JP3427097B2 - Sanitary ventilation drying system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bathroom, a washroom,
The present invention relates to a sanitary ventilation drying system for performing ventilation drying of sanitaries such as toilets. 2. Description of the Related Art Sanitary facilities, such as bathrooms, washrooms, and toilets, are often arranged adjacent to each other because of the surroundings of water. In such a case, it is desirable to share the ventilation equipment to effectively use the space and reduce the cost. Recently, it has been considered to use the bathroom as a laundry drying room. For example, according to the technique disclosed in Japanese Utility Model Publication No. 3-6312, the ventilation of the bathroom unit and the toilet unit is performed by one ventilation unit to which each exhaust duct is connected, while the bathroom unit is controlled by the dryer unit. The laundry stored inside is dried. [0004] In an apartment house or the like, the ventilation of the bathroom, the washroom, and the toilet (hereinafter collectively referred to as sanitary) is performed collectively by using one ventilation unit as described above, and the ventilation for the bathroom is performed. Units and ventilation units for washrooms and toilets may be provided. When two ventilation units are provided as described above, a single exhaust duct is formed using a two-layer pipe or a Y pipe in order to simplify the construction. [0005] However, such a conventional sanitary ventilation drying system sufficiently removes moisture generated in a washroom and moisture leaking from a bathroom due to the spread of clothes dryers and shampoo basins. It was not possible to spread the moisture from the sanitary to the living room, causing condensation on the ceiling and walls, which caused mold. Also, when ventilating the bathroom,
The circulation blower and the ventilation blower of the bathroom drying unit had to be operated, and the efficiency was poor. Furthermore, there was a problem that the moisture in the bathroom leaked to the toilet or the washroom, and the smell of the toilet leaked to the bathroom. In addition, there is a case where two ventilation units are operated at the same time to enhance the ventilation, but there is a problem that the operation noise is undesirably increased. In addition, when the bathroom and toilet are ventilated, the bathroom is also ventilated at the same time, so that there is a problem that the bather feels cold. The present invention has been made in view of such circumstances, and prevents mold from occurring in a living room, leakage of moisture from a bathroom to a toilet or a washroom, and leakage of odor from a toilet to a bathroom. It is an object of the present invention to provide a sanitary ventilation drying system capable of efficiently drying and drying only the right place while suppressing the operation noise. [0007] To achieve the above object, according to an aspect of, sanitary ventilation drying system of claim 1, the bath
It is installed on the ceiling of the room to circulate or exhaust air in the bathroom.
Bathroom drying with circulation fan and drying means
Unit, toilet vent provided in toilet room and
Air in each room is sucked in from the washroom ventilation holes provided in the washroom.
A ventilation blower is provided to vent the air to the outside
Collective ventilation unit, the bathroom drying unit and the
A connection duct connecting the combined ventilation unit and the circulation duct
It has a blower and a control unit for driving the ventilation blower.
Sanitary ventilation drying system, wherein said connection duct
In addition to providing an open / close damper that blocks the flow of air inside,
Providing a humidity sensor in the washroom and controlling the
In some cases, the humidity sensor detects that the humidity in the washroom is high.
Is detected and linked to the independent drive of the ventilation blower
Is set to close the damper, and the toilet ventilation
Ventilation mode is selected when the ventilation mode is selected.
Set to close the damper in conjunction with the single drive of the machine
Bathroom drying mode and clothes drying mode are selected
And open the damper in conjunction with the drive of the circulation blower
It is characterized by being set to . [0008] According to the sanitary ventilation and drying system of the first aspect, the high humidity air discharged from the bathroom is supplied to the ventilation fan driven in conjunction with the driving of the circulation fan. , And is exhausted outside through the connection duct. In addition, the circulation blower suppresses the increase in space and weight, and even if a relatively small one is used, the ventilation blower is further pressurized and exhausted, so that the blower volume is sufficient, and the bathroom drying unit is The drying function can be sufficiently brought out.
When the humidity sensor detects that the humidity in the washroom is high, the ventilation blower is driven alone and the opening / closing damper is closed, so that the air flowing from the connection duct to the collective ventilation unit is blocked. Flow is interrupted.
Also, when ventilation in the toilet room or the washroom is performed, the ventilation blower is driven alone. At this time, the opening / closing damper is closed, and the flow of the air flowing from the connection duct to the collective ventilation unit is cut off. For this reason, even when intensively ventilating the toilet room and the washroom using the collective ventilation unit, the ventilation flow rate can be sufficiently ensured, and the ventilation efficiency is good. In addition, high humidity air that has flowed in from the connection duct before the opening / closing damper is closed and high humidity air that has flowed in when the bathroom door is opened and closed can also be exhausted to maintain low humidity, resulting in mold and condensation. Is less likely to occur. Moreover, since the air containing the bad smell generated in the toilet room and the washroom does not flow back to the bathroom through the connection duct, there is no discomfort or cold for the bather. Embodiments of the present invention will be described below with reference to the drawings. (Embodiment 1) In FIG. 1, reference numeral 1 denotes a bathroom unit, and a ceiling portion 1a thereof.
Is provided with a bathroom drying unit 2. The bathroom drying unit 2 includes a circulation blower 3 for circulating or exhausting air in the bathroom 1b and a bathroom 1 as shown in FIGS.
A heat source (heater) 4 is provided as drying means for drying the inside of b. On the bathroom 1 side (lower surface side) of the bathroom drying unit 2, a decorative panel 2e is provided. The decorative panel 2e has a suction port 2b for sucking air in the bathroom 1.
An outlet 2c for blowing air into the bathroom 1 is formed. Dust collection filters 2d, 2d are detachably attached to the suction port 2b and the outlet port 2c. An exhaust side opening 2a for discharging air sent from the circulation blower 3 is formed on a side surface of the bathroom drying unit 2. A toilet side ventilation port 5 is provided in the toilet 1c adjacent to the bathroom 1b. A washroom side ventilation port 9 is provided in the washroom 1d adjacent to the bathroom 1b and the toilet 1c. A collective ventilation unit 10 is provided separately from the bathroom drying unit 2 in the upper part of the washroom 1d, which is behind the ceiling near sanitary. The collective ventilation unit 10 is miniaturized in order to reduce the weight and to make effective use of the space above the ceiling, so that the mounting process can be simplified. The collective ventilation unit 10 is connected to the exhaust side opening 2a of the bathroom drying unit 2 by a connection duct 7, and exhaust air sent from the circulation blower 3 is sent into the collective ventilation unit 10. The collective ventilation unit 10 is connected to the toilet side ventilation port 5 and the washroom side ventilation port 9 by a toilet connection duct 11 and a washroom connection duct 12. The collective ventilation unit 10 sucks the air from the toilet side ventilation port 5 and the washroom side ventilation port 9 and sends the room 1 c, 1
A ventilation blower 6a that draws in the air of d and exhausts the air to the outside through the main duct 8 is provided. An opening / closing damper unit 13 as shown in FIGS. 4 and 5 is provided in the exhaust side opening 2a of the bathroom drying unit 2.
Are arranged. This opening / closing damper unit 13 includes:
An opening / closing damper 14 as an opening / closing valve for shutting off the flow of air in the connection duct 7 is provided. This opening / closing damper 14
Is an eccentric shaft that is rotatably supported by a rotating shaft 14a and is eccentrically oscillated by being provided in a groove 14b formed in a side portion at an eccentric position with respect to a rotating shaft 15a of a motor 15. The opening and closing drive is performed by inserting the shutter 16 and rotating in the direction indicated by the arrow in FIG. 5. [0017] Bathroom drying unit 2, collective ventilation unit 1
0 and the motor 15 have a controller 1 as a control unit.
7 are electrically connected. The controller 17 is configured to drive the ventilation blower 6a in conjunction with the driving of the circulation blower 3 by selecting the bathroom drying mode and the clothes drying mode as shown in FIG. A humidity sensor 18 is connected to the controller 17. The humidity sensor 18 is configured to detect the humidity in the washroom 1d and drive the ventilation blower 6a according to the detection state. The controller 17 is connected to a mode selection switch 19 which is disposed on the wall of the washroom 1d and switches between the ventilation modes, and is disposed on the wall of the toilet room 1c. A toilet ventilation switch 20 for selecting a toilet ventilation mode is connected to each other. The controller 17 determines whether the toilet ventilation mode has been selected by the toilet ventilation switch 20,
It is set so that the opening / closing damper 14 is closed when the circulating blower 3 is stopped, in a case where the washroom ventilation mode is manually selected by the mode changeover switch 19. The controller 17 is set such that the open / close damper 14 is closed when the cool air mode and the bathroom heating mode are selected by the mode changeover switch 19. Further, in this controller 17,
The opening / closing damper 14 is set to be closed at the time of high humidity according to the detection state of the humidity sensor 18. In the sanitary ventilation drying system having such a configuration, when the bathroom drying mode and the clothes drying mode are selected by the controller 17, the ventilation blower 6a is driven in conjunction with the driving of the circulation blower 3. Therefore, the high-humidity air discharged from the bathroom 1b by the driving of the circulation blower 3 is exhausted to the outside by the ventilation blower 6a through the connection duct 7. Further, the circulation blower 3 suppresses an increase in space and weight, so that even if a relatively small one is used, ventilation can be performed.
Since the air is exhausted by being further pressurized by the air blower 6a, the air blowing amount is sufficient, and the drying function of the bathroom drying unit 2 can be sufficiently drawn out. When the humidity sensor 18 detects that the humidity in the washroom 1d is high, the ventilation fan 6a
Is driven alone, the opening / closing damper 14 turns around the shaft 14a and is closed, so that the flow of air flowing from the connection duct 7 into the collective ventilation unit 10 is cut off. When the toilet ventilation mode or the washroom ventilation mode is selected, the ventilation blower 6a is turned on, the ventilation in the toilet room 1c or the washroom 1d is performed, and the ventilation blower 6a is driven alone. . At this time, the opening / closing damper 14 is closed, and the flow of the air flowing into the collective ventilation unit 10 from the connection duct 7 is shut off. Therefore, even when the toilet room 1c and the washroom room 1d are intensively ventilated using the collective ventilation unit 14, the ventilation flow rate can be sufficiently ensured, and the ventilation efficiency is good. Therefore, even if a high humidity generating device such as a clothes dryer or a shampoo basin is placed in the washroom 1d, the humidity can be kept low. Further, the high humidity air flowing from the connection duct 7 before the opening / closing damper 14 is closed and the high humidity air flowing from the opening and closing of the bathroom 1b door are also exhausted, so that the low humidity can be constantly maintained. Dew condensation is less likely to occur. Further, ventilation of the toilet room 1d having high humidity can be performed together with the toilet room 1c by using the same collective ventilation unit 14, so that there is no need to separately provide a ventilation fan or the like in the toilet room 1d. Space efficiency can also be improved. Moreover, the air containing the bad smell generated in the toilet room 1c and the washroom room 1d travels through the connection duct 7,
Since there is no backflow to the bathroom 1b, no discomfort is given to the bather. Further, the ventilation blower 6a can be driven independently by manually selecting the toilet ventilation mode or the washroom ventilation mode, so that both the circulation blower 3 and the ventilation blower 6a are driven. Power consumption can be reduced as compared with the case of the first embodiment. Also, in this embodiment, the open / close damper 14 is closed even when the cool air and bathroom heating modes are selected, so that high humidity air does not leak from the bathroom 1b to the other chambers 1c and 1d. In addition, since the bathroom 1b can be substantially sealed, the efficiency of bathroom heating is good. FIG. 7 shows a modification of the first embodiment, in which an on-off butterfly damper 21 is employed as an on-off valve of a sanitary ventilation and drying system. A rotary shaft 14a is rotatably supported at a substantially central portion of the opening / closing butterfly damper 21, and a rotary shaft 15a of the motor 15 is connected to the rotary shaft 21a. In the opening / closing butterfly damper 21 configured as described above, the opening / closing butterfly damper 21 is rotated in the direction shown by the arrow in FIG. Like that. As the drying means, in addition to the heater 4 for performing drying based on a rise in temperature, a dehumidifier for promoting drying by actively performing dehumidification may be employed. Furthermore, by using a dehumidifying agent as the drying means, a driving mechanism for drying can be omitted, and the structure can be simplified and no driving noise can be produced. Second Embodiment FIGS. 8 and 9 show a second embodiment of the present invention. This embodiment provides ventilation,
It provides drying and heating, and the controller controls the ventilation blower 31 by selecting the bathroom ventilation, bathroom drying, bathroom heating, washroom ventilation, and toilet ventilation as shown in FIG. The blower 32 is driven. Further, in the second embodiment, a switch for lighting the room is linked to each ventilation switch. Third Embodiment FIGS. 10 and 11 show a third embodiment of the present invention.
This embodiment provides ventilation and drying in a bathroom, a lavatory, and a toilet, and various modes as shown in FIG. 11 can be selected by a controller similarly to the second embodiment. By this selection, the circulation blower 41
The ventilation blower 42 is driven in conjunction with the driving of the ventilation fan 42. Also in the third embodiment, each ventilation switch
The lighting switches in each room are configured to work together. As described above, according to the first aspect of the present invention, the circulation blower suppresses an increase in space and weight, and can be used even if a relatively small one is used. Ventilation ventilation
Since the air is further pressurized and exhausted by the machine , the amount of air blown is sufficient, and there is an effect that the drying function of the bathroom drying unit can be sufficiently drawn out. In addition, the flow of air flowing into the collective ventilation unit from the connection duct can be shut off, and even when the collective ventilation unit is used to intensively ventilate the toilet room and washroom, sufficient ventilation flow can be ensured. The effect is that the ventilation efficiency is good. In addition, high humidity air that has flowed in from the connection duct before the opening / closing damper is closed and high humidity air that has flowed in when the bathroom door is opened and closed can also be exhausted to maintain low humidity, resulting in mold and condensation. This has the effect of reducing the risk of doing so. In addition, since the air containing the foul odor generated in the toilet room and the washroom does not flow back to the bathroom through the connection duct, there is an effect that the bather does not feel uncomfortable or cold.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective transparent view showing an overall configuration of a sanitary ventilation drying system according to a first embodiment of the present invention. FIG. 2 is a diagram illustrating the flow of air in the main part of the sanitary ventilation and drying system according to the first embodiment. FIG. 3 is an exploded perspective view of a bathroom drying unit of the sanitary ventilation drying system according to the first embodiment. FIG. 4 is a perspective view of an opening / closing damper unit of the sanitary ventilation drying system according to the first embodiment. FIG. 5 is a perspective view illustrating the operation of an on-off valve in the on-off damper unit of the sanitary ventilation and drying system according to the first embodiment. FIG. 6 is a table illustrating an operation in each mode in a control unit of the sanitary ventilation drying system according to the first embodiment. FIG. 7 is a perspective view of an on-off valve as a modification of the first embodiment. FIG. 8 is a circuit diagram of a sanitary ventilation drying system according to a second embodiment of the present invention. FIG. 9 is a table illustrating an operation in each mode in a control unit of the sanitary ventilation drying system according to the second embodiment. FIG. 10 is a circuit diagram of a sanitary ventilation drying system according to Embodiment 3 of the present invention. FIG. 11 is a table illustrating an operation in each mode in a control unit of the sanitary ventilation drying system according to the third embodiment. [Description of Signs] 1a Ceiling 1b Bathroom 1c Toilet 1d Washing Room 2 Bathroom Drying Unit 2b Suction Port 2c Blow Out Port 2d Dust Filter 3 Circulating Blower 4 Heater (Drying Means) 5, 9 Ventilation Port 6a Ventilation Blower 14 Electric Damper 18 Humidity sensor

Continuation of the front page (56) References JP-A-4-295529 (JP, A) JP-A-3-79940 (JP, A) JP-A-4-353334 (JP, A) , U) (58) Field surveyed (Int.Cl. ⁷ , DB name) F24F ^7/ 04-7/06

Claims (1)

(57) [Claims] [Claim 1] It is disposed on a ceiling portion of a bathroom, and
Circulating blower and drying means for circulating or exhausting air
Bathroom drying unit with toilet and toilet provided in toilet room
From the ventilation port on the ile side and the ventilation port provided in the washroom
Intake air in each room and exhaust to the outside
Collective ventilation unit with air blower and bathroom drying
Unit and connection duct for connecting with said collective ventilation unit
To drive the circulation blower and the ventilation blower.
Sanitary ventilation drying system
Te, closing damper to block the flow of air in the connecting duct
In addition to providing a humidity sensor in the washroom,
In the control unit, the humidity sensor detects the humidity in the washroom.
When high humidity is detected, the ventilation blower alone
The damper is set to close in conjunction with the drive.
The toilet ventilation mode or washroom ventilation mode is selected.
The damper is closed in conjunction with the independent drive of the ventilation blower.
It is set to close, and the bathroom drying mode and the clothes drying mode
When the mode is selected, the damper is linked to the drive of the circulation blower.
A sanitary ventilation and drying system, which is set to open the door .