Tap structure of soap dispenser

By integrating water dispensing and soap dispensing functions into a single soap dispenser faucet structure, the problem of separate faucet and soap dispenser installation taking up too much space is solved, achieving efficient use of basin space and convenient operation.

CN224369696UActive Publication Date: 2026-06-19BOGU (XIAMEN) IND DESIGN CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BOGU (XIAMEN) IND DESIGN CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In the existing technology, the faucet and soap dispenser are installed on the sink, which takes up a lot of space and is inconvenient to install and use.

Method used

Design a faucet structure that integrates water and soap dispensing functions. The water flow and soap flow are controlled by a first chamber and a second chamber that are not connected to each other. The piston pump and water control components operate independently, reducing the number of holes on the sink.

Benefits of technology

It effectively reduces the space occupied by the washbasin, improves the convenience of installation and use, shortens the distance to get soap and water, and enhances the stability and aesthetics of the integrated design.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model relates to a faucet structure for a soap dispenser, comprising: a body, a water outlet mechanism, and a soap dispensing assembly. The body has an opening, a water inlet, and a water outlet arranged sequentially from top to bottom, with the opening located at the top of the body. The body contains a first chamber and a second chamber that are not interconnected. The first chamber is connected to both the water inlet and the water outlet, while the second chamber is connected to the opening. The water outlet mechanism includes a water control component and an operating component connected together. The water control component is located within the first chamber, while the operating component is located outside the body and is movable relative to the body. The operating component is configured to, when movable, cause the water control component to open or close the water inlet. The soap dispensing assembly includes a soap dispenser head and a piston pump. The soap dispenser head is located above the opening and has a liquid outlet. The piston pump includes a connected body and a piston rod. The body is fixed within the second chamber and communicates with the soap solution. The piston rod is slidably disposed within the body and connected to the soap dispenser head through the opening, and also communicates with the liquid outlet.
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Description

Technical Field

[0001] This utility model relates to the field of faucet technology, and more specifically, to a faucet structure that integrates a soap dispenser. Background Technology

[0002] Liquid soap is a liquid detergent used for cleaning that breaks down grease and stains. It is used before rinsing to enhance cleaning effectiveness. A soap dispenser is a sanitary device that dispenses soap or detergent automatically or manually. It is usually installed on the same sink as the faucet for easy access. However, this requires drilling two holes in the sink for the faucet and soap dispenser respectively, and a certain distance needs to be maintained between them to avoid operational interference. This takes up considerable sink space and presents inconvenience in installation and use. Utility Model Content

[0003] The purpose of this utility model is to provide a faucet structure that integrates a soap dispenser, and the technical problems it solves are: how to reduce the space occupied by the sink, and how to improve the convenience of installation and use.

[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution.

[0005] This utility model provides a faucet structure for a soap dispenser, comprising: a body having an opening, a water inlet, and a water outlet arranged sequentially from top to bottom, with the opening located at the top of the body; the body having a first chamber and a second chamber that are not interconnected, the first chamber communicating with the water inlet and the water outlet respectively, and the second chamber communicating with the opening; a water dispensing mechanism including a water control component and an operating component connected to each other, the water control component being located in the first chamber, and the operating component being located outside the body and movable relative to the body, the operating component being configured to drive the water control component to open or close the water inlet when it is moved; and a soap dispensing assembly including a soap dispenser head and a piston pump, the soap dispenser head being located above the opening and having a liquid outlet, the piston pump including a body and a piston rod connected to each other, the body being fixed in the second chamber and used to communicate with soap liquid, the piston rod being slidably disposed within the body and connected to the soap dispenser head through the opening, and the piston rod communicating with the liquid outlet.

[0006] In some embodiments of this application, the first chamber includes a first part and a second part that are connected to each other. The first part extends vertically and is used to communicate with the outlet. The second part extends horizontally and is used to communicate with the inlet. The body includes a base and a mounting base. The base extends vertically and has the first part and the second chamber formed therein. The top of the base has the opening. The mounting base extends horizontally outward and has the second part formed therein. It has an operating port that communicates with the second part. The water control element is located in the second part, and the operating element is installed at the operating port.

[0007] In some embodiments of this application, the main body is provided with a connecting seat, which is located between the first part and the second part and has the water inlet. The faucet structure of the soap dispenser also includes a water inlet pipe, which is connected to the connecting seat. One end of the water inlet pipe is connected to the water inlet, and the other end extends from the bottom of the base and is connected to an external water source.

[0008] In some embodiments of this application, the water control element is a valve core, and it is provided with a water inlet and a water outlet. The water control element is connected to the connecting seat, and the water inlet is aligned with the water inlet. The water outlet is connected to the first part. The operating element is configured to drive the valve core to move when it is pressed down, so that the water inlet, the water inlet and the water outlet are connected.

[0009] In some embodiments of this application, the water inlet includes a cold water inlet and a hot water inlet, and the water outlet includes an ultra-cold water inlet and an ultra-hot water inlet. The cold water inlet and the ultra-cold water inlet are arranged opposite each other, and the hot water inlet and the ultra-hot water inlet are arranged opposite each other. The water inlet pipe includes a cold water pipe and a hot water pipe that are respectively connected to the connecting base. One end of the cold water pipe is connected to the cold water inlet, and the other end extends from the bottom end of the base and is connected to the cold water source. One end of the hot water pipe is connected to the hot water inlet, and the other end extends from the bottom end of the base and is connected to the hot water source.

[0010] In some embodiments of this application, the connecting seat is spaced apart from the side of the body away from the mounting seat, and its bottom is connected to the water inlet pipe; the soap dispensing assembly further includes a soap dispenser box and a liquid inlet pipe, the soap dispenser box being located below the base and used to store soap, one end of the liquid inlet pipe extending into the soap dispenser box, and the other end extending upward to enter the second chamber and passing through the spacer to communicate with the body.

[0011] In some embodiments of this application, the body further includes a water outlet seat extending horizontally outward, the water outlet seat being located above the mounting base and extending along a first horizontal direction, and the water outlet seat having the water outlet, the mounting base extending along a second horizontal direction, and the second horizontal direction being perpendicular to the first horizontal direction.

[0012] In some embodiments of this application, the second chamber extends vertically and includes an upper chamber and a lower chamber arranged sequentially from top to bottom. The upper chamber and the first part are arranged sequentially in the first horizontal direction and communicate with the opening. The lower chamber and the second part are arranged sequentially in the second horizontal direction, and the piston pump is located in the upper chamber.

[0013] In some embodiments of this application, the faucet structure of the soap dispenser further includes a fixing component, which includes a screw and a fixing plate. The screw is screwed to the body and extends downward. The fixing plate has an arc-shaped structure and is sleeved on the outside of the screw. The fixing plate is provided with a clearance groove for the liquid inlet pipe and the water inlet pipe to pass through.

[0014] In some embodiments of this application, the piston pump further includes a first ball valve, a spring, and a second ball valve. The piston rod has flow channels that communicate with the interior of the main body and the soap dispenser head, respectively. The first ball valve is disposed in the flow channel. The piston rod, spring, and second ball valve are arranged vertically. The spring and the second ball valve are both located inside the main body. The spring extends vertically, and its two ends are respectively connected to the bottom of the piston rod and the top of the second ball valve.

[0015] As can be seen from the above technical solution, the embodiments of this utility model have at least the following advantages and positive effects:

[0016] In the faucet structure of the integrated soap dispenser of this utility model embodiment, the water inlet is used to connect to an external water source. When the user applies an action to the operating component in the water outlet mechanism, it drives the water control component in the water outlet mechanism to open the water inlet. The water flow path is: water inlet - first chamber - water outlet, thereby ensuring the water outlet function of the faucet structure. The piston pump in the second chamber is used to connect the soap solution and the soap dispenser head. When the user presses down on the soap dispenser head, it drives the piston rod of the piston pump to slide downward in the main body of the piston pump, and the piston pump performs its function of conveying soap solution. At this time, the soap solution flow path is: piston pump - soap dispenser head - liquid outlet, thereby ensuring that the faucet structure has the function of dispensing soap solution. Furthermore, since the first chamber and the second chamber are not connected to each other, and the water control component and the piston pump are located in the first chamber and the second chamber respectively, it is ensured that the water outlet function and the soap dispensing function of the faucet structure can operate independently and stably.

[0017] Therefore, the faucet structure of this integrated soap dispenser combines water dispensing and soap dispensing functions. Compared to existing technologies that install the faucet and soap dispenser separately on the sink, this effectively reduces the space occupied by the sink. The integrated design also shortens the distance to dispensing soap and water, thus improving ease of use. Furthermore, the main body is the foundational component of this faucet structure; only a single hole needs to be drilled in the sink for connection, allowing the entire faucet structure to be installed, further enhancing installation convenience. Attached Figure Description

[0018] The various objectives, features, and advantages of this invention will become more apparent from the following detailed description of preferred embodiments in conjunction with the accompanying drawings. The drawings are merely illustrative illustrations of the invention and are not necessarily drawn to scale. In the drawings, the same reference numerals always denote the same or similar parts. Wherein:

[0019] Figure 1 This is a schematic diagram of the faucet structure of a soap dispenser according to an exemplary embodiment.

[0020] Figure 2 yes Figure 1 A sectional view.

[0021] Figure 3 yes Figure 2 A sectional view from another location.

[0022] Figure 4 yes Figure 1 Full sectional view.

[0023] Figure 5 yes Figure 1 A schematic diagram of its decomposed structure.

[0024] The annotations in the attached figures are explained as follows:

[0025] 1. Main body; 11. Water outlet base; 111. Water outlet; 112. Aerator; 12. First chamber; 121. First part; 122. Second part; 13. Second chamber; 131. Upper chamber; 132. Lower chamber; 14. Connecting seat; 1411. Cold water inlet; 1412. Hot water inlet; 142. Spacing; 143. Slot; 15. Mounting seat; 151. Operating port; 16. Base;

[0026] 2. Water outlet mechanism; 21. Water control component; 2111. Cold water inlet; 2112. Hot water inlet; 212. Shaft; 213. Insert post; 22. Operating component; 23. Decorative cover; 24. Top cover;

[0027] 3. Soap dispensing assembly; 31. Soap dispenser head; 311. Head; 312. Tubing section; 3121. Dispensing port; 32. Piston pump; 321. Main body; 322. Piston rod; 3221. Flow channel; 323. Spring; 324. First ball valve; 325. Second ball valve; 33. Soap liquid box; 34. Inlet pipe; 35. Fixing base;

[0028] 4. Water inlet pipe; 41. Cold water pipe; 42. Hot water pipe;

[0029] 5. Fixing component; 51. Screw; 52. Fixing plate; 53. Relief groove;

[0030] D1, first horizontal direction; D2, second horizontal direction. Detailed Implementation

[0031] Although the present invention can be readily embodied in various forms, only some specific embodiments are shown in the accompanying drawings and will be described in detail in this specification. It is understood that this specification should be regarded as an exemplary illustration of the principles of the present invention and is not intended to limit the present invention to what is described herein.

[0032] Therefore, a feature pointed out in this specification is used to describe one feature of one embodiment of the present invention, and does not imply that every embodiment of the present invention must have the described feature. Furthermore, it should be noted that this specification describes many features. Although certain features may be combined to illustrate possible system designs, these features may also be used in other combinations not explicitly stated. Therefore, unless otherwise stated, the described combinations are not intended to be limiting.

[0033] In the embodiments shown in the accompanying drawings, the directional indications (such as up, down, left, right, front, and back) used to explain the structure and movement of the various elements of this invention are relative rather than absolute. These descriptions are appropriate when these elements are in the positions shown in the drawings. If the descriptions of the positions of these elements change, these directional indications also change accordingly.

[0034] Please see Figures 1 to 5The faucet structure of the integrated soap dispenser provided in one embodiment of this utility model mainly includes a body 1, a water outlet mechanism 2, and a soap dispensing component 3. The body 1 has an opening, a water inlet, and a water outlet 111 arranged sequentially from top to bottom, with the opening located at the top of the body 1. The body 1 has a first chamber 12 and a second chamber 13 that are not interconnected. The first chamber 12 is connected to the water inlet and the water outlet 111, respectively, and the second chamber 13 is connected to the opening. The water outlet mechanism 2 includes a water control component 21 and an operating component 22 connected to each other. The water control component 21 is located inside the first chamber 12, and the operating component 22 is located outside the body 1 and can move relative to the body 1. The operating component 22 is configured to drive the water control component 21 to open or close the water inlet when it is in motion. The soap dispensing assembly 3 includes a soap dispenser head 31 and a piston pump 32. The soap dispenser head 31 is located above the opening and has a liquid outlet 3121. The piston pump 32 includes a body 321 and a piston rod 322 that are connected to each other. The body 321 is fixed in the second chamber 13 and is used to communicate with the soap liquid. The piston rod 322 is slidably disposed in the body 321 and is connected to the soap dispenser head 31 through the opening. The piston rod 322 is connected to the liquid outlet 3121.

[0035] In the faucet structure of the integrated soap dispenser of this utility model embodiment, the water inlet is used to connect to an external water source. When the user applies an action to the operating component 22 in the water outlet mechanism 2 to activate it, the water control component 21 in the water outlet mechanism 2 is activated to open the water inlet. The water flow path is: water inlet - first chamber 12 - water outlet 111, thereby ensuring the water outlet function of the faucet structure. The piston pump 32 in the second chamber 13 is used to connect the soap liquid and the soap dispenser head 31. When the user presses down on the soap dispenser head 31, the piston rod 322 of the piston pump 32 slides downward within the body 321 of the piston pump 32. The piston pump 32 performs its function of conveying soap liquid. At this time, the flow path of the soap liquid is: piston pump 32 - soap dispenser head - liquid outlet 3121, thereby ensuring that the faucet structure has the function of dispensing soap liquid. Furthermore, since the first chamber 12 and the second chamber 13 are not connected to each other, and the water control component 21 and the piston pump 32 are located in the first chamber 12 and the second chamber 13 respectively, the water output function and soap dispensing function of the faucet structure can be operated independently and stably.

[0036] Therefore, the faucet structure of this integrated soap dispenser combines water dispensing and soap dispensing functions. Compared to existing technologies that install the faucet and soap dispenser separately on the sink, this effectively reduces the space occupied by the sink. The integrated design also shortens the distance for obtaining soap and water, thus improving ease of use. Furthermore, the main body 1 is the basic component of this faucet structure; only a hole needs to be drilled in the sink to connect it to the main body 1, allowing the entire faucet structure to be installed on the sink, thereby improving installation convenience.

[0037] Furthermore, since the opening, water outlet 111, and water inlet are arranged vertically, with the opening located at the top of the main body 1 and the soap dispenser head 31 above the opening, this arrangement conforms to ergonomic principles. It allows users to perform natural and smooth hand movements when taking soap and water, without excessive twisting or stretching of the body, making operation more comfortable and convenient, thus improving the user experience. On the other hand, the rational vertical layout enhances the integration of the faucet structure, helping to further reduce the space occupied by the sink and making it more aesthetically pleasing. Moreover, the design of the soap dispenser head 31 being higher than the water outlet 111 effectively prevents water splashing and contamination of the liquid outlet 3121 during handwashing, making it more hygienic.

[0038] Please see Figure 2 , Figure 3 and Figure 5 In a specific embodiment, the first chamber 12 includes a first portion 121 and a second portion 122 that are connected. The first portion 121 extends vertically and is used to communicate with the outlet 111, while the second portion 122 extends horizontally and is used to communicate with the inlet. The body 1 includes a base 16 and a mounting base 15. The base 16 extends vertically and has the first portion 121 and the second chamber 13 formed therein, with an opening at its top. The mounting base 15 extends horizontally outward and has the second portion 122 formed therein, with an operating port 151 communicating with the second portion 122. The water control element 21 is located within the second portion 122, and the operating element 22 is installed at the operating port 151.

[0039] The water flow path is: inlet - second part 122 - first part 121 - outlet 111. The mounting base 15 can provide suitable installation space for the water outlet mechanism 2, avoiding excessive increase in the lateral dimension of the base 16 due to the installation of the water outlet mechanism 2, thereby further reducing the space occupied on the countertop.

[0040] Please see Figures 2 to 5 In a specific embodiment, a connecting seat 14 is provided inside the base 16. The connecting seat 14 is located between the first part 121 and the second part 122 and has a water inlet. The faucet structure of the soap dispenser also includes a water inlet pipe 4, which is connected to the connecting seat 14. One end of the water inlet pipe 4 is connected to the water inlet, and the other end extends from the bottom of the base 16 and is connected to an external water source.

[0041] As a key transition component between the first part 121 and the second part 122, the connecting seat 14 makes full use of the internal space of the base 16, making the layout of the entire faucet structure more compact and reasonable. In addition, the connecting seat 14 can provide precise positioning for the arrangement of the water inlet pipe 4, thereby enhancing the integrity and stability of the entire faucet structure. At the same time, the arrangement of the water inlet pipe 4 extending into the base 16 and connecting to the connecting seat 14 also improves the overall aesthetics.

[0042] Please see Figures 2 to 4 In a specific embodiment, the water control element 21 is a valve core, and it is provided with a water inlet and a water outlet. The water control element 21 is connected to the connecting seat 14, and the water inlet is aligned with the water inlet, and the water outlet is connected to the first part 121. The operating element 22 is configured to drive the valve core to move when it is pressed down, so that the water inlet, water inlet and water outlet are connected.

[0043] In other embodiments, the water control element 21 may be a baffle or other component used to switch the water inlet on or off.

[0044] When the operating element 22 is not operated, the valve core is in its initial position. At this time, the inlet, the water inlet and the water outlet on the valve core are blocked, and water cannot flow through the valve core to the first part 121. No water flows out of the outlet 111. When the user presses down on the operating element 22, the operating element 22 drives the valve core connected to it to move. During the movement of the valve core, the inlet, the water inlet and the water outlet gradually become open. The water from the external water source can enter the inlet, pass through the water inlet and the water outlet of the valve core in sequence, and then flow into the first part 121. It then flows along the first part 121 and finally reaches the water outlet seat 11 and sprays out from the outlet 111, thus completing the water dispensing of the faucet structure. This design makes the water flow path simple and clear, reduces unnecessary pipes and connecting parts, makes the internal layout of the entire faucet structure more compact, and is simple to operate, thereby further improving the convenience of use.

[0045] Please participate Figure 2 , Figure 3 and Figure 5 In this embodiment, the water control component 21 and the connecting seat 14 are respectively provided with a pin 213 and a slot 143. The pin 213 is inserted into the slot 143 to connect the water control component 21 and the connecting seat 14, thereby ensuring that the positions of the water control component 21 and the connecting seat 14 are relatively fixed, and ensuring that the water inlet and the water passage inlet can be accurately and stably aligned.

[0046] In a specific embodiment, the water inlet includes a cold water inlet 1411 and a hot water inlet 1412, and the water outlet includes an ultra-cold water inlet 2111 and an ultra-hot water inlet 2112. The cold water inlet 1411 and the ultra-cold water inlet 2111 are arranged opposite each other, and the hot water inlet 1412 and the ultra-hot water inlet 2112 are arranged opposite each other. The water inlet pipe 4 includes a cold water pipe 41 and a hot water pipe 42, which are respectively connected to the connecting base 14. One end of the cold water pipe 41 is connected to the cold water inlet 1411, and the other end extends from the bottom end of the base 16 and is connected to the cold water source. One end of the hot water pipe 42 is connected to the hot water inlet 1412, and the other end extends from the bottom end of the base 16 and is connected to the hot water source.

[0047] When the operating component 22 is pressed down, the cold water supplied by the cold water pipe 41 enters the valve core through the cold water inlet 1411 and the cold water outlet 2111 in sequence, and the hot water supplied by the hot water pipe 42 enters the valve core through the hot water inlet 1412 and the hot water outlet 2112 in sequence. The cold water and hot water mix to form mixed water, which enters the first part 121 from the water outlet of the valve core and finally sprays out from the water outlet 111, improving the comfort of use.

[0048] Please see Figure 2 , Figure 3 and Figure 5 In this embodiment, the water control component 21 is a mixing valve core, which is provided with a shaft 212. The shaft 212 extends out of the mounting base 15 through the operation port 151 of the mounting base 15. The operating component 22 is sleeved on the shaft 212. The action of pressing down on the operating component 22 can drive the shaft 212 to tilt downward relative to the water control component 21, and cause the relevant components inside the mixing valve core to move relative to the supercooled water port 2111 and the superheated water port 2112, so as to block or open them.

[0049] In this embodiment, the cold water pipe 41 and the hot water pipe 42 are respectively connected to the connecting seat 14 by threads to ensure the stability and reliability of the water supply from the inlet pipe 4.

[0050] In this embodiment, the water outlet 111 is equipped with an aerator 112. When the water flows through the aerator 112, air is drawn in and merges with the water flow to form a water flow containing a large number of tiny bubbles. This bubble water flow is more gentle and dense, which can further improve the comfort of use and enhance the water-saving effect.

[0051] In a further embodiment, the operating port 151 of the mounting base 15 is fitted with a decorative cover 23, and the water control component 21 is fitted with an upper cover 24 that is screwed to the inner wall of the mounting base 15.

[0052] Please see Figures 2 to 4 In a specific embodiment, there is a gap 142 between the connecting seat 14 and the side of the base 16 away from the mounting seat 15, and its bottom is connected to the water inlet pipe 4. The soap dispensing assembly 3 also includes a soap dispenser box 33 and a liquid inlet pipe 34. The soap dispenser box 33 is located below the base 16 and is used to store soap. One end of the liquid inlet pipe 34 extends into the soap dispenser box 33, and the other end extends upward to enter the second chamber 13 and passes through the gap 142 to communicate with the main body 321. This layout makes full use of the unused space below and inside the base 16, so that the faucet structure of the entire soap dispenser can integrate both water flow control and soap supply functions in a limited space. It does not appear too bulky due to the stacking of components, improves space utilization, and avoids interference between the liquid inlet pipe 34 and the water inlet pipe 4, ensuring the normal operation of each component and the stability of the structure.

[0053] Please see Figures 1 to 3 as well as Figure 5 In a specific embodiment, the main body 1 also includes a water outlet seat 11 extending horizontally outward. The water outlet seat 11 is located above the mounting seat 15 and extends along the first horizontal direction D1. The water outlet seat 11 has a water outlet 111. The mounting seat 15 extends along the second horizontal direction D2, and the second horizontal direction D2 is perpendicular to the first horizontal direction D1. The perpendicular layout of the mounting seat 15 and the water outlet seat 11 makes the force distribution of the entire faucet structure more reasonable, improves the overall aesthetics, and makes the position of the operating component 22 conform to the ergonomic principle. When the user operates the operating component 22, there is no need to bend or stretch excessively, making the operation easier and more comfortable.

[0054] In this embodiment, the first horizontal direction D1 is the front-to-back direction, and the second horizontal direction D2 is the left-to-right direction. Specifically, the water outlet seat 11 extends to the front of the base 16, and the mounting seat 15 extends to the right side of the base 16. This arrangement is more in line with ergonomic principles, thereby further improving the convenience of use.

[0055] Please see Figures 2 to 4 In a specific embodiment, the second chamber 13 extends vertically and includes an upper chamber 131 and a lower chamber 132 arranged sequentially from top to bottom. The upper chamber 131 and the first part 121 are arranged sequentially in the first horizontal direction D1 and communicate with an opening. The lower chamber 132 and the second part 122 are arranged sequentially in the second horizontal direction D2, and the piston pump 32 is located in the upper chamber 131. The first chamber 12, the second chamber 13, the first part 121, and the second part 122 form a three-dimensional intersecting structure, thereby making full use of the vertical space inside the base 16 and improving space utilization.

[0056] It can be inferred that the end of the inlet pipe 34 that connects to the main body 321 of the piston pump 32 needs to pass through the lower chamber 132 and the upper chamber 131 in sequence. Therefore, the inlet pipe 34 is arranged in a bent structure.

[0057] Please see Figure 1 and Figure 5 In a specific embodiment, the faucet structure of the soap dispenser also includes a fixing component 5. The fixing component 5 includes a screw 51 and a fixing plate 52. The screw 51 is screwed to the base 16 and extends downward. The fixing plate 52 has an arc-shaped structure and is sleeved on the outside of the screw 51. The fixing plate 52 is provided with a clearance groove 53 for the liquid inlet pipe 34 and the water inlet pipe 4 to pass through.

[0058] The screw 51 is used to connect the basin and the base 16. The fixing plate 52 is sleeved on the outside of the screw 51. Its clearance groove 53 is used to form a clearance for the liquid inlet pipe 34 and the water inlet pipe 4, and can effectively guide the arrangement of the liquid inlet pipe 34 and the water inlet pipe 4, thereby improving the stability and aesthetics of the faucet structure.

[0059] Please see Figure 3 In a specific embodiment, the piston pump 32 further includes a first ball valve 324, a spring 323, and a second ball valve 325. The piston rod 322 has a flow channel 3221 that communicates with the interior of the main body 321 and the soap dispenser head 31 respectively. The first ball valve 324 is located in the flow channel 3221. The piston rod 322, the spring 323, and the second ball valve 325 are arranged vertically. The spring 323 and the second ball valve 325 are both located in the main body 321. The spring 323 extends vertically, and its two ends are connected to the bottom of the piston rod 322 and the top of the second ball valve 325 respectively.

[0060] The downward pressing action of the soap dispenser head 31 causes the piston rod 322 to slide downward relative to the main body 321, compressing the spring 323 and creating positive pressure within the main body 321. At this time, the second ball valve 325 closes under pressure, and the first ball valve 324 opens under pressure, allowing the soap solution in the main body 321 to enter the soap dispenser head 31 through the flow channel 3221 and spray out from the outlet 3121. When the downward pressing force on the soap dispenser head 31 is removed, the spring 323 rebounds, driving the piston rod 322 back upward, creating negative pressure within the main body 321. At this time, the first ball valve 324 automatically closes, and the second ball valve 325 is drawn open to replenish the soap solution. This piston pump 32 has the advantages of stable structure and ease of implementation.

[0061] In this specific embodiment, the piston pump 32 further includes a fixed seat 35. The fixed seat 35 is threadedly connected to the open end of the base 16. Part of the fixed seat 35 is located inside the second chamber 13, and part is located outside the base 16. The portion of the fixed seat 35 inside the second chamber 13 supports the main body 321 of the piston pump 32 upwards, while the portion outside the base 16 provides guidance when the piston rod 322 drives the soap dispenser head 31 to move up and down, thereby improving the stability and reliability of the overall structure. In this embodiment, when the soap dispenser head 31 is pressed downwards, it gradually fits over the portion of the fixed seat 35 outside the base 16.

[0062] Please see Figures 1 to 5In the above embodiments, the soap dispenser head 31 includes a head 311 and a horizontally extending tube 312. The tube 312 has a liquid outlet 3121, and the head 311 is rotatably fitted onto the upper end of the piston rod 322 to adjust the horizontal orientation of the tube 312, thereby improving its flexibility and adaptability. In a preferred application scenario, the tube 312 is located directly above the water outlet seat 11. This layout design makes the output positions of water and soap more concentrated, and makes continuous operation of taking soap and water faster and more convenient.

[0063] In this embodiment, both the liquid outlet 3121 and the water outlet 111 are arranged downwards, which can reduce the splashing of soap liquid and water during the output process and improve the user experience.

[0064] Although the present invention has been described with reference to several typical embodiments, it should be understood that the terminology used is descriptive and exemplary, and not restrictive. Since the present invention can be embodied in many forms without departing from the spirit or essence of the invention, it should be understood that the above embodiments are not limited to any of the foregoing details, but should be interpreted broadly within the spirit and scope defined by the appended claims. Therefore, all variations and modifications falling within the scope of the claims or their equivalents should be covered by the appended claims.

Claims

1. A faucet structure of a soap dispenser, characterized by comprising: include: The main body has an opening, an inlet and an outlet arranged sequentially from top to bottom, with the opening located at the top of the main body. The main body has a first chamber and a second chamber that are not connected to each other. The first chamber is connected to the inlet and the outlet respectively, and the second chamber is connected to the opening. The water outlet mechanism includes a water control component and an operating component connected to each other. The water control component is located in the first chamber, and the operating component is located outside the main body and can move relative to the main body. The operating component is configured to drive the water control component to open or block the water inlet when it is in motion. The soap dispensing assembly includes a soap dispenser head and a piston pump. The soap dispenser head is located above the opening and has a liquid outlet. The piston pump includes a body and a piston rod that are connected to each other. The body is fixed in the second chamber and is used to communicate with the soap liquid. The piston rod is slidably disposed in the body and is connected to the soap dispenser head through the opening. The piston rod is also connected to the liquid outlet.

2. The faucet structure of the integrated soap dispenser according to claim 1, characterized in that, The first chamber includes a first part and a second part that are connected to each other. The first part extends vertically and is used to communicate with the outlet. The second part extends horizontally and is used to communicate with the inlet. The main body includes a base and a mounting base. The base extends vertically and has the first part and the second chamber formed therein, with the opening at its top. The mounting base extends horizontally outward and has the second part formed therein, with an operating port communicating with the second part. The water control element is located inside the second part, and the operating element is installed at the operating port.

3. The faucet structure of the integrated soap dispenser according to claim 2, characterized in that, The base is provided with a connecting seat, which is located between the first part and the second part, and has the water inlet. The faucet structure of the soap dispenser also includes a water inlet pipe, which is connected to the connecting seat. One end of the water inlet pipe is connected to the water inlet, and the other end extends from the bottom of the base and is connected to an external water source.

4. The faucet structure of the integrated soap dispenser according to claim 3, characterized in that, The water control component is a valve core, and it is provided with a water inlet and a water outlet. The water control component is connected to the connecting seat, and the water inlet is aligned with the water inlet. The water outlet is connected to the first part. The actuating element is configured to actuate the valve core when it is pressed down, thereby creating a connection between the inlet, the water inlet, and the water outlet.

5. The faucet structure of the integrated soap dispenser according to claim 4, characterized in that, The water inlet includes a cold water inlet and a hot water inlet, and the water outlet includes a cold water inlet and a hot water inlet. The cold water inlet and the cold water inlet are arranged opposite each other, and the hot water inlet and the hot water inlet are arranged opposite each other. The water inlet pipe includes a cold water pipe and a hot water pipe that are respectively connected to the connecting base. One end of the cold water pipe is connected to the cold water inlet, and the other end extends from the bottom of the base and is connected to the cold water source. One end of the hot water pipe is connected to the hot water inlet, and the other end extends from the bottom of the base and is connected to the hot water source.

6. The faucet structure of the integrated soap dispenser according to claim 3, characterized in that, There is a gap between the connecting seat and the side of the base away from the mounting seat, and its bottom is connected to the water inlet pipe; The soap dispensing assembly also includes a soap dispenser box and a liquid inlet pipe. The soap dispenser box is located below the base and is used to store soap. One end of the liquid inlet pipe extends into the soap dispenser box, and the other end extends upward to enter the second chamber and passes through the gap to communicate with the main body.

7. The faucet structure of the integrated soap dispenser according to claim 2, characterized in that, The main body also includes a water outlet seat extending horizontally outward. The water outlet seat is located above the mounting base and extends along a first horizontal direction, and the water outlet seat has the water outlet. The mounting base extends along a second horizontal direction, and the second horizontal direction is perpendicular to the first horizontal direction.

8. The faucet structure of the integrated soap dispenser according to claim 7, characterized in that, The second chamber extends vertically and includes an upper chamber and a lower chamber arranged sequentially from top to bottom. The upper chamber and the first part are arranged sequentially in the first horizontal direction and communicate with the opening. The lower chamber and the second part are arranged sequentially in the second horizontal direction, and the piston pump is located in the upper chamber.

9. The faucet structure of the integrated soap dispenser according to claim 7, characterized in that, It also includes a fixing component, which includes a screw and a fixing plate. The screw is screwed to the base and extends downward. The fixing plate has an arc-shaped structure and is sleeved on the outside of the screw. The fixing plate is provided with a clearance groove for the liquid inlet pipe and water inlet pipe to pass through.

10. The faucet structure of the integrated soap dispenser according to claim 1, characterized in that, The piston pump also includes a first ball valve, a spring, and a second ball valve. The piston rod has flow channels that communicate with the interior of the main body and the soap dispenser head, respectively. The first ball valve is located in the flow channel. The piston rod, spring, and second ball valve are arranged vertically. The spring and the second ball valve are both located inside the main body. The spring extends vertically, and its two ends are connected to the bottom of the piston rod and the top of the second ball valve, respectively.