CN207913976U - Atomizer structure-improved - Google Patents

Abstract

The utility model provides a kind of atomizer structure-improved, including：One nozzle body and a nozzle；Wherein, the nozzle body interval be arranged a feed inlet, an air inlet, one group connect section and a jet bar；It is equipped at intervals with multiple liquid material ducts for being pierced by the group down and connecing section in the feed inlet, jet duct to its bottom end that one connects the air inlet is set inside the jet bar and forms an aperture；And the nozzle connects the group with one and connects the group interface of section, a material spray duct and its bottom end outer circumference surface with a conical ring inclined-plane；The nozzle is arranged the jet bar for housing the nozzle body with the material spray duct, make to form cricoid material spray gap between the two and be connected with the liquid material duct, the conical ring inclined-plane is equipped with multiple spray orifices, and forms space in a taper between the aperture in the jet duct and the conical ring inclined-plane；By above structure, the effect of reaching space in the taper and be detained for high viscosity fluid, and then can avoid high viscosity fluid drippage.

Description

Atomizer structure-improved

Technical field

The utility model can be detained high viscous about a kind of atomizer structure-improved, the espespecially nozzle with space in taper Fluid is spent, is avoided dripping in waiting for effect person on work article.

Background technology

Nowadays, common high viscosity fluid (such as：Butter) nozzle, as shown in Figure 1 and Figure 2, mainly by a nozzle master Body 10 and a nozzle 20 are composed, and the nozzle body 10 be separately connected an industrial lubrication butter liquid material pipeline 17 and One compressed air line 18, the nozzle body 10 are equipped at intervals with the feed inlet 11, one of the connection liquid material pipeline 17 from top to bottom 12, one groups of air inlet for connecting the compressed air line 18 connects section 13 and its center one jet bar 14 of axial diminution diameter stretching.It should Multiple liquid material ducts 15 for being pierced by the group down and connecing section 13 are equipped at intervals in feed inlet 11, which axially sets Set jet duct 16 to its bottom end aperture 161 of the connection air inlet 12.And the nozzle 20 has one to connect the nozzle body 10 groups of group interfaces 21 for connecing section 13, its center of inside axially communicate setting one material spray duct 22 and its bottom end aperture 24 down, should 24 outer circumference surface of aperture has a conical ring inclined-plane 26.The nozzle 20 is arranged with the material spray duct 22 and houses the nozzle body 10 Jet bar 14 makes to form cricoid material spray gap 25 between the two, passes through such as dotted arrow institute of jet duct 16 of the jet bar 14 Show and ejects forced air down, it is opposite that liquid material is driven to form mist via the material spray gap 25 injection down as shown by solid arrows Shape liquid material particle, in the liquid material particle atomizing distribution for waiting for work article surface or inner duct face formation fine uniform structure kenel；On but Structure is stated, has own shortcomings in fact：

1, when material spray, which acts, to be stopped, which will remain high viscosity fluid, and high viscosity fluid can be because of weight Power at this point, must just stop the operation and the high viscosity fluid manually to remove the drippage, and influences working efficiency to underflow stream.

2, the material spray duct 22 and the conical ring inclined-plane 26 of the nozzle 20 form the angle theta 1 (as shown in Figure 2) more than 90 °, And because the compressed air for making the jet channel 16 eject more than 90 angle angle thetas 1 will be unable to sticky, accumulation in conical ring The high viscosity fluid on inclined-plane 26 is atomized and injection takes away, and high viscosity fluid is accumulate to constant weight easily drippage in waiting on work article, Also it needs to stop operation and then influences working efficiency, actually industry a major problem.

In view of this, how to avoid making high viscosity fluid drippage in waiting on work article, real necessity to be improved.

Utility model content

One purpose of the utility model is that space is arranged in a taper between nozzle body and nozzle for high viscosity fluid Retention can avoid high viscosity fluid drippage in waiting for effect on work article；The utility model another object is that in the cone of nozzle Shape ring inclined-plane is equipped with spray orifice, and the conical ring inclined-plane forms 90 degree of vertical angles with spray orifice, makes to be adhered to the conical ring inclined-plane The high viscosity fluid compressed air that is easy to be ejected the effect of taking away without accumulating.

According to the above-mentioned purpose of the utility model, a kind of atomizer structure-improved is provided, including：One nozzle body and one Nozzle；Wherein, the nozzle body interval be arranged a feed inlet, an air inlet, one group connect section and a jet bar；Between in the feed inlet Every equipped with multiple liquid material ducts for being pierced by the group down and connecing section, which connects the jet duct of the air inlet An aperture is formed to its bottom end；And the nozzle connects the group with one and connects the group interface of section, a material spray duct and its bottom end outer circle Circumferential surface has a conical ring inclined-plane；The nozzle is arranged the jet bar for housing the nozzle body with the material spray duct, makes shape between the two Material spray gap circlewise is simultaneously connected with the liquid material duct；The conical ring inclined-plane is equipped with multiple spray orifices, and the jet duct Aperture and the conical ring inclined-plane between form space in a taper.

In one embodiment of the utility model, wherein the spray orifice and the conical ring scarf degree in a vertical angle.

By above structure, reaches space in the taper and be detained for high viscosity fluid, and then can avoid high viscosity fluid The effect of drippage.

Description of the drawings

Fig. 1 is the sectional view that background technology nozzle uses；

Fig. 2 is the schematic sectional view of background technology nozzle accumulation；

Fig. 3 is the stereogram exploded view of the utility model；

Fig. 4 is the combination stereogram of the utility model；

Fig. 5 is the sectional view that the utility model nozzle uses；

Fig. 6 is the schematic sectional view that the utility model nozzle is stopped using.

In figure：

(background technology)

10 nozzle body, 18 compressed air line；

11 feed inlet, 20 nozzle；

12 air inlet, 21 group interface；

13 groups connect 22 material spray duct of section；

14 jet bar, 24 aperture；

15 liquid material duct, 25 material spray gap；

16 jet duct, 26 conical ring inclined-plane；

161 aperture θ, 1 angles；

17 liquid material pipelines

(the utility model)

30 nozzle body, 40 nozzle；

31 feed inlet, 41 group interface；

32 air inlet, 411 internal screw thread；

33 groups connect 42 material spray duct of section；

331 external screw teeth, 43 conical ring inclined-plane；

34 jet bar, 44 material spray gap；

35 liquid material duct, 45 spray orifice；

Space in 36 jet duct, 46 taper；

37 aperture θ, 2 angles.

Specific implementation mode

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model can be better understood from and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

It please join Fig. 3 to Fig. 6, including：One nozzle body 30 and a nozzle 40, and the nozzle body 30 is separately connected a liquid Expects pipe road 17 and a compressed air line 18；Wherein, the nozzle body 30 interval setting one connects the charging of the liquid material pipeline 17 32, one groups of the air inlet that mouth 31, one connects the compressed air line 18 connects section 33 and its center one jet of axial diminution diameter stretching Bar 34；Multiple liquid material ducts 35 for being pierced by the group down and connecing section 33 are equipped at intervals in the feed inlet 31, in 34 inside of jet bar Centre is axial to be arranged jet duct 36 to its bottom end one aperture 37 of formation for connecting the air inlet 32；And the nozzle 40 has one to connect It connects the group and connects the group interface 41 of section 33, its center of inside and axially communicate down and a material spray duct 42 and its bottom end outer circumference surface are set With a conical ring inclined-plane 43；The nozzle 40 is arranged the jet bar 34 for housing the nozzle body 30 with the material spray duct 42, makes two Cricoid material spray gap 44 is formed between person and is connected with the liquid material duct 35；The conical ring inclined-plane 43 is equipped with multiple spray orifices 45, and space 46 in a taper is formed between the aperture 37 in the jet duct 36 and the conical ring inclined-plane 43；By above structure, The effect of reaching space 46 in the taper for high viscosity fluid to be detained, and then can avoid high viscosity fluid drippage.

The composition of above-described embodiment, effect, specification specified are as follows：Please refer to Fig. 3 to Fig. 5, the nozzle master of the utility model Body 30 and nozzle 40 can be set as the round metal body of rod, and the group of the nozzle body 30, which connects 33 periphery of section, has an external screw teeth 331, and the nozzle 40 group interface 41 is opposite to be equipped with internal screw thread 411, and the two can screw togather combined integrated with certain interlocking.When the liquid material pipeline 17 inputs For high viscosity fluid to the feed inlet 31 of the nozzle body 30, high viscosity fluid passes through the material spray gap 44 by these liquid material ducts 35 Enter in the taper afterwards and collects in space 46；This simultaneously, the compressed air line 18 input gas to the nozzle body 30 into Gas port 32, gas eject compressed air by space 46 in the taper, and by the spray orifice 45 by the jet duct 36, make entrance High viscosity fluid mixed flow in the taper in space 46 takes the spray orifice 45 out of by compressed air and forms misty particle, to wait for work object Product surface or inner duct face form the liquid material particle atomizing distributed areas of fine uniform structure kenel；When spraying operation stops, passing through The slower high viscosity fluid of relative velocity is projected by the spray orifice 44 with flow velocity fast compressed air, is made in the taper in space 46 Will not be detained has high viscosity fluid, and in other words, space 46 has room space in the taper, can make to remain on the liquid material duct Even if 35, the high viscosity fluid in material spray gap 44 is because of gravity a little overflow downwards, it can still collect, be detained in space 46 in the taper It is interior, avoid high viscosity fluid without atomization from dripping in waiting on work article.

Referring again to Fig. 6, which forms angle theta 2 with the conical ring inclined-plane 43, and angle theta 2 is right angle, makes compression Air is easy to take away the high viscosity fluid injection for adhering to, being piled up in the conical ring inclined-plane 43, makes the conical ring inclined-plane 43 without height The accumulation of viscosity fluid, reach prevent drippage the effect of.

Embodiment described above is only the preferred embodiment lifted to absolutely prove the utility model, the utility model Protection domain it is without being limited thereto.Those skilled in the art on the basis of the utility model made by equivalent substitute or change It changes, both is within the protection scope of the present invention.The scope of protection of the utility model is subject to claims.

Claims (2)

1. a kind of atomizer structure-improved, including：One nozzle body and a nozzle；Wherein, which is arranged at intervals with One feed inlet, an air inlet, one group connect section and a jet bar；It is equipped at intervals with multiple groups that are pierced by down in the feed inlet and connects section Liquid material duct, jet duct to the bottom end of jet bar which connects the air inlet form an aperture；And The nozzle has one to connect group interface and a material spray duct that the group connects section, and nozzle bottom end outer circumference surface has a conical ring oblique Face；The nozzle is arranged the jet bar for housing the nozzle body with the material spray duct, makes to be formed between nozzle and jet bar cricoid Material spray gap is simultaneously connected with the liquid material duct；It is characterized in that：The conical ring inclined-plane is equipped with multiple spray orifices, and the jet Space in a taper is formed between the aperture in duct and the conical ring inclined-plane.

2. atomizer structure-improved as described in claim 1, which is characterized in that the spray orifice forms vertical with the conical ring inclined-plane Squareness.