Shelf faucet waterway structure and shower device
By connecting separately molded faucet water channel structure components with flexible molded tubes, the problems of long mold development cycle and high cost are solved, achieving low-cost and high-efficiency water channel structure manufacturing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAMEN RUNNER IND CORP
- Filing Date
- 2025-08-06
- Publication Date
- 2026-07-07
AI Technical Summary
The existing mold development cycle for the water channel structure of the faucet is long, the processing is difficult and the cost is high.
The mixing valve assembly, the outlet valve assembly, and the inlet connector assembly are molded separately, and the outlet, mixing inlet, and outlet valve inlet are connected by a flexible molded tube, avoiding the need for integral mold manufacturing.
It reduced processing difficulty and costs, shortened the development cycle, and improved production efficiency.
Smart Images

Figure CN224469735U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of shower equipment technology, and in particular to a water channel structure for a faucet and a shower device. Background Technology
[0002] The water circuit structure of a shower faucet refers to the water circuit structure installed within the shower faucet of a shower unit. It typically includes an inlet connector assembly, a mixing valve assembly, an outlet valve assembly, and connecting pipes. The inlet connector assembly is used to transport water of different temperatures through the connecting pipes between the inlet connector assembly and the mixing valve assembly to the mixing valve assembly for mixing. Then, through the connecting pipes between the mixing valve assembly and the outlet valve assembly, the mixed water is transported to the outlet valve assembly for discharge, ready for the user.
[0003] Currently, the water system structure of the faucet is manufactured using injection molding, which involves a long development cycle, high processing difficulty, and high cost. Utility Model Content
[0004] The purpose of this application is to provide a water channel structure for a storage faucet and a shower device, aiming to solve the problem of how to reduce processing difficulty and cost.
[0005] In a first aspect, embodiments of this application provide a water circuit structure for a faucet, including a separately formed mixing valve assembly, at least one outlet valve assembly, and at least two inlet connector assemblies;
[0006] Each of the aforementioned water inlet connector assemblies includes a water inlet flow path and a water inlet and a water outlet communicating with the water inlet flow path; the mixing valve assembly includes a mixing valve chamber and a mixing outlet communicating with the mixing valve chamber and at least two mixing inlets; the water outlet valve assembly has a water outlet flow path and a water outlet valve inlet and a water outlet valve outlet communicating with the water outlet flow path.
[0007] At least two of the mixing inlets correspond one-to-one with at least two of the water outlets, and each of the mixing inlets and the corresponding water outlets, as well as the mixing outlets and the water outlet valve inlets, are connected by a molding pipe.
[0008] In some embodiments, the formed tube is a bendable metal extrusion tube.
[0009] In some embodiments, any two of the forming tubes are arranged sequentially along the height direction of the faucet water passage structure; and / or, any two forming tubes are arranged sequentially along the width direction of the faucet water passage structure.
[0010] In some embodiments, the mixing valve assembly includes a mixing valve, a first pressure cap, and a first flow channel base, wherein the first pressure cap is sleeved outside the mixing valve and connected to the first flow channel base; the mixing inlet and the mixing outlet are both located in the first flow channel base, and the mixing valve cavity is located in the mixing valve.
[0011] And / or, the water outlet valve assembly includes a water outlet valve, a second pressure cap, and a second flow channel base. The second pressure cap is sleeved outside the water outlet valve and connected to the second flow channel base. The water outlet valve communicates with the inner cavity of the second flow channel base to form the water outlet flow path. The water outlet valve inlet is located at the second flow channel base, and the water outlet valve outlet is located at the water outlet valve.
[0012] In some embodiments, the faucet water circuit structure further includes a base plate, and the inlet connector assembly, the mixing valve assembly, and the outlet valve assembly are all disposed on the base plate.
[0013] In some embodiments, the water inlet connector assembly includes a water inlet connector, a water inlet connector seat, and a pipe clamp;
[0014] The water inlet connector is located inside the water inlet connector seat. The water inlet flow path is located in the water inlet connector, and the water inlet and the water outlet are respectively located at both ends of the water inlet connector. The pipe clamp and the base plate are connected and together enclose a clamping space that is adapted to the outer contour of the water inlet connector seat. The water inlet connector seat is clamped in the clamping space.
[0015] In some embodiments, a first connecting portion is provided on one of the pipe clamp and the base plate, and a second connecting portion is provided on the other of the pipe clamp and the base plate, wherein the first connecting portion and the second connecting portion are connected.
[0016] In some embodiments, both the first connecting portion and the second connecting portion are connecting holes, and the pipe clamp is connected to the base plate by a fastener passing through the connecting hole;
[0017] And / or, there are at least two first connecting parts, with at least two first connecting parts located on opposite sides of the water inlet connector seat, and at least two second connecting parts corresponding one-to-one with the first connecting parts.
[0018] In some embodiments, both the base plate and the pipe clamp are metal parts;
[0019] And / or, the water inlet connector seat is a plastic connector seat;
[0020] And / or, the position of the base plate corresponding to the water inlet connector seat is recessed in a direction away from the water inlet connector seat, so as to form the clamping space together with the pipe clamp;
[0021] And / or, the pipe clamp includes a curved portion and flat portions on both sides of the curved portion, the curved portion being adapted to the outer contour of the water inlet connector seat, and the two flat portions being parallel to and attached to the base plate and connected to the base plate.
[0022] Secondly, this application also provides a shower device, including a faucet water channel structure.
[0023] The beneficial effects of this utility model are:
[0024] This application provides a water circuit structure for a faucet and a shower device. The faucet water circuit structure includes a separately formed mixing valve assembly, at least one outlet valve assembly, and at least two inlet connector assemblies. The inlet of the inlet connector assembly is used to allow external water to flow in, and the outlet of the inlet connector assembly is connected to the mixing inlet of the mixing valve assembly to deliver the external water to the mixing valve chamber of the mixing valve assembly for mixing. After mixing, the water is then delivered to the outlet valve assembly via the mixing outlet of the mixing valve assembly for discharge, for user use. Furthermore, in this embodiment, the corresponding outlet and mixing inlet, as well as the mixing outlet and outlet valve inlet, are directly connected by a pre-formed pipe. Therefore, there is no need to develop a mold to manufacture the entire faucet water circuit structure, resulting in lower manufacturing costs, a shorter development cycle, and reduced processing difficulty. Attached Figure Description
[0025] To more clearly illustrate the technical solutions of the embodiments of this application, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0026] Figure 1 This is a schematic diagram of the water channel structure of the faucet shown in the embodiment of this application;
[0027] Figure 2 The explosion of the water channel structure of the faucet shown in the embodiment of this application. Figure 1 ;
[0028] Figure 3 The explosion of the water channel structure of the faucet shown in the embodiment of this application. Figure 2 ;
[0029] Figure 4 The explosion of the water channel structure of the faucet shown in the embodiment of this application. Figure 3 .
[0030] Figure label:
[0031] 100. Mixing valve assembly; 110. Mixing outlet; 120. Mixing inlet; 130. Mixing valve; 140. First gland; 150. First flow channel base; 200. Outlet valve assembly; 210. Outlet valve inlet; 220. Outlet valve outlet; 230. Outlet valve; 240. Second gland; 250. Second flow channel base; 300. Inlet connector assembly; 310. Inlet; 320. Outlet; 330. Inlet connector; 340. Inlet connector seat; 350. Pipe clamp; 351. Curved part; 352. Flat part; 360. Clamping space; 400. Formed tube; 500. Base plate; 510. Connecting hole; 520. Fastener; 600. Fixing clamp. Detailed Implementation
[0032] In the embodiments of this application, the terms "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined with "first," "second," "third," "fourth," "fifth," and "sixth" may explicitly or implicitly include one or more of that feature.
[0033] In embodiments of this application, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element.
[0034] Reference Figures 1 to 4 As shown, this application provides a water circuit structure for a faucet, including a mixing valve assembly 100, at least one outlet valve assembly 200, and at least two inlet connector assemblies 300, each of which is formed separately.
[0035] Each inlet connector assembly 300 includes an inlet flow path and an inlet 310 and an outlet 320 connected to the inlet flow path; the mixing valve assembly 100 includes a mixing valve chamber and a mixing outlet 110 and at least two mixing inlets 120 connected to the mixing valve chamber; the outlet valve assembly 200 has an outlet flow path and an outlet valve inlet 210 and an outlet valve outlet 220 connected to the outlet flow path.
[0036] At least two mixing inlets 120 correspond one-to-one with at least two outlets 320, and each mixing inlet 120 and its corresponding outlet 320, as well as the mixing outlet 110 and the outlet valve inlet 210, are connected by a forming pipe 400.
[0037] In practice, at least two inlet connector assemblies 300 can be used to input water at different temperatures. For example, two inlet connector assemblies 300 can be set, one for cold water and the other for hot water. Then, the cold and hot water enter the mixing valve chamber through the corresponding outlet 320 and mixing inlet 120 to mix and form water at a suitable temperature. The water is then discharged through the mixing outlet 110 to the outlet valve assembly 200 for user use.
[0038] In practice, the inlet connector assembly 300, the mixing valve assembly 100, and the outlet valve assembly 200 can be molded separately and then connected to the corresponding outlet 320 and mixing inlet 120, as well as the mixing outlet 110 and outlet valve inlet 210 through the molding tube 400. Therefore, it is not necessary to use a mold to make the entire faucet water circuit structure, which can simplify the processing difficulty, shorten the processing cycle, and save the mold opening cost.
[0039] For example, the outlet valve assembly 200 may have at least two mixing valve 130 inlets and at least two mixing valve 130 outlets, so as to select different mixing valve 130 outlets to achieve drainage as needed. For example, refer to Figure 1 As shown, the mixing valve 130 inlet and mixing valve 130 outlet can both be set to three.
[0040] In summary, the water circuit structure of the faucet in this embodiment includes a separately formed mixing valve assembly 100, a water outlet valve assembly 200, and at least two water inlet connector assemblies 300. The water inlet 310 of the water inlet connector assembly 300 is used to allow external water to flow in, and the water outlet 320 of the water inlet connector assembly 300 is connected to the mixing inlet 120 of the mixing valve assembly 100 to deliver external water to the mixing valve chamber of the mixing valve assembly 100 for mixing. After mixing, the water is then delivered to the water outlet valve assembly 200 via the mixing outlet 110 of the mixing valve assembly 100 for discharge, for user use. Meanwhile, in this embodiment, the corresponding water outlet 320 and mixing inlet 120, and the mixing outlet 110 and water outlet valve inlet 210 are directly connected by a formed pipe 400. Therefore, there is no need to develop a mold to manufacture the entire water circuit structure of the faucet, resulting in lower manufacturing costs, shorter development cycles, reduced processing difficulty, and lower quality control difficulty.
[0041] In some embodiments, the forming tube 400 is a bendable metal extrusion tube. This design allows the forming tube 400 to be bent freely according to the actual water flow direction to connect the corresponding water flow, so as to flexibly adjust the shape of the forming tube 400 to adapt to the corresponding water flow.
[0042] For example, the formed tube 400 can be a stainless steel extruded tube or an alloy extruded tube.
[0043] Furthermore, metal extruded tubes have good structural strength and can be manufactured without molds, resulting in lower overall manufacturing costs, shorter development cycles, reduced processing difficulty, and lower quality control complexity.
[0044] Reference Figure 1 As shown, in some embodiments, any two of the molded tubes 400 are aligned along the height of the faucet water channel structure (refer to...). Figure 1 Arranged sequentially in the z direction (as shown), the shaped tubes 400 can be reasonably arranged according to the internal space of the shower unit's shelf.
[0045] Alternatively, any two molding tubes 400 can be set along the width of the faucet's water channel structure (refer to...). Figure 1 Arranged sequentially in the y-direction shown, the shaped tubes 400 can be reasonably arranged according to the internal space of the shower unit's shelf.
[0046] Alternatively, two of the forming tubes 400 can be arranged sequentially along the height of the faucet's water passage structure, and the other forming tube 400 can be arranged sequentially with the two forming tubes 400 along the width of the faucet's water passage structure, thus forming a structure as shown in the image. Figure 1 The layout shown is designed to maximize the use of the internal space of the shelves, achieving a compact and organized arrangement.
[0047] Reference Figures 1 to 4 As shown, in some embodiments, the mixing valve assembly 100 includes a mixing valve 130, a first pressure cap 140, and a first flow channel base 150. The first pressure cap 140 is sleeved on the mixing valve 130 and connected to the first flow channel base 150. The mixing inlet 120 and the mixing outlet 110 are both located on the first flow channel base 150, and the mixing valve cavity is located on the mixing valve 130.
[0048] In a specific implementation, the mixing valve 130 has a mixing valve chamber. The first flow channel base 150 has an inner cavity flow channel, and both the mixing inlet 120 and the mixing outlet 110 are located in the first flow channel base 150. In actual use, the water discharged through the outlet 320 first enters the inner cavity flow channel through the mixing inlet 120, then enters the mixing valve chamber for mixing, and then flows through the inner cavity flow channel to the mixing outlet 110, and finally is delivered to the outlet valve assembly 200 for discharge.
[0049] For example, the first pressure cap 140 can be a cylindrical structure and sleeved on the outside of the mixing valve 130 and fixed relative to the mixing valve 130. For example, the two can be interference fit, snap-fit, or welded together.
[0050] The inner wall of the first pressure cap 140 near the first flow channel base 150 is provided with a connecting structure for connecting with the connecting structure on the first flow channel base 150. For example, the connecting structures on both can be internal threads and external threads, respectively, to achieve connection through the engagement of the internal and external threads. Alternatively, the connecting structures on both can be a snap-fit and a snap-hole, respectively, to achieve connection through the snap-fit and snap-hole engagement.
[0051] Reference Figures 1 to 4 As shown, in some embodiments, the water outlet valve assembly 200 includes a water outlet valve 230, a second pressure cap 240, and a second flow channel base 250. The second pressure cap 240 is sleeved on the outside of the water outlet valve 230 and connected to the second flow channel base 250. The water outlet valve 230 communicates with the inner cavity of the second flow channel base 250 to form a water outlet flow path. The water outlet valve inlet 210 is located in the second flow channel base 250, and the water outlet valve outlet 220 is located in the water outlet valve 230.
[0052] In practice, the second flow channel base 250 has an internal cavity flow channel, and the inner cavity of the outlet valve 230 is connected to the internal cavity flow channel to form an outlet flow path. The outlet valve inlet 210 is located in the second flow channel base 250, and the outlet valve outlet 220 is located in the outlet valve 230. In actual use, the water discharged from the mixing outlet 110 enters the internal cavity flow channel through the outlet valve inlet 210, then enters the valve cavity of the outlet valve 230, and is discharged through the outlet valve outlet 220.
[0053] For example, the second pressure cap 240 can be a cylindrical structure and sleeved on the outside of the water outlet valve 230 and fixed relative to the water outlet valve 230. For example, the two can be interference fit, snap-fit, or welded together.
[0054] The inner wall of the second pressure cap 240, near the end of the second flow channel base 250, is provided with an assembly structure for connecting with the assembly structure on the second flow channel base 250. For example, the assembly structures on both can be internal threads and external threads, respectively, to achieve connection through the engagement of the internal and external threads. Alternatively, the assembly structures on both can be a snap-fit and a snap-hole, respectively, to achieve connection through the snap-fit and snap-hole engagement.
[0055] For example, the outlet valve assembly 200 can be configured as follows: Figure 1 The number shown can be three, or it can be set to two, four or more.
[0056] Reference Figures 1 to 4As shown, in some embodiments, the water circuit structure of the faucet also includes a base plate 500, and the inlet connector assembly 300, the mixing valve assembly 100 and the outlet valve assembly 200 are all disposed on the base plate 500, so that the inlet connector assembly 300, the mixing valve assembly 100 and the outlet valve assembly 200 can be fixed and the entire structure can be connected as a whole for subsequent assembly.
[0057] For example, the base plate 500 can be a stainless steel plate or an alloy plate.
[0058] In addition, the specific fixing methods can be welding, screwing, or snap-fit.
[0059] Reference Figures 1 to 4 As shown, in some embodiments, the water inlet connector assembly 300 includes a water inlet connector 330, a water inlet connector seat 340, and a pipe clamp 350.
[0060] The water inlet connector 330 is located inside the water inlet connector seat 340. The water inlet flow path is located in the water inlet connector 330, and the water inlet 310 and the water outlet 320 are respectively located at both ends of the water inlet connector 330. The pipe clamp 350 and the base plate 500 are connected and together enclose to form a clamping space 360 that is adapted to the outer contour of the water inlet connector seat 340. The water inlet connector seat 340 is clamped in the clamping space 360.
[0061] In other words, the inlet connector seat 340 is accommodated by the clamping space 360 formed by the pipe clamp 350 and the base plate 500, and the pipe clamp 350 and the base plate 500 are connected so that the inlet connector seat 340 can be reliably clamped between them to improve the structural strength, so as to ensure that the inlet connector assembly 300 as the water inlet end can have sufficient structural strength, and the whole structure is simple to process and has low cost.
[0062] For example, the pipe clamp 350 specifically includes a curved portion 351 and flat portions 352 disposed on both sides of the curved portion 351. The curved portion 351 is adapted to the outer contour of the water inlet connector seat 340, and the two flat portions 352 are parallel to and attached to the base plate 500 and connected to the base plate 500 so as to achieve reliable fixation.
[0063] Specifically, the curved part 351 can be semi-circular or can be set according to the outer contour of the water inlet connector seat 340.
[0064] Reference Figures 1 to 4As shown, in some embodiments, a first connecting part is provided on one of the pipe clamp 350 and the base plate 500, and a second connecting part is provided on the other of the pipe clamp 350 and the base plate 500. The first connecting part and the second connecting part are connected to achieve a reliable connection between the pipe clamp 350 and the base plate 500, which can effectively clamp the water inlet connector seat 340 and strengthen the structure.
[0065] Reference Figures 1 to 4 As shown, in some embodiments, both the first connecting part and the second connecting part are connecting holes 510, and the pipe clamp 350 is connected to the base plate 500 through fasteners 520 passing through the connecting holes 510, thereby achieving a reliable connection.
[0066] For example, both connecting holes 510 can be smooth holes, and the fastener 520 can be a fastening pin. Alternatively, one of the two connecting holes 510 can be a smooth hole, and the other can be a threaded hole, and the fastener 520 can be a screw.
[0067] Alternatively, in other implementations, one of the first connecting part and the second connecting part can be a snap fastener, and the other can be a snap hole that engages with the snap fastener.
[0068] Reference Figures 1 to 4 As shown, in some embodiments, there are at least two first connecting parts, which are located on opposite sides of the water inlet connector seat 340. There are at least two second connecting parts, which correspond one-to-one with the first connecting parts. Thus, the connection stability between the base plate 500 and the pipe clamp 350 can be further improved by the cooperation of at least two first connecting parts and at least two second connecting parts.
[0069] For example, there can be two of each of the first and second connecting parts, meaning that there is one first connecting part and one second connecting plate on each side. Alternatively, there can be three or four or more of each of the first and second connecting parts.
[0070] In some embodiments, the base plate 500 and the pipe clamp 350 are both metal parts, thereby giving them sufficient structural strength.
[0071] For example, the inlet connector 340 is a plastic connector, which can be molded from plastic to ensure lead-free and environmentally friendly processing, as well as lower cost and facilitate lightweight design.
[0072] In specific implementation, refer to Figures 1 to 4 As shown, the position of the base plate 500 corresponding to the water inlet connector seat 340 is recessed in the direction away from the water inlet connector seat 340, so as to form a clamping space 360 together with the pipe clamp 350.
[0073] That is, the part of the base plate 500 corresponding to the water inlet connector seat 340 is recessed in a direction away from the water inlet connector seat 340, so that part of the base plate 500 can form a clamping part that is compatible with the pipe clamp 350, thereby allowing it and the pipe clamp 350 to jointly enclose and form a clamping structure.
[0074] Using part of the base plate 500 itself to form the clamping part can save costs and simplify the structure.
[0075] In addition, in this embodiment, the mixing valve assembly 100, the inlet connector assembly 300, the outlet valve assembly 200, the molding pipe 400, etc. are all located on the same side of the base plate 500 to facilitate structural layout.
[0076] In addition, a fixing clip 600 can be set to fix the forming tube 400 and corresponding components, such as fixing the forming tube 400 and the water inlet connector 330 by the fixing clip 600, or fixing the forming tube 400 and the first flow channel base 150 by the fixing clip 600, or fixing the forming tube 400 and the second flow channel base 250 by the fixing clip 600.
[0077] For example, the fixing clip 600 can be a U-shaped clip or a clamp clip.
[0078] Reference Figures 1 to 4 As shown in the figure, this application embodiment also provides a shower device, including a faucet water channel structure.
[0079] The specific structure and implementation principle of the faucet water channel structure in this embodiment are the same as those of the faucet water channel structure provided in the above embodiments, and can bring the same or similar technical effects. They will not be described in detail here, but can be referred to the description of the above embodiments.
[0080] For example, a shower device can be a shower head or the like.
[0081] In the description of the embodiments of this application, specific features, structures, materials or characteristics may be combined in any suitable manner in one or more embodiments or examples.
[0082] The above are merely specific embodiments of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.
Claims
1. A water channel structure for a faucet, characterized in that, It includes separately molded mixing valve assembly (100), at least one outlet valve assembly (200), and at least two inlet connector assemblies (300); Each of the aforementioned water inlet connector assemblies (300) includes a water inlet flow path and a water inlet (310) and a water outlet (320) communicating with the water inlet flow path; the mixing valve assembly (100) includes a mixing valve chamber and a mixing outlet (110) communicating with the mixing valve chamber and at least two mixing inlets (120); the water outlet valve assembly (200) has a water outlet flow path and a water outlet valve inlet (210) and a water outlet valve outlet (220) communicating with the water outlet flow path; At least two of the mixing inlets (120) correspond one-to-one with at least two of the water outlets (320), and each of the mixing inlets (120) and the corresponding water outlets (320), as well as the mixing outlet (110) and the water outlet valve inlet (210), are connected by a forming pipe (400).
2. The water channel structure of the faucet according to claim 1, characterized in that, The formed tube (400) is a bendable metal extrusion tube.
3. The water channel structure of the faucet according to claim 1, characterized in that, Of all the molding tubes (400), any two molding tubes (400) are arranged sequentially along the height direction of the faucet water channel structure; and / or, any two molding tubes (400) are arranged sequentially along the width direction of the faucet water channel structure.
4. The water channel structure of the faucet according to claim 1, characterized in that, The mixing valve assembly (100) includes a mixing valve (130), a first pressure cap (140), and a first flow channel base (150). The first pressure cap (140) is sleeved on the mixing valve (130) and connected to the first flow channel base (150). The mixing inlet (120) and the mixing outlet (110) are both located on the first flow channel base (150), and the mixing valve cavity is located on the mixing valve (130). And / or, the water outlet valve assembly (200) includes a water outlet valve (230), a second pressure cap (240), and a second flow channel base (250). The second pressure cap (240) is sleeved on the water outlet valve (230) and connected to the second flow channel base (250). The water outlet valve (230) communicates with the inner cavity of the second flow channel base (250) to form the water outlet flow path. The water outlet valve inlet (210) is located on the second flow channel base (250), and the water outlet valve outlet (220) is located on the water outlet valve (230).
5. The water channel structure for the faucet according to any one of claims 1 to 4, characterized in that, The water circuit structure of the faucet also includes a base plate (500), and the inlet connector assembly (300), the mixing valve assembly (100) and the outlet valve assembly (200) are all located on the base plate (500).
6. The water channel structure of the faucet according to claim 5, characterized in that, The water inlet connector assembly (300) includes a water inlet connector (330), a water inlet connector seat (340), and a pipe clamp (350); The water inlet connector (330) is located inside the water inlet connector seat (340). The water inlet flow path is located in the water inlet connector (330), and the water inlet (310) and the water outlet (320) are respectively located at both ends of the water inlet connector (330). The pipe clamp (350) and the base plate (500) are connected and together enclose to form a clamping space (360) that is adapted to the outer contour of the water inlet connector seat (340). The water inlet connector seat (340) is clamped in the clamping space (360).
7. The water channel structure of the faucet according to claim 6, characterized in that, A first connecting portion is provided on one of the pipe clamp (350) and the base plate (500), and a second connecting portion is provided on the other of the pipe clamp (350) and the base plate (500), and the first connecting portion and the second connecting portion are connected.
8. The water channel structure of the faucet according to claim 7, characterized in that, Both the first connecting part and the second connecting part are connecting holes (510), and the pipe clamp (350) is connected to the base plate (500) through a fastener (520) passing through the connecting hole (510); And / or, the first connecting part is at least two, and at least two first connecting parts are provided on opposite sides of the water inlet connector seat (340), and the second connecting part is at least two and corresponds one-to-one with the first connecting part.
9. The water channel structure of the faucet according to claim 6, characterized in that, Both the base plate (500) and the pipe clamp (350) are metal parts; And / or, the water inlet connector (340) is a plastic connector; And / or, the position of the base plate (500) corresponding to the water inlet connector seat (340) is recessed in a direction away from the water inlet connector seat (340) so as to jointly enclose the clamping space (360) with the pipe clamp (350); And / or, the pipe clamp (350) includes a curved portion (351) and flat portions (352) disposed on both sides of the curved portion (351). The curved portion (351) is adapted to the outer contour of the water inlet connector seat (340). The two flat portions (352) are parallel to and attached to the base plate (500) and connected to the base plate (500).
10. A shower device, characterized in that, Includes the water channel structure of the faucet as described in any one of claims 1 to 9.