Shower head water distribution switching structure
By designing a shower head water distribution structure that includes a first water distribution seat, a second water distribution seat, a water distribution plate, a push rod, an elastic element, and a push rod, the problems of inconvenient operation and complex structure of existing shower head water distribution structures are solved, and convenient multi-level switching and low-cost maintenance are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN ATEAM SHOWERS TECH CO LTD
- Filing Date
- 2025-05-27
- Publication Date
- 2026-06-16
AI Technical Summary
The existing shower head water distribution structure struggles to balance ease of operation with structural complexity, resulting in a poor user experience and high production and maintenance costs.
The structure includes a first water distribution seat, a second water distribution seat, a water distribution plate, a push rod, an elastic element, and a push rod. The axial movement of the push rod drives the water distribution plate to rotate, realizing the switching of multiple water distribution modes. Combined with the operation of the push button and the slide rod, the water distribution switching process is simplified.
It enables flexible switching of water distribution modes, improves operational convenience, reduces production costs, and simplifies the maintenance process.
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Figure CN224358625U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of shower water circuit control technology, and specifically to a shower water distribution switching structure. Background Technology
[0002] Currently, showerheads on the market offer a wide variety of functions and are generally equipped with multiple water spray modes to meet the personalized needs of different users. The water distribution structure for switching water spray modes is also diverse, with existing types using buttons, knobs, and push knobs to switch water spray modes.
[0003] However, these water distribution structures each have their limitations in practical use. Using a knob to switch the water flow is not convenient enough, making one-handed operation difficult, which reduces the user experience to some extent. While using buttons or push-buttons allows for flexible switching between multiple levels, the corresponding structural design becomes more complex, increasing production costs and hindering later maintenance. Utility Model Content
[0004] The purpose of this utility model is to provide a shower head water distribution switching structure that is simple in structure and can improve the convenience of water distribution switching.
[0005] To achieve the above objectives, the solution of this utility model is: a shower head water distribution switching structure, including a first water distribution seat, a second water distribution seat, a water distribution plate, a push rod, an elastic element, and a push rod;
[0006] The first water distribution seat is equipped with a water inlet channel, which is connected to the water inlet of the shower head. The first water distribution seat is fixed on the second water distribution seat, and a water distribution chamber is formed between the first water distribution seat and the second water distribution seat.
[0007] The water divider is set in the water divider cavity and has a first shaft hole axially. The second water divider seat has a second shaft hole axially. One end of the push rod is axially fixed on the first water divider seat. The elastic element is set on the push rod and one end of the elastic element abuts against the first water divider seat. The other end of the elastic element abuts against one side of the water divider. The other end of the push rod passes through the first shaft hole of the water divider and is axially slidably connected to one end of the push rod. The other end of the push rod passes through the second shaft hole of the second water divider seat and extends to the outside of the second water divider seat.
[0008] The push rod has multiple first push blocks at one end, and the water divider has multiple second push blocks with inclined surfaces at the corresponding positions on the other side. The water divider has multiple first water divider holes, and the second water divider seat has multiple second water divider holes and multiple water divider channels. The second water divider holes are connected to the first water divider holes and the water divider channels respectively, and the water divider channels are connected to the shower head outlet.
[0009] The push rod moves axially to make the first push block abut against the inclined surface of the second push block of the water divider, thereby driving the water divider to rotate around the axis of the top rod, so that the water in the water divider cavity flows through the first water divider hole and the second water divider hole to the corresponding water divider channel.
[0010] In a preferred embodiment, a push button and a slide rod are also included. The slide rod is axially slidably mounted on the shower handle, and the push button is fixedly mounted on one end of the slide rod. The push button is used to axially push the slide rod so that the other end of the slide rod abuts against the other end of the push rod and drives the push rod to move axially.
[0011] In a preferred embodiment, the water-dividing plate is circular, and the first water-dividing hole and the second water-dividing hole are both fan-shaped. There are two first water-dividing holes. One semicircular area of the water-dividing plate is closed, and the two first water-dividing holes are opened in the other semicircular area of the water-dividing plate.
[0012] In a preferred embodiment, there are four first push blocks and four second push blocks. The four first push blocks are evenly distributed at one end of the push rod, and the four second push blocks are evenly distributed on the other side of the water divider and surround the first shaft hole. The inclined surface of each second push block is an arc-shaped surface.
[0013] In a preferred embodiment, the second water distribution seat is radially provided with two water distribution channels, the shower head of the shower head is provided with two shower outlet channels, each water distribution channel is connected to two second water distribution holes, the two water distribution channels are respectively connected to two shower outlet channels, and the shower outlet channels are connected to the shower outlet.
[0014] In a preferred embodiment, a sealing ring is further included, which is disposed in the second shaft hole of the second water distribution seat. The elastic element is a compression spring. One end of the push rod has a positioning blind hole, and the other end of the push rod passes through the first shaft hole of the water distribution plate and is embedded in the positioning blind hole at one end of the push rod.
[0015] In a preferred embodiment, a fixing seat is also included, wherein the fixing seat is fixedly installed on the shower head of the shower head, and the first water distribution seat, the second water distribution seat, and the handle of the shower head are fixedly installed on the fixing seat.
[0016] The beneficial effects of this utility model after adopting the above solution are as follows: This utility model uses the axial movement of the push rod to make the first push block abut against the inclined surface of the second push block of the water divider, thereby driving the water divider to rotate around the axis of the top rod, so that the water flow in the water divider cavity flows through the first water divider hole and the second water divider hole to the corresponding water divider channel, realizing the switching of water divider mode. The structure is simple, and by repeatedly pushing the push rod, the water divider mode can be switched cyclically, ensuring flexible switching between multiple water divider levels while also improving the convenience of use. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the water-switching structure in an embodiment of this utility model;
[0018] Figure 2 This is a rear view of the water-switching structure in an embodiment of this utility model;
[0019] Figure 3 yes Figure 2 Sectional view along the BB direction;
[0020] Figure 4 This is a partial exploded structural diagram of the water-switching structure in an embodiment of this utility model;
[0021] Figure 5 This is a schematic diagram of the structure of the second water distribution seat in an embodiment of this utility model;
[0022] Figure 6 This is a schematic diagram of the water-dividing plate in an embodiment of this utility model;
[0023] Figure 7 This is a schematic diagram of the push rod structure in an embodiment of this utility model;
[0024] Figure 8 This is a schematic diagram of the first push block of the push rod abutting against the second push block of the water separator to drive the water separator to rotate around its own axis in an embodiment of this utility model.
[0025] Figure 9 This is a schematic diagram of the water-switching structure installed on the shower head in an embodiment of this utility model;
[0026] Figure 10 This is a schematic diagram of the water-dividing switching structure installed on the shower head in another embodiment of this utility model;
[0027] Figure 11 This is a schematic diagram of the shower head handle with part of the housing removed in an embodiment of this utility model;
[0028] Figure 12 This is a partial exploded structural diagram of the shower head in an embodiment of this utility model;
[0029] Figure 13 This is a schematic diagram showing the relative positional relationship between the water-dividing plate and the second water-dividing seat in the first water-dividing state of this utility model embodiment;
[0030] Figure 14 This is a schematic diagram showing the relative positional relationship between the water-dividing plate and the second water-dividing seat in the second water-dividing state of this utility model embodiment;
[0031] Figure 15 This is a schematic diagram showing the relative positional relationship between the water-dividing plate and the second water-dividing seat in the three-stage water-dividing state of this utility model embodiment;
[0032] Figure 16This is a schematic diagram showing the relative positional relationship between the four-time water-dividing plate and the second water-dividing seat in an embodiment of this utility model.
[0033] Label Explanation:
[0034] 10. Shower head; 11. Shower spout; 12. Shower water channel;
[0035] 2. Handle;
[0036] 40. Water distribution chamber;
[0037] 41. First water distribution seat; 410. Water inlet channel;
[0038] 42. Second water distribution seat; 420. Second shaft hole; 4200. Limiting block; 4201. Limiting groove; 421. Water distribution channel; 422. Second water distribution hole;
[0039] 43. Water divider plate; 430. First shaft hole; 431. Second push block; 432. First water divider hole;
[0040] 44. Top rod;
[0041] 45. Elastic element; 450. Compression spring;
[0042] 46. Push rod; 460. First push block; 461. Positioning blind hole;
[0043] 47. Inclined surface;
[0044] 480. Push button; 481. Slide lever;
[0045] 49. Sealing ring;
[0046] 5. Fixture;
[0047] 61. First water distribution hole X; 62. First water distribution hole Y;
[0048] 71. Second water distribution hole A; 72. Second water distribution hole B; 73. Second water distribution hole C; 74. Second water distribution hole D;
[0049] 81. Water distribution channel J; 82. Water distribution channel K. Detailed Implementation
[0050] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments.
[0051] This embodiment provides a shower head water distribution switching structure, such as Figures 1 to 12 As shown, it includes a first water distribution seat, a second water distribution seat 42, a water distribution plate 43, a push rod 44, an elastic element 45, and a push rod 46;
[0052] The first water distribution seat is provided with a water inlet channel 41; 410, which is connected to the water inlet of the shower head. The first water distribution seat is fixed on the second water distribution seat 42, and a water distribution cavity 40 is formed between the first water distribution seat and the second water distribution seat 42.
[0053] The water distribution plate 43 is disposed in the water distribution cavity 40 and has a first shaft hole 430 axially formed. The second water distribution seat 42 has a second shaft hole 420 axially formed. One end of the push rod 44 is axially fixed on the first water distribution seat. The elastic element 45 is disposed on the push rod 44 and one end of the elastic element 45 abuts against the first water distribution seat. The other end of the elastic element 45 abuts against one side of the water distribution plate 43. The other end of the push rod 44 passes through the first shaft hole 430 of the water distribution plate 43 and is axially slidably connected to one end of the push rod 46. The other end of the push rod 46 passes through the second shaft hole 420 of the second water distribution seat 42 and extends to the outside of the second water distribution seat 42.
[0054] The push rod 46 has multiple first push blocks 460 at one end, and the water divider 43 has multiple second push blocks 431 with inclined surfaces 47 at the position corresponding to the first push blocks 460 on the other side. The water divider 43 has multiple first water divider holes 432, and the second water divider base 42 has multiple second water divider holes 422 and multiple water divider channels 421. The second water divider holes 422 are connected to the first water divider holes 432 and the water divider channels 421 respectively, and the water divider channels 421 are connected to the shower head outlet 11.
[0055] The push rod 46 moves axially to cause the first push block 460 to abut against the inclined surface 47 of the second push block 431 of the water divider 43, thereby driving the water divider 43 to rotate around the axis of the top rod 44, so that the water in the water divider cavity 40 flows through the first water divider hole 432 and the second water divider hole 422 to the corresponding water divider channel 421.
[0056] In this embodiment, the water distribution plate 43, the push rod 44, the elastic element 45, and the push rod 46 are all set in the water distribution cavity 40 formed after the first water distribution seat and the second water distribution seat 42 are fixedly installed. The structure is compact and can reduce the overall volume of the shower head.
[0057] like Figure 3 and Figure 4 As shown, one end of the push rod 44 is axially fixed on the first water distribution seat, providing stable support and rotation axis for the water distribution plate 43, and one end of the push rod 46 is axially slidably connected to the other end of the push rod 44, ensuring the stability of the push rod 46's movement.
[0058] Because multiple first push blocks 460, second push blocks 431, first water distribution holes 432, second water distribution holes 422, and water distribution channels 421 are provided, the water flow in the water distribution chamber 40 can be accurately guided to the corresponding water distribution channel 421 by the rotation of the water distribution plate 43, realizing a variety of different water distribution modes. In addition, the various components of the water distribution assembly adopt a detachable connection method, such as the push rod 44 passing through the first shaft hole 430 of the water distribution plate 43, and the push rod 46 passing through the second shaft hole 420 of the second water distribution seat 42, which is beneficial for installation and later maintenance.
[0059] like Figure 3 As shown, during the water distribution operation, the push rod 46 moves axially towards the first water distribution seat, causing the first push block 460 to abut against the inclined surface 47 of the second push block 431 of the water distribution plate 43, thereby driving the water distribution plate 43 to rotate around the axis of the top rod 44. Since one end of the elastic element 45 abuts against the first water distribution seat and the other end of the elastic element 45 abuts against one side of the water distribution plate 43, the push rod 46 will automatically reset under the action of the elastic element 45 for the next water distribution operation. The design is ingenious.
[0060] like Figures 9 to 12 As shown, this embodiment also includes a push button 480 and a slide rod 481. The slide rod 481 is axially slidably mounted on the shower handle 2. The push button 480 is fixedly mounted on one end of the slide rod 481 and is used to axially push the slide rod 481 so that the other end of the slide rod 481 abuts against the other end of the push rod 46 and drives the push rod 46 to move axially.
[0061] In this embodiment, the push button 480 is located outside the handle 2 for easy operation by the user. When the user pushes the push button 480, the other end of the slide rod 481 abuts against the other end of the push rod 46 and drives the push rod 46 to move axially toward the first water distribution seat. The first push block 460 at one end of the push rod 46 abuts against the inclined surface 47 of the second push block 431 of the water distribution plate 43, thereby driving the water distribution plate 43 to rotate around the axis of the top rod 44, thus performing the water distribution operation.
[0062] like Figure 6 As shown, the water-dividing plate 43 is circular, and the first water-dividing hole 432 and the second water-dividing hole 422 are both fan-shaped. There are two first water-dividing holes 432. One semicircular area of the water-dividing plate 43 is closed, and the two first water-dividing holes 432 are opened in the other semicircular area of the water-dividing plate 43. When the water-dividing plate 43 rotates to different positions, the relative positions of the two fan-shaped first water-dividing holes 432 and the second water-dividing holes 422 change, thereby controlling the water flow in the water-dividing chamber 40 to enter different water-dividing channels 421.
[0063] like Figure 6 and Figure 7As shown, there are four first push blocks 460 and four second push blocks 431. The four first push blocks 460 are evenly distributed at one end of the push rod 46, and the four second push blocks 431 are evenly distributed on the other side of the water divider 43 and surround the first shaft hole 430. The inclined surface 47 of each second push block 431 is an arc-shaped surface, so that the axial movement of the push rod 46 can be converted into the rotation of the water divider 43 around the axis of the top rod 44 by the first push blocks 460 cooperating with the inclined surface 47 of the second push blocks 431.
[0064] Specifically, such as Figure 5 As shown, a limiting groove 4201 matching the first push block 460 and the second push block 431 is provided in the second shaft hole 420 on one side of the second water distribution base 42. The limiting groove 4201 is composed of four limiting blocks 4200, that is, the limiting groove 4201 is also cross-shaped. Each limiting block 4200 is also provided with an inclined surface 47, which matches the inclined surface 47 of the second push block 431. Through the elastic force of the elastic element 45 on one side of the water distribution plate 43, the second push block 431 on the other side of the water distribution plate 43 and the first push block 460 at one end of the push rod 46 are fully embedded in the limiting groove 4201, ensuring that the water distribution plate 43 will not rotate around the axis of the top rod 44 due to the impact of the water flow in the water distribution chamber 40, thus ensuring the normal operation of the water distribution operation.
[0065] like Figure 4 As shown, the second water distribution seat 42 is radially provided with two water distribution channels 421, such as... Figure 12 As shown, the shower head 10 of the shower head is provided with two shower outlet channels 12. Each water distribution channel 421 is connected to two second water distribution holes 422. The two water distribution channels 421 are respectively connected to the two shower outlet channels 12. The shower outlet channels 12 are connected to the shower outlet 11.
[0066] After water is divided by the water divider 43, the water flow can be controlled to flow to one of the water distribution channels 421 or simultaneously to both water distribution channels 421. Different water outlet channels 12 can be set on the shower head 10. The two water distribution channels 421 are connected to the two water outlet channels 12 respectively, and the water finally flows out from different shower outlets 11. The user can set the water outlet channels 12 and the shower outlets 11, such as using different numbers and diameters of water nozzles at the shower outlets 11. This part can use the existing water outlet design of the shower head 10, which will not be discussed in detail. Of course, in other embodiments, the number of the first water distribution hole 432, the second water distribution hole 422, the water distribution channel 421, the first push block 460 and the second push block 431 can also be adjusted according to actual needs.
[0067] like Figure 3 and Figure 4As shown, this embodiment also includes a sealing ring 49, which is disposed in the second shaft hole 420 of the second water distribution seat 42 to improve the sealing performance of the water distribution chamber 40 and ensure the smooth operation of the water distribution. The elastic element 45 is a compression spring 450, but is not limited to it; it has a simple structure and is easy to install and remove. One end of the push rod 46 has a positioning blind hole 461, and the other end of the push rod 44 passes through the first shaft hole 430 of the water distribution plate 43 and is embedded in the positioning blind hole 461 at one end of the push rod 46, so that the push rod 46 plays a guiding role when moving axially, ensuring the smooth operation of the water distribution.
[0068] like Figure 12 As shown, it also includes a fixing seat 5, which can be fixedly installed on the shower head 10 of the shower head by means of screws or buckles. The first water distribution seat, the second water distribution seat 42 and the shower handle 2 are fixedly installed on the fixing seat 5. The structure is compact and facilitates later installation, removal and maintenance.
[0069] The principle of water separation is as follows:
[0070] The two first water-dividing holes 432 in the upper semicircular area of the water-dividing plate 43 are named as first water-dividing hole X61 and first water-dividing hole Y62 from left to right. The lower semicircular area of the water-dividing plate 43 is closed. The four second water-dividing holes 422 in the second water-dividing seat 42 are named as second water-dividing hole A71, second water-dividing hole B72, second water-dividing hole C73 and second water-dividing hole D74 from top to bottom and from left to right. The two water-dividing channels 421 are named as water-dividing channel J81 and water-dividing channel K82 from left to right.
[0071] Water separation state one:
[0072] In the default state, such as Figure 13 As shown, the first water distribution hole 432, first water distribution hole X61, and first water distribution hole Y62 are connected to the second water distribution hole 422, second water distribution hole A71, and second water distribution hole B72, respectively. The second water distribution hole 422, second water distribution hole C73, and second water distribution hole 422, second water distribution hole D74 are in a closed state. At this time, half of the water flow in the water distribution chamber 40 flows into the water distribution channel 421, water distribution channel J81, through the first water distribution hole 432, first water distribution hole X61, and second water distribution hole 422, second water distribution hole A71, while the other half flows into the water distribution channel 421, water distribution channel K82, through the first water distribution hole 432, first water distribution hole Y62, and second water distribution hole 422, second water distribution hole B72.
[0073] Water separation state two:
[0074] Reference Figure 3Pushing the push button 480 causes the other end of the slide rod 481 to abut against the other end of the push rod 46, driving the push rod 46 to move axially towards the first water distribution seat. The first push block 460 at one end of the push rod 46 abuts against the inclined surface 47 of the second push block 431 of the water distribution plate 43. Continuing to push the push button 480 causes the first push block 460 at one end of the push rod 46 to drive the water distribution plate 43 to overcome the elastic force of the elastic element 45 and leave the second shaft hole 420 of the second water distribution seat 42. Simultaneously, the water distribution plate 43 and the push rod 46 rotate around the axis of the top rod 44; this is the water distribution process.
[0075] Then, the push button 480 is released. Under the action of the elastic force, the elastic element 45 pushes open the water divider 43 after the rotation angle, together with the push rod 46. The first push block 460 of the push rod 46 is embedded in the limiting groove 4201 in the second shaft hole 420 of the second water divider 42. The second push block 431 of the water divider 43 first contacts the limiting block 4200 in the second shaft hole 420. Since the inclined surface 47 of the limiting block 4200 matches the inclined surface 47 of the second push block 431, under the continuous pushing of the elastic force of the elastic element 45, the second push block 431 continues to move and is embedded in the limiting groove 4201 in the second shaft hole 420. This is the reset process.
[0076] like Figure 14 As shown, the first water distribution holes 432 (X61 and Y62) are connected to the second water distribution holes 422 (B72 and D74), respectively. The second water distribution holes 422 (A71 and C73) are closed. At this time, all the water in the water distribution chamber 40 flows through the first water distribution holes 432 (X61, Y62, B72, and D74) into the water distribution channel 421 (K82), which is closed.
[0077] Water separation state three:
[0078] The water separation and reset processes in state three are the same as those in state two, and will not be described again here.
[0079] like Figure 15As shown, the first water distribution holes 432 (X61 and Y62) are connected to the second water distribution holes 422 (D74 and C73), respectively. The second water distribution holes 422 (A71 and B72) are closed. At this time, half of the water flow in the water distribution chamber 40 flows through the first water distribution holes 432 (Y62 and C73) to the water distribution channel 421 (J81), and the other half flows through the first water distribution holes 432 (X61 and D74) to the water distribution channel 421 (K82). Since there is water flow in both water distribution channels 421, J81, and K82, the water output state of the shower head in water distribution state three is the same as that in water distribution state one.
[0080] Water separation state four:
[0081] The water separation and reset processes in state four are the same as those in state two, so they will not be described again.
[0082] like Figure 16 As shown, the first water distribution holes 432 (X61 and Y62) are connected to the second water distribution holes 422 (C73 and A71), respectively. The second water distribution holes 422 (B72 and D74) are closed. At this time, all the water in the water distribution chamber 40 flows through the first water distribution holes 432 (X61, Y62, C73, and A71) into the water distribution channel 421 (J81), which is closed.
[0083] It should be noted that the water distribution states one through four will continuously cycle as the water distribution and reset processes are repeated. That is, when the push button 480 is pushed for the first time, it switches from water distribution state one to water distribution state two; when the push button 480 is pushed for the second time, it switches from water distribution state two to water distribution state three; when the push button 480 is pushed for the third time, it switches from water distribution state three to water distribution state four; when the push button 480 is pushed for the fourth time, it switches from water distribution state four to water distribution state one, and so on.
[0084] The directional terms used in this specification are defined relative to the structures shown in the accompanying drawings. They are relative concepts and may therefore vary depending on their location and usage. Therefore, these or other directional terms should not be interpreted as restrictive.
[0085] The above description is only a preferred embodiment of this utility model and is not intended to limit the design of this case. All equivalent changes made based on the key design of this case shall fall within the protection scope of this case.
Claims
1. A shower head water distribution switching structure, characterized in that: It includes a first water distribution seat, a second water distribution seat, a water distribution plate, a push rod, an elastic element, and a push rod; The first water distribution seat is equipped with a water inlet channel, which is connected to the water inlet of the shower head. The first water distribution seat is fixed on the second water distribution seat, and a water distribution chamber is formed between the first water distribution seat and the second water distribution seat. The water divider is set in the water divider cavity and has a first shaft hole axially. The second water divider seat has a second shaft hole axially. One end of the push rod is axially fixed on the first water divider seat. The elastic element is set on the push rod and one end of the elastic element abuts against the first water divider seat. The other end of the elastic element abuts against one side of the water divider. The other end of the push rod passes through the first shaft hole of the water divider and is axially slidably connected to one end of the push rod. The other end of the push rod passes through the second shaft hole of the second water divider seat and extends to the outside of the second water divider seat. The push rod has multiple first push blocks at one end, and the water divider has multiple second push blocks with inclined surfaces at the corresponding positions on the other side. The water divider has multiple first water divider holes, and the second water divider seat has multiple second water divider holes and multiple water divider channels. The second water divider holes are connected to the first water divider holes and the water divider channels respectively, and the water divider channels are connected to the shower head outlet. The push rod moves axially to make the first push block abut against the inclined surface of the second push block of the water divider, thereby driving the water divider to rotate around the axis of the top rod, so that the water in the water divider cavity flows through the first water divider hole and the second water divider hole to the corresponding water divider channel.
2. The shower head water distribution switching structure as described in claim 1, characterized in that: It also includes a push button and a slide rod. The slide rod is axially slidably mounted on the shower handle, and the push button is fixedly mounted on one end of the slide rod. The push button is used to axially push the slide rod so that the other end of the slide rod abuts against the other end of the push rod and drives the push rod to move axially.
3. The shower head water distribution switching structure as described in claim 1, characterized in that: The water-dividing plate is circular, and the first and second water-dividing holes are both fan-shaped. There are two first water-dividing holes. One semicircular area of the water-dividing plate is closed, and the two first water-dividing holes are opened in the other semicircular area of the water-dividing plate.
4. The shower head water distribution switching structure as described in claim 1, characterized in that: There are four first push blocks and four second push blocks. The four first push blocks are evenly distributed at one end of the push rod, and the four second push blocks are evenly distributed on the other side of the water divider and surround the first shaft hole. The inclined surface of each second push block is an arc-shaped surface.
5. The shower head water distribution switching structure as described in claim 1, characterized in that: The second water distribution seat has two water distribution channels arranged radially, and the shower head has two shower outlet channels. Each water distribution channel is connected to two second water distribution holes, and the two water distribution channels are respectively connected to two shower outlet channels. The shower outlet channels are connected to the shower outlet.
6. The shower head water distribution switching structure as described in claim 1, characterized in that: It also includes a sealing ring, which is set in the second shaft hole of the second water distribution seat. The elastic element is a compression spring. One end of the push rod has a positioning blind hole, and the other end of the push rod passes through the first shaft hole of the water distribution plate and is embedded in the positioning blind hole at one end of the push rod.
7. The shower head water distribution switching structure as described in claim 1, characterized in that: It also includes a fixing base, which is fixedly installed on the shower head of the shower head, and the first water distribution seat, the second water distribution seat and the handle of the shower head are fixedly installed on the fixing base.