JP2012013261A - Control device of circulator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a control device of a circulator for uniformizing temperature distribution in a room.SOLUTION: A frame body 2 is disposed on a base 1; an air inlet 3 and an air outlet 4 are provided at back and front sides of the frame body 2; and a blast fan 5 is provided in the frame body 2. A room temperature detecting means 6 for detecting an indoor temperature, and an air volume control means 7 for controlling the number of rotations of the blast fan 5 are provided; and the air volume control means 7 is equipped with a plurality of air volume changing points P which are set for predetermined temperatures, respectively, and a control pattern N in which the number R of rotations of the blast fan 5 is determined corresponding to a temperature range T between the respective air volume changing points P. When the temperature detected by the room temperature detecting means 6 agrees with the air volume changing point P, the air volume control means 7 instructs the blast fan 5 to change the set number R of rotations, and operates the blast fan 5 in such a manner that the air volume is optimally suited for the room temperature.

Description

  The present invention relates to a method for controlling the air volume of a circulator that circulates room air.

  When operating air conditioning equipment such as an air conditioner or a stove alone, cool air gathers near the floor in the room during cooling and the temperature near the ceiling does not decrease, and warm air gathers near the ceiling in the room during heating. Since the temperature does not rise, a temperature difference occurs between the ceiling and the floor in the room. The circulator is used in combination with these air conditioning and heating equipment such as an air conditioner and circulates indoor air to reduce the temperature difference between the ceiling and floor in the room, thereby improving comfort during cooling and heating. Further, even if the set temperature of the cooling device is increased in summer and the set temperature of the heating device is decreased in winter, the room can be maintained at a comfortable temperature, which can contribute to improvement of energy saving.

  When the air flow of the circulator is changed manually, the air flow may not match the indoor temperature distribution. When the air flow is insufficient, the indoor air is not circulated and the temperature difference is not eliminated. On the other hand, when the air volume is large, the indoor air is circulated and the temperature difference can be eliminated. However, there is a problem of noise or unnecessarily wind, which may cause discomfort.

  Therefore, the circulator main body is equipped with a room temperature detection means, and when the room temperature reaches the set temperature, the fan is automatically operated / stopped and the air volume is controlled, and the air volume is adjusted according to the room temperature. By changing it, problems such as insufficient air volume and unnecessary air flow are solved (Patent Document 1).

In recent years, sensors that detect the temperature of the ceiling and floor of the room are provided, and the operation of the circulator is controlled by the temperature difference between the ceiling and the floor, and communication means are provided in the circulator and the air conditioning equipment. A device that controls the operation of the circulator in conjunction with the operation of the device has been proposed to ensure comfort and energy saving (Patent Document 2).
Registered Utility Model No. 3104900 Japanese Patent Laid-Open No. 8-270992

  If the circulator's airflow is set to change at a preset temperature, when the set temperature of the air conditioning equipment matches the set temperature of the circulator, or when there are many people going in and out and the room temperature changes frequently Sometimes, the air volume of the circulator is frequently changed, and changes in sound and air volume are frequently repeated, so that the operator may feel uncomfortable or the operator may misunderstand it as a failure.

  Also, those that work with the temperature difference between the floor and the ceiling or with air conditioning equipment require multiple temperature sensors and communication means with the air conditioning equipment, increasing the number of parts and manufacturing costs and making the product expensive. End up. The circulator is used as an auxiliary to air conditioning equipment, and since it is important to be inexpensive as a condition of purchase, it is difficult to put it to practical use, and it can respond to changes in room temperature while keeping production costs low. An air volume control method is required.

  The present invention solves the above-described problems, and includes an air intake port provided on the back surface of the frame body 2 provided with a base 1 installed on the floor and a frame body 2 disposed on the base 1. 3, an air outlet 4 formed on the front surface of the frame body 2, and a blower fan 5 disposed in the frame body 2, and the blower fan 5 enters the frame body 2 from the air intake port 3. In the circulator from which the taken-in air blows out from the air outlet 4, room temperature detecting means 6 for detecting the room temperature and air volume control means 7 for controlling the rotational speed of the blower fan 5 are provided. A control pattern N in which a plurality of air volume change points P set for each predetermined temperature and a rotation speed R of the blower fan 5 corresponding to a temperature range T between the air volume change points P are determined; The control means 7 is the room temperature detecting hand When the detected temperature of 6 matches with the air amount changing point P, and is characterized in that instructing a change of the rotational speed R set to the blower fan 5.

  Further, the air volume control means 7 is provided with a variable stop means 8 that operates for a predetermined time when the room temperature detected by the room temperature detection means 6 coincides with the air volume change point P. The air volume control means 7 includes the variable stop means 8. By maintaining the rotational speed R of the blower fan 5 for a predetermined time during operation and instructing the blower fan 5 to change the rotational speed R set after the variable stop means 8 stops operating, the room temperature is stabilized. Since the rotation speed R of the blower fan 5 changes, the air volume of the blower fan 5 does not change frequently.

  Further, the air volume control means 7 is provided with an air volume holding means 9 for holding the blower fan 5 at a preset rotation speed Ra for a predetermined time from the start of operation, and is controlled by the control pattern N after the operation of the air volume holding means 9 is stopped. By starting the control, the control by the control pattern N can be started after the temperature distribution in the room is made uniform.

  Further, the pattern storage means 10 provided with a plurality of control patterns N of the air volume control means 7 and the control pattern selection means 11 capable of selecting one of the plurality of control patterns N provided in the pattern storage means 10. And the control pattern N can be selected in accordance with the use environment.

  In addition, a reference air volume change point Ps is defined in the control pattern N, an air volume change point P is set for each predetermined temperature range T from the air volume change point Ps, and the temperature of the air volume change point Ps is selected. By providing the reference temperature setting means 12 that enables it, the air volume change point P can be set according to the set temperature of the air conditioning equipment, and the air volume of the blower fan 5 can be changed in response to the change in the room temperature by the air conditioning equipment. It became possible.

  Further, the air volume control means 7 is provided with a position detection means 13 for detecting the installation state of the main body, and when the installation method of the circulator is changed by selecting a different control pattern N according to the output signal of the position detection means 13 The optimum control pattern N is selected.

  In the present invention, the air volume control means 7 is a control in which a plurality of air volume change points P set for each predetermined temperature and the rotation speed R of the blower fan 5 corresponding to the temperature range T between the air volume change points P are determined. A pattern N is provided, and the rotational speed R of the blower fan 5 is controlled based on the temperature detected by the room temperature detecting means 6. When the detected room temperature of the room temperature detecting means 6 coincides with the air volume change point P, the rotation speed R set in advance is output to the blower fan 5 and is operated with the optimal air volume with respect to the room temperature. In addition, noise and discomfort caused by unnecessary airflow are not given, and the temperature distribution in the room can be made uniform.

  When the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P, the variable stop means 8 operates for a predetermined time, and the air volume control means 7 blows the change in the rotational speed R while the variable stop means 8 is operating. Without being output to the fan 5, the blower fan 5 keeps the rotational speed R as it is, and instructs the blower fan 5 to change the rotational speed R after the operation of the variable stop means 8 stops after a predetermined time has passed.

  By combining the time factor with the room temperature, even if the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P, the rotational speed R is not changed immediately, and the rotational speed of the blower fan 5 is stabilized after the room temperature is stabilized. Since the change of R was performed, the indoor air was reliably circulated and the indoor temperature distribution could be made uniform.

  In addition, when the air volume change point P and the set temperature of the air conditioner match, or when the room temperature temporarily changes due to the entry or exit of a person, the air volume change point P is repeatedly detected in a short time. However, in the present invention, when the air volume change point P is detected before the predetermined time of the variable stop means 8 elapses, the blower fan 5 maintains the same rotational speed R while the rotational speed of the blower fan 5 is maintained. Since R is not changed, comfort can be improved without causing discomfort due to changes in sound and air volume.

  In addition, since the air volume holding means 9 operates for a predetermined time from the start of operation and operates at a predetermined rotation speed Ra regardless of the room temperature, there is a temperature difference between the floor surface and the ceiling at the start of operation. However, since the indoor air is circulated and the control by the control pattern N is started after eliminating the temperature difference between the floor and the ceiling, the temperature distribution in the room can be made uniform in a short time.

  In addition, when the pattern storage means 10 is provided with a plurality of control patterns N so that an optimum one can be selected from the plurality of control patterns N, when used together with a cooling device, when used together with a heating device, or For example, when the circulator is used alone, the optimal control pattern N can be selected and used according to the indoor temperature change depending on the use conditions, and the effect of uniformizing the indoor temperature distribution can be expected.

  In addition, a reference air volume change point Ps is determined, and each air volume change point P is set for each predetermined temperature range T from the air volume change point Ps. The temperature can be changed by the reference temperature setting means 12. In this way, when the set temperature of the air conditioning equipment is changed, the air volume change point Ps is set in accordance with the set temperature of the air conditioning equipment, so that the ventilation fan 5 can be adjusted according to the change in the room temperature due to the set temperature of the air conditioning equipment. The air flow changes, and the blower fan 5 operates with an optimal air flow, and the effect of uniforming the temperature distribution in the room can be expected.

  Some circulators can be used not only on the floor but also on the wall, but the way of changing the room temperature differs between near the floor and near the ceiling. For this reason, since the air volume control means 7 is provided with the position detection means 13 for detecting the installation state of the main body and selects a different control pattern N according to the output signal of the position detection means 13, the installation method of the circulator has been changed. In some cases, the optimum control pattern N is selected according to the installation method, and when the installation method is changed, it is not necessary for the operator to select the control pattern N. The product can meet the demands of a wide range of users with different usage environments.

It is a block diagram which shows the structure of the circulator which shows the Example of this invention. It is a longitudinal cross-sectional view of the circulator which shows the Example of this invention. It is explanatory drawing which shows the relationship between the temperature of the circulator which shows the Example of this invention, and rotation speed.

  The present invention will be described with reference to the embodiments shown in the drawings. 1 is a base of a circulator, 2 is a frame installed on the base 1, 3 is an air intake port formed on the back surface of the frame 2, and 4 is a frame 2 An air outlet 2a formed on the front surface, 2a is an air flow path formed in the frame body 2 so that the air intake port 3 on the back surface of the frame body 2 and the air outlet 4 on the front surface of the frame body 2 communicate with each other. 2 is a blower fan composed of a propeller fan arranged in the air flow path 2a. When the blower fan 5 rotates, room air is sucked from the air intake port 3 on the back surface of the frame body 2, and the air blow on the front surface of the frame body 2 is blown. Blow out from the outlet 4 toward the front.

  14 is an operation switch for instructing operation / stop of the circulator, 15 is an air volume setting means for setting the air volume, 7 is an output signal from the operation switch 14 or the air volume setting means 15 and receives the output signal from the operation switch 14 or the air volume setting means 15 to For example, the air volume setting means 15 has four levels of “strong”, “medium”, “weak”, and “fine wind”, and the rotation speed R of the blower fan 5 is set to four levels corresponding to each air volume. Is set.

  When the operation switch 14 is operated and an operation start signal is output, the air volume control means 7 drives the blower fan 5 based on the air volume set by the air volume setting means 15. When the air volume setting means 15 is operated, the air volume control means 7 changes the rotational speed R of the blower fan 5. Further, when the operation switch 14 is operated during operation and an operation stop signal is output, the air volume control means 7 stops energization to the blower fan 5.

  Reference numeral 16 denotes an angle adjusting mechanism formed between the base 1 and the frame body 2, and the air blowing angle of the air outlet 5 on the front surface of the frame body 2 can be changed between the front side and the upper side. By directing the air outlet 5 on the front surface of the frame 2 obliquely upward or directly above by the adjustment mechanism 16, the indoor air is circulated by blowing air toward the upper space or ceiling of the room while the circulator is installed on the floor surface. Can do.

  When used in combination with air-conditioning equipment such as air conditioners in summer, the air outlet 4 on the front of the frame 2 is directed diagonally upward, making it easier for low-temperature air to circulate throughout the room and reducing the temperature difference between the floor and the ceiling. Without this, the room temperature can be made uniform. On the other hand, when used together with a heating device such as a stove in winter, warm air near the ceiling flows to the floor by blowing air toward the ceiling with the air outlet 4 on the front surface of the frame 2 facing directly above. Therefore, it becomes easy to circulate air, it is possible to prevent warm air from accumulating near the ceiling, and the temperature difference between the floor surface and the ceiling can be eliminated to make the room temperature uniform.

  Reference numeral 6 denotes a room temperature detecting means attached to the base 1, and detects the temperature of the room where the circulator is installed. The air volume control means 7 controls the manual operation mode for controlling the rotation speed R of the blower fan 5 based on the air volume set by the air volume setting means 15 and the rotation speed R of the blower fan 5 based on the detected room temperature of the room temperature detection means 6. Two operation modes of automatic operation mode to be controlled are provided. Reference numeral 17 denotes an operation mode selection means for switching between the two operation modes. When the operation mode selection means 17 is operated during manual operation, automatic operation is started, and when the operation mode selection means 17 is operated during automatic operation. Manual operation is started.

  When the automatic operation mode is started, the air volume control means 7 changes the rotation speed R of the blower fan 5 based on the detected room temperature of the room temperature detection means 6, but this invention changes the rotation speed R of the blower fan 5. Time is defined as the air volume change point P, the air volume change point P is set for each predetermined temperature, and the rotation speed R of the blower fan 5 is set in advance corresponding to the temperature range T between the air volume change points P. Reference numeral 18 is a comparison means provided in the air volume control means 7, and the comparison means 18 determines which temperature range T the temperature detected by the room temperature detection means 6 is in, and determines the rotational speed R of the blower fan 5. When the room temperature rises or falls and a different temperature range T is detected in accordance with the air volume change point P, the blower fan 5 is changed to the corresponding rotation speed R.

  In the embodiment, the temperature range lower than the airflow change point P0 is T0, the temperature range between the airflow change points P0 and P1 is T1, the temperature range between the airflow change points P1 and P2 is T2, and the temperature range higher than the airflow change point P2 T3 is set, and the rotation speeds in the temperature ranges T0, T1, T2, and T3 are set as R0, R1, R2, and R3, respectively. For example, when the temperature detected by the room temperature detecting means 6 is in the temperature range T2, the air volume control means 7 drives the blower fan 5 at the rotation speed R2, and the detected temperature of the room temperature detecting means 6 changes the air volume when the room temperature rises. When the point P2 is detected, the blower fan 5 is changed to the rotation speed R3, and when the room temperature decreases and the detected temperature of the room temperature detection means 6 detects the air volume change point P1, the blower fan 5 is changed to the rotation speed R1. The air volume of the blower fan 5 can be changed according to the change in room temperature.

  Reference numeral 10 denotes a pattern storage means provided in the air volume control means 7. A plurality of air volume change points P and a rotation speed R corresponding thereto are set as one control pattern N, and the air volume change is stored in the pattern storage means 10. A plurality of control patterns N having different settings of the rotational speed R of the blower fan 5 corresponding to the temperature of the point P and the temperature range T between the air volume change points P are provided. Reference numeral 11 denotes a control pattern selection unit that allows one of a plurality of control patterns N provided in the pattern storage unit 10 to be selected. When the control pattern selection unit 11 is operated, the control pattern is, for example, N1, N2, N3,. The selected control pattern N is output to the comparison means 18, and the air volume control means 7 controls the rotational speed R of the blower fan 5 based on the control pattern N selected by the control pattern selection means 11. The method of changing the room temperature differs during cooling and heating, but by setting a control pattern N that matches the operating conditions during cooling and heating, the rotational speed R of the blower fan 5 can be adjusted according to the temperature change in the room. Since it can be controlled, the temperature difference in the room can be suppressed and the temperature distribution in the room can be made uniform.

  In the embodiment, the control pattern N of the pattern storage means 10 includes a control pattern N1 corresponding to cooling, a control pattern N2 corresponding to heating, and a control pattern N3 corresponding to other independent operation.

  FIG. 3A shows a control pattern N1 at the time of cooling. Since the room temperature is high after the operation of the cooling device is started and the room temperature is lowered as it approaches the set temperature of the cooling device, the temperature is higher than the air volume change point P2. The number of revolutions R3 in the range T3 is “medium”, the number of revolutions R2 in the temperature range T2 between P2 and P1 is “weak”, and the number of revolutions R1 in the temperature range T1 between P1 and P0 is “ The rotational speed R0 at the temperature range T0 lower than Pow ”and P0 is set to“ stop ”. In this way, after the cooling device starts operating, if the temperature detected by the room temperature detecting means 6 is in the temperature range T3 higher than the air volume change point P2, the air volume of the blower fan 5 is set to “medium”, and the room temperature decreases. When the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P2, the air volume of the blower fan 5 is changed to “weak” corresponding to the temperature range T2. Thereafter, when the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P1, the air volume of the blower fan 5 is changed to “slight wind” corresponding to the temperature range T1, and the room temperature decreases to near the set temperature of the cooling device. When the detected temperature of the detection means 6 coincides with the air volume change point P0 and enters the temperature range T0, the blower fan 5 stops.

  In this way, when used together with a cooling device, when the room temperature after the start of use is high, the air flow of the blower fan 5 is increased to circulate cool air that tends to gather near the floor in the room near the ceiling, Since the temperature difference near the ceiling can be reduced and the temperature of the entire room can be lowered uniformly, the time required for the cooling equipment to detect the set temperature can be shortened, leading to improved energy savings. Further, since the air volume of the blower fan 5 is reduced or stopped after the room temperature is lowered, the generation of noise is suppressed and the discomfort caused by unnecessary air blowing is not given.

  FIG. 3B shows a control pattern N2 during heating. The room temperature is low after the operation of the heating device is started, and the room temperature increases as it approaches the set temperature of the heating device. The rotation speed R3 in the temperature range T3 is “stopped”, the rotation speed R2 in the temperature range T2 between the airflow change points P2 and P1 is “light wind”, and the temperature range T1 between the airflow change points P1 and P0 The rotational speed R1 is set to “weak”, and the rotational speed R0 is set to “medium” when the temperature range T0 is lower than P0. In this way, after the operation of the heating device is started, if the temperature detected by the room temperature detecting means 6 is a temperature range T0 lower than the air volume change point P0, the air volume of the blower fan 5 is set to “medium” and the room temperature rises. When the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P0, the air volume of the blower fan 5 is changed to “weak” corresponding to the temperature range T1. Thereafter, when the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P1, the air volume of the blower fan 5 is changed to “slight wind” corresponding to the temperature range T2, and the room temperature rises to the vicinity of the set temperature of the heating device. When the temperature detected by the detection means 6 coincides with the air volume change point P2 and enters the temperature range T3, the blower fan 5 stops.

  Thus, when used together with a heating device, when the room temperature after the start of use is low, the warm air that tends to gather near the indoor ceiling by increasing the air volume of the blower fan 5 is circulated near the floor surface. Since the temperature difference between the vicinity and the ceiling can be reduced and the temperature of the entire room can be increased uniformly, the time until the heating device detects the set temperature can be shortened, leading to improved energy savings. It was. Further, when the room temperature rises, the air volume of the blower fan 5 decreases or decreases, so that generation of noise is suppressed and uncomfortable feeling due to unnecessary airflow is not given.

  FIG. 3C shows an example of the control pattern N3 when the air-conditioning equipment such as spring or autumn is not used. In the control pattern N3, the air volume change points P0 and P1 are set, and the temperature range T2 is set wide. ing. The rotation speed R2 when the temperature range T2 is higher than the air volume change point P1 is “weak”, the rotation speed R2 when the temperature range T1 is between P1 and P0 is “light wind”, and the rotation speed when the temperature range T0 is lower than P0. When the number R0 is set to “stop” and the control pattern N3 is selected, it is assumed that the circulator is used alone. Stabilize and minimize changes in sound and air volume.

  The temperature of the air volume change point P of each control pattern N and the rotational speed R of the blower fan 5 set corresponding to the temperature range T are arbitrary, but when the room temperature does not change, the blower fan 5 has a high rotational speed R. There is a possibility of driving for a long time. For this reason, in the embodiment, by setting the maximum rotational speed during automatic operation to “medium” which is one step lower, it is possible to suppress the generation of noise when the room temperature does not change for a long time.

  Thus, by providing the control pattern N in which the rotation speed R of the blower fan 5 is determined corresponding to the temperature range T between the airflow change point P and the airflow change point P, the blower fan 5 is matched to the change in room temperature. Since the rotation speed R can be controlled, there is no air volume shortage and unnecessary air blowing, and the temperature distribution in the room can be made uniform. In addition, since a plurality of control patterns N having an air volume change point P and a rotation speed R of the blower fan 5 corresponding to how the room temperature changes during cooling and heating are prepared, the temperature distribution in the room is made uniform throughout the year. The effect of can be obtained.

  8 is a variable stop means with a built-in timer. When the temperature detected by the room temperature detecting means 6 coincides with the air volume change point P, the built-in timer is activated. The variable stop means 8 is activated only for the set time of the timer. The operation for changing the rotational speed of the blower fan 5 by the control means 7 is stopped. When the set time of the timer elapses and the variable stop means 8 stops, the air volume control means 7 instructs the blower fan 5 to change the corresponding rotation speed R.

  If the detected temperature of the room temperature detecting means 6 becomes different from the air volume change point P before the set time of the timer of the variable stop means 8 elapses, the timer is reset and counted. When the temperature detected by the room temperature detection means 6 coincides with the air volume change point P and the same temperature range T is maintained for the set time or longer, the air volume control means 7 does not change the rotational speed R of the blower fan 5 for the first time. To change.

  Since the circulator is used while being placed on the floor surface, the room temperature detection means 6 detects the temperature near the floor surface. However, since the temperature near the floor surface is likely to drop during cooling, the room temperature detection means 6 has an air volume. Even when the temperature corresponding to the change point P is detected, the temperature is high near the ceiling and the temperature difference between the floor surface and the ceiling may be large. If the rotational speed of the blower fan 5 is immediately reduced, the temperature difference is eliminated. It may take some time.

  In addition, when the room temperature is not stable because there are many people going in and out, or when the set temperature of the air conditioner is set near the air volume change point P, the detected temperature of the room temperature detecting means 6 is likely to change across the air volume change point P. Therefore, the air volume change point P may be frequently detected. At this time, if the rotation speed R of the blower fan 5 is frequently changed in a short time, the change in the air volume or sound is frequently repeated to give an unpleasant feeling or the user may misunderstand it as a failure.

  In the present invention, the rotational speed R of the blower fan 5 is maintained as it is for a set time after the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P, and the air is blown until the room temperature reaches the set temperature of the air conditioning equipment. Since the indoor air is circulated as much as possible by delaying the timing at which the rotational speed R of the fan 5 is reduced, the temperature difference between the floor surface and the ceiling can be reduced, and the temperature difference in the room can be reliably eliminated. Can be made uniform. Therefore, the time until the air conditioner detects the set temperature can be shortened, and energy saving can be improved.

  Further, even when the room temperature changes up and down across the air volume change point P due to the entry or exit of a person after the room temperature has stabilized near the set temperature of the air conditioning equipment, the air volume change point before the set time of the variable stop means 8 elapses. When P is detected, the rotational speed R of the blower fan 5 is maintained as it is, so that the air volume of the blower fan 5 is not frequently changed, and an unpleasant feeling due to a change in the air volume or sound is given. It is no longer considered a failure.

  Reference numeral 9 denotes an air volume holding means with a built-in timer. The air volume holding means 9 operates an internal timer when automatic operation is selected by the operation mode selection means 16, and the air volume holding means 9 operates for a set time of the timer. During the operation of the air volume holding means 9, the air volume control means 7 outputs a predetermined rotation speed R to the blower fan 5. When the set time elapses and the air volume holding means 9 stops, the air volume control means 7 starts operation based on the temperature detected by the room temperature detection means 6.

  After the operation of the circulator is started, the temperature difference between the vicinity of the floor and the ceiling may be widened. In this case, the temperature near the floor is detected lower than the vicinity of the ceiling. When the operation is performed based on the detected temperature, the rotational speed of the blower fan 5 may be set low even when the temperature in the vicinity of the ceiling of the room is high, and the temperature difference may not be resolved due to insufficient circulation of the room air.

  In the present invention, since the blower fan 5 is operated “low” and forcedly circulates the room air for a certain period of time from the start of operation regardless of the temperature detected by the room temperature detecting means 6, Since the control based on the temperature detected by the room temperature detection means 6 is started after the temperature distribution in the room is made uniform by reducing the difference, it is possible to eliminate the temperature difference in a short time and make the temperature distribution in the room surely uniform. It became a thing. In the embodiment, in order to suppress noise, the air volume set by the air volume holding means 9 is set to “weak”, but this air volume may be “strong” or “medium”.

  By the way, when the set temperature of the cooling device is set higher than the air volume change point P0 or when the set temperature of the heating device is set lower than the air volume change point P2, the room temperature becomes the set temperature of the air conditioning equipment. However, the air volume of the blower fan 5 may not decrease. Further, when the set temperature of the cooling device is set lower than the air volume change point P0, or the set temperature of the heating device is set higher than the air volume change point P2, the air volume change point P and the set temperature of the air conditioning equipment When the temperature difference is large, the rotational speed R of the blower fan 5 may decrease or stop at an early stage.

  In another embodiment of the present invention, a reference air volume change point Ps is determined, and each air volume change point P is set based on the air volume change point Ps. Reference numeral 12 denotes reference temperature setting means for changing the air volume change point P. When a desired temperature is input by the reference temperature setting means 12, the temperature of the air volume change point Ps is changed. Even if the reference air volume change point Ps is changed, the temperature range T between the air volume change points P is not changed. When the temperature of the reference air volume change point Ps is changed to a higher value, the temperature of each air volume change point P is also increased by the increased amount, and when the temperature of the reference air volume change point P is changed to a lower value, The temperature of the air volume change point P is also lowered.

  In the control pattern N1, the reference air volume change point is P0, and in the control pattern N2, the reference air volume change point is P2. Therefore, in the case of the control pattern N1 at the time of cooling, if the air volume change point Ps is set to the set temperature of the air conditioning equipment, the air volume change point P0 matches the set temperature of the air conditioning equipment, and at the time of the control pattern N2 at the time of heating. If the air volume change point Ps is set to the set temperature of the heater, the air volume change point P2 matches the set temperature of the heater.

  If the reference temperature of the air volume change point Ps is set in accordance with the set temperature of the air conditioning equipment, the air volume of the blower fan 5 is surely reduced or stopped when the air temperature setting temperature is reached. The change in the air volume of the fan 5 can coincide with the set temperature of the air conditioning equipment, and the comfort can be improved.

  When the circulator is used with a heater, when it is placed on the floor surface, the air outlet 4 is directed straight up and the air is blown out toward the ceiling. There is a demand to install and use at a high place near the ceiling. In this case, the method of temperature change is different between the floor and the ceiling, so a wall-mounted control pattern is required.However, if the number of control patterns is simply increased, the operator may make a mistake in setting or which control pattern is selected. You may not know what to choose.

  Reference numeral 13 denotes a position detection means constituted by an inclination sensor provided in the base 1, which detects when it is installed on the floor and when it is turned on the wall and outputs a different signal to the air volume control means 7.

  The pattern storage means 10 is provided with a control pattern N2a for hanging on the wall. When the operator selects the control pattern N2 by the control pattern selection means 11, the position detection means 13 outputs a signal when the floor is placed. The control pattern N2 is set when outputting, and the control pattern N2a is set when the position detecting means 13 is outputting a signal for hanging.

  Different control is performed by the output signal of the position detection means 13 even with the same control pattern N2, and FIG. 3 (d) shows a control pattern during heating when the position detection means 13 outputs a signal when hanging on the wall. N2a, the rotation speed R3 when the temperature range T3 is higher than the air volume change point P2 is "medium", the rotation speed R2 when the temperature range T2 between P2 and P1 is "weak", between P1 and P0 The rotational speed R1 at the temperature range T1 is set to “light wind”, and the rotational speed R0 at the temperature range T0 lower than P0 is set to “stop” so that the reverse control is performed when the floor is placed and when the wall is mounted. ing.

  The room temperature is low after the operation of the heating device is started, and the blower fan 5 is stopped when the temperature detected by the room temperature detecting means 6 is in the temperature range T0. When the room temperature rises and the detected temperature of the room temperature detecting means 6 coincides with the air volume change point P0, the air volume of the blower fan 5 is changed to “slight wind”, and the air near the ceiling is circulated toward the floor surface. Further, when the room temperature rises and the detected temperature coincides with the air volume change point P2, the air volume of the blower fan 5 is changed to “medium”. Since the temperature near the ceiling rises earlier than the floor during heating, circulating the warmed air gathered near the ceiling near the floor by increasing the air volume of the blower fan 5 when the room temperature rises It is easy to make the temperature distribution in the room uniform.

  In this configuration, the operator does not need to select the control pattern N2, and the air volume control means 7 automatically sets the control pattern N based on the output of the position detection means 13, so that the control pattern N is erroneously set. In addition, it is easy to handle without being wondering which control pattern N should be set.

DESCRIPTION OF SYMBOLS 1 Base 2 Frame 3 Air intake port 4 Air blower outlet 5 Air blower fan 6 Room temperature detection means 7 Air volume control means 8 Variable stop means 9 Air volume holding means 10 Pattern storage means 11 Control pattern selection means 12 Reference temperature setting means 13 Position detection means

Claims (6)

A base (1) installed on the floor, and a frame (2) disposed on the base (1);
An air inlet (3) formed on the back surface of the frame (2), an air outlet (4) formed on the front surface of the frame (2), and a blower fan disposed in the frame (2) (5)
In the circulator in which the air taken into the frame (2) from the air intake (3) by the blower fan (5) blows out from the air outlet (4),
Room temperature detection means (6) for detecting the room temperature;
An air volume control means (7) for controlling the rotational speed of the blower fan (5),
The air volume control means (7) has a plurality of air volume change points P set for each predetermined temperature, and a rotational speed R of the blower fan (5) corresponding to a temperature range T between the air volume change points P. Provided control pattern N,
The air volume control means (7) instructs the blower fan (5) to change the set rotational speed R when the detected temperature of the room temperature detection means (6) coincides with the air volume change point P. A circulator control device. The air volume control means (7) is provided with variable stop means (8) that operates for a predetermined time when the room temperature detected by the room temperature detection means (6) coincides with the air volume change point P,
The air volume control means (7) maintains the rotational speed R of the blower fan (5) for a predetermined time during which the variable stop means (8) is operating, and the rotational speed set after the variable stop means (8) stops operating. The circulator control device according to claim 1, wherein a change of R is instructed to the blower fan (5). The air volume control means (7) includes air volume holding means (9) for holding the blower fan (5) at a preset rotation speed Ra for a predetermined time from the start of operation,
3. The circulator control device according to claim 1, wherein the control by the control pattern N is started after the operation of the air volume holding means (9) is stopped.   A pattern storage means (10) provided with a plurality of control patterns N of the air volume control means (7), and a control for selecting one of the plurality of control patterns N provided in the pattern storage means (10). 4. The circulator control device according to claim 1, further comprising pattern selection means (11).   In the control pattern N, a reference air volume change point Ps is determined, an air volume change point P is set for each predetermined temperature range T from the air volume change point Ps, and the temperature of the air volume change point Ps can be selected. 5. The circulator control device according to claim 1, further comprising a reference temperature setting means (12) for performing the control. The air volume control means (7) is provided with position detection means (13) for detecting the installation state of the main body,
6. The circulator control device according to claim 1, wherein a different control pattern N is selected depending on an output signal of the position detecting means (13).

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