JP2004044821A - Air cleaner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve a smoking-area separation effect, by allowing sufficient removal of not only particulate material but also gaseous component in tobacco smoke by using an existing ventilation fan installed in a room. <P>SOLUTION: A collector 205 for performing a cleaning treatment with an electrostatic dust collection system and a fan 206 are built in a table body 201. A duct 207 is disposed in a side of the table body 201, and a clearance 217 is formed between an end opening of the duct 207 and the ventilation fan 1 installed in the indoor ceiling. When the fan 206 is driven, air in a space 213 is sucked from a suction port 204 in a top plate 202 and the particulate material in the tobacco smoke is collected by the collector 205. Part of the cleaned air is made to flow to a duct section 209 in a ceiling section 208 by an adjusting plate 310 and is jetted from a jet port 211, and the remaining part is guided to the ventilation fan 1. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air purifying device that utilizes an existing ventilation fan installed in a room.
[0002]
[Prior art]
Recently, the number of facilities for separating smoke has increased, and for example, a table-type air purifying device is often installed in a smoking area, for example. In this type of air purifying apparatus, indoor air is sucked and cleaned, and the cleaned air is blown into the room.
[0003]
[Problems to be solved by the invention]
By the way, according to a new standard of smoke separation effect judgment recently reported (Smoke separation effect judgment standard development study committee report), in the case of air purifier,
At the border between smoking areas and non-smoking areas,
(1) Using a digital dust meter, measure the change in the concentration of airborne dust over time and check for leaks (the concentration of dust in non-smoking areas does not increase due to smoking)
(2) Constant air flow from the non-smoking area to the smoking area (0.2 m / s or more)
(3) Measure the concentration of gaseous components by an appropriate method and check the state of leakage from smoking areas (the method has not been established at present).
This is considered as an effective smoking condition indoors.
[0004]
In smoking areas,
(1) Time-average suspended dust concentration using a digital dust meter is 0.15 mg / m ³ Less than
(2) The concentration of carbon monoxide measured using a detector tube is 10 ppm or less.
(3) The concentration of gaseous components is measured by an appropriate method and the value is below a certain level (the method is not established at present).
Are effective indoor smoking conditions.
[0005]
In the above-mentioned report of the Committee on the Determination of Smoke Effect Judgment, the summarization for enhancing the effect of separating smoke and evaluating the effect was as follows:
1) The existing air purifier installed indoors is an effective device for removing particulate matter in environmental tobacco smoke, but it is insufficient for removing gaseous components. Requires special consideration for ventilation in smoking areas.
2) From the viewpoint of preventing passive smoking, it is most effective to promote a method of exhausting air from smoking areas installed indoors to the outside.
It has been suggested.
[0006]
The present invention has been made in view of the above points, and by using an existing ventilation fan installed in a room, it is possible to sufficiently remove not only particulate matter in tobacco smoke but also gaseous components. The purpose is to further enhance the smoke separation effect.
[0007]
[Means for Solving the Problems]
The air purifying device of the present invention is an air purifying device that performs a cleaning process by sucking air from an inlet by driving a fan, and includes a duct that guides the cleaned air to a ventilation fan installed in a room. It is characterized by
[0008]
Another feature of the air purifier of the present invention is that the air volume guided to the ventilation fan is equal to or less than the rated ventilation air volume of the ventilation fan.
[0009]
Another feature of the air cleaning device of the present invention is that an end opening of the duct faces the ventilation fan at an interval.
[0010]
Another feature of the air purifying apparatus of the present invention is that a partition forming a space including the suction port is provided.
[0011]
Another feature of the air purifying apparatus of the present invention is that the partition is provided with an opening through which a person or a part of a person can enter the space.
[0012]
Another feature of the air purifier of the present invention is that the air purifier includes an opening / closing member for opening and closing the opening.
[0013]
Another feature of the air cleaning device of the present invention is that the space and the room communicate with each other even when the opening is closed by the opening / closing member.
[0014]
Another feature of the air purifying apparatus of the present invention is that a push-pull airflow composed of an airflow that sucks air and an airflow that blows air is generated in the space.
[0015]
Another feature of the air purifying apparatus of the present invention is that a part of the purified air is recirculated into the space to generate an airflow for blowing the air.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the air purifying apparatus of the present invention will be described with reference to the drawings.
[0017]
(1st Embodiment)
FIG. 1 is a diagram showing a schematic configuration of the air cleaning device of the first embodiment. FIG. 1 shows a counter table type air cleaning apparatus, which includes a table body 101 having casters 103 and a top plate 102 on the table body 101.
[0018]
A suction port 104 is formed at the center of the top plate 102. Further, the table body 101 has a built-in collector 105 having an ionizer (charging unit) and a collector (dust collecting unit) for performing a cleaning process by an electrostatic dust collection method, and a fan 106. Note that, in the present invention, the specifications of the collector are not limited to the electrostatic dust collection method, and a filtration collection method, an electrostatic filtration dust collection method, or the like can be used. Further, in the following description, the description is made with reference to the collector using the electrostatic dust collection method, but the same applies to these collectors.
[0019]
On the side of the table body 101, a duct 107 extending toward the ceiling and having an opening at the end is provided.
[0020]
The air purifier thus configured is installed such that the end opening of the duct 107 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 108 is formed therebetween.
[0021]
In the air purifying apparatus of the present embodiment, when the fan 106 is driven, the indoor air is sucked through the suction port 104 and the trap 105 collects the particulate matter in the tobacco smoke.
[0022]
Here, in a normal air purifying apparatus, the purified air is blown into the room, but in the present embodiment, the purified air is guided to the ventilation fan 1 through the duct 107, and the ventilation fan 1 It is exhausted from outside.
[0023]
In this case, the amount of air (the amount of air of the cleaned air) guided to the ventilation fan 1 through the duct 107 Q ₁₁ Is the ventilation air volume Q of the ventilation fan ₁₂ If greater than (Q ₁₂ <Q ₁₁ ), The air in the duct 107 leaks into the room through the gap 108 because the air in the duct 107 cannot be fully ventilated.
[0024]
Also, if the end of the duct 107 is connected to the ventilation fan 1 without any gap, the air flow Q guided to the ventilation fan 1 through the duct 107 ₁₁ Is the ventilation air volume Q of the ventilation fan ₁₂ Even if it is larger, there is no leakage from the gap 108, but it will be forced into the ventilation fan 1 and may be discharged from another ventilation fan that communicates through a duct (not shown) behind the ceiling. In addition, large-scale connection work is required, which increases costs.
[0025]
In the present embodiment, the end opening of the duct 107 is opposed to the ventilation fan 1 at an interval, and the air volume Q guided to the ventilation fan 1 via the duct 107. ₁₁ Is the ventilation air volume Q of the ventilation fan 1 ₁₂ Below (Q ₁₂ ≧ Q ₁₁ ). With this setting, not only is the construction for connecting the duct 107 and the ventilation fan 1 unnecessary, but also the air volume Q _Thirteen (= Q ₁₂ −Q ₁₁ ) Minutes of room air is drawn into the ventilation fan 1. Therefore, the air purifier can be freely moved by the casters 103 to use the desired ventilation fan 1, and the air in the duct 107 can be exhausted to the outside without leaking into the room.
[0026]
According to the air purifying apparatus of the first embodiment described above, by utilizing the existing ventilation fan 1 installed indoors, not only the particulate matter in the environmental tobacco smoke but also the gaseous The components can be sufficiently removed, and the smoke separation effect can be further enhanced.
[0027]
The air exhausted to the outside by the ventilation fan 1 is purified air, that is, air from which particulate matter in tobacco smoke is removed. It is also possible to prevent pollution of the atmospheric environment (including the vicinity of the exhaust port exhausted inside).
[0028]
(Second embodiment)
FIG. 2 is a perspective view illustrating an appearance of the air cleaning device according to the second embodiment. FIGS. 3 and 4 are schematic diagrams showing a cross section taken along line AA and a cross section taken along line BB of FIG. FIG. 1 shows a counter table type air cleaning device, which includes a table body 201 having casters 203 and a top plate 202 on the table body 201.
[0029]
A suction port 204 is formed in the center of the top plate 202. Further, the table body 201 includes a collector 205 having an ionizer (a charging unit) and a collector (a dust collecting unit) for performing a cleaning process by an electrostatic dust collecting method, and a fan 206.
[0030]
On the side of the table body 201, a duct 207 extending toward the ceiling and opening at the tip is provided.
[0031]
Above the top panel 202, a ceiling section 208 having a size similar to that of the top panel 202 is provided, and a duct section 209 communicating with the duct 207 is formed in the ceiling section 208. An adjustment plate 210 for adjusting the air volume is provided at a communicating portion between the duct 207 and the duct portion 209, and a part of the air sent out by the fan 206 flows into the duct portion 209, and a central portion of the lower surface of the ceiling portion 208 is formed. Is blown out from the blowout port 211 formed at the bottom.
[0032]
A side plate 212 made of a transparent resin or the like is provided so as to surround the periphery between the top plate 202 and the ceiling 208. Therefore, the space 213 including the suction port 204 is formed by the top plate 202, the ceiling 208, and the side plate 212 serving as partitions.
[0033]
On the surface of the side plate 212 along the long side of the top plate 202, two openings 214 are formed, each of which allows a person to put his / her upper body into the space 213. Each opening 214 is closed by a curtain 215 suspended from the ceiling 208.
[0034]
A curved notch 216 is formed on the long side of the top plate 202 at a position corresponding to the opening 214. Therefore, even when the opening 214 is closed by the curtain 215, the space 213 and the room communicate with each other through the gap between the curtain 215 and the notch 216.
[0035]
The air purifier thus configured is installed such that the end opening of the duct 207 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 217 is formed therebetween.
[0036]
As shown in FIG. 5, the smoker puts his / her upper body into the space 213 (smoking area) from the opening 214 while keeping the body in close contact with the notch 216 of the top plate 202 and carrying the curtain 215 on his / her back.
[0037]
In the air cleaning apparatus of the present embodiment, when the fan 206 is driven, the air in the space 213 is sucked from the suction port 204 (the air volume Q ₁ ), The trap 205 collects particulate matter in tobacco smoke.
[0038]
A part of the purified air flows into the duct 209 in the ceiling 208 by the adjusting plate 210 for adjusting the air volume and blows out from the outlet 211 (air volume Q ₂ ), The rest is led to the ventilation fan 1 (air volume Q ₃ ).
[0039]
Here, the air volume Q blown out from the outlet 211 ₂ The air volume Q sucked from the suction port 204 ₁ To be smaller (Q ₁ > Q ₂ ). As described above, in the space 213, the airflow (air flow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), The tobacco smoke can be efficiently guided to the suction port 204.
[0040]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 as described in the first embodiment. ₄ Below (Q ₄ ≧ Q ₃ ), The air volume Q from the gap 217 together with the air in the duct 207. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0041]
In addition, since the inside of the space 213 is sucked, the inside of the space 213 has a negative pressure as compared with the inside of the room. Flows into the space 213 from the gap between the user and the opening 214 (airflow Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0042]
According to the air purifying apparatus of the second embodiment described above, similarly to the first embodiment, by using the existing ventilation fan 1 installed indoors, the particulate matter in the environmental tobacco smoke is used. In addition, gaseous components such as carbon monoxide can be sufficiently removed, and the smoke separation effect can be further enhanced.
[0043]
The air exhausted to the outside by the ventilation fan 1 is air from which particulate matter in tobacco smoke has been removed. ) Can be prevented.
[0044]
In addition, since the space 213 including the suction port 204 is formed as a smoking area and a constant air flow is generated from the indoor side, the concentration of dust and carbon monoxide in the non-smoking area increases due to smoking. Nor.
[0045]
In addition, since a part of the purified air is recirculated into the space 213, not only the push-pull airflow can be generated as described above, but also the suction air volume of the air cleaning device can be freely set. be able to. That is, the exhaust air volume of the general ventilation fan 1 is 5 [m ³ / Min], but when the entire amount of the purified air is guided to the ventilation fan 1 as in the first embodiment, the suction air volume Q of the air cleaning device ₁₁ To 5 [m ³ / Min] or less. On the other hand, by adopting a configuration in which a part of the purified air is recirculated into the space 213, the air volume Q guided to the ventilation fan 1 is increased. ₃ To 5 [m ³ / Min] or less so that the remainder is recirculated. ₁ To 5 [m ³ / Min].
[0046]
Hereinafter, various modifications of the air cleaning device of the second embodiment will be described. The air cleaning device shown in FIG. 6 includes a light 218 that illuminates the inside of the space 213 on the ceiling 208.
[0047]
In the air cleaning apparatus shown in FIG. 7, the opening 214 is opened and closed by a door 219. Note that, even in a state where the opening 214 is closed by the door 219, the communication between the space 213 and the room through the gap between the door 219 and the notch 216 is the same as in the second embodiment.
[0048]
The air purifying apparatus shown in FIG. 8 reduces the width of the ceiling part 208 and integrally forms a horizontal plane 220 on the upper part of a side plate 212 made of a transparent resin or the like, and the ceiling part 208 and the horizontal plane 220 combine to form a space 213. The ceiling is made up. With such a configuration, light in the room can be taken into the space 213 from the horizontal plane 220.
[0049]
In the air purifying apparatus shown in FIG. 9, the top plate 202 has a large width and a curved cutout 216 formed on a long side has a large depth. In the air purifying device of the second embodiment, the smoker must bend forward slightly and enter the upper body into the space 213. However, by deepening the notch 216 as in the present embodiment, the smoker can The upper body can be put in the space 213 while standing. As in the example shown in FIG. 8, the horizontal plane 220 integrally formed on the upper part of the side plate 212 is combined with the ceiling part 208 to form the ceiling of the space 213, thereby taking in light from the room. .
[0050]
10 and 11, the end opening of the duct 207 is directed to the side, and the ventilation fan 1 installed on a wall or a window instead of the ceiling in the room is used.
[0051]
(Third embodiment)
FIG. 12 is a perspective view illustrating an appearance of an air cleaning device according to the third embodiment. FIG. 13 is a diagram showing a schematic configuration in a cross section taken along line DD of FIG. The air purifying apparatus shown in FIG. 1 includes a pair of left and right side plates 301, a ceiling 302 provided between upper portions of the pair of left and right side plates 301, and a back plate 303, and a table plate at a predetermined height position. 304 is provided.
[0052]
A rear chamber 305 is provided on the rear surface of the air purifier, and a suction port 306 communicating with the rear chamber 305 is formed in the rear plate 303. Further, in the rear chamber 305, a collector 307 having an ionizer (a charging unit) and a collector (a dust collecting unit) for performing a cleaning process by an electrostatic dust collecting method, and a fan 308 are incorporated.
[0053]
A duct 309 that extends toward the ceiling and has an open end is provided above the rear chamber 305.
[0054]
A duct 310 communicating with the duct 309 is formed in the ceiling 302. An adjusting plate 311 is provided at a communicating portion between the duct 309 and the duct portion 310, and a part of the air sent out by the fan 308 flows through the duct portion 310, and an outlet formed at the center of the lower surface of the ceiling portion 302. 312.
[0055]
A front plate 313 made of a transparent resin or the like is provided in an opening surrounded by the ceiling portion 302, the side plate 301, and the table plate 304. Therefore, the ceiling 302, the side plate 301, the table plate 304, and the front plate 313 serve as partitions to form a space 314 including the suction port 306.
[0056]
The front plate 313 has two openings 315 through which a person can put his / her upper body into the space 314. Each opening 315 is closed by a curtain 316 suspended from the ceiling 302.
[0057]
A cutout 317 having a curved shape is formed in the table plate 304 at a position corresponding to the opening 315. Therefore, even when the opening 315 is closed by the curtain 316, the space 314 and the room communicate with each other via the gap between the curtain 316 and the notch 317.
[0058]
The air purifier thus configured is installed so that the end opening of the duct 309 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 318 is formed therebetween.
[0059]
The smoker puts his / her upper body into the space 314 (smoking area) from the opening 315 while holding the body in close contact with the cutout 317 of the table board 304 and carrying the curtain 316 on his / her back. If the notch 317 is deep, the smoker can enter the upper body into the space 314 while standing straight.
[0060]
Also in the air cleaning device of the present embodiment, when the fan 308 is driven, the air in the space 314 is sucked from the suction port 306 (the air volume Q ₁ ), The collector 307 collects particulate matter in tobacco smoke.
[0061]
A part of the air that has been subjected to the cleaning treatment flows to the duct 310 in the ceiling 302 by the adjusting plate 311 and is blown out from the outlet 312 (air volume Q ₂ ), The rest is led to the ventilation fan 1 (air volume Q ₃ ).
[0062]
Here, the air volume Q blown out from the outlet 312 ₂ The air volume Q sucked from the suction port 306 ₁ To be smaller (Q ₁ > Q ₂ ). As described above, in the space 314, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), It is possible to efficiently guide the tobacco smoke to the suction port 306.
[0063]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), And the air volume Q from the gap 318 together with the air in the duct 309. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0064]
In addition, since the air in the space 314 is sucked, the inside of the space 314 has a negative pressure as compared with the indoor space. Flows into the space 314 from the gap between the person and the opening 315 (airflow Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0065]
In the air cleaning device according to the third embodiment, a light that illuminates the space 314 may be provided, or the opening 315 may be opened and closed by a door.
[0066]
(Fourth embodiment)
FIG. 14 is a perspective view illustrating an appearance of an air cleaning device according to the fourth embodiment. FIGS. 15 and 16 are schematic views showing a cross section taken along line EE and a cross section taken along line FF of FIG. The figure shows an air cleaning device of the counter table type, which comprises a table body 401 having casters 403 and a top plate 402 on the table body 401.
[0067]
A suction port 404 is formed at the center of the top plate 402. Further, the table body 401 includes a collector 405 having an ionizer (charging unit) and a collector (dust collecting unit) for performing a cleaning process by an electrostatic dust collecting method, and a fan 406.
[0068]
A duct 407 that extends toward the ceiling and has an open end is provided on a side portion of the table body 401.
[0069]
Further, on both sides of the table body 401, side plates 408 wider than the top plate 402 are provided. The side plate 408 is arranged such that the lower side is at the same height position as the lower side of the table body 401. A window 409 in which a plate made of a transparent resin or the like is fitted is formed above the side plate 408.
[0070]
A ceiling 410 is provided between upper portions of the pair of left and right side plates 408. Therefore, the side plate 408 and the ceiling 410 serve as partitions, and a space 411 including the suction port 404 is formed. A duct 412 communicating with the duct 407 is formed in the ceiling 410. An adjusting plate 413 is provided at a communication portion between the duct 407 and the duct portion 412, and a part of the air sent out by the fan 406 flows through the duct portion 412, and an outlet formed at the center of the lower surface of the ceiling portion 410. 414.
[0071]
An opening 415 is formed between the pair of left and right side plates 408, and each opening 415 is closed by a curtain 416 suspended from the ceiling 410. The length of the curtain 416 is set so that the lower edge thereof is at the same height position as the lower side of the side plate 408, that is, the lower side of the table body 401. Therefore, even when the opening 415 is closed by the curtain 416, a gap of the caster 403 is formed between the lower edge of the curtain 416 and the lower side of the side plate 408 and the floor surface, and the space 411 and the room are interposed through the gap. Communicates with
[0072]
The air purifier thus configured is installed such that the end opening of the duct 407 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 417 is formed therebetween.
[0073]
The smoker turns the curtain 416 and enters the space 411 (smoking area) from the opening 415 as shown in FIG.
[0074]
Also in the air cleaning apparatus of the present embodiment, when the fan 406 is driven, the air in the space 411 is sucked from the suction port 404 (the air volume Q ₁ ), The particulate matter in the tobacco smoke is collected by the collector 405.
[0075]
Part of the air that has been subjected to the cleaning treatment flows to the duct portion 412 in the ceiling portion 410 by the adjusting plate 413 and is blown out from the outlet 414 (airflow Q ₂ ), The rest is led to the ventilation fan 1 (air volume Q ₃ ).
[0076]
Here, the air volume Q blown out from the outlet 414 ₂ Air volume Q sucked from the suction port 404 ₁ To be smaller (Q ₁ > Q ₂ ). Thus, in the space 411, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), The tobacco smoke can be efficiently guided to the suction port 404.
[0077]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), The air volume Q from the gap 417 together with the air in the duct 407. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0078]
Further, since the air in the space 411 is sucked, the inside of the space 411 has a negative pressure as compared with the room, so that the air in the room is between the lower edge of the curtain 416 and the lower side of the side plate 408 and the floor surface. It flows into the space 411 from the gap of the caster 403 which is formed (the air volume Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0079]
In the air cleaning device according to the fourth embodiment, a light that illuminates the space 411 may be provided, or the opening 415 may be opened and closed by a door. FIG. 17 shows an example of a low-table type air cleaning device.
[0080]
(Fifth embodiment)
FIG. 18 is a perspective view illustrating an appearance of an air cleaning device according to the fifth embodiment. FIG. 19 is a diagram showing a schematic configuration in a cross section taken along line GG of FIG. The figure shows a counter table type air cleaning device, which includes a table body 501 having casters 503 and a top plate 502 on the table body 501.
[0081]
On both sides of the table body 501, ducts 504 and 505 extending upward are provided. One of the ducts 504 further extends toward the ceiling, and its tip is open.
[0082]
Further, on both sides of the table body 501, side plates 506 wider than the top plate 502 are provided. The side plate 506 is arranged such that the lower side is at the same height position as the lower side of the table body 501. A window 507 in which a plate made of a transparent resin or the like is fitted is formed on a side portion of the side plate 506.
[0083]
A suction port 508 is formed in the duct 505. Further, the table body 501 has a built-in collector 509 having an ionizer (a charging unit) and a collector (a dust collecting unit) for performing a cleaning process by an electrostatic dust collecting method, and a fan 510.
[0084]
The duct 504 has an outlet 511 facing the inlet 509. An adjustment plate 512 is provided in the duct 504, and a part of the air sent out by the fan 510 is blown out from the outlet 511.
[0085]
A ceiling plate 513 is provided between upper portions of the pair of left and right side plates 506. Therefore, the side plate 506 and the ceiling plate 513 serve as partitions, and a space 514 including the suction port 508 is formed.
[0086]
An opening 515 is formed between the pair of left and right side plates 506, and each opening 515 is closed by a curtain 516 suspended from a ceiling plate 513. The length of the curtain 516 is such that the lower edge is at the same height position as the lower side of the side plate 506, that is, the lower side of the table body 501. Therefore, even when the opening 515 is closed by the curtain 516, a gap of the caster 503 is formed between the lower edge of the curtain 516 and the lower side of the side plate 506 and the floor, and the space 514 and the room are formed through the gap. Communicates with
[0087]
The air purifier thus configured is installed such that the end opening of the duct 504 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 517 is formed therebetween.
[0088]
The smoker turns the curtain 516 and enters the space 514 (smoking area) through the opening 516.
[0089]
Also in the air cleaning device of the present embodiment, when the fan 510 is driven, the air in the space 514 is sucked from the suction port 508 (the air volume Q ₁ ), A collector 509 collects particulate matter in the tobacco smoke.
[0090]
A part of the purified air is blown out from the outlet 511 by the adjusting plate 512 (air volume Q ₂ ), The rest is guided to the ventilation fan 1 (air volume Q ₃ ).
[0091]
Here, the air volume Q blown out from the outlet 511 ₂ Air volume Q to be sucked through the suction port 508 ₁ Make it smaller (Q ₁ > Q ₂ ). Thus, in the space 514, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), The tobacco smoke can be efficiently guided to the suction port 508.
[0092]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), And the air volume Q from the gap 517 together with the air in the duct. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0093]
Further, since the air in the space 514 is suctioned, the inside of the space 514 has a negative pressure as compared with the indoor space. It flows into the space 514 from the gap formed by the casters 503 (the airflow Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0094]
In the air cleaning device according to the fifth embodiment, a light for illuminating the space 514 may be provided, or the opening 515 may be opened and closed by a door.
[0095]
(Sixth embodiment)
FIG. 20 is a perspective view illustrating the appearance of the air cleaning device according to the sixth embodiment. FIG. 21 is a diagram showing a schematic configuration in a cross section taken along line HH of FIG. The air cleaning device shown in FIG. 7 includes a housing 601 having a bottom surface 602 having casters 607, a ceiling surface 603, a pair of left and right side surfaces 604, a back surface 605, and a front surface 606.
[0096]
A recess 608 is formed on the front surface 606 side of the housing 601, and a suction port 612 is formed on a lower surface 609 in the recess 608. Further, the housing 601 includes a collector 613 having an ionizer (a charging unit) and a collector (a dust collection unit) for performing a cleaning process by an electrostatic dust collection method, and a fan 614.
[0097]
Ducts 615 are formed on both sides in the housing 601, and one of the ducts 615 further extends toward the ceiling, and the tip is open.
[0098]
Outlets 616 are formed on both side surfaces 610 in the recess 608, respectively. An adjustment plate 617 is provided in the duct 615, and a part of the air sent out by the fan 614 blows out from the outlet 616. A plurality of direction control plates are provided at the outlet 616, and air is blown diagonally downward, that is, toward the inlet 612.
[0099]
The recess 608 is provided with a front plate 618 made of a transparent resin or the like. Therefore, the recess 608 and the front plate 618 serve as partitions to form a space 619 including the suction port 612.
[0100]
The front plate 618 has two openings 620 through which a person can put his / her upper body into the space 619. Each opening 620 is closed by a door 621. Note that a gap is formed between the door 621 and the opening 620 even when the door 621 is closed, so that the space 619 communicates with the room.
[0101]
The air cleaning device thus configured is installed such that the end opening of the duct 615 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 622 is formed therebetween.
[0102]
The smoker opens the door 621 and puts his / her upper body into the space 619 (smoking area) through the opening 620.
[0103]
Also in the air cleaning device of the present embodiment, when the fan 614 is driven, the air in the space 619 is sucked from the suction port 612 (the air volume Q). ₁ ), The particulate matter in the tobacco smoke is collected by the collector 613.
[0104]
A part of the purified air is blown out from the outlet 616 by the adjusting plate 617 (air volume Q ₂ ), The rest is led to the ventilation fan 1 (air volume Q ₃ ).
[0105]
Here, the air volume Q blown out from the outlet 616 ₂ Air volume Q to be sucked through the suction port 612 ₁ To be smaller (Q ₁ > Q ₂ ). Thus, in the space 619, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), The tobacco smoke can be efficiently guided to the suction port 612.
[0106]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), The air volume Q from the gap 622 together with the air in the duct 615. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0107]
Further, since the air in the space 619 is sucked, the inside of the space 619 has a negative pressure as compared with the room, so that the air in the room flows into the space 619 (air volume Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0108]
In the air cleaning device of the sixth embodiment, a light for illuminating the space 619 may be provided, or the opening 620 may be opened and closed by a curtain.
[0109]
(Seventh embodiment)
FIG. 22 is a perspective view illustrating the appearance of the air cleaning device according to the seventh embodiment. FIG. 23 is a diagram showing a schematic configuration in a cross section taken along line II of FIG. The air cleaning apparatus shown in FIG. 7 includes four columns 701 and a ceiling 702 supported by the columns 701, and a corner plate 703 is provided so as to cover the outside of each column 701.
[0110]
A suction port 704 is formed in the center of the lower surface of the ceiling part 702, and the support 701 (corner plate 703) and the ceiling part 702 are used as partitions to form a space 705 including the suction port 704. In addition, a collector 706 having an ionizer (a charging unit) and a collector (a dust collecting unit) for performing a cleaning process by an electrostatic dust collecting method, and a fan 707 are built in the ceiling 702.
[0111]
The ceiling 702 is provided with a duct 708 that extends toward the ceiling and has an open end.
[0112]
An outlet 709 is formed around the lower surface of the ceiling 702. An adjustment plate 710 is provided at a location where the duct 708 communicates with the inside of the ceiling portion 702, and a part of the air sent out by the fan 707 is blown out from the blowout port 709.
[0113]
Openings 711 are formed between the columns 701, and the openings 711 are closed by curtains 712 suspended from the ceiling 702. The length of the curtain 712 is such that a gap is formed between the lower edge and the floor surface.
[0114]
The air purifier thus configured is installed such that the end opening of the duct 708 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 713 is formed therebetween.
[0115]
The smoker turns the curtain 712 and enters the space 705 (smoking area) through the opening 711.
[0116]
Also in the air cleaning device of the present embodiment, when the fan 707 is driven, the air in the space 705 is sucked from the suction port 704 (the air volume Q ₁ ), The particulate matter in the tobacco smoke is collected by the collector 706.
[0117]
A part of the purified air is blown out from the outlet 709 by the adjusting plate 710 (air volume Q ₂ ), The rest is led to the ventilation fan 1 (air volume Q ₃ ).
[0118]
Here, the air volume Q blown out from the outlet 709 ₂ Air volume Q to be sucked through the suction port 704 ₁ To be smaller (Q ₁ > Q ₂ ). As described above, in the space 705, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ By generating a push-pull-like airflow consisting of (1) and (2), tobacco smoke can be efficiently guided to the suction port 704.
[0119]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), And the air volume Q from the gap 713 together with the air in the duct. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0120]
Further, since the air in the space 705 is sucked, the inside of the space 705 has a negative pressure as compared with the room, so that the air in the room flows into the space 705 from the gap between the lower edge of the curtain 712 and the floor surface ( Air volume Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0121]
In the air purifying apparatus of the seventh embodiment, a light for illuminating the space 705 may be provided, or the opening 711 may be opened and closed by a door.
[0122]
(Eighth embodiment)
FIG. 24 is a perspective view illustrating an appearance of an air cleaning device according to the eighth embodiment. FIG. 25 is a diagram showing a schematic configuration in a cross section taken along line JJ of FIG. The air purifying apparatus shown in FIG. 7 includes a pair of left and right side plates 801, a ceiling 802 provided between upper portions of the left and right side plates 801, and a back plate 803, and a bench 804 is provided inside the rear plate 803. ing.
[0123]
A suction port 805 is formed in the center of the lower surface of the ceiling 802, and the side plate 801, the ceiling 802, and the back plate 803 are partitioned to form a space 806 including the suction port 805. In addition, a collector 807 having an ionizer (a charging unit) and a collector (a dust collecting unit) for performing a cleaning process by an electrostatic dust collection method, and a fan 808 are built in the ceiling 802.
[0124]
The ceiling 802 is provided with a duct 809 extending toward the ceiling and opening at the tip.
[0125]
Further, a communication chamber 810 that communicates with the ceiling 802 and the duct 809 is provided, and an outlet 811 that communicates with the communication chamber 810 is formed. An adjusting plate 812 is provided at a location where the duct 809 communicates with the communication chamber 810, and a part of the air sent out by the fan 808 is blown out from the outlet 811.
[0126]
An opening 813 formed by the side plate 801 and the ceiling 802 is closed by a curtain 814 suspended from the ceiling 802. The length of the curtain 814 is such that a gap is formed between the lower edge and the floor surface.
[0127]
The air purifier thus configured is installed such that the end opening of the duct 809 faces the ventilation fan 1 installed on the ceiling in the room at an interval, and a gap 815 is formed therebetween.
[0128]
The smoker turns the curtain 814 and enters the space 806 (smoking area) through the opening 813.
[0129]
Also in the air cleaning device of the present embodiment, when the fan 808 is driven, the air in the space 806 is sucked from the suction port 805 (the air volume Q). ₁ ), The particulate matter in the tobacco smoke is collected by the collector 807.
[0130]
A part of the purified air is blown out from the outlet 811 by the adjusting plate 812 (air volume Q ₂ ), The rest is guided to the ventilation fan 1 (air volume Q ₃ ).
[0131]
Here, the air volume Q blown out from the outlet 811 ₂ Is the air volume Q sucked from the suction port 805 ₁ Make it smaller (Q ₁ > Q ₂ ). As described above, in the space 806, the airflow (airflow Q ₁ ) And the airflow that blows air (airflow Q ₂ ), The tobacco smoke can be efficiently guided to the suction port 805.
[0132]
On the other hand, the air volume Q guided to the ventilation fan 1 ₃ (= Q ₁ −Q ₂ ) Is the ventilation air volume Q of the ventilation fan 1 ₄ Below (Q ₄ ≧ Q ₃ ), And the air volume Q from the gap 815 together with the air in the duct. ₅ (= Q ₄ −Q ₃ ) To allow the air in the room to be sucked into the ventilation fan 1.
[0133]
In addition, the air in the space 806 is sucked, so that the inside of the space 806 has a negative pressure as compared with the room, so that the air in the room flows into the space 806 from the gap between the lower edge of the curtain 814 and the floor surface ( Air volume Q ₆ ), A constant air flow is generated from the non-smoking place to the smoking place.
[0134]
In the air cleaning device according to the eighth embodiment, a light for illuminating the space 806 may be provided, or the opening 813 may be opened and closed by a door.
[0135]
As described above, the present invention has been described with various embodiments. However, the present invention is not limited to only these embodiments, and can be modified within the scope of the present invention.
[0136]
【The invention's effect】
As described above, according to the present invention, not only particulate matter in environmental tobacco smoke but also gaseous components such as carbon monoxide are sufficiently removed by using an existing ventilation fan installed indoors. Can increase the smoke separation effect.
[0137]
In addition, since the air exhausted to the outside by the ventilation fan is purified air, the air environment around the outdoor ventilation fan (including the vicinity of the exhaust port where the duct from the ventilation fan is exhausted to the atmosphere) is polluted. Can also be prevented.
[0138]
Furthermore, if a space including a suction port is formed as a smoking area, and if a constant air flow is generated from the indoor side, dust concentration and carbon monoxide in non-smoking areas may increase due to smoking. Absent.
[0139]
Furthermore, if a configuration is adopted in which part of the purified air is recirculated into the space, not only can a push-pull airflow be generated, but also the degree of freedom in setting the suction air volume of the air cleaning device can be increased. it can.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a schematic configuration of an air cleaning device according to a first embodiment.
FIG. 2 is a perspective view illustrating an appearance of an air cleaning device according to a second embodiment.
FIG. 3 is a diagram showing a schematic configuration in a cross section taken along line AA of FIG. 2;
FIG. 4 is a diagram showing a schematic configuration in a cross section taken along line BB of FIG. 2;
FIG. 5 is a diagram illustrating a use state of the air cleaning device according to the second embodiment.
FIG. 6 is a view showing a modification of the air cleaning device of the second embodiment.
FIG. 7 is a view showing a modification of the air cleaning device of the second embodiment.
FIG. 8 is a diagram showing a modification of the air cleaning device of the second embodiment.
FIG. 9 is a diagram showing a modification of the air cleaning device of the second embodiment.
FIG. 10 is a diagram showing a modification of the air cleaning device of the second embodiment.
11 is a diagram showing a schematic configuration in a cross section taken along line CC of FIG. 10;
FIG. 12 is a perspective view illustrating an appearance of an air cleaning device according to a third embodiment.
FIG. 13 is a diagram showing a schematic configuration in a cross section taken along line DD of FIG. 12;
FIG. 14 is a perspective view illustrating an appearance of an air cleaning device according to a fourth embodiment.
15 is a diagram showing a schematic configuration in a cross section taken along line EE of FIG. 14;
FIG. 16 is a diagram showing a schematic configuration in a cross section taken along line FF of FIG. 14;
FIG. 17 is a view showing a modification of the air cleaning device of the fourth embodiment.
FIG. 18 is a perspective view illustrating an appearance of an air cleaning device according to a fifth embodiment.
19 is a diagram showing a schematic configuration in a cross section taken along line GG of FIG. 18;
FIG. 20 is a perspective view illustrating an appearance of an air cleaning device according to a sixth embodiment.
21 is a diagram showing a schematic configuration in a cross section taken along line HH of FIG. 20;
FIG. 22 is a perspective view illustrating an appearance of an air cleaning device according to a seventh embodiment.
FIG. 23 is a diagram showing a schematic configuration in a cross section taken along line II of FIG. 22;
FIG. 24 is a perspective view illustrating an appearance of an air cleaning device according to an eighth embodiment.
25 is a diagram showing a schematic configuration in a cross section taken along line JJ of FIG. 24;
[Explanation of symbols]
1 ventilation fan
104, 204, 306, 404, 508, 612, 704, 805
105, 205, 307, 405, 509, 613, 706, 807 Collector
106, 206, 308, 406, 510, 614, 707, 808 fans
107, 207, 309, 407, 504, 615, 708, 809 duct
211, 312, 414, 511, 616, 709, 811
213, 314, 411, 514, 619, 705, 806 space
214, 315, 415, 515, 620, 711, 813 aperture
215, 316, 416, 516, 712, 814 curtain
219, 621 door

Claims (9)

An air purifying device for purifying by suctioning air from a suction port by driving a fan,
An air purifier, comprising a duct for guiding the purified air to a ventilation fan installed in a room. The air purification device according to claim 1, wherein an air volume guided to the ventilation fan is equal to or less than a rated ventilation air volume of the ventilation fan. The air purifying device according to claim 1, wherein an end opening of the duct faces the ventilation fan at an interval. The air purification device according to any one of claims 1 to 3, further comprising a partition that forms a space including the suction port. The air purifier according to claim 4, wherein the partition is provided with an opening through which a person or a part of a person can enter the space. The air cleaning device according to claim 5, further comprising an opening / closing member for opening and closing the opening. The air purifying apparatus according to claim 6, wherein the space and the room communicate with each other even when the opening is closed by the opening / closing member. The air purifier according to any one of claims 4 to 7, wherein a push-pull airflow including an airflow that sucks air and an airflow that blows air is generated in the space. 9. The air cleaning apparatus according to claim 8, wherein a portion of the purified air is recirculated into the space to generate an airflow for blowing the air.

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