CN107051806A - A kind of nanoscale water smoke manufacture method and equipment - Google Patents

Abstract

The present invention relates to a kind of nanoscale water smoke manufacture method and equipment, wherein, the nanoscale water smoke manufacture method comprises the following steps：The pure water heated using heater in heating chamber produces vapor；The pure water flopped using atomizing piece high frequency in spray chamber produces nanoscale water smoke；Utilize the air in electric-heating-wire-heating dry combustion method room；The air after the vapor, nanoscale water smoke and heating is mixed using blower fan and nacelle is pushed to.Nanoscale water smoke manufacturing equipment of the present invention includes heating chamber, spray chamber, dry combustion method room, nacelle, at least one atomizing piece, heater, heating wire, blower fan and appendix.The nanoscale water smoke manufacturing equipment of the present invention has the advantages that noise is low, atomization rates are fast and atomization quantity is big.

Description

A kind of nanoscale water smoke manufacture method and equipment

Technical field

Technical field is atomized the present invention relates to liquid, and in particular to a kind of nanoscale water smoke manufacture method and equipment.

Background technology

Atomizing type common at present has four classes：Electrojet atomization, pressure atomization, rotary disk atomisation and ultrasonic atomization.Its In, the atomization quantity of electrojet atomization is too small, and atomization rates are less than 0.1mL/h；Pressure atomization can bring the noise for making us uncomfortable；Turn The atomizing particle size of disk atomization is excessive, and more than 100 μm, and atomization quantity is smaller.Although also occurring some ultrasonic atomizatios in the market Device, but these ultrasonic atomizers to the water smoke of generation due to not heating, atomization quantity is small, and power consumption is big, in water smoke fortune Substantial amounts of water smoke is lost during shifting, therefore atomizing effect is poor.

The content of the invention

It is of the prior art to solve it is an object of the invention to provide a kind of nanoscale water smoke manufacture method and equipment Atomising device atomization quantity is too small, atomising device noise is big, atomization rates are low, atomizing particle size is big and the problem of big power consumption.

To achieve the above object, the technical solution adopted by the present invention is：A kind of nanoscale water smoke manufacture method is provided, it is described Nanoscale water smoke manufacture method comprises the following steps：

Step a, the pure water heated using heater in heating chamber produces vapor；

Step b, the pure water flopped using atomizing piece high frequency in spray chamber produces nanoscale water smoke；

Step c, utilizes the air in electric-heating-wire-heating dry combustion method room；

Step d, the air after the vapor, nanoscale water smoke and heating using blower fan mixed and pushed To nacelle.

It is preferred that, also include the mixed gas in the nacelle is imported into dry combustion method room by muffler after the step d Recycle.

The present invention also provides a kind of nanoscale water smoke manufacturing equipment, and the nanoscale water smoke manufacturing equipment is included equipped with pure The heating chamber of water, the spray chamber equipped with pure water, the dry combustion method room for being provided with air inlet, the nacelle for being provided with hatch door, atomizing piece, plus Hot device, heating wire, blower fan and appendix, it is characterised in that the heating chamber is connected with the spray chamber, dry combustion method room respectively, institute State nacelle to connect with the spray chamber by the appendix, the atomizing piece is arranged in the spray chamber, the atomizing piece For producing nanoscale water smoke, the heater is arranged in the heating chamber, and the heating wire is arranged in the dry combustion method room, The heating wire is used for the temperature for improving dry combustion method room air, and the blower fan is used for nanoscale water smoke, water vapour and hot-air Pushed to after mixing by appendix in the nacelle.

It is preferred that, the nacelle is folding nacelle.

It is preferred that, the nanoscale water smoke manufacturing equipment also includes muffler, and the nacelle passes through the muffler and institute State the air inlet connection of dry combustion method room.

It is preferred that, the assembling is in the dry combustion method room.

It is preferred that, the heating chamber and spray chamber are provided with for pure to the heating chamber and spray chamber addition respectively Block is provided with the filler of water, the filler.

The invention has the advantages that：

1st, the present invention produces nanoscale water smoke by atomizing piece, reduces making an uproar of being produced in the atomization plant course of work Sound.Because the nanoscale water smoke manufacturing equipment of the present invention is that nanoscale water smoke is produced by the dither of multiple atomizing pieces, Improve the atomization rates of atomization plant.In addition, the water smoke that atomizing piece is produced is nanoscale water smoke, therefore relative to rotary disk atomisation The water smoke that equipment is produced, the water smoke particle diameter that nanoscale water smoke manufacturing equipment of the present invention is produced more it is small evenly.

2nd, the present invention produces nanoscale water smoke using multiple atomizing pieces, and by the nanoscale water smoke of generation, water vapour and Hot-air is mixed to improve the temperature of nanoscale water smoke, reduces loss of the nanoscale water smoke in migration process, so as to increase The big atomization quantity of nanoscale water smoke manufacturing equipment.

Brief description of the drawings

Fig. 1 is the structural representation of nanoscale water smoke manufacturing equipment in embodiment 1.

Fig. 2 is the structural representation of nanoscale water smoke manufacturing equipment in embodiment 2.

Fig. 3 is the structural representation of nacelle.

Fig. 4 is the cross-sectional view of nacelle.

Fig. 5 is the flow chart of nanoscale water smoke manufacture method.

Embodiment

Following examples are used to illustrate the present invention, but are not limited to the scope of the present invention.

Embodiment 1

As shown in figure 1, the nanoscale water smoke manufacturing equipment includes heating chamber 1, spray chamber 2, dry combustion method room 3, nacelle 4, atomization Piece 21, heater 12, heating wire 34, blower fan 31 and appendix 32.The present invention nanoscale water smoke manufacturing equipment have noise it is low, Atomization rates are fast and the big advantage of atomization quantity.Spray chamber 2, heating chamber 1 and dry combustion method room 3 are three cabins linked together, from Left-to-right is followed successively by spray chamber 2, heating chamber 1 and dry combustion method room 3.Heating chamber 1 is connected with spray chamber 2, the top of dry combustion method room 3 respectively, cabin Body 4 is connected by appendix 32 with spray chamber 2.The bottom of dry combustion method room 3 is provided with air admission hole, and outside air can pass through air inlet Hole enters in dry combustion method room 3.Atomizing piece 21 is arranged on the bottom of spray chamber 2, in the present embodiment, three is provided with spray chamber 2 After being powered dither can occur for atomizing piece 21, atomizing piece 21, and aqueous water minor structure is broken up and produces that nature is elegant to be received Meter level water smoke.In order to be able to adjust the atomization rates of atomizing piece 21, each atomizing piece 21 is connected with a switch, every by control It is individual switch just can independent control therewith correspond to atomizing piece 21 work and closing so that reach regulation atomizing piece 21 atomization rates Purpose.Heater 12 is arranged on the bottom of heating chamber 1, by being powered to heater 12 so that the pure water in heating chamber 1 steams Send out and produce vapor.Heating wire 34 is arranged on the top of dry combustion method room 3, by being generated heat to heating wire 34, to improve dry combustion method The temperature of air in room 3.In the present embodiment, blower fan 31 is arranged on the middle part of dry combustion method room 3, and blower fan 31 is by the warm in dry combustion method room 3 Vapor in air and heating chamber 1 blows to spray chamber 2 so that air, vapor and nanoscale water smoke after heating are mixed Entered after conjunction by appendix 32 in nacelle 4, sucked for the patient in nacelle 4, certainly, blower fan 31 can also be arranged on spray chamber 2 and heating chamber 1 in.By the way that nanoscale water smoke, water vapour and hot-air are mixed, to improve the temperature of nanoscale water smoke, Reduce loss of the nanoscale water smoke in migration process, so as to increase the atomization quantity of nanoscale water smoke manufacturing equipment.

As shown in Figures 3 and 4, in order to reduce space when without using nacelle 4 shared by nacelle 4, in the present embodiment, cabin Body 4 is folding nacelle 4.Nacelle 4 includes the first plate face and the second plate face 42, and the first plate face 41 and the second plate face 42 are connected, Fold plane 43 is connected between first plate face 41 and the second plate face 42, fold plane 43 is provided with multiple fold mechanisms.When the first plate Fold plane 43 can be folded in by compression between the first plate face 41 and the second plate face 42 when the plate face 42 of face 41 and second is close to each other, So as to greatly reduce the space of the occupancy of nacelle 4.Hatch door 411 is provided with first plate face 41, user can pass in and out cabin by hatch door 411 Body 4.One end of appendix 32 is arranged in the first plate face 41, and the other end is arranged on the top of spray chamber 2, hot-air, vapor Entered after being mixed with nanoscale water smoke by appendix 32 in nacelle 4.

Further, pure water, heating chamber 1 and spray chamber 2 are added into heating chamber 1 and spray chamber 2 respectively for convenience The filler 11 for adding pure water is provided with, when lacking pure water in heating chamber 1 or spray chamber 2, need to only back out and add Block on the mouth of a river 11 adds pure water, then tightens block, and nanoscale water smoke manufacturing equipment just can be continuing with.

Further, in order to reduce the kwh loss of heating wire 34, in the present embodiment, set between nacelle 4 and dry combustion method room 3 Muffler 33 is equipped with, one end of muffler 33 is connected with nacelle 4, and the other end is connected with the air inlet of dry combustion method room 3, passes through muffler Mixed gas in nacelle 4 is imported dry combustion method room 3 by 33.Because the mixed gas temperature in nacelle 4 is higher, contain in mixed gas Substantial amounts of heat and nanoscale water smoke, is recycled, heating wire 34 by the way that the mixed gas in nacelle 4 is imported into dry combustion method room 3 Seldom electricity need to be consumed, the gas in dry combustion method room 3 just can be heated to the temperature of setting, so as to reduce the electricity of heating wire 34 Amount loss, adds the atomization quantity of nanoscale water smoke manufacturing equipment output again.

Fig. 5 shows the nanoscale water smoke manufacture method flow chart of the nanoscale water smoke manufacturing equipment shown in Fig. 1, specific bag Include following steps：

S101, the pure water heated using heater 12 in heating chamber 1 produces vapor；

Heater 12 is generated heat after being powered by the pure water heating evaporation in heating chamber 1, produces substantial amounts of vapor.

S102, the pure water flopped using the high frequency of atomizing piece 21 in spray chamber 2 produces nanoscale water smoke；

Dither can occur after being powered for three pieces of atomizing pieces 21, and atomizing piece 21 will change the liquid water molecules knot of indoor pure water Structure is broken up and produces the elegant nanoscale water smoke of nature.

S103, the air in dry combustion method room 3 is heated using heating wire 34；

Heating wire 34 is generated heat after being powered by the air heating in dry combustion method room 3 so that is burnt indoor air themperature rise and is reached The temperature of setting.Above three step can be performed simultaneously, any one step can also be first carried out, then perform other Two steps.

S104, the air after vapor, nanoscale water smoke and heating using blower fan 31 mixed and pushed to Nacelle 4；

Blower fan 31 is powered after rotation, and the vapor in air and heating chamber 1 after being heated in dry combustion method room 3 is pushed into atomization Room 2 so that the air mixing after vapor, nanoscale water smoke and heating, under the promotion of pressure, mixed gas is along defeated Tracheae 32 enters nacelle 4.

It is preferred that, in above-mentioned nanoscale water smoke manufacture method, also include passing through return-air after execution of step S104 Mixed gas in nacelle 4 is imported dry combustion method room 3 and recycled by pipe 33.Because the mixed gas temperature in nacelle 4 is higher, mixing Contain substantial amounts of heat and nanoscale water smoke in gas, re-used by the way that the air in nacelle 4 is imported into dry combustion method room 3, electric heating Silk 34 need to consume seldom electricity, the air in dry combustion method room 3 just can be heated to the temperature of setting, so as to reduce heating wire 34 Energy loss, add again spray chamber output atomization quantity.

Embodiment 2

As shown in Fig. 2 the present embodiment is based on embodiment 1, it is with the difference of embodiment 1, in the present embodiment Backwind tube is eliminated, dry combustion method room 3 is tubular structure, and one end of dry combustion method room 3 is connected with nacelle 4, and the other end is connected with heating chamber 1, Blower fan 31 and heating wire 34 are installed in dry combustion method room 3.By the way that dry combustion method room 3 is designed as into tubular structure, nanometer not only simplify The structure of level water smoke manufacturing equipment, and make that the air circulation in nacelle 4 uses it is more efficient.

Although above with general explanation and specific embodiment, the present invention is described in detail, at this On the basis of invention, it can be modified or improved, this will be apparent to those skilled in the art.Therefore, These modifications or improvements, belong to the scope of protection of present invention without departing from theon the basis of the spirit of the present invention.

Claims (7)

1. a kind of nanoscale water smoke manufacture method, it is characterised in that the nanoscale water smoke manufacture method comprises the following steps：

Step a, the pure water heated using heater in heating chamber produces vapor；

Step b, the pure water flopped using atomizing piece high frequency in spray chamber produces nanoscale water smoke；

Step c, utilizes the air in electric-heating-wire-heating dry combustion method room；

Step d, the air after the vapor, nanoscale water smoke and heating is mixed and pushed to cabin using blower fan Body.

2. nanoscale water smoke manufacture method according to claim 1, it is characterised in that also include after the step d logical Muffler is crossed to recycle the mixed gas importing dry combustion method room in the nacelle.

3. a kind of nanoscale water smoke manufacturing equipment, the nanoscale water smoke manufacturing equipment includes the heating chamber equipped with pure water, dress The spray chamber for having pure water, the dry combustion method room for being provided with air inlet, the nacelle for being provided with hatch door, at least one atomizing piece, heater, Heating wire, blower fan and appendix, it is characterised in that the heating chamber is connected with spray chamber, dry combustion method room respectively, and the nacelle passes through The appendix is connected with the spray chamber, and the atomizing piece is arranged in the spray chamber, and the atomizing piece is received for generation Meter level water smoke, the heater is arranged in the heating chamber, and the heating wire is arranged in the dry combustion method room, the heating wire Temperature for improving dry combustion method room air, the blower fan is used to pass through after mixing nanoscale water smoke, water vapour and hot-air Appendix is pushed in the nacelle.

4. nanoscale water smoke manufacturing equipment according to claim 3, it is characterised in that the nacelle is folding cabin Body.

5. the nanoscale water smoke manufacturing equipment according to claim 3 or 4, it is characterised in that the nanoscale water smoke manufacture Equipment also includes muffler, and the nacelle is connected by the muffler with the air inlet of the dry combustion method room.

6. nanoscale water smoke manufacturing equipment according to claim 3, it is characterised in that the assembling is in the dry combustion method In room.

7. nanoscale water smoke manufacturing equipment according to claim 3, it is characterised in that the heating chamber and spray chamber are all provided with It is equipped with the filler for adding pure water to the heating chamber and spray chamber respectively, the filler and is provided with block.