CN113967545B - Water outlet structure for generating shaking particle water bloom - Google Patents

Abstract

The invention discloses a water outlet structure for generating shaking particle splash, which comprises a body and a water outlet nozzle arranged on the body, wherein the water outlet nozzle is provided with a plurality of shunting side holes and a water outlet hole with a downward opening, the number of the shunting side holes is even, and every two shunting side holes are oppositely arranged; the water outlet nozzle is provided with the shunting side holes serving as the diversion holes, so that large-particle shaking pulse water splash can be realized, and the user experience and comfort are greatly improved; the water channel structure is simple, all water channels can be completed by only one part, the use and assembly processes of the part are reduced, the cost is greatly reduced, and the production efficiency is improved.

Description

Water outlet structure for generating shaking particle water bloom

Technical Field

The invention relates to the technical field of bathroom products, in particular to a water outlet structure for generating shaking particle water bloom.

Background

The traditional shower spray function enables a single particle shower spray to be generally provided with a water flow rotating structure and to be dispersed after water flows out, however, the spray flow is small, the impact force is small, and the shower range is not even, such as the middle space; and the structure is complicated, 2 to 3 parts are needed to form the rotary water channel, and the shower experience is very common.

Disclosure of Invention

The invention provides a water outlet structure for generating shaking particle water bloom to solve the problems.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a produce water structure of shake granule splash, includes a body and locates faucet on the body, faucet has a plurality of reposition of redundant personnel side openings and a downwardly opening apopore, the number of reposition of redundant personnel side opening is the even number, and all has per two the reposition of redundant personnel side opening sets up mutually.

Preferably, the apopore is loudspeaker form, the aperture of the up end of apopore is less than the aperture of the lower terminal surface of apopore.

Preferably, an angle a between the trumpet-shaped outer inclined side surface of the water outlet hole and the central axis of the water outlet hole is set within a range of 5-25 degrees.

Preferably, the body is provided with a cavity with an upward opening and a water outlet which is arranged on the lower end face of the cavity and runs through the cavity, the upper cover of the upper opening is provided with a joint, and the water outlet is provided with the water outlet nozzle.

Preferably, the joint is provided with a water inlet, one end of the water inlet, which is far away from the upper end face of the joint, is provided with a flow blocking ring, and a plurality of water passing ports are annularly formed in the flow blocking ring.

Preferably, the side diversion holes are in a door-shaped structure.

Preferably, the water passing area of each shunt side hole is set to 3 mm-10 mm.

Preferably, a flow guide claw is arranged between every two shunting side holes, and the number of the flow guide claws is consistent with that of the shunting side holes.

Preferably, the height H of the flow guide claw is set to be within the range of 3 mm-10mm.

Preferably, the flow blocking ring extends towards one end of the water outlet nozzle and is provided with a water blocking piece.

The invention has the beneficial effects that:

1) The water outlet nozzle is provided with the shunting side hole serving as the flow guide hole, so that large-particle shaking pulse spray can be realized, and the user experience and comfort are greatly improved; the water channel structure is simple, all water channels can be completed by only one part, the use and assembly processes of the part are reduced, the cost is greatly reduced, and the production efficiency is improved.

2) And through setting even number of opposite flushing water flows, the water flow states of strong and weak are formed, so that the form of the outlet water spray is shaken or deflected, and large-particle shaking pulse water sprays are formed.

3) Through setting up 4 at least reposition of redundant personnel side openings, form a plurality of compound angles offset rivers, make whole be coniform shake effect to further collision offset produces the drop of water split and splashes, promotes the granular sensation.

4) The divergent range of the spray is regulated by arranging the horn-shaped water outlet hole, and a comfortable shower range is provided for a user.

5) Through setting up the fender water spare in order to avoid rivers directly to wash into the apopore to the height that sets up water conservancy diversion claw is enough long, too concentrated and scattered not to open in order to avoid the splash.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not limit the invention. In the drawings:

FIG. 1 is a block diagram of an effluent structure for generating a shaky particle bloom in accordance with the present invention.

Fig. 2 is an exploded view of an effluent structure of the present invention that produces a dithered particle bloom.

FIG. 3 is an isometric view of an effluent structure of the present invention that produces a shaky particle bloom.

Fig. 4 is a bottom view of a water outlet structure for generating a shaking particle water bloom according to the invention.

Fig. 5 is a first cross-sectional view of a water outlet structure for generating a shaky particle splash according to the present invention.

Fig. 6 is a second cross-sectional view of a water outlet structure for generating a shaking particle water bloom according to the present invention.

Fig. 7 is a first water passing schematic diagram of a water outlet structure for generating shaking particle water bloom according to the invention.

Fig. 8 is a second water discharge diagram of the water discharge structure for generating the shaking particle water bloom according to the invention.

FIG. 9 is a block diagram of another embodiment of a water outlet structure for generating shaky particle splash in accordance with the present invention.

FIG. 10 is an isometric view of a faucet of another embodiment of a water outlet configuration of the present invention that produces a shaky particle bloom.

Reference numbers in the figures:

1. a body; 11. a water outlet; 12. locking holes;

2. a water outlet nozzle; 21. a side shunt hole; 211. a first shunt side aperture; 212. a second side shunt aperture; 213. a third side shunt opening; 214. a fourth side shunt hole; 22. a water outlet hole; 23. a flow guide claw;

3. a joint; 31. a water inlet; 32. water passing holes; 33. a water blocking member;

4. a locking piece;

5. and a seal.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 6, a water outlet structure for generating a shaking particle splash according to a preferred embodiment of the present invention includes a body 1, the body 1 has a cavity opened upward and a water outlet 11 disposed on a lower end surface of the cavity and penetrating through the cavity, a connector 3 is disposed on an upper cover of the upper opening, the connector 3 has a water inlet 31, and a water outlet nozzle 2 is disposed on the water outlet 11, so that water flows into the cavity from the water inlet 31 and flows out from the water outlet nozzle 2 for a user to use.

The upper end face of the body 1 is provided with a plurality of locking holes 12, the end face of the joint 3 is provided with through holes corresponding to the locking holes 12, and the joint 3 is covered on the containing cavity and fixedly connected with the locking holes 12 through the through holes which are penetrated by the locking pieces 4. In this embodiment, the locking hole 12 is provided with a thread, and the locking member 4 is a fastener such as a screw, or a bolt. The outer side wall of one end, close to the body 1, of the joint 3 is sleeved with a sealing element 5, and the sealing element 5 and the side wall of the containing cavity are arranged in a sealing mode. One end of the water inlet 31, which is far away from the upper end face of the joint 3, is provided with a flow blocking ring, and a plurality of water passing holes 32 are annularly formed in the flow blocking ring.

The water outlet nozzle 2 is provided with a plurality of flow distribution side holes 21 and a water outlet hole 22 with a downward opening, the number of the flow distribution side holes 21 is even, and every two flow distribution side holes 21 are oppositely arranged; apopore 22 be the loudspeaker form, just the aperture of the up end of apopore 22 is less than the aperture of the lower terminal surface of apopore 22, in order to follow rivers 22 scattering is gone out.

The angle a between the horn-shaped outer inclined side surface of the water outlet hole 22 and the central axis of the water outlet hole 22 is set to be within the range of 5-25 degrees, so that the spray range at a position 500mm away from the lower end surface of the water outlet nozzle 2 is within the range of 100mm-450mm, and the spray divergence range required by a user can be met. Preferably, an angle a between the trumpet-shaped outer inclined side surface of the water outlet hole 22 and a central axis of the water outlet hole 22 is set to be within a range of 7 degrees to 20 degrees, so that a spray range 500mm away from the lower end surface of the water outlet nozzle 2 is set to be between 150mm to 350mm, and a spray divergence range required by a user is more accurately defined. In this embodiment, the angle a between the outer inclined side surface of the trumpet shape of the water outlet hole 22 and the central axis of the water outlet hole 22 is set to 11 °, so that the spray range 500mm away from the lower end surface of the water outlet nozzle 2 is 200mm, which defines the divergence range of the spray.

The shunt side hole 21 is of a door-shaped structure. In this embodiment, the number of the branch side holes 21 is four, and under the impact of irregular water flow, the water flow may sometimes form local high pressure, so the pressure of the four branch side holes 21 may be neglected; the two branch side holes 21 that are opposite to each other are in a strong state and a weak state, and thus the water flowing out from the branch side holes 21 toward the outlet 22 is shaken or swung. The reposition of redundant personnel side opening 21 sets up respectively to first reposition of redundant personnel side opening 211, with the second reposition of redundant personnel side opening 212 that first reposition of redundant personnel side opening 211 set up relatively, locate first reposition of redundant personnel side opening 211 with third reposition of redundant personnel side opening 213 between the second reposition of redundant personnel side opening 212 and with the fourth reposition of redundant personnel side opening 214 that third reposition of redundant personnel side opening 213 set up relatively.

The water passing area of each shunting side hole 21 is set to 3 mm-10 mm, so that water flow can pass through in a large area. Preferably, the water passing area of each shunt side hole 21 is set to 5 mm-7.8 mm, so that the throughput of water flow satisfies the user's requirement. In the present embodiment, the water passing area of each branch side hole 21 is set at 6.6mm, so that a sufficiently large amount of water flow is allowed to pass through to mutually impact to form a shaken particle spray.

In another embodiment, as shown in fig. 9 and 10, a flow guide claw 23 is arranged between every two flow distribution side holes 21, and the number of the flow guide claws 23 is even, so that the counter-impact effect is better formed. The height of the flow guide claw 23 is long enough, and the height H of the flow guide claw 23 is set within the range of 3 mm-10mm, so that water splash can be prevented from being concentrated too much and being scattered. Preferably, the height H of the diversion claw 23 is set within the range of 4mm to 7.5mm. In this embodiment, the height H of the flow guiding claw 23 is set to be 5mm, so as to ensure that the height of the flow guiding claw 23 can prevent water splash from being concentrated too much and scattering, and prevent the size of a part from being too long and increasing the difficulty of injection molding manufacture. The flow blocking ring extends towards one end of the water outlet nozzle 2 to form a water blocking member 33, and the water blocking member 33 prevents water from flowing into the water outlet 11 directly and does not flow into the water splitting side hole 21. Other structures are the same as the previous embodiment, and are not described herein.

The working principle of the invention is briefly described as follows:

referring to fig. 7 and 8, when water enters from the water inlet 31, the water flows through the water passing port 32 and enters the branch side hole 21. When local high pressure appears during first reposition of redundant personnel side opening 211, first reposition of redundant personnel side opening 211 department intakes in a large number, second reposition of redundant personnel side opening 212 inflow reduces, and main rivers are driven towards second reposition of redundant personnel side opening 212 direction beat, this moment first reposition of redundant personnel side opening 211 pressure release, second reposition of redundant personnel side opening 212 receives the extrusion back pressure to improve, drives main rivers toward first reposition of redundant personnel side opening 211 direction beat, a massage effect is accomplished to a stroke, and this process circulation is endless. Simultaneously, first reposition of redundant personnel lateral orifice 211 with the mode of intaking in second reposition of redundant personnel lateral orifice 212 also takes place third reposition of redundant personnel lateral orifice 213 with between the fourth reposition of redundant personnel lateral orifice 214, lead to rivers to produce the compound angle of not uniform size again, whole play water then is coniform shake effect. Furthermore, the collision offset generates water drops to be split and splashed, and the granular sensation is improved.

According to the invention, the water outlet nozzle 2 is provided with the shunt side hole 21 serving as a flow guide hole, so that large-particle shaking pulse splash can be realized, and the user experience and comfort are greatly improved; the structure is simple, all water channels can be completed by only one part, the use and assembly processes of the parts are reduced, the cost is greatly reduced, and the production efficiency is improved; the water flow state of strong and weak is formed by setting even number of opposite flushing water flows, so that the form of the outlet water spray is shaken or deflected, and large-particle shaking pulse water sprays are formed; by arranging at least 4 shunting side holes 21, a plurality of compound angle hedging water flows are formed, so that the whole body has a conical shaking effect, water drops are split and splashed due to further collision hedging, and the granular sensation is improved; the divergent range of the spray is regulated by arranging the trumpet-shaped water outlet hole 22, so that a comfortable shower range is provided for a user; the water deflector 33 is arranged to prevent water from directly rushing into the water outlet hole 22, and the height of the flow guiding claw 23 is set to be long enough to prevent water from being concentrated too much and scattering.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A water outlet structure for generating shaking particle spray comprises a body and a water outlet nozzle arranged on the body, and is characterized in that the water outlet nozzle is provided with a plurality of shunting side holes and a water outlet hole with a downward opening, the number of the shunting side holes is even, every two shunting side holes are oppositely arranged to form opposite water flow, and the water flow flows to the water outlet hole from the shunting side holes; the apopore is loudspeaker form, the aperture of the up end of apopore is less than the aperture of the lower terminal surface of apopore, the body has an open-ended appearance chamber and locates terminal surface just link up under the appearance chamber the delivery port that holds the chamber, set up on the delivery port faucet, the apopore passes through the reposition of redundant personnel side opening with hold the chamber and be linked together.

2. The water outlet structure for generating the jittered granular splash according to claim 1, wherein an angle a between a trumpet-shaped outer inclined side surface of the water outlet hole and a central axis of the water outlet hole is set within a range of 5 ° to 25 °.

3. The water outlet structure for generating shaky particle splash as recited in claim 1, wherein said receptacle is upwardly open to form an upper opening, said upper opening being covered by a connector.

4. A water outlet structure for generating shaking particle water bloom as claimed in claim 3, wherein the joint is provided with a water inlet, a flow blocking ring is arranged at one end of the water inlet far from the upper end face of the joint, and a plurality of water passing openings are annularly formed on the flow blocking ring.

5. The water outlet structure for generating shaking particle water bloom of claim 4, wherein the side diversion holes are in a door-like structure.

6. A water outlet structure for generating shaky particle splash according to claim 5, wherein the water passing area of each side shunting hole is provided in 3 mm-10 mm.

7. The water outlet structure for generating the shaking particle water bloom as claimed in claim 4, wherein a flow guiding claw is arranged between every two of the flow dividing side holes, and the number of the flow guiding claws is consistent with that of the flow dividing side holes.

8. The water outlet structure for generating the jittered granular splash as claimed in claim 7, wherein the height H of the flow guide claw is set within a range of 3mm to 10 mm.

9. A water outlet structure for generating shaky particle splash as recited in claim 8, wherein said baffle ring is provided with a water baffle extending towards one end of said nozzle.

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