CN207822314U - A kind of big flow foam-generating device and foam fire-fighting equipment - Google Patents

Abstract

The utility model discloses a kind of big flow foam-generating device and foam fire-fighting equipments, the foam-generating device includes the foam producer (1) that there is foam to generate chamber, and foam, which generates chamber, to be had for inputting the foam mixing liquid entrance (11) of foam mixing liquid, the liquefied medium entrance (12) for inputting liquefied medium and for the foam outlet (13) of foam output；Wherein, intracavitary is generated in foam, liquefied medium and foam mixing liquid mixing gasifying simultaneously foam, with the foam from foam outlet (13) output for putting out a fire；Wherein, foam mixing liquid entrance (11) is connected with the mixer (2) with mixing chamber, the mixing chamber has the stoste entrance (21) for inputting foam dope and the water inlet (22) for inputting water, and foam dope and water mix in the mixing chamber generates the foam mixing liquid.Foam-generating device and foam fire-fighting equipment provided by the utility model, can generate big flow foam, and small, save space.

Description

A kind of big flow foam-generating device and foam fire-fighting equipment

Technical field

The utility model is related to fire control technologies, and in particular, to a kind of big flow foam-generating device and foam go out Fiery equipment.

Background technology

Existing compressed air foam fire extinguishing is carried out by the way of mainly being mixed generation foam with foam mixing liquid using gas Fire extinguishing.Specific compressed air foam fire-fighting mode mainly has the fire extinguishing of gerotor type compressed air foam and air storing type foam fire-fighting two Kind mode.

Wherein, the mode of gerotor type compressed air foam fire extinguishing generally use compressor or compressed gas cylinder is supplied Gas is held essentially constant in course of injection pressure, and compressor and compressed gas cylinder air demand are limited, cannot be satisfied big flow The requirement of high pressure gas supply, and if need to realize that big-flow high-pressure power supplies, need setting multiple compressors or compressed gas cylinder (such as by taking the foam truck of a flow 150L/S as an example, the supply flow rate of gas is 1050L/s, and gas supply is needed by more Large-scale air compressor machine supply), occupied space is big, in the space that oil depot tank field, device area often do not have arrangement, is unfavorable for scene Arrangement.And it is had the following defects using the foam that aspirated mode generates：Foam bubbles are not of uniform size, foam is uneven, performance The defects of unstable, foam is easily broken, burn resistance is poor, fire-fighting efficiency is not high.

Another air storing type foam fire-fighting usually stores compressed gas in foamite container, when big flow is sprayed, pressure Contracting gas will be consumed largely, and injection pressure will be greatly reduced, and at this time to ensure the high-pressure injection of extinguishing chemical, then need in time to fire extinguishing Compressed gas is supplemented in agent container, and under big flow spray regime, only lean on air compressor machine and compressed gas cylinder that can not protect at all The enough supplements for demonstrate,proving compressed gas, lead to not effectively realize high-pressure injection requirement, influence extinguishing effect.When progress fire disaster It when fire extinguishing, then needs to produce big flow foam fire-fighting, foams mix flow quantity improves at this time, and the air demand of compressed gas also need to be with Increase, and existing compressed air foam producing method cannot achieve the supply of big-flow high-pressure compressed gas, and foam is mixed Flow quantity only 20~30L/s is closed, the fire attack of general scale is mainly used at present, such as building fire, ground small range Trickle fire etc., can not be in the application in large-scale storage tank fire or large-scale ground spill fire.

For this purpose, a kind of new foam-generating device or equipment need to be designed, compressed air foam is used to put out a fire and store up to overcome Defect present in the fire-extinguishing apparatus of gas formula foam fire-fighting.

Utility model content

A kind of big flow foam-generating device of the utility model offer and foam fire-fighting equipment, to solve to adopt in the prior art The defect existing for the fire-extinguishing apparatus of compressed air foam fire extinguishing and air storing type foam fire-fighting.

To achieve the goals above, on the one hand the utility model provides a kind of foam-generating device, the foam-generating device Include the foam producer that chamber is generated with foam, the foam generates chamber with the foams mix for inputting foam mixing liquid Liquid entrance, the liquefied medium entrance for inputting liquefied medium and for the foam outlet of foam output；Wherein, in the bubble Foam generates intracavitary, liquefied medium and foam mixing liquid mixing gasifying simultaneously foam, with from foam outlet output for putting out a fire Foam；

Wherein, the foam mixing liquid entrance is connected with the mixer with mixing chamber, and the mixing chamber, which has, to be used Stoste entrance in input foam dope and water inlet for inputting water, foam dope and water mix in the mixing chamber Generate the foam mixing liquid.

Preferably, between the foam producer and the mixer, the liquefied medium entrance, the stoste entrance And/or it is provided with flowmeter at the water inlet；Between the foam producer and the mixer, the liquefied medium enters It is provided with control valve at mouth, the stoste entrance and/or the water inlet.

Preferably, the foam-generating device further includes control unit, and described control unit is controlled according to the flowmeter The control valve is to adjust flow.

Preferably, the foam producer is tubular structure, and one end of the tubular structure is provided at least one described The other end of foam mixing liquid entrance, the tubular structure is provided at least one foam outlet, and the liquefied medium enters Mouth and the angled setting of the foam mixing liquid entrance.

Preferably, there are one the foam mixing liquid entrance settings, the liquefied medium entrance surrounds the foams mix Liquid entrance is provided with one or more, the direction of each liquefied medium entrance and the direction of the foam mixing liquid entrance it Between angle be 0 °~90 °.

Preferably, there are one the foam mixing liquid entrance settings, the liquefied medium entrance surrounds the foams mix Liquid entrance is provided with multiple, and the direction of multiple liquefied medium entrances deviates from radial direction successively in the horizontal so that institute The liquid stream for stating the entrance of liquefied medium entrance being capable of rotational flow.

Preferably, the liquefied medium entrance, which is provided with, stretches to the input pipe that the foam generates intracavitary.

Preferably, the foam mixing liquid entrance, the liquefied medium entrance and the foam outlet are each provided with one； Wherein, the relationship between the diameter D1 of the tubular structure and the diameter D2 of the foam mixing liquid entrance is：D1/D2=1.1 ~4；Relationship between the diameter D2 of the foam mixing liquid entrance and the diameter D3 of the liquefied medium entrance is：D2/D3=4 ~10；Relationship between the diameter D1 of the tubular structure and the diameter D4 of the foam outlet is：D1/D4=0.8~2.

Preferably, between the diameter D6 of the water inlet of the stoste mixer and the diameter D5 of the stoste entrance Relationship is：D6/D5=8~14；Relationship between the diameter D6 of the water inlet and the diameter D2 of the foam mixing liquid entrance For：D6/D2=1.0~1.4.

Preferably, the foam generates intracavitary and is provided at least one flow spoiler for disturbing liquid stream.

Preferably, the flow spoiler is formed as pyramidal structure, hemispherical dome structure or platform structure；

The deck roof of the taper top of the pyramidal structure, the dome of the hemispherical dome structure or the platform structure faces To the foam mixing liquid entrance.

Preferably, the cross section of the flow spoiler is circular configuration, diameter D7 and the foams mix of the flow spoiler Relationship between the diameter D2 of liquid entrance is：D7/D2=1.0~4；And/or

The top of flow spoiler distance L between outflux of the liquefied medium in the liquefied medium inlet is 0 ~100mm.

Preferably, the foam generates intracavitary and is provided at least one spaced porous structure；It is each described porous Multiple holes are provided in structure；The hole of the porous structure is towards the foam mixing liquid entrance, and the porous structure is opposite The top of the flow spoiler is far from the foam mixing liquid entrance.

The another aspect of the utility model, also provides a kind of foam fire-fighting equipment, the foam fire-fighting equipment setting just like The upper foam-generating device.

Foam-generating device and foam fire-fighting equipment provided by the utility model are mixed by foam mixing liquid and liquefied medium Conjunction can obtain big flow foam, and huge using bulky compressor or compressed gas cylinder and volume due to eliminating Greatly, complicated liquified gas vaporization device etc., foam-generating device and fire extinguisher provided by the utility model are small, save Space.

Description of the drawings

Fig. 1 is the structural schematic diagram according to foam-generating device in an embodiment of the utility model；

The foam for being connected with mixer in Fig. 2 embodiment according to the present utility model in foam-generating device generates The structural schematic diagram of device；

Fig. 3 is the structural schematic diagram of the flow spoiler of pyramidal structure；

Fig. 4 is the structural schematic diagram of the flow spoiler of hemispherical dome structure；

Fig. 5 is the structural schematic diagram of the flow spoiler of platform structure；

Fig. 6 is the combination diagram according to fire-extinguishing apparatus in an embodiment of the utility model.

Reference sign：

1- foam producers；11- foam mixing liquid entrances；12- liquefied medium entrances；13- foam outlets；14- flow spoilers； 141- mounting portions；15- porous structures；16- input pipes；2- mixers；21- stoste entrances；22- water inlets；3- flowmeters；4- is controlled Unit processed；10- high-jetting vehicles；20- liquid nitrogen tank cars；30- foam dope transport vehicles；40- fire hydrants/remote automatic-taking-water system；50- is stored up Tank.

Specific implementation mode

Specific embodiment of the present utility model is described in detail below.It should be understood that described herein Specific implementation mode is only used for describing and explaining the present invention, and is not intended to limit the utility model.

The utility model provides a kind of foam-generating device, as shown in Figure 1, the foam-generating device includes having foam production The foam producer 1 of raw chamber, the foam, which generates chamber, to be had for inputting the foam mixing liquid entrance 11 of foam mixing liquid, being used for Input the liquefied medium entrance 12 of liquefied medium and the foam outlet 13 for foam output；Wherein, it is generated in the foam Intracavitary, liquefied medium and foam mixing liquid mixing gasifying simultaneously foam, with the foam from the output of the foam outlet 13 for fire extinguishing；

Wherein, the foam mixing liquid entrance 11 is connected with the mixer 2 with mixing chamber, and the mixing chamber has Stoste entrance 21 for inputting foam dope and the water inlet 22 for inputting water, foam dope and water are in the mixing chamber Interior mixing generates the foam mixing liquid.

Foam-generating device provided by the utility model, the foam that will be inputted first from stoste entrance 21 by mixer 2 Stoste is mixed with the water inputted from water inlet 22 to be obtained foam mixing liquid and is delivered to foam producer 1, is inputted from mixer 2 Foam mixing liquid generates intracavitary in foam with the liquefied medium inputted from liquefied medium entrance 12 and mixes, in liquefied medium and foam During mixed liquor mixes, liquefied medium and the rapid gasification of foam mixing liquid heat exchange, and foam simultaneously, the side of the generation foam Formula can obtain big flow foam, and the foam obtained is uniform, and stability is good.

Foam-generating device provided by the utility model avoids the skill by air-compressor set or compressed gas cylinder gas supply Art route also avoids liquefied medium and carries out the technology path that exchanging air metaplasia produces compressed gas by large-scale gasification installation, and Be use liquefied medium directly with foam mixing liquid mixed heat transfer and the mode that foams simultaneously.Therefore, in compared with prior art In such a way that compressed air generates foam, avoid need to be equipped with air compressor machine, compressed gas cylinder, liquified gas vaporization device etc. and The big problem of caused occupied space.

Using the fire-extinguishing apparatus of foam-generating device provided by the utility model, arrangement space can be saved, is conducive to scene Arrangement, consequently facilitating the development of fire-fighting work.

The foam-generating device may be provided at foam truck, on high-jetting vehicle or on other fire-extinguishing apparatus.To make Fire-extinguishing apparatus can work long hours, and stoste entrance 21, water inlet 22 and the liquefied medium entrance 12 of mixer 2 are separately connected Extraneous feeding mechanism, for example, stoste entrance 21 can connect foam dope transport vehicle, water inlet 22 can connect fire hydrant or other Water system, liquefied medium entrance 12 can connect liquefied medium tank car etc., with can provide respectively enough foam dopes, water and Liquefied medium, so that foam fire-fighting equipment can work for a long time, with the fire extinguishing suitable for large-sized fire.

In the utility model, liquefied medium used by the foam-generating device generates after being mixed with foam mixing liquid Foam is for putting out a fire, and therefore, the type of gas caused by liquefied medium is limited to help to put out a fire, and can be played to fire Inhibit the gas with smothering action.Preferably, the liquefied medium can be liquid nitrogen, liquid CO 2, liquefied gas, Liquefy at least one of halogenated hydrocarbon gas.It is highly preferred that the liquefied medium is liquid nitrogen.Meanwhile the utility model uses liquid The liquefied mediums such as nitrogen participate in frostproof froth n, the inert gases such as nitrogen can be released after lather collapse, inert gas is in comburant Matter surface can also play the role of inhibiting burning, help speed up putting out for fire.

In preferred embodiments of the present invention, gas caused by the liquefied medium and the liquefied medium The ratio of volume is not less than 100, preferably 200~1500, more preferably 500~1000.

Due to liquefied medium such as liquid nitrogen can generate rapidly gas and generation gas can advantageously with foams mix Liquid generates bubble, and the expansion ratio of liquefied medium is usually larger, is not less than 100, many even as high as 500 or more, such as liquid nitrogen Expansion ratio to be usually the liquid nitrogen of 710 namely 1 volume can usually provide the nitrogen of 710 volumes, and the pressure of conventional compressed air Than being no more than 20, the volume of the gas thus generated by liquefied medium greatly increases compared with the volume of liquefied medium itself for contracting, The small volume of used liquefied medium in the case where obtaining same amount of gas, thus can directly by liquefied medium such as Liquid nitrogen generates foam to be sent in foam producer to mix with foam mixing liquid, and liquefied medium is gasified without elder generation, then will The obtained gas that gasifies is mixed with foam mixing liquid, is thus greatly reduced the volume of foam-generating device, is improved device Flexibility and application places are widened.

By taking 10 ten thousand stere storage tank gross area fire of putting out a fire to save life and property as an example, come comparative analysis suction type foam (air suction type foam), By the compressed air foam of liquid nitrogen gas supply and the configuring condition of the compressed air foam by compressor set gas supply.

(1) for suction type froth fire extinguishing system, based on external fire extinguishing case and《Japanese fire service law》、API、 The recommendation of the internal authorities such as LASTFIRE standard criterion and storage tank fire research tissue, for 10 ten thousand stere storage tank gross areas Fire is puted out a fire to save life and property, and the supply intensity of foam mixing liquid at least needs 9L/min.m2, foams mix flow quantity at least to need 45216L/ Min, attack time at least needs 60min, and in terms of minimum value, the consumption of foam mixing liquid is 2712m³。

(2) for compressor gas supplied compressed air foam fire extinguishing system, it is considered that compressed air foam fire extinguishing system Required foam supply capacity is the 1/4 of suction type froth fire extinguishing system, but going out due to 10 ten thousand stere storage tank gross area fire Fiery area is larger, the large scale food tray fire fighting test data of utility model people according to the present utility model, foam supply capacity Appropriate is 5.4L/min.m², foams mix flow quantity is 27130L/min.It is target with coefficient of foaming 7, air demand is answered At least 190m³/ min, in addition loss amount, air demand is not less than 200m³/min.Energy is supplied according to current large air compressor unit Power (20-28m³/ min), then it needs to configure 7-10 platform large size air compressor machine parallel connections and is supplied, the floor space of every air compressor machine is about 5-6m², then total floor space of air-compressor set is 35-70m².Attack time is 60min, and the consumption of foam mixing liquid is 1627m³.The wherein described large scale food tray fire fighting test refers to lighting diesel oil in the oil sump of diameter 21m, forms gross area Then fire utilizes fixed froth installation spray foam into food tray, carries out fire extinguishing test.

(3) for the compressed air foam fire extinguishing system of liquid nitrogen gas supply, foam supply capacity is also 5.4L/min.m², bubble Foam mixing flow quantity is 27130L/min.It is target with coefficient of foaming 7, air demand should be at least 190m³/ min, in addition loss Amount, air demand are not less than 200m³/min.Air demand is 12000m in 60min³, volume is 710 times after liquid nitrogen gasification, so required Amount of liquid nitrogen is 17m³.Practical attack time is 60min, and the consumption of foam mixing liquid is 1627m³.The volume of one liquid nitrogen tank car Usually 25m³, floor space is approximately 10 ㎡.After the liquid nitrogen tank car is fully loaded with liquid nitrogen, the sustainable supply time is 88min.Specific comparison Such as the following table 1.

Table 1

Can be seen that from above-mentioned comparison can be greatly reduced using the utility model liquid nitrogen plenum system needed for air feed equipment Site area, reduce gas supply difficulty so that large area fire extinguishing be possibly realized.

In mixed process, the flow proportional of liquefied medium and foam mixing liquid can be obtained by calculation.This practicality is new The utility model people of type has found that the flow of liquefied medium and foam mixing liquid can obtain better quality when meeting following relationships Compressed air foam：L=mV/nf.Wherein, L is the volume flow of liquefied medium, and m is the coefficient of foaming of setting, and value generally exists For the preferred 5-20 of 5-200 more preferably within the scope of 6-8, V is the volume flow of foaming substance, and n is the gas that gas source can generate The ratio of volume and the volume of the gas source, f is line loss, and value is within the scope of 1-1.4.The wherein volume of foaming substance Flow V according to fire area by《Froth fire extinguishing system design specification》(GB50151-2010) it determines.The matter of compressed air foam Amount more preferably refers to that foam duration is longer, more difficult rupture, to which extinguishing effect is more preferable.

Preferably, the flow proportional of foam mixing liquid entrance 11 and liquefied medium entrance 12 is：80~160：1, more preferably It is 90~110：1.

By taking liquid nitrogen as an example, become 710 parts of nitrogen, i.e. 710 times of volume expansion after a liquid nitrogen gasification.According to experiment test knot Fruit, if realizing good compressed air foam, the volume flow proportion of foam mixing liquid and liquid nitrogen is 90~110:In 1 range. Since foam mixing liquid is main room temperature fluid, after being mixed with liquid nitrogen, foam mixing liquid can fully exchange heat with liquid nitrogen, and liquid nitrogen exists Quick-gasifying in foam mixing liquid fluid, and immediately engage in foaming.After liquid nitrogen gasification, foam mixing liquid is because flow is very big, liquid Temperature reduces seldom, completely negligible, does not influence foam quality.Even if liquid nitrogen is with foam mixing liquid first contacts, foam is mixed A small amount of ice quarrel may be will produce by closing liquid, but in subsequent flowing, ice quarrel can melt quickly, not influence to foam completely.

The flow proportional of foam mixing liquid entrance 11 and liquefied medium entrance 12 in order to control, in the foam-generating device, It is provided with flowmeter between foam producer 1 and mixer 2, at liquefied medium entrance 12, stoste entrance 21 and/or water inlet 22 3；It is provided between foam producer 1 and mixer 2, at the liquefied medium entrance 12, stoste entrance 21 and/or water inlet 22 Control valve.According to the real-time monitoring of each flowmeter 3, each control valve can control to control the flow of each inlet.

In addition, in the foam mixing liquid entrance 11, the liquefied medium entrance 12, the stoste entrance 21, the water It is also provided with pressure gauge at entrance 22 and/or the foam outlet 13, for detecting to facilitate the pressure of each mouthful of control.

The foam-generating device further includes control unit 4, described control unit 4 can with each flowmeter, each pressure gauge and Real-time Monitoring Data is transmitted to control unit 4 by each control valve connection, flowmeter and pressure gauge, and control unit 4 is according to monitoring number The volume and flow of each fluid are controlled according to each control valve is controlled, ensures each fluid in proportions mixing, can obtain so preferably Foaming effect so that obtain foam is uniform, stability is good.

In preferred embodiments of the present invention, structural schematic diagram such as Fig. 2 institutes of foam producer 1 and mixer 2 Show.

As shown in Fig. 2, foam producer 1 is tubular structure, one end of the tubular structure is provided at least one bubble The other end of foam entry to mixed solution 11, tubular structure is provided at least one foam outlet 13, liquefied medium entrance 12 and foam The angled setting of entry to mixed solution 11 so that two kinds of liquid also have certain cross-current while inputting foam generation chamber It is dynamic, turbulent flow can be generated and the mixed effect that has had.

Preferably, there are one being arranged in foam mixing liquid entrance 11, liquefied medium entrance 12 surrounds the foam mixing liquid Entrance 11 is provided with one or more, the side in the direction and the foam mixing liquid entrance 11 of each liquefied medium entrance 12 Angle between is 0 °~90 °, more preferably 30 °~60 °.In embodiment as shown in Figure 2, liquefied medium entrance 12 is arranged There are one；In other embodiment, liquefied medium entrance 12 can be provided with multiple, liquefied medium around foam mixing liquid entrance 11 Storage device 3 can be connect with the liquefied medium entrance 12 respectively by multiple pipelines.

It is each provided with one feelings in the foam mixing liquid entrance 11, the liquefied medium entrance 12 and foam outlet 13 Under condition；Relationship between the diameter D1 of the tubular structure and the diameter D2 of the foam mixing liquid entrance 11 is：D1/D2= 1.1~4, preferably D1/D2=1.4~2.0；The diameter D2 of the foam mixing liquid entrance 11 and the liquefied medium entrance 12 Relationship between diameter D3 is：D2/D3=4~10；The diameter D1 of the tubular structure and diameter D4 of the foam outlet 13 Between relationship be：D1/D4=0.8~2, preferably D1/D4=.Diameter by controlling each mouth meets above-mentioned relation, contributes to The discharge relation of each entrance is controlled, so that foaming is more abundant, to the foam quality higher obtained.

Additionally, it is preferred that between the diameter D6 of water inlet 22 and the diameter D5 of stoste entrance 21 of setting stoste mixer 2 Relationship is：D6/D5=8~14；Relationship between the diameter D6 of water inlet 22 and the diameter D2 of foam mixing liquid entrance 11 is： D6/D2=1.0~1.4.Diameter by controlling each mouth meets above-mentioned relation, is conducive to the flow proportional for controlling each entrance, from And enable to foaming more abundant, to the foam quality higher obtained.

It will be appreciated by persons skilled in the art that foam mixing liquid entrance 11, liquefied medium entrance 12 and foam outlet 13 are not limited to be arranged as described above, can be to foam mixing liquid entrance 11, liquefied medium to reach better mixed effect Various changes or deformation are made in the setting of entrance 12 and foam outlet 13.

For example, in other embodiment, foam mixing liquid entrance 11 can be arranged one, and liquefied medium entrance 12 surrounds The foam mixing liquid entrance 11 is provided with multiple, and the direction of multiple liquefied medium entrances 12 deviates from diameter successively in the horizontal To direction so that the liquid stream that liquefied medium entrance 12 enters being capable of rotational flow.Wherein, the tubular structure of foam producer 1 from One end to the direction of the other end is longitudinal, is the transverse direction with longitudinally perpendicular direction.

In addition, foam outlet 13 may also set up multiple, for being separately connected injection line, generated to pass through foam Device 1 is sprayed to multiple directions.

Preferably to control the flow direction of the liquefied medium entered from liquefied medium entrance 12, the liquefied medium entrance 12 can It is arranged and stretches to the input pipe 16 (as shown in Figure 2) that foam generates intracavitary.

In addition, the foam generation intracavitary in foam producer 1 is provided at least one flow spoiler 14 for disturbing liquid stream.

Wherein, the flow spoiler 14 is formed as pyramidal structure (such as Fig. 3), hemispherical dome structure (such as Fig. 4) or platform knot The structure of structure (such as Fig. 5) or other irregular shapes, the taper top of the pyramidal structure, the dome of the hemispherical dome structure or The deck roof of platform structure described in person is facing towards the foam mixing liquid entrance 11.Preferably, the cross section of the flow spoiler 14 For circular configuration, the relationship between the diameter D7 of the flow spoiler 14 and the diameter D2 of the foam mixing liquid entrance 11 is：D7/D2 =1~4, preferably D7/D2=1.0~1.6.Between the diameter D7 of the flow spoiler 14 and the diameter D2 of foam mixing liquid entrance 11 Ratio is a preferred range, and if D7 and D2 are out of proportion to cause that frostproof froth n is insufficient, resistance becomes larger and flow The bad phenomenons such as reduction.For example, if the diameter D7 ratios of flow spoiler become smaller, foam insufficient, and if the ratio of D7 becomes larger, It is big that it will cause resistances, flow-reduction.In short, the degree that the proportionate relationship of D7 and D2 deviates aforementioned proportion relationship is bigger, to hair The influence degree of bubble is bigger.

Preferably, the top of the flow spoiler 14 and liquefied medium are between the outflux at the liquefied medium entrance 12 Distance L be 0~100mm.Under the preferred embodiment, mixed material can form turbulent flow, to keep gas-liquid mixed more abundant, obtain Obtain the higher foam of quality.And if the top of flow spoiler 14 is far apart from liquefied medium entrance 12, it can lead to not to be formed Turbulent flow, gas-liquid mixed are insufficient.

If flow spoiler 14 is pyramidal structure in Fig. 2, the peace that intracavitary is generated for being fixed on foam can be set on flow spoiler 14 Dress portion 141 (such as Fig. 3).The flow spoiler 14 is installed as taper top towards foam mixing liquid entrance 11, is mixed with the bubble of liquefied medium The liquid stream of foam mixed liquor rushes at flow spoiler 14, can smash liquid stream so that flow disturbance, to which liquefied medium and foam mixing liquid fill Divide mixing, to obtain uniform in foaming, foam of good performance.

Certainly, 14 set-up mode of flow spoiler is also not necessarily limited to, as described above, for example, multiple flow spoilers can be arranged, be distributed in bubble Foam generates the different location of intracavitary, and any type of flow spoiler that can play the role of flow-disturbing to liquid stream.

The foam of foam producer 1 generates intracavitary and is additionally provided with the porous knots such as at least one spaced orifice plate or silk screen Structure 15 is each provided with multiple holes on the porous structure 15；The hole of the porous structure 15 enters towards the foam mixing liquid Mouthfuls 11, and the top of the flow spoiler 14 relatively of the porous structure 15 is far from the foam mixing liquid entrance 11.By flow spoiler 14 liquid streams smashed, rush at orifice plate 15 around flow spoiler 14, can further be disturbed to liquid stream by porous structure 15, It is set further to mix.

In addition, foam outlet 13 can connection length be more than 40m injection line, liquefied medium and foam mixing liquid are in foam In generator 1 after mixing, make its by length be more than 40m pipeline to jet port, when being flowed in this pipeline, liquefy Medium also fully mixes progress with foam mixing liquid repeatedly, before ejection, will form stable foam of good performance.

Foam mixing liquid and liquefied medium is enabled to be sufficiently mixed using foam producer 1 described above, so as to Obtain the foam that foam is uniform, has good stability.

Another aspect according to the present utility model also provides a kind of foam fire-fighting equipment, which is provided with Foam-generating device as described above.

The foam fire-fighting equipment can be that fire-fighting equipments, the foam-generating devices such as high-jetting vehicle or foam truck are set It sets in the foam fire-fighting equipment.In application process, used water, foam dope and liquefied medium are both from the external world. That is, the liquefied medium entrance 12 in foam-generating device can connect extraneous liquefied medium tank car, water inlet 12 connects fire hydrant Or other water systems, stoste entrance 21 connect foam dope transport vehicle.In this way, liquefied medium, foam dope and water can be real It is existing without interruption, so that the foam fire-fighting equipment continuously carries out the fire extinguishing of large-sized fire for a long time.

A kind of specific implementation mode of foam fire-fighting equipment as described above is provided below.In the embodiment, the fire extinguishing Equipment includes high-jetting vehicle 10, and foam-generating device provided by the utility model is arranged on high-jetting vehicle 10.The foam-generating device Foam producer 1 foam outlet and foam mixing liquid entrance be located at the both ends of tubular structure.Foam mixing liquid entrance Diameter D2 and the diameter D3 of liquid nitrogen entrance between relationship be：D2/D3=8；The diameter D1 and foam mixing liquid of tubular structure Relationship between the diameter D2 of entrance is：D1/D2=1.4；Between the diameter D1 of tubular structure and the diameter D4 of foam outlet Relationship is：D1/D4=1.2；Angle between the direction and the direction of foam mixing liquid entrance of liquid nitrogen entrance is 30 °.Foam produces Raw intracavitary is provided with flow spoiler, and the flow spoiler is formed as conical structure shown in Fig. 3, the taper top of the conical structure Towards foam mixing liquid entrance, the cross section of the flow spoiler is circular configuration, diameter D7 and the foam of the flow spoiler Relationship between the diameter D2 of entry to mixed solution is：D7/D2=1.2, the outflux of the top of flow spoiler with liquid nitrogen in inlet The distance between L be 10mm.Relationship between the diameter D6 of the water inlet of stoste mixer and the diameter D5 of stoste entrance is： D6/D5=10；Relationship between the diameter D6 of the water inlet and the diameter D2 of foam mixing liquid entrance is：D6/D2=1.4. The foam producer foaming effect is good, can generate the foam of big flow performance stabilization.

As shown in fig. 6, the high-jetting vehicle 10 and liquid nitrogen tank car 20, foam dope transport vehicle 30 and fire hydrant/remotely for water system 40 connection of system supplies liquid nitrogen with the liquefied medium entrance 12 respectively on high-jetting vehicle 10, supplies foam dope to stoste entrance 21 And supply water to water inlet 22.High-jetting vehicle 10 and liquid nitrogen tank car 20, foam dope transport vehicle 30 and fire hydrant shown in fig. 6/ Remote automatic-taking-water system 40 can be used as a fire extinguishing marshalling, be used for 50 ejecting extinguishing foam of storage tank.Marshalling quantity can needed for wherein It is determined according to fire scale.

Since foam-generating device provided by the utility model can spray big flow foam, preferably In, the diameter of the injection line of high-jetting vehicle 10 can increase to DN150 from the common caliber DN100 of foam fire-fighting, improve injection 150L/s can be improved in flow.In addition, for closely close to cupping jar etc., the thermal protection system of vehicle can also be increased, with effective Improve the fire-fighting efficiency of foam.

By taking the 100000 vertical storage tank gross area fire that go out as an example, required equipment aggregate demand

The parameter of separate unit high-jetting vehicle：

Foams mix flow quantity：9000L/min(1.0MPa)

Foam dope delivery rate (3% type)：270L/min(16.2T/h)

Foam dope Minimum requirements amount：32.4 tons (2h)

Liquid nitrogen supply amount：63.6kg/min(3.9T/h)

Liquid nitrogen demand：7.8 tons (2h)

Liquid nitrogen injection pressure：Not less than 1.0MPa

High-jetting vehicle in present embodiment can generate the foam that the performance of big flow is stablized by foam-generating device, greatly Improve fire-fighting efficiency greatly.

Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail above in association with attached drawing In this.In the range of the technology design of the utility model, a variety of simple variants can be carried out to the technical solution of the utility model, It is combined in any suitable manner including each particular technique feature.In order to avoid unnecessary repetition, the utility model Various combinations of possible ways are no longer separately illustrated.But these simple variants and combination equally should be considered as the utility model institute Disclosure belongs to the scope of protection of the utility model.

Claims (14)

1. a kind of foam-generating device, which is characterized in that the foam-generating device includes that the foam that there is foam to generate chamber generates Device (1), the foam, which generates chamber, to be had for inputting the foam mixing liquid entrance (11) of foam mixing liquid, being situated between for inputting liquefaction The liquefied medium entrance (12) of matter and foam outlet (13) for foam output；Wherein, intracavitary, liquid are generated in the foam Change medium and foam mixing liquid mixing gasifying and foam, with the foam from the foam outlet (13) output for putting out a fire；

Wherein, the foam mixing liquid entrance (11) is connected with the mixer (2) with mixing chamber, and the mixing chamber has Stoste entrance (21) for inputting foam dope and the water inlet (22) for inputting water, foam dope and water are in the mixing Mixing generates the foam mixing liquid in chamber.

2. foam-generating device according to claim 1, which is characterized in that the foam producer (1) mixes with described It is provided with stream between device (2), at the liquefied medium entrance (12), the stoste entrance (21) and/or the water inlet (22) Gauge (3)；Between the foam producer (1) and the mixer (2), the liquefied medium entrance (12), the stoste enters It is provided with control valve at mouth (21) and/or the water inlet (22).

3. foam-generating device according to claim 2, which is characterized in that the foam-generating device further includes that control is single First (4), described control unit (4) control the control valve to adjust flow according to the flowmeter (3).

4. foam-generating device according to any one of claims 1 to 3, which is characterized in that the foam producer (1) it is tubular structure, one end of the tubular structure is provided at least one foam mixing liquid entrance (11), the tubular The other end of structure is provided at least one foam outlet (13), the liquefied medium entrance (12) and the foams mix The angled setting of liquid entrance (11).

5. foam-generating device according to claim 4, which is characterized in that the foam mixing liquid entrance (11) is provided with One, the liquefied medium entrance (12) is provided with one or more around the foam mixing liquid entrance (11), each described Angle between the direction of liquefied medium entrance (12) and the direction of the foam mixing liquid entrance (11) is 0 °~90 °.

6. foam-generating device according to claim 4, which is characterized in that the foam mixing liquid entrance (11) is provided with One, the liquefied medium entrance (12) is provided with multiple, multiple liquefaction Jie around the foam mixing liquid entrance (11) The direction of matter entrance (12) deviates from radial direction successively in the horizontal so that the liquid stream that the liquefied medium entrance (12) enters It being capable of rotational flow.

7. foam-generating device according to claim 4, which is characterized in that the liquefied medium entrance (12), which is provided with, stretches The input pipe (16) of intracavitary is generated to the foam.

8. foam-generating device according to claim 4, which is characterized in that the foam mixing liquid entrance (11), described Liquefied medium entrance (12) and the foam outlet (13) are each provided with one；Wherein, the diameter D1 of the tubular structure and institute The relationship stated between the diameter D2 of foam mixing liquid entrance (11) is：D1/D2=1.1~4；The foam mixing liquid entrance (11) Diameter D2 and the diameter D3 of the liquefied medium entrance (12) between relationship be：D2/D3=4~10；The tubular structure Diameter D1 and the diameter D4 of the foam outlet (13) between relationship be：D1/D4=0.8~2.

9. foam-generating device according to claim 8, which is characterized in that the water of the stoste mixer (2) enters Relationship between the diameter D6 and the diameter D5 of the stoste entrance (21) of mouthful (22) is：D6/D5=8~14；The water inlet (22) the relationship between diameter D6 and the diameter D2 of the foam mixing liquid entrance (11) is：D6/D2=1.0~1.4.

10. foam-generating device according to any one of claims 1 to 3, which is characterized in that the foam generates chamber Inside it is provided at least one flow spoiler (14) for disturbing liquid stream.

11. foam-generating device according to claim 10, which is characterized in that the flow spoiler (14) is formed as taper knot Structure, hemispherical dome structure or platform structure；

The deck roof of the taper top of the pyramidal structure, the dome of the hemispherical dome structure or the platform structure is facing towards institute State foam mixing liquid entrance (11).

12. foam-generating device according to claim 10, which is characterized in that the cross section of the flow spoiler (14) is circle Shape structure, the relationship between the diameter D7 and the diameter D2 of the foam mixing liquid entrance (11) of the flow spoiler (14) are：D7/ D2=1~4；And/or

The distance between the top of the flow spoiler (14) and outflux of the liquefied medium at the liquefied medium entrance (12) L For 0~100mm.

13. foam-generating device according to claim 10, which is characterized in that the foam generates intracavitary and is provided at least One spaced porous structure (15)；It is provided with multiple holes on each porous structure (15)；The porous structure (15) hole is towards the foam mixing liquid entrance (11), and the top of the relatively described flow spoiler (14) of the porous structure (15) Far from the foam mixing liquid entrance (11).

14. a kind of foam fire-fighting equipment, which is characterized in that the foam fire-fighting equipment is provided with according in claim 1~13 Foam-generating device described in any one.