CN221183231U - Atomizing nozzle - Google Patents

Abstract

The utility model provides an atomizing nozzle, and belongs to the field of atomizing nozzles. In particular to an anti-blocking atomizing nozzle with a multi-channel conduction inside. Comprising the following steps: the spray nozzle comprises a spray nozzle seat, a fastening cap which is in threaded connection with the spray nozzle seat, an atomization net which is arranged between the fastening cap and the spray nozzle seat, wherein the atomization net is in spherical surface arrangement, jet holes are uniformly formed in the atomization net, a rotor is arranged in the spray nozzle seat, the rotor is arranged in a rotary manner relative to the spray nozzle seat, a flow guide channel is arranged between the rotor and the spray nozzle seat, a plurality of groups of flow guide channels are arranged, the distribution of the angles is equal, a rotary rotor structure is arranged in the flow guide channel, mixing and guiding are carried out, corresponding blockage supplement is formed through multi-channel arrangement, and the anti-blocking efficiency of the spray nozzle is improved.

Description

Atomizing nozzle

Technical Field

The utility model provides an atomizing nozzle, and belongs to the field of atomizing nozzles. In particular to an anti-blocking atomizing nozzle with a multi-channel conduction inside.

Background

At present, a large number of atomizing nozzles are used in the fields of cosmetics, medicines, medical instruments and the like in the market at present, but the pressure of the conventional atomizing nozzles is mainly provided by a spring bottle, so that the problem that an atomizing effect is poor, water columns or water drops appear, the problem that spraying flushing force is insufficient and the like are common problems. The traditional atomization mechanism is that the middle core is adopted to separate and disperse water flow, atomization is formed under the action of pressure, and the problem of poor atomization effect easily occurs when the core is not compressed;

Publication number CN211801719U discloses an atomizer, including shell and inner core, the inner core is located the cavity inside of shell, the inner core is provided with feed liquor portion, play liquid portion and siphon platform, the feed liquor portion sets up to the cylinder shape, seal between the inside wall of shell and the feed liquor portion, go out liquid portion inscribed in the cylinder, there is the space between two opposite lateral walls of liquid portion and the inside wall of shell, be provided with the through-hole on two opposite lateral walls, the cavity of inner core and the space are linked together to the through-hole; the siphon platform set up for inscribing in the cylinder shape of liquid portion, the middle part of the inside wall at shell top is provided with the siphon runner, the siphon runner includes a circular runner and from two elongated runners of opposite both sides extension to the shell inside wall of circular runner, constitute the whirl chamber between the siphon runner of shell and the siphon platform of inner core, the center department at shell top has seted up the intercommunication the spout in whirl chamber, and above-mentioned structure can not carry out corresponding mediation, and can not continue to atomize after the jam.

Disclosure of utility model

The utility model provides an atomizing nozzle, which is provided with a rotor arranged in the nozzle for rotation, and the nozzle structure is atomized by fluid impact rotation. Simple structure and convenient use.

An atomizing nozzle according to the present utility model is achieved by comprising: the spray nozzle comprises a nozzle seat and a fastening cap which is in threaded connection with the nozzle seat, wherein an atomization net is arranged between the fastening cap and the nozzle seat, the atomization net is in spherical surface, jet holes are uniformly formed in the atomization net, a rotor is arranged in the nozzle seat, the rotor is arranged in a rotary manner relative to the nozzle seat, flow guide channels are arranged between the rotor and the nozzle seat, and a plurality of groups of flow guide channels are arranged and distributed at equal angles;

The utility model relates to an atomizing nozzle which is further improved in that the rotor is correspondingly attached to the side wall of a nozzle seat, the side wall of the rotor is conical, the top surface of the rotor is spherical, and the distance between the spherical surface of the top surface of the rotor and an atomizing net is increased gradually along the radial direction;

The utility model relates to an atomizing nozzle which is further improved in that a transmission hole is formed in the bottom of a rotor, a spiral impeller is arranged in a nozzle seat, a transmission shaft corresponding to the transmission hole is arranged at the top of a spiral blade, the transmission shaft and the transmission hole are arranged in a polygonal shape, and the spiral impeller is rotationally arranged in the nozzle seat;

The utility model relates to a further improvement of an atomizing nozzle, which is characterized in that a diversion channel is arranged on the outer side wall of a rotor, the diversion channel is a groove body structure reserved on the side wall of the rotor along the axial direction, and the sectional area of the groove body is reduced;

the utility model relates to an atomizing nozzle which is further improved in that the groove body is arranged along a spiral line, and a sealing gasket is arranged between the outer side wall of a rotor and a nozzle seat;

The utility model relates to an atomization nozzle which is further improved in that a guide ring is arranged in a jet hole, chamfer angles are correspondingly arranged on two sides of the guide ring, and the guide ring is detachably arranged in the jet hole.

According to the atomizing nozzle, the rotary rotor structure is arranged in the atomizing nozzle for mixing and guiding, and corresponding blockage supplement is formed through multi-channel arrangement, so that the anti-blocking efficiency of the nozzle is improved.

Drawings

Fig. 1 is a perspective view of an atomizing nozzle according to the present utility model.

Fig. 2 is a top view of an atomizing nozzle according to the present utility model.

Fig. 3 is a schematic structural view of an atomizing nozzle according to the present utility model.

Fig. 4 is a schematic view showing the structure of the spray hole of the atomizing nozzle according to the present utility model.

In the accompanying drawings:

1. a fastening cap; 2. an atomizing net; 3. a nozzle holder; 4. a rotor; 5. a helical impeller; 6. a diversion channel; 7. a transmission shaft; 8. and jet holes.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

According to the figures 1-4: an atomizing nozzle according to the present utility model is achieved by comprising: the spray nozzle comprises a nozzle seat 3 and a fastening cap 1 which is in threaded connection with the nozzle seat 3, wherein an atomization net 2 is arranged between the fastening cap 1 and the nozzle seat 3, the atomization net 2 is in spherical surface arrangement, jet holes 8 are uniformly formed in the atomization net 2, a rotor 4 is arranged in the nozzle seat 3, the rotor 4 is arranged in a rotary manner relative to the nozzle seat 3, a plurality of groups of flow guide channels 6 are arranged between the rotor 4 and the nozzle seat 3, and the flow guide channels 6 are distributed at equal angles;

In this embodiment, preferably, the side walls of the rotor 4 and the nozzle seat 3 are correspondingly attached, the side wall of the rotor 4 is a conical surface, the top surface is a spherical surface, and the distance between the spherical surface of the top surface of the rotor 4 and the atomizing net 2 increases gradually along the radial direction;

In this embodiment, preferably, a transmission hole is formed in the bottom of the rotor 4, a spiral impeller 5 is disposed in the nozzle holder 3, a transmission shaft 7 corresponding to the transmission hole is disposed at the top of the spiral blade, the transmission shaft 7 and the transmission hole are polygonal, and the spiral impeller 5 is rotatably disposed in the nozzle holder 3;

In this embodiment, preferably, the outer side wall of the rotor 4 is provided with a diversion channel 6, the diversion channel 6 is a groove body structure reserved along the axial direction of the side wall of the rotor 4, and the sectional area of the groove body is decreased progressively;

In this embodiment, preferably, the groove body is arranged along a spiral line, and a sealing gasket is arranged between the outer side wall of the rotor 4 and the nozzle seat 3;

In this embodiment, preferably, a guide ring is disposed in the jet hole 8, and two sides of the guide ring are correspondingly provided with chamfers, and the guide ring is detachably disposed in the jet hole 8;

Through arranging the corresponding spiro union of nozzle holder 3 on the pipeline, form the intercommunication, form high-speed gyration through efflux propelling movement helical impeller 5, helical impeller 5 transmission rotor 4 rotates, mix leading-in circulation, form gaseous introduction, atomize through atomizing net 2, rotor 4 that gyration set up can form the propelling movement that corresponds to nozzle holder 3, avoid efflux solidification to block up, influence the atomizing that corresponds, in addition, multiunit water conservancy diversion passageway 6 can form the replacement mediation after blocking up, avoid blocking up completely, reach the purpose that atomizes.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (6)

1. An atomizing nozzle, comprising: the novel spray nozzle comprises a nozzle seat (3) and a fastening cap (1) which is in threaded connection with the nozzle seat (3), and is characterized in that an atomization net (2) is arranged between the fastening cap (1) and the nozzle seat (3), the atomization net (2) is arranged in a spherical surface, jet holes (8) are uniformly formed in the atomization net (2), a rotor (4) is arranged in the nozzle seat (3), the rotor (4) is arranged in a rotary mode relative to the nozzle seat (3), a diversion channel (6) is arranged between the rotor (4) and the nozzle seat (3), and the diversion channels (6) are arranged in multiple groups and are distributed in equal angles.

2. An atomizing nozzle as set forth in claim 1, wherein: the rotor (4) is correspondingly attached to the side wall of the nozzle seat (3), the side wall of the rotor (4) is conical, the top surface is spherical, and the distance between the spherical surface of the top surface of the rotor (4) and the atomizing net (2) is increased gradually along the radial direction.

3. An atomizing nozzle as set forth in claim 1, wherein: the bottom of the rotor (4) is provided with a transmission hole, a spiral impeller (5) is arranged in the nozzle seat (3), a transmission shaft (7) corresponding to the transmission hole is arranged at the top of the spiral impeller, the transmission shaft (7) and the transmission hole are polygonal, and the spiral impeller (5) is rotationally arranged in the nozzle seat (3).

4. An atomizing nozzle as set forth in claim 1, wherein: the outer side wall of the rotor (4) is provided with a diversion channel (6), the diversion channel (6) is of a groove body structure reserved along the axial direction of the side wall of the rotor (4), and the sectional area of the groove body is decreased progressively.

5. An atomizing nozzle as set forth in claim 4, wherein: the groove body is arranged along the spiral line, and a sealing gasket is arranged between the outer side wall of the rotor (4) and the nozzle seat (3).

6. An atomizing nozzle as set forth in claim 1, wherein: the jet hole (8) is internally provided with a guide ring, two sides of the guide ring are correspondingly provided with chamfer angles, and the guide ring is detachably arranged in the jet hole (8).