CN201833183U - Working machine station displaying vibration state - Google Patents
Working machine station displaying vibration state Download PDFInfo
- Publication number
- CN201833183U CN201833183U CN2010201748642U CN201020174864U CN201833183U CN 201833183 U CN201833183 U CN 201833183U CN 2010201748642 U CN2010201748642 U CN 2010201748642U CN 201020174864 U CN201020174864 U CN 201020174864U CN 201833183 U CN201833183 U CN 201833183U
- Authority
- CN
- China
- Prior art keywords
- processing unit
- board
- digital transducer
- display unit
- digital
- 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.)
- Expired - Fee Related
Links
Images
Landscapes
- Auxiliary Devices For Machine Tools (AREA)
- Automatic Control Of Machine Tools (AREA)
- Measurement Of Mechanical Vibrations Or Ultrasonic Waves (AREA)
Abstract
The utility model discloses a working machine station displaying a vibration state. The working machine station comprises a tool machine and a vibration sensor, wherein the vibration sensor comprises a digital sensor, a processing unit and a display unit; the digital sensor fixedly arranged on the tool machine produces a digital sensing signal after detecting the vibration situation of the tool machine; the processing unit is connected with the digital sensor and the display unit; and the processing unit receives the digital sensing signal and enables the display unit to display a vibration numerical value group. Therefore, the working machine station can utilize the digital sensor to produce the digital signal, avoid or reduce disturbance to the signal caused by other noise, and improve the accuracy of the displayed vibration numerical value group.
Description
Technical field
The utility model relates to the work board, relates in particular to a kind of work board that can show vibrational state.
Background technology
The existing installing of existing work board detector is with the vibration situation of sensing work board, avoid the vibration of work board too strong, influence crudy or make the work board damage, but the numerical value that is produced after those detector sense vibrations situations is all analog signal, after lead is sent to controller easily because of external interference or The noise, make numerical value or signal misalignment, and cause the user to be difficult to read correct numerical value, the work board is done accurate control.
The utility model content
In view of this, main purpose of the present utility model is to provide a kind of work board that can show vibrational state, correctly reads the vibration situation of work board for the user, so that carry out precision control.
For achieving the above object, the technical solution of the utility model is achieved in that
A kind of work board that shows vibrational state, it comprises:
One toolroom machine comprises a board;
One vibrating sensor, comprise a digital transducer, a processing unit and a display unit, this digital transducer is fixedly arranged on this board, make this digital transducer become continuous action relation with this board, detect the vibrational state of this board with this digital transducer, make this digital transducer produce a digital sensing signal, this processing unit is connected in this digital transducer and this display unit, this processing unit receives this numeral sensing signal, and this processing unit makes this display unit show a vibrating numerical group according to this numeral sensing signal.
Wherein, this vibrating sensor further comprises a housing, and this processing unit and this display unit are located at this housing; One connecting line is connected between this housing and this digital transducer.
Wherein this vibrating sensor further comprises a setup unit, and this setup unit is connected in this processing unit, and this setup unit produces a control signal, and this processing unit receives this control signal, makes this processing unit change the vibrating numerical group that this display unit shows.
Wherein this vibrating sensor further comprises a mnemon, this mnemon is connected at least one in this digital transducer, this processing unit and this display unit, and this mnemon receives and store at least one in this numeral sensing signal and this vibrating numerical group.
A kind of work board that shows vibrational state comprises:
One toolroom machine, this toolroom machine comprise a board and a controller, and this controller is connected in this board, make this controller control the operating rate of this board;
One vibrating sensor, comprise a digital transducer, one processing unit and a display unit, this digital transducer is fixedly arranged on this board, make this digital transducer become continuous action relation with this board, detect the vibrational state of this board with this digital transducer, make this digital transducer produce a digital sensing signal, this processing unit is connected in this digital transducer, this controller and this display unit, this processing unit receives this numeral sensing signal, this processing unit carries out logical operation and produces a working signal this numeral sensing signal, this controller receives this working signal, this controller is complied with the operating rate that this working signal is controlled this board, and this processing unit makes this display unit show a vibrating numerical group according to this numeral sensing signal.
Wherein this vibrating sensor further comprises a housing, and this processing unit and this display unit are located at this housing; One connecting line is connected between this housing and this digital transducer.
Wherein this vibrating sensor further comprises a setup unit, and this setup unit is connected in this processing unit, and this setup unit produces a control signal, and this processing unit receives this control signal, makes this processing unit change the vibrating numerical group that this display unit shows.
Wherein this vibrating sensor more comprises a mnemon, this mnemon is connected at least one in this digital transducer, this processing unit and this display unit, and this mnemon receives and store at least one in this numeral sensing signal and this vibrating numerical group.
The work board that can show vibrational state provided by the utility model has the following advantages:
Work board of the present utility model includes a toolroom machine and a vibrating sensor.This toolroom machine includes a board.This vibrating sensor includes a digital transducer, a processing unit and a display unit.This digital transducer is fixedly arranged on this board, this digital transducer produces a digital sensing signal after detecting the vibration situation of this board, this processing unit is connected in this digital transducer and this display unit, this processing unit receives this numeral sensing signal, and makes this display unit show a vibrating numerical group.Whereby, it is digital signal that the utility model is detected the signal that produces behind board with this digital transducer, can avoid or reduce signal and be subjected to other interference of noise, can improve the degree of accuracy of shown vibrating numerical group, carry out precision adjustment for the user.
Description of drawings
Fig. 1 is a stereogram of the present utility model.
Fig. 2 is the circuit connection diagram of vibrating sensor in the utility model.
[primary clustering symbol description]
11: board 211: digital sensing signal
12: controller 22: processing unit
121: screen 23: display unit
122: warning lamp 24: setup unit
123: operating knob 25: mnemon
21: digital transducer 26: housing
27: connecting line
The specific embodiment
Below in conjunction with accompanying drawing and embodiment of the present utility model to this novel being described in further detail.
A kind of work board that can show vibrational state that Fig. 1 provides for the utility model, it includes a toolroom machine and a vibrating sensor:
This toolroom machine includes a board 11, and can further comprise a controller 12, this board 11 can actually be made as various work boards such as lathe, milling machine, uses and be available for users to carry out various processing, when manipulating board, this board then may send vibration because of running.This controller 12 is connected in this board 11, and make this controller 12 can control the operating rate of this board 11, as running speed, feed speed or cutting speed etc., wherein connect and be used in the higher-order board, may include screen 121, warning lamp 122 and operating knob 123 in the controller 12, yet in the utility model, use the lower-order board, only with the switch control connection person that is not provided with the controller in board, also not having can not.
With reference to figure 1 and Fig. 2, this vibrating sensor includes a digital transducer 21, a processing unit 22 and a display unit 23, and can comprise a setup unit 24, a mnemon 25, a housing 26 and a connecting line 27.
This digital transducer 21 is fixedly arranged on this board 11 and becomes continuous action relation with this board, this digital transducer is vibrated with this board when this board vibration, this digital transducer is also detected the vibration situation of this board, produce a digital sensing signal 211 with this digital transducer, should the numeral sensing signal be a digital signal wherein, in signal, carry the measured coupled vibration message of this digital transducer 21, as amplitude, frequency etc., and can utilize this numeral sensing signal to show the vibration situation of this board 11.More particularly, can include one or more in this digital transducer and quicken rule, and the while encapsulates analog-digital converter in digital transducer, after making this digital transducer can utilize acceleration rule detecting vibration situation, to detect the signal that obtains with analog-digital converter immediately and be converted to digital sensing signal, when wherein set acceleration rule quantity only has one in this digital transducer, can be for the vibration situation of utilizing this digital transducer detecting single axial, set acceleration rule quantity increases to three or three when above in this digital transducer, then can be in order to the vibration situation in the detecting three-dimensional space.
This processing unit 22 is connected in this digital transducer 21, and this digital transducer receives this numeral sensing signal 211 certainly, this processing unit can carry out logical operation to this numeral sensing signal, a digital sensing signal and a warning numeric ratio is right, or directly read this numeral sensing signal, and obtain a working signal and a vibrating numerical group.When this toolroom machine is provided with controller 12, this processing unit 22 also can be connected in this controller 12, make this controller 12 control the operating rate of this board 11 according to this working signal, more particularly, when if the vibration that board produced is too strong, this processing unit 22 can send working signal, makes this controller 12 reduce the operating rate of this board 11, to avoid the board overload or to damage.This processing unit 22 can actually be arranged in an IC circuit or the electronic calculators.
This display unit 23 is connected in this processing unit 22, this display unit 23 can actually be set to a display or cresset group, receive and show this vibrating numerical group from this processing unit 22 with this display unit 23, wherein this display unit can directly show this vibrating numerical group in the numerical value mode, or also can utilize the wave mode exhibition method to show this vibrating numerical group, so that directly read for the user.
This setup unit 24 is connected in this processing unit 22, this setup unit 24 can actually be made as button groups or other various man-machine input interfaces, utilize this setup unit and be available for users to operation, produce a control signal with this setup unit, receive this control signal by this processing unit 22, and can change the compute mode of this processing unit, making this processing unit transmit different vibrating numerical groups shows for this display unit, maybe can change the warning numerical value in this processing unit, and can control the pattern of this processing unit.
This mnemon 25 is connected in this processing unit 22, or in other embodiment, also this mnemon can be connected in digital transducer, this display unit or this setup unit, but make these mnemon 25 received signals and store, wherein the signal that this mnemon received can be this numeral sensing signal or this vibrating numerical group, or also can receive this control signal, read for the user after the store recording.
Be provided with this processing unit 22 and this display unit 23 in this housing 26, and also this setup unit 24 can be located at this housing with this mnemon 25, this connecting line 27 is connected in 21 of this housing 26 and this digital transducers, after making this digital transducer be located at this base station, this housing 26 together can be fixedly arranged on a place together with processing unit, display unit, setup unit and mnemon, operate or read the vibrating numerical group for the user.
Whereby, with reference to figure 1, the utility model can utilize vibrating sensor to predict the vibration situation of board 11, read for the user, or in time board is controlled, avoid the board overload or because of vibrating excessive the damage, wherein the signal transmission between this digital transducer and processing unit is digital signal, external interference can be avoided being subjected to, or, the degree of accuracy that the vibration situation is judged can be improved because of noise makes the error in judgement of processing unit to board vibration situation; Simultaneously, the utility model also can be connected in processing unit 22 controller 12 of toolroom machine, make processing unit can utilize controller to control the running situation of board indirectly, and can when abnormal conditions occurring, react immediately, the operating rate of board slows down, or make machine table stop operation, can reduce or avoid board to damage.
The above is preferred embodiment of the present utility model only, is not in order to limit protection domain of the present utility model.
Claims (8)
1. work board that shows vibrational state is characterized in that it comprises:
One toolroom machine comprises a board;
One vibrating sensor, comprise a digital transducer, a processing unit and a display unit, this digital transducer is fixedly arranged on this board, make this digital transducer become continuous action relation with this board, detect the vibrational state of this board with this digital transducer, make this digital transducer produce a digital sensing signal, this processing unit is connected in this digital transducer and this display unit, this processing unit receives this numeral sensing signal, and this processing unit makes this display unit show a vibrating numerical group according to this numeral sensing signal.
2. the work board of demonstration vibrational state as claimed in claim 1 is characterized in that wherein this vibrating sensor further comprises a housing, and this processing unit and this display unit are located at this housing; One connecting line is connected between this housing and this digital transducer.
3. the work board of demonstration vibrational state as claimed in claim 1 or 2, it is characterized in that, wherein this vibrating sensor further comprises a setup unit, this setup unit is connected in this processing unit, this setup unit produces a control signal, this processing unit receives this control signal, makes this processing unit change the vibrating numerical group that this display unit shows.
4. the work board of demonstration vibrational state as claimed in claim 1 or 2, it is characterized in that, wherein this vibrating sensor further comprises a mnemon, this mnemon is connected at least one in this digital transducer, this processing unit and this display unit, and this mnemon receives and store at least one in this numeral sensing signal and this vibrating numerical group.
5. a work board that shows vibrational state is characterized in that, this work board comprises:
One toolroom machine, this toolroom machine comprise a board and a controller, and this controller is connected in this board, make this controller control the operating rate of this board;
One vibrating sensor, comprise a digital transducer, one processing unit and a display unit, this digital transducer is fixedly arranged on this board, make this digital transducer become continuous action relation with this board, detect the vibrational state of this board with this digital transducer, make this digital transducer produce a digital sensing signal, this processing unit is connected in this digital transducer, this controller and this display unit, this processing unit receives this numeral sensing signal, this processing unit carries out logical operation and produces a working signal this numeral sensing signal, this controller receives this working signal, this controller is complied with the operating rate that this working signal is controlled this board, and this processing unit makes this display unit show a vibrating numerical group according to this numeral sensing signal.
6. the work board of demonstration vibrational state as claimed in claim 5 is characterized in that wherein this vibrating sensor further comprises a housing, and this processing unit and this display unit are located at this housing; One connecting line is connected between this housing and this digital transducer.
7. as the work board of claim 5 or 6 described demonstration vibrational states, it is characterized in that, wherein this vibrating sensor further comprises a setup unit, this setup unit is connected in this processing unit, this setup unit produces a control signal, this processing unit receives this control signal, makes this processing unit change the vibrating numerical group that this display unit shows.
8. as the work board of claim 5 or 6 described demonstration vibrational states, it is characterized in that, wherein this vibrating sensor more comprises a mnemon, this mnemon is connected at least one in this digital transducer, this processing unit and this display unit, and this mnemon receives and store at least one in this numeral sensing signal and this vibrating numerical group.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201748642U CN201833183U (en) | 2010-04-29 | 2010-04-29 | Working machine station displaying vibration state |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010201748642U CN201833183U (en) | 2010-04-29 | 2010-04-29 | Working machine station displaying vibration state |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201833183U true CN201833183U (en) | 2011-05-18 |
Family
ID=44003279
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2010201748642U Expired - Fee Related CN201833183U (en) | 2010-04-29 | 2010-04-29 | Working machine station displaying vibration state |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201833183U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110695766A (en) * | 2018-07-10 | 2020-01-17 | 先驰精密仪器(东莞)有限公司 | Cutter state detection system |
-
2010
- 2010-04-29 CN CN2010201748642U patent/CN201833183U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110695766A (en) * | 2018-07-10 | 2020-01-17 | 先驰精密仪器(东莞)有限公司 | Cutter state detection system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104111347B (en) | Raster encoder low-speed precision detection apparatus | |
CN201464495U (en) | Testing instrument of angle speed sensor | |
US7219041B2 (en) | Measuring and simulation system for machine-tools or production machines | |
CN201833183U (en) | Working machine station displaying vibration state | |
CN101551678B (en) | Rotational speed measuring device | |
CN110509110A (en) | A kind of cutting tool for CNC machine cutting force intelligent monitor system | |
CN212058677U (en) | Ultrasonic displacement sensor | |
CN114536103A (en) | Device for detecting the state of a tool in a machine tool | |
CN105372661A (en) | Ultrasonic intelligent range finder | |
CN202372253U (en) | Portable digital vibration platform | |
CN102564566B (en) | Vibration test system of locomotive cooling tower | |
CN104482851A (en) | Testing device and testing method for transmission gear position sensor signals | |
CN203688580U (en) | Portable sensor calibration device | |
CN202693310U (en) | Fault diagnosis system for multi-channel mechanical equipment | |
JP2016115357A (en) | Device and method for inspecting operation clock signal of position determination device | |
CN202957981U (en) | Headset oscillator detection device and system | |
CN103913192B (en) | A kind of electric charges amplify sing1e unit calibration device and calibration steps | |
CN202885809U (en) | Full-temperature compensated precise tilt angle sensor | |
CN203689053U (en) | Remote control system for material testing machine | |
CN105300676A (en) | Automobile electric seat backrest comprehensive property test stand | |
CN202350904U (en) | Integrated vibration transmitter | |
CN201522629U (en) | Electronic triaxial vibration switch | |
KR101119502B1 (en) | Vibration Monitor | |
CN202442784U (en) | Locomotive cooling tower vibration testing system | |
CN106153180A (en) | Motor vibration measuring instrument |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110518 Termination date: 20140429 |