JP5375143B2 - Ceiling fan - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To supply a ceiling fan capable of adjusting a rotating speed in response to the indoor temperature with a simple constitution. <P>SOLUTION: This ceiling fan has a connecting part fixed to the ceiling, an electric motor 3 for vertically arranging a rotary shaft in a lower part of this connecting part, a temperature detector 6 for detecting the ambient temperature and a control part 7 for driving the electric motor 3 by estimating the room temperature by the temperature detected by this temperature detector, in a lower part of this electric motor 3. The control part 7 estimates the indoor temperature by the temperature detected by the temperature detector to drive the electric motor 3, and thereby, the ceiling fan capable of adjusting the rotating speed in response to the room temperature with a simple constitution, can be provided. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a ceiling fan that is attached to a ceiling of a building and circulates indoor air.

  For example, this type of ceiling fan has the following configuration.

  That is, it was the structure which consists of a coupling metal fixture fixed to a ceiling, and the ceiling fan main body suspended from this coupling metal via a suspension means.

And as prior literature similar to this, it is described in Patent Literature 1 and Patent Literature 2.
JP-A-10-170176 Japanese Unexamined Patent Publication No. 63-1799

  In the above conventional ceiling fan, in order to realize comfort, a temperature detector is provided to measure the room temperature, and the rotational speed of the ceiling fan is adjusted according to this temperature.

  And the said temperature detector can be arrange | positioned with the operation switch of the ceiling fan provided in the indoor wall, and can adjust the rotational speed of a ceiling fan.

  However, providing the temperature detector on the wall requires wiring between the ceiling fan and the temperature detector, or provides wireless control, which complicates the ceiling fan.

  Therefore, an object of the present invention is to provide a ceiling fan capable of adjusting the rotation speed according to the room temperature with a simple configuration.

  In order to achieve this object, the present invention provides a connecting portion fixed to the ceiling, an electric motor arranged with a rotating shaft perpendicular to the lower portion of the connecting portion, and an ambient temperature detected at the lower portion of the electric motor. And a controller that estimates the room temperature based on the temperature detected by the temperature detector and drives the electric motor.

  Further, the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector according to the elapsed time from the start of operation.

  Further, the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector in accordance with the elapsed time from the stop of operation.

  Further, the control unit is characterized in that temperature detection is not performed within a predetermined time after the operation is stopped.

  Moreover, the estimated value of the indoor temperature detected for every fixed time is compared, The drive part which raises / lowers the driving | operation notch of an electric motor based on the change is provided.

  In addition, a notch correction unit that determines the number of operation notches of the electric motor to be switched when the estimated value of the indoor temperature changes by a predetermined temperature or more is provided.

  In addition, the motor operation notch is equipped with a notch correction unit that raises and lowers so as to maintain a sensory temperature corresponding to an estimated value of the indoor temperature when the operation notch of the motor set in advance and operation is started at the operation notch. It is.

  As described above, the present invention includes a connecting portion fixed to the ceiling, an electric motor arranged with a rotating shaft perpendicular to the lower portion of the connecting portion, and a temperature detector for detecting an ambient temperature at the lower portion of the electric motor. The ceiling fan includes a controller that estimates the room temperature based on the temperature detected by the temperature detector and drives the motor, and the controller estimates the room temperature based on the temperature detected by the temperature detector. By driving, the intended purpose of supplying a ceiling fan capable of adjusting the rotation speed according to room temperature with a simple configuration is achieved.

  According to the first aspect of the present invention, there is provided a connecting portion fixed to the ceiling, an electric motor arranged with a rotating shaft perpendicular to the lower portion of the connecting portion, and a temperature at which an ambient temperature is detected at the lower portion of the electric motor. A detector and a controller that estimates the room temperature from the temperature detected by the temperature detector and drives the motor, and the controller estimates the room temperature from the temperature detected by the temperature detector and By driving this, the intended purpose of supplying a ceiling fan that can adjust the rotation speed according to room temperature with a simple configuration is achieved.

  In the invention according to claim 2, the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector according to the elapsed time from the start of operation. By adjusting the temperature detected by the temperature detector according to the elapsed time from the start of operation by the unit, estimating the room temperature and driving the motor, the rotation speed is adjusted according to the room temperature with a simple configuration The purpose of supplying a ceiling fan that can be achieved is achieved.

  According to a third aspect of the present invention, the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector according to the elapsed time from the stop of operation. By correcting the temperature detected by the temperature detector according to the elapsed time from the stop of operation by the unit, estimating the room temperature, and driving the motor at the start of the next motor operation, the simple configuration This achieves the intended purpose of supplying a ceiling fan whose rotation speed can be adjusted according to the room temperature.

  The invention according to claim 4 is characterized in that the control unit does not detect the temperature within a predetermined time from the stop of operation, and eliminates the influence of a rapid temperature change immediately after the stop of operation. The room temperature is estimated, and the intended purpose of supplying a ceiling fan capable of adjusting the rotation speed according to the room temperature with a simple configuration is achieved.

  The invention according to claim 5 includes a drive unit that compares estimated values of the indoor temperature detected at regular time intervals and raises or lowers the operation notch of the electric motor based on the change, and at regular time intervals. It is possible to detect the change by comparing the estimated values of the indoor temperature detected at the same time, and to adjust the operation notch of the motor based on the change, and the rotation speed according to the room temperature with a simple configuration This achieves the intended purpose of supplying a ceiling fan that can be adjusted.

  The invention described in claim 6 is provided with a notch correction unit that determines the number of operating notches of the electric motor to be switched when the estimated value of the indoor temperature changes by a predetermined temperature or more. The number of operating notches of the motor to be switched according to the estimated temperature change is determined and the operating notch of the motor is switched, and a ceiling fan that can adjust the rotation speed according to room temperature with a simple configuration is supplied. It achieves the intended purpose.

  According to the seventh aspect of the present invention, the operation notch of the electric motor is raised and lowered so as to maintain a sensible temperature corresponding to the preset value of the operation notch of the electric motor and the estimated value of the indoor temperature when the operation is started at the operation notch. The notch correction unit corrects the driving notch to maintain the temperature of the motor notch that is set even if the room temperature changes. This achieves the intended purpose of supplying a ceiling fan whose rotation speed can be adjusted according to the room temperature.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
As shown in FIG. 1, the ceiling fan is attached to the ceiling.

  The ceiling fan main body 1 includes, for example, five blades 2 and an electric motor 3 that rotates the blades. As shown in FIG. 2, the ceiling fan main body 1 includes a connecting portion 4 that is fixed to the ceiling, an outer rotor-type electric motor 3 that is vertically suspended from the connecting portion 4, and an outer peripheral side of the electric motor 3. The blade 2 directly connected to the rotor 3A, and the control board 5 arranged on the inner peripheral side of the position of the rotor 3A of the electric motor 3 are provided.

  The control board 5 includes a temperature detector 6 that detects the ambient temperature on the side close to the outer periphery of the electric motor 3, and a control unit 7 that controls the operation of the electric motor 3 based on the temperature detected by the temperature detector 6. Place.

  Further, as shown in FIG. 3, the control unit 7 stores in advance a temperature rise storage unit 8 in which temperature rise data during operation of the electric motor 3 is stored in advance, and the detected temperature of the temperature detector 6 in the temperature rise storage unit 8. A temperature correction unit 9 that corrects the detected temperature based on the data to estimate the indoor temperature, and a drive unit that determines the operating rotational speed of the electric motor 3 from the indoor temperature estimated by the temperature correction unit 9 and operates the electric motor 3 10.

  That is, as shown in FIG. 2, the ceiling fan includes a connecting portion 4 fixed to the ceiling, an electric motor 3 arranged with a rotating shaft perpendicular to the lower portion of the connecting portion 4, and a lower portion of the electric motor 3 at the periphery. A temperature detector 6 that detects the temperature and a controller 7 that drives the electric motor 3 by estimating the room temperature based on the temperature detected by the temperature detector 6 are provided.

  An upper cover 11 is provided from the upper side of the electric motor 3 and a decoration cap 12 is provided from the lower side so as to cover the electric motor 3, the rotor 3A, and the entire control board 5.

  That is, the temperature detector 6 is disposed inside the decoration cap 12.

  Further, the temperature correction unit 9 is configured to correct the temperature detected by the temperature detector 6 by associating the elapsed time from the start and stop of the operation of the motor 3 with the temperature increase data. That is, the control unit 7 corrects the temperature detected by the temperature detector 6 according to the elapsed time from the start of the operation of the ceiling fan, and detects it with the temperature detector 6 according to the elapsed time from the operation stop. A temperature correction unit 9 for correcting the temperature is provided.

  Furthermore, the control unit 7 does not detect the temperature within a predetermined time from the stop of operation.

  In the above configuration, when the ceiling fan, that is, the electric motor 3 is operated, the electric motor 3 is arranged inside the upper cover 11 and the decoration cap 12. Appears prominently.

  Since the temperature detector 6 is disposed inside the decoration cap 12, as shown in FIG. 4, the detected temperature Ts rises while being influenced by heat generated by the electric motor 3 with respect to the room temperature Tr. In the present embodiment, as shown in the flowchart of FIG. 5, when a certain time has elapsed (Step 1), the ambient temperature is detected by the temperature detector 6 (Step 3). Then, temperature rise data during operation of the electric motor 3 is stored in the temperature rise storage unit 8 in advance, and the detected temperature is corrected according to the elapsed time from the start of the operation to estimate the indoor temperature (Step 4). ). That is, since the temperature detected by the temperature detector 6 is detected to be higher than the room temperature due to the influence of heat generated by the electric motor 3, the temperature correction unit 9 calculates the temperature increase value stored in the temperature increase storage unit 8 from the detected temperature. By subtracting, the indoor temperature is estimated, and the drive unit 10 can switch the rotation of the electric motor 3 in accordance with the estimated indoor temperature (Step 5).

  In addition, when the ceiling fan, that is, the electric motor 3 is stopped, the air flowing by the action of the blade 2 of the ceiling fan is stopped. Under this influence, as shown in FIG. 4, the temperature detected by the temperature detector 6 rapidly rises even though the room temperature has not changed. Therefore, in the present embodiment, the controller 7 does not take in the detected temperature of the temperature detector 6 (shown in Step 2) for a predetermined time t1 from the stop of the electric motor 3 so that the estimation of the indoor temperature does not go wrong. The room temperature can be easily estimated from the detected temperature of the detector 6.

  Then, the controller 7 corrects the detected temperature according to the detected temperature of the temperature detector 6 and the elapsed time from the shutdown by the action of the temperature corrector 9 after the predetermined time t1 has elapsed, and the room temperature. Is estimated (Step 6).

  Moreover, as shown in FIG. 4, the operation of the electric motor 3 is stopped, and the temperature of the electric motor 3 does not fall to the room temperature for a while. For example, when the operation of the electric motor 3 is started again at the point A in FIG. 4 (after t1 time has elapsed since the operation stop), and again at the point B (after t1 + 4 × t2 hours have elapsed from the operation stop in the example in the figure) The temperature detected by the temperature detector 6 differs from when the operation is started. For this reason, it is difficult to estimate the room temperature only with the elapsed time from the start of operation. Thus, as in the present embodiment, Step 1 to Step 3, Step 6, and Step 1 shown in FIG. 5 are repeated. As a result, the control unit 7 continues to estimate the room temperature by correcting the temperature detected by the temperature detector 6 while performing the temperature correction by the temperature correction unit 9 based on the elapsed time from the operation stop even after the operation is stopped. That is, the above-described configuration of the control unit 7 can facilitate the temperature correction based on the elapsed time from the start of operation after the start of the next operation.

  As described above, even if the temperature detector 6 is arranged in the ceiling fan main body 1, the control unit 7 can detect the room temperature by correcting the influence of the heat generated by the electric motor 3, and according to the room temperature. The ceiling fan is operated and a comfortable space can be provided according to the room temperature.

  That is, the temperature detector 6 can be simply configured to be provided in the ceiling fan main body 1 and can be operated by appropriately switching the air volume according to the room temperature.

  In the present embodiment, the indoor temperature is estimated by the temperature correction unit 9 based on the temperature rise data during operation of the electric motor 3 in advance in the temperature rise storage unit 8 with respect to the temperature detected by the temperature detector 6. However, even if a correction value based on the temperature rise data of the electric motor 3 is prepared in advance and the correction value is added to the detected temperature every predetermined time from the start or stop of operation, there is no difference in the effect.

(Embodiment 2)
As described above, the technique for estimating the room temperature of the present invention has been described. Hereinafter, embodiments of the wind speed control of the ceiling fan of the present invention will be described. In order to facilitate understanding, the detailed description of the same configuration as that of the first embodiment will be simplified.

  That is, as shown in FIG. 6, the control unit 7 includes the temperature correction unit 9, the temperature rise storage unit 8, and the drive unit 10 of the first embodiment, and further reads the temperature read by the temperature detector 6. Unit 13, an operation notch setting unit 15 that sets an operation notch of the electric motor 3 in advance in a main control unit 14 to be described later, and a change in indoor temperature is estimated (change value ΔT) from an estimated value of the room temperature at regular intervals. And a notch correction unit 16 that calculates a correction value of the operation notch of the electric motor 3.

  As shown in FIG. 6, the notch correction unit 16, for example, uses the estimated indoor temperature change value and the estimated indoor temperature value (estimated indoor temperature value detected at the previous time) as the reference of the electric motor 3. It has a table which calculates the correction value of an operation notch. In FIG. 6, the change value ΔT treats a change value equal to or less than a predetermined value as “0”. Further, this table stores notch correction values of the motor 3 based on the wind speed that maintains the initial sensible temperature even when the room temperature changes.

  The main control unit 14 has a configuration in which a correction value of the notch correction unit 16 is added to the operation notch of the operation notch setting unit 15 and an operation notch signal is transmitted to the drive unit 10. In addition, it has a clock inside and generates a reading trigger signal at regular intervals to cause the temperature reading unit 13 to read the temperature detected by the temperature detector 6 and to correct the temperature correction unit 9 from the temperature rise storage unit 8. It has a configuration for sending a value and receiving an estimated value of the room temperature from the temperature correction unit 9. In addition, the estimated value Tn of the indoor temperature detected at regular intervals and the estimated value Tn-1 of the indoor temperature detected at the previous time are distinguished and output to the notch correcting unit 16. To do.

  In the above configuration, when receiving the operation start command, the main control unit 14 first outputs a reading trigger signal to the temperature reading unit 13 as shown in Step 1 of FIG. Then, as in Step 2, the temperature reading unit 13 reads the temperature detected by the temperature detector 6. The temperature correction unit 9 corrects the detected temperature read by the temperature reading unit 13 using the correction value sent from the temperature rise storage unit 8 by the action of the main control unit 14. The corrected detected temperature is read into the main controller 14 as the estimated indoor temperature T0 at the start of operation. Further, the main control unit 14 outputs the operation notch set in advance by the operation notch setting unit 15 to the drive unit 10 and starts the operation of the electric motor 3 as shown in Step 3.

  Then, when a certain time of Step 4 has elapsed, a reading trigger signal is output again from the main control unit 14 to the temperature reading unit 13 as shown in Step 5. Similarly, the main control unit 14 reads the estimated value Tn of the room temperature after a certain time from the temperature correction unit 9. Then, the estimated value T0 of the room temperature at the start of operation and the estimated value Tn of the room temperature after a certain time are sent to the notch correction unit 16, and the notch correction unit 16 changes as a difference between them as shown in Step 7. The value ΔT is calculated, and as shown in Step 8, the notch increase / decrease value of the motor 3 is calculated from the estimated value T0 of the room temperature at the start of operation and the change value ΔT. (In FIG. 7, Tn-1 is used instead of T0. T0 is set as the initial value of Tn-1.) Then, the notch increase / decrease value of the electric motor 3 is transmitted to the main control unit 14. The main control unit 14 sends a signal to the drive unit 10 by adding the notch increase / decrease value to the current operation notch. As a result, the drive unit 10 adjusts the operation notch of the electric motor 3 according to the change in the room temperature (Step 9). Thereafter, the operation notch of the motor 3 is adjusted in accordance with the change in the room temperature from the estimated value of the room temperature in the same manner at regular intervals. In this way, the notch correction unit 16 determines the increase / decrease value of the notch of the electric motor 3 from the estimated value Tn-1 of the room temperature and the change value ΔT, and accordingly, according to the change in the room temperature, as shown in FIG. The operation notch of the ceiling fan can be adjusted. With respect to the operation notch set in the operation notch setting unit 15 in advance, even if the room temperature changes, the rotation of the ceiling fan is adjusted and the sensible temperature is determined by the wind speed. Can be maintained within the width of. In particular, it is possible to detect the occurrence of a sudden drop in the room temperature, such as when the air conditioner is turned on, and to operate the ceiling fan.

  In the present embodiment, an example has been described in which the indoor temperature is estimated and control is performed to raise and lower the operation notch of the electric motor 3 in accordance with the change. However, the temperature detector 6 is provided near the indoor wall. In addition, by adjusting the content of the wind speed control of the ceiling fan according to this embodiment, it is possible to adjust the user's sensible temperature within a predetermined range.

  In the present embodiment, the configuration in which the operation notch of the electric motor 3 is set in advance by the operation notch setting unit 15 has been described. However, the user prefers this setting, that is, the configuration in which the user sets the operation notch according to the desired temperature of experience The ceiling fan that can be operated more comfortably can be provided. Then, when the operation notch is changed during the operation, the operation notch during operation may be slid to correct the subsequent operation notch as shown in FIG.

(Embodiment 3)
Hereinafter, another embodiment of the wind speed control of the ceiling fan of the present invention will be described. The present embodiment differs from the second embodiment in the estimated indoor temperature value as a reference. That is, in the second embodiment, the change value ΔT is obtained by performing an operation of subtracting from the latest estimated indoor temperature value Tn on the basis of the previously detected estimated indoor temperature value Tn−1. The embodiment differs in that the reference value for the estimated value of the room temperature from the next time is used as a new reference value Td when the change value ΔT exceeds a predetermined value.

  With the above configuration, as shown in the flowchart of FIG. 10, the notch correction unit 16 subtracts the preset indoor temperature estimated value (reference value) Td from the estimated indoor temperature Tn newly detected in Step 7. Thus, the change value ΔT of the room temperature is detected. If the change value is equal to or greater than the predetermined value, the process proceeds from Step 8 to Step 9, and the notch increase / decrease value of the motor 3 is calculated from Td and the change value ΔT in the same manner as in the second embodiment. Next, the main control unit 14 receives the increase / decrease value of the notch from the notch correction unit 16 and corrects the operation notch as shown in Step 10. As a result, as shown in Step 11, the operation notch of the electric motor 3 is switched. Thereafter, the latest estimated value Tn of the room temperature is stored (updated) in the main control unit 14 as the reference value Td (Step 12).

  If the change value ΔT of the Step 8 room temperature is smaller than the predetermined value, the process returns to Step 4 and again waits for a certain period of time.

  As described above, when the change value ΔT becomes equal to or greater than a predetermined value, the operation notch of the electric motor 3 is changed and the room temperature is estimated by updating the room temperature reference value Td. Although the example which performs the control which raises / lowers the operation notch of the electric motor 3 according to the change was demonstrated, the temperature detector 6 was provided in the indoor wall vicinity, and the content of the wind speed control of the ceiling fan of this embodiment is described. It can also be adjusted to maintain the user's sensible temperature within a predetermined range. And in the example of this embodiment, compared with the example of Embodiment 2, when the indoor temperature changes slowly, it can be adjusted by following the operation notch of the ceiling fan according to the change, A comfortable space can be created by maintaining the temperature of the body with higher accuracy.

  In FIG. 10, when No is determined in Step 8, the return destination is between Step 3 and Step 4, but by changing the return destination to be between Step 4 and Step 5, after a certain time has passed in Step 4, the change is made. Monitoring may be constantly performed until the value ΔT becomes equal to or greater than a predetermined value and the operation notch of the electric motor 3 is changed.

  In the embodiment described above, the temperature detector 6 is disposed inside the decoration cap 12. However, as shown in FIG. 11, the slit 17 is provided on the decoration cap 12 at a position facing the temperature detector 6. By providing and improving the air permeability, the responsiveness of the temperature detector 6 to the change in the room temperature can be improved. In addition, the decoration cap 12 is made of metal (for example, aluminum having high thermal conductivity), so that it becomes easier to detect a change in the room temperature than in the case where it is made of resin, and the temperature detection with respect to the change in the room temperature. The responsiveness of the device 6 can be improved.

  As described above, the present invention includes a connecting portion fixed to the ceiling, an electric motor arranged with a rotating shaft perpendicular to the lower portion of the connecting portion, and a temperature detector for detecting an ambient temperature at the lower portion of the electric motor. A ceiling fan including a controller that drives the motor by estimating the room temperature based on the temperature detected by the temperature detector, and the controller drives the motor by estimating the room temperature based on the temperature detected by the temperature detector. Thus, a ceiling fan capable of adjusting the rotation speed according to room temperature with a simple configuration is supplied. Therefore, for example, it becomes extremely useful as a ceiling fan that performs operation control at room temperature.

The perspective view which shows the example of installation of the ceiling fan of Embodiment 1 of this invention Configuration diagram of the ceiling fan Configuration diagram of the control unit Diagram showing temperature detected by the same temperature detector A flowchart showing the algorithm of the control unit Configuration diagram of ceiling fan of the second embodiment A flowchart showing the algorithm of the control unit The figure which shows the operation example of the ceiling fan The figure which shows the example of operation at the time of performing the same air volume change The flowchart which shows the algorithm of the control part of the same Embodiment 3 The figure which shows the structure of the decoration cap and temperature detector of embodiment of this invention

DESCRIPTION OF SYMBOLS 1 Ceiling fan main body 2 Blade | wing 3 Electric motor 5 Control board 6 Temperature detector 7 Control part 8 Temperature rise memory | storage part 9 Temperature correction part 10 Drive part 11 Upper cover 12 Decoration cap 13 Temperature reading part 14 Main control part 15 Operation | movement notch setting part 16 Notch correction section

Claims (7)

A connecting part fixed to the ceiling, an electric motor arranged with a rotating shaft perpendicular to the lower part of the connecting part, a temperature detector for detecting the ambient temperature at the lower part of the electric motor, and a detection by the temperature detector A ceiling fan comprising: a controller that estimates a room temperature based on temperature and drives the electric motor. The ceiling fan according to claim 1, wherein the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector according to an elapsed time from the start of operation. The ceiling fan according to claim 1, wherein the control unit includes a temperature correction unit that corrects the temperature detected by the temperature detector in accordance with an elapsed time from the stop of operation. The ceiling fan according to claim 1, wherein the control unit does not detect the temperature within a predetermined time after the operation is stopped. The ceiling fan according to claim 1, further comprising a drive unit that compares estimated values of the indoor temperature detected at regular intervals and raises or lowers the operation notch of the electric motor based on the change. The ceiling fan according to claim 5, further comprising a notch correction unit that determines the number of operation notches of the electric motor to be switched when the estimated value of the indoor temperature changes by a predetermined temperature or more. The operation notch of the motor includes a notch correction unit that raises and lowers the motor notch so as to maintain a sensory temperature corresponding to a preset operation notch of the motor and an estimated value of the indoor temperature when the operation starts with the operation notch. The listed ceiling fan.

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