JP4231247B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner, and more particularly to an air conditioner that can prevent a decrease in feeling of use due to a change in the rotational speed of an indoor fan during heating.
[0002]
[Prior art]
In normal heating operation, the fan speed is usually determined by the difference between the set temperature and the room temperature, especially when the air volume is set to an automatic condition in an air conditioner that rotates only at a constant speed called the normal type. Yes, the fan speed is increased as the difference between the set temperature and the room temperature increases.
[0003]
However, if the fan rotation speed is increased in a state where the indoor heat exchanger temperature is not sufficiently warmed, the blown air is not warmed and cold air is emitted. In order to prevent this, the indoor heat exchanger temperature is measured, and when the temperature rises above a certain level, normal operation is performed to increase the fan speed to the set speed. In order to prevent cold air, the fan is operated at a low wind speed with a reduced number of fan rotations, or the fan is stopped. This is a necessary control for improving the user's feeling of use.
[0004]
However, when the outside air temperature is extremely low and the indoor heat exchanger temperature is very difficult to rise, once the heat exchanger temperature rises to the low wind end temperature and the normal operation increases the air volume, The temperature may drop to the low wind start temperature immediately.
[0005]
FIG. 11 is a graph showing the relationship between the indoor heat exchanger and the rotational speed of the indoor fan in a conventional air conditioner. As shown in the graph, when no measures are taken, the wind sent from the indoor fan becomes a strong wind or a weak wind (hereinafter referred to as hunting), resulting in a great loss of user experience. It becomes.
[0006]
As a method for solving such a problem, as described in Japanese Patent Application Laid-Open No. 10-267372, when it is determined that hunting has occurred, a method of reducing the indoor fan rotational speed to a predetermined value is known. ing.
[0007]
Japanese Patent Application Laid-Open No. 11-264599 discloses that the temperature of the indoor heat exchanger is detected and the indoor fan is lowered every predetermined number of rotations until the heat exchanger temperature can be maintained at a predetermined temperature or higher. A control method is described in which this control is continued until the rotational speed of the indoor fan is returned to the original set rotational speed. By using these methods, the effect of suppressing the change in the rotational speed of the indoor fan is recognized, and the usability of the user is improved.
[0008]
[Problems to be solved by the invention]
However, when the rotational speed of the indoor fan is controlled by the above method, in both methods, if the heat exchanger temperature cannot be maintained at the set rotational speed, the fan rotational speed is sequentially decreased from the set rotational speed. Take control.
[0009]
In this case, while controlling the heat exchanger temperature, the fan speed is gradually reduced until the designed blowout temperature is reached, so heat exchange should be performed unless the fan speed is a little higher than during light wind operation. When the chamber temperature cannot be maintained, for example, the fan rotation speed must be continuously changed until the fan rotation speed is reached, which causes a problem that it takes time until the fan rotation speed is reached.
[0010]
In the method described in Japanese Patent Laid-Open No. 10-267372, the control end condition does not end unless the counter is reset due to compressor stop, defrosting operation, operation stop, etc., so there is no such end condition operation. Then, even if the hunting is not performed, the fan rotation speed does not return to the normal control, so that the operation with the fan rotation speed regulated (low rotation speed) continues.
[0011]
In the case of the method described in Japanese Patent Laid-Open No. 11-264599, the fan speed is controlled little by little for each predetermined value in order not to suddenly enter the ultra-fine wind zone from the initial set air volume. In this case, it usually takes 1 to 2 minutes to determine whether the temperature is equal to or higher than the predetermined heat exchanger temperature before the fan rotation speed is stabilized and the heat exchanger temperature can be detected.
[0012]
Therefore, for example, if the heat exchanger temperature cannot be maintained unless the heat exchanger temperature is decreased from the strong wind (1400 rpm) described in the embodiment to the super-fine wind (800 rpm), if the temperature is decreased by 20 rpm, 30 Steps will be taken and the cold wind will continue to blow for about 30 minutes.
[0013]
Therefore, in view of the above problems, an object of the present invention is to provide an air conditioner that can reduce hunting of an indoor fan without cold air continuing for a long time.
[0014]
[Means for Solving the Problems]
To achieve the above object, an air conditioner according to the present invention includes an indoor heat exchanger, an indoor fan that sucks indoor air, exchanges heat with the indoor heat exchanger, and discharges the indoor air to the room, and the indoor heat exchanger. a temperature detecting means for detecting the temperature of the temperature detected by the temperature detection means, performs a weak wind operation to reduce the rotational speed of the indoor fan when it is below the first reference temperature, than the first reference temperature A control device configured to perform a normal operation to set the rotation speed of the indoor fan to a normal set rotation speed when the temperature is equal to or higher than the second reference temperature, which is a high temperature, and the rotation speed of the indoor fan in the low wind operation is A plurality of steps are set step by step, and when the control device determines that the frequency of operation switching between the normal operation and the low wind operation is higher than a predetermined value, the extension unit extends the low wind operation time during the low wind operation. It has, at the time of weak wind operation, indoor The number of rotations of the fan is set to the lowest number of rotations set in stages, the number of rotations of the indoor fan is set to the set amount of air for normal operation during normal operation, and a predetermined time is set for extension of the low wind operation time. The rotational speed of the indoor fan is increased by one step from the lowest rotational speed, and when the temperature detected by the detecting means is higher than the first reference temperature after a predetermined time has elapsed, The number of winds is increased stepwise from the current rotational speed to further extend the low wind operation for a predetermined time .
[0015]
With the above-described configuration, it is possible to reduce the frequency of hunting, to prevent blowing out cold air, and to maintain a good feeling of use.
In addition, the control device operates for a predetermined time at a set number of revolutions when the low wind operating time is extended, and the temperature of the indoor heat exchanger detected after the predetermined time elapses is higher than the first reference temperature. Sometimes, the rotational speed of the indoor fan may be increased by one or more stages, and when the temperature is lower than the reference temperature, the rotational speed of the indoor fan may be decreased by one or more stages. Thereby, the shift | offset | difference with the temperature of an actual indoor heat exchanger can be decreased more, and it can suppress that a cold wind blows off.
In addition, the control device may end the operation of the extension means when the rotational speed of the indoor fan becomes the same as the rotational speed during normal operation during the low wind operation. As a result, even if the room temperature temporarily drops due to the opening or closing of the door or window after the operation of the extension means is completed, there is no risk that the rotation speed of the indoor fan will change in response to the temperature change, and the feeling of use is reduced. Can be prevented.
[0016]
As a control device, a control microcomputer is used, and when the temperature fluctuation of the indoor heat exchanger detected by the temperature detection means is within the set allowable range, the control is switched between normal operation and low wind operation, and exceeds the set allowable range. In such a case, the light wind operation may be extended by the extension means.
[0017]
Whether the temperature fluctuation of the indoor heat exchanger is within the set allowable range is determined by the control device by measuring the number of times of switching between normal operation and low wind operation in a certain time, that is, the frequency of operation switching. When the value is higher than a certain value, it may be set so that the extension means operates by judging that it is outside the allowable setting range (hunting has occurred), or the temperature change rate of the indoor heat exchanger is a certain value. It is also possible to set so that it is determined that it is out of the allowable setting range.
[0018]
[0019]
Further, the first reference temperature T1 and the second reference temperature T2 (where T1 <T2) are preset in the control device, and the indoor fan rotates when the temperature of the indoor heat exchanger is equal to or lower than the first reference temperature T1. It performed a small number of weak wind operation, since to perform the normal operation temperature of the indoor heat exchanger to the rotational speed of the indoor fan to its normal setting rotational speed at the time of the above second reference temperature T2, weak The degree of freedom of switching between wind operation and normal operation is expanded .
[0020]
The extension means increases the rotational speed of the indoor fan stepwise in accordance with the temperature rise of the indoor heat exchanger, so that it is possible to blow hot air into the room at an early stage and improve the heat exchange efficiency. Can be increased.
[0021]
In this case, the speed of increase in the rotational speed of the indoor fan may be set in advance, but the detected temperature of the indoor heat exchanger is detected from the normal operation while the temperature of the indoor heat exchanger is detected. When the temperature becomes higher than the first reference temperature T1, which is a reference for switching to the operation, the rotational speed of the indoor fan is further increased, and when the temperature is lower than the first reference temperature, the rotational speed of the indoor fan is decreased. By doing so, there is little deviation from the actual temperature of the indoor heat exchanger, and it is possible to suppress the cold air from blowing out.
[0022]
The extension means, and a plurality set stepwise the rotation speed of the indoor fan in weak wind operation, operated a predetermined time at a rotational speed of the one that has been set, the temperature of the indoor heat exchanger detected after the predetermined time has elapsed When the rotational speed of the indoor fan is increased by one or more stages when the temperature becomes higher than the first reference temperature that becomes a reference when switching from normal operation to low wind operation, when the temperature becomes lower than the first reference temperature, A configuration is adopted in which the number of rotations of the indoor fan is reduced by one or more steps.
[0023]
The predetermined time means a time required for the temperature of the indoor heat exchanger to stabilize when the number of rotations of the indoor fan is changed. Therefore, according to the said structure, since an indoor fan is drive | operated for a predetermined time with the set one rotation speed, the temperature of an indoor heat exchanger becomes stable in the meantime.
[0024]
Since the rotation speed of the indoor fan that operates for the next predetermined time is determined based on the stable temperature, there is almost no deviation between the rotation speed of the indoor fan and the actual temperature of the indoor heat exchanger. It becomes possible to suppress more reliably.
[0025]
The number of rotations of the indoor fan may be changed step by step. However, if it is changed in one step or a plurality of steps based on the temperature change rate before and after operating for a predetermined time, the room fan can be changed more quickly. Hot air can be supplied.
[0026]
After the extension means is operated once, the operating state may be maintained as it is.However, as described above, when the rotation speed of the indoor fan becomes the same as the rotation speed during normal operation during the low wind operation, that is, If the operation of the extension means is terminated when the room temperature approaches the set temperature, then the extension means operates if the temperature fluctuation is within the set allowable range even if there is some room temperature change. There is no fear.
[0027]
For example, even if the room temperature temporarily drops due to the opening or closing of a door or window, there is no possibility that the rotation speed of the indoor fan will change in response to the temperature change as in the case of extension means operation, and the feeling of use is reduced. Can be prevented.
[0028]
[0029]
[0030]
[0031]
[0032]
The air conditioner according to the present invention may be a separate type composed of an indoor unit and an outdoor unit, or a condenser and an evaporator that are integrally accommodated in the main body, such as a type that is attached to a window frame. It may be a figure. In the latter case, the condenser serves as an indoor heat exchanger.
[0033]
Further, it may be one that performs only the heating operation, or by providing a switching valve such as a four-way valve that switches the refrigeration cycle to either the heating operation cycle or the cooling operation cycle, both the heating operation and the cooling operation are performed. It may be capable of driving.
[0034]
In any case, according to the present invention, it is possible to effectively suppress hunting of the indoor fan for sucking indoor air during heating operation, exchanging heat with the condenser, and releasing it into the room.
[0035]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
1 to 4 are diagrams showing a first embodiment of the present invention. FIG. 1 is a block diagram showing an air conditioner, FIG. 2 is a block diagram showing a control device, and FIG. 3 is stored in the control device. FIG. 4 is a graph showing the relationship between the temperature of the indoor heat exchanger and the indoor fan speed in this embodiment.
[0036]
The present embodiment is characterized in that when the control device determines that the hunting frequency is high, the extension means is operated to extend the low wind operation, thereby reducing the frequency of hunting. It is said that.
[0037]
In FIG. 1, a compressor 1, a four-way valve 2, an outdoor heat exchanger 3, a throttle mechanism 4, and an indoor heat exchanger 6 are provided in the air conditioner, and these are sequentially connected by a refrigerant pipe 5. A refrigerant cycle for circulating the refrigerant is configured, and an indoor fan 9 and an outdoor fan 8 are provided.
[0038]
The air conditioner in the present embodiment is a separate type, and the indoor unit 7 has an indoor heat exchanger 6, a room that sucks indoor air, exchanges heat with the indoor heat exchanger 6, and discharges it indoors. A temperature thermistor and control device 11 are housed as temperature detection means 10 for detecting the temperature of the fan 9 and the indoor heat exchanger 6.
[0039]
The control device 11 is composed of a microcomputer provided with an input circuit, a CPU, a memory, an output circuit, etc., and controls the rotational speed of the indoor fan 9 in response to the output from the temperature detecting means 10, as shown in FIG. It is supposed to be.
[0040]
In the present air conditioner, the number of rotations of the indoor fan 9 in the low wind operation is set to four levels: strong wind, weak wind, light wind, and super light wind. The control device 11 switches and controls the operation of the indoor fan 9 according to the temperature of the indoor heat exchanger 6. That is, the start temperature (first reference temperature) of the weak wind operation is 28 ° C., and when the temperature of the indoor heat exchanger 6 is equal to or lower than this temperature, the low wind operation is started with the amount of ultra-fine wind.
[0041]
The temperature at which the low wind operation ends (second reference temperature) is 35 ° C. When the temperature is higher than this temperature, the normal operation starts. Further, the fan 9 is stopped at 20 ° C. or lower. When the fan 9 is stopped, such as at the start of operation or at the end of reverse defrosting, the indoor fan 9 will not start unless the temperature of the indoor heat exchanger 6 exceeds 35 ° C. It has become.
[0042]
The control of the control device 11 will be described with reference to FIGS. When the heating operation is started, the refrigerant circulates through the refrigerant cycle 14 from the compressor 1 to the four-way valve 2, the outdoor heat exchanger 3, the throttle mechanism 4, the indoor heat exchanger 6, the four-way valve 2, and the compressor 1.
[0043]
If the heating operation is performed when the outside air temperature and the room temperature are both -10 ° C, the indoor fan 9 is stopped for a while until the temperature of the indoor heat exchanger 6 is warmed. Eventually, when the temperature of the indoor heat exchanger 6 increases and the low wind operation end temperature reaches 35 ° C. or more, the indoor fan 9 rotates with strong wind, and the temperature of the indoor heat exchanger 6 suddenly decreases to 28 ° C. or less. The operation is started and it becomes a super breeze.
[0044]
If the switching between the normal operation and the light wind operation is repeated twice during a predetermined time, the control device 11 determines that the frequency of hunting is high (ST1) and activates the extension means. When the temperature of the indoor heat exchanger 6 is 35 ° C. or higher when the extension means is switched from the normal operation to the low wind operation, the extension means is not changed from the low wind operation to the normal operation, and is more than the super wind. Extend light wind operation with light winds at higher fan speeds.
[0045]
Then, operation is performed at the number of rotations for 10 minutes, and it is determined whether the temperature of the indoor heat exchanger 6 can be maintained higher than the first reference temperature (28 ° C.) (ST2). If the temperature higher than the first reference temperature can be maintained, the temperature is increased by one more stage and the extended operation is performed at the rotation speed for 10 minutes as a weak wind.
[0046]
When the temperature of the indoor heat exchanger 6 becomes 28 ° C. or lower, the rotational speed is lowered by one step and the extended operation is performed at the rotational speed for 10 minutes. When this operation is repeated and the fan speed increases to the normal operation set air volume (strong wind in this state), it is determined that there is no risk of hunting (ST3), and the operation of the extension means is terminated and normal switching control is performed. return.
[0047]
[ First Reference Example ]
5 and 6 are diagrams showing a first reference example , FIG. 5 is a flowchart of the control performed by the control device, and FIG. 6 shows the temperature of the indoor heat exchanger and the indoor fan rotation speed in this reference example . The graph which shows a relationship is shown, respectively.
[0048]
The present reference example is characterized in that when the control device 11 determines that the hunting frequency is high, the first reference temperature is lowered, whereby the hunting frequency can be reduced. Other configurations are the same as those of the first embodiment.
[0049]
Control of the control device 11 in this reference example will be described with reference to FIGS. When the control device 11 determines that the frequency of hunting is high (ST1), the first reference temperature, which is the start temperature of the low wind operation, is lowered to make it difficult to enter the low wind operation. That is, the place where the low wind operation is started at 28 ° C. or lower is set to the low wind operation at 22 ° C. or lower.
[0050]
This is to keep the indoor fan 9 running at the set air volume (strong wind here) for as long as possible in order to prioritize the temperature rise in the entire room. Such control reduces the hunting frequency. Since the indoor fan 9 is easy to rotate with the set air volume, the heat exchange efficiency is improved and the room is quickly warmed.
[0051]
In FIG. 6, the first reference temperature is changed from 28 ° C. to 22 ° C., and the normal operation time of the indoor fan 9 is increased accordingly. When the temperature is 22 ° C. or lower, the wind becomes ultra-fine, and when the temperature of the indoor heat exchanger 6 reaches 35 ° C., the wind becomes the set air volume again.
[0052]
As this is repeated, the room temperature increases, and it is determined whether or not the heat exchanger temperature is maintained at a temperature higher than 22 ° C. for 30 minutes (ST2). Return the reference temperature to 28 ° C. and return to normal switching control. This time of 30 minutes is based on the premise that the heat exchanger temperature 6 tends to be 28 ° C. when returning to normal switching control, and this time itself is naturally changed depending on the size of the air conditioner and the like. Is.
[0053]
[ Second Reference Example ]
FIGS. 7 and 8 are diagrams showing a second reference example , FIG. 7 is a flowchart of control performed by the control device, and FIG. 8 shows the temperature of the indoor heat exchanger and the indoor fan rotation speed in this reference example . The graph which shows a relationship is shown, respectively.
[0054]
The present reference example is characterized in that when the control device 11 determines that the hunting frequency is high, the second reference temperature is raised, and thereby the hunting frequency can be reduced. Other configurations are the same as those of the first embodiment.
[0055]
Control of the control device 11 in this reference example will be described with reference to FIGS. When the control device 11 determines that the frequency of hunting is high (ST1), the end temperature of the low wind operation, that is, the second reference temperature is increased from 35 ° C. to 40 ° C. Thus, when the indoor fan starts normal operation, the temperature of the indoor heat exchanger 6 is increased to 40 ° C., so it takes time to decrease the temperature to 28 ° C., which is the low wind operation start temperature.
[0056]
While the low wind operation and the normal operation are repeated under the above conditions, the heat exchanger temperature 6 does not become 28 ° C. or lower. Therefore, it is determined whether or not a temperature higher than 28 ° C. is maintained for 30 minutes (ST2). If the temperature is maintained, the control device returns the second reference temperature to 35 ° C. and returns to the normal switching control.
[0057]
If the control apparatus 11 which has such a function is used, it will become possible to reduce the frequency of hunting and to suppress a cold wind feeling.
[0058]
[ Third Reference Example ]
FIGS. 9 and 10 are diagrams showing a third reference example , FIG. 9 is a flowchart of control performed by the control device, and FIG. 10 shows the temperature of the indoor heat exchanger and the indoor fan rotation speed in this reference example . The graph which shows a relationship is shown, respectively.
[0059]
This reference example is characterized in that when the control device 11 determines that the hunting frequency is high, the first reference temperature is lowered and the second reference temperature is further raised, thereby reducing the hunting frequency. The other configurations are the same as those in the first embodiment.
[0060]
Control of the control device 11 in this reference example will be described with reference to FIGS. When the control device 11 determines that the frequency of hunting is high (ST1), the first reference temperature, which is the start temperature of the low wind operation, is lowered from 28 ° C. to 22 ° C. to make it difficult to enter the low wind operation. Increase the reference temperature from 35 ° C to 40 ° C. By increasing the temperature fluctuation range in this way, hunting can be suppressed and normal operation can be performed more stably.
[0061]
In FIG. 10, when the temperature of the indoor heat exchanger 6 reaches 40 ° C., the normal operation becomes strong wind, and the normal operation is performed for a long time up to 22 ° C. even if the heat exchanger temperature decreases. Then, when the temperature became 22 ° C. or lower, it became a super-breeze, and as this was repeated, the heat exchanger temperature did not fall below 22 ° C., and whether or not the heat exchanger temperature was maintained at a temperature higher than 22 ° C. for 30 minutes. When it is determined (ST2) and maintained, the control device returns the first reference temperature and the second reference temperature to 28 ° C. and 35 ° C., respectively, and returns to normal switching control.
[0062]
【The invention's effect】
As is apparent from the above description, according to the present invention, the control device for switching control between the normal operation and the low wind operation with a small air volume according to the detection result of the temperature detection means, the temperature fluctuation of the indoor heat exchanger is within the set allowable range. Since the extension means for extending the low wind operation time is provided when exceeding the above, the frequency of hunting can be reduced.
[0063]
As an extension means, the number of rotations of the indoor fan in the low wind operation is set in a stepwise manner, and the temperature of the indoor heat exchanger detected after the lapse of the predetermined time is determined by means for operating for a predetermined time at the set one rotation speed. When the temperature is higher than the reference temperature when switching from normal operation to light wind operation, means for increasing the rotational speed by one or more stages, and when lower than the reference temperature, the rotational speed is increased by one or more stages. By adopting a configuration having a lowering means, there is almost no deviation between the rotational speed of the indoor fan and the actual temperature of the indoor heat exchanger, and it is possible to more reliably suppress the cold air from blowing out.
[0064]
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an air conditioner. FIG. 2 is a block diagram showing a control device. FIG. 3 is a flowchart showing control of the control device in the first embodiment. FIG. 5 is a flowchart showing the control of the control device in the first reference example . FIG. 6 is a graph showing the relationship between the temperature of the indoor heat exchanger and the fan speed in FIG. graph Figure 7 is a graph 9 third showing the relationship between the temperature and the fan speed of the indoor heat exchanger in the flow chart FIG. 8] FIG. 7 shows the control of the control device in the second reference example shown flowchart 10 shows the temperature and fan speed in the graph 11 conventional indoor heat exchanger showing the relationship between the temperature and the fan speed of the indoor heat exchanger in FIG. 9 showing the control of a control device in the reference example Shows the relationship Graph [Description of the code]
DESCRIPTION OF SYMBOLS 1 Compressor 2 Four-way valve 3 Outdoor heat exchanger 4 Throttle mechanism 5 Refrigerant piping 6 Indoor heat exchanger 7 Indoor unit 8 Outdoor fan 9 Indoor fan 10 Temperature detection means 11 Controller

Claims (3)

An indoor heat exchanger, an indoor fan that sucks indoor air, exchanges heat with the indoor heat exchanger and discharges the indoor heat exchanger, temperature detecting means for detecting the temperature of the indoor heat exchanger, and detection by the temperature detecting means When the temperature falls below the first reference temperature, a low wind operation is performed to reduce the rotational speed of the indoor fan, and when the temperature rises above the second reference temperature, which is higher than the first reference temperature , and a rotational speed of the normal setting control was to perform the normal operation that the rotational speed apparatus, the rotational speed of the indoor fan in the weak wind operation is stepwise multiple settings, the control device, normal operation and weak When it is determined that the frequency of the operation switching with the wind operation is higher than a predetermined value, the vehicle has an extension means for extending the low wind operation time during the low wind operation. The number of rotations set in stages The number of rotations of the indoor fan is set to the normal air flow rate during normal operation, and when the low wind operation time is extended, the rotation speed of the indoor fan is increased by one step from the lowest rotation number for a predetermined time. When the temperature detected by the detection means is higher than the first reference temperature after a predetermined time has elapsed, the rotational speed of the indoor fan is increased stepwise from the current rotational speed to perform low wind operation. Further , the air conditioner is extended for a predetermined time . The control device operates for a predetermined time at a set number of revolutions when the low wind operation time is extended, and when the temperature of the indoor heat exchanger detected after the lapse of the predetermined time is higher than the first reference temperature the rotation speed of the indoor fan raised one stage or multiple stages, when lower than the reference temperature, the air conditioner according to claim 1, the rotation speed of the indoor fan, characterized in that the lower one step or multiple steps. Wherein the control device, the rotational speed of the indoor fan in the weak wind operation when it becomes equal to the rotational speed during normal operation, according to claim 1 or 2, characterized in that to terminate the operation of the extension means Air conditioner.

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