JPH05215372A - Interior ventilating device and method of ventilation - Google Patents

Abstract

PURPOSE: To prevent cookery or kitchen from being contaminated by feeding an air jet flow in the direction of an exhauster along the ceiling face facing indoors thereby capturing cooking smoke being exhausted. CONSTITUTION: An air jet flow L1a generated in the region between an air inlet unit 11 and an air outlet unit 18 disposed on a ceiling board 25 flows along the surface of the ceiling board 25. Cooling smoke L3 to be discharged, e.g. soot, steam and dirt air, generated through cooking, e.g. rice cooking, in cookery or kitchen is captured by the air jet flow L1a and carried in the direction of a filter 21, i.e., the exhausting direction. Since dirt cooking smoke L3 can be exhausted effectively from a room or an indoor space H, cookery or kitchen can be prevented from being contaminated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a ventilation device and a ventilation method for a room having a ceiling.

[0002]

2. Description of the Related Art Finnish Patent Application No. 84096 discloses a method of trapping smoke (oil smoke, boiled cooked exhaust burnt smoke) generated by cooking or the like by an air jet flow flowing in a room, and exhausting it. There is. According to this method, an air jet flow is made to flow from the air intake device provided on the ceiling and sent to the exhaust device.

[0003]

However, the above-mentioned method has a problem in the flow of the air jet stream and cannot exhaust it efficiently. The present invention solves this problem.

[0004]

According to the present invention, the air jet flow is caused to flow toward an exhaust device along a ceiling surface facing the room, and the smoke to be exhausted is more efficiently captured.
It is designed to ventilate the room.

In the present invention, by utilizing the so-called "Coanda" effect, the air jet flow is made to flow on the ceiling surface facing the room, and the jet flow is made to flow exactly to the ceiling surface connected to the exhaust device, The smoke to be exhausted is entrained in this, and it is configured to be guided to the exhaust device and exhausted from the exhaust device to the outside.The wind speed and air volume of the air jet flow are the types of smoke to be exhausted by the air flow control device, The size of the room, the area of the ceiling surface, other usage conditions, and exhaust conditions can be freely adjusted to provide accurate and quick forced air ventilation in the room.

One of the features of the present invention is that the air intake device is provided with a curved guide surface so that the air is blown into the room in two parts, one of which forms an air jet flow along the ceiling surface. ..

In the present invention, the air flow is blown from the air chamber of the air flow control device into the room, and the blown air flow is tangent to the ceiling surface along the curved guide surface of the air chamber. It is blown out in a state, and this becomes an effective air jet flow, advances to the exhaust device along the ceiling surface, holds the smoke to be exhausted, and is exhausted to the outside.

The air flow adjusting means of the air flow adjusting device according to the present invention has a nose portion, and a curved guide surface is connected to the nose portion, and the nose portion touches the curved guide surface of the air chamber, It is designed to create a unidirectional spiral flow toward the air outlet provided in a part of the ceiling plate facing the. The air flow adjusting means is configured to be manually rotated, and by this rotating operation, it is possible to throttle or widen the air outlet, and further,
The air flow adjusting means is axially supported in the air chamber in an eccentric state with respect to the center of the chamber.

The present invention also provides a method of ventilating a room, in which a kind of swirling airflow is produced by the cooperation of the airflow adjusting means of the airflow adjusting device and the air chamber. From the air outlet opened to the side, the air flow is discharged along the ceiling surface, and this is advanced to the exhaust device,
(EN) Provided is a ventilation method for keeping a clean indoor environment by efficiently exhausting harmful smoke that pollutes a room or interferes with cooking work.

[0010]

The present invention will be described in detail with reference to the embodiments shown in the drawings. In FIG. 1, fresh air L ₁ to be taken indoors or indoors is taken into the indoor or indoor space H via an air intake device 11. Fresh air passing through the air intake channel 12 from the outside is supplied to the air intake device 1
One of the intake air chambers 13 flows into the intake air chamber 13, and the air chamber 13 is surrounded by a box body 14. The air from the air chamber 13 flows from the open channel 15 to the filter 21 of the air exhaust device 18 as an air jet stream L _1a which captures the air stream to be exhausted.

The air exhaust device 18 includes the exhaust air chamber 1
9, the air chamber 19 is surrounded by a casing 23. The casing 23 has an opening 20 for exhausting air indoors or indoors to the outside, and the air flow L ₂ exhausted through this opening allows the air flow L ₂ to exit from the air chamber 19.
Through the exhaust chamber 22. A filter 21 is provided in the opening 20. The opening 20 is formed on the inclined surface 24 of the casing 23, and the air flowing from the filter 21 of the opening 20 into the air chamber 19 passes through the air chamber 19 and the exhaust chamber 22 and is exhausted to the outside.

In FIG. 1, both the air intake device 11 and the air exhaust device 18 are supported by a ceiling structure C. The region L between the air intake device 11 and the air exhaust device 18 is located behind the ceiling between the ceiling structure C and the ceiling plate 25. The suspended ceiling plate 25 is attached to the air intake device 11 and the air exhaust device 18. On the back side of the ceiling plate 25, electric wiring and other electric parts, equipment, instruments and the like are attached. The above-mentioned carrier air jet stream L _1a flows along the surface of the ceiling plate 25 (indoor or a surface facing the room). By generating such a flow of the air jet stream L _{1a on} such a ceiling plate, the jet stream captures the smoke produced by cooking such as cooking in the kitchen or kitchen, steam produced by cooking rice, steam, dirty air, etc. which are desired to be discharged to the outside. Place it on the filter and let it flow toward the filter 21. In this way, the air intake device 1 arranged on the ceiling plate 25
1 and the air exhaust device 18 generate smoke in which impurities, oil, etc. are mixed in the air jet flow L _1a generated in the region between the air jet flow and the air jet flow L _1a. The dirty smoke from the room can be exhausted quickly and efficiently, and the kitchen and kitchen can be prevented from becoming dirty.

According to FIG. 1, the fresh air is stored in the indoor space H
The air jet flow L _1a flowing into the opening channel 15 is divided into two parts, and the other is the air flow L _1b taken from the air supply hole 16 formed in the air intake device 11. .. The air supply hole 16 is formed by a plurality of holes provided in the perforated plate 17, and the air flow L _1b flows into the indoor space H at a gentle flow rate. Therefore, in the space where the person who cooks in the indoor space H does the cooking work, it is not necessary to feel the draft. Then, the dirty indoor air is exhausted from the indoor space H to the outside through the exhaust channel 22 of the exhaust device 18 together with the smoked smoke L ₃ carried on the jet stream L _1a .

The structural elements such as the ceiling plate 25 described above have various widths and lengths, and can be appropriately dealt with according to the area and width of the indoor space. The installation intervals of the air intake device and the air exhaust device can be variously set according to the area.

In the embodiment shown in FIG. 2, the air flow adjusting device 26 can adjust the air jet flow L _1a for exhausting the smoke produced by cooking such as oil smoke and dirty air to be exhausted from the room to the outside. It has become. The air flow control device 26 is provided in the air chamber 1 of the air intake device 11.
A fresh air flow M, which is attached to the air flow controller 3 and is introduced from the outside, flows from the air chamber 13 to the air flow control chamber E of the air flow control device. The air flow control chamber E includes curved chamber plates 27a and 27a.
Surrounded by b, an air flow adjusting means 28 is provided in the air flow adjusting chamber E. This air flow control means 2
Reference numeral 8 is a unit for rotating the air flow adjusting chamber E in the direction of arrow N in the forward and reverse directions about the rotation axis O. The opening size of the air outlet D of the air flow adjusting chamber E is adjusted according to the rotating position. ing. The air flow adjusting means 28 is rotated by bearing means 29, as shown in FIG. The air flow adjusting means 28 is connected to the bearing means 29 and, within the air flow adjusting chamber E, the center O of the chamber.
It is arranged eccentrically with respect to. In this way, the air flow adjusting means 28 is located in the region between the center O of the air flow adjusting chamber and the curved inner surfaces F of the chamber plates 27a and 27b that define the chamber.

The nose portion 30 of the air flow control means 28 is
It is close to the inner surfaces F of the chamber plates 27a and 27b.

A curved air flow guide surface 31 is continuous with the nose portion 30, and the air flow control chamber 31 extends along the curved air flow guide surface 31 of the air flow control means 28 and the curved inner surface of the chamber plate 27a. An air flow is sent from E to the room.

The air outlet D described above is provided between the chamber plate 27a and the chamber plate 27b, and the outlet is arranged along the surface T of the ceiling plate 25. Then, the airflow is directed from the airflow control chamber E to the airflow outlet D of the chamber plate 27a at the boundary 2
7a ′, and the surface 2 of the ceiling plate 25 on the indoor side is sent out.
5 ', and flows toward the exhaust device 20 along the surface T of the ceiling plate.

FIG. 3 is an exploded view of the air flow control device 26. As shown in the figure, the air flow control device 26 includes a main plate 32 on which a counter bearing 29a of a bearing means is arranged. ing. The counter bearing 29a comprises a flange 33, which is preferably circular and projects from the surface S of the main plate 32. The counter bearing 29a of the bearing means 29 is arranged around the side surface G of the flange 33. The counter bearing 29a is configured to rotate about the rotation axis O along the side surface G and stop at an arbitrary rotation angle position. The center of the bearing is at the center point O. The counter bearing 29a comprises a flange 34 protruding from the surface S ', which is preferably circular. The end of the air flow adjusting means 28 is attached to this flange 34. The flange 34 is
Guide slots P ₁ , P ₂ , P ₃ are provided in which guide notches P ₁ ′, P ₂ ′, P of the air flow adjusting means 28 are provided.
_The 3'is engaged and the air flow adjusting means 28 is correctly attached to the counter bearing 29a.

According to the illustrated embodiment, the air flow control device 2
6 is the curved chamber plate 27 as described above.
a, 27b, these plates are the main plate 3
It is screwed to 2.

The embodiment of FIG. 3 shows only one end structure of the airflow regulator 26, but the other end of the airflow regulator 26 is supported by a similar structure, The flow adjusting means 28 is the same as the above-mentioned means for the bearing 2
It is supported by 9.

When adjusting the air jet flow L _1a , the counter bearing 29a of the bearing 29 is used.
The air flow adjusting means 28 attached to the air flow adjusting means 28 is rotated so as to occupy a predetermined angular position in the air flow adjusting chamber E surrounded by the chamber plates 27a and 27b.
This rotation is performed by rotating the bearing 29 in the direction of arrow N.

FIG. 4 shows an example of adjusting the air flow adjusting means 28 so that the air jet flow L _1a is blown thinly along the ceiling plate. The flow of fresh air indicated by the arrow M is air. It flows into the flow control chamber E, and the chamber plate 2
After passing through the space surrounded by 7a and 27b, it reaches the gap D'between the air flow adjusting means 28 and the chamber plate 27a. The gap D'is formed between the air flow adjusting means 28 and the boundary portion 27a 'of the chamber plate 27a, and the rotation of the air flow adjusting means 28 narrows or widens the gap. , The air volume of the air jet flow blown from the air outlet D is adjusted. The air jet flow sent out from the air outlet D in this way is transferred to the ceiling plate 25.
Flow in the direction T along the surface 25 'of the air flow to the air exhaust device.

FIG. 5 shows a mode of capturing smoke L ₃ by the flow of the air jet flow L _1a of FIG.

FIG. 6 shows an example of the mode of adjusting the air flow by the air flow adjusting means 28.
8 is rotated clockwise to widen the gap D ′ from the state shown in FIG. 4 to increase the amount of air to be sent out and form a thick-layered air jet stream L _1a toward the filter 21 of the air exhaust device 18. Shed.

[0026]

According to the present invention, the fresh air taken in first flows into the air flow control chamber E surrounded by the chamber plates 27a and 27b, and then the guide surface 31 of the air flow control means 28. and 'flows to, from the air outlet D faces 25 of the top plate 25' gap D along the guiding surface F of the chamber plate 27a or 27b flows into the T direction Soi, the opposite to the air exhauster 18, Suien L ₃ on its way While being captured, the air is sucked by the air exhaust device 18 and exhausted to the outside, so that indoor or indoor ventilation is performed. In this way, most of the fresh air flows in the form of an air jet flow toward the indoor surface of the ceiling plate, and the smoke that you want to exhaust is trapped and exhausted. Is something that can be done.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of the present invention.

FIG. 2 is a cutaway side view of essential parts in the same embodiment.

FIG. 3 is an exploded perspective view of the air flow control device.

FIG. 4 is a cross-sectional view of an air flow control device.

FIG. 5 is an explanatory diagram illustrating a flow of an air jet flow sent from an air flow control device.

FIG. 6 is an explanatory diagram illustrating an operation of the air flow control device.

FIG. 7 is an explanatory diagram illustrating another mode of the flow of the air jet flow sent out from the air flow control device.

[Explanation of symbols]

11 air intake device H indoor or indoor space 12 air intake channel 13 intake air chamber 14 box body 15 opening channel 18 air exhaust device 19 exhaust air chamber 20 opening 21 filter 22 exhaust chamber 23 casing C ceiling structure 25 ceiling plate 26 air flow Control device 27a, 27b Curved chamber plate 28 Air flow control means 29 Bearing 29a, 29b Counter bearing L Fresh air flow L _1a Air jet flow L _1b Air flow blown into the room L ₂ Exhaust air flow L ₃ Exhaust Should smoke

Claims (15)

[Claims] 1. An air intake device (11) and an air exhaust device (18) provided behind a ceiling plate (25) provided in a ceiling structure (10) of a kitchen or kitchen, and the air intake device and the air exhaust device are provided. The air intake device 11 includes an air chamber 12 for taking in fresh air from the outside and an open channel 15 serving as an air outlet D.
Has an exhaust chamber 19 composed of a filter 21 for capturing oil and dirt by filtering smoked air such as dirty air exhausted from the indoor space H or air mixed with oily smoke, and a case-shaped frame 23, An air chamber E is provided inside the air intake device 11, and the opening channel 15 serving as an air outlet for blowing the fresh air taken into the air chamber from the outside into the room is the air exhaust device. Is located along the indoor surface 25 ′ of the ceiling plate with the opening direction in the filter direction, and the opening channel blows the air flow blown out from the opening channel into a layer such as an air jet stream L _1a. as stream has a structure in which while capturing Suien L ₃ to be exhausted from the chamber advances to ceiling T direction, to form an air jet flow reaching the air exhaust system Room ventilation apparatus according to claim and. 2. An air flow adjusting means 28 is built in the inside of the air intake device 11 surrounded by the curved chamber plates 27a and 27b, and the air outlet D of the air intake device is throttled by this air flow adjusting device. The indoor ventilation device according to claim 1, further comprising air flow adjusting means for adjusting the air speed and / or the air volume of the air jet flow by expanding the air flow. 3. The air flow adjusting means in the air chamber E adjusts a gap D ′ formed between the air flow adjusting means and the curved chamber plates 27a, 27b surrounding the air chamber E. The indoor ventilation device according to claim 1 or 2, wherein the air jet flow flowing in the T direction along the surface 25 'of the ceiling plate 25 is adjusted. 4. The air flow adjusting means is rotatably supported by a bearing device 29, and the air flow adjusting means is rotated to adjust the gap of the gap D ′, and the surface 25 ′ of the ceiling plate 25. An indoor ventilation device according to any of the preceding claims, having a configuration for adjusting said air jet flow L _1a flowing in the T direction along said direction. 5. The nose portion 30 includes the air flow adjusting means.
And including the curved chamber plate 27
The air chamber E surrounded by the inner surface F of a, 27b
Is rotatably supported by the bearing device 29, is eccentrically installed with the center O of the air chamber E as a rotation axis, and rotates the air flow adjusting means to adjust the clearance of the clearance D ′. Surface 2 of ceiling plate 25
Indoor ventilation device according to any of the preceding claims, having a configuration for adjusting said air jet flow L _1a flowing in the T direction along 5 '. 6. The nose portion 30 of the air flow adjusting means is continuous with a curved air flow guide surface 31, and the air chamber E is surrounded by the inner surface F of the curved chamber plates 27a, 27b. At the rotatably supported by the bearing device 29, is installed eccentrically around the center O of the air chamber E as a rotation axis, and rotates the air flow adjusting means to adjust the clearance of the clearance D ′. The ceiling plate 25 from the air outlet D
Indoor ventilation device according to any of the preceding claims, having a configuration for adjusting the air jet flow L _1a flowing in the T direction along the surface 25 'of the. 7. The air flow adjusting means 26 is supported by a main plate 32, and a counter bearing 29a of a bearing device 29 is fitted on a peripheral side surface G of a circular flange 33 protruding from a surface 32 of the main plate and attached thereto. An indoor ventilator according to any of the preceding claims. 8. A counter bearing 29a of a bearing device 29 in the air flow adjusting means 26 is guided by a peripheral side surface G of a circular flange 33 projecting from a surface 32 of the main plate to move around a center O of the air chamber E. Room ventilator according to any of the preceding claims, which rotates. 9. An indoor ventilation device according to claim 1, wherein a member 28 of the air flow adjusting means is attached to a circular flange 34 of a counter bearing 29b of a bearing device 29 of the air flow adjusting means 26. 10. The chamber plates 27a, 27b
Is provided with the air outlet, and the air intake device 11
Of the intake air chamber 13 and the air chamber E, the air flow sent from the air intake device 11 to the room is the air jet flow L _1a flowing along the surface of the ceiling plate and the air flow L expanding to the room. _The indoor ventilation device according to any one of the preceding claims, which is configured to generate _1b . 11. An air intake device 11 and an air exhaust device 18 provided behind the ceiling of a ceiling plate 25 provided in a ceiling structure 10 of a kitchen or kitchen, and these air intake device and air exhaust device are provided. The air intake device 11 includes an air chamber 12 for taking in fresh air from the outside and an open channel 15 serving as an air outlet D.
Has an exhaust chamber 19 composed of a filter 21 for capturing oil and dirt by filtering smoked air such as dirty air exhausted from the indoor space H or air mixed with oily smoke, and a case-shaped frame 23, An air chamber E is provided inside the air intake device 11, and the opening channel 15 serving as an air outlet for blowing the fresh air taken into the air chamber from the outside into the room is the air exhaust device. Is located along the indoor surface 25 ′ of the ceiling plate with the opening direction in the filter direction, and the opening channel blows the air flow blown out from the opening channel into a layer such as an air jet stream L _1a. as stream while capturing Suien L ₃ to be exhausted from the chamber advances to ceiling T direction, ventilating indoor air to form an air jet flow reaching the air exhaust system Chamber method ventilation characterized by Rukoto. 12. An air flow adjusting means 28 is built in the inside of the air intake device 11 surrounded by the curved chamber plates 27a and 27b, and the air outlet D of the air intake device is throttled by this air flow adjusting means. , Or
The method for ventilating a room according to claim 11, wherein the air velocity and / or the air volume of the air jet flow is adjusted to be widened. 13. Curved chamber plates 27a, 27b surrounding said air flow adjusting means and said air chamber E by said air flow adjusting means in said air chamber E.
And the air jet flow flowing in the T direction along the surface 25 'of the ceiling plate 25 is adjusted. Ventilation method. 14. The air flow adjusting means is rotatably supported by a bearing device 29, and the air flow adjusting means is rotated to adjust the gap of the gap D ′, and the surface 25 ′ of the ceiling plate 25. The method for ventilating a room according to any one of claims 11 to 13, wherein the air jet flow L _1a flowing in the T direction is adjusted along the direction. 15. The nose portion 3 includes the air flow adjusting means.
The curved chamber plate 27, which comprises
The air chamber E surrounded by the inner surface F of a, 27b
Is rotatably supported by the bearing device 29, is eccentrically installed with the center O of the air chamber E as a rotation axis, and rotates the air flow adjusting means to adjust the clearance of the clearance D ′. Surface 2 of ceiling plate 25
15. A method of ventilating a room according to any one of claims 11 to 14 having a configuration for adjusting the air jet flow _L1a flowing in the T direction along 5 '.