JPH01301998A - Air conditioner - Google Patents

Abstract

PURPOSE:To suppress incompatible sound caused by a variation in sound pressure level by controlling the change rate of rotational speed at the time of controlling decrease in rotational speed by means of a characteristic slower than that for controlling the change rate of rotational speed at the time of controlling increase in rotational speed. CONSTITUTION:The rotation change speed control circuit of a slow acceleration control system 10A comprises a slow acceleration control circuit 11 and a slow acceleration constant setting circuit 12 and the rotation change speed control circuit of a slow deceleration control circuit 10B comprises a slow deceleration control circuit 13 and a slow deceleration constant setting circuit 14. A rotational speed change by means of a rotation speed control means 4 at the time of rotational speed variable control is made slower than the prescribed change rate and also a change rate of rotational speed per unit time at the time of controlling decrease in rotational speed is made smaller than that for controlling increase in rotational speed.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an air conditioner that controls air conditioning capacity by variably controlling the rotational speed of a blower.

(Prior Art) Conventionally, air conditioning capacity control systems that control the air conditioning capacity of an air conditioner itself by variable control of the rotational speed of an air conditioner, especially an indoor unit side blower, have been widely adopted.

(Problem to be solved by the invention) However, the conventional blower drive motor (fan motor)
Generally, a so-called full-voltage starting method is adopted by Masato starting (line start), and the started blower rapidly increases its rotation speed with an IT current several times the rated value, and the motor itself generates considerable air blowing noise as well as driving noise. This air blowing noise is caused by periodic pressure fluctuations that occur in the space due to the movement of the rotor blades, and is generally normal! The noise will be in the jl area.

Since this noise suddenly changes from a previously quiet state, it acts as a particularly loud irritating sound to the adaptive characteristics of human hearing, causing psychological pressure on the user. , there are problems that cause discomfort.

A similar situation also occurs when the operation of the blower is stopped. That is, during steady operation, the air blowing sound having a fairly constant and constant sound pressure level is generated, and the user's hearing is adapted to the air blowing sound having a constant sound pressure level. Therefore, the blowing sound in this state does not act as an auditory stimulation sound, and the user hardly feels any discomfort or discomfort. From the perspective of sensory psychology, this state can be seen as a kind of attenuation of the loudness level.

However, on the other hand, the blower suddenly stopped operating (O
FF) When the blower sound suddenly stops, all that remains is the background noise in the room with almost no auditory stimulation, and this time, on the contrary, the lack of sound makes me feel an indescribable psychological anxiety. become.

This situation occurs not only when the air conditioner is started and stopped according to the user's will, but also when the blower is turned on, for example, by thermo control for adjusting the fundamental tone.

It is exactly the same in the case of OFF control, and the 0N-OFF
In the case of control, the above-mentioned problem can be said to be even more serious because the ON/OFF state is generally repeated frequently regardless of the user's intention.

Also, from a relative point of view, compared to the sense of discomfort and discomfort caused by changes in the sound pressure level of the blower noise when the rotation speed of the blower increases, the sound pressure of the blower noise when the rotation speed decreases. There are also circumstances in which the discomfort and discomfort felt by level changes is greater.

(Means for Solving the Problems) The present invention has been made for the purpose of solving the above problems, and as illustrated in FIG. In an air conditioner comprising an air blower l and a rotation speed control means 4 that arbitrarily variably controls the rotation speed of the blower 1, the rotation speed change during the rotation speed variable control by the rotation speed control means 4 is changed by a predetermined value. In addition, the rotation speed change rate per unit time during rotation speed reduction control is made smaller than the same rotation speed change rate during rotation speed increase control.

(Function) In the above configuration of the present invention, the cooling, heating, dehumidifying, air purifying, etc. abilities of the air conditioner can be controlled arbitrarily by controlling the rotational speed of the blower 1 arbitrarily and variably by the rotational speed control means 4. , maintained in a comfortable air-conditioned state.

In the variable control of the rotation speed of the blower l, firstly, the rotation speed change rate itself during the rotation speed variable control is made warmer with a smaller change rate than before as a general characteristic, and furthermore, when the rotation speed increase control is performed, the rotation speed change rate itself is made warmer. Compared to the rate of change in the rotational speed, the rate of change in the rotational speed during the rotational speed reduction control is controlled using warmer characteristics. Therefore, the rise in the noise level when controlling the rotation speed increase at the time of starting, etc., is in line with the adaptive characteristics of the auditory sense, and the user does not feel so strange, and at the same time, the rotation speed is reduced, which is particularly psychologically stimulating. Since the fall in the noise level during control is more easily adapted to the auditory senses, the air conditioning ability and control of the air blowing sound can be achieved so that the user does not feel any discomfort when the fan rotation speed increases or decreases. It becomes possible.

(Effects of the Invention) According to the above configuration of the present invention, it is possible to provide an air conditioner that is substantially quiet and has good sound quality characteristics, and the marketability of the air conditioner itself is improved. Greatly improved.

Furthermore, it becomes possible to more effectively utilize the features and benefits of relatively simple and low-cost air conditioning capacity control systems that control the rotational speed of blowers, such as inverter controls, which have been recently adopted in most air conditioners.

(Example) FIG. 1 shows the configuration of an air conditioner according to an example of the present invention.

In FIG. 1, the reference numeral 1 indicates, for example, a rotor-blade type turbo-type blower built in the indoor unit casing of the air conditioner, and the fan 1a of the blower 1 is, for example, a line-start type squirrel-cage induction blower. It is rotatably driven by a fan motor 2 made of an electrically conductive motor.

Further, between the drive voltage (current) input terminal of the fan motor 2 and the commercial power source 3, there is a rotation speed control means 4 for the fan motor 2, which is constituted by, for example, a Cyrisk inverter circuit configured by combining a Cyrisk forward conversion device. It is connected. This rotation speed control means 4 first converts the power frequency (50/60H2) of the commercial power source 3 into DC using the thyristor converter, and then converts it back into variable frequency AC using the main thyristor inverter. The rotation speed of the fan motor 2 (in other words, the fan l
(also the rotational speed of a) is variably controlled.

As a result, the rotational speed of the fan la of the blower l can be arbitrarily controlled, and the performance of the air conditioner can be controlled.

On the other hand, the rotational speed control means 4 is connected to two systems of rotational speed change speed control circuits, a slow speed increase control system 10A and a slow deceleration control system 10B, for controlling the inverter frequency. The rotational change speed control circuit of the slow speed increase control system 10A is first comprised of a slow speed increase control circuit 11 and a slow speed increase constant setting circuit 12, while the rotation speed change control circuit of the slow speed increase control system 1OB is configured to include a slow deceleration control circuit 13 and a slow deceleration constant setting circuit 14.

Furthermore, these two different control system circuits 10A.

10B is connected to the blower control unit 16 and the air conditioner control unit 1 via the changeover switch 15.
7 can be alternatively connected.

Furthermore, the temperature t detected by the room temperature sensor 20 is input to the air conditioner control unit 17.
Based on the detected temperature t, the fan rotation speed n of the blower l is controlled as described later to adjust the air conditioning function, and the setting room 1j is
It functions to maintain Lts(t,<ts<t,) (see FIG. 4).

By the way, the slow speed increase constant setting circuit 12 of the slow speed increase control system circuit 10A is configured to have a predetermined setting value memory, for example (a) fan rotation speed n for starting slow speed increase control, setting The inverter frequency fo, (b
) The increasing speed of the inverter frequency ft (variable increasing control speed of the frequency f) Vl, u, etc. for the slow speed increasing control are stored in memory. The rising speed Vf+u of this inverter frequency f is, for example, as shown in the characteristics of FIG.
After the fan motor 2 starts operating and reaches a predetermined rotation speed n1, the fan motor 2 starts to rotate at a steady rotation speed n that targets the rotation speed n of the blower l at a sound pressure level change rate of about 3 dBA/10 seconds that does not cause the user to feel any irritating sound. This corresponds to a frequency variable control speed that increases to several numbers. Then, the slow speed increase control circuit 11 performs normal motor rotation speed control until the slow speed increase control starting fan rotation speed n and the setting inverter frequency f, which are set by the slow speed increase constant setting circuit 12, are reached. (starting control) to obtain sufficient starting torque.

Next, when the fan rotation speed n of the blower I eventually reaches the slow speed increase control start rotation speed n+ (approximately 40 dBA at the sound pressure level generated by the blower I), the inverter frequency f is slowed down. The change in the sound pressure level of the sound generated by the blower can be made small to a predetermined rate of change of 3 dBA/10 seconds or less by controlling the variable frequency speeds Vr and u corresponding to the speed increase control much more slowly than before. , the fan rotation speed n is increased to the steady rotation speed n while maintaining the change characteristics that match the adaptation characteristics of the user's hearing so as not to cause psychological pressure or discomfort (see FIG. 2).

On the other hand, contrary to the above case, in the operating state at the above-mentioned steady rotation speed no (in this state, the user's hearing is completely adapted to the sound generated by the blower l at a stable constant sound pressure level, Although the noise level of the air conditioner is quite high, there is almost no discomfort or discomfort). As the fan rotation speed n rapidly decreases, the air blowing noise also decreases rapidly.

By the way, in this case, as mentioned above in connection with the prior art, the adaptation characteristics of the human auditory sense and the psychological phenomenon of the human being in response to sound stimulation generally depend on whether the volume/sound pressure level increases or
The degree of discrimination is higher when there is a decrease or decrease than when there is an increase, and it is easy to feel anxious (for example, the Acoustical Society of Japan, May 1975 Lecture Proceedings, p. 171) ~Refer to the Osaka University article ``On the Perception of Sound Loudness Growth and Attenuation'' on page 172).

Therefore, in the configuration of the embodiment of the present invention, when the fan rotation speed n of the blower l is reduced in some way, the changeover switch 15 is always set to the slow deceleration control system circuit 10B. 3, and slow deceleration control as shown in the characteristics shown in FIG. 3 is performed.

That is, the slow deceleration constant setting circuit 14 is equipped with a predetermined set value memory means, and first, the variable decreasing speed Vl, D of the inverter frequency f for performing (+) slow deceleration control, and (2) The fan rotation speed 13 (n3=n+) for stopping the slow deceleration control is stored in memory. In this case, the variable rate of decrease vrtp of the inverter frequency f is, for example, as shown in the characteristics of FIG. The inverter frequency reduction rate for rotational speed control is such that the sound pressure level of the blowing sound can be reduced without causing any discomfort in accordance with the adaptation characteristics. Expressing this in terms of the rate of change in sound pressure level,
The rate of change in sound pressure level is less than about IdBA/10 seconds. Then, the slow deceleration control circuit 13 controls the rotational speed control means 3 consisting of the thyrisk inverter based on each of these set values, so as to cause the user to feel uncomfortable or uncomfortable as shown in the characteristics of FIG. Execute control to reduce the fan rotation speed.

As a result, the user can avoid the phenomenon of air blow sound disappearing not only when the rotation speed n of the blower fan la is controlled in an upward direction, but also when the rotation speed of the auditory stimulation chamber is controlled to be relatively high (including stop control). It will be possible to prevent the user from feeling psychologically anxious even when the user is using the app.

When the characteristics shown in FIG. 2 and the characteristics shown in FIG. 3 are combined, the detected temperature of the room temperature sensor 2o (FIG. 4 [A]) t
The user's set temperature ts (ts=tl<
ts < ts), the same comfortable state as above can be achieved even when the air conditioner ON-OFF control is adopted to automatically control the room temperature within the range of ts<ts), as shown in Figure 4 [B] and Figure 4 [C] It is possible to continuously control the air blowing sound. Also, during the 0N-OFF control, the 0N-OFF control is performed between the set upper limit value and lower limit value shown in FIG. 4 [A'l].
By reducing the frequency, it becomes possible to stabilize temperature changes.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention, FIG. 2 is a graph showing basic control characteristics when controlling the fan rotation speed of the air conditioner to increase, and FIG. , a graph showing the basic control characteristics during the same rotation speed reduction control, FIG.
3 is a time chart showing the relationship between the output signal level of a room temperature detection sensor of the control system, the sound pressure level of the sound generated by the blower, and the rotation speed of the blower fan. l...Blower 2...Fan motor 3...Commercial power supply 4...Rotation speed control means 10A...Slow speed increase control system 10B...Slow deceleration control system 11... Slow speed increase control circuit 12... Slow deceleration constant setting circuit 13... Slow deceleration control circuit 14... Slow deceleration constant setting circuit 15... Changeover switch 16...・Blower control unit 17...
Air Conditioner Control Unit Applicant Daikin Industries Co., Ltd. Representative Patent Attorney Ohama Ti To the Grave Figure 3

Claims (1)

[Claims] 1. A blower that controls the air conditioning capacity depending on the rotation speed (1
) and a rotation speed control means (4) for arbitrarily variably controlling the rotation speed of the blower (1),
The rotation speed change rate during the rotation speed variable control by the rotation speed control means (4) is made gentle below a predetermined rate of change, and the rotation speed change rate per unit time during the rotation speed reduction control is changed during the rotation speed increase control. An air conditioner characterized in that the rate of change in rotational speed is smaller than that of the same rotation speed.