CN101540088A - Smoke detector - Google Patents

Smoke detector Download PDF

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Publication number
CN101540088A
CN101540088A CNA2009101181380A CN200910118138A CN101540088A CN 101540088 A CN101540088 A CN 101540088A CN A2009101181380 A CNA2009101181380 A CN A2009101181380A CN 200910118138 A CN200910118138 A CN 200910118138A CN 101540088 A CN101540088 A CN 101540088A
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CN
China
Prior art keywords
air
sampling
fan
smoke detector
pipe arrangement
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CNA2009101181380A
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Chinese (zh)
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CN101540088B (en
Inventor
横田博之
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Nohmi Bosai Ltd
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Nohmi Bosai Ltd
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Priority claimed from JP2008085505A external-priority patent/JP5026320B2/en
Priority claimed from JP2008090580A external-priority patent/JP2009245138A/en
Application filed by Nohmi Bosai Ltd filed Critical Nohmi Bosai Ltd
Priority to CN201110104049.8A priority Critical patent/CN102243797B/en
Publication of CN101540088A publication Critical patent/CN101540088A/en
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Publication of CN101540088B publication Critical patent/CN101540088B/en
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Abstract

The invention provides a smoke detector enabling an air velocity of sampling air to be precisely measured. The smoke detector (S) includes: a smoke detection part (22) connected to a sampling pipe (11); a fan (12) that sucks sampling air (SA) into the sampling pipe; and an air velocity sensor (15) that measures an air velocity of the sampling air within the sampling pipe. The air velocity sensor (15) is disposed at a primary side of the fan (12), and a straightening vane (25) is disposed between the air velocity sensor (15) and a suction port (12a) of the fan (12).

Description

Smoke detector
Technical field
The present invention relates to detect because of what fire produced and swim in polluter such as airborne cigarette and report the smoke detector of breaking out of fire with optical mode.
Background technology
As fire preventing or the detection system when producing cigarette, perhaps in the semiconductor fabrication factory or bakery and confectionery that need certain environment to save from damage, the usability smoke detector.
Existing smoke detector comprises: be connected sampling with the inspection cigarette portion on the pipe arrangement, the sampling air be attracted to this sampling with the fan in pipe arrangement, measure the air velocity transducer (for example with reference to patent documentation 1) of the wind speed of the sampling air in the described sampling usefulness pipe arrangement.
In this smoke detector, importing inspection cigarette portion with the part sampling air that flows in the pipe arrangement, and after carrying out the detection of cigarette with the smoke sensor of this inspection cigarette portion, turn back to described sampling air and use in the pipe arrangement in described sampling.At this moment, control described fan, make it provide the sampling air to described inspection cigarette portion according to designing requirement according to the wind speed that described air velocity transducer is measured.
Existing smoke detector comprises inspection cigarette portion with inflow entrance and flow export, be laid on stopple coupon in the monitored space, be connected make on this stopple coupon the sampling air therein the airflow flowing pipe, be arranged on the described gas flow tube and the air-breathing effluent road branching portion that is connected with the inflow entrance of described inspection cigarette portion and be arranged on described inflow entrance and a described air-breathing side branching portion between filtrator (for example with reference to patent documentation 2).
In this smoke detector, the part sampling air that in described gas flow tube, flows, import from the air entry of a described air-breathing effluent road branching portion, after removing dust etc. with filtrator, offer inspection cigarette portion, and after the smoke sensor with this inspection cigarette portion carries out the detection of cigarette, turn back in the described gas flow tube by exhausr port one effluent road fluidic junction from flow export.
No. the 3714926th, patent documentation 1 Japanese patent gazette
Patent documentation 2 special table 2000-509535 communiques
Summary of the invention
As shown in Figure 4, sampling is with being equipped with fan 2 in the pipe arrangement 1, and its end is provided with the peristome 3 that attracts sampling air SA.
Using with big air quantity under the situation of fan (fan blower) 2, extracting that the inlet 3a of sampling air is shown in dotted line to be opened very greatly, near the attraction mouth 4 of fan 2, can on the suction side one pipe arrangement of fan, reverse flow not take place, causing air turbulence.
Open for a short time if extract the inlet 3a of sampling air, make to attract air quantity to reduce, then, begin to occur reverse flow because the rotation of the moving blade in the fan 2 will produce disorderly air-flow in import one side line of fan.
If make the inlet 3a of described extraction sampling air also littler than the peristome of representing with solid line 3, further reduce and attract air quantity, the then reverse flow air-flow L rotation in pipe arrangement 1 is used in described sampling that produces because of the disorderly air-flow from described fan 2 is by air velocity transducer 5.Therefore air-flow is also unstable near air velocity transducer 5, so measuring wind exactly.
In order to solve above-described problem, air velocity transducer 5 can be left the enough distances of fan 2, make air velocity transducer 5 not influenced by reverse flow air-flow L, but this can make smoke detector maximize, so not preferred.
In view of described situation, first purpose of the present invention is to measure exactly the wind speed of sampling air.
In addition, in existing example, because the part sampling air that contains dust etc. is directly imported in the gas flow tube by filtrator, a large amount of sometimes dust etc. is deposited in this filtrator and results in blockage.Therefore to frequently clean or change filtrator, so the upkeep operation of filtrator will spend a large amount of time and expense.
In view of described situation, second purpose of the present invention is to reduce the quantity from the foreign matters such as dust that air entry attracted of an air-breathing effluent road branching portion.
The inlet diverter of existing smoke detection system is connected on the suction inlet of fan.This fan makes air be attracted in the inlet diverter by pipeline.By in whole air-flows of fan, except with the part that is sampled as the very small scale that purpose uses, all the outlet from fan directly is discharged into the atmosphere by gas exhaust duct, or is discharged in the gas exhaust duct.
And partly pass through filtrator with the air-flow that is sampled as the purpose use, enter into the inlet of the sensing chamber of smoke detector.The outlet of sensing chamber is connected on the inlet diverter.But the opening of coupling part is little, causes the pressure loss of air-flow of the branching portion of sampling usefulness to become big.
In view of described situation, the 3rd purpose of the present invention is to reduce to have the pressure loss of the branching portion air-flow of examining cigarette portion, and can make stable the converging of sampling airflow from the gas flow tube that the sampling airflow and the fan of the discharge of inspection cigarette portion are attracted.
The smoke detector of first invention comprises: be connected sampling with the inspection cigarette portion on the pipe arrangement; The sampling air is attracted to fan in this sampling usefulness pipe arrangement; Measure the air velocity transducer of described sampling with the sampling air wind speed in the pipe arrangement; It is characterized in that described air velocity transducer is arranged on import one side of described fan, and between the attraction mouth of this air velocity transducer and described fan, be provided with cowling panel.
The smoke detector of second invention comprises: the inspection cigarette portion with inflow entrance and flow export; Be laid on the stopple coupon in the monitored space; Be connected the gas flow tube on this stopple coupon; Be arranged on the described gas flow tube and be connected an air-breathing effluent road branching portion on the inflow entrance of described inspection cigarette portion; It is characterized in that, the air entry of a described air-breathing effluent road branching portion towards with the opposite direction of sampling air-flow direction that in described gas flow tube, flows.
The smoke detector of the 3rd invention comprises: the inspection cigarette portion with inflow entrance and flow export; The gas flow tube that is connected and fan is clipped in the middle with stopple coupon in being laid on monitored space; The stream branching portion that is arranged on this gas flow tube and is connected with the inflow entrance of described inspection cigarette portion; Be arranged on the described gas flow tube and be connected stream fluidic junction on the flow export of described inspection cigarette portion by discharging with pipe arrangement; It is characterized in that described stream fluidic junction has spray nozzle part, described spray nozzle part sprays to the blow vent lower than the described stream branching portion pressure of described fan, and has than described discharge with the big opening of pipe arrangement.
First invention is owing to be arranged on described air velocity transducer import one side of described fan, and between this air velocity transducer and described fan, be provided with cowling panel, so the air-flow of the reverse flow that is produced by fan is blocked by described cowling panel, can not be to air velocity transducer one side shifting.Therefore near air velocity transducer, can not produce disorder in the fluid that flows, form stable air-flow, so measuring wind exactly.
The air entry of an air-breathing effluent road branching portion of second invention towards with the opposite direction of flow direction of the sampling air that in described gas flow tube, flows.The heavy particle of dust geometric ratio smoke particle for example because of the inertial force on the flow direction of sampling air, can not change flow direction fast and enters the downstream near described air entry.Therefore be mixed in the dust that is attracted the sampling air that attracts from described air entry etc. and become considerably less,, can reduce cleaning significantly or change the number of times of filtrator and so on so compare with existing example.
The 3rd invention is owing to adopt above structure, so can utilize the pressure differential that produces between stream branching portion and the stream fluidic junction, the part sampling air that flows in gas flow tube is imported in the inspection cigarette portion from described stream branching portion, turn back to the described gas flow tube from the stream fluidic junction by described inspection cigarette portion.
At this moment, converge through the stream fluidic junction by discharging the sampling air of discharging from inspection cigarette portion with pipe arrangement, the stream fluidic junction has spray nozzle part, and described spray nozzle part is evenly expanded substantially to the blow vent lower than the stream branching portion pressure of fan and sprayed, and has than discharging with the big opening of pipe arrangement.
Therefore can reduce the pressure loss of branching portion air-flow, thereby the flow of branching portion air-flow is increased with inspection cigarette portion.In addition, can make stable converging of sampling airflow the gas flow tube that the sampling airflow and the fan of discharging from inspection cigarette portion attracted.
Description of drawings
Fig. 1 is the amplification stereogram of first embodiment of first invention of expression.
Fig. 2 is the structural drawing of first embodiment of first invention of expression.
Fig. 3 is the vertical view of second embodiment of first invention of expression.
Fig. 4 is the amplification stereogram of first existing example of invention of expression.
Fig. 5 is the vertical view of the 3rd embodiment of second invention of expression.
Fig. 6 is the amplification profile diagram of the major part of presentation graphs 5.
Fig. 7 is the III-III line cut-open view of an air-breathing effluent road branching portion 133.
Fig. 8 is the front amplification view of the 4th embodiment of second invention of expression, is equivalent to Fig. 6.
Fig. 9 is the key diagram of the smoke detector major part of the 3rd invention.
Figure 10 (a) is the stereographic map of the nozzle of the 3rd invention use, and Figure 10 (b) is the stereographic map after the nozzle of Figure 10 (a) is extended.
Embodiment
With Fig. 1, Fig. 2 first embodiment of first invention is described.
Smoke detector S comprise by pipe arrangement 20 be connected sampling with the inspection cigarette portion 22 on the pipe arrangement 11, be arranged on inflow entrance 22a one side of described inspection cigarette portion 22 filtrator 23, described sampling with the fan (fan blower) 12 that attracts sampling air SA in the pipe arrangement 11, measure the air velocity transducer (flow sensor) 15 that the sampling air SA wind speed in the pipe arrangement 11 is used in described sampling.
Though not expression among the figure, in described inspection cigarette portion 22, be provided with photo detectors (smoke sensor) such as light-emitting component and photodiode, light collector, collector lens, hole, or the like.
Box shape is substantially made by inflow portion 40, inlet (not expression among the figure) at side configuration extraction sampling air, dispose the attraction mouth 12a of described fan 12 in the bottom surface, in described inflow portion 40, the airflow direction of the described sampling air SA of described fan 12 imports one side is with vertical by the described airflow direction SB cardinal principle that attracts mouthful 12a to form of described fan 12.Between import one side (upstream one side) of described fan 12 and described air velocity transducer 15, be provided with cowling panel 25.Described cowling panel 25 is made substantially rectangle (for example, width is about 50mm, highly is about 10mm), and itself and bottom surface angulation α (for example about 90 °) are with the airflow direction angulation θ (for example about 90 °) of the air SA that takes a sample.
The inventor compares experiment to as shown in Figure 1 the situation of cowling panel 25 that is provided with and situation that cowling panel 25 is not set in inflow portion 40, can confirm: if configuration cowling panel 25, then there is proportional relation from little air quantity in the output of air velocity transducer 15 to big air quantity.That is, cowling panel 25 stops that the reverse flow air-flow L that follows fan 12 to attract the minimizing of air quantity and produce is to air velocity transducer 15 1 side shiftings.For the influence that prevents to attract the reverse flow airflow convection speed of mouthful 12a to measure from fan 12, the angle [alpha] of this cowling panel 25, θ according to the different set of fan 12 in about 45 °~90 ° scope.
In addition, the shape of described cowling panel 25 also can be square or triangle except being roughly rectangle, in the scope that can bring into play described function, can suitably select size etc.
Described cowling panel 25 on being arranged on the bottom surface, for example also can be arranged on end face etc., also can on bottom surface and end face, all be provided with, or be arranged on a plurality of positions.In addition, owing to can and attract mouthful 12a to be configured in both sides (for example below the about 30mm of distance) air velocity transducer 15 near cowling panel 25, so can make inflow portion 40 enough little.
Action to first embodiment describes below.
After the drive fan 12, the air of monitored space is inhaled into sampling with in the pipe arrangement 11, and sampling air SA uses in the pipe arrangement 11 in this sampling and flows.
At this moment, described sampling air SA is after having measured wind speed by air velocity transducer 15, and the limit rotates in the fan 12 from attracting a mouthful 12a, and discharge from escape hole 12b on the limit, and part sampling air SA enters into inspection cigarette portion 22 by pipe arrangement 20, filtrator 23.After in this inspection cigarette portion 22, carrying out the detection of cigarette, turn back to described sampling with in the pipe arrangement 11 by smoke sensor (do not have among the figure expression).
Under the few situation of the air quantity that attracts (when hanging down wind speed), because of the rotation of the moving blade in the fan 12, it is disorderly that the air-flow of import one side line of fan 12 becomes, and produces reverse flow air-flow L.This reverse flow air-flow L attempts to expand to upstream one side of taking a sample with in the pipe arrangement 11, but because one side disposes cowling panel 25 in the upstream, so collide with this cowling panel 25.Therefore, this reverse flow air-flow L can not arrive near the air velocity transducer 15, so near this air velocity transducer 15, can not produce disorder in process fluid flow, is stable air-flow, so can detect wind speed exactly.Therefore, can control fan 12 exactly according to the measured value of air velocity transducer 15, so, can carry out the detection of cigarette accurately according to designing requirement offering inspection cigarette portion 22 with taking a sample air-stable.In addition, can and attract mouthful 12a to be arranged on the position of close cowling panel 25, fully realize miniaturization air velocity transducer 15.
With Fig. 3 second embodiment of first invention is described, the Reference numeral identical with Fig. 1, Fig. 2, its title is also identical with function.
The difference of this second embodiment and first embodiment is by bolster p cowling panel 25 to be bearing on the bottom surface or end face of inflow portion 40 in rotary mode.Like this, can be according to the output of the revolution or the air velocity transducer 15 of fan 12, cowling panel 25 set for stop the most effective certain the angle θ of reverse flow air-flow L, so even under the frequent situation about changing of wind speed, also can carry out the detection of cigarette accurately.
With Fig. 5, Fig. 6 the 3rd embodiment of second invention is described.
As shown in Figure 5, smoke detector 101 comprises: have the cigarette detecting unit 102 of camera bellows 121, the fan 103 that is transported to this cigarette detecting unit 102 as air (sampling air) SA of detected object, as the pipe arrangement 104 of air duct, be configured in photo detectors 112 such as light-emitting component 111 in the cigarette detecting unit 102, photodiode, measure the air flow sensor 113 of described fan 103 or air mass flow, to the power supply unit 114 of these air flow sensor 113 power supplies, be connected the fire judging part 115 on the photo detector 112.
Central part at the camera bellows 121 of cigarette detecting unit 102 is provided with inspection cigarette portion 125, importing this inspection cigarette portion 125 by the sampling air SA after 105 filtrations of described pipe arrangement 104 usefulness filtrators.Light collector 123 is arranged on the light shielding part 122, and collector lens represents that with 124 the hole is represented with 126.
Fire judging part 115 comprises: the amplifying circuit that the output signal S of photo detector 112 is amplified, the conversion of signals of this amplifying circuit is become to detect the A/D converter of level, reaches the comparator circuit that predefined Threshold value is judged breaking out of fire when above detecting level, or the like, carry out Comprehensive Control with CPU.
Fan diffuser portion 120 is arranged on fan 103 outlets one side of gas flow tube P.Downstream one side of this fan diffuser portion 120 broadens, for example make the extension tube (fan diffuser) that circular cone etc. is roughly cone, exhaust one effluent road fluidic junction 132 is arranged on bottom 120a one side, in addition, an air-breathing effluent road branching portion 133 is arranged on leading section 120b one side that relies on downstream one side than described exhaust one effluent road fluidic junction 132.
Form the air entry 133a of a described air-breathing effluent road branching portion 133 at the front end position that curves L shaped outstanding pipe 133P, the front end position of this outstanding pipe 133P towards with the opposite direction (downstream one side) of flow direction C of the sampling air SA that in gas flow tube P, flows.In addition, form the exhausr port 132a of described exhaust one effluent road fluidic junction 132 at the front end position that curves L shaped outstanding pipe 132P, the front end position of this outstanding pipe 132P towards with the opposite direction (downstream one side) of flow direction C of the sampling air SA that in gas flow tube P, flows.Therefore, described air entry 133a and described exhausr port 132a are towards identical direction.
The camera bellows 121 of cigarette detecting unit 102 is arranged on outlet one side of described fan 103, the inflow entrance 133c of the inspection cigarette portion 125 of this camera bellows 121 is connected by filtrator 105 on the air entry 133a of a described air-breathing effluent road branching portion 133, and its flow export 132c is connected on the exhausr port 132a of described exhaust one effluent road fluidic junction 132.
Action to the 3rd embodiment describes below.
After the drive fan 103, air A in the monitored space is inhaled into gas flow tube P by stopple coupon (omitting among the figure), discharge by fan diffuser portion 120, and this moment is because the flow velocity in the exhaust one effluent road fluidic junction 132 in the described fan diffuser portion 120 is different with the flow velocity in the air-breathing effluent road branching portion 133, so produce pressure differential between two positions.
Utilize this pressure differential that produces, contained smoke particle among the sampling air SA that in fan diffuser portion 120, flows, attracted by air entry 133a from an air-breathing effluent road branching portion 133, enter the inflow entrance 133c of inspection cigarette portion 125 by filtrator 105, the laser of illuminated light-emitting component 111, and the limit produces the scattering plain edge and advances in this inspection cigarette portion 125, from the exhausr port 132a of flow export 132c by exhaust one effluent road fluidic junction 132, turns back in the fan diffuser portion 120.
Contain dust F etc. among the sampling air SA that in described gas flow tube P, flows, but because this dust F geometric ratio smoke particle is heavy, thus have big to flow direction inertial force and flow further downstream.Therefore different by near the dust F the described air entry 133a etc. with the lightweight smoke particle among the sampling air SA that is mixed in inhale mouth 133a, because its advanced downstream in gas flow tube 4, so do not have dust F etc. to sneak into from air entry 133a, maybe can import considerably less sampling air SA.Therefore be deposited in dust F on the filtrator 105 etc. and compare with existing situation and reduce significantly, so can reduce cleaning or change the number of times of this filtrator etc.
Fig. 7 is the III-III line cut-open view of an air-breathing effluent road branching portion 133.
The outstanding pipe 133P of an air-breathing effluent road branching portion 133 makes L shaped, the air entry 133a of its leading section is one side towards the downstream, but this leading section is not and the flow direction C fully opposite (axle center and flow direction C are consistent) of sampling air SA that angle [alpha] for example tilts 10 °.This angle is that the foreign matter that prevents that can prevent to sneak into foreign matter such as dust F enters angle, and the scope of angle beta, γ for example can suitably be selected in the scope of 0 ° (consistent with described flow direction C)~45 °.
With Fig. 8 the 4th embodiment of second invention is described, the Reference numeral identical with Fig. 6~Fig. 7, its title, function are also identical.
The difference of the 4th embodiment and the 3rd embodiment is as follows.
(1) spray orifice 136 is set and substitutes fan diffuser portion 120 as producing Differential Pressure Unit.This spray orifice 136 is arranged between the air-breathing effluent road branching portion 133 and exhaust one effluent road fluidic junction 132 of gas flow tube P.
(2) an air-breathing effluent road branching portion 133 is arranged on upstream one side of exhaust one effluent road fluidic junction 132, substitutes and be arranged on its downstream one side.
In the 4th embodiment, be blended into dust F among the sampling air SA in the gas flow tube P etc. and utilize its inertial force, be difficult to change in the opposite direction from the direction of main flow air-flow.Therefore reduced dust F etc. and sneaked into air entry 133a,, can prolong the life-span of filtrator, and the flase drop that also can reduce the fire judging part that causes because of dust F etc. is surveyed so compare with existing situation.
Describe with reference to the 5th embodiment of accompanying drawing the 3rd invention.
Fig. 9 is the embodiment of the smoke detector of the 3rd invention, smoke detector 201 is connected gas flow tube 202 on the stopple coupon, described stopple coupon configuration does not have in the monitored space of expression in the drawings, upstream portion (import one side) configuration fan 203 (for example fan blower) in this gas flow tube 202, contaminated air in the monitored space is sucked and discharges as sampling air SA, downstream portion (exporting a side) in described gas flow tube 202 forms stream branching portion 205, makes from the part of the sampling air SA of described fan 203 discharges, promptly the sampling air SA as detected object flows into inspection cigarette portion 204.
On described stream branching portion 205, connect the sampling air inflow pipe arrangement 206 that makes as the sampling air SA circulation of detected object, the end that this sampling air is flowed into pipe arrangement 206 is connected on the inflow entrance 208 of the sampling air SA that examines cigarette portion 204, and inspection cigarette portion 204 inside are equipped with: filtrator 207; The optical profile type smoke detecting apparatus that constitutes by light-emitting component and photo detector of expression not among the figure; And the cigarette detecting unit that constitutes by the device of measuring air mass flow etc.
On the other hand, the end that the sampling air is discharged with pipe arrangement 210 is connected on the flow export 209 of the sampling air SA that examines cigarette portion 204, stream fluidic junction discharging by the sampling air of this inspection cigarette portion 204 with pipe arrangement 210 other ends is connected than near the low blow vent 203a of the stream branching portion pressure that waits the moving blade surrounding edge of described fan 203.
Stream fluidic junction 211 has: the blow vent 203a of fan 203, and its forms than sampling air and discharges with the big opening of pipe arrangement 210; And nozzle 212, its end is connected the sampling air and discharges with on the pipe arrangement 210, the other end has the blow vent 203a opening much at one with fan 203, can use the even air-flow of expansion almost with respect to the blow vent 203a of fan 203, sprays sampling air SA.
Therefore the pressure loss of the branching portion air-flow of examining cigarette portion 204 can be reduced to have, and stable the converging of sampling airflow from the gas flow tube 202 that the sampling airflow and the fan 203 of 204 discharges of inspection cigarette portion attract can be made.
With Figure 10 an example of described nozzle 212 is described.Shown in Figure 10 (a), discharging the openend that forms stream fluidic junction 211 with the other end of pipe arrangement 210 by the sampling air of inspection cigarette portion 204, be provided with urceolus 213, described urceolus 213 has the opening W1 identical substantially with the opening diameter of the blow vent 203a of fan 203, so this urceolus 213 is by making the form that can stretch shown in Figure 10 (b), can be resized to the big opening W2 of opening to the injection orifice of nozzle 212 than the blow vent 203a of fan 203.
For stable and almost uniform airflow offer blow vent 203a, can make the shape of expansion gradually to the front end of nozzle 212.
In addition in an embodiment, the inside of urceolus 213 be equipped with can about flexible inner core 214, by jigs such as rivet 215 are inserted stop hole 216, can make opening W1 or W2 width for regulation.
In addition, the nozzle that can stretch is not limited to the structure of the above embodiment.
P1 is air inflow aperture among the figure, and P2 is air outlet.

Claims (8)

1. smoke detector, it comprises:
Be connected sampling with the inspection cigarette portion on the pipe arrangement;
The sampling air is attracted to fan in this sampling usefulness pipe arrangement;
Measure the air velocity transducer of described sampling with the sampling air wind speed in the pipe arrangement;
It is characterized in that described air velocity transducer is arranged on import one side of described fan, and between the attraction mouth of this air velocity transducer and described fan, be provided with cowling panel.
2. smoke detector according to claim 1, it is characterized in that, described smoke detector has inflow portion, and in described inflow portion, the airflow direction of the airflow direction of the described sampling air of described fan inlet one side and the attraction interruption-forming of described fan is vertical substantially.
3. smoke detector according to claim 2 is characterized in that, described cowling panel is bearing on the bottom surface or end face of described inflow portion in the mode that can rotate.
4. smoke detector, it comprises:
Inspection cigarette portion with inflow entrance and flow export;
Be laid on the stopple coupon in the monitored space;
Be connected the gas flow tube on this stopple coupon;
Be arranged on the described gas flow tube and be connected an air-breathing effluent road branching portion on the inflow entrance of described inspection cigarette portion;
It is characterized in that, the air entry of a described air-breathing effluent road branching portion towards with the opposite direction of flow direction of the sampling air that in described gas flow tube, flows.
5. smoke detector according to claim 4 is characterized in that, described air entry in 0 °~45 ° scope towards the direction opposite with the flow direction of described sampling air.
6. according to claim 4 or 5 described smoke detectors, it is characterized in that the air entry of a described air-breathing effluent road branching portion is arranged on upstream one side or downstream one side of the exhausr port of exhaust one effluent road fluidic junction.
7. smoke detector, it comprises:
Inspection cigarette portion with inflow entrance and flow export;
The gas flow tube that is connected and fan is clipped in the middle with stopple coupon in being laid on monitored space;
The stream branching portion that is arranged on this gas flow tube and is connected with the inflow entrance of described inspection cigarette portion;
Be arranged on the described gas flow tube and be connected stream fluidic junction on the flow export of described inspection cigarette portion by discharging with pipe arrangement;
It is characterized in that described stream fluidic junction is provided with spray nozzle part, described spray nozzle part sprays to the blow vent lower than the described stream branching portion pressure of described fan, and has than described discharge with the big opening of pipe arrangement.
8. smoke detector according to claim 7 is characterized in that the opening of described spray nozzle part can be adjusted.
CN2009101181380A 2008-03-21 2009-03-04 Smoke detector Active CN101540088B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201110104049.8A CN102243797B (en) 2008-03-21 2009-03-04 smoke detector

Applications Claiming Priority (9)

Application Number Priority Date Filing Date Title
JP2008073492 2008-03-21
JP2008073492A JP5009208B2 (en) 2008-03-21 2008-03-21 smoke detector
JP2008-073492 2008-03-21
JP2008085505A JP5026320B2 (en) 2008-03-28 2008-03-28 smoke detector
JP2008-085505 2008-03-28
JP2008085505 2008-03-28
JP2008-090580 2008-03-31
JP2008090580 2008-03-31
JP2008090580A JP2009245138A (en) 2008-03-31 2008-03-31 Smoke sensor

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CN201110104049.8A Division CN102243797B (en) 2008-03-21 2009-03-04 smoke detector
CN2011101040341A Division CN102176273A (en) 2008-03-21 2009-03-04 Smoke detector

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CN101540088B CN101540088B (en) 2012-06-13

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CN101958032A (en) * 2010-09-27 2011-01-26 江苏大学 Wireless sensor smoke detection device for fire protection and detection method thereof
CN103093574A (en) * 2013-01-08 2013-05-08 中国科学技术大学 Active inspiration type point type photoelectric smoke detector
CN105917208A (en) * 2013-10-16 2016-08-31 爱克斯崔里斯科技有限公司 Aspirated particle detection with various flow modifications
CN110853291A (en) * 2019-11-15 2020-02-28 安徽环嘉天一再生资源有限公司 Renewable resource plant safety monitoring system based on big data
CN112669560A (en) * 2020-12-30 2021-04-16 中汇宏飞智能科技无锡有限公司 Production safety inspection alarm device
CN112748051A (en) * 2020-12-23 2021-05-04 天津智易时代科技发展有限公司 Negative pressure type oil smoke probe and detection method thereof

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KR101113012B1 (en) * 2011-10-04 2012-02-16 주식회사 씨플러스 Smoke detection device for duct
KR101407997B1 (en) 2013-05-06 2014-06-18 대우조선해양 주식회사 duct damper including smoke detector for vessels
CN104597207B (en) * 2015-01-04 2016-06-01 深圳市查知科技有限公司 Aspirated smoke detection system
US11761875B2 (en) * 2021-06-01 2023-09-19 Honeywell International Inc. Adjusting for air flow temperature changes in an aspirating smoke detector

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CN105917208A (en) * 2013-10-16 2016-08-31 爱克斯崔里斯科技有限公司 Aspirated particle detection with various flow modifications
CN110853291A (en) * 2019-11-15 2020-02-28 安徽环嘉天一再生资源有限公司 Renewable resource plant safety monitoring system based on big data
CN112748051A (en) * 2020-12-23 2021-05-04 天津智易时代科技发展有限公司 Negative pressure type oil smoke probe and detection method thereof
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