Method for generating a signal indicating an oscillation in an electrical energy supply network
CN204667145U (en) Monitor acoustic noise time use wireless field device, for monitoring system, the wireless field device of the noise in industrial process
JP4310409B2 (en) Life change detection method, apparatus and program
JP5264991B2 (en) Data collection device
CN113625133A (en) Online monitoring feedback system and method for partial discharge of power distribution equipment
CN112904921A (en) Real-time monitoring supervisory systems based on thing networking
CN108444592A (en) Wireless vibration monitoring and fault diagnosis system
CN203732156U (en) Noise on-line monitoring and management device
US20210333146A1 (en) Remote monitoring of vehicle scale for failure prediction
CN204215397U (en) A kind of background monitoring device
CN207543117U (en) The unattended embedded monitoring device of synchronized broadcast

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant