JPH0191692A - Dc fan motor controlling system - Google Patents

Abstract

PURPOSE:To reduce noise generated at the time of switching the rotational speed of a DC fan motor, by setting a continuous change controlling circuit for changing the level change of control signal to continuous change slow on timing. CONSTITUTION:By a speed switching signal producing circuit 20, humidity detecting signal and a previously set threshold value are compared with each other, and to a transistor switch 18, the speed switching signal of a level L is applied when the level of the humidity detecting signal exceeds the threshold value, and the speed switching signal of a level H is applied in other cases. The output signal of the transistor switch 18 is fed to a motor-internal control circuit via a control line 15. By a continuous change controlling circuit 21, the pulse-formed sharp change of the control signal of input provided into a motor-internal control circuit 13 is converted to slow continuous change, and voltage applied to a DC fan motor 12 is controlled not to be suddenly changed.

Description

[Detailed Description of the Invention] [Summary] This invention relates to a control method for switching the rotational speed of a DC (direct current) fan motor.

In order to sufficiently reduce the sudden change in harsh noise that occurs when switching the rotational speed of the DC fan motor, we have developed a control signal that instructs the switching of the rotational speed of the DC fan motor at two levels: H level and L level. In the DCC fan morph control method used, a continuous change control circuit is provided to change the change of the control signal from H level to L level or from L level to H level into a gradual continuous change in time, and It has a configuration that controls the rotational speed of the motor slowly and almost linearly.

[Industrial application field]

The present invention relates to a control method for switching the rotational speed of a DC (direct current) fan motor, and particularly to a control method for preventing sudden changes in noise when switching the rotational speed.

[Conventional technology]

Generally, in systems that require switching between high and low rotational speeds of fans used for ventilation and cooling inside rooms and equipment,
DCC morph for the fan drive motor Here, DCC
Fanmorphs) are often used.

FIG. 5 shows an example of a conventional DC fan motor control circuit.

In the figure, 1 is a fan, 2 is a DC fan motor (M) such as a brushless DC motor, 3 is a motor internal control circuit,
4 is the power line (+Vcc), 5 is the control line,
6 is a grounding wire (GND), 7 is a motor external control circuit, 8 is a transistor switch for speed switching, and 9 is a speed switching signal.

The speed switching signal 9 has H (high) level and L (low) level.
It has a two-level shape M, and the H1z bell is used to instruct the fan to rotate at a low speed.

The L level is used to instruct the fan to rotate at high speed.

When the speed switching signal 9 is at H level (low speed rotation), the transistor switch 8 is turned on and the control vA
5 drops to the ground (GND) level. As a result, the motor internal control circuit 3 of the fan 1 controls the DC fan motor 2.
(M) is controlled to a low speed rotation state. On the other hand, when the speed switching signal 9 is at L level (high speed rotation), the transistor switch 8 is turned OFF, and the control line 5 is set to the power supply level (+V) by the internal circuit of the motor internal control circuit 3.
cc). Due to this.

The motor internal control circuit 3 controls the DC fan motor 2 (M) to rotate at high speed.

The speed switching signal 9 is generated by the motor external control circuit 7.

This motor external control circuit 7 monitors the humidity of the target device, and when the humidity exceeds a predetermined threshold, switches the level of the speed switching signal from L to H, and vice versa. , switch to H mustard. When the motor external control circuit 7 changes the level of the speed switching signal from H to H or from L to H, the DCC fan morph and therefore the fan immediately changes to the corresponding rotational speed.

For example, when a predetermined increase in humidity is detected while the fan is rotating at a low speed, and the fan is switched to a high speed side, the cooling effect is strengthened and the humidity is reduced. For this reason, the fan is now switched to the low speed side.

As a result, the cooling effect weakens and the humidity rises again.

In this way, the rotational speed of the DC fan motor is.

Switching is controlled alternately between low speed and high speed.

[Problem that the invention seeks to solve]

In conventional DC fan motor rotation speed control systems, when the hysteresis of the control system is small, switching between high and low speeds occurs frequently near the humidity at which the fan rotation changes, resulting in a type of oscillation.

This state is accompanied by harsh noise, which makes the user feel uncomfortable.

For this reason, methods have been used to create hysteresis by inserting a time delay element into the rotational speed control system of the DC fan motor, increasing the time interval between speed changes and reducing the number of changes in the harsh sound. .

However, it was still insufficient.

An object of the present invention is to sufficiently reduce the noise generated when switching the rotational speed of a DC fan motor.

[Means for solving problems]

The present invention suppresses the amount of noise generated by preventing sudden changes in the rotational speed when switching the rotational speed of the DCC fan motor.

FIG. 1 shows the basic configuration of the present invention.

In the figure 7 11 is a fan.

12 is a DC fan motor.

13 is a motor internal control circuit.

14 is an electric wire (+Vcc).

15 is a control line.

16 is a ground line (GND).

17 is a motor external control circuit.

18 is a transistor switch that outputs a control signal to the control line 5.

19 is a humidity sensor.

20 is a speed switching signal generation circuit.

21 is a continuous change control circuit.

[Effect]

In the configuration shown in FIG. 1, ? FfA degree sensor 1
9 detects the humidity inside the device cooled by the fan 11, converts it into a humidity detection signal, and sends it to the motor external control circuit 17.
The signal is input to the speed switching signal generation circuit 20 in the internal speed switching signal generation circuit 20.

The speed switching signal generation circuit 20 compares the 5 humidity detection signals with a preset threshold, and when the level of the humidity detection signal exceeds the threshold, the speed is set to L level, and in other cases, the speed is set to H level. A switching signal is generated and applied to the transistor switch 18.

When the transistor switch 18 is applied with an H level, it is turned on and the control line 15 is brought to the L level of ground (GND). On the other hand, when the L level is applied, the transistor switch 18.

OFF, the control line 15 is made floating, and a predetermined H level is applied to the motor internal control circuit 13 of the fan 11.

The motor external control circuit 17 and the motor internal control circuit 13 are connected to the electric tA line 14. The control line 15 is connected by a ground line 16 to supply electric power for driving the DC fan motor 12 and a control signal for controlling the rotational speed signal.

The motor internal control circuit 13 is basically configured as a voltage regulator, and by changing the voltage applied to the DC fan motor 12 according to a control signal,
Change the rotation speed of the DC fan motor 12.

The continuous change control circuit 21 operates within the motor internal control circuit 13 to control the pulse-like steep H-
The L and L-H changes are converted into gradual continuous changes or stepwise changes to control the voltage applied to the DC fan motor 12 so that it does not change suddenly.

FIG. 2 shows the correspondence between changes in the level of the control signal and changes in the rotation speed of the DC fan motor 12.

As shown in the figure, the rotation speed of the DC fan motor 12 gradually decreases over 1 hour T1, and when the level of the control signal rises rapidly from L to H, the rotation speed of the DC fan motor 12 decreases over 9 hours T2. It rises slowly over time. By appropriately setting TI and T2, it is possible to change the rotation speed of the fan without causing discomfort.

[Embodiment] FIG. 3(a) shows an example using an 8 series regulator, where 31 is a DC fan motor, 32 is a series regulator, and 33 is a CR time constant circuit.

The H→L, L-H changes of the control signal are changed into gentle changes by the CR time constant circuit 33, and are applied to the control terminal of the series regulator 32, and approximately similar output voltage control is performed, as shown in FIG. b) is shown in Figure 3(a)
) is an example in which a PWM type switching regulator 34 is used instead of the series regulator 32, and an integrator 35 is used instead of the CR time constant circuit 33.
Perform the same operation on the circuit in a).

The present invention can be constructed using any other type of voltage regulator and waveform conversion circuit.

FIG. 4 shows an example of controlling a DC fan motor according to the present invention. ! When the level of the control signal is switched from ■1 to L at tl due to a decrease in the speed, the DCC fan morph rotation speed is gradually decreased. This results in
When the humidity increases and reaches a proper value at t2, the level of the control signal is switched from L to H, and the rotational speed of the DC fan motor is increased again.

Through such repetition, near-linear rotational speed control is performed between high and low rotational speeds based on environmental conditions such as the heat source within the target device.

〔Effect of the invention〕

According to the present invention, in a fan with a two-stage control system of low speed and high speed, sudden changes in rotation speed can be eliminated and the amount of noise generated can be significantly reduced, and it can be controlled at any rotation speed. Become.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing the principle configuration of the present invention, Part 2 is an explanatory diagram of the operation of the present invention, Figs. 3 (a) and (b) are diagrams showing the configuration of an embodiment of the present invention, and Fig. 4 is an actual control example. The explanatory diagram, FIG. 5, is a configuration diagram showing an example of a conventional DC fan motor control circuit. In Figure 1, 11 is a fan 12 is a DC fan motor 13 is a motor internal control circuit 14 is a power supply line 15 is a control line 16 is a grounding line 17 is a motor external control circuit 18 is a transistor switch 19 is a humidity sensor 20 is a speed switch The signal generation circuit 21 is a continuous change side 1ff11 circuit.Patent applicant: Pfn Co., Ltd. Agent: Patent attorney: Fumihiro Hase (and two others) Fig. 1: Explanation of the operation of the present invention Fig. 2: Fig. 3: Explanation of an actual control example Figure 4: Configuration diagram of a conventional DC fan motor control circuit Figure 5: Procedural master's official seal) November 16, 1985 2. Name of the invention: DC fan motor control system 3. Relationship Patent applicant Address: 98 Unoke-nu, Unoke-cho, Kahoku-gun, Ishikawa Prefecture 2 Name: Nobuhiko Nagakura, representative of BFN Co., Ltd. 4, agent 5, drawings subject to amendment (Figures 1 to 5)

Claims (1)

[Claims] DC fan motor (1
2) In the DC fan motor control method using a control signal that instructs switching of the rotation speed, the change of the control signal from the H level to the L level or from the L level to the H level is performed slowly and continuously over time. A DC fan motor control method characterized in that a continuous change control circuit (21) is provided to control the rotational speed of the DC fan motor (12) slowly and almost linearly.