CN103982402A - Fan - Google Patents
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- CN103982402A CN103982402A CN201310049385.6A CN201310049385A CN103982402A CN 103982402 A CN103982402 A CN 103982402A CN 201310049385 A CN201310049385 A CN 201310049385A CN 103982402 A CN103982402 A CN 103982402A
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Abstract
The invention discloses a fan. The fan comprises a nozzle, a generating device, a conveying pipe and an evaporating device, wherein the nozzle comprises input ends, an inner channel and an air exhaust port; the generating device comprises impeller covers, impellers and motors; the conveying pipe comprises an input section with a plurality of input ends and an output section with output ends; the evaporating device comprises a container and an evaporator; air outlet ends of the impeller covers and the outlet end of the container are connected with the input ends of the input section respectively; the input ends of the nozzle are connected with the output ends of the output section.
Description
Technical field
The present invention relates to a kind of fan.Especially, but not in exclusive manner, the present invention relates to a kind of domestic fan, as family expenses desk fan, for increasing air circulation and Air Flow in indoor, office and other environment.
Background technique
Traditional domestic fan generally includes motor and is driven the one group of blade or the impeller that are rotated by motor.This group blade is usually located in cage, and this cage allows air-flow to pass, but but stops human body to touch the blade of rotation.But in some cases, this kind of fan also exists human body and touches the risk of this group rotation blade.
Chinese patent application (the application number: 200810177844.8) disclose a kind of fan that does not expose fan blade that on May 6th, 2009, publication number was CN 101424279A, described fan comprises nozzle and is used to form by the generation device of the air-flow of described nozzle, described nozzle comprises the input end with import, for receiving the inner passage of air-flow and for launching the relief opening of air-flow, described nozzle limits opening, the air-flow suction that the air of described fan outside is launched from relief opening is by this opening, described generation device comprises impeller chimney, be positioned at the impeller of impeller chimney and the motor of the described vane rotary work of driving.Because this kind of fan only uses a vane rotary job, described impeller must could obtain enough air outputs by high speed operation, and running up of impeller will produce larger noise; This kind of fan functionality is single in addition, needs further to be optimized.
Summary of the invention
A first aspect of the present invention provides a kind of fan, and this kind of fan comprise nozzle, be used to form the generation device of the air-flow by described nozzle and be delivered to the delivery pipe of described nozzle for the air-flow that described generation device is formed; Described nozzle comprise there is at least one input end of import, for receiving the inner passage of air-flow and for launching the relief opening of air-flow; Described generation device comprise have inlet end and outlet side multiple impeller chimneies, be positioned at multiple impellers of described multiple impeller chimneies and drive multiple motors of described multiple vane rotary work; Described delivery pipe comprises input section and is positioned at the output section in described input section downstream; Wherein: described input section comprises multiple input ends with import, described output section comprises at least one output terminal with outlet, multiple outlet sides of described multiple impeller chimneies are connected respectively with multiple input ends of described input section, and the input end of described nozzle is connected with the output terminal of described output section.
Preferably, described input section comprises at least one section of three-way pipe.Described three-way pipe refers to the pipe with three openings; Adopt one section of three-way pipe, easily efficiently two-way air-flow is pooled to a road; Three-way pipe preferably includes the three-way pipe of T shape and the three-way pipe of Y shape.
Preferably, described input section comprises at least one section of three-way pipe, and described output section also comprises at least one section of three-way pipe.The output section of delivery pipe can converge multichannel air-flow efficiently like this, and the output section of delivery pipe can be dispersed into multichannel air-flow efficiently.
Described fan can limit opening.Air from fan outside can be entrainmented by described opening by the air-flow of launching from relief opening.
Advantageously, the air-flow that the fan of this kind of structure is exported multiple vane rotary work respectively gather by delivery pipe and transmit after be delivered to nozzle, multiple impellers just can make fan obtain enough air outputs under lower rotating speed, and lower wheel speed can significantly reduce the noise that fan produces; Its compact structure of the delivery pipe of this kind of fan the easy air-flow that multiple impellers are produced of carrying out gather efficiently and transmit in addition, are conducive to improve its transfer efficiency and reduce shared space.
Preferably, described generation device comprises two impeller chimneies, two impellers and two motors, and described input section comprises two input ends, and two outlet sides of described two impeller chimneies are connected respectively with two input ends of described input section.
Preferably, described generation device comprises two impeller chimneies, two impellers and two motors, described nozzle comprises two input ends, described input section comprises two input ends, described output section comprises two output terminals, two input ends of described nozzle are connected respectively with two output terminals of described output section, and two outlet sides of described two impeller chimneies are connected respectively with two input ends of described input section.Described delivery pipe adopts two output terminals to described nozzle delivery air, is conducive to improve the whole efficiency of fan, is particularly conducive to and reduces the loss of air-flow in nozzle.
Described fan can comprise be positioned at described delivery pipe for guiding the guiding device of air-flow.Described guiding device comprises the multiple fins for guiding air-flow; Preferably, described guiding device comprises the multiple fins that become entirety with described delivery pipe.In delivery pipe, be provided for guiding the fin of air-flow, be conducive to improve the transfer efficiency of air-flow and reduce noise, particularly all the more so in the situation that having multiply air-flow to mix.The described fin that is positioned at delivery pipe can be arranged near each input end of delivery pipe, also can be arranged near the mixed zone of multiply air-flow, can also be arranged near the shunting zone of multiply air-flow.Preferably near the input end in delivery pipe, near the mixed zone of multiply air-flow and near the shunting zone of multiply air-flow, multiple fins are all set.
Each motor of described fan uses a motor casing that motor is fixed on impeller chimney conventionally, and the outlet side of described impeller chimney can be connected with an input end in described multiple input ends of inputting section by a motor casing.
Described fan generally includes the circuit arrangement for controlling motor operations.Preferably, described multiple motors adopt same circuit arrangement to control, and are conducive to like this enhance productivity and reduce costs.Preferably, described same circuit arrangement comprises the multiple output interfaces that connect for the electricity cable of multiple motors.
Described fan preferably includes the toroidal shell with multiple imports and at least one outlet, and described toroidal shell limits internal cavities, and described generation device and described delivery pipe are all arranged in the internal cavities of described toroidal shell.Adopt this kind of structure, can make fan there is good outward appearance.
Described fan preferably includes pedestal, and described nozzle is arranged on pedestal, and described pedestal comprises base shell, and described generation device and described delivery pipe are all positioned at described base shell.Described pedestal comprises multiple imports, and multiple impellers arrive air intake in described base shell by described multiple imports.Each of described multiple motors comprises rotating shaft, and preferably, multiple rotating shafts of described multiple motors are substantially parallel, and the angle of described multiple rotating shaft and described base height direction is between 10 ° to 90 °; More preferably, multiple rotating shafts of described multiple motors are substantially parallel, and the angle of described multiple rotating shaft and described base height direction is between 20 ° to 75 °.
Described nozzle preferably limits opening, and the air of fan outside can be entrainmented by described opening by the air-flow of launching from described relief opening.The height of described nozzle is preferably between between 200mm to 800mm, more preferably between between 250mm to 500mm.
Described nozzle preferably includes inner shell part and external casing part, and they limit inner passage and the relief opening of described nozzle jointly.Described external casing part preferably forms local overlapping described inner shell part, can allow so described relief opening be limited between the outer surface of described inner shell part and the internal surface of described external casing part.
Described relief opening is preferably slot-shaped relief opening, its relief opening at the width in outlet port conventionally between 0.5mm to 10mm, preferably between 1mm to 5mm.
Described motor can be alternating current motor, can be also DC Brushless Motor; Described impeller can be centrifugal impeller, can be also mixed flow impeller, is preferably mixed flow impeller.The rotating speed of described impeller is usually located between 800rpm to 7000rpm, is preferably located between 1200rpm to 6500rpm.
A second aspect of the present invention provides a kind of fan, and this kind of fan comprise nozzle, be used to form by the generation device of the air-flow of described nozzle, be delivered to the delivery pipe of described nozzle and be positioned at the heating equipment for heating air flow of described delivery pipe for the air-flow that described generation device is formed; Described nozzle comprise there is at least one input end of import, for receiving the inner passage of air-flow and for launching the relief opening of air-flow; Described generation device comprise have inlet end and outlet side at least one impeller chimney, be positioned at least one impeller of described impeller chimney and drive at least one motor of described vane rotary work; Described delivery pipe comprises input section and is positioned at the output section in described input section downstream; Wherein: described input section comprises at least one input end with import, described output section comprises at least one output terminal with outlet, the outlet side of described impeller chimney is connected with the input end of described input section, and the input end of described nozzle is connected with the output terminal of described output section.
Advantageously, the fan of this kind of structure arranges heating equipment in delivery pipe, can, efficiently by being transported in nozzle and by nozzle and outwards exporting through the air of heating equipment heating, make fan can export cold wind, also can export hot blast, has carried out cold, hot two-purpose; The compact structure of this kind of fan and heating equipment directly do not contact with fan drum simultaneously, are conducive to improve the Security of fan.
Described fan can comprise the control valve being connected with described delivery pipe, and described control valve is for controlling the throughput that flows through described delivery pipe.Can control easily like this air output of fan.
Described fan can limit opening.Air from fan outside can be entrainmented by described opening by the air-flow of launching from relief opening.
Preferably, described delivery pipe also comprises the intermediate section laying respectively between described input section and described output section, described intermediate section comprises the first segmentation and the second segmentation, the air-flow flowing into from described input section can divide two-way to enter respectively described output section from described the first segmentation and described the second segmentation, described heating equipment is arranged in described the first segmentation, described fan also comprises the control valve with described the second connection segment, and described control valve is for controlling the throughput that flows through described the second segmentation.Like this when described control valve is during by described the second sequence closing, the air-flow that described the second segmentation is not flow through, the air-flow that output tube is exported must be through the heating equipment heating in described the second segmentation; In the time that described control valve is not closed described the second segmentation, the air-flow that output tube is exported is respectively by described the first segmentation and described the second segmentation.
Preferably, described delivery pipe comprises the first cavity zone and second cavity zone that can hold described heating equipment, in the time that described heating equipment is positioned at the first cavity zone, the part that the air-flow that described generation device forms has at least flows through described heating equipment the output terminal output from described output section, in the time that described heating equipment is positioned at the second cavity zone, the air-flow that described generation device forms has at least part not flow through described heating equipment the output terminal output from described output section.In the time not using heating equipment, the resistance of air-flow in delivery pipe obviously reduces, and is conducive to reduce its transmission loss like this.
Preferably, described fan also comprises the control gear being connected with described heating equipment, and described control gear is used for operating described heating equipment and moves between the first cavity zone and the first cavity zone.Be conducive to so the convenient position of adjusting heating equipment, make in the time that heating equipment does not use, reduce resistance and the loss of air-flow in delivery pipe.
Described heating equipment is preferably located in described output section.Reduce like this temperature of the parts that are positioned at described output section upstream.
Described delivery pipe can comprise one section of metal tube, and described heating equipment is positioned at this section of metal tube; Preferably, at the outer surface of this section of metal tube placing heating equipment, thermal-protective coating is set; Described delivery pipe also can comprise one section of stoneware pipe, and described heating equipment is positioned at this section of stoneware pipe; Described delivery pipe also can comprise one section of flexible pipe, as one section of rubber pipe, can reduce like this transmission of vibration.
Described generation device preferably includes two impeller chimneies, two impellers and two motors, and described input section comprises two input ends, and two outlet sides of described two impeller chimneies are connected respectively with two input ends of described input section.
Preferably, described generation device comprises two impeller chimneies, two impellers and two motors, described nozzle comprises two input ends, described input section comprises two input ends, described output section comprises two output terminals, two input ends of described nozzle are connected respectively with two output terminals of described output section, and two outlet sides of described two impeller chimneies are connected respectively with two input ends of described input section.
Described heating equipment generally includes PTC heating element and electric heating wire, preferably includes PTC heating element.The power of described heating equipment is conventionally between 200W to 3000W, preferably between 500W to 1500W.
The above-mentioned feature about a first aspect of the present invention is also applied to a second aspect of the present invention equally.
A third aspect of the present invention provides a kind of fan, and this kind of fan comprises nozzle, is used to form by the generation device of the air-flow of described nozzle, is delivered to the delivery pipe of described nozzle and the evaporating plant for evaporating liquid for the air-flow that described generation device is formed; Described nozzle comprise there is at least one input end of import, for receiving the inner passage of air-flow and for launching the relief opening of air-flow; Described generation device comprise have inlet end and outlet side at least one impeller chimney, be positioned at least one impeller of described impeller chimney and drive at least one motor of described vane rotary work; Described delivery pipe comprises input section and is positioned at the output section in described input section downstream; Described evaporating plant comprises for the container with import and outlet of storage of liquids and has at least part to be positioned at the vaporizer of described delivery pipe; Wherein: described input section comprises multiple input ends with import, described output section comprises at least one output terminal with outlet, the outlet side of described impeller chimney is connected respectively with multiple input ends of described input section with the outlet end of described container, and the input end of described nozzle is connected with the output terminal of described output section.
Described vaporizer preferably includes wet curtain component, and described vaporizer also can comprise evaporation cotton.
Described evaporating plant can comprise and is stored in water in liquid-container; Also can comprise and be stored in perfume in liquid-container; Can also comprise other liquid.
Advantageously, the vaporizer of this kind of fan has at least part to be positioned at delivery pipe, can will after the liquid evaporation such as moisture or perfume, be transported in nozzle and outwards transmitting by delivery pipe, make fan there is several functions, can export the wind through water refrigeration, also can provide the wind with certain humidity, the fragrance that can also provide perfume to send; The compact structure of this kind of fan in addition, is conducive to the miniaturization of fan.
Described fan can also comprise the control valve being connected with described delivery pipe, and described control valve is for controlling the throughput that flows through described delivery pipe.Preferably, described control valve is for the liquid controlling the input end of the described input that is connected with the outlet end of described liquid-container section and accept or the quantity of air-flow.
Described fan can limit opening.Air from fan outside can be entrainmented by described opening by the air-flow of launching from relief opening.
Described delivery pipe can also comprise the intermediate section between described input section and described output section, and described intermediate section comprises one section of flexible pipe.
Preferably, described generation device comprises two impeller chimneies, two impellers and two motors, described input section comprises three input ends, and two outlet sides of described two impeller chimneies and the outlet end of described liquid-container are connected respectively with three input ends of described input section.More preferably, described generation device comprises two impeller chimneies, two impellers and two motors, described nozzle comprises two input ends, described input section comprises three input ends, described output section comprises two output terminals, two input ends of described nozzle are connected respectively with two output terminals of described output section, and two outlet sides of described two impeller chimneies and the outlet end of described liquid-container are connected respectively with three input ends of described input section.
Above-mentionedly also be applied to equally a third aspect of the present invention about the feature of a first aspect of the present invention and the feature of second aspect.
Brief description of the drawings
Referring now to brief description of the drawings embodiments of the present invention, in the accompanying drawings.
Figure l is the front schematic view of fan of the present invention.
Fig. 2 is the front decomposition view of the fan shown in Fig. 1.
Fig. 3 is the side view of the fan shown in figure l.
Fig. 4 is the decomposition side view of the fan shown in Fig. 1.
Fig. 5 is the amplification view intercepting along A-A line of Fig. 1.
Fig. 6 is the amplification view intercepting along B-B line of Fig. 1.
Fig. 7 is the another kind of replacing structure of fan shown in Fig. 6.
Fig. 8 is the schematic diagram of the delivery pipe in Fig. 6.
Fig. 9 is the schematic diagram of the annexation of the delivery pipe in control valve and Fig. 6.
Figure 10 is the fan shown in Fig. 1 turns to forward a certain position side view at nozzle.
Figure 11 is the fan shown in Fig. 1 rotates back to a certain position side view at nozzle.
Embodiment
Figure l is that Fig. 2 is the front decomposition view of the fan shown in Fig. 1 from the schematic diagram of the fan of the present invention of device forward observation, and Fig. 2 is the side view of the fan shown in Fig. 1, and Fig. 4 is the decomposition side view of the fan shown in Fig. 1.From Fig. 1 to Fig. 4, can find out, fan 10 comprises pedestal 1 and is positioned at the nozzle 2 on pedestal 1; Pedestal 1 comprises base 13 and is positioned at the base portion 11 on base 13.Pedestal 1 has import 15, and import 15 is the form that is formed on the multiple holes on the shell 12 of pedestal, and air is inhaled in shell 12 from fan outside by import 15.
Nozzle 2 comprises the toroidal shell 5 of non-closure, two input ends 16 and 17, the inner passage 3 being limited by toroidal shell 5 and relief openings 4; Two input ends 16 and 17 of nozzle 2 stretch into respectively two circular holes 18 on the both sides, top that are positioned at pedestal 1.Pedestal 1 and nozzle 2 define opening 6 jointly.
Pedestal 1 further comprises for allowing user to operate the user interface of fan.This user interface comprises multiple buttons 7,8,9 of user-operable.
Fig. 5 has shown the structure of nozzle interior.As can see from Figure 5, the toroidal shell 5 of nozzle comprises inner shell part 65 and external casing part 66, inner shell part 65 comprises the extended surface 70 that the guiding surface 69 that guiding air flow stream is crossed and the air-flow that guiding surface 69 is guided are not flow through, inner shell part 65 and external casing part 66 define inner passage 3 jointly, in inner passage 3, be also provided with a porous slab 67, this porous slab 67 has multiple perforation 68, the noise that these perforation 68 can make air-flow pass and can decay in air-flow.Relief opening 4 is positioned near the rear portion of nozzle 2, and is set to before fan, launch air-flow by opening 6.Relief opening 4 has part extension around opening 6 conventionally, preferably around opening 6.Relief opening 4 is limited by the outer surface of inner shell the part 65 and lap of the internal surface of external casing part 66 or relative part respectively, it is the form in gap, the outlet of relief opening 4 preferably has relatively constant width, and its width is between 0.5mm to 10mm.In the present embodiment, l.2mm the width of its outlet is about.
Fig. 6 has shown the internal structure of pedestal 1, and Fig. 8 is the schematic diagram of the delivery pipe in Fig. 6.From Fig. 6 and Fig. 8, can find out, pedestal 1 comprises base 13 and base portion 11, is provided with the delivery pipe 56 that is used to form the generation device of air-flow and is delivered to nozzle 2 for the air-flow that generation device is formed in the shell 12 of base portion 11.Generation device comprises two impeller chimneies 19 and 20, be positioned at two impellers 21 and 22 and drive two motors 23 and 24 of two impeller 21,22 rotary works of two impeller chimneies 19,20.Impeller chimney 19 comprises import 27, outlet 28, inlet end 31 and outlet side 32, and impeller chimney 20 comprises import 29, outlet 30, inlet end 33 and outlet side 34; Impeller 21 is positioned at impeller chimney 19, and impeller 22 is positioned at impeller chimney 20.
Motor 23 is contained in motor casing 35.Motor casing 35 comprises left part 36 and right side part 37.The hole of the right side part 37 that is formed on motor casing 35 is passed in the rotating shaft 25 of motor 23, to allow impeller 21 to be connected in rotating shaft 25.The left part 36 of motor casing 35 also comprises multiple fixing rods 45, and motor 23 is fixing with impeller chimney 19 by multiple fixing rods 45 of motor casing 35.
Motor 24 is contained in motor casing 38.Motor casing 38 comprises left part 39 and right side part 40.The hole of the right side part 40 that is formed on motor casing 38 is passed in the rotating shaft 26 of motor 24, to allow impeller 22 to be connected in rotating shaft 26.The left part 39 of motor casing 38 also comprises multiple fixing rods 46, and motor 24 is fixing with impeller chimney 20 by multiple fixing rods 46 of motor casing 38.
In the present embodiment, impeller 21 and impeller chimney 19 are configured as in the time that impeller 21 and motor casing 35 are supported by impeller chimney 19, the blade tips of impeller 21 very approaches the internal surface of impeller chimney 19, but does not touch this internal surface, and impeller 21 is roughly coaxial with impeller chimney 19.Equally, impeller 22 and impeller chimney 20 are configured as in the time that impeller 22 and motor casing 38 are supported by impeller chimney 20, and the blade tips of impeller 22 very approaches the internal surface of impeller chimney 20, but does not touch this internal surface, and impeller 22 is roughly coaxial with impeller chimney 20.
On impeller chimney 19,20, be all provided with cable punching hole (not shown in FIG.), on a fixing rod 45 of motor casing 35 and on a fixing rod 46 of motor casing 38, be also all provided with cable punching hole (not shown in FIG.), cable punching hole on impeller chimney 19 is aimed at cable can be passed with the cable punching hole on fixing rod 45, cable punching hole on same impeller chimney 20 is aimed at cable can be passed with the cable punching hole on fixing rod 46, facilitates cable to be connected respectively to motor 23 and motor 24 from same circuit arrangement 51.In the present embodiment, motor casing 35,38, impeller chimney 19,20 and impeller 21,22 are preferably formed by plastics; Circuit arrangement 51 has two output interfaces that connect respectively for the electricity cable of motor 23,24.
Delivery pipe 56 is delivered to nozzle 2 for the air-flow that generation device is formed.Delivery pipe 56 comprises input section 47, inputs the output section 75 in section downstream and the intermediate section 48 between input section 47 and output section 75.Specifically, input section 47 is from two input ends 41,42 to one section of pipe dotted line 54; Intermediate section 48 is from dotted line 54 to one section of pipe dotted line 55; Output section 75 is one section of pipe between 55 to two output terminals 61,62 of dotted line.Input section 47 comprises the one section of three-way pipe being made up of dotted line 53,54 and 71; The input end 41 of input section 47 has import 43, and the input end 42 of input section 47 has import 44.Output section 75 is one section of three-way pipe, has formed one section of three-way pipe 74 from 55 to two output terminals 61,62 of dotted line, and two has respectively outlet 63,64 pipe 49 and just formed at intermediate portion and one section of perpendicular circular pipe communicated the three-way pipe 74 of one section of T shape.
The outlet side 32 of impeller chimney is connected with the input end 41 of input section 47, and the outlet side 34 of impeller chimney is connected with the input end 42 of input section 47, makes the input section 47 of delivery pipe 56 accept two-way air-flow and pool one air-flow; The output terminal 61 of output section 75 is rotationally connected with the input end 16 of nozzle 2, the output terminal 62 of output section 75 is rotationally connected with the input end 17 of nozzle 2, and at these two places of being rotationally connected, seal ring (not shown in FIG.) being set, two of nozzle 2 input ends 16,17 can rotate with respect to two of output section 75 output terminal 61,62 like this.
Small arrow in Fig. 6 and Fig. 8 has been shown the flow direction of air-flow in fan.In Fig. 6, can be clear that, in delivery pipe 56, be provided with fin 50,60.Fin 50 is arranged in intermediate section 48 its inwall of delivery pipe 56 to be fixed; Fin 60 is arranged in input section 47 its inwall of delivery pipe 56 to be fixed.These fins are used for guiding air-flow, are conducive to improve the transfer efficiency of air-flow.
Referring again to Fig. 1, base 13 has shell 14.This base 13 is for engaging the surface at fan place.Base portion 11 comprises user interface and circuit arrangement 51, and circuit arrangement 51 is for responding the various operations of user interface.Pedestal 1 also comprises the swing mechanism for base portion 11 is swung back and forth with respect to base 13, and this swing mechanism comprises syncmotor 52, and the operation of swing mechanism responds by circuit arrangement 51 button 9 that user presses user interface and controls.Hunting range is preferably between 60 ° and 120 °, and swing mechanism is set to 3 to 6 deflection periods of execution per minute.Extend through the hole being formed on base 13 for the main power line (not drawing) that supplies power to fan.
In the present embodiment, motor the 23, the 24th, DC Brushless Motor, the rotating speed of motor can respond user's operation knob 8 by circuit arrangement 51 and change.The maximum speed of motor 23,24 is preferably in the scope of 5000rpm to 7000rpm.
In the present embodiment, impeller chimney 20 is fixing with impeller chimney 19, and impeller chimney 19 is supported by multiple pillar 58, and the lower end of each pillar 58 is positioned in the supporting member 59 on base plate 85.Supporting member 59 is preferably formed by the material of elastically deformable.In the present embodiment, supporting member 59 is formed by natural rubber, and the quantity of pillar 58 and supporting member 59 is all 4.
The intermediate section 48 of delivery pipe 56 generally includes one section of flexible pipe, is preferably rubber pipe, is delivered to output section 75 to reduce vibrations from input section 47.Because input section 47 is connected indirectly with impeller 21,22 and motor 23,24, the vibrations of impeller and motor will pass to input section 47, and intermediate section 48 adopts one section of flexible pipe, can effective attenuation pass to and input sections 47 and the vibrations of nozzle 2 from input sections 47.
In order to operate fan, user presses the button 7 of user interface, responds this operation, and circuit arrangement 51 activates motor 23,24 with rotary blade 21,22.The rotation of impeller 21,22 makes air enter in the shell 12 of pedestal 1 by import 15.User can carry out by handling knob 8 rotating speed of governor motor 23,24, thus the speed that regulates air to enter from the import 27,29 of impeller chimney 19,20.Delivery pipe 56 receives the air-flow of exporting from the outlet 28,30 of impeller chimney 19,20, these two strands of air-flows from two impellers pool one air-flow in the input section 47 of delivery pipe 56, this strand of air-flow is sent in output section 75 after intermediate section 48 transmission, this strand of accepted air-flow is divided into two strands by output section 75, respectively from 61,62 outputs of two output terminals, because output terminal 61,62 is communicated with two input ends 16,17 of nozzle, two strands of air-flows that output section 75 is exported are sent into nozzle 2 from two input ends respectively.
In nozzle 2, air-flow divides two strands in the inner passage 3 of nozzle, to advance.The air-flow of advancing in inner passage 3 is deflated 4, mouth and launches.The air-flow of launching from relief opening 4 is through opening 6, fan part air is around entrainmented by opening 6 by the air-flow of being launched from relief opening 4 simultaneously, and the air-flow of launching from relief opening 4 like this forms with the combination of the air-flow being entrainmented the total air flow of launching forward from nozzle 2.
In Fig. 6, can also see, heating equipment 76 is arranged in the output section 75 of delivery pipe, and this heating equipment 76 can move between cavity zone 77 and cavity zone 78.In the time that heating equipment 76 is positioned at cavity zone 77, will flows through heating equipment 76 and by two output terminals, 61,62 outputs of output section 75, at this moment can effectively export the air after being heated from the air-flow of intermediate section; In the time that heating equipment 76 is positioned at cavity zone 78, there is part not flow through heating equipment 76 directly by two output terminals, 61,62 outputs of output section 75 from the air-flow of intermediate section, this kind of situation used while being applicable to not need heat outputting air, and at this moment resistance or the loss of heating equipment 76 flow air-flows obviously reduces.In the present embodiment, heating equipment 76 comprises PTC heating element, and the power of this PTC heating element is 1200W.
Fig. 7 has shown the another kind of replacing structure of fan shown in Fig. 6.As can be seen from Figure 7, the present embodiment is on the basis of Fig. 6, to have increased an evaporating plant for evaporating liquid.This evaporating plant comprises container 79, is arranged in water 80 and the vaporizer 81 of container 79.Container 79 has outlet 83 and import (not shown in FIG.), and this import can filled with water; Vaporizer 81 major parts are arranged in the input section 47 of delivery pipe 56.In the present embodiment, vaporizer 81 is wet curtain component, and the outlet end 84 of container 79 is connected with the input end 82 of input section 47.When work, water in container 79 curtain component that wet evaporates, because the wet curtain component of major part is arranged on the inwall of delivery pipe 56, will be by effective cooling when the air-flow that impeller 21 produces transmits in input section 47, the air-flow of exporting in nozzle 2 like this will be by the chilled air-flow of part.The fan of the present embodiment can increase falling thermal effect and increasing the humidity of air of wind.
Fig. 9 has shown a kind of annexation of the delivery pipe in control valve and Fig. 6.In Fig. 9, can see, the present embodiment is on the basis of Fig. 8, to have increased a control valve 72.This control valve 72 is arranged on the intermediate section 48 of delivery pipe 56, can control the throughput that flows through described delivery pipe.For the ease of operation control valve 72, fan also comprises the operating stem 73 being connected with control valve 72, is so just easily carried out the operation of control valve 72 is reached to the object of controlling output gas flow amount by operating stem 73.
Figure 10 has shown that the fan shown in Fig. 1 turns to forward the side view of a certain position at nozzle, and Figure 11 has shown that the fan shown in Fig. 1 rotates back to the side view of a certain position at nozzle.From Figure 10 and Figure 11, easily find out, nozzle 2 can rotate relative to pedestal 1.This rotation can regulate the air-out orientation of nozzle 2, and the air-out orientation of nozzle 1 is changed on vertical plane, to meet user's different demands.
Although shown and described and thought at present preferred embodiments of the invention, apparent, those skilled in the art can carry out various changes and improvements, and does not deviate from scope of the present invention as defined in appended claims.
Claims (10)
1. a fan, is characterized in that, described fan comprises nozzle, is used to form by the generation device of the air-flow of described nozzle, is delivered to the delivery pipe of described nozzle and the evaporating plant for evaporating liquid for the air-flow that described generation device is formed; Described nozzle comprise there is at least one input end of import, for receiving the inner passage of air-flow and for launching the relief opening of air-flow; Described generation device comprise have inlet end and outlet side at least one impeller chimney, be positioned at least one impeller of described impeller chimney and drive at least one motor of described vane rotary work; Described delivery pipe comprises input section and is positioned at the output section in described input section downstream; Described evaporating plant comprises for the container with import and outlet of storage of liquids and has at least part to be positioned at the vaporizer of described delivery pipe; Wherein: described input section comprises multiple input ends with import, described output section comprises at least one output terminal with outlet, the outlet side of described impeller chimney is connected respectively with multiple input ends of described input section with the outlet end of described container, and the input end of described nozzle is connected with the output terminal of described output section.
2. fan as claimed in claim 1, is characterized in that, described vaporizer comprises wet curtain component.
3. fan as claimed in claim 1, is characterized in that, described vaporizer comprises evaporation cotton.
4. fan as claimed in claim 1, is characterized in that, described fan limits opening.
5. the fan as described in one of claim 1 to 4, is characterized in that, described evaporating plant comprises and is stored in water in liquid-container.
6. the fan as described in one of claim 1 to 4, is characterized in that, described evaporating plant comprises and is stored in perfume in liquid-container.
7. the fan as described in one of claim 1 to 4, is characterized in that, described fan also comprises the control valve being connected with described delivery pipe, and described control valve is for controlling the throughput that flows through described delivery pipe.
8. the fan as described in one of claim 1 to 4, is characterized in that, described delivery pipe also comprises the intermediate section between described input section and described output section, and described intermediate section comprises one section of flexible pipe.
9. the fan as described in one of claim 1 to 4, it is characterized in that, described generation device comprises two impeller chimneies, two impellers and two motors, described input section comprises three input ends, and two outlet sides of described two impeller chimneies and the outlet end of described liquid-container are connected respectively with three input ends of described input section.
10. the fan as described in one of claim 1 to 4, it is characterized in that, described generation device comprises two impeller chimneies, two impellers and two motors, described nozzle comprises two input ends, described input section comprises three input ends, described output section comprises two output terminals, and two input ends of described nozzle are connected respectively with two output terminals of described output section, and two outlet sides of described two impeller chimneies and the outlet end of described liquid-container are connected respectively with three input ends of described input section.
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CN201310049385.6A CN103982402B (en) | 2013-02-07 | 2013-02-07 | Fan |
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CN201310049385.6A CN103982402B (en) | 2013-02-07 | 2013-02-07 | Fan |
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CN103982402A true CN103982402A (en) | 2014-08-13 |
CN103982402B CN103982402B (en) | 2017-06-06 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106729912A (en) * | 2016-12-23 | 2017-05-31 | 爱康森德(深圳)空气技术有限公司 | There is system and its method of work in a kind of many perfume atmosphere |
CN109114801A (en) * | 2018-08-03 | 2019-01-01 | 四川万豪电子科技有限公司 | Entertaining electricity fireplace with humidification function |
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CN202391826U (en) * | 2011-12-09 | 2012-08-22 | 李慧 | Bladeless electric fan |
CN202431551U (en) * | 2012-01-12 | 2012-09-12 | 唐铁君 | Multifunctional blade-free turbofan |
CN102829003A (en) * | 2012-09-10 | 2012-12-19 | 淮南矿业(集团)有限责任公司 | Pneumatic bladeless fan for mine |
CN202718904U (en) * | 2012-05-29 | 2013-02-06 | 厦门尚威电子有限公司 | Structure of multi-functional bladeless fan |
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Patent Citations (6)
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CN102011755A (en) * | 2010-12-02 | 2011-04-13 | 任文华 | Fan device without fan blade |
CN202301226U (en) * | 2011-10-30 | 2012-07-04 | 张钜标 | Bladeless fan |
CN202391826U (en) * | 2011-12-09 | 2012-08-22 | 李慧 | Bladeless electric fan |
CN202431551U (en) * | 2012-01-12 | 2012-09-12 | 唐铁君 | Multifunctional blade-free turbofan |
CN202718904U (en) * | 2012-05-29 | 2013-02-06 | 厦门尚威电子有限公司 | Structure of multi-functional bladeless fan |
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Cited By (2)
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CN106729912A (en) * | 2016-12-23 | 2017-05-31 | 爱康森德(深圳)空气技术有限公司 | There is system and its method of work in a kind of many perfume atmosphere |
CN109114801A (en) * | 2018-08-03 | 2019-01-01 | 四川万豪电子科技有限公司 | Entertaining electricity fireplace with humidification function |
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