soap and water taps

By designing soap dispensers and water faucets that integrate water and mechanical soap dispensing functions, the problems of soap bottles occupying countertop space and being prone to tipping over are solved. This achieves seamless integration of soap dispensers and keeps the countertop clean, reducing cleaning workload.

CN224461603UActive Publication Date: 2026-07-07XIAMEN RUNNER IND CORP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN RUNNER IND CORP
Filing Date
2025-08-08
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing technologies, soap dispenser bottles are separately installed, occupying countertop space, are easy to tip over, and can easily wet the countertop during use, increasing the workload of cleaning.

Method used

Design a soap dispenser and water dispenser that integrates water pipe components, faucet bend components, and mechanical soap dispenser components. The movement of the faucet bend components drives the mechanical soap dispenser components to spray out soap liquid, avoiding taking up countertop space and keeping the countertop clean.

Benefits of technology

It achieves seamless integration of liquid soap, avoiding countertop occupation and wetting issues, reducing cleaning workload, and preventing the loss of liquid soap bottles.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a soap feeding and water faucet, and belongs to the technical field of bathroom sanitary wares. The first end part of a faucet elbow part is slidably installed in the mounting hole of a waterway part, and a mechanical soap feeding part is mounted on the waterway part and connected with the second end part of the faucet elbow part. In this way, when the user needs to use soap liquid during cleaning, the faucet elbow part can be driven to move relative to the waterway part, so that the second end part of the faucet elbow part drives the mechanical soap feeding part to spray the soap liquid into the soap liquid channel through the soap liquid outlet, and then the soap liquid can flow out of the soap outlet for use. In this way, the mechanical soap feeding part and the faucet elbow part are integrated into the waterway part, the soap feeding part does not need to use the space of a washstand surface, the surface is not wetted, and the cleanliness of the surface can be well maintained. Meanwhile, in public places, the work intensity of cleaning personnel is reduced, and soap liquid bottles are prevented from being lost.
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Description

Technical Field

[0001] This application relates to the field of bathroom fixtures technology, and in particular to a soap dispenser and a water dispenser. Background Technology

[0002] Currently, kitchen and bathroom faucets generally only dispense water. Users need to extract soap from other devices, such as soap dispensers, when washing hands or cleaning other items. This method has at least the following drawbacks: Countertop space is limited, and countertops are often slippery. Soap dispensers not only take up countertop space and are prone to falling, but they also tend to tip over when pressed. Furthermore, when users press the dispenser with wet hands, they repeatedly wet the countertop, increasing the cleaning workload. Utility Model Content

[0003] This application provides a soap dispenser and a water dispenser. It solves the problems of inconvenience in using a separate soap bottle, the space it occupies on the countertop, and the ease with which the soap bottle can tip over in the prior art. The technical solution is as follows:

[0004] On one hand, a soap dispenser and a water dispenser are provided, the soap dispenser and the water dispenser comprising:

[0005] Water system components, faucet bend components, and mechanical soap dispenser components;

[0006] The water system component is installed on the washbasin, and the portion located on one side of the washbasin surface has mounting holes;

[0007] The faucet bend component has a soap liquid channel, and the first end of the faucet bend component has a soap outlet communicating with the soap liquid channel; the second end of the faucet bend component is slidably installed in the mounting hole and has a soap inlet communicating with the soap liquid channel.

[0008] The mechanical soap dispenser is installed on the water circuit component, and is arranged opposite to and connected to the faucet bend component. The mechanical soap dispenser has a soap liquid inlet communicating with the soap inlet at one end near the second end of the faucet bend component.

[0009] The faucet bend component is configured such that, during its movement relative to the water system component under external force, it drives the mechanical soap-feeding component through the second end of the faucet bend component to spray soap liquid from the soap outlet into the soap liquid channel.

[0010] Optionally, the mechanical soap dispensing component includes: a piston pump and a fixed sleeve, wherein the piston pump is slidably installed in the fixed sleeve and engages with the second end of the faucet bend component, and the piston pump has the soap dispensing port; the fixed sleeve is connected to the water circuit component;

[0011] The faucet bend component is configured to move downward under pressure to push the mechanical soap-feeding component through the second end of the faucet bend component, causing the soap outlet to spray soap into the soap channel.

[0012] Optionally, the soap inlet is sleeved on the end of the piston pump that is provided with the soap outlet, and the second end of the faucet bend component abuts against the end of the piston pump that is provided with the soap outlet.

[0013] Optionally, the fixing sleeve is detachably connected to the water passage component.

[0014] Optionally, the faucet bend component has a water flow channel isolated from the soap liquid channel, the first end of the faucet bend component has a water outlet communicating with the water flow channel, and the second end of the faucet bend component has a water inlet communicating with the water flow channel.

[0015] The soap dispenser and water dispenser also include a switch valve installed on the water circuit component, the switch valve being used to control the flow of fluid entering the water circuit component to the water flow channel.

[0016] Optionally, the soap dispenser and water dispenser have a water dispensing state and a soap dispensing state. When switching from the water dispensing state to the soap dispensing state, the switch valve is closed, and the faucet bend component is pressed to push the soap dispensing component to spray soap liquid into the soap liquid channel through the soap liquid outlet. When switching from the soap dispensing state to the water dispensing state, the switch valve is opened to release the force on the faucet bend component.

[0017] Optionally, the faucet bend component includes: a bend and a soap channel component connected in communication, the soap channel component being detachably connected to the first end of the bend and connected to the mechanical soap dispensing component; the second end of the bend has the soap outlet and the water outlet; the end of the soap channel component near the mechanical soap dispensing component has the water inlet and the soap inlet.

[0018] Wherein, a portion of the soap liquid channel is distributed within the bend in the pipe fitting, and another portion of the soap liquid channel is distributed within the water soap channel fitting; a portion of the water flow channel is distributed within the bend in the pipe fitting, and another portion of the water flow channel is distributed within the water soap channel fitting.

[0019] Optionally, the bent pipe fitting and the water soap channel fitting are an integral structure.

[0020] Optionally, the bend includes: a bend body, a water flow pipe, and a soap solution pipe, both of which are installed in the bend body, with the water flow pipe having a portion of a water flow channel and the soap solution pipe having a portion of a soap solution channel.

[0021] Optionally, the bend has a vertical section and a curved section connected to each other, and the end of the vertical section opposite to the curved section is detachably connected to the soap channel component; the curved section is provided with the soap outlet and the water outlet.

[0022] The beneficial effects of the technical solutions provided in this application include at least the following:

[0023] By sliding the first end of the faucet bend component into the mounting hole of the water system component, the mechanical soap dispenser is installed on the water system component and connected to the second end of the faucet bend component. This allows the user to move the faucet bend component relative to the water system component when soap is needed during washing. The second end of the faucet bend component then drives the mechanical soap dispenser to spray soap into the soap channel through the soap outlet, allowing the soap to flow out. By integrating both the mechanical soap dispenser and the faucet bend component into the water system component, the soap dispenser does not require countertop space, preventing the countertop from getting wet and maintaining its cleanliness. This also reduces the workload of cleaning staff in public places and prevents the loss of soap bottles. Furthermore, when soap is needed for washing, simply controlling the faucet bend component to drive the mechanical soap dispenser to spray soap into the soap channel of the faucet bend component, allowing it to flow out through the soap outlet. Attached Figure Description

[0024] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying 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.

[0025] Figure 1 This is a schematic diagram of a soap dispenser and water faucet installed on a washbasin, according to an embodiment of this application.

[0026] Figure 2 This is a structural cross-sectional view of a soap dispenser and water dispenser provided in an embodiment of this application;

[0027] Figure 3 This is an exploded schematic diagram of a mechanical soap-feeding component provided in an embodiment of this application;

[0028] Figure 4 This is a cross-sectional view of another soap dispenser and water dispenser provided in an embodiment of this application;

[0029] Figure 5 This is a cross-sectional view of a mechanical soap-feeding component provided in an embodiment of this application;

[0030] Figure 6This is a partial structural cross-sectional view of a soap dispenser and water faucet provided in an embodiment of this application;

[0031] Figure 7 This is an exploded schematic diagram of a partial structure of a soap dispenser and a water faucet provided in an embodiment of this application.

[0032] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation

[0033] To make the objectives, technical solutions, and advantages of this application clearer, the embodiments of this application will be described in further detail below with reference to the accompanying drawings.

[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0035] It should be understood that the phrase "one embodiment" or "an embodiment" throughout the specification means that a specific feature, structure, or characteristic related to the embodiment is included in at least one embodiment of the present invention. Therefore, "in one embodiment" or "in an embodiment" appearing throughout the specification do not necessarily refer to the same embodiment. Furthermore, these specific features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

[0036] Please refer to Figure 1 and Figure 2 , Figure 1 This is a schematic diagram of a soap dispenser and water faucet installed on a washbasin, according to an embodiment of this application. Figure 2 This is a structural cross-sectional view of a soap dispenser and water faucet provided in an embodiment of this application. The soap dispenser and water faucet may include: a water circuit component 100, a faucet bend component 200, and a mechanical soap dispenser component 300.

[0037] The water pipe component 100 is installed on the washbasin A, and the portion located on one side of the washbasin A may have a mounting hole 101.

[0038] The faucet bend component 200 may have a soap liquid channel 201. The first end of the faucet bend component 200 may have a soap outlet k1 communicating with the soap liquid channel 201. The second end of the faucet bend component 200 may be slidably installed in the mounting hole 101 of the water circuit component 100 and may have a soap inlet k2 communicating with the soap liquid channel 201.

[0039] The mechanical soap dispenser 300 can be installed on the water system component 100, and is positioned opposite to and connected to the faucet bend component 200. The end of the mechanical soap dispenser 300 near the second end of the faucet bend component 200 can have a soap liquid inlet k3 that communicates with the soap inlet k2.

[0040] The faucet bend component 200 can be configured such that, during its movement relative to the water passage component 100 under external force, it drives the mechanical soap dispenser 300 to spray soap liquid into the soap liquid channel 201 through the soap liquid outlet k3 via its second end. It should be noted that after the force is released, the driving force of the faucet bend component 200 on the mechanical soap dispenser 300 decreases, causing the mechanical soap dispenser 300 to stop spraying soap liquid from the soap liquid outlet k3.

[0041] In this embodiment, the first end of the faucet bend component 200 is slidably installed in the mounting hole 101 of the water circuit component 100, and the mechanical soap dispenser 300 is installed on the water circuit component 100 and connected to the second end of the faucet bend component 200. Thus, when the user needs soap during washing, they can drive the faucet bend component 200 to move relative to the water circuit component 100, so that the second end of the faucet bend component 200 drives the mechanical soap dispenser 300 to spray soap into the soap channel 201 through the soap dispenser nozzle k3, and then the soap can flow out from the soap outlet k1 for use. In this way, both the mechanical soap dispenser 300 and the faucet bend component 200 are integrated into the water circuit component 100. The soap dispenser does not need to utilize the space of the washbasin countertop, does not wet the countertop, and can effectively maintain the cleanliness of the countertop. At the same time, in public places, it reduces the workload of cleaning staff and prevents the loss of soap bottles. In addition, when soap is needed for cleaning, simply control the faucet bend component 200 to drive the mechanical soap dispensing component 300 to spray soap into the soap channel 201 of the faucet bend component 200, and then the soap will flow out through the soap outlet k1 on the faucet bend component 200 for use.

[0042] In summary, this application provides a soap dispenser and water dispenser, which may include: a water system component 100, a faucet bend component 200, and a mechanical soap dispenser 300. The first end of the faucet bend component 200 is slidably installed in the mounting hole 101 of the water system component 100, and the mechanical soap dispenser 300 is installed on the water system component 100 and connected to the second end of the faucet bend component 200. Thus, when the user needs soap during washing, the faucet bend component 200 can be moved relative to the water system component 100, so that the second end of the faucet bend component 200 drives the mechanical soap dispenser 300 to spray soap into the soap channel 201 through the soap outlet k3, and the soap can then flow out from the soap outlet k1 for use. In this way, by integrating both the mechanical soap dispenser 300 and the faucet bend component 200 into the water system component 100, the soap dispenser does not need to utilize the space of the washbasin countertop, will not wet the countertop, and can effectively maintain the cleanliness of the countertop. At the same time, it reduces the workload of cleaning staff in public places and prevents the loss of soap bottles. In addition, when soap is needed for cleaning, simply control the faucet bend component 200 to drive the mechanical soap dispensing component 300 to spray soap into the soap channel 201 of the faucet bend component 200, and then it will flow out through the soap outlet k1 on the faucet bend component 200 for use.

[0043] Optional, please refer to Figure 3 and Figure 4 , Figure 3 This is an exploded schematic diagram of a mechanical soap-dispensing component provided in an embodiment of this application. Figure 4 This is a cross-sectional view of another soap dispenser and water dispenser provided in this application embodiment. The mechanical soap dispenser 300 may include a piston pump 310 and a fixed sleeve 320. The piston pump 310 can be slidably mounted in the fixed sleeve 320 and cooperates with the second end of the faucet bend component 200. The piston pump 310 may have a soap dispenser outlet k3. The fixed sleeve 320 may be connected to the water circuit component 100. The faucet bend component 200 may be configured to move downward under pressure, so that the second end of the faucet bend component 200 pushes the mechanical soap dispenser 300 to spray soap liquid into the soap liquid channel 201 through the soap liquid outlet k3. In this way, through the cooperation between the second end of the faucet bend component 200 and the piston pump 310, when the faucet bend component 200 is pressed down, the second end of the faucet bend component 200 drives the piston pump to spray soap liquid from the soap liquid outlet k3 into the soap liquid channel 201 of the faucet bend component 200.

[0044] Here, the soap inlet k2 located at the second end of the faucet bend component 200 can be sleeved onto the end of the piston pump 310 where the soap liquid inlet k3 is located, and the second end of the faucet bend component 200 abuts against the end of the piston pump 310 where the soap liquid inlet k3 is located. In this case, by the abutting engagement between the soap inlet k2 at the end of the faucet bend component 200 and the end of the piston pump 310 where the soap liquid inlet k3 is located, the piston pump 310 can be driven to spray soap liquid when the faucet bend component 200 is pressed. Here, the outer surface of the end of the piston pump 310 where the soap liquid inlet k3 is located may have a protrusion, and the edge of the soap inlet k2 at the end of the faucet bend component 200 may abut against the protrusion. It should be noted that, please refer to Figure 5 , Figure 5 This is a cross-sectional view of a mechanical soap dispenser provided in an embodiment of this application. The piston pump 310 is provided with a movable part 311, an elastic part 312 and a duckbill valve 313. The movable part 311 is used in conjunction with the faucet bend component 200. After the force on the faucet bend component 200 is released, the elastic part can drive the faucet bend component 200 to move in the opposite direction.

[0045] In this application, the fixing sleeve 320 can be detachably connected to the water circuit component 100. In this way, the mechanical soap dispenser 300 is installed in the water circuit component 100 at a position opposite to the faucet bend component 200 via the fixing sleeve 320. This makes it easy to disassemble the mechanical soap dispenser 300, and if the mechanical soap dispenser 300 needs to be repaired or replaced in the future, it is convenient for the user to disassemble the mechanical soap dispenser 300.

[0046] Optional, such as Figure 1 and Figure 4 As shown, the faucet bend component 200 may have a water flow channel 202 isolated from the soap solution channel 201. The first end of the faucet bend component 200 may have an outlet k4 communicating with the water flow channel 202, and the second end of the faucet bend component 200 may have an inlet k5 communicating with the water flow channel 202. The soap dispenser and water dispenser may also include a switch valve 400 installed on the water circuit component 100. The switch valve 400 can be used to control the flow of fluid entering the water circuit component 100 to the water flow channel 202. In this way, the faucet bend component 200 is simultaneously provided with a water flow channel 202 and a soap solution channel 201, improving the integration level of the faucet and increasing its multi-functional performance. It should be noted that... Figure 1 The faucet and valve configuration shown can be a split-type faucet. Figure 1 The faucet shown can also be configured with water system components to form an integrated faucet.

[0047] For example, the soap dispenser and water dispenser can have both water dispensing and soap dispensing states. When switching from the water dispensing state to the soap dispensing state, the switch valve is closed, and the faucet bend component 200 is pressed to push the soap dispensing component to spray soap liquid through the soap liquid outlet k3 into the soap liquid channel 201. When switching from the soap dispensing state to the water dispensing state, the switch valve is opened, releasing the force on the faucet bend component 200.

[0048] In the embodiments of this application, such as Figure 4 As shown, the faucet bend component 200 may include a connected bend component 210 and a soap / water channel component 220. The soap / water channel component 220 is detachably connected to the first end of the bend component 210 and connected to the mechanical soap dispensing component 300. The second end of the bend component 210 may have a soap outlet k1 and a water outlet k4, and the end of the soap / water channel component 220 near the mechanical soap dispensing component 300 may have a water inlet k5 and a soap inlet k2. A portion of the soap solution channel 201 may be distributed within the bend component 210, and another portion of the soap solution channel 201 may be distributed within the soap / water channel component 220. A portion of the water flow channel 202 may be distributed within the bend component 210, and another portion of the water flow channel 202 may be distributed within the soap / water channel component 220.

[0049] Here, the bend 210 and the soap channel 220 can be an integral structure. It should be noted that the bend 210 and the soap channel 220 can be manufactured separately and then assembled.

[0050] Optional, please refer to Figure 6 and Figure 7 , Figure 6 This is a partial structural cross-sectional view of a soap dispenser and water dispenser provided in an embodiment of this application. Figure 7 This is an exploded view of a partial structure of a soap dispenser and water dispenser according to an embodiment of this application. The bend fitting 210 may include: a bend fitting body 211, a water flow pipe 212, and a soap solution pipe 213. Both the water flow pipe 212 and the soap solution pipe 213 are installed within the bend fitting body 211. The water flow pipe 212 has a portion of a water flow channel 202 distributed within it, and the soap solution pipe 213 has a portion of a soap solution channel 201 distributed within it. It should be noted that one end of the water flow pipe 212 can connect to the water flow channel 202 of the soap dispenser fitting 220, and the other end can connect to the water outlet k4 provided on the bend fitting body 211. One end of the soap solution pipe 213 can connect to the soap solution channel 201 of the soap dispenser fitting 220, and the other end can connect to the soap outlet k1 provided on the bend fitting body 211. In addition, the water flow pipe 212 and the soap solution pipe 213 can be integrated with the body of the bend fitting 211, or separate water flow pipe 212 and soap solution pipe 213 can be installed inside the body of the bend fitting 211.

[0051] In this embodiment, the bend pipe 210 may have a vertical section and a curved section connected to each other. The end of the vertical section away from the curved section may be detachably connected to the soap channel 220. The curved section may be provided with a soap outlet k1 and a water outlet k4. In this way, the soap outlet k1 and the water outlet k4 can be provided at different positions on the curved section of the bend pipe 210.

[0052] In summary, this application provides a soap dispenser and water dispenser, which may include: a water system component 100, a faucet bend component 200, and a mechanical soap dispenser 300. The first end of the faucet bend component 200 is slidably installed in the mounting hole 101 of the water system component 100, and the mechanical soap dispenser 300 is installed on the water system component 100 and connected to the second end of the faucet bend component 200. Thus, when the user needs soap during washing, the faucet bend component 200 can be moved relative to the water system component 100, so that the second end of the faucet bend component 200 drives the mechanical soap dispenser 300 to spray soap into the soap channel 201 through the soap outlet k3, and the soap can then flow out from the soap outlet k1 for use. In this way, by integrating both the mechanical soap dispenser 300 and the faucet bend component 200 into the water system component 100, the soap dispenser does not need to utilize the space of the washbasin countertop, will not wet the countertop, and can effectively maintain the cleanliness of the countertop. At the same time, it reduces the workload of cleaning staff in public places and prevents the loss of soap bottles. In addition, when soap is needed for cleaning, simply control the faucet bend component 200 to drive the mechanical soap dispensing component 300 to spray soap into the soap channel 201 of the faucet bend component 200, and then it will flow out through the soap outlet k1 on the faucet bend component 200 for use.

[0053] In this application, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance. The term "multiple" refers to two or more unless otherwise expressly defined.

[0054] The above description is merely an optional embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A soap dispenser and a water dispenser, characterized in that, include: Water system components, faucet bend components, and mechanical soap dispenser components; The water system component is installed on the washbasin, and the portion located on one side of the washbasin surface has mounting holes; The faucet bend component has a soap liquid channel, and the first end of the faucet bend component has a soap outlet communicating with the soap liquid channel; the second end of the faucet bend component is slidably installed in the mounting hole and has a soap inlet communicating with the soap liquid channel. The mechanical soap dispenser is installed on the water circuit component, and is arranged opposite to and connected to the faucet bend component. The mechanical soap dispenser has a soap liquid inlet communicating with the soap inlet at one end near the second end of the faucet bend component. The faucet bend component is configured such that, during its movement relative to the water system component under external force, it drives the mechanical soap-feeding component through the second end of the faucet bend component to spray soap liquid from the soap outlet into the soap liquid channel.

2. The soap dispenser and water dispenser according to claim 1, characterized in that, The mechanical soap dispensing component includes: a piston pump and a fixed sleeve. The piston pump is slidably installed in the fixed sleeve and cooperates with the second end of the faucet bend component. The piston pump has the soap dispensing port. The fixed sleeve is connected to the water circuit component. The faucet bend component is configured to move downward under pressure to push the mechanical soap dispensing component from the soap outlet to the soap channel through the second end of the faucet bend component.

3. The soap dispenser and water dispenser according to claim 2, characterized in that, The soap inlet is fitted onto the end of the piston pump that has the soap outlet, and the second end of the faucet bend component abuts against the end of the piston pump that has the soap outlet.

4. The soap dispenser and water dispenser according to claim 2, characterized in that, The fixing sleeve is detachably connected to the waterway component.

5. The soap dispenser and water dispenser according to any one of claims 1-4, characterized in that, The faucet bend component has a water flow channel isolated from the soap liquid channel, the first end of the faucet bend component has a water outlet communicating with the water flow channel, and the second end of the faucet bend component has a water inlet communicating with the water flow channel. The soap dispenser and water dispenser also include a switch valve installed on the water circuit component, the switch valve being used to control the flow of fluid entering the water circuit component to the water flow channel.

6. The soap dispenser and water dispenser according to claim 5, characterized in that, The soap dispenser and water dispenser have water dispensing and soap dispensing states. When switching from water dispensing to soap dispensing, the switch valve is closed, and the faucet bend component is pressed to push the soap dispensing component to spray soap liquid from the soap liquid outlet into the soap liquid channel. When switching from soap dispensing mode to water dispensing mode, open the switch valve to release the force on the faucet's bend component.

7. The soap dispenser and water dispenser according to claim 5, characterized in that, The faucet bend component includes: a bend and a soap channel component connected together, the soap channel component being detachably connected to the first end of the bend and connected to the mechanical soap dispensing component; the second end of the bend has a soap outlet and a water outlet; the end of the soap channel component near the mechanical soap dispensing component has a water inlet and a soap inlet. Wherein, a portion of the soap liquid channel is distributed within the bend in the pipe fitting, and another portion of the soap liquid channel is distributed within the water soap channel fitting; a portion of the water flow channel is distributed within the bend in the pipe fitting, and another portion of the water flow channel is distributed within the water soap channel fitting.

8. The soap dispenser and water dispenser according to claim 7, characterized in that, The bent pipe and the soap channel are an integral structure.

9. The soap dispenser and water dispenser according to claim 7, characterized in that, The bend includes: a bend body, a water flow pipe, and a soap solution pipe. Both the water flow pipe and the soap solution pipe are installed in the bend body, and the water flow pipe has a portion of a water flow channel, while the soap solution pipe has a portion of a soap solution channel.

10. The soap dispenser and water dispenser according to claim 7, characterized in that, The bend has a vertical section and a curved section connected to each other. The end of the vertical section opposite to the curved section is detachably connected to the soap channel component. The curved section is provided with the soap outlet and the water outlet.