CN204816979U - Negative oxygen ion nanometer fog core and generator - Google Patents

Abstract

The utility model discloses a negative oxygen ion nanometer fog core and generator, wherein the core is including nanometer spray painting head group and inlet tube, nanometer spray painting head group and inlet tube intercommunication, its characterized in that: still including driving motor, motor shaft and set up the blading on motor shaft. The utility model discloses a set up high -speed rotatory blading at the core, the rivers that produce nanometer spray painting head group further assault and the centrifugation, for only producing the nanometer fog more abundant, that the granule volume is littleer and more negative oxygen ions with nanometer spray painting head group among the prior art, need not to improve the manufacture craft level that nanometer spray painting head was organized, have lowered the cost relatively, and combine the core structure to set up fuselage inner structure for the exhaust effect of negative oxygen ion nanometer fog is better. The utility model relates to a but a negative oxygen ion nanometer fog core and generator wide application in nanometer water field, negative oxygen ion field.

Description

A kind of negative oxygen ion nanometer mist movement and generator

Technical field

The utility model relates to nanometer water field and negative oxygen ion field, especially a kind of negative oxygen ion nanometer mist movement and generator.

Background technology

Nanometer water negative oxygen ion is rich in nanometer water, and compared to the air ion that traditional anion generator generates, the maximum difference of nanometer water negative oxygen ion is the negative oxygen ion water particulate formed by water, and water content will have more 1000 times by contrast, so more moisturizing more water profit; Common anion is owing to being air ion, easily and nitrogen and oxygen have an effect, will disappear after several seconds after generation, nanometer water negative oxygen ion is water particulate composition, the time existed in atmosphere is 6 times of general anion, under the help of air circulation system, the scope of covering is larger, and this just guarantees that nanometer water negative oxygen ion can tell in home environment on a large scale; Meanwhile, the volume of nanometer water negative oxygen ion is very little, and diameter only has 5-20nm, compared with the water droplet of diameter in 6000nm steam, can go deep into the inside of fiber easily; Nanometer water negative oxygen ion contains hydroxy (OH-) ion, and pH value is about 5, and in faintly acid, the pH value of the skin hair of this and people is close, more has affinity than common water; Nanometer water ion unit can produce 4,800 hundred million nanometer water ions each second, fully can meet the needs of human body 13,000,000,000 anions every day, because the hydrogen (H) in the bacterium touched can be extracted out by its hydroxy comprised (OH-), therefore nanometer water ion can suppress and remove a lot of bacterium, virus and anaphylactogen.Exactly because nanoe nanometer water ion has these original characteristics, it can be applied on various household electrical appliance widely, for promoting the quality of the life of people and healthyly contributing.

Nanometer water machine subject matter is in the market: 1, crush efficiency is low, namely generates nanometer water diameter lower in the ratio of 5-20nm; 2, the generation of nanometer water depends on design and the quality of nanometer water shower nozzle, requires very high to manufacture craft, and therefore cost remains high.

Utility model content

In order to solve the problems of the technologies described above, the purpose of this utility model is: provide that a kind of crush efficiency is high, technological requirement is low, the simple a kind of negative oxygen ion nanometer mist movement of structure.

In order to solve the problems of the technologies described above, another object of the present utility model is: provide that a kind of crush efficiency is high, technological requirement is low, the simple a kind of negative oxygen ion nanometer fog generator of structure.

The technical scheme that the utility model adopts is: a kind of negative oxygen ion nanometer mist movement, include nanometer spray painting head group and water inlet pipe, described nanometer spray painting head group is communicated with water inlet pipe, the vane group also including drive motors, machine shaft and be arranged on machine shaft.

Further, the shower nozzle of described nanometer spray painting head group is just to machine shaft.

Further, described vane group includes multiple blade, and described multiple blade shroud to be centrosymmetric distribution around machine shaft.

Further, described multiple blade is provided with through hole and/or projection.

Another technical scheme that the utility model adopts is: a kind of negative oxygen ion nanometer fog generator applying above-mentioned negative oxygen ion nanometer mist movement, also include fuselage, described fuselage includes negative oxygen ion nanometer mist and generates room, inlet channel and anti-water cavity, described drive motors is arranged in anti-water cavity, described machine shaft, vane group, water inlet pipe and nanometer spray painting head group are arranged at negative oxygen ion nanometer mist and generate indoor, described inlet channel is generated room with negative oxygen ion nanometer mist and is communicated with by gas entry outlet, described gas entry outlet is arranged at the upside that negative oxygen ion nanometer mist generates room, described negative oxygen ion nanometer mist generates above room and is provided with negative oxygen ion nanometer mist outlet, described negative oxygen ion nanometer mist generates below room and is provided with discharge outlet.

Further, described negative oxygen ion nanometer mist generates indoor and is also provided with the first plate washer, described first plate washer is arranged between negative oxygen ion nanometer mist movement and gas entry outlet, formed between the inwall that described first plate washer and negative oxygen ion nanometer mist generate room and receive negative oxygen ion nanometer mist and generate the gas inlet pathways of chamber interior, the outlet of described gas inlet pathways is positioned at the bottom that negative oxygen ion nanometer mist generates room.

Further, described negative oxygen ion nanometer mist generates indoor and is provided with the second plate washer, and described second plate washer is arranged between negative oxygen ion nanometer mist movement and nanometer mist outlet.

Further, described negative oxygen ion nanometer mist generates indoor and is also provided with water heating tube and cooling-water temperature sensor.

Further, described negative oxygen ion nanometer mist generates indoor and is also provided with high-order level sensor and low level water level sensor.

Further, air heating pipe and air temperature sensor is also provided with in described inlet channel.

The beneficial effects of the utility model are: the utility model is by arranging the vane group of High Rotation Speed at movement, the current that nanometer spray painting head group produces are carried out impact and centrifugal further, discharge a large amount of negative oxygen ion nanometer mist, only the nanometer mist more abundant, particle volume is less and more negative oxygen ion can be produced by nanometer spray painting head group relative in prior art, without the need to improving the manufacture craft level of nanometer spray painting head group, relatively reduce cost.

Another beneficial effect of the present utility model is: the utility model is by arranging the vane group of High Rotation Speed at movement, the current that nanometer spray painting head group produces are carried out impact and centrifugal further, discharge a large amount of negative oxygen ion nanometer mist, only the nanometer mist more abundant, particle volume is less and more negative oxygen ion can be produced by nanometer spray painting head group relative in prior art, without the need to improving the manufacture craft level of nanometer spray painting head group, relatively reduce cost; And fuselage interior structure is set in conjunction with cassette mechanism structure, make the better effects if of the discharge of nanometer mist and negative oxygen ion.

Accompanying drawing explanation

Fig. 1 is the utility model first specific embodiment concrete structure front view;

Fig. 2 is core section structure top view in the utility model first specific embodiment;

Fig. 3 is the cross sectional representation of movement Leaf group a in the utility model first specific embodiment;

Fig. 4 is the cross sectional representation of movement Leaf group b in the utility model first specific embodiment;

Fig. 5 is the utility model second specific embodiment concrete structure front view;

Fig. 6 is the cross sectional representation of movement Leaf group a in the utility model second specific embodiment;

Fig. 7 is the cross sectional representation of movement Leaf group b in the utility model second specific embodiment.

Wherein: 1, negative oxygen ion nanometer mist generates room; 2, inlet channel; 3, anti-water cavity; 4, drive motors; 5, machine shaft; 6, vane group; 7, water inlet pipe; 8, nanometer spray painting head group; 9, water inlet; 10, negative oxygen ion nanometer mist outlet; 11, air inlet; 12, the first plate washer; 13, the second plate washer; 14, gas entry outlet; 15, discharge outlet; 16, filler; 17, cooling-water temperature sensor; 18, water heating tube; 19, low level water level sensor; 20, high-order level sensor; 21, air temperature sensor; 22, air heating pipe; 23, inlet channel discharge outlet.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further:

With reference to Fig. 1 and Fig. 5, a kind of negative oxygen ion nanometer mist movement, includes nanometer spray painting head group 8 and water inlet pipe 7, and described nanometer spray painting head group 8 is communicated with water inlet pipe 7, the vane group 6 also including drive motors 4, machine shaft 5 and be arranged on machine shaft 5.

Movement utilizes water pump to be supplied water by water inlet 9, produce nanometer mist by the shower nozzle of nanometer spray painting head group 8 and carry out high speed impact and centrifugal by vane group 6 pairs of current of high-speed rotation, producing further more fully, nanometer mist that particle volume is less and more negative oxygen ion.

Be further used as preferred embodiment, the shower nozzle of described nanometer spray painting head group 8 is just to machine shaft 5.

The particular location of shower nozzle is positioned at above water accumulation level.As shown in Figure 2, shower nozzle is horizontally distributed in the both sides of machine shaft 5; In addition, also can arrange shower nozzle in the upside of machine shaft 5, because there is ponding the downside of machine shaft 5, need through heating and recycled by water pump by discharge outlet 15, therefore the lower position of machine shaft 5 is not suitable for arranging shower nozzle.

Be further used as preferred embodiment, described vane group 6 includes multiple blade, and described multiple blade shroud to be centrosymmetric distribution around machine shaft 5.

Described multiple blade can surround a closed cavity (as shown in Figure 3) or the cavity (as shown in Figure 4) with multiple space.

Be further used as preferred embodiment, described multiple blade is provided with through hole and/or projection, the nanospray effect of current is strengthened further.

Being further used as preferred embodiment, arranging protruding for strengthening the generation of nanospray effect and negative oxygen ion simultaneously on machine shaft 5.

With reference to Fig. 1 and Fig. 5, a kind of negative oxygen ion nanometer fog generator applying above-mentioned negative oxygen ion nanometer mist movement, also include fuselage, described fuselage includes negative oxygen ion nanometer mist and generates room 1, inlet channel 2 and anti-water cavity 3, described drive motors 4 is arranged in anti-water cavity 3, described machine shaft 5, vane group 6, water inlet pipe 7 and nanometer spray painting head group 8 are arranged at negative oxygen ion nanometer mist and generate in room 1, described inlet channel 2 is generated room 1 with negative oxygen ion nanometer mist and is communicated with by gas entry outlet 14, described gas entry outlet 14 is arranged at the upside that negative oxygen ion nanometer mist generates room 1, described negative oxygen ion nanometer mist generates above room 1 and is provided with negative oxygen ion nanometer mist outlet 10, described negative oxygen ion nanometer mist generates below room 1 and is provided with discharge outlet 15.

Fuselage is divided into negative oxygen ion nanometer mist to generate room 1, inlet channel 2 and anti-water cavity 3, wherein gas entry outlet 14 is arranged at the upside that negative oxygen ion nanometer mist generates room 1, the ponding avoiding negative oxygen ion nanometer mist to generate bottom, room 1 flows into inlet channel 2, plays a protective role to the air pump of inlet channel 2 air feed; Discharge outlet 15 recyclable negative oxygen ion nanometer mist generates ponding below room 1, then is recycled by water pump.

Be further used as preferred embodiment, described negative oxygen ion nanometer mist generates in room 1 and is also provided with the first plate washer 12, described first plate washer 12 is arranged between negative oxygen ion nanometer mist movement and gas entry outlet 14, formed between the inwall that described first plate washer 12 and negative oxygen ion nanometer mist generate room 1 and receive negative oxygen ion nanometer mist and generate the gas inlet pathways of inside, room 1, the outlet of described gas inlet pathways is positioned at the bottom that negative oxygen ion nanometer mist generates room 1.

Wherein the circulating direction of gas generates the outlet of the gas inlet pathways in room 1 from air inlet 11 to negative oxygen ion nanometer mist, as shown by the arrows in Figure 1.Described first plate washer 12 can be set to three baffle edges and be connected with the inwall that negative oxygen ion nanometer mist generates room 1, namely only there is the outlet of gas inlet pathways in bottom, more efficiently avoid moisture and enter inlet channel 2 and air pump; In addition, the utility model is also by arranging inlet channel discharge outlet 23 for discharging the moisture in inlet channel 2 in the bottom of inlet channel 2.

Be further used as preferred embodiment, described negative oxygen ion nanometer mist generates in room 1 and is provided with the second plate washer 13, and described second plate washer 13 is arranged at negative oxygen ion nanometer mist movement and negative oxygen ion nanometer mist generates between room outlet 10.

Described second plate washer 13 generates room outlet 10 for preventing current from directly sputtering negative oxygen ion nanometer mist, second plate washer 13 can be set to only have a baffle edge to generate being fixedly connected with of room 1 with negative oxygen ion nanometer mist, there is certain distance in the inwall that namely other three baffle edges and negative oxygen ion nanometer mist generate room 1, ensures enough air flow rates and take negative oxygen ion nanometer mist out of and generate the negative oxygen ion nanometer mist generated in room 1 while preventing current from splashing.

Be further used as preferred embodiment, the lower surface of described second plate washer 13 is provided with projection.

Be further used as preferred embodiment, for the embodiment that machine shaft 5 is vertically arranged, wherein the second plate washer 13 also can adopt the fixed form be connected with machine shaft 5, as shown in Figure 5.

Be further used as preferred embodiment, described negative oxygen ion nanometer mist generates in room 1 and is also provided with water heating tube 18 and cooling-water temperature sensor 17.

Be further used as preferred embodiment, described negative oxygen ion nanometer mist generates in room 1 and is also provided with high-order level sensor 20 and low level water level sensor 19.

With reference to Fig. 5, then close filler 16 when high-order level sensor 20 detects ponding, then open filler 16 when low level water level sensor 19 does not detect ponding.

Be further used as preferred embodiment, in described inlet channel 2, be also provided with air heating pipe 22 and air temperature sensor 21.

With reference to Fig. 5, as the utility model second specific embodiment, its operation principle is identical with the first specific embodiment, and wherein machine shaft 5 is vertical placement, drive motors 4 is arranged at fuselage bottom, and the shower nozzle particular location of nanometer spray painting head group 8 is positioned at above water accumulation level; As shown in Figure 6, shower nozzle is distributed in machine shaft 5 around; In addition, also can multilayer shower nozzle be set above water accumulation level.Multiple blades of described vane group 6 can surround a closed cavity (as shown in Figure 6) or the cavity (as shown in Figure 7) with multiple space.

More than that better enforcement of the present utility model is illustrated, but the utility model is created and is not limited to described embodiment, those of ordinary skill in the art can also make all equivalents or replacement under the prerequisite without prejudice to the utility model spirit, and these equivalent distortion or replacement are all included in the application's claim limited range.

Claims (10)

1. a negative oxygen ion nanometer mist movement, include nanometer spray painting head group (8) and water inlet pipe (7), described nanometer spray painting head group (8) is communicated with water inlet pipe (7), it is characterized in that: the vane group (6) also including drive motors (4), machine shaft (5) and be arranged on machine shaft (5).

2. negative oxygen ion nanometer mist movement according to claim 1, is characterized in that: the shower nozzle of described nanometer spray painting head group (8) is just to machine shaft (5).

3. negative oxygen ion nanometer mist movement according to claim 1, is characterized in that: described vane group (6) includes multiple blade, and described multiple blade shroud to be centrosymmetric distribution around machine shaft (5).

4. negative oxygen ion nanometer mist movement according to claim 3, is characterized in that: described multiple blade is provided with through hole and/or projection.

5. an application rights requires the negative oxygen ion nanometer fog generator of negative oxygen ion nanometer mist movement described in arbitrary claim in 1-4, it is characterized in that: also include fuselage, described fuselage includes negative oxygen ion nanometer mist and generates room (1), inlet channel (2) and anti-water cavity (3), described drive motors (4) is arranged in anti-water cavity (3), described machine shaft (5), vane group (6), water inlet pipe (7) and nanometer spray painting head group (8) are arranged at negative oxygen ion nanometer mist and generate in room (1), described inlet channel (2) and negative oxygen ion nanometer mist are generated room (1) and are communicated with by gas entry outlet (14), described gas entry outlet (14) is arranged at the upside that negative oxygen ion nanometer mist generates room (1), described negative oxygen ion nanometer mist generates top, room (1) and is provided with negative oxygen ion nanometer mist outlet (10), described negative oxygen ion nanometer mist generates below, room (1) and is provided with discharge outlet (15).

6. negative oxygen ion nanometer fog generator according to claim 5, it is characterized in that: described negative oxygen ion nanometer mist generates in room (1) and is also provided with the first plate washer (12), described first plate washer (12) is arranged between negative oxygen ion nanometer mist movement and gas entry outlet (14), formed between the inwall that described first plate washer (12) and negative oxygen ion nanometer mist generate room (1) and receive negative oxygen ion nanometer mist and generate the inner gas inlet pathways in room (1), the outlet of described gas inlet pathways is positioned at the bottom that negative oxygen ion nanometer mist generates room (1).

7. negative oxygen ion nanometer fog generator according to claim 5, it is characterized in that: described negative oxygen ion nanometer mist generates in room (1) and is provided with the second plate washer (13), and described second plate washer (13) is arranged between negative oxygen ion nanometer mist movement and nanometer mist outlet (10).

8. negative oxygen ion nanometer fog generator according to claim 5, is characterized in that: described negative oxygen ion nanometer mist generates in room (1) and is also provided with water heating tube (18) and cooling-water temperature sensor (17).

9. negative oxygen ion nanometer fog generator according to claim 5, is characterized in that: described negative oxygen ion nanometer mist generates in room (1) and is also provided with high-order level sensor (20) and low level water level sensor (19).

10. negative oxygen ion nanometer fog generator according to claim 5, is characterized in that: be also provided with air heating pipe (22) and air temperature sensor (21) in described inlet channel (2).