CN114653493A - Rotary water outlet structure - Google Patents

Abstract

The invention discloses a rotary water outlet structure, which comprises: the body is provided with an inclined water inlet channel, a water inlet cavity and a water outlet cavity which are sequentially communicated; the water outlet panel is movably arranged on the body and provided with a plurality of water outlet holes arranged along the periphery; the impeller is rotationally arranged in the water inlet cavity and can rotate under the action of the inclined water inlet channel; the transmission component is movably arranged in the water inlet cavity and is respectively in transmission fit with the impeller and the water outlet panel; the water outlet cavity is internally provided with a containing part, and the water retaining ball is arranged in the containing part of the water outlet cavity; when intaking, the impeller is rotatory under the effect of the passageway of intaking to one side, the impeller passes through drive assembly and drives out the water panel and rotate, and then the manger plate ball shutoff apopore in proper order, this scheme drives impeller rotation through intaking to one side, the impeller drives out the water panel through drive assembly and rotates, thereby realize that the manger plate ball shelters from each apopore in proper order, form the splash effect similar with special forest machine gun, when realizing the water conservation, can promote user's use and experience.

Description

Rotary water outlet structure

Technical Field

The invention relates to the field of bathrooms, in particular to a rotary water outlet structure.

Background

With the increasing shortage of global water resources, water-saving and environment-friendly products gradually become the mainstream trend of consumption. Various types of water-saving products appear in the market, the flow is reduced mainly by adding a flow restrictor at a water inlet end, but the flow is reduced without changing the number of water outlets, so that the shower effect is poor due to weak water spray; if the flow is reduced, the number of the water outlet holes is reduced, and the coverage area is small and the water spray is sparse.

Disclosure of Invention

The invention provides a rotary water outlet structure, which drives an impeller to rotate through oblique water inlet and drives a water outlet panel to rotate through a transmission assembly, so that a water blocking ball sequentially blocks each water outlet hole, a spray effect similar to a gatling machine gun is formed, water is saved, and the use experience of a user can be improved.

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

a rotating water outlet structure comprising:

the body is provided with an inclined water inlet channel, a water inlet cavity and a water outlet cavity which are sequentially communicated;

the water outlet panel is movably arranged on the body and provided with a plurality of water outlet holes arranged along the periphery;

the impeller is rotationally arranged in the water inlet cavity and can rotate under the action of the inclined water inlet channel;

the transmission assembly is movably arranged in the water inlet cavity and is in transmission fit with the impeller and the water outlet panel respectively;

the water outlet cavity is internally provided with a containing part, and the water retaining ball is arranged in the containing part of the water outlet cavity;

when water enters, the impeller rotates under the action of the inclined water inlet channel, the impeller drives the water outlet panel to rotate through the transmission assembly, and then the water blocking ball blocks the water outlet hole in sequence.

Preferably, the water outlet device further comprises a fixed seat fixedly arranged on the body, the fixed seat is matched with the body to form the water inlet cavity, and the fixed seat is matched with the water outlet panel to form the water outlet cavity.

Preferably, the fixing seat is provided with a plurality of overflowing holes, and the water inlet cavity is communicated with the water outlet cavity through the overflowing holes.

Preferably, the accommodating part is a positioning groove formed in one side of the fixing seat facing the water outlet cavity, and the water retaining ball is arranged in the positioning groove.

Preferably, the accommodating part is an annular groove formed in one side, facing the water outlet cavity, of the fixing seat, the water retaining ball is arranged in the annular groove, and when the water outlet panel rotates, the water retaining ball can roll between the annular groove and the water outlet panel.

Preferably, the transmission assembly comprises a reduction gear, the fixing seat is provided with a fixed tooth meshed with the reduction gear, the impeller is provided with a transmission tooth in transmission fit with the reduction gear, when water enters, the impeller rotates and drives the reduction gear to roll along the fixed tooth through the transmission tooth, and the reduction gear rolls to drive the water outlet panel to rotate.

Preferably, the transmission assembly further comprises a rotating frame, one end of the rotating frame is in transmission fit with the reduction gear, the other end of the rotating frame is in transmission fit with the water outlet panel, the reduction gear drives the rotating frame to rotate when rolling, and the water outlet panel is driven to rotate through the rotating frame.

Preferably, one side of the rotating frame facing the reduction gear is provided with a first inserting shaft, the reduction gear is correspondingly provided with a jack, and the first inserting shaft is matched with the jack in a circumferential rotation manner.

Preferably, one side of the rotating frame facing the fixing frame is provided with a second inserting shaft, the water outlet panel is correspondingly provided with a slot, and the second inserting shaft is in circumferential limiting fit with the slot.

Preferably, the fixing seat is provided with a through hole, and the second insertion shaft extends out of the through hole and is in insertion fit with the insertion slot.

The invention has the beneficial effects that:

the invention relates to a rotary water outlet structure, comprising: the body is provided with an inclined water inlet channel, a water inlet cavity and a water outlet cavity which are sequentially communicated; the water outlet panel is movably arranged on the body and provided with a plurality of water outlet holes arranged along the periphery; the impeller is rotationally arranged in the water inlet cavity and can rotate under the action of the inclined water inlet channel; the transmission component is movably arranged in the water inlet cavity and is respectively in transmission fit with the impeller and the water outlet panel; the water outlet cavity is internally provided with a containing part, and the water retaining ball is arranged in the containing part of the water outlet cavity; when intaking, the impeller is rotatory under the effect of oblique water inlet channel, and the impeller passes through drive assembly and drives out the water panel and rotate, and then the manger plate ball shutoff apopore in proper order, and this scheme drives the impeller through intaking to one side and rotates, and the impeller drives out the water panel through drive assembly and rotates to realize that the manger plate ball shelters from each apopore in proper order, form the splash effect similar with special woods machine gun, when realizing the water conservation, can promote user's use and experience.

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 not to limit the invention. In the drawings:

FIG. 1 is a perspective view of a rotary water outlet structure of the present invention;

FIG. 2 is a cross-sectional view of a rotary water outlet structure of the present invention;

FIG. 3 is an exploded view of a rotary water outlet structure of the present invention;

FIG. 4 is a perspective view of a fixing base of a rotary water outlet structure according to the present invention;

FIG. 5 is a perspective view of a fixing base of a rotary water outlet structure according to another embodiment of the present invention;

10. a body; 11. an inclined water inlet channel; 12. a water inlet cavity; 13. a water outlet cavity; 20. a water outlet panel; 21. a water outlet hole; 22. a slot; 30. an impeller; 31. a transmission gear; 40. a water blocking ball; 50. a fixed seat; 51. an overflowing hole; 52. positioning a groove; 53. fixing teeth; 54. perforating; 55. an annular groove; 60. a reduction gear; 61. a jack; 70. a rotating frame; 71. a first shaft; 72. a second shaft.

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.

Example 1:

as shown in fig. 1 to 4, a rotary water discharge structure includes:

the body 10 is provided with an inclined water inlet channel 11, a water inlet cavity 12 and a water outlet cavity 13 which are sequentially communicated;

the water outlet panel 20 is movably arranged on the body 10, and the water outlet panel 20 is provided with a plurality of water outlet holes 21 arranged along the periphery;

the impeller 30 is rotationally arranged in the water inlet cavity 12 and can rotate under the action of the inclined water inlet channel 11;

the transmission component is movably arranged in the water inlet cavity 12 and is respectively in transmission fit with the impeller 30 and the water outlet panel 20;

the water outlet cavity 13 is internally provided with a containing part, and the water blocking ball 40 is arranged in the containing part of the water outlet cavity 13;

when water enters, the impeller 30 rotates under the action of the inclined water inlet channel 11, the impeller 30 drives the water outlet panel 20 to rotate through the transmission assembly, and then the water blocking ball 40 sequentially blocks the water outlet hole 21.

In this embodiment, the water outlet device further includes a fixing seat 50 fixedly disposed on the body 10, the fixing seat 50 is matched with the body 10 to form the water inlet cavity 12, and the fixing seat 50 is matched with the water outlet panel 20 to form the water outlet cavity 13.

In this embodiment, the fixing base 50 is provided with a plurality of overflowing holes 51, and the water inlet cavity 12 is communicated with the water outlet cavity 13 through the overflowing holes 51.

In this embodiment, the accommodating portion is a positioning groove 52 formed on one side of the fixing base 50 facing the water outlet cavity 13, the water blocking ball 40 is installed in the positioning groove 52, and when the water outlet panel 20 rotates, sliding friction is formed between the water blocking ball 40 and the water outlet panel 20.

In this embodiment, the transmission assembly includes a reduction gear 60, the fixing base 50 is provided with a fixing tooth 53 engaged with the reduction gear 60, the impeller 30 is provided with a transmission tooth 31 in transmission fit with the reduction gear 60, when water enters, the impeller 30 rotates and drives the reduction gear 60 to roll along the fixing tooth 53 through the transmission tooth 31, and the reduction gear 60 rolls to drive the water outlet panel 20 to rotate.

In this embodiment, the transmission assembly further includes a rotating frame 70, one end of the rotating frame 70 is in transmission fit with the reduction gear 60, the other end of the rotating frame 70 is in transmission fit with the water outlet panel 20, the reduction gear 60 drives the rotating frame 70 to rotate when rolling, and the water outlet panel 20 is driven to rotate through the rotating frame 70.

In this embodiment, a first inserting shaft 71 is disposed on one side of the rotating frame 70 facing the reduction gear 60, the reduction gear 60 is correspondingly provided with an inserting hole 61, and the first inserting shaft 71 is circumferentially and rotatably matched with the inserting hole 61.

In this embodiment, a second inserting shaft 72 is disposed on one side of the rotating frame 70 facing the fixing frame, the water outlet panel 20 is correspondingly disposed with a slot 22, and the second inserting shaft 72 is circumferentially and limitedly matched with the slot 22.

In this embodiment, the fixing base 50 is provided with a through hole 54, and the second shaft 72 extends out of the through hole 54 to be inserted into and matched with the slot 22.

The specific working process of this embodiment:

when water enters, the impeller 30 rotates and drives the reduction gear 60 to roll along the fixed teeth 53 through the transmission teeth 31, the reduction gear 60 drives the rotating frame 70 to rotate when rolling, the water outlet panel 20 is driven to rotate through the rotating frame 70, and the water outlet holes 21 are sequentially plugged by the water blocking balls 40.

This scheme drives impeller 30 through intaking to one side and rotates, and impeller 30 drives out the rotation of water panel 20 through drive assembly to realize that retaining ball 40 shelters from each apopore 21 in proper order, form the splash effect similar with the special forest machine gun, when realizing the water conservation, can promote user's use and experience.

Example 2:

as shown in fig. 5, in the embodiment, the accommodating portion is an annular groove 55 formed in one side of the fixing seat 50 facing the water outlet cavity 13, the water blocking ball 40 is installed in the annular groove 55, and when the water outlet panel 20 rotates, the water blocking ball 40 can roll between the annular groove 55 and the water outlet panel 20 to form rolling friction, so that friction between the water blocking ball 40 and the water outlet panel 20 can be reduced, and the starting water pressure is lower.

Other parts not described above are consistent with the above embodiments and are not described again.

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 (10)

1. A rotary water outlet structure, comprising:

the body is provided with an inclined water inlet channel, a water inlet cavity and a water outlet cavity which are sequentially communicated;

the water outlet panel is movably arranged on the body and provided with a plurality of water outlet holes arranged along the periphery;

the impeller is rotationally arranged in the water inlet cavity and can rotate under the action of the inclined water inlet channel;

the transmission assembly is movably arranged in the water inlet cavity and is in transmission fit with the impeller and the water outlet panel respectively;

the water outlet cavity is internally provided with a containing part, and the water retaining ball is arranged in the containing part of the water outlet cavity;

when water enters, the impeller rotates under the action of the inclined water inlet channel, the impeller drives the water outlet panel to rotate through the transmission assembly, and then the water blocking ball blocks the water outlet hole in sequence.

2. A rotary water outlet structure according to claim 1, further comprising a fixing seat fixedly disposed on the body, wherein the fixing seat cooperates with the body to form the water inlet cavity, and the fixing seat cooperates with the water outlet panel to form the water outlet cavity.

3. A rotary water outlet structure as claimed in claim 2, wherein the mounting base is provided with a plurality of overflow holes, and the inlet chamber is in communication with the outlet chamber through the overflow holes.

4. A rotary water outlet structure as claimed in claim 2, wherein the accommodating portion is a positioning groove formed on a side of the fixing base facing the water outlet cavity, and the water retaining ball is disposed in the positioning groove.

5. A rotary water outlet structure according to claim 2, wherein the accommodating portion is an annular groove formed on a side of the fixing base facing the water outlet cavity, the water blocking ball is mounted in the annular groove, and the water blocking ball can roll between the annular groove and the water outlet panel when the water outlet panel rotates.

6. A rotary water outlet structure according to claim 2, wherein the transmission assembly includes a reduction gear, the fixing base is provided with a fixing tooth engaged with the reduction gear, the impeller is provided with a transmission tooth in transmission fit with the reduction gear, when water is supplied, the impeller rotates and drives the reduction gear to roll along the fixing tooth through the transmission tooth, and the reduction gear rolls to drive the water outlet panel to rotate.

7. The rotary water outlet structure according to claim 6, wherein the transmission assembly further comprises a rotary frame, one end of the rotary frame is in transmission fit with the reduction gear, the other end of the rotary frame is in transmission fit with the water outlet panel, the reduction gear drives the rotary frame to rotate when rolling, and the water outlet panel is driven to rotate by the rotary frame.

8. A rotary water outlet structure according to claim 7, wherein a first insertion shaft is provided on a side of the rotary frame facing the reduction gear, the reduction gear is correspondingly provided with an insertion hole, and the first insertion shaft is in circumferential rotation fit with the insertion hole.

9. A rotary water outlet structure according to claim 7, wherein a second insertion shaft is provided on a side of the rotary frame facing the fixed frame, a slot is correspondingly provided on the water outlet panel, and the second insertion shaft is in circumferential limit fit with the slot.

10. A rotary water outlet structure according to claim 9, wherein the fixing base is provided with a through hole, and the second insertion shaft extends from the through hole to be inserted and fitted into the insertion groove.

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