JP3720452B2 - Range hood fan - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a range hood fan that is disposed in an upper portion of a range and discharges air containing oil smoke rising from the range portion.
[0002]
[Problems to be solved by the invention]
Conventionally, as a range hood fan, there exists a thing of the structure shown by Unexamined-Japanese-Patent No. 1-330653. As shown in FIG. 20, the inside of the outer box 1 is a fan chamber 2 as shown in FIG. 20. A suction port 3 is formed at the center of the lower portion of the fan chamber 2, and a blowout port 4 is formed at the peripheral portion. A discharge port 5 that is formed and communicates with the outside via an exhaust duct (not shown) is formed at the top.
A centrifugal fan 6 is provided inside the fan chamber 2, and the fan 6 is rotationally driven by a motor 7 attached to the outer surface of the upper plate portion of the outer box 1. This range hood fan is disposed at an upper portion of a range (not shown).
[0003]
In this, when the fan 6 is rotationally driven, air containing oil smoke from a cooking pan or the like placed on the range or combustion gas from the range is sucked into the fan chamber 2 from the suction port 3. A part of the air is blown downward from the air outlet 4 and the rest is discharged from the air outlet 5 through the exhaust duct to the outside.
[0004]
In this conventional one, it is expected that the air blown out from the blowout port 4 will be in the form of a so-called air curtain, and the air flowing in the form of the air tenn causes the air such as oil smoke generated in the range portion to flow to other parts. It is expected to be collected so as not to escape.
[0005]
However, in the above-described conventional configuration, for example, when the air blowing resistance on the discharge port side changes (when the air blowing resistance of the exhaust duct changes or when the shutter on the outdoor side opens poorly), the air is discharged to the outdoors. The air volume decreases, and conversely the amount of air blown from the outlet 4 increases. For this reason, the air flow that forms the air curtain becomes too strong, strongly hits the range portion, and diffuses inside and outside at this portion, and the effect of collecting air such as oil smoke is reduced. On the other hand, when the blowing resistance on the discharge port side is reduced, the amount of air blown from the blower port 4 is reduced, and the air curtain is not formed well. In this case, the effect of collecting air such as oil smoke is also reduced. To do. In other words, there is a drawback that the efficiency of collecting air such as oil smoke is deteriorated when the blast load is changed.
[0006]
A configuration different from that of the conventional example is disclosed in Japanese Patent Laid-Open No. 5-157306. An outline of this configuration is shown in FIG. 21, in which air discharged from the fan device 11 is discharged in the form of an air curtain from the outlet 12, and air such as oil smoke is sucked in by another fan device 13.・ It is designed to be exhausted.
However, in this configuration, the air discharged from the nozzle portion 11a of the fan device 11 that forms the air curtain is blown from almost the entire area of the outlet 12 by changing the direction thereafter, so that the blowing efficiency is poor. The motor 14 for the fan device 11 is increased in size and cost, and the amount of air blown from the outlet 12 is not uniform. Furthermore, since the flow of the blown air is inhibited by the duct 15, this also has the disadvantage that the amount of blown air from the blowout port 12 is non-uniform and it is difficult to form a uniform air curtain.
[0007]
The present invention has been made in view of the above-described circumstances, and the object thereof is to form a good air curtain without being greatly affected by fluctuations in the ventilation load, and to collect air such as oil smoke. In addition, the present invention provides a range hood fan that contributes to a reduction in cost without requiring a significant increase in motor capacity with improved ventilation efficiency.
[0008]
[Means for Solving the Problems]
The invention of claim 1 is a main body box having a vent hole disposed above the range and communicating with the room in which the range is installed.
A suction port provided in the center of the lower part of the main body box;
A blow-off port provided in a peripheral portion of the suction port;
A guide member provided on the side corresponding to the wall surface of the room in which the main body box is disposed, and having a guide surface for guiding the air blown from the blowout opening;
It is configured with.
According to the first aspect of the present invention, the guide member having the guide surface that is continuous with the outlet is provided on the side corresponding to the wall surface of the room in which the main body box is disposed in the edge of the outlet. The air blown from the blowout port can be prevented from becoming a turbulent flow at the wall surface portion, and the blown air can be rectified, so that a good air curtain can be formed with a small air volume.
The invention of claim 3
A main body box disposed above the range;
A lower fan chamber which is provided in the lower part inside the main body box, has a suction port in the central part of the lower part and has a substantially annular outlet in the lower peripheral part;
A spiral upper fan chamber provided at the upper part of the lower fan chamber and having a suction port communicating with the fan chamber at the lower part and having a discharge port at another part,
A blade body having an upper blade portion located in the upper fan chamber and a lower blade portion located in the lower fan chamber, and the upper blade portion and the lower blade portion rotating together;
A motor attached to a stationary part and rotating the blades;
It is configured with.
[0009]
In this configuration, when the motor is driven to rotate, the lower blade portion rotates in the lower fan chamber, and the upper blade portion rotates in the upper fan chamber. As the lower blade portion rotates, air containing oily smoke and the like is sucked from the suction port in the central portion, a part of which is blown out from the blowout port in the peripheral portion, and a so-called air curtain is formed by the blown air flow. Further, the remainder of the intake air is discharged from the discharge port to the outside by the rotation of the upper blade portion. In this case, the air flow for forming the air curtain is generated by the air blowing capacity determined by the lower blade part and the lower fan chamber, and the air flow for exhaust is generated by the air blowing capacity determined by the upper blade part and the upper fan chamber. For example, even if the ventilation resistance on the exhaust side varies, the amount of air blown out from the blowout port does not vary so much and a stable air curtain forming action can be obtained. In addition, since the exhausted air exits from the discharge port of the upper fan chamber, there is no obstacle such as an exhaust duct in the lower fan chamber, and air blowing efficiency is good. In addition, in the lower fan chamber, the air sucked from the suction port in the central part is blown out from the blowout port in the peripheral part as it is. This can contribute to miniaturization of motors and cost reduction. In addition, the amount of air blown from the outlet is uniform. Furthermore, since the upper fan chamber has a spiral shape, the air blowing capacity for exhaust can be sufficiently secured.
[0010]
The invention of claim 5
A main body box disposed above the range and having a vent;
A lower fan which is provided in the lower part inside the main body box, has a suction port in the lower central part, has a substantially annular outlet in the lower peripheral part, and has an opening leading to the vent hole in the upper central part Room,
A spiral upper fan chamber provided at the upper portion of the lower fan chamber and spaced apart from the lower fan chamber and having a suction port at the lower portion and a discharge port at other portions;
A communication member that penetrates the opening of the lower fan chamber and connects the suction port of the lower fan chamber and the suction port of the upper fan chamber, and a communication member that partitions the communication passage and the opening;
A blade body having an upper blade portion located in the upper fan chamber and a lower blade portion located in the lower fan chamber, and the upper blade portion and the lower blade portion rotating together;
A motor attached to a stationary part and rotating the blades;
It is configured with.
[0011]
In this configuration, when the motor is driven to rotate, the lower blade portion rotates in the lower fan chamber, and the upper blade portion rotates in the upper fan chamber. As the upper blade portion rotates, air containing oily smoke and the like is sucked from the suction port in the central portion through the communication passage and discharged to the outside from the discharge port. In addition, by rotation of the lower blade portion, air outside the main body box is sucked from the vent, and is sucked into the lower fan chamber through the opening and blown out from the blow-out port, and a so-called air curtain is formed by the blown-out air flow. The In this case, the air flow for forming the air curtain is generated by the air blowing capacity determined by the lower blade part and the lower fan chamber, and the air flow for exhaust is generated by the air blowing capacity determined by the upper blade part and the upper fan chamber. For example, even if the ventilation resistance on the exhaust side varies, the amount of air blown out from the blowout port does not vary so much and a stable air curtain forming action can be obtained.
[0012]
In addition, since the exhausted air exits from the discharge port of the upper fan chamber, there is no obstacle such as an exhaust duct in the lower fan chamber, and air blowing efficiency is good. In addition, in the lower fan chamber, the air sucked from the suction port in the central part is blown out from the blowout port in the peripheral part as it is. There is little decrease and it can contribute to miniaturization of motor and cost reduction. In addition, the amount of air blown from the outlet is uniform. Furthermore, since the upper fan chamber has a spiral shape, the air blowing capacity for exhaust can be sufficiently secured.
[0013]
In particular, the air to be exhausted is sucked from the suction port, and the air for forming the air curtain is taken from the air vent different from the suction port, so it becomes easier to secure an independent air volume and more stable air curtain formation. The effect can be obtained. In addition, since the air forming the air curtain does not include oil smoke, it is possible to prevent the oil smoke from coming into contact with the user.
[0015]
Also,As in the invention of claim 6If the vent is in communication with the room, the air in the room other than the range can be used for the air curtain. In this case, a part of the air curtain rises upward with the air in the range part and is exhausted, so the air in the room other than the range part is also gradually exhausted, so the whole room is well ventilated It will be possible to plan.
[0016]
furtherThe invention of claim 8
A main body box having a vent hole disposed above the range and communicating with the room in which the range is installed;
A lower fan which is provided in the lower part inside the main body box, has a suction port in the lower central part, has a substantially annular outlet in the lower peripheral part, and has an opening leading to the vent hole in the upper central part Room,
A spiral upper fan chamber provided at the upper portion of the lower fan chamber and spaced apart from the lower fan chamber and having a suction port at the lower portion and a discharge port at other portions;
A communication member that penetrates the opening of the lower fan chamber and connects the suction port of the lower fan chamber and the suction port of the upper fan chamber, and a communication member that partitions the communication passage and the opening;
The sirocco fan is located in the upper fan chamber, extends downward from the lower end of the sirocco fan, passes through the opening of the lower fan chamber, and has a suction port for the lower fan chamber and a suction port for the upper fan chamber. A blade member having a communication member that forms a communication passage that communicates with and separates the communication passage and the opening, and that has a turbo fan that is coupled to a lower end portion of the communication member and is located in the lower fan chamber;
A motor that is attached to a stationary part inside the main body box and outside the upper fan chamber and the lower fan chamber, and that rotates the blade body;
It is configured with.
[0017]
In this configuration, when the motor is driven to rotate, the lower blade portion rotates in the lower fan chamber, and the upper blade portion rotates in the upper fan chamber. As the upper blade portion rotates, air containing oily smoke and the like is sucked from the suction port in the central portion through the communication passage and discharged to the outside from the discharge port. In addition, due to the rotation of the lower blade portion, air other than the range portion in the room is sucked from the vent, and is sucked into the lower fan chamber through the opening and blown out from the blowout port. It is formed. In this case, the air flow for forming the air curtain is generated by the air blowing capacity determined by the lower blade part and the lower fan chamber, and the air flow for exhaust is generated by the air blowing capacity determined by the upper blade part and the upper fan chamber. For example, even if the ventilation resistance on the exhaust side varies, the amount of air blown out from the blowout port does not vary so much and a stable air curtain forming action can be obtained.
[0018]
In addition, since the exhausted air exits from the discharge port of the upper fan chamber, there is no obstacle such as an exhaust duct in the lower fan chamber, and air blowing efficiency is good. In addition, in the lower fan chamber, the air sucked from the suction port in the central part is blown out from the blowout port in the peripheral part as it is. There is little decrease and it can contribute to miniaturization of motor and cost reduction. In particular, since the lower blade portion is composed of a turbofan, the shape of the lower fan chamber is not so limited, and air can be uniformly blown from the entire peripheral area of the blowout port. Furthermore, since the upper fan chamber has a spiral shape and the upper blade portion is composed of a sirocco fan, the static pressure is high and a sufficient blowing capacity for exhaust can be secured.
[0019]
In particular, since air to be exhausted is sucked from the suction port and air for forming the air curtain is taken from the vent hole, it is easy to secure an independent air volume, and a more stable air curtain forming action can be obtained. And since it is set as the structure which connects a vent hole with the inside of a room, the air in rooms other than a range part can be utilized for an air curtain. In this case, a part of the air curtain rises upward with the air in the range part and is exhausted, so the air in the room other than the range part is also gradually exhausted, so the whole room is well ventilated It will be possible to plan.
[0020]
Furthermore, since the motor is attached to the stationary part inside the main body box and outside the upper fan chamber and the lower fan chamber, the motor is sucked into the main body box from the vent and this air flow is directed toward the opening. The motor can be cooled.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. The main body box 22 of the range hood fan 21 is disposed on the wall surface 23a of the room 23 such as a kitchen and is positioned above the range 24. A lower surface plate 25 is attached to the lower surface of the main body box 22, and a casing member 26 whose peripheral wall portion 26 a has a circular horizontal cross section is attached to the lower surface plate 25. A lower fan chamber 27 is formed by the member 26. The lower surface plate 25 corresponding to the lower part of the lower fan chamber 27 has a bell mouth-shaped suction port 28 formed in the center and a substantially annular (in this case, substantially annular) slit in the peripheral surface. A shaped outlet 29 is formed. In this case, the peripheral wall portion 26 a of the casing member 26, which is the outer peripheral edge portion of the blowout port 29, has a vertical sectional shape.
[0022]
The above-described range 24 has a configuration in which two heating ports 24a and 24a are arranged side by side, and the blowout port 29 has a shape that can surround the heating ports 24a and 24a of the range 24 (in this case, the substantially annular shape described above). is there.
A casing member 30 having a spiral shape is attached to the upper plate portion 26b of the casing 26, and a spiral upper fan chamber 31 is formed by the casing member 30 and the upper plate portion 26b. A suction port 32 communicating with the lower fan chamber 27 is formed in the upper plate portion 26b, which is the lower portion of the upper fan chamber 31, and an upward discharge port 33 is formed on the right side in FIG. Is formed. The discharge port 33 protrudes upward from a hole 22b formed in the upper plate portion 22a of the main body box 22, and the discharge port 33 communicates with the outside (outdoor) of the room 23 through a duct (not shown). ing.
[0023]
The blade body 34 has a large number of upper blade portions 36 vertically attached to the periphery of a circular end plate 35 and a lower end portion of the upper blade portion 36 via a donut plate-like connecting plate 37. A plurality of lower blade portions 38 are vertically attached. Each blade | wing part 36 and 38 is comprised from what is called a sirocco fan which becomes front with respect to the rotation direction (indicated by arrow F) of the blade | wing body 34, as shown in FIG. Such a blade body 34 is attached to a rotation shaft 39 a of a motor 39 described below, and the upper blade portion 36 is located in the upper fan chamber 31 and the lower blade portion 38 is located in the lower fan chamber 27. It is like that. The upper blade portion 36 is formed such that its axial length is longer than the axial length of the lower blade portion 38.
[0024]
The motor 39 is composed of, for example, an induction motor, and is attached to the outer surface of the upper plate portion 30a of the casing member 30 inside the main body box 22, and the rotating shaft 39a passes through the upper plate portion 30a. The end plate 35 of the blade body 34 is attached to the projecting end portion so as to rotate integrally.
On the other hand, a filter 40 is attached to the lower surface of the main body box 22 so as to cover the suction port 28 and the blowout port 29.
[0025]
Further, as shown in FIG. 3, an operation panel 41 is provided on the outer surface of the front plate 22c of the main body box 22, and each of the "strong" switch 42a serves as an operation start switch and switches operation intensity. , A “medium” switch 42 b and a “weak” switch 42 c are provided, and an operation stop switch 43 is provided.
Further, in the main body box 22, a strengthening changeover switch 44 a and a weakening changeover switch 44 b are provided on the right plate portion 22 d as changeover means.
[0026]
Thus, the motor 39 is configured to switch the rotational speed between “high”, “medium”, and “low” by phase-controlling the power source (commercial AC power source). For example, the “strong” switch It is rotated at a "high" rotational speed by the operation of 42a, at a "medium" rotational speed by the operation of the "medium" switch 42b, and at a "low" rotational speed by the operation of the "weak" switch 42c. In this case, the strengthening changeover switch 44a and the weakening changeover switch 44b are operated to adjust the air blowing capacity in consideration of the height from the range 24 to the outlet 29.
[0027]
That is, when the height from the range 24 to the outlet 29 is relatively high, it is preferable that the air blowing capacity is high in order to form an air curtain that appropriately reaches the range 24 portion. When the height to the blowout port 29 is relatively low, it is preferable that the air blowing capacity is low in order to form an air curtain that reaches the range 24 partly appropriately, and when the range hood fan 21 is installed, When the mounting height is relatively high, the reinforcing changeover switch 44a is operated, and when the mounting height is relatively low, the weakening changeover switch 44b is operated. When the strengthening changeover switch 44a is turned on, phase control is performed so that the rotational speeds “high”, “medium”, and “low” are slightly increased, and the weakening changeover switch 44b. When is turned on, phase control is performed to slightly reduce the rotational speeds “high”, “medium”, and “low”, respectively, and the air blowing capacity is adjusted.
[0028]
The strengthening changeover switch 44a and the weakening changeover switch 44b are provided on the right plate portion 22d of the main body box 22 which is relatively difficult to operate so as not to be normally used. The adjustment of the air blowing capacity may be performed not by phase control but by motor tap switching, inverter control, or the like.
[0029]
In the present embodiment having the above configuration, when the motor 39 is rotationally driven, the lower blade portion 38 rotates in the lower fan chamber 27 and the upper blade portion 36 rotates in the upper fan chamber 31. As the lower blade portion 38 rotates, air containing oily smoke and the like passes through the filter 40 as indicated by an arrow A and is sucked from the suction port 28 in the central portion, and part of the air passes through the filter 40 from the blowout port 29 in the peripheral portion. And blown out (see arrow B). In this case, the peripheral wall portion 26a, which is the outer peripheral edge portion thereof, is blown out substantially vertically by forming a vertical shape. A so-called air curtain is formed by the blown air flow. In this case, since there is a swirl component in the air flow, the air curtain often becomes a so-called spiral flow. Further, the remaining intake air is discharged from the discharge port 33 to the outside by the rotation of the upper blade portion 36.
[0030]
According to the present embodiment, the air flow for forming the air curtain is generated by the air blowing ability determined by the lower blade portion 38 and the lower fan chamber 27, and the air blowing ability determined by the upper blade portion 36 and the upper fan chamber 31. As a result, an air flow for exhaust is generated, so that even if the ventilation resistance on the exhaust side fluctuates, for example, the amount of air blown out from the blowout port 29 does not change so much, and a stable air curtain forming action Can be obtained. In addition, since the exhausted air exits from the discharge port 33 of the upper fan chamber 31, the lower fan chamber 27 has no obstacles such as an exhaust duct and the air blowing efficiency is good. In addition, in the lower fan chamber 27, the air sucked from the suction port 28 in the central portion is blown out from the blowout port 29 in the peripheral portion as it is, so that a spiral casing is arranged in the fan chamber to change the air direction. There is little decrease in the air blowing efficiency, and as a result, the motor 39 can be reduced in size and cost can be reduced. Further, the amount of air blown from the outlet 29 becomes uniform. Furthermore, since the upper fan chamber 31 has a spiral shape, it is possible to sufficiently ensure the blowing capacity for exhaust.
[0031]
The air sucked from the suction port 28 and discharged to the outside as it is from the discharge port 33 passes through the filter 40 once, but is sucked from the suction port 28 and blown out from the blowout port 29 ( At this time, the circulating air) passes through the filter 40 again, and eventually passes through the filter 40 twice, so that the air supplied to the air curtain is effectively cleaned. In addition, a part of the air that contributed to the air curtain passes through the filter 40 again with the oil smoke rising from the range 24 (after three times) and is sucked from the suction port 28 and partly exhausted. The exhaust air cleaning efficiency is also extremely high. That is, since the efficiency of cleaning the circulating air is extremely high, the efficiency of cleaning the exhausted air is improved as compared with the case where all of the exhausted air passes through the filter only once.
[0032]
Further, according to the present embodiment, a changeover switch 44a for strengthening and a changeover switch 44b for weakening are provided which are switched in consideration of the height from the range portion to the outlet and adjust the blowing capacity in accordance with the operation. Therefore, an air curtain that reaches moderately to the range 24 portion is formed. That is, when the height from the range 24 to the outlet 29 is relatively high, it is preferable that the air blowing capacity is high in order to form an air curtain that appropriately reaches the range 24 portion. In the case where the height to the outlet 29 is relatively low, it is preferable that the air blowing capacity is low in order to form an air curtain that reaches moderately to the range 24 portion. By operating the switch 44a for strengthening when the mounting height is relatively high, the air blowing capacity can be increased, and when the mounting height is relatively low, the weakening switch 44b is installed. By operating it, the air blowing capacity can be lowered, and therefore, an air curtain that reaches moderately to the range 24 portion can be satisfactorily formed. By the way, the height from the range 24 to the range hood fan 21 is usually 80 cm or more, but is generally about 80 cm to 100 cm.
[0033]
Furthermore, according to the present embodiment, since the blowout port 29 is formed in a shape that surrounds all of the heating ports 24a, 24a in the range 24, an air curtain covering the range portion can be formed, and air containing oily smoke or the like is collected. Efficiency is improved. In addition, although the range may have one heating port or may have three or more, the blowout port may have a shape surrounding the entire heating port.
In addition, according to the present embodiment, since the length of the upper blade portion 36 in the axial direction is longer than the length of the lower blade portion 38 in the axial direction, the air blowing capacity of the upper blade portion 36 is large. Excellent exhaustability of oil and other air.
[0034]
FIG. 5 shows a second embodiment of the present invention. In this embodiment, the upper blade portion 51a and the lower blade portion 51b of the blade body 34 are constituted by a blade plate material 51 which is an integral member. This is different from the first embodiment. In this case, the portion located in the upper fan chamber 31 in the blade plate material 51 corresponds to the upper blade portion 51a, and the portion located in the lower fan chamber 27 corresponds to the lower blade portion 51b. Even if it does in this way, there exists an effect similar to a 1st Example.
[0035]
6 and 7 show a third embodiment of the present invention. In this embodiment, the configuration of the blade body 61 is different from that of the first embodiment. That is, in the blade body 61, the upper blade portion 36 is a sirocco fan, while the lower blade portion 62 is formed of a turbo fan. The lower blade portion 62 is inclined so-called backward with respect to the rotation direction of the blade body 61 (indicated by an arrow F). In this case, the lower blade portion 62 is formed larger in diameter than the upper blade portion 36. The lower blade portion 62 is connected to the lower end portion of the upper blade portion 36 via a connecting end plate 63, and another connecting end plate 64 is attached to the lower end portion of the lower blade portion 62.
[0036]
According to this embodiment, since the lower blade portion 62 is composed of a turbo fan, the air blowing capacity can be increased without requiring a so-called spiral casing, and in particular, the swirl component of the air curtain can be sufficiently obtained. Therefore, it is possible to improve the collection efficiency of air containing oily smoke.
[0037]
FIG. 8 shows a fourth embodiment of the present invention. In this embodiment, the lower blade portion 62 of the lower blade portion 61 is formed to have substantially the same diameter (the same outer diameter size) as the upper blade portion 36. ing. Also in this embodiment, the air blowing capacity can be improved as compared with the first embodiment, and the swirling component of the air curtain can be sufficiently obtained, and the collection efficiency of air containing oil smoke can be improved. .
[0038]
FIG. 9 shows a fifth embodiment of the present invention. In this embodiment, the following points are different from the first embodiment. That is, a vent hole 71 is formed in the upper plate portion 22a of the main body box 22 and communicates with the outside through a duct (not shown). In addition, a relatively large opening 72 is formed in the upper plate portion 26 b of the casing 26, which is the upper portion of the lower fan chamber 27, and the casing 73 constituting the upper fan chamber 31 constitutes the lower fan chamber 27. It is provided apart from the casing 26. The casing 73 includes a spiral casing 73 a in which the discharge port 33 is formed, and a lower plate 73 b in which the suction port 32 is formed. A gap 74 between the casing 73 and the casing 26 communicates with the opening 72.
[0039]
The blade body 75 has a large number of upper blade portions 36 vertically attached to the peripheral portion of the circular end plate 35 and a donut plate-shaped connecting plate 37 connected to the lower end portion of the upper blade portion 36. An end plate 77 on a donut plate having a relatively large diameter is attached to a lower portion of the connection plate 37 via a connection rod 76, and a lower blade portion 78 made of, for example, a turbofan is attached to the upper surface of the end plate 77. The auxiliary end plate 79 is attached to the upper end portion of the lower blade portion 78. The lower blade portion 78 is located in the outer peripheral portion of the lower fan chamber 27 rather than the opening portion 72.
[0040]
In the above configuration, when the motor 39 is driven to rotate, the lower blade portion 78 rotates in the lower fan chamber 27, and the upper blade portion 36 rotates in the upper fan chamber 31. Then, as shown by the arrows, air containing oil smoke or the like is sucked from the suction port 28 in the central portion through the filter 40, and part of the air is blown out from the blowout port 29 in the peripheral portion through the filter 40. The remainder is discharged from the discharge port 33. In addition, external air is sucked into the main body box 22 from the vent 71, sucked into the lower fan chamber 27 through the gap 74 and the opening 72, and blown out from the blowout port 27 through the filter 40. A so-called air curtain is formed by the blown air flow.
[0041]
According to the third embodiment, part of the air containing oil smoke and the outside air contributes to the formation of the air curtain, and the same effect as in the first embodiment can be obtained. Note that the vent 71 may be provided in the main body box 22 at a portion in the room 23 where air near the ceiling, for example, can be sucked.
[0042]
FIG. 10 shows a sixth embodiment of the present invention, which differs from the first embodiment in the following points. That is, a vent hole 81 is formed in the upper plate portion 22a of the main body box 22 and communicates with the outside through a duct (not shown). A relatively large opening 82 is formed in the upper plate portion 26 b of the casing 26, which is the upper portion of the lower fan chamber 27.
[0043]
The casing 83 constituting the upper fan chamber 31 is provided apart from the casing 26 constituting the lower fan chamber 27. The casing 83 includes a spiral casing 83 a in which the discharge port 33 is formed, and a lower plate 83 b in which the suction port 32 is formed. A gap 84 between the casing 83 and the casing 26 communicates with the opening 82.
[0044]
The blade body 85 has a large number of upper blade portions 36 vertically attached to the peripheral portion of the circular end plate 35 and a donut plate-shaped connecting plate 37 connected to the lower end portion of the upper blade portion 36. An end plate 87 on a donut plate having a relatively large diameter is attached to a lower portion of the connecting plate 37 via a cylindrical communication member 86, and a lower blade portion 88 made of a turbofan is provided on the upper surface of the end plate 87. The auxiliary end plate 89 is attached to the upper end portion of the lower blade portion 88. The lower blade portion 88 is located in the outer peripheral portion of the lower fan chamber 27 rather than the opening portion 82.
[0045]
The communication member 86 forms a communication passage 90 that passes through the opening 82 of the lower fan chamber 27 and connects the suction port 28 of the lower fan chamber 27 and the suction port 32 of the upper fan chamber 31. 90 and the opening 32 are partitioned.
[0046]
In this configuration, when the motor 39 is driven to rotate and the lower blade portion 88 and the upper blade portion 36 rotate, first, as indicated by the arrows, the air containing the oil smoke or the like is caused by the rotation of the upper blade portion 36. The suction port 28 is sucked through the communication passage 90 and discharged from the discharge port 33 to the outside. Further, by rotation of the lower blade portion 88, air outside the room 23 is sucked from the vent hole 81, and sucked into the lower fan chamber 27 through the opening portion 82 and blown out from the blowout port 29. An air curtain is formed.
[0047]
Also in this embodiment, the air flow for forming the air curtain is generated by the air blowing ability determined by the lower blade portion 88 and the lower fan chamber 27, and the air flow is determined by the air blowing ability determined by the upper blade portion 36 and the upper fan chamber 31. For example, even if the air blowing resistance on the exhaust side may fluctuate, the air amount blown from the air outlet 29 does not change so much, and a stable air curtain forming action can be obtained. it can. In addition, since the exhausted air exits from the discharge port 33 of the upper fan chamber 31, the lower fan chamber 27 has no obstacles such as an exhaust duct and the air blowing efficiency is good. In addition, in the lower fan chamber 27, the air sucked from the suction port 28 in the central portion is blown out from the blowout port 29 in the peripheral portion as it is, so that a spiral casing is arranged in the fan chamber to change the air direction. There is little decrease in the air blowing efficiency, which can contribute to miniaturization of the motor 39 and cost reduction. Further, the amount of air blown from the outlet 29 becomes uniform. Furthermore, since the upper fan chamber 31 has a spiral shape, a sufficient blowing capacity for exhaust can be secured.
[0048]
In particular, the air to be exhausted is sucked from the suction port 28, and the air for forming the air curtain is taken from the vent port 81. Therefore, it is easy to secure an independent air volume, and a more stable air curtain forming action can be obtained. it can. In addition, since the oil forming the air curtain does not contain oily smoke, it is possible to prevent the oily smoke from coming into contact with the user.
[0049]
Furthermore, according to this embodiment, the vent 81 is configured to communicate with the outside of the room 23 through a duct (not shown), so that the outside air can be used as an air curtain while taking the outside air into the room 23, It is possible to improve the efficiency of collecting air such as oil smoke while achieving air exchange action and elimination of negative pressure in the room.
[0050]
In addition, since the motor 39 is provided inside the main body box 22 and outside the fan chambers 27 and 31, the motor 39 is cooled by the air flow from the vent 81 toward the opening 82.
[0051]
FIG. 11 shows a seventh embodiment of the present invention, which is different from the sixth embodiment in that a vent 91 is formed at a portion communicating with the inside of the room 23.
In the seventh embodiment, due to the rotation of the lower blade portion 88, the air in the room 23 other than the range 24 (not shown in FIG. 11) portion is moved from the vent 91 to the main body as indicated by an arrow. The air is sucked into the box 22 and then sucked into the lower fan chamber 27 through the opening 82 and blown out from the blowout port 29, and a so-called air curtain is formed by the blown air flow. In this case, a part of the air curtain rises together with the air in the range 24 portion and is discharged, so the air in the room 23 other than the range 24 portion is also gradually discharged. Overall ventilation can be improved.
[0052]
12 and 13 show an eighth embodiment of the present invention. This embodiment is different from the third embodiment (FIG. 6) in the following points. That is, in the third embodiment, the peripheral wall portion 26a, which is the outer peripheral edge portion of the lower fan chamber 27, is vertical, but in the eighth embodiment, the peripheral wall portion 26a has an arcuate cross section, The side is inclined inward. In this embodiment, there are many components directed inwardly in the air flow blown out from the outlet 29, and a slightly inward air curtain is formed as shown in FIG. According to such a structure, when the range 24 is comparatively small, the air curtain which covers this range part favorably can be formed. In particular, since the peripheral wall portion 26a is formed in a circular arc shape, the air flows smoothly and the blowing resistance is reduced as compared with the case where the peripheral wall portion 26a is simply inclined inwardly in a straight line. Incidentally, typically, the size of the range (horizontal width) is typically 60 cm, 75 cm, and 90 cm (there are other dimensions).
[0053]
14 and 15 show a ninth embodiment of the present invention. This embodiment is different from the third embodiment (FIG. 6) in the following points. That is, in the ninth embodiment, the peripheral wall portion 26a is inclined outward in a circular arc shape. In this embodiment, the component directed outward is increased in the air flow blown from the blowout port 29, and a slightly outward air curtain is formed as shown in FIG. Such a configuration is suitable when the range 24 is relatively large. In particular, since the peripheral wall portion 26a is formed in a circular arc shape, air flows more smoothly and the blowing resistance is reduced as compared with the case where the peripheral wall portion 26a is simply inclined linearly outward.
[0054]
FIG. 16 shows a tenth embodiment of the present invention. This embodiment is different from the first embodiment in that a guide member 101 is provided. That is, a guide member 101 having a guide surface 101 a continuous with the blowout port 29 is provided on the side of the edge of the blowout port 29 corresponding to the wall surface 23 a of the room 23 in which the main body box 22 is disposed. .In this case, the guide surface 101a has a substantially semicircular concave shape as can be seen from FIG.
According to this embodiment, the air blown from the blowout port 29 can be prevented from becoming a turbulent flow at the corner portion between the wall surface 23 and the lower plate portion 25, and the air blown from the blowout port 29 is rectified. Therefore, a good air curtain can be formed with a small air volume.
[0055]
FIG. 17 shows the case where the main body box 22 is provided at the corner portion of the wall surface 23a and the wall surface 23b as an eleventh embodiment of the present invention. In this case, the guide surface 102a of the guide member 102 is the wall surface 23a. , 23b. Also in this embodiment, the same effect as in the tenth embodiment can be obtained.
[0056]
FIG. 18 shows a twelfth embodiment of the present invention. In this embodiment, the point that the air outlet 29 is formed in an approximately elliptical shape (in this case, an elliptical shape that is long in the lateral direction) is the same as the first embodiment. different. This embodiment is suitable when the range 24 is large in the lateral direction or when the heating ports 24a are arranged in parallel.
[0057]
FIG. 19 shows a thirteenth embodiment of the present invention. In this embodiment, the shape of the outlet 29 is different from that of the first embodiment. That is, the blowout port 29 is formed such that the front part is substantially linear and the rear part is arcuate. This embodiment is suitable when there are three heating ports 24a in the range 24. That is, the three-port type range 24 is usually configured with two heating ports 24a on the front side and one heating port 24a in the center on the back side, with the front portion of the blowout port 29 being substantially straight and the rear portion being circular. By making it arcuate, an air curtain suitable for the range 24 can be formed. Moreover, since the front side of the air curtain spreads sideways, the user who cooks in front of the range 24 can be isolated from the direct oil smoke from the range 24 in a wide area. Will be very good.
[0058]
【The invention's effect】
As apparent from the above description, the present invention can obtain the following effects.
According to the invention of claim 1,Since a guide member having a guide surface that is continuous with the blowout port is provided on the side corresponding to the wall surface of the room in which the main body box is disposed in the edge of the blowout port, the air blown from the blowout port is It is possible to prevent a turbulent flow at the part and to rectify the blown air, and to form a good air curtain with a small air volume.
According to the invention of claim 3, it is possible to form a good air curtain without being greatly affected by fluctuations in the air blowing load such as the air blowing resistance on the exhaust side, and to improve the air blowing efficiency. The air trapping effect can be improved, and it is possible to contribute to the miniaturization of the motor and the cost reduction without requiring much increase in the motor capacity. It can be secured.
According to the invention of claim 4, a part of the air containing the oil smoke sucked from the suction port and the air sucked from the vent contribute to the formation of the air curtain. An effect can be obtained.
According to the fifth aspect of the invention, the same effect as that of the third aspect of the invention can be obtained. In addition, the air to be exhausted is sucked from the suction port, and the air for forming the air curtain is separated from the suction port. Since it is easier to secure an independent air volume, it is possible to obtain a more stable air curtain forming action, and the air forming the air curtain does not contain oily smoke. Oil smoke can be prevented from coming into contact.
According to the invention of claim 6, the air in the room sucked from the vent is contributed to the formation of the air curtain, and can greatly contribute to the cleaning of the whole room as well as the air such as the smoke rising from the range portion. .
According to the seventh aspect of the present invention, since the upper blade portion is composed of a sirocco fan and the lower blade portion is composed of a turbo fan, it is possible to sufficiently secure a blowing capacity for exhaust and to form an air curtain. The air blowing capacity of the air curtain can be improved, in particular, the swirl component of the air curtain can be obtained, and the collection efficiency of air containing oily smoke can be improved. You can.
According to the invention of claim 8, since the air curtain is formed by the air in the room, the entire room can be well ventilated, and it is greatly influenced by fluctuations in the ventilation load such as the ventilation resistance on the exhaust side. A good air curtain can be formed without any significant increase in motor capacity, contributing to miniaturization of the motor and cost reduction, and the upper blade is composed of a sirocco fan. Since the blade part is composed of a turbofan, it is possible to secure a better blowing capacity for exhaust and to improve the blowing capacity for forming the air curtain, and in particular, to obtain the swirl component of the air curtain. In addition, the efficiency of collecting air containing oily smoke can be improved, and the fan can be cooled by the airflow that contributes to the formation of the air curtain.
[Brief description of the drawings]
FIG. 1 is a longitudinal side view showing a first embodiment of the present invention.
FIG. 2 is a longitudinal front view schematically showing the arrangement of a range hood fan.
FIG. 3 is a partial perspective view seen from below.
FIG. 4 is a cross-sectional plan view of the upper blade part.
FIG. 5 is a longitudinal side view showing a second embodiment of the present invention.
FIG. 6 is a longitudinal side view showing a third embodiment of the present invention.
FIG. 7 is a perspective view of a blade body.
FIG. 8 is a longitudinal side view showing a fourth embodiment of the present invention.
FIG. 9 is a longitudinal side view showing a fifth embodiment of the present invention.
FIG. 10 is a longitudinal side view showing a sixth embodiment of the present invention.
FIG. 11 is a longitudinal side view showing a seventh embodiment of the present invention.
FIG. 12 is a longitudinal side view showing an eighth embodiment of the present invention.
FIG. 13 is a longitudinal front view schematically showing an arrangement state of the range hood fan.
FIG. 14 is a longitudinal side view showing a ninth embodiment of the present invention.
FIG. 15 is a longitudinal front view schematically showing an arrangement state of a range hood fan.
FIG. 16 is a partial perspective view showing a tenth embodiment of the present invention.
FIG. 17 is a partial perspective view showing an eleventh embodiment of the present invention.
FIG. 18 is a partial perspective view showing a twelfth embodiment of the present invention.
FIG. 19 is a partial perspective view showing a thirteenth embodiment of the present invention.
FIG. 20 is a schematic longitudinal front view showing a conventional example.
FIG. 21 is a schematic longitudinal front view showing another conventional example.
[Explanation of symbols]
21 is a range hood fan, 22 is a body box, 23 is a room, 23a is a wall surface, 24 is a range, 24a is a heating port, 27 is a lower fan chamber, 28 is a suction port, 29 is an outlet, 31 is an upper fan chamber, 32 is a suction port, 33 is a discharge port, 34 is a blade body, 36 is an upper blade portion, 38 is a lower blade portion, 39 is a motor, 40 is a filter, 41 is an operation panel, 44a and 44b are changeover switches (switching means). , 51 is a blade plate material, 51a is an upper blade portion, 51b is a lower blade portion, 61 is a blade body, 62 is a lower blade portion, 71 is a vent, 72 is an opening, 74 is a gap, 75 is a blade body, and 78 is Lower blade portion, 81 is a vent, 82 is an opening, 84 is a gap, 86 is a communication member, 88 is a lower blade portion, 90 is a communication passage, 91 is a vent, 101 is a guide member, 101a is a guide surface, 102 Is a guide member, 102a is a guide surface Show.

Claims (8)

A main body box having a vent hole disposed above the range and communicating with the room in which the range is installed;
A suction port provided in the center of the lower part of the main body box;
A blow-off port provided in a peripheral portion of the suction port;
A guide member provided on the side corresponding to the wall surface of the room in which the main body box is disposed, and having a guide surface for guiding the air blown from the blowout opening;
Range hood fan to be equipped with. The range hood fan according to claim 1, wherein the guide surface is formed in a substantially semicircular concave shape . A main body box disposed above the range;
A lower fan chamber which is provided in the lower part inside the main body box, has a suction port in the central part of the lower part and has a substantially annular outlet in the lower peripheral part;
A spiral upper fan chamber provided at the upper part of the lower fan chamber and having a suction port communicating with the fan chamber at the lower part and having a discharge port at another part,
A blade body having an upper blade portion located in the upper fan chamber and a lower blade portion located in the lower fan chamber, and the upper blade portion and the lower blade portion rotating together;
A motor attached to a stationary part and rotating the blades;
Range hood fan to be equipped with. The body box is provided with vents,
There is a gap communicating with the vent between the member constituting the upper fan chamber and the member constituting the lower fan chamber,
In the upper part of the lower fan chamber is formed an opening that communicates with this gap and the inlet of the upper fan chamber,
4. The range hood fan according to claim 3 , wherein the lower blade portion of the blade body is positioned on the outer peripheral portion with respect to the opening portion. A main body box disposed above the range and having a vent;
Under this provided in a lower portion of the inner body box has a substantially has an annular air outlet, open mouth communicating with the vent in a central portion of the upper to the periphery of the lower and having a mouth suction to the central portion of the lower A fan room,
A spiral upper fan chamber provided at the upper portion of the lower fan chamber and spaced apart from the lower fan chamber and having a suction port at the lower portion and a discharge port at other portions;
A communication member that penetrates the opening of the lower fan chamber and connects the suction port of the lower fan chamber and the suction port of the upper fan chamber, and a communication member that partitions the communication passage and the opening;
A blade body having an upper blade portion located in the upper fan chamber and a lower blade portion located in the lower fan chamber, and the upper blade portion and the lower blade portion rotating together;
A motor attached to a stationary part and rotating the blades;
Range hood fan to be equipped with. 6. The range hood fan according to claim 4 , wherein the vent communicates with a room in which the main body box is disposed. 6. The range hood fan according to claim 3, wherein the upper blade portion is made of a sirocco fan and the lower blade portion is made of a turbo fan. A main body box having a vent hole disposed above the range and communicating with the room in which the range is installed;
A lower fan which is provided in the lower part inside the main body box, has a suction port in the lower central part, has a substantially annular outlet in the lower peripheral part, and has an opening leading to the vent hole in the upper central part Room,
A spiral upper fan chamber provided at the upper portion of the lower fan chamber and spaced apart from the lower fan chamber and having a suction port at the lower portion and a discharge port at other portions;
A communication member that penetrates the opening of the lower fan chamber and connects the suction port of the lower fan chamber and the suction port of the upper fan chamber, and a communication member that partitions the communication passage and the opening;
The sirocco fan is located in the upper fan chamber, extends downward from the lower end of the sirocco fan, passes through the opening of the lower fan chamber, and has a suction port for the lower fan chamber and a suction port for the upper fan chamber. has a communicating member that partitions the communication passage is formed and communication passage and opening communicating, and the blade body having a turbofan positioned within the lower fan chamber is further coupled to the lower end of the communication member,
A motor that is attached to a stationary part inside the main body box and outside the upper fan chamber and the lower fan chamber, and that rotates the blade body;
Range hood fan to be equipped with.

Images