JPH04120538U - dehumidifier - Google Patents

Abstract

(57) [Summary] [Structure] In a dehumidifier equipped with a cooler, a radiator, a defrost heater 19, etc., a defrost timer 27 and a drying switch 28 are connected to the defrost heater 19, and the defrost heater 19 is connected to the drying switch 28. switch 28
The dehumidifier is also designed to be independently controlled. [Effect] Even at normal outside temperatures, the defrost heater 19 is activated by turning on the drying switch 28. Therefore, the air that has been cooled and dehumidified by the circulation refrigeration cycle system is discharged from the air outlet in a warmer state than usual, so the relative humidity can be lowered and the warm air suitable for drying clothes is released. can be supplied. Further, the defrost heater 19 can be effectively utilized.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to dehumidifiers, more specifically coolers, radiators, defrost heaters, etc. Regarding a dehumidifier equipped with.

0002

[Conventional technology]

A conventionally commonly used dehumidifier is constructed as shown in FIG. vinegar That is, the suction port 17 is formed on the front surface of the upper part of the main body case 11 of the dehumidifier 40. A filter 16 is disposed inside 17. There is a defrost behind the filter 16. A defrost heater 19 is provided, and a cooler 15 is provided near the defrost heater 19. It is arranged. Furthermore, a radiator 14 is located behind the cooler 15, and a radiator 14 is located behind the radiator 14. The fans 13 are arranged above the fans 13, that is, the main body case. An air outlet 18 is formed on the rear upper surface of 11. In addition, the rear bottom inside the main body case 11 A compressor 12 is installed in the section. The dehumidification generated by the cooling and dehumidification of the cooler 15 A dew pan 2 is installed below the cooler 15, radiator 14, and fan 13 to collect wet water. 0 is placed. A drain port 20a is formed in the front part of this dew pan 20. A drain tank 25 is detachably attached to the main body case 11 below the drain port 20a. It is.

0003 A float lever 22 is rotatably supported on the upper part of the drainage tank 25. To detect that the amount of dehumidified water stored in the drainage tank 25 has exceeded a certain level. , a float 21 whose lower end is placed at a predetermined position is integrated with a float lever 22. It is formed.

0004 In addition, a full water switch 24 is attached to the rear of the drain tank 25, and the drain tank 25 is equipped with a full water switch 24. A switch lever 23 is rotatably located between the tank 25 and the full water switch 24. It is pivotally supported by the switch 24.

[0005] FIG. 4 shows a circuit diagram of the main parts of the dehumidifier. 12 in the figure is a compressor; A full water switch 24 is connected in series to 12, and the pressure is connected to the full water switch 24. An overload protection device 30 for the compressor 12 is interposed between the compressor 12 and the compressor 12 . Also, An operating capacitor 29 of the compressor 12 is connected to the compressor 12 . Furthermore, pressure A defrost timer 27 is connected in parallel to the compressor 12. A defrost heater 19 and a fan motor 26 are connected in series to the -27, respectively. The other ends of the defrost heater 19 and fan motor 26 are connected to each other. Connected to the power supply side.

[0006] In the dehumidifier 40 configured in this way, the refrigerant gas compressed by the compressor 12 is cooled by the radiator 14 and becomes a high-temperature, high-pressure liquid. The refrigerant coming out of the radiator 14 is It is dried with a dryer (not shown) and depressurized with a capillary tube (not shown), and then placed in a cooler 15. The liquid is endothermically vaporized and the cooler 15 is cooled. It is vaporized in the cooler 15 and becomes a low-temperature refrigerant gas. The mixed refrigerant, which has become a refrigerant liquid, further evaporates completely in the piping, becomes refrigerant gas, and is compressed. It forms a circulating refrigeration cycle system that is sucked into the machine 12. As a result, fan 1 3, the air taken in from the suction port 17 is cooled and dehumidified by the cooler 15. Thereafter, it is heated by the radiator 14 and discharged from the air outlet 18 to the outside of the machine. On the other hand, cooling Water droplets that adhere to the cooler 15 during dehumidification become dehumidified water and are collected in the dew pan 20. It drips into the drain tank 25 through the drain port 20a and is stored.

[0007] Normally, the switch lever 23 located at the rear of the drain tank 25 is a float lever. It is pushed in by the bar 22, turns on the full water switch 24, and closes the electric circuit. In other words, the compressor 40 is maintained in an operating state, but there is no water in the drain tank 25. When the amount of stored water exceeds a certain level, the float 21 rises and the switch lever is activated. -23 swings, the full water switch 24 is turned off, and the operation of the compressor 12 is automatically stopped. This prevents the dehumidified water in the drainage tank 25 from overflowing.

[0008] Additionally, when the outside temperature drops, the temperature of the cooler 15 becomes negative, causing frost to form. Because of this, it is necessary to defrost the cooler 15. In this case, it is attached to the cooler 15. When the temperature of the cooler 15 becomes negative due to the exposed temperature-sensitive tube (not shown), the temperature remains constant. The defrost heater 19 is activated by switching the defrost timer 27 after the time has elapsed. defrost by moving. The temperature rise in the cooler 15 is then sensed by the thermosensitive tube. Then, the defrost timer 27 is switched to the fan motor 26 side and the defrost is released. removed.

[0009]

[Problem that the idea aims to solve]

In the dehumidifier 40 having the structure described above, frost adheres to the cooler 15 due to the outside temperature. This is only when the temperature of the cooler 15 drops and the temperature of the cooler 15 becomes negative. The defrost heater 19 installed to prevent frost from forming on the cooler 15 due to the high outside temperature. If you don't wear it, you don't need to use it. Therefore, the frequency of use of the defrost heater 19 is The issue was that the level of use was extremely low and that it was not being used effectively.

0010 The present invention was devised in view of the above-mentioned problems, and is based on the use of a defrost heater. The purpose is to provide a dehumidifier that can be used effectively.

[0011]

[Means to solve the problem]

In order to achieve the above object, the dehumidifier according to the present invention includes a cooler, a radiator and a defroster. In a dehumidifier equipped with a frost heater, etc., a defrost tie is attached to the defrost heater. In addition to the heater, a drying switch is connected, and the defrost heater is connected to the drying switch. Therefore, it is characterized by being independently controlled.

0012

[Effect]

According to the above configuration, a dehumidifier equipped with a cooler, a radiator, a defrost heater, etc. In addition to the defrost timer, the drying switch is connected to the defrost heater in the machine. and the defrost heater is also independently controlled by the drying switch. The drying switch is designed to be turned on even at normal outside temperatures. This activates the defrost heater. Therefore, the circulation refrigeration cycle system The dehumidified air is discharged from the air outlet in a warmer state than normal. This provides warm air suitable for drying clothes.

[0013] In this case, the air sucked in from the suction port is first heated by the defrost heater. The absolute humidity is Although there is a possibility that the efficiency of reducing As a result, the relative humidity is lowered and warm air suitable for drying clothes is supplied. It will be.

[0014]

【Example】

Hereinafter, embodiments of the dehumidifier according to the present invention will be described based on the drawings. Note that the configuration of the dehumidifier 10 according to this embodiment shown in FIG. 1 is the same as that of the conventional example. I will omit the explanation. FIG. 2 shows a circuit diagram of the main parts of the dehumidifier 10. 12 in the figure is a compressor, A full water switch 24 is connected in series to the compressor 12. An overload protection device 30 for the compressor 12 is interposed between the compressor 12 and the compressor 12 . Ma Further, an operating capacitor 29 of the compressor 12 is connected to the compressor 12 . moreover , a defrost heater 19 and a fan motor 26 are connected in parallel to the compressor 12. In addition, the full water switch 24, the defrost heater 19, and the fan are connected to each other. The defrost heater 19 or fan motor 26 A defrost timer 27 is provided to perform the replacement. Also, the full water switch 2 A drying switch 28 is interposed between the defrost heater 19 and the defrost heater 19 . stop The defrost heater 19 or fan motor is activated by the defrost timer 27. The drying switch 28 is configured to be able to turn on the dryer 26, and the drying switch 28 The frost heater 19 is configured to be able to be turned on and off independently. .

[0015] In the dehumidifier 10 configured in this way, the refrigerant gas compressed by the compressor 12 is cooled by the radiator 14 and becomes a high-temperature, high-pressure liquid. The refrigerant coming out of the radiator 14 is It is dried with a dryer (not shown) and depressurized with a capillary tube (not shown), and then placed in a cooler 15. The liquid is endothermically vaporized and the cooler 15 is cooled. It is vaporized in the cooler 15 and becomes a low-temperature refrigerant gas. The mixed refrigerant, which has become a refrigerant liquid, further evaporates completely in the piping, becomes refrigerant gas, and is compressed. It forms a circulating refrigeration cycle system that is sucked into the machine 12. As a result, fan 1 3, the air taken in from the suction port 17 is cooled and dehumidified by the cooler 15. Thereafter, it is heated by the radiator 14 and discharged from the air outlet 17 to the outside of the machine. On the other hand, cooling Water droplets that adhere to the cooler 15 during dehumidification become dehumidified water and are collected in the dew pan 20. It drips into the drain tank 25 through the drain port 20a and is stored.

[0016] Normally, the switch lever 23 located at the rear of the drain tank 25 is a float lever. It is pushed in by the bar 22, turns on the full water switch 24, and closes the electric circuit. In other words, the compressor 10 is maintained in an operating state, but there is no water in the drain tank 25. When the amount of stored water exceeds a certain level, the float 21 rises and the switch lever is activated. -23 swings, the full water switch 24 is turned off, and the operation of the compressor 12 is automatically stopped. This prevents the dehumidified water in the drainage tank 25 from overflowing.

[0017] Additionally, when the outside temperature drops, the temperature of the cooler 15 becomes negative, causing frost to form. Because of this, it is necessary to defrost the cooler 15. In this case, it is attached to the cooler 15. When the temperature of the cooler 15 becomes negative due to the exposed temperature-sensitive tube (not shown), the temperature remains constant. The defrost heater 19 is activated by switching the defrost timer 27 after the time has elapsed. defrost. When the temperature rise of the cooler 15 is detected by the thermosensitive tube, Defrosting is removed by switching the defrost timer 27 to the fan motor 26 side. removed.

[0018] Furthermore, when the outside temperature is normal, the drying switch 28 is turned on to turn on the defrost heater. 19 is activated, the air sucked in from the suction port 17 first goes to the defrost heater. Warmed by 19. After that, it is cooled in the cooler 15 by the circulating refrigeration cycle system. After being dehumidified, it is heated by the radiator 14 and discharged from the air outlet 18 to the outside of the machine. Therefore, according to the dehumidifier configured as described above, the drying switch 28 is disposed. Since the defrost heater 19 can be used at any time, the defrost heater 19 can be used at any time. The temperature of the air sucked in is raised by the heater 19, and warm air is further discharged from the outlet 18. Air can be blown out to raise the indoor temperature, reducing relative humidity and drying clothes. It can supply warm air suitable for drying. Additionally, devices that were previously used infrequently The frost heater 19 can be used arbitrarily when necessary, and the defrost heater 19 can be used as needed. Therefore, it is possible to effectively utilize the data 19.

[0019]

[Effect of the idea]

As detailed above, the dehumidifier according to the present invention has a cooler, a radiator, and a differential. In a dehumidifier equipped with a lost heater, etc., the defrost heater is equipped with a defrost heater. In addition to the immer, a drying switch is connected, and the defrost heater is connected to the drying switch. It is also independently controlled by the By turning on the drying switch, the defrost heater is activated. Therefore, The air that has been cooled and dehumidified by the circulation refrigeration cycle system is released from the outlet in a warmer state than usual. Since more air is released outside the machine, the relative humidity can be lowered, and clothing It can supply warm air suitable for drying. In addition, the effectiveness of the defrost heater You can make good use of it.

[Brief explanation of drawings]

FIG. 1 is a schematic cross-sectional view showing an embodiment of a dehumidifier according to the present invention.

FIG. 2 is a circuit diagram of the main parts of the dehumidifier.

FIG. 3 is a schematic cross-sectional view showing a conventional dehumidifier.

FIG. 4 is a circuit diagram of the main parts of the dehumidifier.

[Explanation of symbols]

10 Dehumidifier 14 Heat sink 15 Cooler 19 Defrost heater 27 Defrost timer 28 Drying switch

Claims (1)

[Scope of utility model registration request] 1. In a dehumidifier equipped with a cooler, a radiator, a defrost heater, etc., a drying switch is connected to the defrost heater in addition to a defrost timer, and the defrost heater is also independently controlled by the drying switch. A dehumidifier characterized by: