JP4594552B2 - Bathroom drying equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bathroom drying apparatus suitable for drying clothes in a bathroom or air conditioning a bathroom and a washroom using a heat pump.
[0002]
[Prior art]
An example of a heat pump system having this type of drying function is disclosed in Japanese Patent Laid-Open No. 5-272842.
[0003]
In FIG. 1, a plurality of indoor units arranged in the air-conditioning room and a drying unit arranged in the drying room are connected to the outdoor unit in parallel with each other, and a ventilation fan is arranged in the drying room. In the heat pump system in which the refrigerant is circulated from the indoor unit to the plurality of indoor units to perform the indoor cooling operation, and the refrigerant is circulated from the indoor unit to the outdoor unit to perform the indoor heating operation, indoor heat exchange provided in the drying unit The heater is divided into two, and a parallel circuit of an on-off valve and a pressure reducing mechanism is interposed between the two heat exchangers. During the indoor cooling operation, the drying operation is performed in the dehumidifying operation mode, and during the indoor heating operation, A drying mode control means for performing a drying operation in an operation mode in which a ventilation mode by a ventilation fan is added to the heating operation mode is provided, and further a temperature detection means for detecting an outside air temperature is provided. When the outside air temperature is higher than the specified temperature, the drying operation in the dehumidifying operation mode is performed when the outside air temperature is higher than the specified temperature, and when the outside air temperature is lower than the specified temperature, the drying is performed in the operation mode in which the ventilation mode is added to the heating operation mode. It is characterized by driving.
[0004]
[Problems to be solved by the invention]
In the above conventional example, the drying operation method is performed in the dehumidifying operation mode at the time of indoor cooling operation or when the outside air temperature is higher than the specific temperature. The drying speed is slower than the drying method that adds ventilation mode to the mode. Therefore, when the temperature is higher than the specific temperature, the optimum drying method should be selected while detecting not only the outside air temperature but also the state of the refrigerant or the compressor or the piping system.
[0005]
The present invention has been made to solve the above-described conventional drawbacks, and an object of the present invention is to provide a heat pump type bathroom drying apparatus in which a drying unit is installed in a bathroom to improve drying efficiency. It is another object of the present invention to provide a heat pump type bathroom drying apparatus that can easily air-condition an adjacent washroom using the unit.
[0006]
[Means for Solving the Problems]
Therefore, in the present invention, there are provided an indoor unit including a circulation fan for circulating the air in the bathroom, a heat exchanger for passing the refrigerant, a compressor for compressing the refrigerant, a heat exchanger for passing the refrigerant, and a cooling fan. In a bathroom drying apparatus having a heat pump type air conditioner configured with an outdoor unit provided, the ventilation fan arranged in the bathroom is linked to the air conditioner and the heat pump is condensed to the circulation fan of the air conditioner. Two or more heat exchangers functioning as an evaporator or an evaporator are connected together so that they can be operated in each operation mode of ventilation operation, heating operation, drying operation, and cooling operation.
[0007]
In the drying operation mode, part or all of the heat exchanger of the indoor unit functions as a condenser of the heat pump, and the ventilation fan is operated continuously or intermittently, and the refrigerant of the compressor of the outdoor unit is When the temperature or pressure is detected and the detected value falls below a preset value, the compressor is driven to blow hot air from the circulation fan, while the detected value reaches a preset value. In this case, the compressor is temporarily stopped or the rotation speed of the compressor is decreased, the air flow rate of the circulation fan is increased, the air flow rate of the cooling fan of the outdoor unit is decreased, or the compressor of the outdoor unit is arranged near the compressor. The compressor cooling fan installed is rotated to cool the compressor, or a part of the heat exchanger connected to the circulation blower functions as a condenser and the other part functions as an evaporator. Between the evaporator and the evaporator And to circulate the refrigerant through a capillary tube for expanding refrigerant.
[0008]
In addition, a room temperature sensor is installed in the indoor unit, a temperature sensor is installed in each heat exchanger of the indoor unit and the outdoor unit, an outside air temperature sensor is installed in the outdoor unit, and the temperature detected by each sensor The rotation speed of the compressor, the rotation speed of the circulation fan, the rotation speed of the cooling fan, or the rotation speed of the ventilation fan was changed.
[0009]
In addition, an indoor unit is embedded in the ceiling of either the bathroom or the washroom, and a blower is disposed in the other chamber, and is located downstream of the heat exchanger built in the indoor unit and An opening is provided in a part of the side or upper surface, the opening and the blower are connected to each other by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower.
[0010]
In addition, a heat insulating material is provided around the duct, or an air heating means such as an electric heater or a heat pump condenser or a heat exchanger for passing hot water is provided in the blower.
[0011]
In addition, a suction direction switching mechanism is provided on the suction side of the blower disposed in the washroom, and the air cooled or warmed by the heat exchanger in the indoor unit is sucked by the blower in the washroom into the washroom. Can be switched between when the air is blown out and when the air in the washroom is sucked and heated and circulated by the air heating means.
[0012]
Further, when the air cooled or warmed by the heat exchanger in the indoor unit is sucked by the blower, the circulation fan of the indoor unit is driven at a low speed.
[0013]
Moreover, it decided to embed an air blower in the wall between a bathroom and a washroom, or the ceiling of a washroom.
[0014]
In addition, the indoor unit and the blower are configured so that they can be operated by remote control means. Further, the remote control unit includes a bathroom ventilation operation switch, a bathroom heating operation switch, a bathroom drying operation switch, a bathroom heating operation switch, and a bathroom dehumidifying operation. A switch and a washroom cooling operation switch were provided.
[0015]
In addition, the bathroom ventilation function is activated at the start of operation for each operation mode during washroom heating operation, washroom dehumidification operation, or washroom cooling operation.
[0016]
Also, a dew condensation water receiving part is provided below the evaporator in the indoor unit of the bathroom, and in particular, a heat exchanger closer to the upright is used as the evaporator, and a dew condensation water receiving part is provided below the evaporator, or the evaporator The pump was installed in the dew condensation water receiving part below, and it decided to comprise so that dew condensation water could be discharged | emitted out of an apparatus through piping, detecting the amount of stagnant water.
[0017]
In addition, air direction control means is provided at the outlet of the indoor unit of the bathroom, and the air direction control unit has a swing operation function or a function that can be stopped at a specified position, and each operation mode of heating mode, drying mode, and cold air mode In contrast, it has a detecting means for assigning a stop position of the wind direction control unit, or detecting the existence range of the object to be dried in the indoor unit of the bathroom, or a means for detecting the presence of a person, and the swing angle of the wind direction control unit is automatically set. Or decided to change the stop position.
[0018]
In the dry operation mode, part or all of the heat exchanger in the indoor unit is used as a heat pump condenser, and the ventilation function is operated simultaneously or intermittently with the operation, and the current value flowing through the compressor or the entire apparatus is If the detected value falls below a preset value, the compressor is driven, hot air is blown from the circulation fan, and if the detected value reaches a preset value, the compressor is automatically Therefore, it was decided to temporarily stop or arbitrarily reduce the rotational speed of the compressor.
[0019]
In addition, carbon dioxide was used as the refrigerant.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
The bathroom drying apparatus according to the present invention includes an indoor unit including a circulation fan that circulates air in the bathroom, a heat exchanger that passes the refrigerant, a compressor that compresses the refrigerant, a heat exchanger that passes the refrigerant, and cooling. A heat pump type air conditioner configured with an outdoor unit equipped with a blower for air is provided, and a ventilation fan arranged in the bathroom is linked to the air conditioner.
[0021]
In addition, two or more heat exchangers that function as condensers or evaporators of the heat pump are connected to the air circulation fan, and the ventilation operation, heating operation, It is configured to be operable in each operation mode of drying operation and cooling operation.
[0022]
Therefore, by linking the air conditioner in the bathroom and the blower for ventilation, it is possible to discharge the steam in the bathroom after bathing, and to discharge evaporated water from the clothes when the clothes are dried. It can be performed more efficiently than a configuration with only an air conditioner.
[0023]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0024]
FIG. 1 shows a piping system diagram of a multi-system similar to the conventional one, and constitutes a multi-function heat pump system having an air-conditioning function and a drying function as well as a hot-water supply heating function and a bathtub hot-water replenishment function.
[0025]
In the outdoor unit 4, a compressor, an outdoor heat exchanger, and the like are accommodated. The outdoor unit 4 is connected to a plurality of indoor air conditioners 3, a hot water tank, and a reheating unit. Further, a drying unit 1 having a drying heat exchanger is arranged on the ceiling of a drying room such as a bathroom. The compressor of the outdoor unit 4 is operated with a compression capacity corresponding to the total load of each use side heat exchanger by inverter frequency control.
[0026]
The drying operation is performed by causing the drying heat exchanger to function when the operation start switch in the drying operation operation remote controller 5 connected to the drying unit 1 is turned on by the user.
[0027]
The indoor heat exchanger provided in the drying unit 1 is divided into two, a parallel circuit of an on-off valve and a pressure reducing mechanism is interposed between the two indoor heat exchangers, and temperature detection means for detecting the outside air temperature is provided. When the outside air temperature is higher than the specific temperature, the drying operation is performed in the dehumidifying operation mode, and when the outside air temperature is the specific temperature or less, the drying operation is performed in the operation mode in which the ventilation mode is added to the heating operation mode. It has become.
[0028]
FIG. 2 is a view showing a drying unit having a drying heat exchanger and a ventilation fan similar to the conventional one, and the drying unit 11 includes a circulation fan 6, a drying heat exchanger 7, a temperature sensor 9, and humidity. In addition to the sensor 10, the ventilation fan 8 is used.
[0029]
FIG. 3 is a refrigerant circuit diagram of a bathroom drying apparatus, and the outdoor unit includes a compressor 18 that compresses the refrigerant, an outdoor unit heat exchanger 21 that passes the refrigerant, and a cooling fan 20. The bathroom unit includes a bathroom. A recirculation valve 15 and a capillary tube 16 are connected in parallel between the circulation fan 12 for circulating the air in the interior, the drying heat exchangers 13 and 14 for passing the refrigerant, and both drying heat exchangers. A ventilation fan 17 that operates in conjunction with the air conditioner is incorporated. Carbon dioxide is used as the refrigerant. Thereby, the temperature of a condenser can be made high compared with a CFC-type refrigerant | coolant, and a drying efficiency can be improved.
[0030]
The bathroom drying apparatus operates as follows in response to a signal from the bathroom dryer remote control shown in FIG.
[0031]
That is, in the case of the ventilation operation, the compressor 18 operates the ventilation fan 17 in a stopped state.
[0032]
In the case of heating operation, the compressor 18 is driven, the reheating valve 15 is opened, the drying heat exchangers 13 and 14 are used as a condenser, the bypass valve 22 is closed, and the outdoor unit heat exchanger 21 is an evaporator. Circulate.
[0033]
In the case of the drying operation, the ventilation fan 17 is operated in addition to the same operation as the heating operation.
[0034]
In the cooling operation, the refrigerant is circulated by switching the four-way valve 19 and using the drying heat exchangers 13 and 14 as an evaporator and the outdoor unit heat exchanger 21 as a condenser.
[0035]
As described above, the bathroom drying apparatus interlocks the ventilation fan disposed in the bathroom with the air conditioner and connects two or more heat pump condensers or evaporators to the circulation fan of the air conditioner. Thus, it can be operated in each operation mode of ventilation operation, heating operation, drying operation, and cooling operation.
[0036]
And by linking the air conditioner in the bathroom and the blower for ventilation, it is possible to discharge the steam in the bathroom after bathing and the evaporated moisture from the clothes when drying the clothes, and the humidity in the bathroom can be adjusted with a heat pump type It is designed to be more efficient than a configuration with just an air conditioner.
[0037]
As shown in FIG. 5, a compressor 35, an outdoor unit heat exchanger 34, and the like are accommodated in the outdoor unit.
[0038]
The dryer 29 includes drying heat exchangers 31 and 32, a circulation fan 30, a ventilation fan 33, and the like, and is disposed on the ceiling of the bathroom.
[0039]
The compressor 35 of the outdoor unit is operated with a compression capacity corresponding to the load of each heat exchanger by inverter frequency control.
[0040]
In the drying operation mode, both or one of the drying heat exchangers 31 and 32 in the dryer 29 is used as a condenser of the heat pump, and the ventilation function is operated simultaneously or intermittently with the operation. 35, the temperature or pressure of the refrigerant is detected directly or indirectly by the sensor 36 between the discharge side of the refrigerant or between the compressor and the condenser of the indoor unit, and the rotational speed of the compressor 35 or the circulation air volume of the dryer 29 or The cooling air flow for the outdoor unit or the cooling fan 37 for the compressor is controlled.
[0041]
In addition, when the detection value of the sensor 36 is lower than a preset value, the compressor is driven and hot air is blown from the circulation blower, while the detection value of the sensor 36 reaches a preset value. In this case, as shown in the timing chart in the case of controlling the rotational speed of the compressor 35 shown in FIG. 6, the compressor is automatically paused or the rotational speed of the compressor is arbitrarily reduced.
[0042]
The method of ventilating moisture evaporated from clothing while emitting warm air from the indoor unit of the bathroom drying device has good drying efficiency, but the compressor locks when the refrigerant of the heat pump reaches high temperature and pressure, so in this example Thus, by detecting the refrigerant state and controlling the compressor rotation speed, the heat pump is moved to near the limit, and efficient drying can be performed in the widest possible temperature range.
[0043]
Further, as shown in the timing chart in the case of controlling the circulating air volume of the dryer 29 shown in FIG. 7, when the detected value of the sensor 36 reaches a preset value, the air volume of the indoor circulating fan is arbitrarily increased. You may let them.
[0044]
In this case, when the refrigerant is near the limit of high temperature and high pressure, the amount of circulating air passing through the condenser of the indoor unit is gradually increased to cool the refrigerant, and the effect of drying clothes can be improved by high-speed air. However, since the noise deteriorates, the circulation air volume is returned to the normal state when there is a margin in the refrigerant temperature.
[0045]
Further, as shown in the timing chart in the case of controlling the cooling air flow rate of the outdoor unit shown in FIG. 8, when the detection value of the sensor 36 reaches a preset value, the air flow rate of the evaporator blower of the outdoor unit May be arbitrarily reduced.
[0046]
In this case, when the refrigerant is near the limit of high temperature and high pressure, the air flow of the outdoor unit is gradually reduced to suppress the heat given to the evaporator, and the heat pump is changed without greatly changing the circulating air volume of the indoor unit. You can continue driving.
[0047]
When the detection value of the sensor 36 reaches a preset value, the compressor cooling fan disposed near the compressor of the outdoor unit may be rotated to cool the compressor.
[0048]
In this case, when the refrigerant of the heat pump becomes high temperature and high pressure, the compressor is locked. Forcibly cooling the compressor can prevent the compressor from being locked.
[0049]
As shown in FIG. 9, when the detection value of the sensor 36 reaches a preset value, one of the drying heat exchangers 31 and 32 on the upstream side of the circulation fan 30 is used as a condenser, and the other And the reheating valve 15 is closed, the bypass valve 22 is opened, the refrigerant is circulated, and further, the refrigerant is circulated through a capillary tube for expanding the refrigerant interposed between the condenser and the evaporator. Also good.
[0050]
As a result, when the refrigerant reaches the high-temperature and high-pressure limit, a part of the heat exchanger of the indoor unit is used as an evaporator, dehumidifying air is sent out without blowing hot air into the bathroom, and the indoor temperature rise is suppressed, so that a dry operation in midsummer can be performed. Can be possible.
[0051]
In FIG. 5, a room temperature sensor 38 is provided on the air intake side of the indoor unit in the bathroom, temperature sensors 40 and 41 are provided at arbitrary positions of the heat exchangers in the bathroom indoor unit and the outdoor unit, and the air in the heat exchanger for the outdoor unit. A temperature sensor 39 is installed on the suction side, and the rotation speed of the compressor, the rotation speed of the circulation fan, the rotation speed of the outdoor fan or the rotation speed of the ventilation fan is arbitrarily changed according to the value of each sensor. Yes.
[0052]
As a result, when the outside air temperature is high, it is possible to increase the circulating air volume of the indoor unit in advance or reduce the air volume of the outdoor unit in advance, thereby making it difficult for the refrigerant to become high temperature and high pressure. In addition, the detected value from the temperature sensor of the indoor unit can adjust the rotation speed of the compressor, indoor blower, outdoor blower, and ventilation blower to comprehensively control the system and maximize the efficiency of the device. .
[0053]
FIG. 10 shows that the dryer 43 is embedded in the ceiling of the bathroom, and an opening is provided on a part of the side surface or upper surface of the dryer outer wall on the downstream side of the drying heat exchanger built in the dryer 43. The washroom unit 47 installed in the washroom is connected by a communication duct 46 on the back of the ceiling, and the air cooled or warmed by the drying heat exchanger in the dryer is sucked by the blower 48 of the washroom unit 47 and is washed. The structure which blows off cold air or warm air to a room is shown.
[0054]
With such a configuration, it is possible to construct an inexpensive system capable of heating, cooling, and drying two closed spaces of a high-humidity bathroom and a washroom with one indoor unit.
[0055]
A heat insulating material 49 is provided around the communication duct 46 on the back of the ceiling to suppress the heat loss of hot air and cold air passing through the duct on the back of the ceiling, thereby improving the air conditioning effect of the adjacent room.
[0056]
An air heater 50 such as an electric heater or a condenser of a heat pump or a heat exchanger for passing hot water is provided on the outlet side of the blower 48 of the washroom unit 47.
[0057]
If hot air is generated using the heat exchanger of the indoor unit in the bathroom as a condenser, the steam in the bathroom does not condense and is brought directly into the washroom, causing a problem that the absolute humidity of the washroom increases. Although there is a possibility, in this embodiment, since the warm air in the bathroom is realized by using the air heating means 50 of the bathroom unit, the occurrence of the above-mentioned problem can be prevented.
[0058]
A suction direction switching damper 51 is provided on the suction side of the blower 48 of the washroom unit 47, and the air cooled or warmed by the drying heat exchanger in the dryer on the bathroom side is sucked by the blower 48 of the washroom unit, It is possible to switch between a case where cool air or warm air is blown into the room and a case where air in the washroom is sucked and heated by the heating means 50 and circulated.
[0059]
As a result, when hot air is circulated in the bathroom, the communication port with the bathroom unit is closed with a damper to prevent the inhalation of steam from the bathroom, and in the case of cold air, the damper is switched to communicate with the bathroom unit side. I have to.
[0060]
When the air cooled or warmed by the drying heat exchanger in the bathroom-side dryer is sucked by the blower 48 of the washroom unit, the circulation blower 45 of the bathroom-side dryer is further effective at low speed. Can be raised.
[0061]
That is, turning the fan of the bathroom unit and sucking in cold air or hot air generated in the bathroom unit will not allow sufficient air to flow through the entire heat exchanger of the bathroom unit, so there will be frost locally, etc. However, by rotating the blower on the bathroom side at a low speed, generation of frost and the like can be prevented and the heat exchange efficiency can be increased.
[0062]
FIG. 11 shows an embodiment in which the washroom unit 52 is embedded in the wall between the bathroom and the washroom or in the ceiling of the washroom.
[0063]
In this case, the accommodation in the toilet space can be improved, and up to five duct connection surfaces to the toilet unit main body can be taken, increasing the degree of freedom of duct connection.
[0064]
FIG. 12 shows an example of an operation remote controller 55 that can instruct the operation of the apparatus. The operation remote controller communicates with an infrared communication type, a radio wave communication type, or an electric wire.
[0065]
Therefore, if a communication means is provided in the washroom unit, communication by wired, infrared or radio waves is possible, the apparatus can be operated remotely, and usability can be improved.
[0066]
The operation unit of the remote controller 55 includes a bathroom heating operation switch 56, a bathroom cooling operation switch 57, a bathroom drying operation switch 58, a bathroom ventilation operation switch 59, a washroom heating operation switch 60, a washroom cooling operation switch 61, and a washroom dehumidifying switch. An operation switch 62 and a dryer operation switch 63 are provided.
[0067]
This allows centralized air conditioning control of two spaces such as bathroom ventilation operation, bathroom heating operation, bathroom drying operation, washroom heating operation, washroom dehumidifying operation, and washroom cooling operation with a remote control installed at the washroom side. Become.
[0068]
FIG. 13 is a timing chart showing an example of operation control in the washroom unit operation mode and bathroom ventilation mode. The bathroom ventilation function is operated in the initial startup time zone for each operation mode during washroom heating operation, washroom dehumidification operation, or washroom cooling operation.
[0069]
As a result, in the initial startup time zone, the humidity of the bathroom is often high, such as after bathing, and frost is likely to form on the evaporator of the indoor unit, but frosting can be avoided by performing ventilation operation in advance. .
[0070]
FIG. 14 is a perspective view of the embodiment. A dew condensation water receiver 73 is provided below the drying heat exchanger 69 in the bathroom dryer 65 which is closer to the upright position. A condensed water discharge pump 74 is installed in the condensed water receiver 73 below the drying heat exchanger 69 so that the amount of accumulated water is detected and the condensed water can be discharged out of the apparatus through a pipe.
[0071]
Thus, by providing the dew condensation water receiver 73, the fall of the dew condensation water in the bathroom is prevented. In addition, the dew condensation water receiver 73 is limited to only necessary portions to achieve a compact size. In addition, since the indoor unit is attached to the bathroom ceiling, it may not be possible to take a downward slope in the water channel to the outdoors, so the pump is temporarily driven when necessary to perform forced drainage.
[0072]
FIG. 15 is a perspective view of the embodiment. A wind direction control means 76 is provided at the outlet of the dryer in the bathroom, and the wind direction control means has a swing operation function or a function capable of stopping at a specified position.
[0073]
This makes it possible to achieve drying for a short period of time by applying evenly the clothes on the clothes suspended in the bathroom, especially during the drying operation.Therefore, the wind direction control unit can be swung, or the wind direction can be intermittently stopped at multiple positions. If it can be changed, the drying effect can be improved.
[0074]
Furthermore, since the wind direction requirements are different for each of the drying mode, heating before bathing, and heating during bathing, the stop position of the wind direction control unit is set for each operation mode of heating mode, drying mode, and cold wind mode. A function that can be assigned is also provided, so that an optimum wind direction can be set for each operation mode.
[0075]
In addition, since the relative position of the bathroom unit and the person or clothing is considered to vary depending on the site, if the detection means for detecting the existence range of the object to be dried or the means for detecting the presence of the person is incorporated in the bathroom dryer, The swing angle or stop position of the wind direction control unit can be automatically optimized.
[0076]
FIG. 16 is a timing chart showing the current value of the compressor or the entire apparatus and the rotation speed of the compressor. In the drying operation mode, one or both of the heat exchangers for the dryer in the dryer is used as a heat pump condenser, and the ventilation function is activated simultaneously or intermittently with the operation to detect the current value flowing through the compressor or the entire device. If the detected value is lower than the preset value, the compressor is driven, hot air is blown from the circulation fan, and the compressor is automatically turned on when the detected value reaches the preset value. It is possible to temporarily stop or arbitrarily reduce the rotational speed of the compressor.
[0077]
In this case, instead of detecting the temperature and pressure state of the refrigerant, instead of using the compressor load state and detecting the current value, the temperature sensor and pressure sensor are not used, and the heat pump during drying is simply used. Control is possible.
[0078]
【The invention's effect】
In this invention of Claim 1, while connecting the ventilation fan arrange | positioned in the bathroom to an air conditioner, the several heat exchanger which functions as a condenser or evaporator of a heat pump to the circulation fan of the air conditioner Connected to the air blower for ventilation and the heat exchanger, so that it can be operated in each operation mode of ventilation operation, heating operation, drying operation, and cooling operation. By linking the blower for the bathroom, it is possible to discharge the steam in the bathroom after bathing and the evaporated moisture from the clothes when drying the clothes, and the humidity adjustment in the bathroom is more efficient than the configuration of only the heat pump air conditioner Can be done.
In addition, an indoor unit is embedded in the ceiling of either the bathroom or the washroom, and a blower is disposed in the other chamber, and is located downstream of the heat exchanger built in the indoor unit and An opening is provided in a part of the side surface or the upper surface, the opening and the blower are connected to each other by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower. Therefore, it is possible to construct an inexpensive system that can heat, cool and dry two closed spaces of a high humidity bathroom and a washroom with a single indoor unit.
In addition, air heaters such as an electric heater or a heat pump condenser or a heat exchanger that passes hot water are provided in the blower, so that the steam in the bathroom is brought into the washroom without condensation and the absolute humidity of the washroom is reduced. It can be prevented from rising.
In addition, a suction direction switching mechanism is provided on the suction side of the blower disposed in the washroom, and the air cooled or warmed by the heat exchanger in the indoor unit is sucked by the blower in the washroom and cool or warm air is supplied to the washroom. Since it is possible to switch between the case of blowing out and the case where the air in the washroom is sucked and heated and circulated by the air heating means, when the hot air is circulated in the washroom, a communication port with the bathroom unit is provided with a damper. Blocks and prevents the inhalation of steam from the bathroom, and in the case of cold air, the damper can be switched to communicate with the bathroom unit side.
[0079]
In the present invention described in claim 2,A ventilation fan arranged in the bathroom is linked to the air conditioner, and a plurality of heat exchangers functioning as condensers or evaporators of the heat pump are connected to the circulation fan of the air conditioner. Because it is configured to be able to operate in each operation mode of ventilation operation, heating operation, drying operation, and cooling operation depending on the combination with the heat exchanger, bathing is possible by interlocking the air conditioner in the bathroom with the ventilation fan It becomes possible to discharge the steam in the bathroom later and to discharge the evaporated water from the clothes when the clothes are dried, and the humidity in the bathroom can be adjusted more efficiently than the configuration of only the heat pump air conditioner.
In addition, an indoor unit is embedded in the ceiling of either the bathroom or the washroom, and a blower is disposed in the other chamber, and is located downstream of the heat exchanger built in the indoor unit and An opening is provided in a part of the side surface or the upper surface, the opening and the blower are connected to each other by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower. Therefore, it is possible to construct an inexpensive system that can heat, cool and dry two closed spaces of a high humidity bathroom and a washroom with a single indoor unit.
When the air cooled or warmed by the heat exchanger in the indoor unit is sucked by the blower, since the circulation fan of the indoor unit is driven at a low speed, frosting or the like locally occurs. To increase heat exchange efficiencybe able to.
[0080]
In the present invention described in claim 3,A ventilation fan arranged in the bathroom is linked to the air conditioner, and a plurality of heat exchangers functioning as condensers or evaporators of the heat pump are connected to the circulation fan of the air conditioner. Because it is configured to be able to operate in each operation mode of ventilation operation, heating operation, drying operation, and cooling operation depending on the combination with the heat exchanger, bathing is possible by interlocking the air conditioner in the bathroom with the ventilation fan It becomes possible to discharge the steam in the bathroom later and to discharge the evaporated water from the clothes when the clothes are dried, and the humidity in the bathroom can be adjusted more efficiently than the configuration of only the heat pump air conditioner.
In addition, an indoor unit is embedded in the ceiling of either the bathroom or the washroom, and a blower is disposed in the other chamber, and is located downstream of the heat exchanger built in the indoor unit and An opening is provided in a part of the side surface or the upper surface, the opening and the blower are connected to each other by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower. Therefore, it is possible to construct an inexpensive system that can heat, cool and dry two closed spaces of a high humidity bathroom and a washroom with a single indoor unit.
Moreover, since it is comprised so that an indoor unit and a fan can be operated with a remote control means, usability can be improved.
The remote control unit has a bathroom ventilation operation switch, a bathroom heating operation switch, a bathroom drying operation switch, a bathroom heating operation switch, a bathroom dehumidifying operation switch, and a bathroom cooling operation switch. With the remote control installed in the room, centralized air conditioning control of two spaces such as bathroom ventilation operation, bathroom heating operation, bathroom drying operation, washroom heating operation, washroom dehumidifying operation, and washroom cooling operation becomes possible.
In addition, because the bathroom ventilation function is activated at the start of operation for each operation mode during washroom heating operation, washroom dehumidification operation, or washroom cooling operation, frosting can be avoided.it can.
[0081]
BookIn the invention, when the temperature or pressure of the refrigerant of the compressor of the outdoor unit reaches a preset value during the drying operation mode, the air volume of the cooling fan of the outdoor unit is arbitrarily reduced. When the temperature reaches the limit of high temperature and pressure, the air flow of the outdoor unit is gradually reduced to suppress the heat applied to the evaporator, and the operation of the heat pump can be continued without greatly changing the circulating air volume of the indoor unit.
[0082]
BookIn the invention, when the refrigerant temperature or pressure of the compressor of the outdoor unit reaches a preset value during the drying operation mode, the compressor cooling fan disposed in the vicinity of the compressor of the outdoor unit is rotated. Since the compressor is cooled, it is possible to prevent the lock by forcibly cooling the compressor before the refrigerant of the heat pump becomes hot and high pressure and the compressor is locked.
[0083]
BookIn the invention, when the temperature or pressure of the refrigerant of the compressor of the outdoor unit reaches a preset value during the drying operation mode, a part of the heat exchanger connected to the circulation fan is functioned as a condenser, Since the refrigerant is circulated through the capillary tube for expanding the refrigerant interposed between the condenser and the evaporator so that a part of the refrigerant functions near the limit of the high temperature and high pressure, A part of the heat exchanger of the indoor unit is an evaporator, and dehumidifying air is generated without generating warm air in the bathroom to suppress an increase in indoor temperature, and drying operation can be performed even at high temperatures such as midsummer.
[0084]
BookIn the invention, a room temperature sensor is arranged in the indoor unit, a temperature sensor is arranged in each heat exchanger of the indoor unit and the outdoor unit, an outside air temperature sensor is arranged in the outdoor unit, and the temperature detected by each sensor is changed. Therefore, the rotation speed of the compressor, the rotation speed of the circulation fan, the rotation speed of the cooling fan or the rotation speed of the ventilation fan is changed. Increasing the air volume or lowering the air volume of the outdoor unit makes it difficult for the refrigerant to become high temperature and high pressure, and the detected value from the temperature sensor of the indoor unit, the compressor, the indoor fan, the outdoor fan, By adjusting the rotation speed of the ventilation blower, the system can be comprehensively controlled to maximize the efficiency of the device.
[0086]
BookIn the invention, since the heat insulating material is provided around the duct, heat loss of hot air and cold air passing through the duct can be suppressed, and the air conditioning effect can be improved.
[0090]
BookIn the invention, since the blower is embedded in the wall between the bathroom and the washroom or in the ceiling of the washroom, the fit in the washroom space can be improved, and up to five duct connection surfaces to the washroom unit main body can be provided. Thus, the degree of freedom of duct connection can be increased.
[0094]
BookIn the invention, since the condensed water receiving part is provided below the evaporator in the indoor unit of the bathroom, it is possible to prevent the condensed water from falling in the bathroom.
[0095]
BookIn the invention, since the heat exchanger closer to the upright is used as the evaporator and the dew condensation water receiving part is provided in the lower part thereof, the dew condensation water receiver is limited to a necessary portion, and the compactness can be achieved.
[0096]
BookIn the invention, a pump is installed in the dew condensation water receiving part below the evaporator, and it is configured so that the amount of accumulated water can be detected and the dew condensation water can be discharged out of the device via the piping. It can be driven to perform forced drainage.
[0097]
BookIn the invention, the wind direction control means is provided at the outlet of the indoor unit of the bathroom, and the wind direction control unit has a swing operation function or a function that can be stopped at a specified position, so that it is suspended in the bathroom particularly during the drying operation. Drying can be achieved for a short time by evenly blowing the clothes.
[0098]
BookIn the invention, since the stop position of the wind direction control unit is assigned to each operation mode of the heating mode, the drying mode, and the cold air mode, the optimum air direction can be set for each operation mode.
[0099]
BookIn the invention, the indoor unit in the bathroom has a detection means for detecting the existence range of the object to be dried or a means for detecting the presence of a person, and automatically changes the swing angle or stop position of the wind direction control unit. In each operation mode, it is possible to detect the position of the person and the position of the clothing at that time and adjust the wind direction to the optimum.
[0100]
BookIn the invention, in the drying operation mode, part or all of the heat exchanger in the indoor unit is used as a condenser of the heat pump, the ventilation function is operated simultaneously or intermittently with the operation, and the current value flowing through the compressor or the entire apparatus is determined. If the detected value falls below a preset value, the compressor is driven, hot air is blown from the circulation fan, and if the detected value reaches a preset value, the compressor is automatically Therefore, instead of detecting the temperature and pressure state of the refrigerant, instead of detecting the temperature and pressure state of the compressor, the load value of the compressor is used instead to detect the current value, and the temperature sensor, Without using a pressure sensor, it is possible to easily control the heat pump during drying.
[0101]
BookIn the invention, since the refrigerant is carbon dioxide, the temperature of the condenser can be increased as compared with the chlorofluorocarbon refrigerant, and the drying efficiency can be improved.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a conventional bathroom drying apparatus.
FIG. 2 is an explanatory view showing a drying unit equipped with a conventional drying heat exchanger and a ventilation fan.
FIG. 3 is a refrigerant circuit diagram of a bathroom drying apparatus according to the present invention.
FIG. 4 is an explanatory diagram showing an operation remote controller.
FIG. 5 is a configuration diagram showing a bathroom drying apparatus.
FIG. 6 is a timing chart showing an example of operation control of refrigerant temperature or pressure and compressor speed.
FIG. 7 is a timing chart showing an example of operation control of refrigerant temperature or pressure and indoor unit circulation air volume.
FIG. 8 is a timing chart showing an example of operation control of refrigerant temperature or pressure and outdoor unit air flow.
FIG. 9 is a refrigerant circuit diagram as another embodiment.
FIG. 10 is a configuration diagram showing a bathroom drying apparatus as another embodiment.
FIG. 11 is a perspective view of the same.
FIG. 12 is an explanatory diagram showing an operation remote controller.
FIG. 13 is a timing chart showing an example of operation control in a washroom unit operation mode and a bathroom ventilation mode.
FIG. 14 is a perspective view showing a dryer.
FIG. 15 is a sectional view of the same.
FIG. 16 is a timing chart showing the current value of the compressor or the entire apparatus and the rotation speed of the compressor.
[Explanation of symbols]
1 Drying unit
2 Blower for ventilation
3 indoor air conditioners
4 Outdoor unit
5 Drying operation remote control
6 Blower for circulation
7 Heat exchanger for drying
8 Ventilator for ventilation
9 Temperature sensor
10 Humidity sensor
11 Drying unit
12 Blower for circulation
13 Heat exchanger for drying
14 Heat exchanger for drying
15 Reheating valve
16 Capillary tube
17 Blower for ventilation
18 Compressor
19 Four-way valve
20 Cooling blower
21 outdoor unit heat exchanger
22 Bypass valve
23 Capillary tube
24 Remote control for bathroom dryer
25 Ventilation mode switch
26 Heating operation mode switch
27 Drying mode switch
28 Cooling operation mode switch
29 Dryer
30 Blower for circulation
31 Heat exchanger for drying
32 Heat exchanger for drying
33 Blower for ventilation
34 Outdoor unit heat exchanger
35 Compressor
36 Temperature sensor or pressure sensor
37 Cooling fan for compressor
38 Room temperature sensor
39 Temperature sensor for outdoor unit heat exchanger
40 Temperature sensor for heat exchanger
41 Temperature sensor for heat exchanger
43 Dryer
44 Blower for ventilation
45 Blower for circulation
46 Communication duct
47 Washroom unit
48 Blower for washroom unit
49 Thermal insulation
50 Air heating means
51 Switching damper
52 Built-in washroom unit
53 Dryer
54 Outdoor unit
55 Remote control for operation
56 Bathroom heating operation switch
57 Bathroom cooling operation switch
58 Bathroom drying operation switch
59 Bathroom ventilation operation switch
60 Washroom heating switch
61 Washroom cooling operation switch
62 Washroom dehumidification operation switch
63 Dryer operation switch
65 dryer
66 Ventilation duct
67 Control board
68 Blower for circulation
69 Heat exchanger for drying
70 Heat exchanger for drying
71 Air outlet
72 Suction port
73 Condensate receiver
74 Condensate drain pump
75 dryer
76 Wind direction control means

Claims (3)

An indoor unit comprising a circulation fan for circulating the air in the bathroom, a heat exchanger through which the refrigerant passes, and an outdoor unit comprising a compressor for compressing the refrigerant, a heat exchanger through which the refrigerant passes, and a cooling fan. In a bathroom drying apparatus comprising a heat pump type air conditioner to be configured and interlockingly connecting a ventilation fan arranged in the bathroom to the air conditioner.
Connecting a plurality of heat exchangers functioning as condensers or evaporators of heat pumps to the circulation fan of the air conditioner ,
An indoor unit is embedded in the ceiling of one of the bathroom and the washroom, and a blower is disposed in the other chamber, and the downstream side of the heat exchanger built in the indoor unit, An opening is provided in a part of the upper surface, the opening and the blower are connected and connected by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower.
An air heating means such as an electric heater or a heat pump condenser or a heat exchanger for passing hot water is provided in the blower,
A suction direction switching mechanism is provided on the suction side of the blower disposed in the washroom, and the air cooled or warmed by the heat exchanger in the indoor unit is sucked by the blower in the washroom and cool air or warm air is blown into the washroom. A bathroom drying apparatus characterized in that it can be switched between a case of taking out and a case of sucking air in a washroom and heating and circulating it by the air heating means . An indoor unit comprising a circulation fan for circulating the air in the bathroom, a heat exchanger through which the refrigerant passes, and an outdoor unit comprising a compressor for compressing the refrigerant, a heat exchanger through which the refrigerant passes, and a cooling fan. In a bathroom drying apparatus comprising a heat pump type air conditioner to be configured and interlockingly connecting a ventilation fan arranged in the bathroom to the air conditioner.
Connecting a plurality of heat exchangers functioning as condensers or evaporators of heat pumps to the circulation fan of the air conditioner,
An indoor unit is embedded in the ceiling of one of the bathroom and the washroom, and a blower is disposed in the other chamber, and the downstream side of the heat exchanger built in the indoor unit, An opening is provided in a part of the upper surface, the opening and the blower are connected and connected by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower.
Wherein when sucking the indoor unit heat exchanger in the cooled or heated air blower, a bath room drying device you characterized that you drive the circulating blower of the indoor unit at a low speed. An indoor unit comprising a circulation fan for circulating the air in the bathroom, a heat exchanger through which the refrigerant passes, and an outdoor unit comprising a compressor for compressing the refrigerant, a heat exchanger through which the refrigerant passes, and a cooling fan. In a bathroom drying apparatus comprising a heat pump type air conditioner to be configured and interlockingly connecting a ventilation fan arranged in the bathroom to the air conditioner.
Connecting a plurality of heat exchangers functioning as condensers or evaporators of heat pumps to the circulation fan of the air conditioner,
An indoor unit is embedded in the ceiling of one of the bathroom and the washroom, and a blower is disposed in the other chamber, and the downstream side of the heat exchanger built in the indoor unit, An opening is provided in a part of the upper surface, the opening and the blower are connected and connected by a duct, and air cooled or warmed by a heat exchanger in the indoor unit is blown by the blower.
Configure indoor units and blowers to be operated by remote control means,
The remote control unit has a bathroom ventilation operation switch, a bathroom heating operation switch, a bathroom drying operation switch, a washroom heating operation switch, a washroom dehumidifying operation switch, and a washroom cooling operation switch,
Lavatory heating operation or when lavatory dehumidification for each operation mode or when wash chamber cooling operation operation, starting at the beginning bathroom ventilating function to that bath chamber drying device, characterized in that to operate the on.

Images