CN107294472A - A kind of motor control method, device and equipment - Google Patents

Abstract

The invention provides a kind of motor control method, device and equipment, at least to solve the problem of resonance occurs with pipeline in water pump in correlation technique.Wherein, motor control method includes：The operating frequency range of corresponding motor when obtaining the amplitude of driven equipment generation more than the first default amplitude, the motor is used to drive driven equipment；By the frequency hopping point that each set of frequency in the operating frequency range got is motor；Motor is controlled according to the frequency hopping of motor point.This method can evade the generation that water pump resonates with pipeline, improve the stability of system.

Description

A kind of motor control method, device and equipment

Technical field

The present invention relates to motor control technology field, in particular to a kind of motor control method, device and equipment.

Background technology

At present, variable frequency pump can be typically used in HVAC project, variable frequency pump is controlled according to certain control logic System can reach the effect of energy-conservation.But variable frequency pump appears in frequency converter in the application of Practical Project, often and is loaded into one The problem of water pump produces resonance with pipeline can be caused during fixed frequency.Because the complexity of water system pipe network causes water pump and pipeline Often occurs resonance point at different frequencies.The phenomenon can produce very big noise, and variable frequency pump is long-term with this In the case of operation can shorten the service life of variable frequency pump, influence pipe network send water.

The content of the invention

The invention provides a kind of motor control method, device and equipment, at least to solve water pump in the prior art and pipe The problem of resonance occurs in road.

According to the first aspect of the invention there is provided a kind of motor control method, including：Driven equipment is obtained to produce Amplitude more than the first default amplitude when corresponding motor operating frequency range, the motor is used to driving described to be set by driving It is standby；By the frequency hopping point that each set of frequency in the operating frequency range is the motor；According to the frequency hopping of motor point pair The motor is controlled.

Optionally, methods described also includes：During the motor operation, the driven equipment production is periodically obtained Raw amplitude and the working frequency of the motor；Cause the driven equipment when the motor is run with the first working frequency In the case that the amplitude of generation exceedes preset times more than the number of times of the second default amplitude, first working frequency is set to The frequency hopping point of the motor.

Optionally, methods described also includes：Receive the second working frequency of the motor that network side is sent；If described Second working frequency is identical with the frequency hopping point of the motor, then sends alarm prompt；If received after the alarm prompt is sent To the instruction message for confirming second working frequency, then the target of the motor is determined based on second working frequency Working frequency, the target operating frequency is different from second working frequency.

Optionally, the target operating frequency that the motor is determined based on second working frequency, including： Increase preset value on the basis of second working frequency, obtain the first calibration frequency；On the basis of second working frequency On subtract the preset value, obtain the second calibration frequency；Control the motor with predetermined period with first calibration frequency with And the second calibration frequency alternate run.

According to the second aspect of the invention there is provided a kind of motor control assembly, including：

First acquisition module, corresponding motor during for obtaining the amplitude of driven equipment generation more than the first default amplitude Operating frequency range, the motor be used for drive the driven equipment；First setup module, for by the working frequency In the range of each set of frequency be the motor frequency hopping point；Control module, for according to the frequency hopping point of the motor to described Motor is controlled.

Optionally, described device also includes：Second acquisition module, for during the motor operation, periodically obtaining Take the amplitude of the driven equipment generation and the working frequency of the motor；Second setup module, for when the motor Number of times of the amplitude that the driven equipment is produced more than the second default amplitude is run more than default with the first working frequency In the case of number of times, first working frequency is set to the frequency hopping point of the motor.

Optional described device also includes：Receiving module, the second work of the motor for receiving network side transmission Frequency；Reminding module, if identical with the frequency hopping point of the motor for second working frequency, sends alarm prompt； Determining module, if confirming the instruction message of second working frequency for being received after the alarm prompt is sent, with The target operating frequency of the motor, the target operating frequency and second work are determined based on second working frequency Working frequency is different.

Optionally, the determining module, including：First obtains unit, on the basis of second working frequency Increase preset value, obtain the first calibration frequency；Second obtaining unit, for subtracting institute on the basis of second working frequency Preset value is stated, the second calibration frequency is obtained；Control unit, for controlling the motor with predetermined period with the described first calibration frequency Rate and the second calibration frequency alternate run.

According to the third aspect of the present invention there is provided a kind of electric machinery control device, the equipment includes：Motor, vibration Detection means and control device；The vibration detection device is used for the amplitude for detecting that driven equipment is produced, and the motor is used In the driving driven equipment；The control device is used for the amplitude for obtaining driven equipment generation more than the first default amplitude When corresponding motor operating frequency range, by each set of frequency in the operating frequency range be the motor frequency hopping Point；The motor is controlled according to the frequency hopping point.

Optionally, the vibration detection device is arranged at the motor internal, and the vibration detection device is examined including displacement Survey device or acceleration detecting.

The scheme that the embodiment of the present invention is proposed, by the detection to resonance point, obtains the work of the corresponding motor of resonance point Frequency range, the frequency hopping point that the set of frequency in the frequency range is motor is controlled, energy according to the frequency hopping point to motor Enough evade the generation of resonance, improve the stability of system.

Brief description of the drawings

Fig. 1 is the flow chart of the motor control method of the embodiment of the present invention 1；

Fig. 2 is the implementation environment schematic diagram of the motor control method of the embodiment of the present invention 1；

Fig. 3 is the flow chart of the acquisition vibration parameters of present example 1；

Fig. 4 A are a kind of setting schematic diagrames of motor frequency hopping point of the embodiment of the present invention 1；

Fig. 4 B are the setting schematic diagrames of another motor frequency hopping point of the embodiment of the present invention 1；

Fig. 5 is the structured flowchart of the motor control assembly of the embodiment of the present invention 2；

Fig. 6 is the structured flowchart of the electric machinery control device of the embodiment of the present invention 3.

Embodiment

Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following description is related to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element.Following exemplary embodiment Described in embodiment do not represent and the consistent all embodiments of the present invention.On the contrary, they be only with it is such as appended The example of the consistent apparatus and method of some aspects be described in detail in claims, the present invention.

Embodiment 1

A kind of motor control method is present embodiments provided, Fig. 1 is the flow chart of this method, as shown in figure 1, this method bag Include following steps：

Step 101：The work frequency of corresponding motor when obtaining the amplitude of driven equipment generation more than the first default amplitude Rate scope；

Wherein, motor is used to drive driven equipment.

Step 102：By the frequency hopping point that each set of frequency in the operating frequency range got is motor；

Step 103：Motor is controlled according to the frequency hopping of motor point.

Fig. 2 is the schematic diagram of an exemplary implementation environment of the motor control method that the present embodiment is provided, wherein, water pump In this context as driven equipment, motor is used to drive the water pump, and acceleration transducer is used for the vibration feelings for detecting water pump Condition, the vibration parameters control frequency converter that controller is detected according to acceleration transducer exports the electricity in corresponding frequency feed pump Machine, so as to realize the control to variable-frequency motor.

In the implementation environment shown in Fig. 2, need to ensure that relevant device has been properly installed first, water route can be manually opened And water quality is good (low impurity).Confirm that variable frequency pump pipe network system is perfect, it is after blocking or drainage, its is right The valve opening answered.It is related component circuit connection in Fig. 2 is complete, it is ensured that circuit is unimpeded without virtual connection.By controller, water It is electric on pump, motor and acceleration transducer (or displacement transducer) terminal and frequency converter, system automatic detection relevant device Integrality, and apply for that entering automatic frequency adapts to operational process, system default starts v/f Starting mode (can also adjust according to demand Whole is vector controlled).The process of vibration parameters is obtained as shown in figure 3, transducer drive water pump is loaded onto power frequency 50hHz, operation Water pump inertia is controlled to shut down after 1min.In this process, acceleration transducer starts to detect and records the water that is connected in pipe network Pump vibration parameter.The process of three acquisition vibration parameters can be repeated, the vibration parameters that automatic contrast is obtained are automatically derived Vibrate the scope (f1~f2) near the several Frequency points (such as f0) and the Frequency point of maximum.According to the vibration parameters got, The setting of motor frequency hopping point as shown in Figure 4A and 4B, automatic locking frequency interval (i.e. above-mentioned operating frequency range) (f1~ F2 all Frequency points in) are the frequency hopping point of motor, and frequency converter output frequency will be skipped automatically during follow-up progress variable frequency adjustment The interval, such as by the direct frequency hoppings of f1 to f2.Wherein, | f1-f2 |≤a, a are settable nonnegative integer, when detecting energy Enough so that water pump produces another operating frequency range (f3~f4) of resonance with pipeline, the scope is set in the way of Fig. 4 A Interior all frequencies are the frequency hopping point of motor, as shown in Figure 4 B.

Because in the actual motion of motor, often there are multiple resonance points in water pump, and it is different to change pipe network with pipeline Other equipment (for example, other water pumps start or stop) in partial break-make and same system etc. also results in resonance The change of point.For this kind of situation, it can cause the motor control method that the present embodiment is provided that there is self study to resonance point Ability, to know new resonance point information.Based on this, on the basis of above-mentioned steps 101 to step 103, the present embodiment is provided Motor control method can also include following processing：

During motor operation, the amplitude of driven equipment generation and the working frequency of motor are periodically obtained；When Motor runs number of times of the amplitude that driven equipment is produced more than the second default amplitude more than default with the first working frequency In the case of number of times, the first working frequency is set to the frequency hopping point of motor.It can so make in motor repeatedly with a frequency When the vibration that rate point is produced when running is bigger than normal, the Frequency point is recognized and the frequency hopping point of motor is set to.

When the motor working frequency of default is exactly frequency resonance point f, alarm notification can be sent, user is pointed out The working frequency is set to cause resonant conditions, it is proposed that user should not set the working frequency as motor operation frequency.Such as Fruit user sets the working frequency by force, then f ± △ f can be obtained according to f so that motor f+ △ f and f- △ f the two With fixed cycle alternate run between frequency, alt time could be arranged to t.Wherein 1≤△ f≤3,1min≤t≤5min, △ F and t can be set in span.If △ f and t beyond default scoping, would not allow for setting, and eject that prompting frame shows can Setting range.Based on the design, the method that the present embodiment is provided can include following processing：

Receive the second working frequency of the motor that network side is sent；If the second working frequency and the frequency hopping point phase of motor Together, then alarm prompt is sent；If the instruction message for confirming the second working frequency is received after alarm prompt is sent, with second The target operating frequency of motor is determined based on working frequency；Wherein, the target of motor is determined based on the second working frequency Working frequency can include：Increase preset value on the basis of the second working frequency, obtain the first calibration frequency；In the second work Preset value is subtracted on the basis of frequency, the second calibration frequency is obtained；Controlled motor with predetermined period with the first calibration frequency and Second calibration frequency alternate run, wherein, target operating frequency is different from the second working frequency.

In addition, when the situation of the vibration frequency range got wide (acquiescence is interval more than 5Hz), system can be reported automatically It is alert, point out resonance range excessive.

The motor control method of the present embodiment, by the detection to water pump and pipeline resonance point, obtains resonance point corresponding Motor operating frequency range, the scope is set to the frequency hopping point of motor, motor is controlled according to the frequency hopping point, Neng Gougui The generation of resonance is kept away, the stability of system is improved.

Embodiment 2

A kind of motor control assembly is present embodiments provided, the device is used to realize aforementioned motor control method, and Fig. 5 is this The structured flowchart of device, as shown in figure 5, the device 50 includes following part：

First acquisition module 51, when the amplitude that the module is used to obtaining driven equipment generation is more than the first default amplitude pair The operating frequency range for the motor answered, motor is used to drive driven equipment；

First setup module 52, the module is used for the jump for motor by each set of frequency in the operating frequency range of acquisition Frequency；

Control module 53, the module is used to be controlled motor according to the frequency hopping point of motor.

The device 50 can also include：Second acquisition module, the module is used for during motor operation, periodically obtains Amplitude and the working frequency of motor that driven equipment is produced；Second setup module, for when motor is with the first working frequency In the case that operation make it that the amplitude that driven equipment is produced exceedes preset times more than the number of times of the second default amplitude, by first Working frequency is set to the frequency hopping point of motor.

Said apparatus 50 can also include：Receiving module, the second working frequency of the motor for receiving network side transmission； Reminding module, if identical with the frequency hopping point of motor for the second working frequency, sends alarm prompt；Determining module, is used for If receiving the instruction message for confirming the second working frequency after alarm prompt is sent, determined based on the second working frequency The target operating frequency of motor, wherein, target operating frequency is different from the second working frequency.

Wherein it is determined that module can specifically include：First obtains unit, for increasing on the basis of the second working frequency Preset value, obtains the first calibration frequency；Second obtaining unit, for subtracting preset value on the basis of the second working frequency, is obtained Obtain the second calibration frequency；Control unit, for controlled motor with predetermined period with the first calibration frequency and the second calibration frequency Alternate run.

The motor control assembly of the present embodiment obtains the corresponding electricity of resonance point by the detection to water pump and pipeline resonance point Machine operating frequency range, the scope is set to the frequency hopping point of motor, and motor is controlled according to the frequency hopping point, can be evaded The generation of resonance, improves the stability of system.

Embodiment 3

A kind of electric machinery control device is present embodiments provided, Fig. 6 is the structured flowchart of the equipment, as shown in fig. 6, the equipment 60 include following part：

Motor 61, vibration detection device 62 and control device 63；

Vibration detection device 62 is used for the amplitude for detecting that driven equipment is produced, and motor 61 is used to drive driven equipment；

Corresponding motor when control device 63 is for obtaining the amplitude of driven equipment generation more than the first default amplitude Operating frequency range, by the frequency hopping point that each set of frequency in operating frequency range is motor；Motor is carried out according to frequency hopping point Control.

Wherein, motor 61 can be variable-frequency motor, and control device 63 can include processor and/controller.

Wherein, vibration detection device 62 can be arranged inside motor 61, and the vibration detection device 62 can include position Detection means or acceleration detecting are moved, can be specifically displacement transducer or acceleration transducer.

The equipment that the present embodiment is provided obtains the corresponding motor work of resonance point by the detection to water pump and pipeline resonance point Working frequency scope, the scope is set to the frequency hopping point of motor, and motor is controlled according to the frequency hopping point, can evade resonance Generation, improve system stability.

On the device in above-described embodiment, wherein unit, module performs the concrete mode of operation relevant It is described in detail in the embodiment of this method, explanation will be not set forth in detail herein.

Those skilled in the art will readily occur to its of the present invention after considering specification and putting into practice invention disclosed herein Its embodiment.The application be intended to the present invention any modification, purposes or adaptations, these modifications, purposes or Person's adaptations follow the general principle of the present invention and the common knowledge in the art do not invented including the present invention Or conventional techniques.Description and embodiments are considered only as exemplary, and true scope and spirit of the invention are by following Claim is pointed out.

It should be appreciated that the invention is not limited in the precision architecture for being described above and being shown in the drawings, and And various modifications and changes can be being carried out without departing from the scope.The scope of the present invention is only limited by appended claim.

Claims (10)

1. a kind of motor control method, it is characterised in that including：

The operating frequency range of corresponding motor, the electricity when obtaining the amplitude of driven equipment generation more than the first default amplitude Machine is used to drive the driven equipment；

By the frequency hopping point that each set of frequency in the operating frequency range is the motor；

The motor is controlled according to the frequency hopping of motor point.

2. according to the method described in claim 1, it is characterised in that methods described also includes：

During the motor operation, the work of amplitude and the motor that the driven equipment is produced periodically is obtained Frequency；

Amplitude is preset more than second when the motor runs the amplitude for causing the driven equipment to produce with the first working frequency Number of times exceed preset times in the case of, first working frequency is set to the frequency hopping point of the motor.

3. according to the method described in claim 1, it is characterised in that methods described also includes：

Receive the second working frequency of the motor that network side is sent；

If second working frequency is identical with the frequency hopping point of the motor, alarm prompt is sent；

If the instruction message for confirming second working frequency is received after the alarm prompt is sent, with second work The target operating frequency of the motor is determined based on working frequency, the target operating frequency and second working frequency are not Together.

4. method according to claim 3, it is characterised in that the determination based on second working frequency is described The target operating frequency of motor, including：

Increase preset value on the basis of second working frequency, obtain the first calibration frequency；

The preset value is subtracted on the basis of second working frequency, the second calibration frequency is obtained；

Control the motor with predetermined period with first calibration frequency and the second calibration frequency alternate run.

5. a kind of motor control assembly, it is characterised in that including：

First acquisition module, the work of corresponding motor during for obtaining the amplitude of driven equipment generation more than the first default amplitude Working frequency scope, the motor is used to drive the driven equipment；

First setup module, for by each set of frequency in the operating frequency range be the motor frequency hopping point；

Control module, is controlled for the frequency hopping point according to the motor to the motor.

6. device according to claim 5, it is characterised in that described device also includes：

Second acquisition module, for during the motor operation, periodically obtaining the amplitude that the driven equipment is produced And the working frequency of the motor；

Second setup module, for being run when the motor with the first working frequency so that the amplitude that the driven equipment is produced The number of times of amplitude is preset more than second more than in the case of preset times, first working frequency is set to the motor Frequency hopping point.

7. device according to claim 5, it is characterised in that described device also includes：

Receiving module, the second working frequency of the motor for receiving network side transmission；

Reminding module, if identical with the frequency hopping point of the motor for second working frequency, sends alarm prompt；

Determining module, if confirming the instruction message of second working frequency for being received after the alarm prompt is sent, Then determine the target operating frequency of the motor based on second working frequency, the target operating frequency and described the Two working frequencies are different.

8. device according to claim 7, it is characterised in that the determining module, including：

First obtains unit, for increasing preset value on the basis of second working frequency, obtains the first calibration frequency；

Second obtaining unit, for subtracting the preset value on the basis of second working frequency, obtains the second calibration frequency Rate；

Control unit, for controlling the motor with predetermined period with first calibration frequency and second calibration frequency Alternate run.

9. a kind of electric machinery control device, it is characterised in that the equipment includes：

Motor, vibration detection device and control device；

The vibration detection device is used for the amplitude for detecting that driven equipment is produced, and the motor is used to drive described to be set by driving It is standby；

The work of corresponding motor when the control device is for obtaining the amplitude of driven equipment generation more than the first default amplitude Working frequency scope, by the frequency hopping point that each set of frequency in the operating frequency range is the motor；According to the frequency hopping point The motor is controlled.

10. equipment according to claim 9, it is characterised in that the vibration detection device is arranged at the motor internal, The vibration detection device includes displacement detector or acceleration detecting.