JPH09184654A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner wherein a plurality of buzzer sounds are useable, a buzzer sound suited to apparatus environment of a user and user's taste is selectable, a buzzer sound can be generated even with failure, and states of selection and setting can be mechanically checked. SOLUTION: Three kinds of a 'high sound', an 'ordinary sound', and a 'no sound state' are selected and set with a buzzer sound selection circuit 12. A CPU 11 reads the state of the selection and setting, stores it as data, and drives a buzzer 6 when a signal is received from a remote controller. If the sound is the 'high sound', then the CPU 11 sends a signal to an output port P3 , and if it is the 'ordinary sound', then it sends a signal to an output port P4 to ring the buzzer 6. When an indoor machine has a trouble, the CPU 11 drives the buzzer 6 irrespective of the states of the selection and setting of the buzzer sound selection circuit 12. Upon shipping, since a setting state of the buzzer sound selection circuit 12 can be recognized with the CPU 11, the setting state can be mechanically checked.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner capable of generating a confirmation sound by a buzzer provided in an indoor unit each time a wireless signal corresponding to various control contents from a remote controller is received. It is a thing.

[0002]

2. Description of the Related Art Today's air conditioners are accompanied by a remote controller for remotely controlling an indoor unit. The remote controller enables operation on / off, heating operation, cooling operation, dehumidifying operation, air volume control,
Various controls such as temperature setting can be performed. Every time the indoor unit receives a control signal from the remote controller, a beep or a beep sound is generated to inform the remote controller operator that the indoor unit has received the control signal. By listening to this sound, the remote control operator can confirm the reception on the indoor unit side.

FIG. 3 is a perspective view of the indoor unit 1 and the remote controller 21. The indoor unit 1 has a suction port 2, a blow port 3,
A rotatable flap 4, a light receiving window 5 for receiving a wireless signal from the remote controller 21, a buzzer 6 for generating a sound each time a wireless signal is received from the remote controller 21, and the like are provided. On the other hand, the remote controller 21 that remotely controls the indoor unit 1 includes a remote controller 21 for turning the operation on / off, heating operation, cooling operation,
Various operation buttons 22 for switching operation modes such as dehumidifying operation, temperature setting, air volume setting, timer setting, and the like, and a display section 23 for displaying various setting contents are provided. The remote controller 21 is provided with a light emitting element such as a light emitting diode, and a control signal is sent from the light emitting element to the light receiving window 5 of the indoor unit 1.
And the CPU of the indoor unit 1 generates a buzzer sound upon reception. In addition to optical signals, electromagnetic waves, ultrasonic waves, etc. are used as the wireless signals.

Since the buzzer sound is not always comfortable for the user, it is required to make it possible to select a use mode in which the buzzer sound is not generated. FIG. 4 shows a block diagram of a configuration that meets such needs. In this indoor unit 1, the CPU 31 has the remote controller 2
Every time various signals from 1 are received, a signal for unidirectionally driving the buzzer 6 is output to the setting switch 32 side. The setting switch 32 is for mechanically setting a binary selection of whether the buzzer 6 is to generate a sound or not to generate a sound, and the sound is generated in advance at the time of factory shipment. Set it.

In the configuration shown in FIG. 4, every time a signal is received from the remote controller 21 from the CPU 31, a signal for driving the buzzer 6 is sent to the setting switch 32 side, and whether or not the buzzer 6 is actually driven is determined. Depends on the selection setting of the setting switch 32. That is, when the setting switch 32 is selectively set to generate sound, the buzzer 6 is driven to generate sound each time a signal is received from the remote controller 21. However, if the setting switch 32 is selectively set so as not to generate a sound, even if a signal is sent from the CPU 31 to the setting switch 32, the signal is blocked on the setting switch 32 side, the buzzer 6 is not driven, and the sound is generated. It does not occur. Although the setting switch 32 is normally selected and set at the time of shipment from the factory, the setting state is visually inspected.

[0006]

In the conventional indoor unit 1 described above, however, there is a problem that only one type of buzzer 6 sound is used, and it is not possible to cope with the installation environment of the device and the preference of the user. It is also the user's preference to selectively set whether or not to generate sound, but if an abnormality occurs somewhere in the indoor unit 1 and the CPU 31 is configured to drive the buzzer 6, the setting is performed. Switch 32
However, if the CPU 31 drives the buzzer 6 to notify the abnormality, the buzzer 6 cannot be driven and the user cannot be notified of the abnormality.

The present invention has been made in order to solve the above-mentioned conventional drawbacks, and its purpose is to enable the use of a plurality of buzzer sounds, and the buzzer sound according to the installation environment of the device and the user's preference. The object is to provide an air conditioner that can select. It is also an object of the present invention to provide an air conditioner that can generate a buzzer sound even when an abnormality occurs.

[0008]

Therefore, the air conditioner according to the first aspect of the invention is an air conditioner capable of generating a buzzer sound on the indoor unit 1 side each time various signals are received from the remote controller 21. A buzzer 6 for generation and a buzzer sound selection circuit 12 for selectively setting one of a plurality of sounds for the buzzer 6.
And a control means 11 for driving the buzzer 6 by reading the selection setting state of the buzzer sound selection circuit 12.

Further, in the air conditioner of claim 2, the buzzer sound selection circuit 12 is configured to be able to select and set a silent state in addition to a plurality of sounds, and the control means 11 selects the silent state. It is sometimes featured that the buzzer 6 is not driven.

According to the air conditioner of the first aspect, a plurality of sounds are generated by the buzzer 6 by the selection setting of the buzzer sound selection circuit 12.
Further, the air conditioner according to the second aspect can also select the silent state.

Further, in the air conditioner according to a third aspect of the present invention, the control means 11 drives the buzzer 6 regardless of the selection setting state of the buzzer sound selection circuit 12 when the indoor unit 1 is abnormal. However, according to this configuration, when an abnormality occurs in the indoor unit 1, the control means 11 drives the buzzer 6 to ring regardless of the selection setting state of the buzzer sound selection circuit 12.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Next, embodiments of the air conditioner of the present invention will be described in detail with reference to the drawings. Since the overall configuration of the air conditioner is the same as the configuration shown in FIG. 3, the gist of the invention will be described in detail.

FIG. 1 shows a block diagram of a case where sound is generated by a buzzer 6 corresponding to the conventional one shown in FIG.
The buzzer sound selection circuit 12 is connected to the output port P ₁ and the input port P ₂ of the. By selecting and setting the buzzer sound selecting circuit 12, it is possible to select and set three kinds of "treble", "normal sound" and "silent state". The CPU 11 recognizes the state of the buzzer sound selection circuit 12 that has been selected and set, and the setting data is stored in the storage unit. The CPU 11 that has read the selection setting data of the buzzer sound selecting circuit 12 outputs a signal to the output port P ₃ or the output port P ₄ according to the selection setting data. A resistor R ₂ is provided between the output port P ₃ and the buzzer 6.
Is interposed, and the resistor R ₁ is interposed between the output port P ₄ and the buzzer 6. Both resistors R ₂ , R
The resistance value of _{No. 1} is different, and is a resistance for setting the pitch of the sound of the buzzer 6. The output port P ₃ is a high tone output port, and the output port P ₄ is a normal tone output port. In this way, the CPU 11 causes the buzzer sound selection circuit 1 to
When the buzzer 6 generates a high sound by reading the state of the selection setting of No. 2, a signal is sent to the output port P ₃ , and if it is a normal sound, a signal is sent to the output port P ₄ .
Also, I buzzer sound selecting circuit 12 is selected and set as "silence", CPU 11 does not send the signal to any output port P _3, P _4. Furthermore, if an abnormality occurs in the indoor unit 1, even if the selection setting of the buzzer sound selection circuit 12 is “silent state”, “treble”, or “normal sound”, the CP
U11 is adapted to notify the abnormality so as to sound the buzzer by sending a signal to the output port P ₃ or the output port P ₄ to the user.

FIG. 2 shows a flow chart when the buzzer 6 sounds, and first, in step S1, the CPU 11 reads the setting state of selection of the buzzer sound selection circuit 12. Next, in step S2, if the state of the buzzer sound selection circuit 12 has not been read multiple times, or if it has been read multiple times, step S2
If there is no change from the previous state in step 3, the process proceeds to step S5, and if it is the timing to output the buzzer sound, the state of the buzzer sound “high sound” or “normal sound” is output to the output port P ₃ or the output port P ₄ . A signal is output and the buzzer 6 is driven. On the other hand, if there is a change in the setting state of the setting switch 32 in step S3, for example, if there is a selection setting from "treble" to "normal sound", the process proceeds to step S4, and the present reading value is read. Remember. Then, similarly to the above step S5, the process proceeds to step S6, and outputs a signal to select the output port P ₄ is for normal sound, thereby sounding the normal sound by the buzzer 6.

At the time of shipment from the factory, the setting switch 32 is set to, for example, "normal sound", and the inspection is performed by the CPU 11 reading the state of the setting switch 32, and the data in the storage unit of the transfer destination of the data is read. By confirming, it is possible to confirm mechanically, so that it is possible to avoid so-called human error. Therefore, it can always be shipped with a constant quality. In addition, since the treble and normal sound of the buzzer 6 can be selected, the user's device environment,
You can choose the buzzer sound that suits your taste.

In the above embodiment, the sound generated by the buzzer 6 is of two kinds, "high sound" and "normal sound". However, "low sound" is added to make three kinds of sound or more sounds. May be added. Further, the buzzer sound may be set to be large, small, large or small.

[0017]

According to the air conditioner of the first aspect, a plurality of sounds can be made to ring from the buzzer by the selective setting of the buzzer sound selection circuit. Further, according to the air conditioner of the second aspect, You can also select silence. Therefore, the buzzer sound can be selected according to the installation environment of the device and the user's preference.

Further, according to the air conditioner of the third aspect, when an abnormality occurs in the indoor unit, the control means drives the buzzer regardless of the state of the selection setting of the buzzer sound selection circuit, so that the abnormality occurs. Can be notified to the user.

[Brief description of the drawings]

FIG. 1 is a block diagram of a control circuit according to an embodiment of the present invention.

FIG. 2 is a flowchart of a control operation according to the embodiment of the present invention.

FIG. 3 is a perspective view of an indoor unit and a remote controller according to the present invention.

FIG. 4 is a block diagram of a control circuit of a conventional example.

[Explanation of symbols]

 1 Indoor unit 6 Buzzer 11 CPU (control means) 12 Buzzer sound selection circuit 21 Remote control

Claims (3)

[Claims] 1. An air conditioner capable of generating a buzzer sound on the indoor unit (1) side each time it receives various signals from a remote controller (21), and a buzzer (6) for sound generation.
And a buzzer sound selection circuit (12) for selectively setting one of a plurality of sounds for the buzzer (6), and a control for reading the selection setting state of the buzzer sound selection circuit (12) to drive the buzzer (6) An air conditioner comprising means (11). 2. The buzzer sound selection circuit (12) is configured to be able to select and set a silent state in addition to a plurality of sounds, and the control means (11) is configured to output a buzzer (6) when the silent state is selected. ) Is made non-driving, The air conditioner of Claim 1 characterized by the above-mentioned. 3. The indoor unit (1) according to the control means (11).
The air conditioner according to claim 2, wherein the buzzer (6) is driven regardless of the selection setting state of the buzzer sound selection circuit (12) when the abnormality occurs.