JP4023376B2 - Ventilation equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ventilator for ventilating a room such as a bathroom.
[0002]
[Prior art]
Conventionally, an air inlet that sucks in air in the bathroom, an air outlet that exhausts the air that has been sucked out, an air outlet that returns the air that has been sucked in to the bathroom, and a blower that sucks and blows air from the air inlet A ventilator for a bathroom is known that includes a damper that switches the air blowing direction of the air blown from the blower to the exhaust port and the air outlet, and a heater that heats the air blown from the air outlet (Patent Document). 1).
[0003]
Such a ventilator performs ventilation of the bathroom by positioning the damper at the first position in the ventilation mode, closing the air outlet, and exhausting the air taken in from the air inlet through the air outlet. Also, in the heating mode, the damper is positioned at the second position, the exhaust port is closed, the air sucked from the intake port is heated by the heater, and the heated air is blown out from the blower outlet to heat the bathroom. is there.
[0004]
By the way, when drying clothes that have been washed in the bathroom, it is only necessary to set the ventilation device to the heating mode. Therefore, the clothes cannot be efficiently dried.
[0005]
In view of this, a proposal has been proposed in which moisture in the bathroom is removed by alternately repeating the heating mode and the drying mode.
[0006]
In addition, the damper is positioned at an intermediate position between the first position and the second position, and while the bathroom is heated, a part of the air sucked from the air inlet is exhausted from the air outlet to exhaust the bathroom moisture to the outside. There is a ventilator that removes moisture from the bathroom.
[0007]
[Patent Document 1]
JP-A-9-126516 (page 3, FIG. 1)
[0008]
[Problems to be solved by the invention]
However, in the former case, since the air warmed in the heating mode is exhausted in the ventilation mode, the bathroom cannot be warmed in the ventilation mode, and therefore, it takes a long time to dry the clothes. . Further, there is a problem that heating efficiency is very poor by exhausting warm air. Furthermore, since moisture cannot be removed in the heating mode, condensation may occur.
[0009]
In the latter case, the exhaust air volume exhausted from the exhaust port and the circulating air volume are determined by the intermediate position of the damper, but the tip position of the damper is several times from the preset setting position due to the component tolerance of the damper, installation error, etc. mm (= A) deviation occurs. Further, the deviation of the tip position of the damper by the proximity sensor that detects the position of the damper occurs several mm (= B), and an error of about ± (A + B) mm from the set position occurs as a total. For this reason, the variation of the exhaust air volume and the circulating air volume for each product increases, and the time required for drying varies greatly for each product. In addition, since the damper is stopped at the intermediate position, the damper position is not stable, and the damper vibrates at the intermediate position by the wind sent from the blower, and thus there is a problem that rattling noise is generated.
[0010]
An object of the present invention is to provide a ventilator that can dry clothes and the like in a short time, can reduce variations in exhaust airflow and circulation airflow by product, and does not generate rattling noise. is there.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, an invention according to claim 1 includes an intake port for sucking in indoor air, an exhaust port for exhausting the sucked air to the outside, and an outlet for returning the sucked air to the room.In the body case withA blower that sucks and blows air from the intake port; a damper that switches between a first position that guides the air blown from the blower unit to the exhaust port and a second position that guides the air to the blowout port;A motor for switching the position of this damper,A heater for heating the air blown out from the outlet.ProvidedA ventilation device,
  An opening is provided in the damper,
  A sub-damper that opens and closes this opening is provided in the damper,
  An opening / closing means for opening / closing the sub-damper is provided,
  The opening / closing means is configured such that the damper is switched to the second position and the heater is energized, and the blowing means sucks indoor air from the intake port, blows air into the room from the blowout port, and from the exhaust port. In the drying mode for exhausting air to the outside, the sub damper is opened by the air blown from the blowing means, the damper is switched to the second position, and the heater is energized. The sub-damper is closed in a heating mode in which indoor air is taken in and air is blown into the room from the outlet.It is characterized by that.
[0013]
  The invention of claim 2The opening / closing means includes a lock member that fixes the sub-damper in a closed position and that releases the sub-damper when the damper reaches a predetermined position between the first position and the second position.
  The sub-damper is opened by the wind pressure of the air blowing means when the fixing by the lock member is released,
  The opened sub-damper is closed when the air blowing means is stopped, and the lock member fixes the closed sub-damper when the damper moves from a predetermined position to the first position or the second position.It is characterized by that.
[0014]
  The invention of claim 3Air is sucked from the intake port and blown into a body case having an intake port for intake of indoor air, an exhaust port for exhausting the intake air to the outside, and an outlet for returning the intake air to the room. An air blowing means, a damper that switches between a first position that guides air blown from the air blowing means to the exhaust port and a second position that guides air to the air outlet, a motor that switches the position of the damper, A ventilator provided with a heater for heating the air blown out from the air outlet,
  A bypass air passage that guides a part of the air blown from the blower means to the exhaust port when the damper is located at the second position, and a wind pressure that opens and closes the bypass air passage and is blown by the blower means And a shutter that can be opened and closed, and an opening / closing means for opening and closing the shutter.
  The opening / closing means includes
    When the damper is located at the second position, the damper is provided at a position on the downstream side of the shutter and on the upper surface of the damper, and has a locking claw for maintaining the shutter closed,
    When the air blower is stopped and the shutter is closed, when the air blower is operated after the damper is moved from the first position to the second position, the locking claw is locked to the shutter. To keep this shutter closed,
    When the damper is moved from the first position to the second position when the shutter is opened by the wind pressure, the opening of the shutter is maintained without the locking claw being locked to the shutter.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a ventilator according to the present invention will be described below with reference to the drawings.
[First Embodiment]
A bathroom ventilator 1 shown in FIG. 1 has a main body case 2 attached to a ceiling T of a bathroom (not shown). The lower surface of the main body case 2 is provided with an air inlet 3 for taking in air in the bathroom (not shown) and an air outlet 4 for blowing air into the bathroom. A heater unit 10 is attached in the air outlet 4, and air blown out from the air outlet 4 is heated by a PTC heater (heater with a self-temperature control function) 11 of the heater unit 10. The PTC heater 11 that is a heater is energized in the heating mode or the drying mode.
[0019]
An exhaust port 6 is provided on the side of the main body case 2, and the exhaust port 6 communicates with the outside through a connection duct 7 and an exhaust duct 8 connected to the connection duct 7. In the main body case 2, a sirocco fan (air blowing means) 9 that sucks air from the air inlet 3 and blows air to the air outlet 4 and the air outlet 6 is provided. M is a motor for rotating the sirocco fan 9, 12 is an intake grill provided at the intake port 3, and 13 is an outlet grill provided at the outlet 4.
[0020]
Further, a damper 20 is provided in the main body case 2, and the damper 20 can be switched between a solid line position (second position) and a chain line position (first position). And the damper 20 switches to the position of a continuous line at the time of heating mode or drying mode, and the inlet 3 and the blower outlet 4 are connected. Further, in the ventilation mode, the damper 20 is switched to the chain line position, and the intake port 3 and the exhaust port 6 are communicated.
[0021]
As shown in FIGS. 2 and 3, the damper 20 has a damper plate 21 that has a substantially rectangular shape in plan view and is curved gently upward and convexly, and a rear portion (lower portion in FIG. 2) of the damper plate 21. And a shaft 22 formed. Both end portions 22A and 22A of the shaft 22 are pivotally supported on the side wall portion of the main body case 2 so that the damper 20 rotates about the shaft 22.
[0022]
A rib 24 is formed on the lower surface of the damper 20, and a guide hole 25 extending along the front-rear direction of the damper 20 is formed in the rib 24. A protrusion 27 provided on a cam 26 (see FIG. 1) is inserted into the guide hole 25. The cam 26 is rotated around a shaft 28 (clockwise) by a damper motor (not shown) provided in an electric chamber (not shown). It has come to rotate. The damper 20 rotates around the shaft 22 by the rotation of the cam 26.
[0023]
An opening 23 is formed in the damper plate 21, and a sub-damper 30 that opens and closes the opening 23 is attached to the back surface (upper surface in FIG. 3) 21 </ b> A. The sub-damper 30 includes a plate portion 31 that closes the opening 23, and a pair of shaft portions 32 and 32 provided on the upper portion (in FIG. 2) of the plate portion 31. The opening 23 and the sub-damper 30 constitute sending means that can send a part of the air blown from the sirocco fan 9 to the exhaust port 6.
[0024]
The end portions of the shaft portions 32 and 32 are pivotally supported by a pair of bearing portions 33 and 33 provided on the back surface 21A of the damper plate 21 so that the sub damper 30 rotates around the shaft portions 32 and 32. It has become. The sub-damper 30 is urged in a direction (clockwise in FIG. 3) to close (close) the opening 23 by a torsion coil (biasing member) 34 provided on one shaft portion 32. The biasing force of the torsion coil 34 is set to be small, and the sub-damper 30 can be rotated against the biasing force of the torsion coil 34 by the wind pressure of the air blown from the sirocco fan 9.
[0025]
Further, concave portions 35 and 35 are formed on both side portions of the plate portion 31 of the sub-damper 30, and guide members 36 and 36 are provided on the back surface 21 </ b> A of the damper plate 21 so as to face the concave portions 35 and 35. As shown in FIG. 4, a guide groove 36 </ b> A extending in the left-right direction is formed on the inner side surface of each guide member 36. One end portion 41A of a pin 41 of the lock member 40 described later is inserted into the guide groove 36A, and the pin 41 is movable along the guide groove 36A.
[0026]
The lock member 40 is pivotally supported on the side wall portion of the main body case 2 and extends upward (in FIG. 2) from the shaft portion 42 positioned above the shaft 22 of the damper 20. A pair of arms 43 and 43 is provided, and pins 41 and 41 extending in the left-right direction (in FIG. 2) are provided at the distal ends of the arms 43 and 43. The other end portions 41 </ b> B and 41 </ b> B of the pins 41 and 41 are in contact with the back surface 31 </ b> A of the plate portion 31 of the sub damper 30 to press the plate portion 31 of the sub damper 30. The sub-damper 30 is fixed (locked) to the position shown in FIG. 3 by this pressing, and the opening 23 of the damper 20 is closed by the sub-damper 30.
[0027]
As shown in FIG. 5, the thickness of each pin 41 is set smaller than the length L <b> 1 of the recess 35 of the sub-damper 30, and other than the pins 41 that are in contact with the back surface 31 </ b> A of the plate portion 31 of the sub-damper 30. The length L2 of the end 41B is set smaller than the width W of the recess 35.
[0028]
When the damper 20 rotates about the shaft 22, the one end 41 </ b> A of the pin 41 of the arm 43 is inserted into the guide groove 36 </ b> A of the guide member 36, so that the lock member 40 rotates about the shaft 42 along with the rotation. Rotate to. If the rotation fulcrum of the lock member 40 and the rotation fulcrum of the damper 20 are shifted, the rotation of the damper 20 when the damper 20 rotates counterclockwise from the position of FIG. At the same time, the pin 41 of the lock member 40 moves along the guide groove 36A of the guide member 36 toward the lower end side (in FIG. 3) of the guide groove 36A. When the damper 20 rotates by a predetermined angle, the pin 41 of the lock member 40 is positioned at the position of the concave portion 35 of the sub damper 30, and the pressing of the plate portion 31 of the sub damper 30 by the pin 41 is released. ing.
[0029]
That is, the fixing of the sub-damper 30 by the lock member 40 is released, and the sub-damper 30 can be rotated around the shaft portions 32, 32 against the urging force of the torsion coil 34. The torsion coil 34 and the lock member 40 constitute opening / closing means for opening / closing the sub damper 30.
[0030]
[Operation]
Next, operation | movement of the ventilator 1 comprised as mentioned above is demonstrated.
[0031]
When the ventilation device 1 is stopped, the damper 20 is positioned at the solid line position, the sub damper 30 is fixed at the position shown in FIG. 3 by the pin 41 of the lock member 40, and the opening 23 of the damper 20 is closed by the sub damper 30. Has been.
[0032]
Now, when the drying mode is set by operating an operation unit (not shown), the damper motor is driven and the cam 26 rotates clockwise around the shaft 28. The rotation of the cam 26 causes the damper 20 to move to the shaft 22. It rotates counterclockwise around the center. And the damper 20 rotates to the chain line position shown in FIG. 1, ie, the position shown in FIG.
[0033]
When the cam 26 further rotates clockwise about the shaft 28 by driving the damper motor, the damper 20 rotates clockwise from the position shown in FIG. 6 and the motor M is driven. Then, the sirocco fan 9 is rotated, and by the rotation of the sirocco fan 9, the air in the bathroom is sucked into the air inlet 3 and blown in the direction of the arrow. Further, the PTC heater 11 of the heater unit 10 is energized.
[0034]
When the damper 20 reaches the position shown in FIGS. 7 and 8, the pin 41 of the lock member 40 is positioned at the position of the concave portion 35 of the sub-damper 30, and the plate 41 of the sub-damper 30 is pressed by the pin 41, that is, the sub The damper 30 is unlocked.
[0035]
On the other hand, since the air is blown in the direction of the arrow by the rotation of the sirocco fan 9, the sub damper 30 rotates counterclockwise around the shaft portions 32 and 32 against the urging force of the torsion coil 34 by the wind pressure. During this rotation, the other ends 41B and 41B of the pins 41 and 41 of the lock member 40 pass through the recesses 35 and 35 of the sub-damper 30 and, as shown in FIGS. The tip of the damper 30 moves to the upper side of the lock member 40. Thereby, the opening 23 of the damper 20 is opened. In this state, the damper 20 further rotates clockwise and stops at the position shown in FIG.
[0036]
The bathroom air blown from the sirocco fan 9 is guided to the outlet 4 by the damper 20 and blows out from the outlet 4 to the bathroom. The air blown out from the outlet 4 is heated by the PTC heater 11 and the bathroom is heated.
[0037]
On the other hand, part of the bathroom air blown from the sirocco fan 9 is exhausted from the opening 23 of the damper 20 to the outside through the exhaust port 6, the connection duct 7 and the exhaust duct 8. Since the moisture in the bathroom is exhausted to the outside by this exhaust, the bathroom is dried efficiently. For example, if the laundry is dried in the bathroom, the laundry can be dried in a short time.
[0038]
When the drying mode is switched to the heating mode, the driving of the motor M is stopped and the rotation of the sirocco fan 9 is stopped. By stopping the rotation of the sirocco fan 9, the blowing in the direction of the arrow is stopped, so that the sub damper 30 is rotated clockwise around the shaft 32 by the urging force of the torsion coil 34, and both side edges of the sub damper 30 are Engages with pins 41 and 41 of the lock member 40 as shown in FIG.
[0039]
Then, the damper motor is driven in the same manner as described above, and the damper 20 rotates counterclockwise about the shaft 22, and when the damper 20 reaches the position shown in FIG. 41 and 41 are located at the positions of the recesses 35 and 35 of the sub-damper 30. The sub-damper 30 is urged clockwise about the shaft 22 by the torsion coil 34, so that the sub-damper 30 rotates clockwise about the shaft 22, and the pins 41, The other end portions 41B and 41B of 41 pass through the recesses 35 and 35 of the sub-damper 30. 7 and 8, the sub damper 30 moves to the lower position of the pins 41 and 41 of the lock member 40, and the opening 23 of the damper 20 is closed by the sub damper 30.
[0040]
In this state, when the damper 20 is further rotated counterclockwise, the pins 41 and 41 of the lock member 40 come into contact with the back surface (upper surface in FIGS. 7 and 8) 31A of the plate portion 31 of the sub damper 30. The sub-damper 30 is fixed to the damper 20 by the pins 41 and 41. In other words, the sub-damper 30 is fixed to the damper 20 by the lock member 40, and the opening 23 is fixed. When the damper 20 is moved to the position shown in FIG. 6, the damper 20 is rotated clockwise and stopped at the solid line position in FIG.
[0041]
When the damper 20 is stopped at the solid line position in FIG. 1, the motor M is driven to rotate the sirocco fan 9 and the air in the bathroom is sucked into the air inlet 3. The sucked air is blown in the direction of the arrow, and the blown air is guided to the outlet 4 by the damper 20 and blows out from the outlet 4 to the bathroom. The air blown out from the outlet 4 is heated by the PTC heater 11 and the bathroom is heated.
[0042]
At this time, since the sub-damper 30 is fixed to the damper 20 by the lock member 40, it is not opened by the wind pressure.
[0043]
When the heating mode is switched to the ventilation mode, the driving of the motor M is stopped, the rotation of the sirocco fan 9 is stopped, and the energization of the PTC heater 11 is stopped. Then, the damper motor is driven to rotate the damper 20 to the position shown in FIG. When the damper 20 is rotated to the position shown in FIG. 6, the driving of the damper motor is stopped and the motor M is driven to rotate the sirocco fan 9, and the bathroom air is sucked into the air inlet 3. . The sucked air is blown in the direction of the arrow, and the blown air is exhausted to the outside of the room through the exhaust port 6, the connection duct 7 and the exhaust duct 8 (see FIG. 1) to ventilate the bathroom. .
[0044]
When the ventilation mode is switched to the heating mode, the rotation of the sirocco fan 9 is stopped and the damper motor is driven. By driving the damper motor, the damper 20 is rotated from the position shown in FIG. 6 to the solid line position in FIG. During the rotation, the damper 20 passes through the position shown in FIGS. 7 and 8, but the rotation of the sirocco fan 9 is stopped and the sub-damper 30 is opened by the biasing force of the torsion coil 34. 23 remains closed.
[0045]
When the damper 20 reaches the chain line position in FIG. 1, the driving of the damper motor is stopped, the motor M is driven, and the PTC heater 11 is energized. Then, the bathroom is heated in the same manner as described above.
[0046]
Further, when the ventilation mode is switched to the drying mode, the damper 20 is rotated from the position shown in FIG. 6 to the position shown in FIG. 11 without stopping the rotation of the sirocco fan 9. Then, when the damper 20 reaches the position shown in FIGS. 7 and 8 during the rotation, the sub-damper 30 is opened in the same manner as described above.
[0047]
Thus, since a dedicated motor is not required for opening the sub-damper 30, the ventilation device 1 can be reduced in size and weight.
[0048]
Further, during the drying mode, the damper 20 is stopped at the position where the exhaust port 6 is closed and the sub damper 30 is opened. Therefore, the exhaust air amount exhausted from the exhaust port 6 and the circulating air amount discharged from the air outlet 4 are It is determined by the size of the opening 23 of the damper 20. For this reason, it is possible to reduce variations in the exhaust air volume and the circulating air volume for each product. Further, since the damper 20 is not stopped at an intermediate position between the first position and the second position, wind noise generated at the tip of the damper 20 and flapping noise due to vibration of the damper 20 are not generated. Even inside, it will be quiet.
[Second Embodiment]
FIG. 13 shows a ventilator 100 according to the second embodiment. The ventilator 100 has a main body case 102 that is attached to the ceiling (not shown) of a bathroom (not shown) as in the first embodiment. ing. The lower surface of the main body case 102 is provided with an air inlet 103 that sucks air in the bathroom (not shown) and an air outlet 104 that blows air into the bathroom. A heater unit 110 is mounted in the air outlet 104, and the air blown out from the air outlet 104 is heated by a PTC heater (heater) 111 of the heater unit 110. The PTC heater 111 is energized in the heating mode or the drying mode.
[0049]
An exhaust port 106 is provided on the side of the main body case 102, and the exhaust port 106 communicates with the outside through an exhaust duct (not shown) connected to a connection duct 107. The main body case 102 has a sirocco fan chamber 115 in which a sirocco fan (air blowing means) 109 is housed, and a damper chamber 116 in which a damper 120 is housed. The sirocco fan 109 rotates and sucks air from the air inlet 103 and blows the sucked air to the air outlet 104 and the air outlet 106. M1 is a motor for rotating the sirocco fan 109, 112 is an intake grill provided at the intake port 103, and 113 is an outlet grill provided at the outlet 104.
[0050]
The damper 120 can be switched between the position shown in FIG. 13 (second position) and the position shown in FIG. 14 (first position). Switching of the damper 120 is performed by a motor (not shown). In the heating mode and the drying mode, the damper 120 is switched to the solid line position in FIG. 13 so that the air inlet 103 and the outlet 104 are communicated. In the ventilation mode, the damper 120 is switched to the solid line position shown in FIG. The intake port 113 and the exhaust port 106 are communicated with each other.
[0051]
A gap 117 having a predetermined size is formed between the top plate 116 </ b> A of the damper chamber 116 and the tip 120 </ b> A of the damper 120 at the solid line position in FIG. 13, and this gap 117 is blown from the sirocco fan 109. The bypass air passage guides a part of the air to the exhaust port 106.
[0052]
As shown in FIGS. 15 and 16, the bypass air passage 117 is provided with a shutter 130 for opening and closing the bypass air passage 117, and a shaft portion 131 is provided above the shutter 130. Both end portions of the shaft portion 131 are pivotally supported on the side wall portion of the damper chamber 116, and the shutter 130 rotates around the shaft portion 131 to open and close the bypass air passage 117. Further, the bypass air passage 117 is provided with a stopper 132, and the stopper 132 prevents the shutter 130 from rotating counterclockwise from the position of FIG. Further, the bypass air passage 117 and the shutter 130 constitute a delivery means capable of sending a part of the air blown from the sirocco fan 109 to the exhaust port 106.
[0053]
Further, as shown in FIG. 17, a protrusion (locking claw) 121 extending in the width direction is formed on the upper surface 120b near the tip of the damper 120, and the front surface 121A of the protrusion 121 is the upper surface. It is a flat contact surface rising from 120b. Further, the rear surface 121B of the protrusion 121 is an inclined surface so that the air path loss is reduced when the damper 120 is located at the position shown in FIG. As shown in FIG. 17, a shaft portion 122 is formed at the rear portion of the damper 120, and this shaft portion 122 is pivotally supported on the side wall of the damper chamber 116 so that the damper 120 rotates around the shaft portion 122. It has become.
[0054]
When the shutter 130 is rotated to the broken line position shown in FIG. 18, the lower end portion 130 </ b> A of the shutter 130 comes into contact with the contact surface 121 </ b> A of the protruding portion 121 to close the bypass air passage 117. Yes. Further, when the shutter 130 is located at the solid line position in FIGS. 13 and 16, the damper 120 can rotate clockwise around the shaft portion 122, that is, the damper 120 is located at the broken line position shown in FIG. The height and position of the ridge 121 are set so that the ridge 121 does not come into contact with the shutter 130 when rotating from the position to the solid line position.
[Operation]
Next, operation | movement of the ventilation apparatus 100 of 2nd Embodiment is demonstrated.
[0055]
When the ventilation device 100 is stopped, the damper 120 is positioned at the position (second position) shown in FIG. 13, and the bypass air passage 117 of the damper chamber 116 is closed by the shutter 130.
[0056]
When the drying mode is set by operating an operation unit (not shown), the damper motor is driven to switch the damper 120 from the position shown in FIG. 13 to the position shown in FIG. 20 (first position). When the damper 120 is switched to the first position, the driving of the motor for the damper is stopped and the motor M1 is driven to rotate the sirocco fan 109. By the rotation of the sirocco fan 109, bathroom air is sucked into the air inlet 103. And blown in the direction of the arrow.
[0057]
The shutter 130 rotates clockwise about the shaft portion 131 by the wind pressure of the air blow, and the bypass air passage 117 is opened. Then, the damper motor is driven again so that the damper 120 is switched from the position shown in FIG. 20 to the second position shown in FIG. 21, and the PTC heater 111 of the heater unit 110 is energized.
[0058]
When the damper 120 is switched to the second position shown in FIG. 21, the tip 120A of the damper 120 abuts on the lower part of the stopper 132, and the damper 120 is reliably switched to the predetermined position (second position).
[0059]
By the way, since the shutter 130 is rotated to the position shown in FIGS. 21 and 22 by the wind pressure, the shutter 130 remains opened by the bypass 130 even when the damper 120 is switched to the second position.
[0060]
Since the damper 120 is located at the second position, the air blown in the direction of the arrow by the sirocco fan 109 is guided to the outlet 104 by the damper 120 and blows out from the outlet 104 to the bathroom. The air blown out from the outlet 104 is heated by the PTC heater 111, and the bathroom is heated.
[0061]
In addition, since the shutter 130 opens the bypass air passage 117, a part of the bathroom air blown from the sirocco fan 109 passes through the bypass air passage 117 and is connected to the exhaust port 106 and the connection duct 107. The air is exhausted outside through the duct. Since the moisture in the bathroom is exhausted to the outside by this exhaust, the bathroom is dried efficiently. For example, if the laundry is dried in the bathroom, the laundry can be dried in a short time.
[0062]
When the drying mode is switched to the heating mode, the driving of the motor M1 is stopped and the rotation of the sirocco fan 9 is stopped. Due to the stop of the rotation of the sirocco fan 9, the shutter 130 is located at the position shown in FIG.
[0063]
Then, the damper motor is driven to switch the damper 120 to the first position shown in FIG. Thereafter, the damper 120 is switched from the first position shown in FIG. 14 to the second position shown in FIG. At this time, since the shutter 130 is located at a position where the bypass air passage 117 is closed, the protrusion 131 of the damper 120 is located on the left side of the lower end (front end) 130A of the shutter 130 as shown in FIG. Will do.
[0064]
When the damper 120 is switched to the second position, the motor M1 is driven to rotate the sirocco fan 109, and the rotation of the sirocco fan 109 causes the bathroom air to be sucked into the air inlet 103 and blown in the direction of the arrow. The blown air is guided to the outlet 104 by the damper 120 and blows out from the outlet 104 to the bathroom. The air blown out from the outlet 104 is heated by the PTC heater 111, and the bathroom is heated.
[0065]
Further, the shutter 130 rotates clockwise around the shaft portion 131 by the wind pressure of the air blown by the rotation of the sirocco fan 109, and the lower end portion 130A of the shutter 130 protrudes from the damper 120 as shown by the broken line in FIG. Since the bypass air passage 117 is closed by contacting the contact surface 121A which is the front surface of the strip 121, a part of the air blown from the sirocco fan 109 flows to the exhaust port 106 through the bypass air passage 117. Therefore, the bathroom can be efficiently heated.
[0066]
When the mode is switched from the drying mode or the heating mode to the ventilation mode, the energization of the PTC heater 111 is stopped and the damper motor is driven. By driving the damper motor, the damper 120 is switched from the second position shown in FIG. 13 or 21 to the first position shown in FIG. When the damper 120 is switched to the first position, the air blown by the sirocco fan 109 is exhausted to the outside through an exhaust duct (not shown) connected to the exhaust port 106 and the connection duct 107, and Ventilation is performed.
[0067]
When the ventilation mode is switched to the drying mode or the heating mode, the PTC heater 111 is energized and the damper motor is driven to switch the damper 120 from the first position in FIG. 20 to the second position shown in FIG. Is done. In this case, in the drying mode, the shutter 120 is opened by switching the damper 120 to the second position while the motor M1 is driven. In the heating mode, the driving of the motor M1 is stopped and the damper 120 is switched to the second position. As a result, the shutter 130 is closed.
[0068]
Thus, since a dedicated motor is not required for opening the shutter 130, the ventilation device 100 can be reduced in size and weight.
[0069]
Further, during the drying mode, the damper 120 is stopped at the second position where the exhaust port 106 is closed and the shutter 130 is opened, so the amount of exhaust air exhausted from the exhaust port 106 and the amount of circulating air discharged from the air outlet 104 are as follows. The cross sectional area of the bypass air passage 117 is determined. For this reason, it is possible to reduce variations in the exhaust air volume and the circulating air volume for each product. Furthermore, since the damper 120 does not stop at an intermediate position between the first position and the second position, no wind noise generated at the tip of the damper 120 or flapping noise due to the vibration of the damper 120 is generated. Even inside, it will be quiet.
[0070]
In both the first and second embodiments, the ventilators 1 and 100 have been described for the bathroom. However, the ventilators 1 and 100 are not necessarily used for the bathroom, and may be ventilators that ventilate rooms other than the bathroom.
[0071]
【The invention's effect】
As described above, according to the present invention, it is possible to dry clothes and the like in a short time, reduce variations in exhaust airflow and circulation airflow for each product, and suppress damper noise. be able to.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing the configuration of a bathroom ventilator according to the present invention.
FIG. 2 is a plan view showing a damper of the ventilation device shown in FIG. 1;
FIG. 3 is a cross-sectional view showing a configuration of the damper shown in FIG. 2;
FIG. 4 is an explanatory diagram showing a relationship between a guide member and a lock member.
FIG. 5 is a partially enlarged view in which a part of the damper shown in FIG. 2 is enlarged.
FIG. 6 is an explanatory view showing a state where the damper is located at the first position.
FIG. 7 is an explanatory view showing a state in which the damper is rotated to a predetermined angle.
FIG. 8 is an explanatory diagram showing a positional relationship between the sub-damper and the lock member when the damper is rotated to a predetermined angle.
FIG. 9 is an explanatory view showing a state in which the lock of the sub damper by the lock member is released.
FIG. 10 is an explanatory diagram showing a positional relationship between the sub damper and the lock member when the sub damper is unlocked.
FIG. 11 is an explanatory view showing a state where the damper whose sub-damper is unlocked has moved to the second position.
FIG. 12 is an explanatory diagram showing a state of the sub-damper when the rotation of the sirocco fan is stopped.
FIG. 13 is a cross-sectional view showing a configuration of a ventilation device according to a second embodiment.
14 is a cross-sectional view showing a state in which the damper of the ventilation device of FIG. 12 is switched to the first position.
FIG. 15 is an explanatory diagram showing a stopper and a shutter.
FIG. 16 is an explanatory diagram showing a positional relationship between a shutter and a damper.
FIG. 17 is a perspective view showing a damper.
18 is an explanatory diagram showing that the bypass shown in FIG. 16 is rotated to close the bypass air passage.
FIG. 19 is an explanatory diagram showing that the damper can rotate.
FIG. 20 is an explanatory view showing a state where the damper is switched to the first position and the sirocco fan is rotated.
FIG. 21 is an explanatory view showing a state where the damper is switched to the second position while the sirocco fan is rotated.
FIG. 22 is an explanatory diagram showing a state in which the shutter is opened.
[Explanation of symbols]
3 Inlet
4 outlets
6 Exhaust port
9 Sirocco fan (air blowing means)
11 Heater (PTC heater)
20 damper
23 Opening
30 Sub-damper

Claims (3)

Air is sucked from the intake port and blown into a body case having an intake port for intake of indoor air, an exhaust port for exhausting the intake air to the outside, and an outlet for returning the intake air to the room. An air blowing means, a damper that switches between a first position that guides air blown from the air blowing means to the exhaust port and a second position that guides air to the air outlet, a motor that switches the position of the damper, A ventilator provided with a heater for heating the air blown out from the air outlet,
An opening is provided in the damper,
A sub-damper that opens and closes this opening is provided in the damper,
An opening / closing means for opening / closing the sub-damper is provided,
The opening / closing means is configured such that the damper is switched to the second position and the heater is energized, and the blowing means sucks indoor air from the intake port, blows air into the room from the blowout port, and from the exhaust port. In the drying mode for exhausting air to the outside, the sub damper is opened by the air blown from the blowing means, the damper is switched to the second position, and the heater is energized. A ventilator characterized in that the sub-damper is closed in a heating mode in which indoor air is taken in and air is blown into the room through the outlet . The opening / closing means includes a lock member that fixes the sub-damper in a closed position and that releases the sub-damper when the damper reaches a predetermined position between the first position and the second position.
The sub-damper is opened by the wind pressure of the air blowing means when the fixing by the lock member is released,
The opened sub-damper is closed when the blowing means is stopped, and the lock member fixes the closed sub-damper when the damper moves from a predetermined position to the first position or the second position. The ventilator according to claim 1. Air is sucked from the intake port and blown into a body case having an intake port for intake of indoor air, an exhaust port for exhausting the intake air to the outside, and an outlet for returning the intake air to the room. An air blowing means, a damper that switches between a first position that guides air blown from the air blowing means to the exhaust port and a second position that guides air to the air outlet, a motor that switches the position of the damper, A ventilator provided with a heater for heating the air blown out from the air outlet,
A bypass air passage that guides a part of the air blown from the blower means to the exhaust port when the damper is located at the second position, and a wind pressure that opens and closes the bypass air passage and is blown by the blower means And a shutter that can be opened and closed, and an opening / closing means for opening and closing the shutter.
The opening / closing means includes
When the damper is located at the second position, the damper is provided at a position on the downstream side of the shutter and on the upper surface of the damper, and has a locking claw for maintaining the shutter closed,
When the air blower is stopped and the shutter is closed, when the air blower is operated after the damper is moved from the first position to the second position, the locking claw is locked to the shutter. To keep this shutter closed,
When the shutter is opened by the wind pressure, when the damper moves from the first position to the second position, the locking claw does not lock the shutter and maintains the opening of the shutter. apparatus.

Images