JPH0677666B2 - Dehumidifier - Google Patents

Description

The present invention relates to a dehumidifier for dehumidifying the inside of a room, and more particularly to a dehumidifier for keeping indoor humidity in a non-display state during defrosting operation.

(Prior Art) A dehumidifier for dehumidifying a room constitutes a dehumidifying mechanism of a refrigeration cycle by accommodating an evaporator and a condenser in a main body casing as a cabinet, and the evaporator of this dehumidifying mechanism cools indoor air. Dehumidification is performed by using a condenser to heat the cooled indoor air.

If the dehumidifier continues the dehumidifying operation, frost may adhere to the evaporator, and the adhered frost may gradually grow to impair the function of the refrigeration cycle. Therefore, the dehumidifying operation is regularly performed. The defrosting operation includes hot gas defrosting for guiding the compressor discharge refrigerant into the hot gas defrosting circuit and reverse defrosting for defrosting by switching the four-way valve. In any case, during the defrosting operation, the high-temperature, high-pressure discharge refrigerant from the compressor is guided to the evaporator, and the frost adhering to the evaporator is melted and removed.

(Problems to be Solved by the Invention) In the conventional dehumidifier, the indoor humidity detected by the humidity sensor during defrosting operation is directly displayed on the humidity display device.

However, during the defrosting operation, the humidity at the top of the evaporator rises sharply, so the humidity sensor is also affected by this.
The humidity monitor lamp as a humidity display device displays a high humidity which is far from the indoor humidity, so that the indoor humidity cannot be accurately displayed.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a dehumidifier that prevents the indoor humidity from being displayed incorrectly by holding the indoor humidity in a non-display state during defrosting operation. To do.

[Structure of Invention]

(Means for Solving Problems) A dehumidifier according to the present invention accommodates a dehumidifying mechanism of a refrigeration cycle in which an evaporator and a condenser are arranged side by side in a main body casing, and controls the indoor humidity detected by a humidity sensor. In a dehumidifier having a humidity display device for displaying, the humidity sensor is installed in the main body casing, while the humidity display device holds the indoor humidity during the defrosting operation in a non-display state.

(Operation) Paying attention to the fact that this dehumidifier does not substantially dehumidify during defrosting operation, and the humidity display device
The indoor humidity is kept so as not to be displayed, and even if the humidity sensor detects high humidity during the defrosting operation, the detected humidity is not directly displayed on the humidity display device.

This can prevent the humidity display device from displaying the indoor humidity incorrectly even during the defrosting operation.

Embodiment An embodiment of the dehumidifier according to the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a vertical sectional view of a dehumidifier according to the present invention. This dehumidifier has an evaporator 11 and a condenser 12 arranged side by side in a main body casing 10 as a cabinet.
A dehumidifying mechanism 13 of the refrigeration cycle is configured. The drain water dehumidified by the dehumidifying mechanism 13 is once collected in the drain pan 14 and then guided to the drain tank 15 provided below it.
It is stored. The drain tank 15 is housed on the bottom plate 16 in the main body casing 10 so as to be freely taken out and put in. This drain tank
A compressor (not shown) is housed on the side of 15, and this compressor constitutes a refrigeration cycle for circulating a refrigerant together with the evaporator 11 and the condenser 12.

On the other hand, the evaporator 11 of the dehumidifying mechanism 13 is provided so as to face the air suction port 17, and the air filter 18 is interposed therebetween. The air passage 20 extending from the air suction port 17 is an evaporator.
Blower fan 21 such as cross-flow fan from 11 and condenser 12
Through to the air outlet 22 and terminates. The air outlet 22 is provided above (or below) the air inlet 17, while the air flow path 20 is partitioned by a nose plate 23 into a suction side and a blow side of the blower fan 21.

A humidity sensor 24 and a temperature sensor (not shown) are attached to the nose plate 23. Of these, the humidity sensor 24 is the evaporator.
It is attached above 11 or above the front side of evaporator 11 as shown in FIG. At that time, the upper fan of the evaporator 11 was partially tilted down to remove the evaporator 11 and the humidity sensor.
You may increase the spatial distance of 24. In any case, the humidity sensor 24 has good ventilation around the sensor, is not affected by the heat from the heat exchanger, and has the effect of frost accumulated on the evaporator 11 and the effect of humidity change during defrosting operation. It is preferable to attach it detachably in a position where it is difficult to receive.

An operation panel 25 is provided on the top of the main body casing 10. As shown in FIGS. 2 and 3, an operation stop button 26, an operation switching button 27, and a timer switching button 28 are provided on the operation panel 25, and the operating state of the dehumidifier is displayed.
A lamp display unit 30 such as an LED display unit is formed. The lamp display section 30 includes a remaining time display lamp 31 and a humidity monitor lamp.
32 (higher lamp 32a, slightly higher lamp 32b, suitable humidity lamp 32
c), ventilation lamp 33, dehumidification lamp 34, sensor dehumidification lamp 3
5. A full water lamp 36, a defrosting lamp 37, etc. are provided, and all of them are turned on by operating the lamp driver 41 by a control signal from the control unit 40 such as a CPU. Of these, dehumidification lamp
Reference numeral 34 indicates that dehumidification is performed continuously, and sensor dehumidification lamp 35 indicates that humidity control operation is performed. When the sensor dehumidifying lamp 35 is turned on, the dehumidifier controls the operation of turning off the compressor of the refrigeration cycle at a humidity of 62% and turning on the compressor at a humidity of 63% (or higher).

On the other hand, the humidity monitor lamp 32 and the lamp driver 41 constitute a humidity display device 42, and the humidity display device 42 displays the indoor humidity on each of the lamps 32a, 32b, 32c in three stages. The lamp driver 41 is operation-controlled by an operation control signal from the control unit 40 such as a CPU, and each lamp 32a, 32b,
It is designed so that 32c can be selected and displayed as a lamp. The control unit 40 is provided with various functions such as a timer function, a defrost control function, and a lamp display lock function, in addition to an arithmetic processing function of inputting an indoor humidity detection signal from the humidity sensor 24 to calculate humidity. Humidity sensor during normal dehumidification operation
The humidity detected by 24 is arithmetically processed, and a humidity display corresponding to the detected humidity is displayed on the humidity monitor lamp 32.

Further, during the defrosting operation, for example, during a predetermined time (for example, 3 minutes) from the start of the defrosting operation to the completion of the defrosting operation, the lamp display lock function of the control unit 40 operates, and the lamp driver 41 is in the non-driving state during the defrosting operation. Or the lamp drive state immediately before the defrosting operation. As a result, the humidity monitor lamp keeps the indoor humidity in the non-display state during the defrosting operation, and prevents the humidity state immediately before the defrosting operation from being displayed by a lamp, thereby preventing the indoor humidity from being displayed incorrectly. .
The humidity display device 42 is replaced by the humidity monitor lamp 32,
The indoor humidity may be digitally displayed.

On the other hand, a control unit 40 such as a CPU is mounted on a microcomputer control board 44 and is driven by a voltage applied from an external power source through a transformer 45 and a power source circuit 46. A detection signal from a humidity sensor 24, a temperature sensor (not shown), a water level detector, or the like is input to the control unit 40 and arithmetic processing is performed,
While controlling the driving of the lamp driver 41, the control unit 40 operates the operation stop button 26, the operation switching button 27, and the timer switching button 28 to operate the compressor, the fan motor of the blower fan, and the heater (not shown) via the relay driver 47. Is being controlled.

Next, the operation of the dehumidifier will be described.

When the dehumidifying operation is started by operating the operation stop button 26,
A lamp to that effect is displayed on the dehumidifying lamp 34. With the start of the dehumidifying operation, the compressor is activated and the operation of the refrigeration cycle is started.

When the operation of the refrigeration cycle is started, the room air flowing into the main body casing 10 from the air suction port 17 is guided to the evaporator 11 through the air filter 18, where it is cooled and dehumidified. The drain generated by this cooling and dehumidification is collected on the drain pan 14 and then guided to the drain tank 15,
It is stored in the tank 15.

The air cooled by the evaporator 11 continues to be a condenser.
It is heated by 12 and blown into the room from the air suction port 22 by the blower fan 21, and the continuous dehumidifying operation is continued.

When the dehumidifying operation is continued, frost is formed on the evaporator 11, and the function of the refrigeration cycle may be impaired by the frost, so the refrigeration cycle is regularly defrosted. During this defrosting operation, the high-temperature discharge refrigerant from the compressor is guided into the evaporator 11 and part of the adhered frost or the like is melted and evaporated, so that the humidity around the evaporator is shown by the broken line a in FIG.
It becomes higher as shown in. When this humidity is detected by the humidity sensor 24 and is displayed on the humidity monitor lamp 32 as it is via the control unit 40, a high humidity different from the actual indoor humidity is displayed as a lamp. The 40 has a lamp display lock function, which keeps the indoor humidity in a non-display state during the defrosting operation and maintains the humidity display immediately before the defrosting operation. Therefore, it is possible to prevent the humidity monitor lamp 32 from displaying an incorrect indoor humidity display as shown by the solid line b in FIG. 4 even during the defrosting operation.

The present invention is similarly applied not only to the dehumidifier but also to dehumidification with an air conditioner that cools and heats the room.

〔The invention's effect〕

As described above, in the dehumidifier according to the present invention,
It is equipped with a humidity display device that displays the indoor humidity detected by the humidity sensor installed in the main body casing, and this humidity display device keeps the indoor humidity in a non-display state during defrosting operation. Even at this time, it is possible to prevent the humidity in the room from being displayed inaccurately and prevent the dehumidifier from being operated erroneously.

[Brief description of drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of a dehumidifier according to the present invention, FIG. 2 is a view showing an operation panel provided in the dehumidifier, and FIG. 3 is a schematic view showing a control relationship of the dehumidifier, FIG. 4 is a diagram showing a dehumidification change characteristic before and after a defrosting operation by the dehumidifier in comparison with a conventional one, and FIG. 5 is a diagram showing a modified example of the dehumidifier. 10 …… Main body casing, 11 …… Evaporator, 12 …… Condenser, 13 …… Dehumidifying mechanism, 14 …… Drain pan, 15 ……
Drain tank, 17 ... Air inlet, 18 ... Air filter, 20 ... Air flow passage, 21 ... Blower fan, 22 ... Air outlet, 33 ... Nose plate, 24 ... Dehumidification sensor, 25 ... … Operation panel, 26 …… Operation stop button, 27 …… Operation switching button, 30 ……
Lamp display, 32 …… Humidity monitor lamp, 32a …… High lamp, 32b …… High lamp, 32c …… Humidity lamp,
34 ... Dehumidifying lamp, 35 ... Sensor dehumidifying lamp, 37 ... Defrosting lamp, 40 ... Control unit (CPU), 41 ... Lamp drive, 42 ... Humidity display device, 44 ... Microcomputer control board, 47
...... Relay driver.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Takeshi Okuda 336 Tatehara, Fuji City, Shizuoka Prefecture, Toshiba Corporation Fuji Factory (56) References 58-104860 (JP, U) JP, U)

Claims (5)

[Claims] 1. A dehumidifier that accommodates a dehumidifying mechanism of a refrigeration cycle in which an evaporator and a condenser are arranged side by side in a main body casing, and has a humidity display device that displays the indoor humidity detected by a humidity sensor. A dehumidifier characterized in that, while a sensor is installed in the main body casing, the humidity display device holds the indoor humidity during defrosting operation in a non-display state. 2. The humidity display device displays the indoor humidity immediately before the defrosting operation during the defrosting operation.
The dehumidifier according to item. 3. The humidity display device comprises a humidity monitor lamp and a lamp driver for displaying the lamp of the monitor lamp. The humidity monitor lamp is used during the defrosting operation and for a predetermined time after the completion of the defrosting operation and immediately before the defrosting operation. The dehumidifier according to claim 1, wherein the indoor humidity is displayed. 4. The dehumidifier according to claim 1, wherein the humidity sensor is provided above the front side of the evaporator. 5. A nose plate for partitioning an air flow path into a suction side and a blow side in a main body casing is provided above the evaporator,
The dehumidifier according to claim 1, wherein a humidity sensor is fixed to the nose plate.