JP5354778B2 - Range hood operation control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation control device for a range hood preventing damage due to abnormal torsion torque generated in a fan and a motor shaft without rapidly increasing the speed of rotation of the motor shaft of an electric motor, when one operation button of a switch is operated and then, an operating button indicating one stage faster speed is operated immediately. <P>SOLUTION: In the range hood, by rotating the fan 12 mounted to the motor shaft 11a of the electric motor 11, air within the hood 1 is collected and is discharged to an outdoor side. In the case where a weak button 21 of the switch 20 for selecting the operating state of the range hood 1 is operated to input a weak operation signal and then, an intermediate button 22 indicating one stage faster speed is immediately operated to input an intermediate operation signal, a motor control device 30 for performing driving control of the electric motor 11 operates the electric motor 11 at a low speed only for a fixed time, and then, operates it at an intermediate speed, so as not to change the rotation of the electric motor 11 rapidly. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to an operation control device for a range hood that controls rotation of the fan of the range hood so that the range hood is operated strongly, intermediately, or weakly.

As a range hood, it is common to provide a blower in the hood and drive the blower to collect oil smoke generated during cooking in the hood and discharge it outdoors.
In such a range hood, it is generally known that a fan is rotated by an electric motor as a blower and the operation of the range hood is controlled by controlling the rotation of the fan.
For example, as disclosed in Patent Document 1, a switch is attached to the front surface of the hood. This switch has a plurality of operation buttons, for example, a strong button, a middle button, a weak button, and a cut button. When the strong button is pressed, the electric motor is driven at a high speed stage, the fan rotates at a high speed, and the range hood Strong driving.
Similarly, when the middle button and the weak button are pressed, the electric motor is driven at the medium speed stage and is driven at the low speed stage, and the fan is rotated at the medium speed and the low speed, so that the range hood is in the medium operation and the weak operation.
When the cut button is pressed, the electric motor is stopped, the fan is also stopped, and the range hood is stopped.

JP-A-10-132351

The blower used for the conventional range hood mentioned above attaches a fan to the motor shaft of an electric motor, and rotates a fan with the motor shaft.
For this reason, when the rotation of the motor shaft of the electric motor is rapidly increased, an abnormal torsion torque is generated in the fan or the motor shaft, which may damage the fan or the motor shaft.

For example, if the middle button is pressed immediately after pressing the weak button of the switch described above, the state before the electric motor is rotated at a low speed corresponding to the low speed stage, that is, the electric motor is lower than the low speed rotation described above. Since the rotation speed is changed from the slow rotation state to the medium speed step, the electric motor changes rapidly compared to the case where the electric motor changes from the low speed rotation state to the medium speed rotation. The rotation of the suddenly becomes faster.
In other words, if the button faster than that button is pressed before it reaches a steady state that rotates at a rotational speed corresponding to the speed step corresponding to the button operated by the electric motor, the motor shaft of the electric motor rotates. It gets faster and faster.

In addition, when the electric motor is rotating at a low speed by pressing the weak button of the switch described above, the rotation change of the electric motor also becomes abrupt when the strong button is pressed and the electric motor is rotated at a high speed. It gets faster and faster.
In other words, even when the electric motor is set to a speed stage that is faster by two or more stages, the rotation change of the electric motor becomes abrupt, and the rotation of the motor shaft of the electric motor becomes abruptly faster.

  Further, when the middle button is pressed while the electric motor is stopped, the rotation of the electric motor is rapidly increased, and therefore the rotation of the motor shaft of the electric motor is rapidly increased.

  The object of the present invention is to prevent the rotation of the motor shaft of the electric motor from abruptly increasing no matter how the multiple operation buttons of the switch are operated, and generating an abnormal torsion torque on the fan or motor shaft. It is to make it the operation control apparatus of the range hood which was made not to be damaged.

The present invention includes a hood 1, a blower 10 having a fan 12 attached to a motor shaft 11a of an electric motor 11, a plurality of operation buttons, and a switch that outputs an operation signal by operating any one of the operation buttons. 20 and a motor control device 30 that drives and controls the electric motor 11 in response to an operation signal output from the switch 20 to be in any one operation state,
A range hood configured to discharge air in the hood 1 by rotating the fan 12 with the electric motor 11,
When an operation signal that is one step faster than the currently input operation signal is newly input, the motor control device 30 causes the electric motor 11 to rotate at a rotational speed corresponding to the currently input operation signal. Drive continuously for a certain period of time, drive at a rotational speed corresponding to the newly input operation signal after the lapse of the certain period of time ,
When an operation signal that is two or more steps faster than the currently input operation signal is newly input, the electric motor 11 is continuously driven at a rotation speed corresponding to the currently input operation signal for a certain period of time. Then, after the fixed time elapses, it is continuously driven at a rotation speed corresponding to the driving signal that is one step faster, and after the fixed time elapses, it is driven at the rotation speed corresponding to the newly input operation signal,
When an operation signal that is faster than the lowest speed operation signal is input from the switch 20 in the range hood operation stop state, the electric motor 11 is started at a rotation speed corresponding to the lowest speed operation signal for a predetermined time. An operation control device for a range hood that is driven and driven at a rotational speed corresponding to a faster operation signal newly input after a predetermined time has elapsed.

According to the first aspect of the present invention, when one of the operation buttons of the switch 20 is operated and then the operation button that is one step faster is immediately operated, the rotation of the motor shaft 11a of the electric motor 11 is rapidly accelerated. Therefore, the fan 12 and the motor shaft 11a are not damaged by generating an abnormal torsion torque.
In addition, when one of the operation buttons of the switch 20 is operated and then the operation button that is faster by two or more stages is operated, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase. No abnormal twisting torque is generated in 11a and it is not damaged.
Further, when starting the operation of the range hood, even if the operation button faster than the lowest speed operation button of the switch 20 is operated, the electric motor 11 is started at the rotation speed corresponding to the lowest speed operation signal. It is driven for a certain period of time and then driven at a rotational speed corresponding to the input operation signal.
Therefore, when the range hood is started to operate, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase, so that an abnormal twisting torque is not generated and damaged in the fan 12 and the motor shaft 11a.

It is the whole range hood partly broken side view which shows embodiment of this invention. It is a schematic explanatory drawing of the control apparatus of an electric motor. It is explanatory drawing which shows embodiment of the motor control apparatus of this invention.

As shown in FIG. 1, the range hood of the present invention includes a hood 1, a blower 10, and a switch 20. By operating the switch 20 to drive the blower 10, oil smoke generated during cooking is hooded together with air. Collect in 1 and discharge outdoors.
The blower 10 attaches a fan 12 to the motor shaft 11a of the electric motor 11, and drives the electric motor 11 to rotate the fan 12 together with the motor shaft 11a to operate the range hood.
As shown in FIG. 2, the switch 20 includes a plurality of operation buttons for selecting the operation state of the range hood, for example, a weak button 21, a middle button 22, a strong button 23, and an off button 24, and any one of the operation buttons. Is operated to input an operation signal to the motor control device 30.

The motor control device 30 drives and controls the electric motor 11 according to the input operation signal, and sets the range hood to any one operation state.
For example, when a weak operation signal is input to the motor control device 30 by operating the weak button 21, the electric motor 11 is rotated at a low speed corresponding to the low speed stage, and the fan 12 is rotated at a low speed to weaken the range hood. Let's drive.
Similarly, by operating the middle button 22 that is one step faster than the weak button 21 and the strong button 23 that is one step faster than the middle button 22, the middle driving signal and the middle driving signal that are one step faster than the weak driving signal. However, when a strong operation signal that is one step faster is input to the motor control device 30, the electric motor 11 is rotated at a medium speed and a high speed corresponding to the high speed stage, and the fan 12 is rotated at a medium speed and a high speed. Then, the range hood is set to medium driving and strong driving.
When the off button 24 is operated, a stop signal is input to the motor control device 30 to stop the electric motor 11, stop the fan 12, and stop the operation of the range hood.

The switch 20 shown in FIG. 2 has an illumination button 25, and when the illumination button 25 is operated, a lamp (not shown) is turned on.
The switch 20 described above is not limited to the push button type, and may be a touch type or a remote control switch.

The range hood shown in FIG. 1 will be described in detail.
The hood 1 has a box shape in which a lower surface is opened by an upper surface plate 2 and a peripheral surface plate 3, and a filter 4 and a current plate 5 are provided in the hood 1.
In the blower 10, a fan 12 is provided in a casing 13, and the fan 12 is attached to a motor shaft 11 a of an electric motor 11 provided in the casing 13.
The blower 10 is provided in the hood 1, and rotates the fan 12 to suck air from the suction port 14 and discharge it to the discharge duct 15.
The switch 20 is attached to the front surface 3 a of the peripheral plate 3.
The operation control device of the present invention is not limited to the range hood shown in FIG. 1 described above, and it is needless to say that the operation control device can be applied to various conventionally known range hoods.

As shown in FIG. 3, the motor control device 30 includes a control unit 31 to which various operation signals are input from the switch 20, and an interface unit 32 to which a speed stage control signal is input from the control unit 31. .
The control unit 31 performs various controls on the input operation signal, and outputs a speed stage control signal (speed adjustment control signal) to the interface unit 32.
The interface unit 32 outputs a speed stage command (modulation command) so that the speed stage corresponds to the input speed stage control signal, and drives the electric motor 11 at a rotational speed corresponding to a predetermined speed stage. In this way, the drive current is supplied to drive the electric motor 11 at a rotational speed corresponding to a predetermined speed stage.
The motor control device 30 of the present invention is not limited to the above-described one, and may be any device that performs the operations described below.

Next, the operation control of the motor control device 30 when switching the operation of the range hood to one that is faster by one step than the current operation state (that is, by increasing the speed by one step) will be described.
The motor control device 30 stores an operation signal that is currently input.
When the operation signal that is one step faster than the stored operation signal is newly input to the motor control device 30, the electric motor 11 is kept constant at the rotation speed corresponding to the currently input operation signal. Drive continuously for hours.
After the predetermined time has elapsed, the electric motor 11 is driven at a rotational speed corresponding to the newly input operation signal.

  The above-mentioned fixed time is the time from when the operation signal is input until the electric motor 11 is stably driven at the rotation speed corresponding to the input operation signal, that is, until it reaches a steady state.

  As a result, when one operation button of the switch 20 is operated and an operation signal is input to the motor control device 30 and the predetermined time has not elapsed, that is, the operation button that is one step faster is immediately operated. When the operation signal that is one step faster than the currently input operation signal is input to the motor control device 30, the electric motor 11 is accelerated to the rotational speed corresponding to the currently input operation signal, Since the rotation speed is increased to the rotation speed corresponding to the newly input operation signal and the rotation of the electric motor 11 does not change abruptly, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase.

  Accordingly, even if one of the operation buttons of the switch 20 is operated and then the operation button that is one step faster is immediately operated, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase. In addition, abnormal torsional torque is not generated and damaged in the motor shaft 11a.

The above operation will be described in detail.
The control unit 31 stores an operation signal input from the switch 20.
When an operation signal that is one step faster than the operation signal stored in the control unit 31 is newly input to the control unit 31, the control unit 31 outputs a speed stage control signal corresponding to the stored operation signal. The signal is output continuously for a certain time, and a speed stage control signal corresponding to the newly input operation signal is output after the certain time has elapsed.

In this way, after operating one operation button of the switch 20, the electric motor 11 rotates at a rotation speed equal to or lower than the rotation speed corresponding to the speed stage corresponding to the operated operation button without elapse of the predetermined time. In this case, when the operation button that is faster by one step is operated, the operation button that is newly operated after the electric motor 11 has increased to a rotational speed corresponding to the speed step corresponding to the operation button that has been operated earlier. The rotation speed corresponds to the speed stage suitable for.
Therefore, since the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase, an abnormal twisting torque is not generated and damaged in the motor shaft 11a and the fan 12.

For example, when the weak button 21 of the switch 20 is operated and a weak operation signal is input to the control unit 31, the middle button 22 of the switch 20 when the electric motor 11 is not accelerated to the rotational speed corresponding to the low speed stage. When the intermediate operation signal is input to the control unit 31 by operating the control unit 31, the control unit 31 does not immediately output the intermediate speed stage control signal to the interface unit 32, but the low operation signal corresponding to the previously input weak operation signal. Continue to output the speed stage control signal for a certain period of time.
Then, after the predetermined time has elapsed, the control unit 31 outputs a medium speed stage control signal to the interface unit 32 to increase the electric motor 11 to a rotational speed corresponding to the medium speed stage.

  By doing in this way, since the electric motor 11 is accelerated to the rotational speed corresponding to the low speed stage and then increased to the rotational speed corresponding to the medium speed stage, the rotational change of the electric motor 11 becomes abrupt. And the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase.

  Further, when the strong button 23 is operated after the middle button 22 is operated, the electric motor 11 is continuously driven at a rotation speed corresponding to the middle speed stage for a certain period of time, and the certain time has elapsed. It may be driven later at a rotational speed corresponding to the high speed stage.

Next, the operation control of the motor control device 30 when the operation of the range hood is switched to one that is two steps or more faster than the current operation state will be described.
The motor control device 30 continues the electric motor 11 for a certain period of time at a rotational speed corresponding to the current operation signal when an operation signal that is two or more stages faster than the stored operation signal is newly input. Then drive.
After a certain period of time has elapsed, the electric motor 11 is driven for a certain period of time at a rotational speed corresponding to an operation signal that is one step faster than the current operation signal.
After the predetermined time has elapsed, the electric motor 11 is driven at a rotational speed corresponding to the newly input operation signal.

Thus, the electric motor 11 is accelerated to the rotation speed corresponding to the operation signal that is one step faster in a state where the rotation speed is increased to the rotation speed corresponding to the current operation signal, and the operation signal input in that state Therefore, the rotation of the electric motor 11 does not change abruptly, and the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase.
Therefore, when the operation of the range hood is switched to a speed that is two steps or more faster than the current operating state, the fan 12 and the motor shaft 11a are not damaged due to abnormal torsional torque.

The above operation will be described in detail.
When the weak button 21 of the switch 20 is operated to input a weak driving signal to the control unit 31 and the strong button 23 is operated to input a strong driving signal to the control unit 31, the control unit 31 Continuously outputs a low-speed stage control signal to the interface unit 32, and drives the electric motor 11 continuously at a low speed corresponding to the low-speed stage for a certain period of time.

When the predetermined time elapses, the control unit 31 continuously outputs a medium speed stage control signal to the interface unit 32 for a certain period of time, and continuously drives the electric motor 11 at a medium speed corresponding to the medium speed stage. .
When the predetermined time elapses, the control unit 31 outputs a high speed stage control signal to the interface unit 32, and drives the electric motor 11 at a high speed corresponding to the high speed stage.

Thus, the electric motor 11 does not increase from a low speed corresponding to the low speed stage to a high speed corresponding to the high speed stage directly, and rotates at a low speed corresponding to the low speed stage. From the state, the speed is increased to a medium speed corresponding to the medium speed, and the speed is increased from the state rotating at the medium speed to a high speed corresponding to the high speed stage.
Therefore, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase, and an abnormal twisting torque is not generated and damaged in the fan 12 or the motor shaft 11a.

The operation control of the motor control device 30 when the operation of the range hood described above is switched to a speed that is two steps or more faster than the current operation state may be as follows.
When an operation signal that is two or more steps faster than the stored operation signal is newly input, the motor control device 30 rotates at a rotation speed corresponding to the operation signal that is one step faster than the current operation signal. The electric motor 11 is driven for a certain time.
After a certain period of time, the motor is driven at a rotational speed corresponding to the newly input operation signal.

Even in this case, the electric motor 11 is not directly increased to the rotation speed corresponding to the operation signal that is faster by two or more stages.
Therefore, since the rotation of the electric motor 11 changes rapidly and the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase, abnormal torsion torque is not generated and damaged in the fan 12 or the motor shaft 11a. .

Next, the operation control of the motor control device 30 when starting operation of the operation range hood will be described.
When the electric motor 11 is stopped and the range hood is in an operation stop state, when the lowest speed operation button of the switch 20 is operated to input the lowest speed operation signal to the motor control device 30, the motor control device 30 The electric motor 11 is started at the lowest rotational speed corresponding to the lowest speed stage by the inputted lowest operation signal.
As a result, the electric motor 11 is increased to the lowest rotational speed corresponding to the lowest speed stage, and the fan 12 is rotated at the lowest rotational speed to bring the range hood into the lowest operating state.

For example, when a weak operation signal is input to the motor control device 30 by operating the weak button 21, the electric motor 11 is rotated at a low speed corresponding to the low speed stage, and the fan 12 is rotated at a low speed to operate the range hood weakly. And
Specifically, when the weak operation signal is input to the control unit 31 by operating the weak button 21, the control unit 31 inputs the low speed stage control signal to the interface unit 32, and the interface unit 32 is connected to the electric motor 11. The speed stage command is input to rotate the electric motor 11 at a low speed.
As a result, the fan 12 rotates at a low speed and the range hood enters a weak operating state.

When the electric motor 11 is stopped and the range hood is stopped, the operation button faster than the lowest speed operation button of the switch 20 is operated to input an operation signal faster than the lowest speed to the motor control device 30. When this occurs, the motor control device 30 controls the operation as follows.
When the operation signal is input, the motor control device 30 starts the electric motor 11 at a rotation speed corresponding to the lowest speed operation signal, continuously drives at the rotation speed for a certain period of time, and inputs after the lapse of the certain period of time. The electric motor 11 is driven at a rotation speed corresponding to the operation signal thus set, and the fan 12 is rotated at the rotation speed so that the range hood is brought into an operation state corresponding to the input operation signal.

  For example, when the middle button 22 is operated and the middle operation signal is input to the motor control device 30 from the operation stop state, the electric motor 11 is started at the rotation speed corresponding to the weak operation signal, and continues for a certain time at the rotation speed. The electric motor 11 is driven at a rotational speed corresponding to the medium operation signal after a certain time has elapsed.

Specifically, when the intermediate operation signal is input to the control unit 31 by operating the middle button 22 from the operation stop state, the control unit 31 inputs the low speed stage control signal to the interface unit 32, and the interface unit 32 The low-speed stage command is output from, and the electric motor 11 is started at a low speed corresponding to the low-speed stage.
After the control unit 31 continuously outputs the low speed stage control signal for a predetermined time, the control unit 31 inputs the medium speed stage control signal to the interface unit 32 and outputs the medium speed stage command from the interface unit 32. The electric motor 11 is rotated at a medium speed corresponding to the medium speed stage.

When there are a plurality of operation signals that are slower than the input operation signal, the electric motor 11 is started at a rotational speed corresponding to the slowest operation signal, and is continuously driven at the rotational speed for a predetermined time.
After the above-described fixed time has elapsed, the electric motor 11 is continuously driven for a fixed time at a rotation speed corresponding to the next slow operation signal.
Then, the electric motor 11 is driven at a rotational speed corresponding to the operation signal input after the above-described fixed time has elapsed.

For example, when the strong button 23 of the switch 20 is operated and the strong operation signal is input to the motor control device 30 in the operation stop state, the electric motor 11 is started at a low speed corresponding to the low speed stage corresponding to the weak operation signal. , It is continuously driven at the rotational speed for a certain time.
After the predetermined time has elapsed, the electric motor 11 is continuously driven at a medium speed corresponding to the medium operation signal for a certain time, and after the certain time has elapsed, the electric motor 11 is driven at a high speed corresponding to the high speed stage corresponding to the strong operation signal. Rotates at speed.

Specifically, when the strong operation signal is input to the control unit 31 by operating the strong button 23 of the switch 20 in the operation stop state, the low speed stage control signal is input from the control unit 31 to the interface unit 32, and the interface The unit 32 outputs a low speed stage command to start the electric motor 11 at a low speed corresponding to the low speed stage.
When a predetermined time elapses after the control unit 31 outputs the low speed stage control signal, the control unit 31 inputs the medium speed stage control signal to the interface unit 32, and the interface unit 32 outputs the medium speed stage command. The electric motor 11 is rotated at a medium speed corresponding to the medium speed stage.
When a predetermined time has elapsed after the control unit 31 outputs the medium speed stage control signal, the control unit 31 inputs the high speed stage control signal to the interface unit 32, and the interface unit 32 outputs the high speed stage command. The electric motor 11 is driven at a high speed corresponding to the high speed stage.

Since the range hood in the operation stop state is set to the operation state as described above, the electric motor 11 is not suddenly started at the rotation speed corresponding to the operation signal faster than the minimum speed at the start of operation. Is slowly activated, the rotation of the motor shaft 11a of the electric motor 11 does not rapidly increase.
Therefore, abnormal torsional torque is not generated and damaged in the fan 12 and the motor shaft 11a.

  In the above description, whether the range hood is in the operation stop state can be determined by the stop signal being input to the motor control device 30 (control unit 31) or the operation signal being not input. it can.

  DESCRIPTION OF SYMBOLS 1 ... Hood, 10 ... Blower, 11 ... Electric motor, 11a ... Motor shaft, 12 ... Fan, 20 ... Switch, 21 ... Weak button, 22 ... Middle button, 23 ... Strong button, 30 ... Motor control device, 31 ... Control Unit 32, interface unit 33, motor rotational speed setting unit 34 ... comparison unit 35 ... rotation sensor 36 ... determination unit 37 ... measurement unit 39 ... comparison operation unit 40 ... time measurement unit 41 ... setting Part, 42... Arithmetic part.

Claims (1)

A hood 1, a blower 10 in which a fan 12 is attached to a motor shaft 11 a of an electric motor 11, a switch 20 having a plurality of operation buttons and outputting an operation signal by operating any one of the operation buttons, A motor control device 30 that drives and controls the electric motor 11 in response to an operation signal output by the switch 20 to be in one of the operation states;
A range hood configured to discharge air in the hood 1 by rotating the fan 12 with the electric motor 11,
When an operation signal that is one step faster than the currently input operation signal is newly input, the motor control device 30 causes the electric motor 11 to rotate at a rotational speed corresponding to the currently input operation signal. Drive continuously for a certain period of time, drive at a rotational speed corresponding to the newly input operation signal after the lapse of the certain period of time ,
When an operation signal that is two or more steps faster than the currently input operation signal is newly input, the electric motor 11 is continuously driven at a rotation speed corresponding to the currently input operation signal for a certain period of time. Then, after the fixed time elapses, it is continuously driven at a rotation speed corresponding to the driving signal that is one step faster, and after the fixed time elapses, it is driven at the rotation speed corresponding to the newly input operation signal,
When an operation signal that is faster than the lowest speed operation signal is input from the switch 20 in the range hood operation stop state, the electric motor 11 is started at a rotation speed corresponding to the lowest speed operation signal for a predetermined time. An operation control device for a range hood that is driven and driven at a rotational speed corresponding to a faster operation signal newly input after a predetermined time has elapsed.

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