JPH0461255B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a control device for an air conditioner, such as a spot cooler, used for local cooling in a factory or the like.

(Prior art) Conventionally, in this type of air conditioner, when a worker leaves the work point for a short time, the operator either stops and starts the operation each time, or the operation continues intermittently. In the latter case, the operation is troublesome and the work efficiency is very low.
The problem was that it was uneconomical.

In order to solve the above problem, it may be possible to automatically control the operation or stop of the air conditioner based on signals from a human detection sensor that detects the movement status of the worker, such as an infrared sensor. When the compressor is restarted, there is a risk that the compressor will restart before the high-low pressure balance is completed, so it is necessary to provide a device inside the machine to protect the compressor. Also, in order to protect the compressor, there is a known system that disables the compressor from starting for a certain period of time (for example, 3 minutes) when restarting, but this prevents the high-low pressure balance from being maintained as when the fan is running. Even when the process is completed quickly, there is a problem in that the compressor cannot be restarted (i.e., air-conditioned) until 3 minutes have passed.

(Object of the Invention) The present invention has been made in view of the above problems, and aims to protect the compressor at the time of restart.
It is an object of the present invention to provide a control device for an air conditioner that enables efficient cooling operation for workers.

(Structure of the Invention) The present invention includes a fan drive means for driving a fan motor, a compressor drive means for driving a compressor motor, a person detection sensor for detecting the movement status of a worker and outputting a cooling request signal, A first timer means operates simultaneously with the operation of the fan drive means in response to a cooling request signal from the person detection sensor, and acts to operate the compressor drive means after a certain period of time has elapsed; When the compressor drive means stops operating, the compressor drive means operates at the same time, and acts to prevent the first time limit means from reactivating the compressor drive means until a time longer than the operating time of the first time limit means has elapsed. and a second time limiter that operates simultaneously with the operation of the fan drive means in response to a cooling request signal from the person detection sensor while the second timer is in operation, and a second time limiter that operates for a period longer than the operating time of the first timer. It is characterized in that it comprises third timer means which act to regenerate the compressor drive means after a time shorter than the operating time of the means.

(Example) Hereinafter, a control device for an air conditioner according to an example of the present invention will be described with reference to the accompanying drawings.

The air conditioner of this embodiment is a spot cooler for local cooling installed in a factory or the like, including a compressor 1, a condenser 2, an evaporator 3, a condenser fan 4,
It includes an evaporator fan 5, a fan motor 6, and a control device 7.

A person detection sensor 9 is provided on the cold air outlet 8 side of the spot cooler to detect the movement status of the worker M and output a cooling request signal. As the person detection sensor 9, an infrared sensor or the like is adopted, for example.

FIG. 2 shows an electric circuit diagram as a specific example of the control device 7. As shown in FIG. In the figure, code 1
0 is a fan relay that acts as a fan driving means for driving the fan electric motor 6; 12 is a compressor relay that acts as a compressor driving means for driving the electric motor 11 of the compressor 1;
3 is a 10-second timer that acts as a first timer for the operating time T ₁ (=10 seconds), and 14 is the operating time T ₂ (=3
a three-minute timer acting as a second timing means (minutes);
15 is a 1-minute timer that acts as a third timer for the operating time T ₃ (=1 minute), and 16 is the operating time T ₄ (=5
a 5-minute timer acting as a fourth timer (minutes);
17 and 18 are relays, and these elements and their contacts are connected as shown.

The fan relay 10 includes a human detection sensor 9
When it is detected that the worker M is working, that is, when the person detection sensor 9 is in the ON state, it is energized, and once it is energized, it is self-maintained by closing the normally open contact 10α, and further The 5-minute timer 16 is demagnetized by opening the timer contact 16b.

The compressor relay 12 is energized by the closing of the timer contact 13α of the 10-second timer 13 and the timer contact 15α of the 1-minute timer 15, and is energized by the closing of the normally closed contact 18b of the relay 18. The operation of the timer 13 is canceled.

The 10 second timer 13 and the 1 minute timer 15 are used when the human detection sensor 9 is ON and the fan relay 1
They are designed to operate together (ie, be set) when energized at zero.

The three-minute timer 14 is activated when the normally open contact 17α of the relay 17 is closed, and when the compressor relay 1
It is set at the time of demagnetization in step 2.

The 5-minute timer 16 is connected to the human detection sensor 9.
It is set when the fan relay 10 is energized in the OFF state.

The relay 17 is energized when the 3-minute timer 14 is being set and the compressor relay 12 is energized, and once energized, it is self-maintained by closing its normally open contact 17α.

The relay 18 is energized when the 3-minute timer 14 is being set, when the relay 17 is energized, and when the compressor relay 12 is deenergized.

The operation of this air conditioner control device will be explained with reference to the flowchart of FIG.

When the human detection sensor 9 detects the intrusion of the worker M, the fan relay 10 is energized by the output signal and self-maintained. Simultaneously 10 seconds timer 1
3 and 1 minute timers 15 are set. That is,
Fans 4 and 5 are driven. At this time, the 5 minute timer 16 is reset. Then after 10 seconds, 10
The timer contact 13α of the second timer 13 is closed, and the compressor relay 12 is energized. That is, the compressor 1 is driven and starts cooling operation. Then, when the worker M disappears while the fan relay 10 is self-held and the signal from the person detection sensor 9 disappears, the 5-minute timer 16 is set. When 5 minutes have passed in this state, the timer contact 16b of the 5-minute timer 16 is opened, the fan relay 10 is demagnetized, and at the same time the 10-second timer 13 and 1-minute timer 15 are reset, and the compressor relay 12 is also demagnetized. be done. That is, the fans 4, 5 and compressor 1 stop. Simultaneously with this demagnetization of compressor relay 12, relay 18 is demagnetized and three minute timer 14 is set.

When the person detection sensor 9 detects the intrusion of the worker M again, the fan relay 10 is energized and the fans 4 and 5 are driven in the same manner as described above. Then,
10 seconds have passed and relay 18 has been demagnetized,
Alternatively, after one minute has passed, the compressor relay 12 is energized and the compressor 1 is driven.

The relay 18 has the function of preventing restart of the compressor relay 12, and also has a function of preventing the restart of the compressor relay 12, and also has a function of preventing the restart of the compressor relay 12.
4 has the function of canceling restart prevention.

For example, if the human detection sensor 9 detects the intrusion of the worker M within 2 minutes after the compressor 1 is stopped, the restart prevention relay 18 remains energized, so the operating time of the 1-minute timer 15 (T ₃ = 1 minute), the compressor relay 12 is energized.
On the other hand, if the human detection sensor 9 detects the intrusion of the worker M more than 2 minutes after the compressor 1 is stopped, before the operating time of the 1-minute timer 15 (T ₃ = 1 minute) elapses,
The operating time (T ₂ =3 minutes) of the 3-minute timer 14 has elapsed, the relay 18 is demagnetized, and its restart prevention effect is canceled. Therefore, the compressor relay 12 is activated after the fan relay 10 is energized.
Energized in seconds.

Note that if there is no worker intrusion signal from the human detection sensor 9 for three minutes after the compressor 1 is stopped, the three minute timer 14 is reset and returns to the initial state.

The present invention is not limited to the above embodiments, and a microcomputer or the like may also be employed.

(Effects of the Invention) As described above, according to the present invention, the fan driving means 10 is activated by the cooling request signal from the human detection sensor 9.
The first timer means 13 operates simultaneously with the operation of the compressor drive means 12 after a certain period of time _T1 has elapsed.
The operation of the first timer means 13 is controlled by the second timer means 14, which operates at the same time when the compressor drive means 12 stops operating due to no signal input from the human detection sensor 9. The first timer 13 is prohibited from reactivating the compressor drive means ₁₂ until a time T2 longer than the time _T1 elapses, and the cooling from the person detection sensor 9 is prohibited while the second timer 14 is in operation. A third timer means 15 operates simultaneously with the operation of the fan drive means 10 by a request signal.
Accordingly, the compressor drive means 12 is reactivated after the time _T3 , which is longer than the operating time T1 of the first timer ₁₃ and shorter than the operating time _T2 of the second timer 14, so that the operator can avoid the work point. When working in the air conditioner, cooling operation is effectively performed, which has the excellent effect of improving economy and work efficiency.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram of an air conditioner according to an embodiment of the present invention, FIG. 2 is an air circuit diagram of a control device in the air conditioner of FIG. 1, and FIG. 3 is a flowchart of the control device. 6...Fan electric motor, 9...Person detection sensor,
10... Fan drive means, 11... Compressor motor, 12... Compressor drive means, 13...
...First time limit means, 14...Second time limit means, 15...
...Third time limit means, T ₁ , T ₂ , T ₃ ... Operating time, M
……worker.

Claims (1)

[Claims] 1. A fan drive means 10 that drives the fan motor 6, a compressor drive means 12 that drives the compressor motor 11, a person detection sensor 9 that detects the movement status of the worker M and outputs a cooling request signal, and a person detection sensor 9 that detects the movement status of the worker M and outputs a cooling request signal. A first timer means 13 operates simultaneously with the operation of the fan drive means 10 in response to a cooling request signal from the sensor 9, and operates to operate the compressor drive means 12 after a predetermined time period _T1 has elapsed; When the compressor drive means 12 stops operating due to the loss of the signal input, the first time limit means 13 operates at the same time until a time T ₂ longer than the operation time T ₁ of the first time limit means 13 has elapsed. a second time limiter 14 that acts to prohibit the re-operation of the compressor drive means 12 due to A third time period operates simultaneously and operates to reactivate the compressor drive means 12 after a time period T3 which is longer than the operation time _T1 of the first timer means ₁₃ and shorter than the operation time _T2 of the second timer means 14. Means 1
5. A control device for an air conditioner, comprising: