CN213762379U - Water diversion assembly and top shower - Google Patents

Abstract

An embodiment of the utility model provides a water diversion assembly, control the subassembly including water diversion seat, water diversion disc and knob, water diversion seat has first water hole and second water hole of crossing. The water distribution disc is rotatably installed on the water distribution seat, the water distribution disc is provided with a first position and a second position relative to the water distribution seat, the water distribution disc comprises a first water distribution hole and a second water distribution hole, the first water distribution hole and the first water passing hole of the water distribution disc located at the first position are provided with the maximum communication area, the second water distribution hole and the second water passing hole of the water distribution disc located at the second position are provided with the maximum communication area, the water distribution disc rotates to the second position from the first position, the communication area of the first water distribution hole and the first water passing hole is gradually reduced, and the communication area of the second water distribution hole and the second water passing hole is gradually increased. The knob control component is connected with the water distribution disc, and the knob control key drives the water distribution disc to rotate between a first position and a second position. The embodiment of the utility model provides a still provide a top shower.

Description

Water diversion assembly and top shower

Technical Field

The utility model relates to a bathroom technical field particularly, relates to a subassembly and top shower head divide.

Background

The water separator is an important part in the top-spraying shower head and is used for separating water so as to provide different water outlet paths and meet the living demands of users. The existing water separator mainly has the problems that the remote control is not available, the change of a water outlet waterway is not continuous, the water outlet mode of a top spraying shower head is difficult to control, and different spray can not be discharged from the same water outlet hole.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a divide subassembly and top gondola water faucet to solve above-mentioned problem. The embodiment of the utility model provides an above-mentioned purpose is realized through following technical scheme.

In a first aspect, an embodiment of the utility model provides a water diversion assembly, control the subassembly including water diversion seat, water diversion disc and knob. The water distribution seat is provided with a first water through hole and a second water through hole. The water distribution disc is rotatably installed on the water distribution seat, the water distribution disc is provided with a first position and a second position relative to the water distribution seat, the water distribution disc comprises a first water distribution hole and a second water distribution hole, the first water distribution hole and the first water passing hole of the water distribution disc located at the first position are provided with the maximum communication area, the second water distribution hole and the second water passing hole of the water distribution disc located at the second position are provided with the maximum communication area, the water distribution disc rotates to the second position from the first position, the communication area of the first water distribution hole and the first water passing hole is gradually reduced, and the communication area of the second water distribution hole and the second water passing hole is gradually increased. The knob control component is connected with the water distribution disc, and the knob control key drives the water distribution disc to rotate between a first position and a second position.

In one embodiment, the first water passing hole extends along a rotational path of the first water dividing hole and has a first end and a second end, and from the first end to the second end, the first water passing hole gradually decreases in diameter, and the second water passing hole extends along a rotational path of the second water dividing hole and has a third end and a fourth end, the third end being opposite to the first end, the fourth end being opposite to the second end, and from the third end to the fourth end, the second water passing hole gradually decreases in diameter.

In one embodiment, the first water dividing hole and the second water dividing hole are arranged along the circumferential direction of the water dividing disc, the first water dividing hole and the first water passing hole of the water dividing disc located at the first position are communicated, the second water dividing hole and the second water passing hole are not communicated, the second water dividing hole and the second water passing hole of the water dividing disc located at the second position are communicated, and the first water dividing hole and the first water passing hole are not communicated.

In a second aspect, the embodiment further provides a top shower head, which comprises a water pipe, a top shower and any one of the water diversion assemblies. The water pipe is provided with a water inlet end and a water outlet end which are opposite. The top spray is arranged at the water outlet end and is communicated with the water outlet end. The water diversion component is arranged at the water inlet end.

In one embodiment, the top shower includes a first water outlet channel and a second water outlet channel, the water distribution base includes a first water outlet hole and a second water outlet hole, the first water outlet hole is communicated with the first water through hole, the first water outlet hole is communicated with the first water outlet channel, the second water outlet hole is communicated with the second water through hole, and the second water outlet hole is communicated with the second water through channel.

In one embodiment, the top spray comprises a water outlet surface cover and a top spray water diversion assembly, the top spray water diversion assembly is installed at the water outlet end, and the water outlet surface cover is connected to the top spray water diversion assembly.

In one embodiment, the water outlet surface cover comprises a first water spraying hole structure and a second water spraying hole structure, the top spraying water distribution assembly comprises a first water distribution cavity and a second water distribution cavity, the first water distribution cavity is communicated with the first water spraying hole structure to form a first water outlet channel, and the second water distribution cavity is communicated with the second water spraying hole structure to form a second water outlet channel.

In one embodiment, the water outlet cover comprises a first surface and a second surface which are opposite, the first surface faces the top spray water distribution assembly, the water outlet cover is provided with a plurality of spray holes penetrating through the first surface and the second surface, the first surface is provided with a first water guide part, the first water guide part is provided with a first water guide hole, the axis of the first water guide hole is perpendicular to the first surface, and the first water guide hole is communicated with the spray holes to form a first water spray hole structure.

In one embodiment, the first surface is further provided with a second water guide part, the second water guide part is provided with a water guide chute and a second water guide hole, the second water guide hole is communicated with the water guide chute, the axis of the second water guide hole is perpendicular to the first surface, the water guide chute extends along the tangential direction of a circle where the cross section of the second water guide hole is located, and the water guide chute, the second water guide hole and the spray hole are communicated to form a second water spray hole structure.

In one embodiment, the top-spraying water diversion assembly comprises a water diversion body and a fairing, wherein the water diversion body is arranged at the water outlet end, and the fairing is arranged between the water outlet surface cover and the water diversion body.

Compared with the prior art, the water diversion component and the top spraying shower head provided by the utility model comprise a water diversion seat, a water diversion disc and a knob control component, wherein the water diversion disc is rotatably arranged on the water diversion seat and has a first position and a second position relative to the water diversion seat, the first water diversion hole of the water diversion disc at the first position and the first water through hole of the water diversion seat have the maximum communication area, the second water diversion hole of the water diversion disc at the second position and the second water through hole of the water diversion seat have the maximum communication area, when the knob control key drives the water diversion disc to rotate from the first position to the second position, the communication area of the first water diversion hole and the first water through hole is gradually reduced, the communication area of the second water diversion hole and the second water through hole is gradually increased, therefore, the water flow through the first water through hole is gradually reduced, the water flow through the second water through hole is gradually increased, so that the water diversion component can ensure that the first water through hole and the second water through hole can simultaneously flow out, the total water output remained essentially unchanged. The utility model discloses a divide subassembly and top gondola water faucet on the basis in two water routes, along with the water diversion tray rotates to the second position from the first position, the water volume that flows through first water hole reduces gradually, the water volume that flows through the second water hole increases gradually, the dynamic balance of water yield has been realized, because the water volume that flows through first water hole and second water hole is the gradual change, the abrupt change of water yield can not appear, thereby realized the continuous regulation on top gondola water faucet water route, stepless regulation's effect has been realized promptly. Additionally, the utility model discloses a divide the subassembly to install and keep away from the one end that the top was spouted at the water pipe for remote control can be realized to the top gondola water faucet, and the top gondola water faucet can also realize the effect with the different water in hole.

These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a water diversion assembly provided by the embodiment of the present invention.

Fig. 2 is a schematic diagram of a split of the water diversion assembly provided by the embodiment of the present invention.

Fig. 3 is a cross-sectional view along the X-X direction of fig. 1.

Fig. 4 is a schematic structural view of the water diversion seat provided by the embodiment of the present invention.

Fig. 5 is a schematic view of a state of the water distribution tray in a first position relative to the water distribution base according to an embodiment of the present invention.

Fig. 6 is a schematic view of the water distribution disk in the second position relative to the water distribution seat according to the embodiment of the present invention.

Fig. 7 is a schematic structural view of the top shower provided by the embodiment of the present invention.

Fig. 8 is a schematic view of the top shower according to the embodiment of the present invention.

Fig. 9 is a longitudinal sectional view of the top shower provided by the embodiment of the present invention.

Fig. 10 is a schematic structural view of a water outlet cover according to an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of the water diversion body provided by the embodiment of the present invention.

Fig. 12 is a schematic structural view of the water outlet cover and the fairing provided by the embodiment of the present invention.

Fig. 13 is a schematic structural view of a lower water body provided by an embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the embodiments of the present invention, the embodiments of the present invention will be described more fully below with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 and 2, an embodiment of the present invention provides a water diversion assembly 10, which includes a water diversion seat 11, a water diversion disc 13, and a knob control assembly 15. The water diversion disc 13 is rotatably mounted on the water diversion seat 11. The knob control assembly 15 is connected with the water distribution disc 13 to drive the water distribution disc 13 to rotate relative to the water distribution base 11.

Referring to fig. 2 and 3, the water diversion seat 11 includes a seat body 110, a water inlet joint 111, a first water outlet joint 112 and a second water outlet joint 113, wherein the water inlet joint 111, the first water outlet joint 112 and the second water outlet joint 113 are all connected to the seat body 110. In this embodiment, the first water outlet joint 112 and the second water outlet joint 113 are disposed side by side at one end of the seat body 110 for water outlet, and the water inlet joint 111 is disposed at the other end of the seat body 110 for water inlet.

Referring to fig. 2 and 4, the base 110 is substantially cylindrical. The base 110 comprises a water passing bottom surface 1110, a water passing side surface 1120 and a water passing cavity 1130, wherein the water passing bottom surface 1110 is connected to the water passing side surface 1120 and jointly forms the water passing cavity 1130, and the water passing cavity 1130 is used for passing water, that is, water can flow out of the water passing cavity 1130.

The base body 110 has a first water passing hole 1160 and a second water passing hole 1170, the first water passing hole 1160 and the second water passing hole 1170 are disposed along the circumference of the water passing bottom surface 1110 and penetrate through the water passing bottom surface 1110, the first water passing hole 1160 and the second water passing hole 1170 are used for passing water, that is, the water can flow out of the water diversion base 11 through the first water passing hole 1160 and the second water passing hole 1170. The base 110 further has a water inlet 1180, the water inlet 1180 is used for water inlet, and the water inlet 1180, the first water passing hole 1160 and the second water passing hole 1170 are all communicated with the inner cavity, that is, water flow can enter the water passing cavity 1130 through the water inlet 1180 and can flow out of the water passing cavity 1130 through the first water passing hole 1160 or the second water passing hole 1170.

The first water passing hole 1160 has a first end 1161 and a second end 1163, and the diameter of the first water passing hole 1160 is gradually reduced from the first end 1161 to the second end 1163. Specifically, from the perspective shown in fig. 4, the aperture of the first water passing hole 1160 is gradually decreased in the counterclockwise direction, i.e., the first water passing hole 1160 is an arc-shaped hole. In other embodiments, the first water passing hole 1160 may have a gradually increasing aperture in a counterclockwise direction from the perspective of fig. 4. The second water passing hole 1170 has a third end 1171 and a fourth end 1173, the third end 1171 is opposite to the first end 1161, the fourth end 1173 is opposite to the second end 1163, and the diameter of the second water passing hole 1170 gradually decreases from the third end 1171 to the fourth end 1173. Specifically, from the perspective shown in fig. 4, the diameter of the second water passing holes 1170 decreases in a clockwise direction, i.e., the second water passing holes 1170 are also arc-shaped holes. In other embodiments, the diameter of the second water passing hole 1170 may be gradually increased in a clockwise direction as viewed in fig. 4.

The water inlet joint 111 is provided with a water inlet 1112, and the water inlet 1112 is communicated with a water inlet 1180 and used for feeding water from a tap water pipeline.

The first water outlet joint 112 is provided with a first water outlet hole 1121, and the first water outlet hole 1121 is communicated with the first water passing hole 1160 and is used for guiding out water flow through the first water passing hole 1160. The first water outlet joint 112 may communicate with a water outlet path.

The second water outlet joint 113 is provided with a second water outlet hole 1131, and the second water outlet hole 1131 is communicated with a second water passing hole 1170, so as to lead out water flowing through the second water passing hole 1170. The second water outlet joint 113 can be communicated with another water outlet waterway, so that the water distribution assembly 10 is communicated with the two waterways.

As shown in fig. 5, the water diversion seat 11 further includes a first stopper 114 and a second stopper 115, the first stopper 114 and the second stopper 115 protrude from the water passing bottom surface 1110 and are disposed in the water passing cavity 1130, and the first stopper 114 and the second stopper 115 are distributed along the circumferential direction of the water diversion disc 13. First stop 114 and second stop 115 are used to stop water distribution disc 13 to limit the rotation angle of water distribution disc 13, i.e. water distribution disc 13 can be limited to a specific rotation interval.

Referring to fig. 5 and 6, water diversion disc 13 includes a water diversion disc main body 132 and a rotation limiting portion 134, wherein the rotation limiting portion 134 is connected to water diversion disc main body 132, and specifically, the rotation limiting portion 134 protrudes from water diversion disc main body 132.

Water diversion disc main body 132 is generally a circular sheet-like structure, and water diversion disc main body 132 is rotatably mounted to water diversion seat 11 and located between first stop member 114 and second stop member 115. In this embodiment, water diversion disc 13 has a first position and a second position relative to water diversion seat 11, rotation limiting portion 134 of water diversion disc 13 located at the first position abuts against first stop member 114, and rotation limiting portion 134 of water diversion disc 13 located at the second position abuts against second stop member 115. That is, diverter tray 13 may be cyclically moved between the first and second positions.

The water diversion tray 13 includes a first water diversion hole 1321 and a second water diversion hole 1323, and the first water diversion hole 1321 and the second water diversion hole 1323 are both provided in the water diversion tray main body 132 and are distributed along the circumferential direction of the water diversion tray main body 132. The first water passing hole 1160 extends along a rotational path of the first water dividing hole 1321, and the second water passing hole 1170 extends along a rotational path of the second water dividing hole 1323. The first water dividing hole 1321 of the water dividing disc 13 located at the first position and the first water passing hole 1160 have the largest communication area, at this time, the first water dividing hole 1321 is communicated with the first end 1161 of the first water passing hole 1160, the second water dividing hole 1323 of the water dividing disc 13 located at the second position and the second water passing hole 1170 have the largest communication area, at this time, the second water dividing hole 1323 is communicated with the third end 1171 of the second water passing hole 1170, the water dividing disc 13 rotates to the second position from the first position, the communication areas of the first water dividing hole 1321 and the first water passing hole 1160 are gradually reduced, and the communication areas of the second water dividing hole 1323 and the second water passing hole 1170 are gradually increased. That is to say, when the water distribution disc 13 rotates from the first position to the second position, the amount of water flowing out through the first water passing hole 1160 is gradually reduced, and the amount of water flowing out through the second water passing hole 1170 is gradually increased, so that the dynamic balance of the water output is realized.

Referring to fig. 4, 5 and 6, in the present embodiment, the first water dividing hole 1321 and the second water dividing hole 1323 are circular holes, and the first water passing hole 1160 and the second water passing hole 1170 are arc-shaped holes. In other embodiments, the first water dividing hole 1321 and the second water dividing hole 1323 are arc-shaped holes, and the first water passing hole 1160 and the second water passing hole 1170 are circular holes, so that the communicating area between the first water dividing hole 1321 and the first water passing hole 1160 is gradually reduced, and the communicating area between the second water dividing hole 1323 and the second water passing hole 1170 is gradually increased when the water dividing disc 13 rotates from the first position to the second position.

In addition, the first water dividing hole 1321 and the second water dividing hole 1323 are disposed along the circumferential direction of the water dividing disc 13, the first water dividing hole 1321 of the water dividing disc 13 located at the first position is communicated with the first water passing hole 1160, and at this time, the second water dividing hole 1323 is not communicated with the second water passing hole 1170. The second water dividing hole 1323 of the water dividing disk 13 located at the second position is communicated with the second water passing hole 1170, and at this time, the first water dividing hole 1321 is not communicated with the first water passing hole 1160. That is to say, when the water diversion disc 13 is in the first position, the water flow can enter from the water inlet 1112, enter the water passing cavity 1130 through the water inlet 1180, and then sequentially flow out through the first water passing hole 1160 and the first water outlet 1121, so that the water flow only flows out from one of the water ways. When the water diversion disc 13 is at the second position, water can enter from the water inlet 1112, enter the water passing cavity 1130 through the water inlet 1180, and then sequentially flow out through the second water passing hole 1170 and the second water outlet 1131, so that water can only flow out from another water channel. In the process that the water diversion disc 13 rotates from the first position to the second position, the communication area of the first water diversion hole 1321 and the first water passing hole 1160 is gradually reduced, and the communication area of the second water diversion hole 1323 and the second water passing hole 1170 is gradually increased, so that after water flows enter from the water inlet 1112, the water flows into the water passing cavity 1130 sequentially through the water inlet 1180, can flow out of the first water outlet 1121 through the first water passing hole 1160 simultaneously, and flows out of the second water outlet 1131 through the second water passing hole 1170, and therefore the water flows can flow out of the two water paths simultaneously. In this embodiment, the position of the water diversion disc 13 is controlled to control the outflow path of water flow, so that the water diversion assembly 10 can be matched with a water outlet nozzle to form more water outlet states, and the requirements of customers on a plurality of water outlet modes are met.

With continued reference to fig. 2 and 3, knob 154 actuates rotation of diverter tray 13 between the first and second positions. In the present embodiment, the knob 154 manipulation drive includes a fixed base 152, a knob 154, and a rotational shaft 156. The fixing seat 152 is fixedly installed on the water diversion seat 11, and can be fixed through threaded connection. The knob 154 is rotatably mounted on the fixing base 152 and can be connected to the water distribution disk 13 via a rotating shaft 156 to drive the water distribution disk 13 to rotate relative to the water distribution base 11. An angle indicator may be disposed on the knob 154, for example, when the water diversion disk 13 is in the first position, the corresponding angle of the knob 154 may be a; when the water diversion disc 13 is in the second position, the corresponding angle of the knob 154 may be B; the corresponding angle of knob 154 may be between a-B when diverter tray 13 is between the first and second positions.

To sum up, the utility model provides a divide subassembly 10, including dividing water tray 11, divide water tray 13 and knob to control subassembly 15, along with dividing water tray 13 and when rotating to the second position from the primary importance, the water volume that flows through first water hole 1160 reduces gradually, and the water volume that flows through second water hole 1170 increases gradually, the dynamic balance of water yield has been realized, because the water volume that flows through first water hole 1160 and second water hole 1170 is the gradual change, the abrupt change of water yield can not appear, thereby realized the continuous control to the water route, stepless regulation's effect has been realized promptly.

Referring to fig. 7 and 8, the embodiment further provides a top shower head 1, which includes a water pipe 20, a top shower 30 and a water diversion assembly 10, wherein the top shower 30 and the water diversion assembly 10 are installed at two opposite ends of the water pipe 20, so as to remotely control the top shower head to spray water, and facilitate the operation of a user.

In this embodiment, the top shower head 1 further includes a sleeve 40, and the sleeve 40 can be used to sleeve the water pipe 20 to protect the water pipe 20 and reduce the damage of the external environmental factors to the water pipe 20. The shroud 40 also enhances the uniformity of the appearance of the top shower 1.

In this embodiment, the water pipe 20 includes a first pipe section 21, a second pipe section 22 and a third pipe section 23, wherein the second pipe section 22 is connected between the first pipe section 21 and the third pipe section 23, and the first pipe section 21 and the third pipe section 23 are connected to the same side of the second pipe section 22. In other embodiments, the water pipe 20 may be designed into an L-shape or other shapes as required.

Referring to fig. 4 and 9, the water pipe 20 has opposite water inlet and outlet ends 24 and 25. The water inlet end 24 is provided with the water diversion assembly 10, and the first water passing hole 1160 and the second water passing hole 1170 of the water diversion assembly 10 are both communicated with the water inlet end 24. The water outlet end 25 is provided with a top nozzle 30 which can be used for water outlet.

The draft tube 20 includes a first draft tube 26 and a second draft tube 27 independent of each other, wherein the first draft tube 26 is connected between the first outlet fitting 112 and the top shower 30. The second water passing pipe 27 is connected between the second water outlet joint 113 and the top shower 30. The first and second feed- throughs 26 and 27 are used to direct water from the diversion module 10 to the top shower 30 for different outlet patterns.

Referring to fig. 4, 8 and 9, the top nozzle 30 is in communication with the outlet end 25. The top nozzle 30 includes a first water outlet channel and a second water outlet channel, wherein the first water outlet channel is communicated with the first water outlet hole 1121, the second water outlet channel is communicated with the second water outlet hole 1131, that is, the first water outlet hole 1121 is communicated with the first water outlet channel through the first water pipe 26, and the second water outlet hole 1131 is communicated with the second water outlet channel through the second water pipe 27. In this embodiment, the water outlet state corresponding to the first water outlet channel is shower water, and the water outlet state corresponding to the second water outlet channel is spray water. In other embodiments, the water outlet state corresponding to the first water outlet channel may be spray water, granular water or other water outlet states, and the water outlet state corresponding to the second water outlet channel may be shower water or other water outlet states.

Referring to fig. 7 and 8, in the present embodiment, the top nozzle 30 includes a water outlet cover 32 and a top nozzle water distribution component 34, the top nozzle water distribution component 34 is installed at the water outlet end 25, and the water outlet cover 32 is connected to the top nozzle water distribution component 34.

Referring to fig. 10, the outlet cover 32 includes a first water hole structure 321 and a second water hole structure 323, wherein the first water hole structure 321 is used for water outlet of the outlet cover 32 and corresponds to a water outlet state of the first water outlet channel; the second hole pattern 323 is also used for water output from the outlet cover 32 and corresponds to the water output state of the second water output channel.

The outlet cover 32 includes a first surface 325 and a second surface 327 opposite to each other, wherein the first surface 325 faces the top shower water distribution assembly 34, and the second surface 327 is the outlet surface of the top shower head 1. The water outlet cover 32 is further provided with a water passing groove 328, and the bottom surface of the water passing groove 328 is the first surface 325.

The first surface 325 is provided with a first water guide part 3250, and the first water guide part 3250 has a substantially hollow cylindrical structure. The first water guide part 3250 is provided with a first water guide hole 3251, and an axis of the first water guide hole 3251 is perpendicular to the first surface 325, that is, the first water guide hole 3251 can guide water flow in a direction perpendicular to the first surface 325, and finally, the water flows out in a shower water state.

The first surface 325 is further provided with a second water guide part 3270, the second water guide part 3270 is provided with a water guide chute 3273 and a second water guide hole 3271, the water guide chute 3273 is communicated with the water passing groove 328, the second water guide hole 3271 is communicated with the water guide chute 3273, the axis of the second water guide hole 3271 is perpendicular to the first surface 325, and the water guide chute 3273 extends along the tangential direction of the circle where the cross section of the second water guide hole 3271 is located. That is, the water flow may enter the water guide chute 3273 through the water tank 328, and the water guide chute 3273 guides the water flow into the second water guide hole 3271 and guides the water flow out through the second water guide hole 3271, and it should be noted that the water guide chute 3273 extends along a tangential direction of a circle where a cross section of the second water guide hole 3271 is located, and the water is injected into the second water guide hole 3271 through the water guide chute 3273 to form a swirling vortex, and finally the water is sprayed and flows out.

The outlet cover 32 further has a plurality of nozzles 329, the plurality of nozzles 329 penetrate the first surface 325 and the second surface 327, and the nozzles 329 may be discharged in a state of shower water, spray water, or granular water interposed between the shower water and the spray water. The nozzle hole 329 communicates with the first water guide hole 3251 to form a first water spray hole structure 321. The water guide chute 3273, the second water guide hole 3271 and the spray hole 329 are communicated to form a second water spray hole structure 323.

Since the outlet cover 32 includes the first water spray hole structure 321 and the second water spray hole structure 323 for the outlet of the outlet cover 32, and the first water spray hole structure 321 corresponds to the outlet state of the first outlet channel; the second water spray hole structure 323 corresponds to the water outlet state of the second water outlet channel, the first water spray hole structure 321 is formed by communicating the first water guide hole 3251 with the spray hole 329, and the second water spray hole structure 323 is formed by communicating the water guide chute 3273, the second water guide hole 3271 and the spray hole 329. Therefore, water may flow out of the nozzle hole 329 in a shower state through the first water outlet channel, or flow out of the nozzle hole 329 in a mist spray state through the second water outlet channel, that is, water may eventually flow out of the nozzle hole 329 regardless of whether the water passes through the first water outlet channel or the second water outlet channel, thereby achieving the effect of different water from the same hole.

Referring to fig. 8, the top spraying water diversion assembly 34 includes a water diversion body 341 and a fairing 343, the water diversion body 341 is installed at the water outlet end 25, and the fairing 343 is installed between the water outlet cover 32 and the water diversion body 341.

Referring to fig. 11, the water diversion body 341 includes a first water diversion surface 3410 and a second water diversion surface 3412 opposite to each other, wherein the first water diversion surface 3410 faces the water passing pipe 20, and the second water diversion surface 3412 faces the water outlet cover 32.

The water dividing body 341 is further provided with first and second water passage holes 3414 and 3416, and the first and second water passage holes 3414 and 3416 penetrate the first and second water dividing surfaces 3410 and 3412. The first water passage hole 3414 is in communication with the first water passing pipe 26, and the second water passage hole 3416 is in communication with the second water passing pipe 27.

The water dividing body 341 further includes an annular wall 3418, the annular wall 3418 protruding from the second water dividing surface 3412 in a direction away from the first water dividing surface 3410 and being provided around the second water passage holes 3416 to partition the first water passage holes 3414 from the second water passage holes 3416.

Referring to fig. 11 and 12, the fairing 343 includes opposing first and second fairing surfaces 3431 and 3433, wherein the first fairing surface 3431 faces the water-splitting body 341.

The fairing 343 also includes a plurality of first fairing holes 3435 and a second fairing hole 3437, the first fairing holes 3435 and the second fairing holes 3437 each extending through the first fairing surface 3431 and the second fairing surface 3433. The plurality of first rectification holes 3435 are in communication with the first water passage hole 3414, and the second rectification holes 3437 are in communication with the second water passage hole 3416.

The top spray water diversion assembly 34 comprises a first water diversion cavity 345 and a second water diversion cavity 347, wherein the first water diversion cavity 345 is communicated with the first water spray hole structure 321 to form a first water outlet channel, and the second water diversion cavity 347 is communicated with the second water spray hole structure 323 to form a second water outlet channel. In this embodiment, the outer portion of the annular wall 3418 forms a first water diversion chamber 345, and the annular wall 3418 encloses a second water diversion chamber 347, so that different water diversion chambers can be formed through the annular wall 3418, so that water flows can flow out along different water outlet channels.

Referring to fig. 11 and 13, in the present embodiment, the top spraying water diversion assembly 34 further includes a lower water body 349, and the lower water body 349 is located between the water diversion body 341 and the fairing 343. Lower body 349 has substantially the same structure as water diverter 341 and includes opposing first and second lower launch surfaces 3490 and 3492, wherein first lower launch surface 3490 faces water diverter 341. The lower body 349 further includes a plurality of first lower water apertures 3494 and a second lower water aperture 3496, each of the first lower water apertures 3494 and the second lower water apertures 3496 extending through the first lower water surface 3490 and the second lower water surface 3492. The plurality of first lower water holes 3494 are in communication with the first water passage holes 3414, and the second lower water holes 3496 are in communication with the second water passage holes 3416. That is, the water flow in the first water passing pipe 26 may sequentially enter the plurality of first water guide holes 3251 through the first water passing hole 3414, the first lower water hole 3494, and the plurality of first rectification holes 3435, and finally, the shower water may be emitted from the plurality of nozzle holes 329. The water flow in the second water passing pipe 27 may sequentially pass through the second water passing hole 3416, the second water discharging hole 3496, the second rectifying hole 3437, the water passing groove 328, the water guide chute 3273, and the plurality of second water guide holes 3271, and finally the shower water is emitted from the plurality of spray holes 329.

The following is to the water outlet waterway of the top shower 1 provided by the utility model:

the top shower head 1 comprises three water outlet paths, namely a shower water path, a spray water path and a particle water path.

For shower waterways: water flow enters the water passing cavity 1130 from a tap water pipe or other water source through the water inlet 1112 and the water inlet 1180, at this time, the water diversion disc 13 is located at the first position, the first water diversion hole 1321 is communicated with the first water passing hole 1160, the water flow entering the water passing cavity 1130 flows out from the first water diversion hole 1321, the water flow enters the top shower 30 after passing through the first water outlet hole 1121 and the first water passing pipe 26, and the water flow entering the top shower 30 can sequentially enter the first water guide holes 3251 through the first water passing hole 3414, the first water outlet hole 3494 and the first rectifying holes 3435, and finally flower and water are sprayed from the jet holes 329.

For spray water circuit: the water flow enters the water passing cavity 1130 through the water inlet 1112 and the water inlet 1180 from the tap water pipe or other water source, at this time, the water diversion disc 13 is located at the first position, the second water diversion hole 1323 is communicated with the second water passing hole 1170, the water flow entering the water passing cavity 1130 flows out from the second water diversion hole 1323, and enters the top shower 30 after passing through the second water outlet 1131 and the second water passing pipe 27, and the water flow entering the top shower 30 can sequentially pass through the second water passing hole 3416, the second water drainage hole 3496, the second rectification hole 3437, the water passing groove 328, the water guiding chute 3273 and the plurality of second water guiding holes 3271, and finally spray water from the plurality of spray holes 329.

For granular water waterways: water flow enters the water passing cavity 1130 from a tap water pipe or other water source through the water inlet 1112 and the water inlet 1180, at this time, the water dividing disc 13 is located between the first position and the second position, the first water dividing hole 1321 is communicated with the first water passing hole 1160, the second water dividing hole 1323 is communicated with the second water passing hole 1170, the water flow entering the water passing cavity 1130 can flow out from the first water dividing hole 1321 and the second water dividing hole 1323, the water flow flowing out from the first water dividing hole 1321 passes through the first water outlet hole 1121 and the first water passing pipe 26 to enter the top shower 30, and the water flow entering the top shower 30 passes through the first water outlet channel. The water flowing out of the second water dividing hole 1323 passes through the second water outlet hole 1131 and the second water passing pipe 27 and then enters the top shower 30, the water entering the top shower 30 passes through the second water outlet channel, and the two flows of water are merged at the nozzle 329 and finally flow out in a granular water state.

To sum up, the utility model provides a top shower 1, spout 30 and divide subassembly 10 including water pipe 20, top, because divide subassembly 10 to install in water pipe 20's the end 24 of intaking, the top spouts 30 and installs in water pipe 20's play water end 25, consequently, has realized the remote regulation of top shower 1. Because the subassembly 10 that divides has realized the continuous regulation to going out the water route, realized infinitely variable control's effect promptly to top spout 30 and have first water channel and second water channel, first water channel corresponds gondola water faucet play water state, and second water channel corresponds spraying play water state, consequently the utility model provides a top shower 1 can be at gondola water faucet play water state, spraying play water state and between gondola water faucet play water state and spraying play water state's granule play water state, realized the multichannel of top shower 1 promptly and gone out water, and top shower 1 can also realize the effect with the different waters in hole. To sum up, the utility model provides a top shower 1 still has long-range infinitely variable control's effect on the basis of multichannel play water.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A water diversion assembly, comprising:

the water distribution seat is provided with a first water through hole and a second water through hole;

the water distribution disc is rotatably arranged on the water distribution seat and is provided with a first position and a second position relative to the water distribution seat, the water distribution disc comprises a first water distribution hole and a second water distribution hole, the first water distribution hole and the first water through hole of the water distribution disc positioned at the first position are provided with a maximum communication area, the second water distribution hole and the second water through hole of the water distribution disc positioned at the second position are provided with a maximum communication area, the water distribution disc rotates from the first position to the second position, the communication areas of the first water distribution hole and the first water through hole are gradually reduced, and the communication areas of the second water distribution hole and the second water through hole are gradually increased; and

the knob control assembly is connected with the water distribution disc and drives the water distribution disc to rotate between the first position and the second position.

2. The water distribution assembly according to claim 1, wherein the first water passing hole extends along a rotational path of the first water distribution hole and has a first end and a second end, the first water passing hole gradually decreasing in diameter from the first end to the second end, and the second water passing hole extends along a rotational path of the second water distribution hole and has a third end opposite to the first end and a fourth end opposite to the second end, the second water passing hole gradually decreasing in diameter from the third end to the fourth end.

3. The water diversion assembly according to claim 2, wherein the first water diversion hole and the second water diversion hole are arranged along a circumferential direction of the water diversion tray, the first water diversion hole of the water diversion tray located at the first position is communicated with the first water passing hole, the second water diversion hole is not communicated with the second water passing hole, the second water diversion hole of the water diversion tray located at the second position is communicated with the second water passing hole, and the first water diversion hole is not communicated with the first water passing hole.

4. The utility model provides a top shower which characterized in that includes:

the water passing pipe is provided with a water inlet end and a water outlet end which are opposite;

the top spray is arranged at the water outlet end and is communicated with the water outlet end; and

a water diversion assembly as claimed in any one of claims 1 to 3 mounted to the water inlet end.

5. The top shower head as claimed in claim 4, wherein the top shower comprises a first outlet channel and a second outlet channel, the water distribution base comprises a first outlet hole and a second outlet hole, the first outlet hole is communicated with the first water passing hole, the first outlet hole is communicated with the first outlet channel, the second outlet hole is communicated with the second water passing hole, and the second outlet hole is communicated with the second outlet channel.

6. The top shower head as claimed in claim 5, wherein the top shower comprises a top shower diversion assembly and a top shower surface cover, the top shower diversion assembly is mounted to the water outlet end, and the top shower diversion assembly is connected to the top shower diversion assembly.

7. The top shower head as claimed in claim 6, wherein the outlet cover comprises a first water hole structure and a second water hole structure, the top shower water diversion assembly comprises a first water diversion chamber and a second water diversion chamber, the first water diversion chamber is communicated with the first water hole structure to form the first outlet channel, and the second water diversion chamber is communicated with the second water hole structure to form the second outlet channel.

8. The top shower head as claimed in claim 7, wherein the outlet cover comprises a first surface and a second surface opposite to each other, the first surface faces the top shower water diversion assembly, the outlet cover is provided with a plurality of spray holes penetrating through the first surface and the second surface, the first surface is provided with a first water guide part, the first water guide part is provided with a first water guide hole, an axis of the first water guide hole is perpendicular to the first surface, and the first water guide hole is communicated with the spray holes to form the first water spray hole structure.

9. The top shower head according to claim 8, wherein the first surface is further provided with a second water guide portion, the second water guide portion is provided with a water guide chute and a second water guide hole, the second water guide hole is communicated with the water guide chute, an axis of the second water guide hole is perpendicular to the first surface, the water guide chute extends along a tangential direction of a circle where a cross section of the second water guide hole is located, and the water guide chute, the second water guide hole and the spray hole are communicated to form the second water spray hole structure.

10. The top shower head as claimed in claim 6, wherein the top shower water diversion assembly comprises a water diversion body and a rectifying plate, the water diversion body is installed at the water outlet end, and the rectifying plate is installed between the water outlet cover and the water diversion body.

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