CN104358717A - Air compression type bladeless fan and airflow generating method of air compression type bladeless fan - Google Patents
Air compression type bladeless fan and airflow generating method of air compression type bladeless fan Download PDFInfo
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- CN104358717A CN104358717A CN201410621928.1A CN201410621928A CN104358717A CN 104358717 A CN104358717 A CN 104358717A CN 201410621928 A CN201410621928 A CN 201410621928A CN 104358717 A CN104358717 A CN 104358717A
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- air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F5/00—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow
- F04F5/14—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow the inducing fluid being elastic fluid
- F04F5/16—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow the inducing fluid being elastic fluid displacing elastic fluids
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F5/00—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow
- F04F5/44—Component parts, details, or accessories not provided for in, or of interest apart from, groups F04F5/02 - F04F5/42
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Jet Pumps And Other Pumps (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
Abstract
The invention relates to an air compression type bladeless fan and an airflow generating method of the air compression type bladeless fan. The air compression type bladeless fan structurally comprises an air flow generating head, wherein a high-speed airflow air outlet unit and a positive and negative pressure airflow passage are arranged on the airflow generating head, the high-speed airflow air outlet unit is annularly arranged around the positive and negative pressure airflow passage, an air negative pressure region is formed at one side of the airflow generating head, an air positive pressure region is formed at the other side of the airflow generating head, the positive and negative pressure airflow passage is communicated between the air negative pressure region and the air positive pressure region, the airflow generating head is connected with one end of a ventilation pipe, high-pressure air flows into the airflow generating head through the ventilation pipe, and an air storage device is connected with the other end of the ventilation pipe. The air compression type bladeless fan and the airflow generating method have the advantages that the energy-saving performance of the technology is better, the energy conversion efficiency is higher, the noise is small, the use is more convenient, the safety is higher, and meanwhile, the characteristic that the ventilation and the air supply are more stable is realized.
Description
Technical field
The present invention relates to a kind of without blade fan and airflow generating method thereof, refer to that one comprises air-flow and produces head especially, this air-flow produce head is provided with high velocity air wind unit and positive/negative-pressure air-flow path without blade fan and airflow generating method thereof, wherein, this high velocity air wind unit ring is located at this positive/negative-pressure air-flow path surrounding, produce first side at this air-flow and form an air negative pressure district, the other side producing head at this air-flow forms an air positive pressure district, this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, this air-flow produces head and is connected with one end of breathing pipe, pressurized gas flow into this air-flow by this breathing pipe and produce in head, caisson is connected to other one end of this breathing pipe, this caisson stores high-pressure air, and form this pressurized gas when this high-pressure air of release, these pressurized gas flow into this air-flow by this breathing pipe and produce in head.
Background technique
As everyone knows, the inspiration without blade fan comes from air blades hand-drying device.The principle of air blades hand-drying device forces air to carry out " blowing " dry water on hand through an osculum, and air multiplier allows air produce by boasting from 1.0 mm wides, the otch that rotates around annulus amplifier.Because air is forced to produce by boasting from this circle, the air quantity passed through can increase original 15 times, and its speed per hour can reach 35 kilometers.The wind produced than conventional fan without the air flowing of blade fan is more steady.The air quantity that it produces is equivalent to the best fan of performance in the market.Because do not have fan sheet to carry out ' cutting ' air, user can not feel interim and impact and waveform stimulation.It allows you feel more naturally to feel nice and cool by the air stream continued.
Working principle without blade fan is: in pedestal with motor often that air intake fan base is inner, after accelerating via cyclone accelerator, air passage rates is maximum is increased about 16 times, via without blade fan fan head annular epipharynx around, it drives the air near fan head to enter fan head around power thereupon, and at full speed outwards blows out.Utilize the technology in jet aircraft engines and vehicle turbine supercharging without blade fan, suck air by the wind inlet of bottom, the impeller that the inside of annular edge hides then sprays air with circular trace, final one continual cool air stream of formation.Importantly this air flowing is more steady than the wind of conventional fan generation.The air quantity that it produces is equivalent to the best fan of performance in the market.
Although traditional without blade fan from the analysis of its air-flow producing cause possess energy-conservation, air-flow is soft, the plurality of advantages such as safe, but cause because the power loss of cyclone accelerator part in its pedestal is excessive when practical application and need to utilize very large capacity motor can make to produce without blade fan the situation of wind energy in a small amount, if and utilize large capacity motor can make when concrete enforcement overall waste energy without blade fan product power ascension while operating noise also can be multiplied, and one of this reason be not also slowly widely used without blade fan just.
Research tradition utilizes very large capacity motor can make to produce without blade fan the problem of wind energy in a small amount without blade fan in addition, we can find it without blade fan pedestal owing to needing to assemble numerous parts such as motor, cyclone accelerator so the sealing of its pedestal is inevitable not good, the situation of " leaking out " will inevitably be there is, and this also just tradition utilize very large capacity motor can make to produce without blade fan the another question classification of a small amount of wind energy without blade fan, described above is the major defect of prior art.
Summary of the invention
The invention provides a kind of compressed air type without blade fan and airflow generating method thereof, it provides a kind of good energy saving performance, energy conversion efficiency is higher, noise is little, use more convenient, safer, there is ventilation, air-supply simultaneously more stably without blade fan and airflow generating method thereof, and this is main purpose of the present invention.
The technical solution used in the present invention is: a kind of compressed air type is without blade fan, it comprises air-flow and produces head, this air-flow produces on head and is provided with high velocity air wind unit and positive/negative-pressure air-flow path, wherein, this high velocity air wind unit ring is located at this positive/negative-pressure air-flow path surrounding, produce first side at this air-flow and form an air negative pressure district, the other side producing head at this air-flow forms an air positive pressure district, this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, this high velocity air wind unit is towards this air negative pressure district, pressurized gas produce head outside from this air-flow and flow into this air-flow generation head, then penetrate from this high velocity air wind unit, some injection air-flows are formed in the process of injection, each this injection air-flow is all from this direction, air negative pressure district of this high velocity air wind unit directive, the first blowing air-flow is formed by some these injection air-flows, in the process of some these injection jet-impingements, each this injection air-flow all can drive the air of its surrounding to flow to the direction away from this air negative pressure district, thus negative pressure is formed in this air negative pressure district, this moment, atmospheric pressure value in this air positive pressure district is greater than the atmospheric pressure value in this air negative pressure district, again because this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, so meanwhile, air in this air positive pressure district is flowed in this air negative pressure district by this positive/negative-pressure air-flow path and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current.
When concrete enforcement, need the object of being blown over by air-flow, such as, human body etc., are positioned at this side, air negative pressure district, and this working air current blows to be comforted on object that these needs are blown over by air-flow.
This air-flow produces head and is connected with one end of breathing pipe, these pressurized gas flow into this air-flow by this breathing pipe and produce in head, caisson is connected to other one end of this breathing pipe, this caisson stores high-pressure air, and form this pressurized gas when this high-pressure air of release, these pressurized gas flow into this air-flow by this breathing pipe and produce in head, that is this air-flow of the present invention produce in head need not resemble tradition without blade fan by motor, numerous parts such as cyclone accelerator are arranged on without in blade fan, thus avoid the generation of " gas leakage " situation, improve energy conversion efficiency, utilize this independent caisson to produce this pressurized gas simultaneously, because the Technical comparing of this caisson is ripe, its energy conversion efficiency is high, operating noise is controlled, so product of the present invention possesses energy-conservation, the advantage that noise is low, in addition, this working air current of the present invention is made up of this first blowing air-flow and this second air-flow of drying, so its air quantity produced is more than use is with the large several times of the traditional air quantity without blade fan of ratio when power motor.
When concrete enforcement, this caisson comprises gas storage part and injection section, air is squeezed in this gas storage part and is carried out pressurized storage by this injection section, and finally provide this pressurized gas by this gas storage part to this air-flow generation head, when concrete enforcement, this caisson is that small-sized electric is calmed the anger caisson, when concrete enforcement, this gas storage part is gas storage ball, this injection section is that pin steps on hand-operated compressing device (artificial mode), that is, the present invention utilizes this caisson first to store high-pressure air, then, this pressurized gas are formed when this high-pressure air of release, these pressurized gas substituted for tradition by this breathing pipe mode flow in this air-flow generation head and utilize motor without blade fan, cyclone accelerator produces the mode of air-flow, gas storage is carried out owing to make use of this gas storage part in the present invention, produce these pressurized gas of head so this caisson is supplied to this air-flow to have flow velocity steady, the plurality of advantages such as airflow smooth, can the overall performance of remarkable improving product, promote airflow effects.
When concrete enforcement, this air-flow produces below head and is connected with body, this breathing pipe is arranged in this body, when concrete enforcement, this air-flow produces head and comprises some air-flows generation ring, some this air-flow generation rings from outer to inner diameter successively decrease successively, each this air-flow produces ring and has inner chamber, the inner chamber that this air-flows some produce ring communicates with each other and is connected with this breathing pipe, this high velocity air wind unit is arranged on each this air-flow and produces on ring, this high velocity air wind unit is made up of some exhaust outlets, this air-out chomas some are located at each this air-flow and produce on ring, this air-flow of arbitrary neighborhood produces between ring around this positive/negative-pressure air-flow path of formation, when concrete enforcement, this air-flow of arbitrary neighborhood produces between ring and is provided with connection rib, this connection rib is also provided with this exhaust outlets some simultaneously.
A kind of compressed air type is without the airflow generating method of blade fan, produce on head at an air-flow and high velocity air wind unit and positive/negative-pressure air-flow path are set, this high velocity air wind unit ring is located at this positive/negative-pressure air-flow path surrounding, this moment, produce first side at this air-flow and form an air negative pressure district, the other side producing head at this air-flow forms an air positive pressure district, this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, this high velocity air wind unit is towards this air negative pressure district, when generation air-flow, pressurized gas flow into this air-flow generation head from this air-flow generation head outside, then penetrate from this high velocity air wind unit, some injection air-flows are formed in the process of injection, each this injection air-flow is all from this direction, air negative pressure district of this high velocity air wind unit directive, the first blowing air-flow is formed by some these injection air-flows, in the process of some these injection jet-impingements, each this injection air-flow all can drive the air of its surrounding to flow to the direction away from this air negative pressure district, thus negative pressure is formed in this air negative pressure district, this moment, atmospheric pressure value in this air positive pressure district is greater than the atmospheric pressure value in this air negative pressure district, again because this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, so meanwhile, air in this air positive pressure district is flowed in this air negative pressure district by this positive/negative-pressure air-flow path and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current.
This air-flow is produced head be connected with one end of breathing pipe, caisson is connected to other one end of this breathing pipe, this caisson stores high-pressure air, and form this pressurized gas when this high-pressure air of release, these pressurized gas flow into this air-flow by this breathing pipe and produce in head, this caisson comprises gas storage part and injection section, air is squeezed in this gas storage part and is carried out pressurized storage by this injection section, and finally provide this pressurized gas by this gas storage part to this air-flow generation head, this air-flow produces head and comprises some air-flows generation ring, some this air-flow generation rings from outer to inner diameter successively decrease successively, each this air-flow produces ring and has inner chamber, the inner chamber that this air-flows some produce ring communicates with each other and is connected with this breathing pipe, this high velocity air wind unit is arranged on each this air-flow and produces on ring, this high velocity air wind unit is made up of some exhaust outlets, this air-out chomas some are located at each this air-flow and produce on ring, this air-flow of arbitrary neighborhood produces between ring around this positive/negative-pressure air-flow path of formation, when concrete enforcement, this air-flow of arbitrary neighborhood produces between ring and is provided with connection rib, this connection rib is also provided with this exhaust outlets some simultaneously.
Beneficial effect of the present invention is: of the present invention when work pressurized gas produce head outside from this air-flow and flow into this air-flow and produce head, then penetrate from this high velocity air wind unit, some injection air-flows are formed in the process of injection, each this injection air-flow is all from this direction, air negative pressure district of this high velocity air wind unit directive, the first blowing air-flow is formed by some these injection air-flows, in the process of some these injection jet-impingements, each this injection air-flow all can drive the air of its surrounding to flow to the direction away from this air negative pressure district, thus negative pressure is formed in this air negative pressure district, this moment, atmospheric pressure value in this air positive pressure district is greater than the atmospheric pressure value in this air negative pressure district, again because this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, so meanwhile, air in this air positive pressure district is flowed in this air negative pressure district by this positive/negative-pressure air-flow path and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current.
This air-flow of the present invention produce in head need not resemble tradition without blade fan by motor, numerous parts such as cyclone accelerator are arranged on without in blade fan, thus avoid the generation of " gas leakage " situation, improve energy conversion efficiency, utilize this independent caisson to produce this pressurized gas simultaneously, because the Technical comparing of this caisson is ripe, its energy conversion efficiency is high, operating noise is controlled, so product of the present invention possesses energy-conservation, the advantage that noise is low, in addition, this working air current of the present invention is made up of this first blowing air-flow and this second air-flow of drying, so its air quantity produced is more than use is with the large several times of the traditional air quantity without blade fan of ratio when power motor.
The present invention utilizes this caisson first to store high-pressure air, then, this pressurized gas are formed when this high-pressure air of release, these pressurized gas flow into this air-flow mode produced in head by this breathing pipe and substituted for traditional mode utilizing motor, cyclone accelerator generation air-flow without blade fan, gas storage is carried out owing to make use of this gas storage part in the present invention, so these pressurized gas that this caisson is supplied to this air-flow generation head have the plurality of advantages such as flow velocity is steady, airflow smooth, can the overall performance of remarkable improving product, promote airflow effects.
Accompanying drawing explanation
Fig. 1 is perspective view of the present invention.
Fig. 2 is perspective exploded view of the present invention.
Fig. 3 is part isometric structural representation of the present invention.
Fig. 4 is cross-sectional view of the present invention.
Fig. 5 is the schematic diagram that the dissimilar air-flow of the present invention produces head.
Embodiment
As shown in Fig. 1 to 5, a kind of compressed air type is without blade fan, and it comprises air-flow and produces 10, and this air-flow produces on 10 and is provided with high velocity air wind unit 11 and positive/negative-pressure air-flow path 12, wherein, this high velocity air wind unit 11 ring is located at this positive/negative-pressure air-flow path 12 surrounding.
Produce 10 side at this air-flow and form an air negative pressure district 13, the other side producing 10 at this air-flow forms an air positive pressure district 14.
This positive/negative-pressure air-flow path 12 is communicated with between this air negative pressure district 13 and this air positive pressure district 14.
This high velocity air wind unit 11 is towards this air negative pressure district 13.
Pressurized gas produce 10 outside from this air-flow and flow into this air-flow and produce 10, then penetrate from this high velocity air wind unit 11, in the process of injection, form some injection air-flows 111.
Each this injection air-flow 111 all from this direction, air negative pressure district 13 of this high velocity air wind unit 11 directive, forms the first blowing air-flow by some these injection air-flows 111.
In the process that some these injection air-flows 111 spray, each this injection air-flow 111 all can drive the air of its surrounding to flow to the direction away from this air negative pressure district 13, thus negative pressure is formed in this air negative pressure district 13, this moment, atmospheric pressure value in this air positive pressure district 14 is greater than the atmospheric pressure value in this air negative pressure district 13, again because this positive/negative-pressure air-flow path 12 is communicated with between this air negative pressure district 13 and this air positive pressure district 14, so meanwhile, air in this air positive pressure district 14 is flowed in this air negative pressure district 13 by this positive/negative-pressure air-flow path 12 and forms the second blowing air-flow.
This first blowing air-flow and this second air-flow of drying form working air current.
When concrete enforcement, need the object of being blown over by air-flow, such as, human body etc., are positioned at this side, air negative pressure district 13, and this working air current blows to be comforted on object that these needs are blown over by air-flow.
This air-flow produces 10 and is connected with one end of breathing pipe 20, and these pressurized gas are flow in this air-flow generation 10 by this breathing pipe 20.
Caisson 30 is connected to other one end of this breathing pipe 20, and this caisson 30 stores high-pressure air, and forms this pressurized gas when this high-pressure air of release, and these pressurized gas flow into this air-flow by this breathing pipe 20 and produce in 10.
That is this air-flow of the present invention produces and need not resemble tradition in 10 and be arranged on without in blade fan by numerous parts such as motor, cyclone accelerators without blade fan, thus avoid the generation of " gas leakage " situation, improve energy conversion efficiency, utilize this independent caisson 30 to produce this pressurized gas simultaneously, because the Technical comparing of this caisson 30 is ripe, its energy conversion efficiency is high, and operating noise is controlled, so product of the present invention possesses energy-conservation, that noise is low advantage.
In addition, this working air current of the present invention be made up of with this second air-flow of dry this first blowing air-flow, so its air quantity produced is more than use is with the large several times of the traditional air quantity without blade fan of ratio when power motor.
When concrete enforcement, this caisson 30 comprises gas storage part 31 and injection section 32, and air is squeezed in this gas storage part 31 and carried out pressurized storage by this injection section 32, and finally produces 10 by this gas storage part 31 to this air-flow and provide this pressurized gas.
When concrete enforcement, this caisson 30 to be calmed the anger caisson for small-sized electric.
When concrete enforcement, this gas storage part 31 is gas storage ball, and this injection section 32 steps on hand-operated compressing device for pin.
That is, the present invention utilizes this caisson 30 first to store high-pressure air, then, this pressurized gas are formed when this high-pressure air of release, these pressurized gas flow into this air-flow mode produced in 10 by this breathing pipe 20 and substituted for tradition and utilize motor without blade fan, cyclone accelerator produces the mode of air-flow, gas storage is carried out owing to make use of this gas storage part 31 in the present invention, so this caisson 30 is supplied to these pressurized gas that this air-flow produces 10, to have flow velocity steady, the plurality of advantages such as airflow smooth, can the overall performance of remarkable improving product, promote airflow effects.
When concrete enforcement, this air-flow is connected with body 21 below producing 10, and this breathing pipe 20 is arranged in this body 21.
When concrete enforcement, this air-flow produces 10 and comprises some air-flows and produce ring 40, this air-flows some produce ring 40 from outer to inner diameter successively decrease successively.
Each this air-flow produces ring 40 and has inner chamber, and the inner chamber that this air-flows some produce ring 40 communicates with each other and is connected with this breathing pipe 20.
This high velocity air wind unit 11 is arranged on each this air-flow and produces on ring 40, and this high velocity air wind unit 11 is made up of some exhaust outlets 112.
This exhaust outlet 112 rings some are located at each this air-flow and produce on ring 40.
This air-flow of arbitrary neighborhood produces between ring 40 around this positive/negative-pressure air-flow path 12 of formation.
When concrete enforcement, this air-flow of arbitrary neighborhood produces between ring 40 and is provided with connection rib 41, this connection rib 41 is also provided with simultaneously this exhaust outlets 112 some.
When concrete enforcement, the present invention can add cooling and heating parts, filtering dust parts, negative oxygen ion parts according to demand, and spices volatilizer etc., to realize different demands.
Of the present inventionly without leaf independent fan accommodation be widely applicable to family, hospital, company, market, hotel, logistics shipping, dust-free workshop etc., also can be applicable to the larger region of the temperature difference simultaneously.
Products characteristics of the present invention is, energy-conservation, and noise is very little, easy cleaning, beautiful shape, air quantity is large and adjustable. and can design after installation to decorate with indoor environment and mate. mounting type variation, can on floor, wall, ceiling board and free space realize perfect installation, beautify the environment.
Finally, first the characteristic of product of the present invention is can energy saving, of the present inventionly can set host function size according to practical space area without leaf independent fan system.Be different from traditional central air conditioning equipment, the additional electrical energy loss and noise that the main engine power because space is little causes greatly is solved without leaf independent fan system, or the little spatial area of main engine power does not reach greatly the expection comparatively fruit of cooling and heating, simultaneously also can turbine main frame and the integration of novel fan head.
Secondly, the characteristic that product of the present invention has environmental protection, purifies air, when concrete enforcement, its main frame adopts R410A New Refrigerating, heats agent, comprises frozen water, household steam electrothermal refrigeration, heats not containing the ozonosphere composition in broken ring air.Its product can establish multi-filtering net to prevent the dust in air and germ from entering indoor on ventilation duct, effectively reduces PM2.5, and multiple activities carbon filter screen effectively tackles dust germ, carries out filtered air, guarantees to enter indoor air cleaning.The pollution Nano titanium dioxide of the toxic gas such as formaldehyde, benzene that its product can add in titanium oxide virus killing degraded indoor air is activated by ultraviolet, carries out filtered air and effectively to degrade the radiocontamination of the toxic gas such as formaldehyde, benzene in air.In addition, its product can add anion oxygenation and increase oxygen in indoor air to appropriate and keep stable content, negative ion generator is to indoor air oxygenation, the air guaranteeing to enter household keeps enough oxygen, dynamic, and strengthen filtered air last, its product also can add the potent epidemic virus bacterium killed in air of uv disinfection, ultraviolet light sources has the potent epidemic virus bacterium killed in air, make people away from the source of infection, carry out filtered air, care personnel health.
As shown in Fig. 1 to 5, a kind of compressed air type is without the airflow generating method of blade fan, produce on 10 at an air-flow and high velocity air wind unit 11 and positive/negative-pressure air-flow path 12 are set, this high velocity air wind unit 11 ring is located at this positive/negative-pressure air-flow path 12 surrounding, this moment, produce 10 side at this air-flow and form an air negative pressure district 13, the other side producing 10 at this air-flow forms an air positive pressure district 14.
This positive/negative-pressure air-flow path 12 is communicated with between this air negative pressure district 13 and this air positive pressure district 14, this high velocity air wind unit 11 is towards this air negative pressure district 13, when generation air-flow, pressurized gas produce 10 outside from this air-flow and flow into this air-flow and produce 10, then penetrate from this high velocity air wind unit 11, in the process of injection, form some injection air-flows 111.
Each this injection air-flow 111 all from this direction, air negative pressure district 13 of this high velocity air wind unit 11 directive, forms the first blowing air-flow by some these injection air-flows 111.
In the process that some these injection air-flows 111 spray, each this injection air-flow 111 all can drive the air of its surrounding to flow to the direction away from this air negative pressure district 13, thus negative pressure is formed in this air negative pressure district 13, this moment, atmospheric pressure value in this air positive pressure district 14 is greater than the atmospheric pressure value in this air negative pressure district 13, again because this positive/negative-pressure air-flow path 12 is communicated with between this air negative pressure district 13 and this air positive pressure district 14, so meanwhile, air in this air positive pressure district 14 is flowed in this air negative pressure district 13 by this positive/negative-pressure air-flow path 12 and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current.
This air-flow is produced 10 be connected with one end of breathing pipe 20, caisson 30 is connected to other one end of this breathing pipe 20.
This caisson 30 stores high-pressure air, and forms this pressurized gas when this high-pressure air of release, and these pressurized gas flow into this air-flow by this breathing pipe 20 and produce in 10.
This caisson 30 comprises gas storage part 31 and injection section 32, and air is squeezed in this gas storage part 31 and carried out pressurized storage by this injection section 32, and finally produces 10 by this gas storage part 31 to this air-flow and provide this pressurized gas.
This air-flow produces 10 and comprises some air-flows and produce ring 40, this air-flows some produce ring 40 from outer to inner diameter successively decrease successively.
Each this air-flow produces ring 40 and has inner chamber, and the inner chamber that this air-flows some produce ring 40 communicates with each other and is connected with this breathing pipe 20.
This high velocity air wind unit 11 is arranged on each this air-flow and produces on ring 40, and this high velocity air wind unit 11 is made up of some exhaust outlets 112.
This exhaust outlet 112 rings some are located at each this air-flow and produce on ring 40.
This air-flow of arbitrary neighborhood produces between ring 40 around this positive/negative-pressure air-flow path 12 of formation.
When concrete enforcement, this air-flow of arbitrary neighborhood produces between ring 40 and is provided with connection rib 41, this connection rib 41 is also provided with simultaneously this exhaust outlets 112 some.
Claims (10)
1. a compressed air type is without blade fan, it is characterized in that: comprise air-flow and produce head, this air-flow produces on head and is provided with high velocity air wind unit and positive/negative-pressure air-flow path, wherein, this high velocity air wind unit ring is located at this positive/negative-pressure air-flow path surrounding, produce first side at this air-flow and form an air negative pressure district, the other side producing head at this air-flow forms an air positive pressure district, this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, this high velocity air wind unit is towards this air negative pressure district, pressurized gas produce head outside from this air-flow and flow into this air-flow generation head, then penetrate from this high velocity air wind unit, some injection air-flows are formed in the process of injection, each this injection air-flow is all from this direction, air negative pressure district of this high velocity air wind unit directive, the first blowing air-flow is formed by some these injection air-flows,
In the process of some these injection jet-impingements, each this injection air-flow all can drive the air of its surrounding to flow to the direction away from this air negative pressure district, thus negative pressure is formed in this air negative pressure district, this moment, atmospheric pressure value in this air positive pressure district is greater than the atmospheric pressure value in this air negative pressure district, again because this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, so meanwhile, air in this air positive pressure district is flowed in this air negative pressure district by this positive/negative-pressure air-flow path and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current,
This air-flow produces head and is connected with one end of breathing pipe, these pressurized gas flow into this air-flow by this breathing pipe and produce in head, caisson is connected to other one end of this breathing pipe, this caisson stores high-pressure air, and forming this pressurized gas when this high-pressure air of release, these pressurized gas flow into this air-flow by this breathing pipe and produce in head.
2. a kind of compressed air type as claimed in claim 1 is without blade fan, it is characterized in that: this caisson comprises gas storage part and injection section, air is squeezed in this gas storage part and is carried out pressurized storage by this injection section, and finally provides this pressurized gas by this gas storage part to this air-flow generation head.
3. a kind of compressed air type as claimed in claim 1 is without blade fan, it is characterized in that: this high velocity air wind unit is pin hole pattern exhaust outlet, the air-flow of this high velocity air wind unit ejection forms this first blowing air-flow, this compressed air type is split-type structural without blade fan, it produces head, gas storage part and injection section by this air-flow and forms, and finally forms this working air current by this first blowing air-flow and this second blowing air-flow.
4. a kind of compressed air type as claimed in claim 2 is without blade fan, it is characterized in that: this gas storage part is gas storage ball, and this injection section is that pin steps on hand-operated compressing device.
5. a kind of compressed air type as claimed in claim 1 is without blade fan, it is characterized in that: this air-flow produces below head and is connected with body, and this breathing pipe is arranged in this body.
6. a kind of compressed air type as claimed in claim 1 is without blade fan, it is characterized in that: this air-flow produces head and comprises some air-flows generation ring, some this air-flow generation rings from outer to inner diameter successively decrease successively, each this air-flow produces ring and has inner chamber, the inner chamber that this air-flows some produce ring communicates with each other and is connected with this breathing pipe, this high velocity air wind unit is arranged on each this air-flow and produces on ring, this high velocity air wind unit is made up of some exhaust outlets, this air-out chomas some are located at each this air-flow and produce on ring, this air-flow of arbitrary neighborhood produces between ring around this positive/negative-pressure air-flow path of formation.
7. a kind of compressed air type as claimed in claim 6 is without blade fan, it is characterized in that: this air-flow of arbitrary neighborhood produces between ring and is provided with connection rib.
8. a kind of compressed air type as claimed in claim 7 is without blade fan, it is characterized in that: this connection rib is also provided with this exhaust outlets some simultaneously.
9. a compressed air type is without the airflow generating method of blade fan, it is characterized in that: produce on head at an air-flow and high velocity air wind unit and positive/negative-pressure air-flow path are set, this high velocity air wind unit ring is located at this positive/negative-pressure air-flow path surrounding, this moment, produce first side at this air-flow and form an air negative pressure district, the other side producing head at this air-flow forms an air positive pressure district, this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, this high velocity air wind unit is towards this air negative pressure district
When generation air-flow, pressurized gas flow into this air-flow generation head from this air-flow generation head outside, then penetrate from this high velocity air wind unit, some injection air-flows are formed in the process of injection, each this injection air-flow is all from this direction, air negative pressure district of this high velocity air wind unit directive, the first blowing air-flow is formed by some these injection air-flows, in the process of some these injection jet-impingements, each this injection air-flow all can drive the air of its surrounding to flow to the direction away from this air negative pressure district, thus negative pressure is formed in this air negative pressure district, this moment, atmospheric pressure value in this air positive pressure district is greater than the atmospheric pressure value in this air negative pressure district, again because this positive/negative-pressure air-flow path is communicated with between this air negative pressure district and this air positive pressure district, so meanwhile, air in this air positive pressure district is flowed in this air negative pressure district by this positive/negative-pressure air-flow path and forms the second blowing air-flow, this first blowing air-flow and this second air-flow of drying form working air current.
10. a kind of compressed air type as claimed in claim 9 is without the airflow generating method of blade fan, it is characterized in that this air-flow is produced head to be connected with one end of breathing pipe, caisson is connected to other one end of this breathing pipe, this caisson stores high-pressure air, and form this pressurized gas when this high-pressure air of release, these pressurized gas flow into this air-flow by this breathing pipe and produce in head, this caisson comprises gas storage part and injection section, air is squeezed in this gas storage part and is carried out pressurized storage by this injection section, and finally provide this pressurized gas by this gas storage part to this air-flow generation head, this air-flow produces head and comprises some air-flows generation ring, some this air-flow generation rings from outer to inner diameter successively decrease successively, each this air-flow produces ring and has inner chamber, the inner chamber that this air-flows some produce ring communicates with each other and is connected with this breathing pipe, this high velocity air wind unit is arranged on each this air-flow and produces on ring, this high velocity air wind unit is made up of some exhaust outlets, this air-out chomas some are located at each this air-flow and produce on ring, this air-flow of arbitrary neighborhood produces between ring around this positive/negative-pressure air-flow path of formation.
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CN201410621928.1A CN104358717B (en) | 2014-11-07 | 2014-11-07 | A kind of air pressing type bladeless fan and airflow generating method thereof |
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CN201410621928.1A CN104358717B (en) | 2014-11-07 | 2014-11-07 | A kind of air pressing type bladeless fan and airflow generating method thereof |
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CN104358717A true CN104358717A (en) | 2015-02-18 |
CN104358717B CN104358717B (en) | 2016-08-24 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104763689A (en) * | 2015-03-31 | 2015-07-08 | 广东美的环境电器制造有限公司 | Machine head for bladeless fan and bladeless fan with the machine head |
WO2018203837A3 (en) * | 2017-05-04 | 2018-12-27 | Muanchart Mankaew | Bladeless fan in the fluid pipe |
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CN102221020A (en) * | 2011-07-25 | 2011-10-19 | 李耀强 | Fan |
KR20120104909A (en) * | 2011-03-14 | 2012-09-24 | 정원포 | An electric fan |
CN202520669U (en) * | 2011-05-10 | 2012-11-07 | 邹方波 | Nonelectric bladeless fan |
CN103206415A (en) * | 2011-07-04 | 2013-07-17 | 李耀强 | Airflow injection device |
CN204239347U (en) * | 2014-11-07 | 2015-04-01 | 深圳市神州微动力科技有限公司 | A kind of compressed air type is without blade fan |
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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KR20120104909A (en) * | 2011-03-14 | 2012-09-24 | 정원포 | An electric fan |
CN202520669U (en) * | 2011-05-10 | 2012-11-07 | 邹方波 | Nonelectric bladeless fan |
CN103206415A (en) * | 2011-07-04 | 2013-07-17 | 李耀强 | Airflow injection device |
CN102221020A (en) * | 2011-07-25 | 2011-10-19 | 李耀强 | Fan |
CN204239347U (en) * | 2014-11-07 | 2015-04-01 | 深圳市神州微动力科技有限公司 | A kind of compressed air type is without blade fan |
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CN104763689A (en) * | 2015-03-31 | 2015-07-08 | 广东美的环境电器制造有限公司 | Machine head for bladeless fan and bladeless fan with the machine head |
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WO2018203837A3 (en) * | 2017-05-04 | 2018-12-27 | Muanchart Mankaew | Bladeless fan in the fluid pipe |
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CN104358717B (en) | 2016-08-24 |
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