CN106950069A - A kind of mechanical Fault Monitoring of HV method and device of packaging facilities - Google Patents
A kind of mechanical Fault Monitoring of HV method and device of packaging facilities Download PDFInfo
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- CN106950069A CN106950069A CN201710069426.6A CN201710069426A CN106950069A CN 106950069 A CN106950069 A CN 106950069A CN 201710069426 A CN201710069426 A CN 201710069426A CN 106950069 A CN106950069 A CN 106950069A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M99/00—Subject matter not provided for in other groups of this subclass
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
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- G01M99/004—Testing the effects of speed or acceleration
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Abstract
The present invention relates to a kind of mechanical Fault Monitoring of HV method and device of packaging facilities, belong to mechanical fault diagnosis field.This method is:1) measuring point of selected equipment;2) it is vibration velocity or vibration displacement information to select the main monitoring object of measuring point according to the positional information of measuring point;3) information for obtaining monitoring compares with corresponding setting value, judges whether equipment occurs in that failure.Using the method for the present invention and device, the parameter object that it is monitored is selected according to the position of packaging facilities measuring point, the parameter that each measuring point is monitored is treated with a certain discrimination, efficiently solve and in the prior art all measuring points are monitored with the wasting of resources and the slow-footed problem of fault distinguishing that unified parameters are brought, while also saving cost.
Description
Technical field
The present invention relates to a kind of mechanical Fault Monitoring of HV method and device of packaging facilities, belong to mechanical fault diagnosis field.
Background technology
As modernization industry produces the continuous improvement with scientific and technological level, the maximization of machinery equipment, serialization, height
Speedization and the development trend of automation are increasingly apparent, however, due to component of machine in itself, service condition, behaviour residing for equipment
The influence of the inevitable factor such as deficiency is managed and safeguards, plant equipment all kinds failure can occur often.This not only can
Promote slackening or losing for plant equipment predetermined function, economic loss is brought to enterprise, and even more serious person is also by direct prestige
Personal safety is coerced, leads to catastrophic accident.
In order to ensure equipment safety, normal operation, people need a kind of new maintenance mechanism to solve the above problems in a hurry.Intelligence
System fault diagnosis can be changed, be the various failures generated for machine-building process or during other obtained,
Transmission, processing, analysis and solution.The various physical quantitys that its technology includes occurring to during are received with advanced sensor, are entered
Row signal transmission and signal transacting, come to carry out the working condition of production equipment and the quality of product from the result of analyzing and processing
Monitoring, is predicted, and failure is diagnosed and alarmed to its development trend.
But, it is not directed to the technology of the Based Intelligent Control of packaging facilities in the prior art.For the machinery of packaging facilities
The hidden failures such as abrasion, mechanical fatigue carry out temperature to plant equipment, it is necessary to increase the sensors such as necessary temperature, vibration in advance
The parameters such as degree, vibration are monitored.For different measuring points, it is necessary to which what is monitored needed for it is judged according to its concrete condition is what
Parameter is planted, is treated with a certain discrimination to the Rational Parameters for only monitoring these measuring points, monitoring unified parameters institute band can be just effectively prevented from
The slow-footed problem of the wasting of resources and fault distinguishing come.
The content of the invention
It is existing for solving it is an object of the invention to provide a kind of mechanical Fault Monitoring of HV method and device of packaging facilities
In technology all measuring points are monitored with the wasting of resources and the slow-footed problem of fault distinguishing that unified parameters are brought.
To achieve these goals, a kind of mechanical Fault Monitoring of HV method of packaging facilities of the invention, step is as follows:1) select
The measuring point of taking equipment;2) it is that vibration velocity or vibration displacement are believed to select the main monitoring object of measuring point according to the positional information of measuring point
Breath;3) information for obtaining monitoring compares with corresponding setting value, judges whether equipment occurs in that failure.
When the main monitoring object of measuring point is vibration velocity, also need the vibration displacement of the measuring point and vibration acceleration information
It is monitored as auxiliary monitoring object;When the main monitoring object of measuring point is vibration displacement, also need the vibration speed of the measuring point
Degree and vibration acceleration information are monitored as auxiliary monitoring object.
This method is also needed while monitoring the corresponding temperature information of measuring point.
The measuring point is the motor base of packaging facilities, primary drive shaft bearing block, secondary drive shaft upper spacer, mounted box
At least one on rear side of machine in dynamical system, box packing machine cabinet drift angle and dress chartered plane cabinet angle.
Dynamical system unified test on rear side of motor base, primary drive shaft bearing block, secondary drive shaft upper spacer and box packing machine
The corresponding main monitoring object of point is vibration velocity;Box packing machine cabinet drift angle and the corresponding main monitoring pair of dress chartered plane cabinet angle measuring point
As if vibration displacement.
A kind of mechanical Fault Monitoring of HV device of packaging facilities, including:1) unit is chosen:Measuring point for selected equipment;2)
Monitoring unit:It is vibration velocity or vibration displacement information for selecting the main monitoring object of measuring point according to the positional information of measuring point;
3) analytic unit:Compared for obtained information will to be monitored with corresponding setting value, judge whether equipment occurs in that failure.
When the main monitoring object of measuring point is vibration velocity, also need the vibration displacement of the measuring point and vibration acceleration information
It is monitored as auxiliary monitoring object;When the main monitoring object of measuring point is vibration displacement, also need the vibration speed of the measuring point
Degree and vibration acceleration information are monitored as auxiliary monitoring object.
The corresponding temperature information of measuring point is monitored simultaneously.
The measuring point is the motor base of packaging facilities, primary drive shaft bearing block, secondary drive shaft upper spacer, mounted box
At least one on rear side of machine in dynamical system, box packing machine cabinet drift angle and dress chartered plane cabinet angle.
Dynamical system unified test on rear side of motor base, primary drive shaft bearing block, secondary drive shaft upper spacer and box packing machine
The corresponding main monitoring object of point is vibration velocity;Box packing machine cabinet drift angle and the corresponding main monitoring pair of dress chartered plane cabinet angle measuring point
As if vibration displacement.
The beneficial effects of the invention are as follows:Using the method for the present invention and device, selected according to the position of packaging facilities measuring point
Its parameter object monitored, the parameter that each measuring point is monitored is treated with a certain discrimination, efficiently solved in the prior art to all measuring points
The wasting of resources and the slow-footed problem of fault distinguishing that monitoring unified parameters are brought, while also saving cost.
Brief description of the drawings
Fig. 1 is the vibration velocity and rotating speed time series chart of measuring point 1;
Fig. 2 is the vibration velocity stable diagram of measuring point 1;
Fig. 3 is the vibration velocity and rotating speed time series chart of measuring point 2;
Fig. 4 is the vibration velocity stable diagram of measuring point 2;
Fig. 5 is the vibration velocity and rotating speed time series chart of measuring point 3;
Fig. 6 is the vibration velocity stable diagram of measuring point 3;
Fig. 7 is the vibration velocity and rotating speed time series chart of measuring point 6;
Fig. 8 is the vibration velocity stable diagram of measuring point 6;
Fig. 9 is the vibration displacement and rotating speed time series chart of measuring point 4;
Figure 10 is the vibration displacement stable diagram of measuring point 4;
Figure 11 is the vibration displacement and rotating speed time series chart of measuring point 5;
Figure 12 is the vibration displacement stable diagram of measuring point 5;
Figure 13 is the vibration displacement and rotating speed time series chart of measuring point 7;
Figure 14 is the vibration displacement stable diagram of measuring point 7;
Figure 15 is the vibration velocity monitoring schematic diagram of measuring point 1;
Figure 16 is experts database and troubleshooting and analysis graph of a relation;
Figure 17 is troubleshooting process figure;
Figure 18 is the temperature-time sequence chart of measuring point 1;
Figure 19 is the temperature foh curve of measuring point 1;
Figure 20 is the temperature-time sequence chart of measuring point 2;
Figure 21 is the temperature foh curve of measuring point 2;
Figure 22 is the temperature-time sequence chart of measuring point 3;
Figure 23 is the temperature foh curve of measuring point 3.
Embodiment
Below in conjunction with the accompanying drawings, the invention will be further described.
In order to realize that there is provided a kind of mechanical Fault Monitoring of HV of packaging facilities dress to the failure predication of packaging facilities and analysis
Put.The device can in real time be monitored to the information of the measuring point of selection, and be had the information of monitoring and corresponding setting value
Compare with the function of analyzing failure cause.The parameter of monitoring relates generally to temperature, vibration velocity, vibration displacement and vibration and accelerated
Degree, the sensor typically used is temperature sensor, vibrating sensor or the temperature sensor that shakes.
For the different measuring points of packaging facilities, if the parameter information of its monitoring is identical, then less weighed for measuring point
The monitoring information wanted, it can cause the waste of resource, also can accordingly influence ensuing accident analysis speed;It is relative for measuring point
Important monitoring information, if it cannot get due attention, is unfavorable for ensuing fault distinguishing process.From this, for
Can different measuring points, reasonably select its parameter suitably monitored and be directly connected to the effect that equipment fault monitoring differentiates.
On Monitoring Data, vibration equipment data and the major class of device temperature data two are broadly divided into.For vibration equipment shape
State, can be described by three parameters, respectively including vibration displacement, vibration velocity, vibration acceleration.Vibrating mass
Fatigue is directly proportional to vibration velocity, and energy produced by vibrating square is directly proportional to vibration velocity, due to energy
The result of transmission cause abrasion and other defect, therefore, in vibration diagnosis criterion, be by speed be defined comparison fit
Preferably.And for low-frequency vibration, it is main just to consider that, due to the destruction that displacement is caused, its essence is the destruction of fatigue strength, Er Feineng
The destruction of amount property;But for dither, then mainly it is considered as the influence of shock pulse and original paper resonance.Therefore, to big
For most machines, excellent diagnostics parameter is speed, many in the world because it is the ideal parameters for reflecting oscillation intensity
Vibration diagnosis standard is all as discriminant parameter using speed virtual value.
A kind of mechanical Fault Monitoring of HV device embodiment 1 of packaging facilities
The mechanical Fault Monitoring of HV device of packaging facilities in the present embodiment includes the selection list of the measuring point for selected equipment
Member, for selecting measuring point main monitoring object according to the positional information of measuring point it is vibration velocity or the monitoring list of vibration displacement information
Member and compared for obtained information will to be monitored with corresponding setting value, judge whether equipment occurs in that the analysis list of failure
Member.
Such as, when measuring point is located at the higher position of vibration frequency, it may be considered that using vibration velocity as main monitoring object;When
When measuring point is located at vibration frequency relatively low position, it may be considered that using vibration displacement as main monitoring object.
The present embodiment selects the parameter object that it is monitored, the parameter that each measuring point is monitored according to the position of packaging facilities measuring point
Treat with a certain discrimination, efficiently solve the wasting of resources and failure brought in the prior art to all measuring points monitoring unified parameters and sentence
Not slow-footed problem, while also saving cost.
A kind of mechanical Fault Monitoring of HV device embodiment 2 of packaging facilities
Failure whether is there occurs in order to effectively monitoring device, the selection of measuring point also seems particularly significant.On the one hand,
When the measure-point amount of selection is more, it will necessarily make it that the quantity and analytical parameters that introduce sensor become many, this accordingly can be filled in increase
The cost put;On the other hand, when the measure-point amount of selection is less, it is possible to some important informations can be neglected so that device is not
Being capable of failure judgement well.The position of can selection measuring point and monitoring parameter directly affects the monitoring of device and examine
Disconnected effect.
For example for GDX2 packaging machines, in practical application, one in following seven measuring points can be chosen or many
It is individual to be monitored as specific measuring point (as without special declaration, being generally two or more):
Measuring point 1:Motor base.By analysis, the position is nearest from the core drive position of packing mechanical equipment
Key point, is the sensitizing range of motor vibration, and with enough rigidity, therefore, chooses the measuring point to move complete equipment
It is suitable that the stability in power source, which is monitored,.In addition, the position is in motor base, it is the sensitivity of motor temperature change
Point, therefore it is also suitable to install temperature test point at the position.
Measuring point 2:Primary drive shaft bearing block.By analysis, the position is the supporting region held in primary drive shaft, can be very
Reflect the vibration performance of rotor well, be the sensitizing range of drive bearing vibration, and with enough rigidity, therefore, choose the survey
It is suitable that point is monitored come the state to transmission mechanism.In addition, the position is joined directly together with drive bearing, it is drive bearing
The sensitive spot of temperature change, therefore it is also suitable to install temperature test point at the position.
Measuring point 3:Dividing plate in secondary drive shaft.By analysis, on secondary transmission bearing housing can not install sensor, and
The position is still within the sensitizing range of drive bearing vibration, and with enough rigidity, therefore, chooses the point and come to transmission mechanism
State to be monitored be suitable.In addition, the position is joined directly together with drive bearing, it is the sensitivity of drive bearing temperature change
Point, therefore it is also feasible to install temperature test point at the position, but due to the point is, in the outside of packaging facilities, easily to go out
Show the influence that temperature is scattered and disappeared with external environment condition, therefore the temperature monitoring of the point can only be used as auxiliary monitoring.
Measuring point 4:The box packing machine cloche lower case top lower left corner.By analysis, the part interior device structure is complex,
And broken down according to maintenance personal's reflection is easy, the body vibration state of box packing machine can be supervised installed in cabinet top
Survey, therefore, it is suitable to select the measuring point to be monitored come the state to box packing machine.
Measuring point 5:The box packing machine cloche lower case top upper right corner.The selection of the measuring point is identical with the selection reason of measuring point 4, no
Repeat again.Certainly, measuring point 4,5 can also be selected accordingly under the box packing machine cloche lower case top upper left corner or box packing machine cloche
The cabinet top lower right corner is used as measuring point.
Measuring point 6:Dynamical system on rear side of box packing machine.By analysis, the position is joined directly together with equipment dynamic mechanism, and being can
Reflect the sensitive spot of dynamical system vibrational state, and with enough rigidity, therefore, select the measuring point to carry out the power to box packing machine
It is suitable that state, which is monitored,.
Measuring point 7:Fill chartered plane cabinet drift angle.By analysis, the part interior device structure is complex, and device interior owns
Transmission mechanism is finally all fixed on cabinet, by vibrating sensor be arranged on cabinet on can to fill chartered plane body vibration state
It is monitored, therefore, it is suitable to select the measuring point to be monitored come the state to dress chartered plane.
Because measuring point 1,2,3,6 is all located on actuating unit respectively, vibration frequency is higher, and it can be considered to vibrate speed
Spend for main monitoring object, and using vibration displacement and vibration acceleration as auxiliary monitoring object;Measuring point 4,5,7 is set positioned at processing respectively
Standby outside, vibration frequency is relatively low, it may be considered that using vibration displacement as main monitoring object, and with vibration velocity and vibration acceleration
For auxiliary monitoring object.
In the present embodiment, the motor base of selected equipment, primary drive shaft bearing block, secondary drive shaft upper spacer and
Dynamical system is vibration velocity measuring point on rear side of box packing machine, and the box packing machine cabinet top lower left corner of selected equipment, box packing machine cabinet top are right
Upper angle and the vibration velocity that dress chartered plane cabinet angle is vibration displacement measuring point, respectively monitoring vibration speed measuring point, and vibration position
The vibration displacement of movement surveying point, obtains Fig. 1-Figure 14 result.
For the vibration velocity of measuring point 1, referring to Fig. 1-Fig. 2, vibration velocity remains a constant speed substantially under equipment stable state,
And with packing machine rotating speed correlation, when stabilization of speed is in 6.5 (r/s) left and right, vibration velocity is also stabilized in 1.30
(mm/s) left and right, mean μ=1.2972, variances sigma=0.0585.
For the monitoring of vibration velocity, following four subregion, corresponding table 1 and Figure 15 can be divided into:
The vibration velocity of table 1 monitors partition table
Partition number | Scoping rules | Evaluate | Measure |
1 | Vibration velocity<Early warning is limited | Normal area | Keep |
2 | Early warning is limited<Vibration velocity<Alarm limit | Caution area | Concern |
3 | Alarm limit<Vibration velocity<Shut down limit | Hazardous area | State Maintenance |
4 | Vibration velocity>Shut down limit | Do not allow | Maintenance down |
1) it is normal in equipment state, and under stable state (rotating speed keeps stable), collect one group (about 50-100)
Vibration velocity measured value.
2) its average value mu is calculated0And standard deviation sigma0;
3) a reference value=μ0;
Early warning limit L=μ0+3σ0;
Alarm limit L=2 (μ0+3σ0);
Shut down limit L=3 (μ0+3σ0);
Each boundary value according to the vibration velocity data primary Calculation of the measuring point 1 of current collection is respectively:A reference value=
1.2972;Early warning limit=1.4727;Alarm limit=2.9454;Limit=4.4181 is shut down, unit is mm/s.
(suitability modification can certainly be carried out according to actual needs), can calculate and obtain measuring point after the same method
2nd, each boundary value (unit is mm/s) of 3,6 vibration velocity data, and the vibration displacement data of measuring point 4,5,7 all circles
Limit value (unit is um):
The vibration velocity of measuring point 2:A reference value=1.0516;Early warning limit=1.1356;Alarm limit=2.2712;Shutdown limit=
3.4068;
The vibration velocity of measuring point 3:A reference value=0.9397;Early warning limit=0.9755;Alarm limit=1.9510;Shutdown limit=
2.9265;
The vibration velocity of measuring point 6:A reference value=0.8417;Early warning limit=0.8861;Alarm limit=1.7721;Shutdown limit=
2.6582;
The vibration displacement of measuring point 4:A reference value=3.949;Early warning limit=5.512;Alarm limit=11.024;Shutdown limit=
16.536;
The vibration displacement of measuring point 5:A reference value=3.980;Early warning limit=5.263;Alarm limit=10.526;Shutdown limit=
15.789;
The vibration displacement of measuring point 7:A reference value=4.573;Early warning limit=5.900;Alarm limit=11.799;Shutdown limit=
17.700。
Based on above-mentioned boundary value, set up the intelligent expert diagnostic platform of packaging facilities to realize the judgement and early warning of failure,
See Figure 16.Expert diagnostic system is application of the artificial intelligence in mechanical fault diagnosis field, with very strong self adaptation, is learnt by oneself
Function is practised, the fault type in fault knowledge storehouse can be continuously replenished, make diagnosis more quick and easy, accurate.Its accident analysis
The process of reasoning includes three partial contents such as fault signature extraction, fault mode classification, fault mode matching.Fault signature is extracted
It is one of core of this module, is quickly and accurately diagnosed to be the failure of equipment, just has to find out each fault type and each
Relation power situation between physical parameter.By carrying out data analysis to failure logging table, every kind of failure is analyzed respectively would generally
There is which performance characteristic;Fault mode classification is then the performance characteristic according to each known fault, the performance to various failures
Form enters the division of row mode;Fault mode matching is then that the expression mode of fault signature is matched with specific failure, often
One or more of possible failure causes can be corresponded to by planting failure expression mode.
Troubleshooting is the computer that system is set up and the passage of field service personnel, when system discovery failure
Or when finding failure omen, system can send alarm, and generate a troubleshooting list, and troubleshooting list includes phenomenon of the failure
Data, failure cause judges and corresponding solution that field service personnel carries out according to the content of troubleshooting list to scene
Corresponding investigation processing, after the completion of processing, by the result feedback system of processing, system can update experts database according to result,
Referring to Figure 17.
It is advantageous in that using this embodiment scheme:The present embodiment have selected specific on the basis of embodiment 1, reasonably
Position is measuring point, specifically chooses specific device location for vibration velocity measuring point or vibration displacement measuring point, and it is corresponding to monitor its
Vibration velocity or vibration displacement information, the specific aim of the data monitored to each measuring point are stronger, can quickly analyze the original that is out of order
Cause, simultaneously effective reduces the quantity for introducing sensor, has saved cost.
A kind of mechanical Fault Monitoring of HV device embodiment 3 of packaging facilities
For device temperature state, on the one hand, temperature is a characteristic parameter for characterizing electric automatization failure;The opposing party
Face, the mechanical performance of material has close relationship with temperature again, and temperature is too high, machine components is occurred softening etc. abnormal existing
As so that performance is reduced, and part can be also burnt out when serious.Therefore, temperature monitoring is also therefore and in mechanical fault diagnosis
Vital status is accounted in whole technical system.
In actual applications, device for detecting temperature can be installed in each measuring point, or temperature only is installed in specific measuring point and supervised
Device is surveyed, measuring point 1,2,3 is such as set to the measuring point with device for detecting temperature, to the data monitoring of these three temperature monitoring points
All comprising two parts, one is the too high monitoring of temperature, and whether temperature data is monitored in real time beyond specified standards;Another
It is temperature ramp-up rate monitoring, the pace of change to temperature data is monitored in real time, passes through the change to adjacent moment temperature value
The whether excessive carry out early warning of change amplitude, points out the unit exception that may occur.
The present embodiment is on the basis of a kind of mechanical Fault Monitoring of HV device embodiment 2 of packaging facilities, while having monitored survey
The temperature information of point 1,2,3, is shown in Figure 18 to Figure 23.
For the temperature of measuring point 1, referring to Figure 18-Figure 19, the temperature of measuring point 1 is in reciprocating at the uniform velocity propradation at present, when
During packing machine normal operation, temperature at the uniform velocity rises, and temperature rises and starts to slow down after reaching a certain height, or even keeps substantially steady
It is fixed, and when packing machine rotating speed declines, temperature starts quick falling, the rate of rise in temperature of measuring point 1 is about
For the monitoring of device temperature, three below area can be divided into, 2 are shown in Table.
The temperature monitoring partition table of table 2
Partition number | Scoping rules | Evaluate | Measure |
1 | Temperature<Early warning is limited | Normal area | Keep |
2 | Early warning is limited<Temperature<Alarm limit | Caution area | Concern |
3 | Alarm limit<Temperature | Hazardous area | Maintenance |
According to the temperature data of current collection, each boundary value of the measuring point 1 of initial setting is respectively:A reference value=55;In advance
Alert limit=60;Alarm limit=70, unit for DEG C.
Each boundary value of measuring point 2,3 can equally be obtained:
Measuring point 2:A reference value=50;Early warning limit=55;Alarm limit=65, unit for DEG C.
Measuring point 3:A reference value=40;Early warning limit=45;Alarm limit=50, unit for DEG C.
The present embodiment is advantageous in that:On the basis of embodiment 2, the selective temperature to measuring point 1,2,3 is supervised
Survey so that trouble-shooter can be diagnosed effectively according to the temperature of measuring point come the failure to equipment, improve failure
All measuring points are carried out the high cost problem that temperature monitoring is brought by the accuracy of diagnosis while turn avoid.
A kind of mechanical Fault Monitoring of HV embodiment of the method for packaging facilities
1) measuring point of selected equipment;
2) it is vibration velocity or vibration displacement information to select the main monitoring object of measuring point according to the positional information of measuring point;
3) information for obtaining monitoring compares with corresponding setting value, judges whether equipment occurs in that failure.
Claims (10)
1. a kind of mechanical Fault Monitoring of HV method of packaging facilities, it is characterised in that:Comprise the following steps:
1) measuring point of selected equipment;
2) it is vibration velocity or vibration displacement information to select the main monitoring object of measuring point according to the positional information of measuring point;
3) information for obtaining monitoring compares with corresponding setting value, judges whether equipment occurs in that failure.
2. the mechanical Fault Monitoring of HV method of packaging facilities according to claim 1, it is characterised in that:When the main monitoring of measuring point
When object is vibration velocity, also need to be supervised the vibration displacement of the measuring point and vibration acceleration information as auxiliary monitoring object
Survey;When the main monitoring object of measuring point is vibration displacement, also need using the vibration velocity of the measuring point and vibration acceleration information as
Auxiliary monitoring object is monitored.
3. the mechanical Fault Monitoring of HV method of packaging facilities according to claim 1 or 2, it is characterised in that:This method is also needed
The corresponding temperature information of measuring point is monitored simultaneously.
4. the mechanical Fault Monitoring of HV method of packaging facilities according to claim 1, it is characterised in that:The measuring point is packaging
The motor base of equipment, primary drive shaft bearing block, secondary drive shaft upper spacer, box packing machine rear side dynamical system, box packing machine
At least one in cabinet drift angle and dress chartered plane cabinet angle.
5. the mechanical Fault Monitoring of HV method of packaging facilities according to claim 4, it is characterised in that:Motor base, just
The corresponding main monitoring object of dynamical system measuring point is to shake on rear side of level transmission shafts bearing, secondary drive shaft upper spacer and box packing machine
Dynamic speed;Box packing machine cabinet drift angle and the corresponding main monitoring object of dress chartered plane cabinet angle measuring point are vibration displacements.
6. a kind of mechanical Fault Monitoring of HV device of packaging facilities, it is characterised in that:Including:
1) unit is chosen:Measuring point for selected equipment;
2) monitoring unit:It is vibration velocity or vibration displacement for selecting the main monitoring object of measuring point according to the positional information of measuring point
Information;
3) analytic unit:Compared for obtained information will to be monitored with corresponding setting value, judge whether equipment occurs in that event
Barrier.
7. the mechanical Fault Monitoring of HV device of packaging facilities according to claim 6, it is characterised in that:When the main monitoring of measuring point
When object is vibration velocity, also need to be supervised the vibration displacement of the measuring point and vibration acceleration information as auxiliary monitoring object
Survey;When the main monitoring object of measuring point is vibration displacement, also need using the vibration velocity of the measuring point and vibration acceleration information as
Auxiliary monitoring object is monitored.
8. the mechanical Fault Monitoring of HV device of the packaging facilities according to claim 6 or 7, it is characterised in that:Monitor and survey simultaneously
The corresponding temperature information of point.
9. the mechanical Fault Monitoring of HV device of packaging facilities according to claim 6, it is characterised in that:The measuring point is packaging
The motor base of equipment, primary drive shaft bearing block, secondary drive shaft upper spacer, box packing machine rear side dynamical system, box packing machine
At least one in cabinet drift angle and dress chartered plane cabinet angle.
10. the mechanical Fault Monitoring of HV device of packaging facilities according to claim 9, it is characterised in that:Motor base, just
The corresponding main monitoring object of dynamical system measuring point is to shake on rear side of level transmission shafts bearing, secondary drive shaft upper spacer and box packing machine
Dynamic speed;Box packing machine cabinet drift angle and the corresponding main monitoring object of dress chartered plane cabinet angle measuring point are vibration displacements.
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