CN210675568U - Shower device and passage switching mechanism - Google Patents

Abstract

The utility model relates to a shower device and route switching mechanism. The passage switching mechanism comprises a water diversion assembly and a switching assembly, the water diversion assembly is provided with at least two independent passages, and each passage is communicated with at least one water diversion port; the switching component comprises a rotating part and a pressing part. When the water distributor is used, the pressing piece is pressed to push the rotating piece to rotate, a water outlet on the rotating piece corresponds to the water distributing opening, and water flowing out of the water outlet can flow into the corresponding passage through the water distributing opening. Pressing the pressing piece to continuously push the rotating piece to rotate, and because the water distribution openings are arranged at intervals around the axis of the rotating piece, the water outlet can be communicated with a passage corresponding to the other water distribution opening, so that the switching of the passage is realized. In the use process, the pressing piece is only needed to be pressed, so that the use process is convenient, and the user experience of a user is effectively improved.

Description

Shower device and passage switching mechanism

Technical Field

The utility model relates to a bathroom apparatus technical field especially relates to a shower bath and route switching mechanism.

Background

At present, a traditional shower head generally comprises functional components such as a portable shower head, a shower head on the top of the head, a lower faucet and the like, and the use switching among different functional components is generally realized through rotation control. However, the switching operation of the traditional shower head functional components is inconvenient, and the user experience is influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a shower device and a passage switching mechanism which are convenient to operate.

A path switching mechanism, comprising:

the water diversion assembly is provided with at least two independent passages, the water diversion assembly is provided with at least two water diversion ports, and each passage is communicated with at least one water diversion port; and

the switching assembly comprises a rotating piece and a pressing piece, the rotating piece is provided with a water outlet, one end of the pressing piece is abutted against the rotating piece, and the pressing piece is used for pushing the rotating piece to rotate so as to enable the water outlet to be correspondingly communicated with the water diversion port; wherein at least two of the water diversion ports are arranged around the axis of the rotating member at intervals.

When the passage switching mechanism is used, the pressing piece is pressed, the pressing piece pushes the rotating piece to rotate, the water outlet on the rotating piece corresponds to the water dividing port, and then water flowing out of the water outlet can flow into the corresponding passage through the water dividing port. Continue to press and press the piece, press the piece and promote to rotate the piece and rotate, because the distributive opening sets up around the axis interval of rotating the piece, and then make the delivery port corresponding with another distributive opening, in water that flows out by the delivery port can flow into corresponding route by another distributive opening, realize the switching of route, and then realize the switching that the different gondola water faucet of connection on different routes used. In the use process, the pressing piece is only needed to be pressed, so that the use process is convenient, and the user experience of a user is effectively improved.

The technical solution is further explained below:

in one embodiment, the rotating member includes a ratchet assembly and a water outlet member, the ratchet assembly is sleeved on the water outlet member, the water outlet is opened on the ratchet assembly, the pressing member includes a button and a pawl, one end of the pawl is arranged on the button, and the other end of the pawl abuts against the ratchet assembly and can push the ratchet assembly to rotate.

In one embodiment, the ratchet assembly comprises a sealing ring and a ratchet wheel, the ratchet wheel is sleeved on the water outlet piece through the sealing ring, the water outlet is arranged on the sealing ring, and the sealing ring can rotate relative to the water outlet piece along with the ratchet wheel.

In one embodiment, the number of the gear teeth of the ratchet wheel corresponds to the number of the water diversion ports.

In one embodiment, the water diversion assembly includes a first fixed disk and a passage assembly, the water diversion port is opened on the first fixed disk, at least two passages are formed on the passage assembly, and one end of the first fixed disk, on which the water diversion port is opened, is inserted into the ratchet wheel and can abut against the sealing ring.

In one embodiment, the passage assembly comprises a water sealing disc, a water retaining disc and a water distribution disc, the water sealing disc, the water retaining disc and the water distribution disc are sequentially stacked, and the first fixing disc is arranged on one side, opposite to the water retaining disc, of the water distribution disc; a first passage is formed on one side, facing the first fixed disk, of the water distribution disk, a second passage is formed on one side, facing away from the first fixed disk, of the water distribution disk, and a third passage is formed on the water sealing disk.

In one embodiment, the water outlet member has a water outlet cavity, the outer wall of the water outlet member is provided with at least two water outlet holes, the water outlet holes are communicated with the water outlet cavity, the at least two water outlet holes are distributed at intervals along the circumferential direction of the water outlet member, and the water outlet holes can be correspondingly communicated with one water outlet hole.

In one embodiment, the water outlet member includes a water dividing portion and a water outlet portion, the water outlet hole is formed in the water outlet portion, the inner wall of the water dividing portion defines the water outlet cavity, the water dividing portion is provided with a plurality of spaced diversion holes, the diversion holes are communicated with the water outlet cavity, and the water outlet portion is sleeved on the water dividing portion and has a distance with the water dividing portion.

In one embodiment, each passage is communicated with at least two water diversion ports, and the water diversion ports corresponding to different passages are arranged at intervals around the axis of the rotating member in a staggered mode.

A shower apparatus, comprising:

the path switching mechanism as described above; and

at least one shower head, one of which is communicated with one of the passages.

When the shower device is used, one or more shower heads can be arranged according to requirements, and the shower heads are communicated with one passage of the water distribution assembly. When the water distributor is used, the pressing piece is pressed, the pressing piece pushes the rotating piece to rotate, the water outlet on the rotating piece corresponds to the water distributing opening, and therefore water flowing out of the water outlet can flow into the corresponding passage through the water distributing opening. Continue to press and press the piece, press the piece and promote to rotate the piece and rotate, because the distributive opening sets up around the axis interval of rotating the piece, and then make the delivery port corresponding with another distributive opening, in water that flows out by the delivery port can flow into corresponding route by another distributive opening, realize the switching of route, and then realize the switching that the different gondola water faucet of connection on different routes used. In the use process, the pressing piece is only needed to be pressed, so that the use process is convenient, and the user experience of a user is effectively improved.

Drawings

FIG. 1 is a schematic view of a shower apparatus according to an embodiment;

FIG. 2 is a front view of a path switching mechanism in one embodiment;

FIG. 3 is an exploded view of the path switching mechanism shown in FIG. 2;

FIG. 4 is an exploded view of the path switching mechanism shown in FIG. 3 from another perspective;

FIG. 5 is a schematic structural diagram of the switching assembly shown in FIG. 4;

fig. 6 is a schematic structural view of the water diversion assembly in fig. 4.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention can be embodied in many different forms other than those specifically described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit and scope of the invention, and it is therefore not to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

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 in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Referring to fig. 1 and 2, in an embodiment, the shower apparatus 10 is convenient for a user to use, and can effectively improve user experience of the user. Specifically, the shower apparatus 10 includes a path switching mechanism 20 and at least one shower head. Wherein the shower head can be a hand-held shower head 30, a top shower head 40 or a body position shower head. In this embodiment, the shower apparatus 10 may further include a lower water outlet 50, so as to increase the use function of the shower apparatus 10 and improve the user experience.

Of course, in other embodiments, the path switching mechanism 20 can also be applied to other situations where it is necessary to switch paths. For example, the passage switching mechanism 20 may be applied to switching of the passage flow.

Referring to fig. 3 to 5, in an embodiment, the passage switching mechanism 20 includes a water diversion assembly 100 and a switching assembly 200, the water diversion assembly 100 has at least two independent passages, at least two water diversion ports 110 are disposed on the water diversion assembly 100, and each passage is communicated with at least one water diversion port 110. A shower head is correspondingly communicated with a passage. The switching assembly 200 includes a rotating member 210 and a pressing member 220, the rotating member 210 is provided with a water outlet 230, one end of the pressing member 220 abuts against the rotating member 210, and the pressing member 220 is used for pushing the rotating member 210 to rotate, so that the water outlet 230 is correspondingly communicated with the water diversion port 110. Wherein at least two water distribution openings 110 are arranged at intervals around the axis of the rotating member 210.

When the water dispenser is used, the pressing piece 220 is pressed, the pressing piece 220 pushes the rotating piece 210 to rotate, the water outlet 230 on the rotating piece 210 corresponds to the water diversion opening 110, and then water flowing out of the water outlet 230 can flow into a corresponding passage through the water diversion opening 110. The pressing member 220 is continuously pressed, the pressing member 220 pushes the rotating member 210 to rotate, and the water distribution openings 110 are arranged at intervals around the axis of the rotating member 210, so that the water outlet 230 can correspond to another water distribution opening 110, and water flowing out of the water outlet 230 can flow into a corresponding passage through another water distribution opening 110, so that the passage switching is realized, and the use switching of different shower heads connected to different passages is realized. In the use process, the pressing piece 220 is only needed to be pressed, so that the use process is convenient, and the user experience of a user is effectively improved.

Specifically, the rotating member 210 is disposed on one side of the water diversion assembly 100, where the water diversion opening 110 is opened, and the water outlet 230 is disposed on one side of the rotating member 210, which faces the water diversion assembly 100, so as to facilitate the corresponding communication between the water outlet 230 and the water diversion opening 110.

In one embodiment, the rotating member 210 includes a ratchet assembly 211 and a water outlet member 212, the ratchet assembly 211 is sleeved on the water outlet member 212, and the water outlet 230 is disposed on the ratchet assembly 211. The pushing element 220 includes a button 221 and a pawl 222, wherein one end of the pawl 222 is disposed on the button 221, and the other end of the pawl 222 abuts against the ratchet assembly 211 and can push the ratchet assembly 211 to rotate. The button 221 is pressed to further drive the pawl 222 to push the ratchet assembly 211 to rotate, so that the water outlet 230 is switched among different water distribution openings 110, and different passages corresponding to different water distribution openings 110 are switched.

Specifically, the ratchet assembly 211 includes a sealing ring 213 and a ratchet 214, the ratchet 214 is sleeved on the water outlet member 212 through the sealing ring 213, the water outlet 230 is opened on the sealing ring 213, and the sealing ring 213 can rotate relative to the water outlet member 212 along with the rotation of the ratchet 214. Through setting up sealing ring 213, can effectively avoid the rivers that get into by water outlet member 212 to leak out along the gap between ratchet subassembly 211 and the water outlet member 212, improve the leakproofness between ratchet 214 and the water outlet member 212.

In one embodiment, the number of teeth of ratchet 214 corresponds to the number of water diversion ports 110. When the water diversion device is used, because the number of the gear teeth of the ratchet wheel 214 corresponds to the number of the water diversion ports 110, the pawl 222 pushes the ratchet wheel 214 to rotate one gear tooth, and then the ratchet wheel 214 drives the water outlet 230 on the sealing ring 213 to rotate to the adjacent water diversion port 110 from one water diversion port 110, so that the switching of the passages corresponding to different water diversion ports 110 is realized, and the switching stability is effectively improved.

In this embodiment, nine gear teeth of the ratchet wheel 214 are correspondingly provided with nine water diversion ports 110, and when the ratchet wheel 214 rotates by the distance of one gear tooth, the water outlet 230 can rotate from one water diversion port 110 to another adjacent water diversion port 110. Wherein, each passage is communicated with three water diversion ports 110. In other embodiments, each path may correspond to a different number of water diversion ports 110 according to usage requirements.

Of course, in other embodiments, the number of teeth of ratchet 214 may be greater or less than nine, the number of teeth of ratchet 214 may be set according to the number of water diversion ports 110, and the number of water diversion ports 110 may be set according to the number of passages.

In one embodiment, the switching assembly 200 includes a stopper 240, the stopper 240 is disposed on the water diversion assembly 100, and the stopper 240 can abut against the teeth of the ratchet 214. The reverse rotation of the ratchet 214 can be effectively limited by the arrangement of the stopper 240, and the butt joint stability of the water outlet 230 and the water diversion port 110 is improved.

Specifically, the stopper 240 includes a rotating shaft 241 and an abutting piece 242, one end of the abutting piece 242 is disposed on the water diversion assembly 100 through the rotating shaft 241, and the other end abuts against the gear teeth of the ratchet 214. The abutment 242 can be prevented from interfering with the forward rotation of the ratchet gear 214 by the abutment 242 rotating relative to the rotating shaft 241, while restricting the reverse rotation of the ratchet gear 214.

Further, the stopper 240 further includes a first elastic member 243, and the first elastic member 243 is used for ejecting the other end of the abutting member 242 toward the teeth of the ratchet wheel 214. The stability of the abutting piece 242 abutting against the gear teeth of the ratchet 214 can be effectively improved by the first elastic piece 243.

Further, one end of the first elastic member 243 is disposed at one end of the abutting member 242, and the other end is disposed on the water diversion assembly 100. The first elastic member 243 further enables the abutting member 242 to effectively abut against the gear teeth of the ratchet wheel 214, so as to prevent the abutting member 242 from being separated from the ratchet wheel 214 and not being capable of effective abutting.

In this embodiment, the first elastic member 243 is a spring. Of course, in other embodiments, the first elastic member 243 may be made of other elastic materials.

In one embodiment, the outlet member 212 has an outlet chamber 215, at least two outlet holes 216 are formed on an outer wall of the outlet member 212, and the outlet holes 216 are communicated with the outlet chamber 215. At least two outlet holes 216 are distributed at intervals along the circumferential direction of the outlet member 212, and the outlet 230 can be correspondingly communicated with one outlet hole 216. When the ratchet assembly 211 rotates relative to the water outlet member 212, the water outlet 230 is correspondingly communicated with the water dividing opening 110, and can be communicated with a water outlet hole 216, so that water in the water outlet cavity 215 can effectively enter the water dividing opening 110 through the water outlet hole 216 and the water outlet 230.

Specifically, the number of the water outlet holes 216 corresponds to the number of the gear teeth of the ratchet 214. When the ratchet wheel 214 rotates by the distance of one gear tooth, the water outlet 230 can move from one water outlet hole 216 to another adjacent water outlet hole 216, and simultaneously the water outlet 230 moves from one water dividing opening 110 to another adjacent water dividing opening 110, so that the water outlet hole 216, the water outlet 230 and the water dividing opening 110 are correspondingly communicated, and water flows effectively enter a passage corresponding to the water dividing opening 110.

In this embodiment, the water outlet member 212 includes a water dividing portion 2121 and a water outlet portion 2122, the inner wall of the water dividing portion 2121 defines the water outlet chamber 215, the water dividing portion 2121 is provided with a plurality of flow dividing holes 2123 arranged at intervals, and the flow dividing holes 2123 are communicated with the water outlet chamber 215. The water outlet part 2122 is sleeved on the water dividing part 2121 and has a distance with the water dividing part 2121, and the water outlet hole 216 is formed on the water outlet part 2122. The water can flow into the outlet chamber 215, through the diverging holes 2123 of the water shunt portion 2121, into the space between the outlet portion 2122 and the water shunt portion 2121, and further out through the outlet hole 216. By arranging the water dividing part 2121 and forming the water dividing holes 2123 on the water dividing part 2121, the water flow can more uniformly enter between the water outlet part 2122 and the water dividing part 2121, and further can more uniformly flow out from the water outlet holes 216, so that the stability of the water flow entering the water dividing port 110 is improved.

In one embodiment, the pathway switching mechanism 20 further comprises a water inlet sleeve 250, and one end of the water inlet sleeve 250 is connected to the water outlet member 212 and is communicated with the water outlet chamber 215. The provision of the inlet sleeve 250 facilitates efficient entry of water into the outlet chamber 215.

Specifically, one end of the water inlet sleeve 250 is provided with a blocking disc 251, one end of the water outlet member 212 facing the water inlet sleeve 250 is formed with a blocking ring 2124, and the blocking disc 251 is clamped in the blocking ring 2124, so that the water inlet sleeve 250 can be correspondingly communicated with the water outlet cavity 215. The blocking disk 251 and the blocking ring 2124 are clamped, so that the water flow can be effectively prevented from leaking from the joint of the water inlet sleeve 250 and the water outlet cavity 215.

In this embodiment, the shower apparatus 10 further includes a water tap 60 (shown in fig. 1), and the water outlet end of the water tap 60 is correspondingly connected to the water outlet 230 of the rotating member 210. Thereby enabling water to efficiently flow into outlet 230 and into water tap 110 through outlet hole 216. Specifically, the outlet end of the faucet 60 is correspondingly connected to the inlet housing 250, such that the water flow is effectively directed into the outlet chamber 215 through the inlet housing 250.

In one embodiment, the pushing member 220 further comprises a supporting arm 223, one end of the supporting arm 223 is disposed on the button 221, and the other end is connected to the pawl 222, and the pawl 222 is rotatable relative to the supporting arm 223. Engagement of pawl 222 with ratchet wheel 214 is facilitated by providing support arm 223 for pawl 222 to pass through the mounting platform.

In one embodiment, the access switching mechanism 20 further includes a housing 300 (shown in fig. 1), and the water diversion assembly 100 and the switching assembly 200 are disposed in the housing 300. The water diversion assembly 100 and the switching assembly 200 can be effectively protected by the arrangement of the housing 300.

Further, the pawl 222 is provided at one end of the button 221, and the other end of the button 221 is hinged to the housing 300. By pushing one end of button 221, which in turn pushes pawl 222, ratchet 214 is rotated by pawl 222.

Optionally, the pressing member 220 further includes a second elastic member 224, one end of the second elastic member 224 is disposed at one end of the button 221, and the other end abuts against the water outlet member 212 or the water inlet sleeve 250. The button 221 can be effectively reset by providing the second elastic member 224. After one end of the button 221 is pressed to complete one switching, the second elasticity resets the button 221, so that the next switching is convenient.

In one embodiment, the second elastic member 224 is a spring. Of course, in other embodiments, the second elastic member 224 may be made of other elastic materials.

Specifically, a fixed column 252 is formed on the water inlet sleeve 250, and the other end of the second elastic member 224 is disposed on the fixed column 252. The other end of the second elastic element 224 is effectively limited to move by the fixing column 252. Further, the fixing post 252 has a fixing hole, and the other end of the second elastic element 224 passes through the fixing hole.

In another embodiment, the rotating member 210 and the pressing member 220 may be a slider-crank mechanism or a cam mechanism, as long as the movement of the pressing member 220 can be converted into the rotation of the rotating member 210, which can improve the convenience of operation.

Referring to fig. 3, fig. 4 and fig. 6, in an embodiment, the water diversion assembly 100 includes a first fixed tray 120 and a passage assembly 130, the water diversion port 110 is opened on the first fixed tray 120, the passage assembly 130 is formed with at least two passages, and each passage is communicated with at least one water diversion port 110. Of course, the switching of different paths can also be realized by providing different numbers of path assemblies 130 and thus forming different numbers of paths.

In the present embodiment, the channel assembly 130 forms three independent channels, and the shower apparatus 10 includes a hand shower 30, a top shower 40 and a lower water outlet 50, wherein the hand shower 30, the top shower 40 and the lower water outlet 50 are respectively connected to one channel.

In this embodiment, each passage is communicated with at least two water distribution openings 110, and the water distribution openings 110 corresponding to different passages are arranged around the axis of the rotating member 210 in a staggered and spaced manner, so as to prevent two adjacent water distribution openings 110 from being communicated with the same passage correspondingly. When the rotor 210 rotates, the water outlet 230 moves from one water diversion opening 110 to another adjacent water diversion opening 110, and the switching of the passage can be completed.

Specifically, the passage assembly 130 includes a water sealing disc 140, a water retaining disc 150 and a water diversion disc 160, the water sealing disc 140, the water retaining disc 150 and the water diversion disc 160 are sequentially stacked, and the first fixing disc 120 is disposed on a side of the water diversion disc 160 opposite to the water retaining disc 150. Wherein, a first passage 161 is formed at one side of the water distribution tray 160 facing the first fixed tray 120, a second passage 162 is formed at one side of the water distribution tray 160 facing away from the first fixed tray 120, and a third passage 141 is formed at one side of the water sealing tray 140 facing the first fixed tray 120. The water blocking plate 150 is disposed between the water sealing plate 140 and the water diversion plate 160 to separate the second passage 162 from the third passage 141. By providing the water blocking tray 140, the water blocking tray 150, and the water diversion tray 160, the first passage 161, the second passage 162, and the third passage 141 are conveniently formed.

In this embodiment, three water diversion ports 110 correspond to first passage 161, second passage 162 and third passage 141, respectively, and water diversion ports 110 corresponding to different passages are arranged around the axis of ratchet 214 at intervals in a staggered manner. Therefore, when the ratchet assembly 211 rotates, the water outlet 230 moves from one water diversion opening 110 to another adjacent water diversion opening 110, and the switching of the passage can be completed. The switching efficiency is prevented from being influenced by the fact that two adjacent water distribution ports 110 are correspondingly communicated with the same passage.

Of course, in other embodiments, each path may also correspond to one, two, or four or other numbers of the water diversion ports 110, as long as the switching of different paths can be conveniently realized.

Furthermore, a clamping table 142 is formed on the water sealing disc 140, a clamping groove 152 is formed on the surface of the water blocking disc 150 facing the water sealing disc 140, and the clamping table 142 can be clamped in the clamping groove 152, so that the water blocking disc 150 is stably fixed on the water sealing disc 140.

Optionally, at least two water dividing sleeves 153 arranged at intervals are formed on the water blocking disc 150, and the water dividing sleeves 153 are arranged on one side of the water blocking disc 150, which faces away from the water dividing disc 160, and can be communicated with the third passage 141 formed by the water sealing disc 140. The water diversion disc 160 is provided with first water diversion holes 163 corresponding to the number of the water diversion sleeves 153, and the water diversion sleeves 153 penetrate through the first water diversion holes 163 and are correspondingly communicated with the water diversion port 110. The water blocking disk 150 can be fixedly connected with the water diversion disk 160 through the water diversion sleeve 153, so that the third passage 141 is effectively and correspondingly communicated with the water diversion port 110 of the first fixed disk 120.

In the present embodiment, three water dividing sleeves 153 are formed on the water blocking plate 150 at intervals. Of course, in other embodiments, two or another number of water dividing sleeves 153 may be formed on the water blocking disk 150.

Specifically, the water diversion tray 160 is provided with a second water diversion hole 164, and the second water diversion hole 164 is communicated with the second passage 162. A second water dividing hole 164 is disposed between every two adjacent first water dividing holes 163, so as to conveniently improve the switching efficiency of the second passage 162 and the third passage 141.

In the present embodiment, the number of the second water dividing holes 164 is the same as that of the first water dividing holes 163, and the number of the second water dividing holes 164 is three as that of the first water dividing holes 163. Of course, in other embodiments, the number of the second water dividing holes 164 and the first water dividing holes 163 may be two, four, or other numbers.

In one embodiment, the passage assembly 130 further includes a second fixing plate 170, and the second fixing plate 170 is disposed between the first fixing plate 120 and the water diversion plate 160. The second fixed disk 170 is opened with a third water dividing hole 171, and the third water dividing hole 171 is communicated with the first passage 161. The first water dividing hole 163 and the second water dividing hole 164 penetrate through the second fixing disk 170. And then the first water dividing hole 163, the second water dividing hole 164 and the third water dividing hole 171 can be conveniently and effectively connected to the water dividing opening 110, and then the water dividing opening can be conveniently and correspondingly communicated with the water outlet 230.

Specifically, the water diversion tray 160 is snapped onto the second fixing tray 170, so that the water diversion tray 160 and the second fixing tray 170 are effectively fixed together.

Optionally, a plurality of bosses 122 are formed on the surface of the first fixed disk 120 facing the second fixed disk 170, the bosses being spaced around the axis of the ratchet assembly 211, and the water diversion opening 110 is opened on the bosses 122 and penetrates through two opposite surfaces of the second fixed disk 170. The plurality of bosses 122 are correspondingly inserted into the first, second, and third water dividing holes 163, 164, and 171 of the second fixing disk 170. The first fixed disk 120 and the second fixed disk 170 are effectively butted by being arranged on the boss 122, and water flow is prevented from leaking from the joint of the first fixed disk 120 and the second fixed disk 170.

Of course, in other embodiments, the second fixed disk 170 or the first fixed disk 120 may also be omitted.

In this embodiment, one end of the first fixing plate 120, which faces away from the passage component 130, is inserted into the ratchet 214 and can abut against the sealing ring 213. Through wearing the one end of first fixed disk 120 to locate in ratchet 214, when ratchet 214 rotates the in-process that drives sealing ring 213 and rotate, reduce or avoid rivers to reveal between ratchet 214 and first fixed disk 120, effectively improve the leakproofness of switching between the different passageways.

In this embodiment, the water sealing disc 140, the water blocking disc 150, the water diversion disc 160, the second fixing disc 170 and the first fixing disc 120 are welded together, so that the water sealing disc 140, the water blocking disc 150, the water diversion disc 160, the second fixing disc 170 and the first fixing disc 120 are effectively fixed, and water leakage from the joint between the water sealing disc 140, the water blocking disc 150, the water diversion disc 160, the second fixing disc 170 and the first fixing disc 120 is avoided.

In other embodiments, the passage assembly 130 may further include the number and the structure of the water sealing disc 140, the water blocking disc 150 and the water diversion disc 160 according to the design application requirement, as long as the independent circulation among different passages can be realized.

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 path switching mechanism, comprising:

the water diversion assembly is provided with at least two independent passages, the water diversion assembly is provided with at least two water diversion ports, and each passage is communicated with at least one water diversion port; and

the switching assembly comprises a rotating piece and a pressing piece, the rotating piece is provided with a water outlet, one end of the pressing piece is abutted against the rotating piece, and the pressing piece is used for pushing the rotating piece to rotate so as to enable the water outlet to be correspondingly communicated with the water diversion port; wherein at least two of the water diversion ports are arranged around the axis of the rotating member at intervals.

2. The pathway switching mechanism of claim 1, wherein the rotating member comprises a ratchet assembly and a water outlet member, the ratchet assembly is sleeved on the water outlet member, the water outlet is provided on the ratchet assembly, the pressing member comprises a button and a pawl, one end of the pawl is provided on the button, and the other end of the pawl abuts against the ratchet assembly and can push the ratchet assembly to rotate.

3. The pathway switching mechanism of claim 2, wherein the ratchet assembly comprises a sealing ring and a ratchet wheel, the ratchet wheel is sleeved on the water outlet member through the sealing ring, the water outlet is provided on the sealing ring, and the sealing ring can rotate relative to the water outlet member along with the ratchet wheel.

4. The access switching mechanism of claim 3, wherein the number of gear teeth of the ratchet corresponds to the number of cutwater.

5. The path switching mechanism according to claim 3, wherein the water diversion assembly comprises a first fixing plate and a path assembly, the water diversion port is formed in the first fixing plate, at least two paths are formed in the path assembly, and one end of the first fixing plate, at which the water diversion port is formed, penetrates through the ratchet wheel and can abut against the sealing ring.

6. The path switching mechanism according to claim 5, wherein the path assembly comprises a water sealing disc, a water retaining disc and a water diversion disc, the water sealing disc, the water retaining disc and the water diversion disc are sequentially stacked, and the first fixing disc is arranged on a side of the water diversion disc opposite to the water retaining disc; a first passage is formed on one side, facing the first fixed disk, of the water distribution disk, a second passage is formed on one side, facing away from the first fixed disk, of the water distribution disk, and a third passage is formed on the water sealing disk.

7. The channel switching mechanism as claimed in any one of claims 2 to 6, wherein the water outlet member has a water outlet cavity, the outer wall of the water outlet member has at least two water outlet holes, the water outlet holes are communicated with the water outlet cavity, the at least two water outlet holes are spaced apart from each other along the circumference of the water outlet member, and the water outlet hole can be correspondingly communicated with one of the water outlet holes.

8. The path switching mechanism according to claim 7, wherein the water outlet member comprises a water dividing portion and a water outlet portion, the water outlet hole is formed in the water outlet portion, the inner wall of the water dividing portion defines the water outlet cavity, the water dividing portion is formed with a plurality of spaced apart diversion holes, the diversion holes are communicated with the water outlet cavity, and the water outlet portion is sleeved on the water dividing portion and spaced apart from the water dividing portion.

9. The path switching mechanism according to any one of claims 1 to 6, wherein each of said paths is in communication with at least two of said cutoffs, and the cutoffs associated with different ones of said paths are staggered about the axis of said rotatable member.

10. A shower apparatus, comprising:

the pathway switching mechanism of any one of claims 1-9; and

at least one shower head, wherein the shower head is communicated with one passage.

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